Example embodiments of the present invention generally relate to dispensers and, more particularly to, sheet product dispensers.
Hand towel dispensers (e.g., sheet product dispensers or product dispensers) are useful in many environments for providing on demand paper towels for users. Due to their compact nature, it is difficult to provide a large, long standing supply of paper towels. Thus, janitors or other maintenance personnel (e.g., maintainers) are often required to replace empty paper towels. The variable nature of use, however, makes it difficult for a maintainer to predict when a replacement will be needed. Moreover, schedule demands of a maintainer and the desire to avoid wasting paper left on a roll leads to the situation where the maintainer may be unsure whether or not to replace a towel roll. In this regard, the situation of having no paper towels in the dispenser (a completely empty scenario) may arise.
Some example embodiments of the present invention include a dispenser that can accommodate two full paper towel rolls. This gives the greatest opportunity to avoid a completely empty scenario and also allows a maintainer to wait to replace a roll until it is completely used (since a full second roll is available), which helps reduce waste by avoiding a maintainer discarding a partially used sheet product roll.
Further, some example embodiments of the present invention provide two separate dispensing mechanisms, one for each roll. This avoids the need for a transfer mechanism, enables easy switching between dispensing from each roll, and can simplify management of the webbing from each paper towel roll within the dispenser.
Additionally, however, another goal of some example dispensers described herein is to provide for quick and easy/intuitive loading. In this regard, some example embodiments of the present invention provide a configuration that makes each dispensing mechanism and roll holder easily accessible for loading (as either product roll may need to be replaced and loaded into the corresponding dispensing mechanism). For example, various described embodiments herein enable the bottom roll holders to move away from their storage position within the dispenser. This movement enables a maintainer to manipulate the web path leading from the top product roll to the corresponding dispensing mechanism and/or the web path leading from the bottom product roll to the corresponding dispensing mechanism—offering flexibility in loading. Further, some example embodiments separate the movable bottom roll holders from the cover, enabling more flexibility in positioning of the bottom roll holders with the cover open. Many concepts utilizing this general configuration are described herein.
A further goal of some embodiments of the present invention includes providing a dispenser that avoids jamming or other complications through effective web management. In this regard, some embodiments of the present invention seek to separate the two web paths from the two product rolls to avoid undesired interaction that may lead to a jamming scenario. To accomplish this, some example embodiments of the present invention provide web guide structures that separate the web paths and product rolls. In some embodiments, the web guide structures move out of the dispenser housing when the cover opens to facilitate easy loading of new product rolls. Many concepts utilizing web guide structures are described herein.
In some embodiments, a roll partition is provided to achieve many of the above noted desired benefits. In this regard, the roll partition may separate the web paths for each product roll and aid in intuitive loading of each product roll. In some embodiments, the roll partition may articulate out of the dispenser housing separately from the cover to enable a user full access to a second product roll for replacement and loading into a back/rear dispensing mechanism. Various features such as funnel covers and nip covers can be utilized to further aid with intuitive installation. Roll holders with retention mechanisms can be utilized to prevent unintentional dropping of the installed product roll, such as when the roll partition is rotated forward.
Some embodiments of the present invention provide software related features that enable efficient operation of the product dispenser. For example, some embodiments of the present invention employ motor operation sensing to aid in dispensing a product according to a desired sheet length. Some embodiments of the present invention provide for automatic or assisted loading of the leading edge of the product roll into the dispensing mechanism. Other beneficial features include automatic switching between product rolls for dispensing when one of the product rolls is depleted, always dispensing from the smaller (e.g., more depleted) product roll first, and many others described herein.
An example embodiment of the present invention provides a sheet product dispenser comprising a first roll holder configured to support a first product roll and a second roll holder configured to support a second product roll. The sheet product dispenser further includes a housing including a base portion and a cover. The cover is movable relative to the base portion to define an open position and a closed position. The housing is sized such that a full size first product roll and a full size second product roll fit within the housing when the cover is in the closed position. The sheet product dispenser further includes a first dispensing mechanism configured to receive sheet product of the first product roll and dispense a portion of the sheet product of the first product roll. The sheet product dispenser further includes a second dispensing mechanism configured to receive sheet product of the second product roll and dispense a portion of the sheet product of the second product roll. The second roll holder is movable between a first position and a second position spaced from the first position. The second roll holder is configured to move separately from the cover.
In some embodiments, movement of the second roll holder to the second position may enable a user to at least one of load the first product roll into the first roll holder, load the sheet product of the first product roll into the first dispensing mechanism, load the second product roll into the second roll holder, or load the sheet product of the second product roll into the second dispensing mechanism.
In some embodiments, movement of the second roll holder to the second position may enable a user to at least one of load the first product roll into the first roll holder or load the sheet product of the first product roll into the first dispensing mechanism.
In some embodiments, movement of the second roll holder to the second position may prevent a user from being able to load the sheet product of the second product roll into the second dispensing mechanism.
In some embodiments, the sheet product dispenser may further include a roll partition pivotally attached to the base portion and movable between a first roll partition position within the base portion and a second roll partition position spaced from the first roll partition position. The second roll holder is connected to the roll partition and movable with the roll partition. The roll partition is movable independent of the cover. When the roll partition is in the second roll partition position, a user is able to at least one of load the first product roll into the first roll holder or load the sheet product of the first product roll into the first dispensing mechanism.
In some embodiments, the sheet product dispenser may further include a nip cover movable between a first nip cover position and a second nip cover position. The nip cover may be configured to move between the first nip cover position and the second nip cover position with movement of the roll partition from the first roll partition position to the second roll partition position. The nip cover may be configured to prevent access to the first dispensing mechanism by the user when in the first nip cover position. The nip cover may be configured to prevent access to the second dispensing mechanism by the user when in the second nip cover position.
In some embodiments, the second roll holder may comprise a retention mechanism configured to prevent removal of an installed second product roll when the roll partition rotates to the second roll partition position.
In some embodiments, the roll partition may separate a first web path from a second web path. The first web path leads from the first product roll to the first dispensing mechanism, and the second web path leads from the second product roll to the second dispensing mechanism.
In some embodiments, the roll partition may comprise side wall portions that are configured to fit between the base portion and the cover when the cover is in the closed position. The side wall portions may each form a portion of an exterior of the sheet product dispenser.
In some embodiments, the sheet product dispenser may further comprise at least one dampener configured to dampen rotation of the roll partition between the first roll partition position and the second roll partition position.
In some embodiments, the roll partition may be configured to removably attach to the base portion of the housing when in the first roll partition position. In some embodiments, the roll partition and the base portion of the housing may be configured such that attachment of the roll partition to the base portion of the housing or detachment of the roll partition from the base portion of the housing creates an audible noise to indicate occurrence of attachment or detachment. In some embodiments, the second roll holder may comprise an attachment linkage. The base portion of the housing may comprise an attachment feature that receives the attachment linkage of the second roll holder when the roll partition is in the first roll partition position.
In some embodiments, the second roll holder is configured to move to the second position with movement of the cover to the open position.
In some embodiments, movement of the second roll holder to the second position may be independently actuable from movement of the cover to the open position.
In some embodiments, the housing may define a first web path leading from the first product roll to the first dispensing mechanism and a second web path leading from the second product roll to the second dispensing mechanism. The dispenser may further comprise at least one web guide structure configured to separate at least one of the first web path or the first product roll from at least one of the second product roll or the second web path. The at least one web guide structure may be attached to the cover such that the web guide structure is removed from the base portion when the cover is in the open position to enable a user to load the sheet product of the first product roll into the first dispensing mechanism without having to route the sheet product of the first product roll around any structure.
In some embodiments, the sheet product dispenser may further comprise at least one motor configured to actuate at least one of the first dispensing mechanism or the second dispensing mechanism.
In some embodiments, the sheet product dispenser may further comprise a first sensor positioned proximate the first dispensing mechanism and configured to sense the presence of a portion of the first product roll. The sheet product dispenser may further comprises a second sensor positioned proximate the second dispensing mechanism and configured to sense the presence of a portion of the second product roll. The sheet product dispenser may further comprise a controller. The controller may be configured to cause actuation of the first dispensing mechanism in an instance in which the first sensor senses the presence of the portion of the first product roll to load the first dispensing mechanism with the portion of the first product roll. The controller may be further configured to cause actuation of the second dispensing mechanism in an instance in which the second sensor senses the presence of the portion of the second product roll to load the second dispensing mechanism with the portion of the second product roll.
In some embodiments, the sheet product dispenser may further comprise a first chute sensor positioned within a first chute associated with the first dispensing mechanism. The first chute sensor may be configured to sense the presence of the portion of the first product roll. The sheet product dispenser may further comprise a second chute sensor positioned within a second chute associated with the second dispensing mechanism. The second chute sensor may be configured to sense the presence of the portion of the second product roll. The controller may be configured to cause the first dispensing mechanism to cease operation in an instance in which the first chute sensor senses the presence of the portion of the first product roll within the first chute. The controller may be further configured to cause the second dispensing mechanism to cease operation in an instance in which the second chute sensor senses the presence of the portion of the second product roll within the second chute.
In some embodiments, the cover may be pivotally mounted to the base portion around a first axis. The second roll holder may be pivotally mounted to the base portion around a second axis. The first axis may be different than the second axis.
In some embodiments, the first roll holder and the first dispensing mechanism may be color coded a first color and the second roll holder and the second dispensing mechanism may be color coded a second color to enable intuitive loading by a user.
In some embodiments, the sheet product dispenser may further comprise a controller that is configured to operate the first dispensing mechanism to dispense the portion of the first product roll. The controller may be further configured to automatically switch from operating the first dispensing mechanism to dispense from the first product roll to operating the second dispensing mechanism to dispense from the second product roll in an instance in which the first product roll becomes unavailable or empty.
In some embodiments, the controller may be further configured to determine which of the first product roll or second product roll has less product remaining and operate the first dispensing mechanism in an instance in which the first product roll has less product remaining than the second product roll or operate the second dispensing mechanism in an instance in which the second product roll has less product remaining than the first product roll.
In some embodiments, the sheet product dispenser may further comprise a first product level sensor configured to sense an amount of product remaining on the first product roll and a second product level sensor configured to sense an amount of product remaining on the second product roll.
In some embodiments, at least one of the first product level sensor or the second product level sensor may be an infrared product level sensor.
In some embodiments, the sheet product dispenser may further comprise a chassis that includes the first dispensing mechanism and the second dispensing mechanism. The chassis may be configured to removably attach to the base portion of the housing. The cover may be configured such that the chassis may be removed from attachment with the base portion while the cover is in the closed position.
In some embodiments, the first dispensing mechanism may include a first drivetrain comprising a first gear and a second gear. The first gear and the second gear may form a first gear ratio. The second dispensing mechanism may include a second drivetrain comprising a third gear and a fourth gear. The third gear and the fourth gear may form a second gear ratio. Each of the first gear ratio and the second gear ratio may be optimized based on one or more factors including feed roller diameter, resistance to motion, and motor performance.
In some embodiments, the second roll holder may be pivotally attached to the base portion.
In another example embodiment, a sheet product dispenser is provided. The sheet product dispenser comprises a first roll holder configured to support a first product roll and a second roll holder configured to support a second product roll. The sheet product dispenser further includes a housing including a base portion and a cover. The cover is movable relative to the base portion to define an open position and a closed position. The housing is sized such that a full size first product roll and a full size second product roll fit within the housing when the cover is in the closed position. The sheet product dispenser further includes a first dispensing mechanism configured to receive sheet product of the first product roll and dispense a portion of the sheet product of the first product roll. The sheet product dispenser further includes a second dispensing mechanism configured to receive sheet product of the second product roll and dispense a portion of the sheet product of the second product roll. The second roll holder is movable between a first position and a second position spaced from the first position. The second roll holder is configured to enable a user to load the sheet product of the second product roll into the second dispensing mechanism when in the first position. The second roll holder is configured to enable the user to load the sheet product of the first product roll into the first dispensing mechanism when in the second position.
In some embodiments, the second roll holder may be configured to prevent the user from loading the sheet product of the first product roll into the first dispensing mechanism when in the first position. The second roll holder may be configured to prevent the user from loading the sheet product of the second product roll into the second dispensing mechanism when in the second position.
In some embodiments, the second roll holder may be configured to prevent the user from loading the sheet product of the first product roll into the second dispensing mechanism or the sheet product of the second product roll into the first dispensing mechanism when in either the first position or the second position.
In some embodiments, the sheet product dispenser may further comprise a roll partition pivotally attached to the base portion and movable between a first roll partition position within the base portion and a second roll partition position spaced from the first roll partition position. The second roll holder is connected to the roll partition and movable with the roll partition. The roll partition is movable independent of the cover.
In some embodiments, the sheet product dispenser may further comprise a nip cover movable between a first nip cover position and a second nip cover position. The nip cover may be configured to move between the first nip cover position and the second nip cover position with movement of the roll partition from the first roll partition position to the second roll partition position. The nip cover may be configured to prevent access to the first dispensing mechanism by the user when in the first nip cover position. The nip cover may be configured to prevent access to the second dispensing mechanism by the user when in the second nip cover position.
In yet another example embodiment, a sheet product dispenser is provided. The sheet product dispenser comprises a first roll holder configured to support a first product roll and a second roll holder configured to support a second product roll. The sheet product dispenser further includes a housing including a base portion and a cover. The cover is movable relative to the base portion to define an open position and a closed position. The base portion defines a top and a bottom. The housing is sized such that a full size first product roll and a full size second product roll fit within the housing when the cover is in the closed position. The sheet product further includes a partition movable relative to the base portion between a stowed position and an unstowed position. The second roll holder is attached to the partition. The partition is positioned proximate the base portion when in the stowed position. The sheet product dispenser further includes a first dispensing mechanism. The first dispensing mechanism comprises a first nip roller and a first drive roller. The first dispensing mechanism is configured to receive sheet product of the first product roll between the first nip roller and the first drive roller. The sheet product dispenser further includes a second dispensing mechanism. The second dispensing mechanism comprises a second nip roller and a second drive roller. The second dispensing mechanism is configured to receive sheet product of the second product roll between the second nip roller and the second drive roller. The sheet product dispenser further includes at least one motor configured to perform at least one of the following: rotate the first drive roller to cause a portion of the sheet product of the first product roll to dispense from the sheet product dispenser, rotate the second drive roller to cause a portion of the sheet product of the second product roll to dispense from the sheet product dispenser, or selectively rotate the first drive roller or the second drive roller to cause the portion of the sheet product of the first product roll or the portion of the sheet product of the second product roll to dispense from the sheet product dispenser. The sheet product dispenser further includes a controller configured to operate the at least one motor to cause the portion of the sheet product of the first product roll or the portion of the sheet product of the second product roll to dispense. When the first product roll is supported by the first roll holder and sheet product of the first product roll is received in the first dispensing mechanism, a first web path is formed from the first product roll to the first dispensing mechanism. When the second product roll is supported by the second roll holder and sheet product of the second product roll is received in the second dispensing mechanism, a second web path is formed from the second product roll to the second dispensing mechanism. The partition is configured to separate the first web path from the second web path when the partition is in the stowed position.
In some embodiments, the partition may be configured to be moved to the unstowed position to enable a user to load the first product roll into the first roll holder and the sheet product of the first product roll into the first dispensing mechanism.
In some embodiments, when the partition is in the stowed position, a user is able to load the second product roll into the second roll holder and the sheet product of the second product roll into the second dispensing mechanism. When the partition is in the unstowed position, the user is able to load the first product roll into the first roll holder and the sheet product of the first product roll into the first dispensing mechanism.
In some embodiments, when the partition is in the stowed position, the user is unable to load the first product roll into the first roll holder or the sheet product of the first product roll into the first dispensing mechanism. When the partition is in the unstowed position, the user is unable to load the second product roll into the second roll holder or the sheet product of the second product roll into the second dispensing mechanism.
In some embodiments, the sheet product dispenser further comprises a nip cover movable between a first nip cover position and a second nip cover position. The nip cover may be configured to move between the first nip cover position and the second nip cover position with movement of the partition between the stowed position and the unstowed position. The nip cover may be configured to prevent access to the first dispensing mechanism by a user when in the first nip cover position. The nip cover may be configured to prevent access to the second dispensing mechanism by the user when in the second nip cover position.
In some embodiments, the second roll holder may comprise a retention mechanism that is configured to prevent removal of an installed second product roll when the partition rotates to the unstowed position.
In some embodiments, the retention mechanism may comprise an engagement portion of the second roll holder that is configured to rotate to maintain a generally upward orientation as the partition rotates to the unstowed position such that the installed second product roll is maintained within the second roll holder.
In some embodiments, the base portion may define a receptacle feature. The retention mechanism may further comprise a linkage that includes a first pin and a second pin. The first pin is connected to the engagement portion. The receptacle feature is configured to receive the second pin when the partition is in the stowed position. As the partition rotates toward the unstowed position, connection of the second pin of the linkage within the receptacle feature may cause the engagement portion to rotate with respect to the partition so that the engagement feature maintains the generally upward orientation.
In some embodiments, the sheet product dispenser may further include a first chute positioned proximate the bottom of the base portion and a second chute positioned proximate the bottom of the base portion and proximate the first chute.
In some embodiments, the first dispensing mechanism may be positioned proximate the bottom of the base portion and adjacent to the second dispensing mechanism and closer to a rear wall of the base portion than the second dispensing mechanism. The first chute may define a first dispense surface that extends downwardly and outwardly from the first dispensing mechanism. The second chute may define a second dispense surface that extends downwardly and outwardly from the second dispensing mechanism. The first dispense surface is longer than the second dispense surface such that, when the portion of the first product roll is dispensed, the portion of the first product roll is positioned proximate to where the portion of the second product roll is positioned when the portion of the second product roll is dispensed.
In some embodiments, the partition may comprise an attachment feature that is configured to removably attach to the base portion of the housing when the partition is in the stowed position.
In some embodiments, the partition and the base portion of the housing may be configured such that attachment of the attachment feature to the base portion of the housing or detachment of the attachment feature from the base portion of the housing creates an audible noise to indicate occurrence of attachment or detachment.
In some embodiments, the sheet product dispenser may further include at least one nip sensor positioned proximate at least one of a first nip of the first dispensing mechanism or a second nip of the second dispensing mechanism. The at least one nip sensor may be configured to sense the presence of the sheet product of the first product roll proximate the first nip or sense the presence of the sheet product of the second product roll proximate the second nip. The controller may be configured to cause actuation of the at least one motor to cause rotation of the first drive roller in an instance in which the nip sensor senses the presence of the sheet product of the first product roll to assist a user with loading the first dispensing mechanism with the sheet product of the first product roll. The controller may be further configured to cause actuation of the at least one motor to cause rotation of the second drive roller in an instance in which the nip sensor senses the presence of the sheet product of the second product roll to assist the user with loading the second dispensing mechanism with the sheet product of the second product roll.
In some embodiments, the sheet product dispenser may further include at least one chute sensor positioned within at least one of a first chute or a second chute. The at least one chute sensor is configured to sense the presence of the sheet product of the first product roll within the first chute or sense the presence of the sheet product of the second product roll within the second chute. The controller may be configured to cause the at least one motor to cease operation in an instance in which the chute sensor senses the presence of the sheet product of the first product roll within the first chute or senses the presence of the sheet product of the second product roll within the second chute.
In some embodiments, the controller may be configured to automatically switch from operating the at least one motor to cause dispense from the first product roll to operating the at least one motor to cause dispense from the second product roll in an instance in which the first product roll becomes unavailable or empty.
In some embodiments, the controller may be configured to determine which of the first product roll or second product roll has less product remaining and operate, in an instance in which the first product roll has less product remaining than the second product roll, the at least one motor to cause dispense from the first product roll or operate, in an instance in which the second product roll has less product remaining than the first product roll, the at least one motor to cause dispense from the second product roll.
In some embodiments, the sheet product dispenser may further include a first product level sensor configured to sense an amount of product remaining on the first product roll and a second product level sensor configured to sense an amount of product remaining on the second product roll. In some embodiments, at least one of the first product level sensor or the second product level sensor is an infrared product level sensor.
In some embodiments, the at least one motor may comprises a first motor and a second motor. The first motor may be configured to rotate the first drive roller to cause the portion of the sheet product of the first product roll to dispense from the sheet product dispenser. The second motor may be configured to rotate the second drive roller to cause the portion of the sheet product of the second product roll to dispense from the sheet product dispenser.
In some embodiments, the partition and the second roll holder may be configured to be movable separately from the cover.
In yet another example embodiment, a sheet product dispenser is provided. The sheet product dispenser comprises a housing including a base portion and a cover. The cover is movable relative to the base portion to define an open position and a closed position. The sheet product dispenser further includes a first roll holder configured to support a first product roll and a second roll holder configured to support a second product roll. The sheet product dispenser includes a partition movable relative to the base portion between a stowed position and an unstowed position. The second roll holder is attached to the partition. The sheet product dispenser includes a first dispensing mechanism that is configured to receive sheet product of the first product roll. The first dispensing mechanism is configured to operate to cause a portion of the sheet product of the first product roll to dispense from the sheet product dispenser. The sheet product dispenser further includes a second dispensing mechanism that is configured to receive sheet product of the second product roll. The second dispensing mechanism is configured to operate to cause a portion of the sheet product of the second product roll to dispense from the sheet product dispenser. The sheet product dispenser further includes an actuation sensor configured to sense presence of a user. The sheet product dispenser includes a controller configured to, in response to the actuation sensor sensing the presence of the user, operate either the first dispensing mechanism to cause the portion of the sheet product of the first product roll to dispense or the second dispensing mechanism to cause the portion of the sheet product of the second product roll to dispense. When the first product roll is supported by the first roll holder and the sheet product of the first product roll is received in the first dispensing mechanism, a first web path is formed from the first product roll to the first dispensing mechanism. When the second product roll is supported by the second roll holder and the sheet product of the second product roll is received in the second dispensing mechanism, a second web path is formed from the second product roll to the second dispensing mechanism. The partition is configured to separate at least a portion of the first web path from at least a portion of the second web path when the partition is in the stowed position.
In some embodiments, the partition may be configured to be moved to the unstowed position to enable the user to load the first product roll into the first roll holder and the sheet product of the first product roll into the first dispensing mechanism.
In some embodiments, the sheet product dispenser may further include a nip cover movable between a first nip cover position and a second nip cover position. The nip cover may be configured to move between the first nip cover position and the second nip cover position with movement of the partition between the stowed position and the unstowed position. The nip cover may be configured to prevent access to the first dispensing mechanism by the user when in the first nip cover position. The nip cover may be configured to prevent access to the second dispensing mechanism by the user when in the second nip cover position.
In some embodiments, the second roll holder may comprise a retention mechanism that is configured to prevent removal of an installed second product roll when the partition rotates to the unstowed position.
In some embodiments, the controller may be configured to automatically switch from operating the first dispensing mechanism to dispense from the first product roll to operating the second dispensing mechanism to dispense from the second product roll in an instance in which the first product roll becomes unavailable or empty.
In yet another example embodiment, a sheet product dispenser is provided. The sheet product dispenser comprises a housing including a base portion and a cover. The cover is movable relative to the base portion to define an open position and a closed position. The sheet product dispenser includes a first roll holder configured to support a first product roll and a second roll holder configured to support a second product roll. The sheet product dispenser further includes a partition movable relative to the base portion between a stowed position and an unstowed position. The second roll holder is attached to the partition. The sheet product dispenser further includes a first dispensing mechanism that is configured to receive sheet product of the first product roll. The first dispensing mechanism is configured to operate to cause a portion of the sheet product of the first product roll to dispense from the sheet product dispenser. The sheet product dispenser further includes a second dispensing mechanism that is configured to receive sheet product of the second product roll. The second dispensing mechanism is configured to operate to cause a portion of the sheet product of the second product roll to dispense from the sheet product dispenser. The sheet product dispenser further includes an actuation sensor configured to sense presence of a user. The sheet product dispenser further includes a controller configured to, in response to the actuation sensor sensing the presence of the user, operate either the first dispensing mechanism to cause the portion of the sheet product of the first product roll to dispense or the second dispensing mechanism to cause the portion of the sheet product of the second product roll to dispense. When the partition is in the stowed position, the user is able to load the second product roll into the second roll holder and the sheet product from the second product roll into the second dispensing mechanism. When the partition is in the unstowed position, the user is able to load the first product roll into the first roll holder and the sheet product of the first product roll into the first dispensing mechanism.
In some embodiments, the partition may be configured to be moved to the unstowed position to enable the user to load the first product roll into the first roll holder and the sheet product of the first product roll into the first dispensing mechanism.
In some embodiments, the sheet product dispenser may further include a nip cover movable between a first nip cover position and a second nip cover position. The nip cover may be configured to move between the first nip cover position and the second nip cover position with movement of the partition between the stowed position and the unstowed position. The nip cover may be configured to prevent access to the first dispensing mechanism by the user when in the first nip cover position. The nip cover may be configured to prevent access to the second dispensing mechanism by the user when in the second nip cover position.
In some embodiments, the second roll holder may comprise a retention mechanism that is configured to prevent removal of an installed second product roll when the partition rotates to the unstowed position.
In some embodiments, the controller may be configured to automatically switch from operating the first dispensing mechanism to dispense from the first product roll to operating the second dispensing mechanism to dispense from the second product roll in an instance in which the first product roll becomes unavailable or empty.
In yet another example embodiment, a sheet product dispenser is provided. The sheet product dispenser comprises a housing including a base portion and a cover. The cover is movable relative to the base portion to define an open position and a closed position. The sheet product dispenser includes a first roll holder configured to support a first product roll and a second roll holder configured to support a second product roll. The sheet product dispenser further includes a first dispensing mechanism configured to receive sheet product of the first product roll and dispense a portion of the sheet product of the first product roll. The sheet product dispenser further includes a second dispensing mechanism configured to receive sheet product of the second product roll and dispense a portion of the sheet product of the second product roll. The sheet product dispenser further includes a controller that is configured to determine which of the first product roll or second product roll has less product remaining and operate, in an instance in which the first product roll has less product remaining than the second product roll, the first dispensing mechanism to dispense the portion of the sheet product of the first product roll or operate, in an instance in which the second product roll has less product remaining than the first product roll, the second dispensing mechanism to dispense the portion of the sheet product of the second product roll.
In some embodiments, the controller may be configured to automatically switch from operating the first dispensing mechanism to dispense from the first product roll to operating the second dispensing mechanism to dispense from the second product roll in an instance in which the first product roll becomes unavailable or empty.
In some embodiments, the sheet product dispenser may further include a first product level sensor configured to sense an amount of product remaining on the first product roll. In some embodiments, the first product level sensor may be an infrared product level sensor. In some embodiments, the first product level sensor may be a mechanical-based product level sensor that is configured to contact an outer circumference of the corresponding first product roll.
In some embodiments, the sheet product dispenser may further include a first product roll rotational sensor configured to sense rotation of the first product roll and a second product roll rotational sensor configured to sense rotation of the second product roll. The controller may be configured to determine which of the first product roll or the second product roll has less sheet product remaining based on a comparison of rotational data received from the first product roll rotational sensor and the second product roll rotational sensor.
In some embodiments, the sheet product dispenser may further include a first drive roller rotational sensor configured to sense rotation of a first drive roller of the first dispensing mechanism. Rotation of the first drive roller may cause dispensing of sheet product from the first product roll. The sheet product dispenser may further include a second drive roller rotational sensor configured to sense rotation of a second drive roller of the second dispensing mechanism. Rotation of the second drive roller may cause dispensing of sheet product from the second product roll. The controller may be configured to determine which of the first product roll or the second product roll has less sheet product remaining based on a comparison of rotational data received from the first product roll rotational sensor, the first drive roller rotational sensor, the second product roll rotational sensor, and the second drive roller rotational sensor.
In some embodiments, the controller may be configured to determine which of the first product roll or the second product roll has less sheet product remaining based on a comparison of a first rotational ratio with a second rotational ratio. The first rotational ratio may comprise a time period for a rotation cycle of the first product roll over a time period for a rotation cycle of the first drive roller. The second rotational ratio may comprise a time period for a rotation cycle of the second product roll over a time period for a rotation cycle of the second drive roller.
In some embodiments, the controller may be configured to determine an amount of product remaining on the first product roll based on a comparison of rotational data received from the first product roll rotational sensor and the first drive roller rotational sensor. The controller may be further configured to determine an amount of product remaining on the second product roll based on a comparison of rotational data received from the second product roll rotational sensor and the second drive roller rotational sensor.
In some embodiments, the controller may be configured to determine, in an instance in which the first product roll and the second product roll have substantially the same amount of product remaining, which of the first product roll or the second product roll has been installed for a longer period of time. The controller may be further configured to operate the first dispensing mechanism in an instance in which the first product roll has been installed for a longer period of time than the second product roll or operate the second dispensing mechanism in an instance in which the second product roll has been installed for a longer period of time than the first product roll.
In some embodiments, the sheet product dispenser may further include a chute configured to direct the portion of the first product roll being dispensed. The sheet product dispenser may further include a first sensor positioned within the chute and configured to sense the presence of the sheet product of the first product roll within the chute. The controller may be configured to cause operation of the first dispensing mechanism to cease and operation of the second dispensing mechanism to begin in an instance in which the chute sensor does not sense the presence of the sheet product of the first product roll within the chute and the controller determines that that the first dispensing mechanism is operating. In some embodiments, the first sensor is an infrared sensor. In some embodiments, the first sensor is reflective.
In some embodiments, the sheet product dispenser may further include a first sensor positioned proximate a nip of the first dispensing mechanism and configured to sense the presence of the sheet product of the first product roll. In some embodiments, the sheet product dispenser may further include a light pipe positioned on a first side of the nip of the first dispensing mechanism. The first sensor may comprise an emitter and at least one receiver. The emitter may be positioned on a second side of the nip of the first dispensing mechanism and aimed to emit light across the nip toward the light pipe at a first position. The light pipe may be configured to receive the emitted light and redirect the light across the nip at a second position. The receiver may be positioned on the second side of the nip of the first dispensing mechanism and configured to receive the redirected light from the light pipe. The first position is spaced apart from the second position. The first sensor may sense the presence of sheet product in an instance in which the receiver does not receive the redirected light.
In some embodiments, the light pipe may be further configured to split the light received from the emitter. The light pipe may be further configured to redirect a first portion of the light across the nip at the second position and redirect a second portion of the light across the nip at a third position. The third position is spaced apart from the second position and the at least one receiver is a first receiver. The first sensor may comprise a second receiver that is positioned on the second side of the nip of the first dispensing mechanism and configured to receive the second portion of the redirected light from the light pipe. The first sensor may sense the presence of sheet product in an instance in which at least one of the first receiver or the second receiver do not receive the redirected light.
In yet another example embodiment, a sheet product dispenser is provided. The sheet product dispenser comprises a housing including a base portion and a cover. The cover is movable relative to the base portion to define an open position and a closed position. The sheet product dispenser further includes a first roll holder configured to support a first product roll and a second roll holder configured to support a second product roll. The sheet product dispenser further includes a first dispensing mechanism configured to receive sheet product of the first product roll and dispense a portion of the sheet product of the first product roll. The sheet product dispenser further includes a second dispensing mechanism configured to receive sheet product of the second product roll and dispense a portion of the sheet product of the second product roll. The sheet product dispenser further includes a first product roll rotational sensor configured to sense rotation of the first product roll and a second product roll rotational sensor configured to sense rotation of the second product roll. The sheet product dispenser further includes a controller that is configured to determine which of the first product roll or second product roll has less product remaining based on a comparison of rotational data received from the first product roll rotational sensor and the second product roll rotational sensor and operate, in an instance in which the first product roll has less product remaining than the second product roll, the first dispensing mechanism to dispense the portion of sheet product of the first product roll or operate, in an instance in which the second product roll has less product remaining than the first product roll, the second dispensing mechanism to dispense the portion of the sheet product of the second product roll.
In some embodiments, the sheet product dispenser may further include a first drive roller rotational sensor configured to sense rotation of a first drive roller of the first dispensing mechanism. Rotation of the first drive roller may cause dispensing of sheet product from the first product roll. The sheet product dispenser may further include a second drive roller rotational sensor configured to sense rotation of a second drive roller of the second dispensing mechanism. Rotation of the second drive roller may cause dispensing of sheet product from the second product roll. The controller may be configured to determine which of the first product roll or the second product roll has less sheet product remaining based on a comparison of rotational data received from the first product roll rotational sensor, the first drive roller rotational sensor, the second product roll rotational sensor, and the second drive roller rotational sensor.
In some embodiments, the controller is configured to determine which of the first product roll or the second product roll has less sheet product remaining based on a comparison of a first rotational ratio with a second rotational ratio. The first rotational ratio may comprise a time period for a rotation cycle of the first product roll over a time period for a rotation cycle of the first drive roller. The second rotational ratio may comprise a time period for a rotation cycle of the second product roll over a time period for a rotation cycle of the second drive roller.
In some embodiments, the controller may be configured to determine an amount of product remaining on the first product roll based on a comparison of rotational data received from the first product roll rotational sensor and the first drive roller rotational sensor.
In yet another example embodiment, a sheet product dispenser is provided. The sheet product dispenser comprises a housing including a base portion and a cover. The cover is movable relative to the base portion to define an open position and a closed position. The sheet product dispenser further includes a first roll holder configured to support a first product roll and a second roll holder configured to support a second product roll. The sheet product dispenser further includes a first dispensing mechanism configured to receive sheet product of the first product roll and dispense a portion of the sheet product of the first product roll. The sheet product dispenser further includes a second dispensing mechanism configured to receive sheet product of the second product roll and dispense a portion of the sheet product of the second product roll. The sheet product dispenser further includes a chute configured to direct the portion of the first product roll being dispensed. The sheet product dispenser further includes a chute sensor positioned within the chute and configured to sense the presence of the sheet product of the first product roll within the chute. The sheet product dispenser further includes a controller that is configured to operate the first dispensing mechanism and automatically switch from operating the first dispensing mechanism to dispense from the first product roll to operating the second dispensing mechanism to dispense from the second product roll in an instance in which the chute sensor does not sense the presence of the sheet product of the first product roll within the chute and the controller determines that that the first dispensing mechanism is operating.
Having thus described the invention in general terms, reference will now be made to the accompanying drawings, which are not necessarily drawn to scale, and wherein:
Some example embodiments now will be described more fully hereinafter with reference to the accompanying drawings, in which some, but not all example embodiments are shown. Indeed, the examples described and pictured herein should not be construed as being limiting as to the scope, applicability or configuration of the present disclosure. Rather, these example embodiments are provided so that this disclosure will satisfy applicable legal requirements. Like reference numerals refer to like elements throughout.
As used herein, a “user” of example product dispensers may be a maintainer (e.g., a maintenance person, a janitor, a facility manager, etc.) or a consumer (e.g., a person receiving a dispensed portion of the product).
Some embodiments of the present invention described herein are designed to maximize efficiency of maintenance, usage, and operation for product dispensers. In this regard, some of the embodiments are designed to provide for easy and intuitive loading of sheet product (e.g., paper towel) to aid a maintainer during loading. Additionally, some embodiments of the present invention seek to avoid a completely empty scenario and maximize usage of the sheet product, such as by avoiding the scenario where the maintainer throws away unused sheet product. Further, some embodiments of the present invention seek to provide easy-to-use operation of the sheet product dispenser that seamlessly switches to dispensing from a second, full paper towel roll upon depletion of the first paper towel roll. Additional benefits sought by various embodiments of the present invention include avoidance of jamming scenarios, providing automatic or assisted loading through the dispensing mechanism, efficient management of web paths of the sheet product within the dispenser, among many other benefits that are evident to one of ordinary skill in the art based on the disclosure herein.
As used herein, the term “sheet product” may include a product that is relatively thin in comparison to its length and width. Further, the sheet product may define a relatively flat, planar configuration. In some embodiments, the sheet product is flexible or bendable to permit, for example, folding, rolling, stacking, or the like. In this regard, sheet product may, in some cases, be formed into stacks or rolls for use with various embodiments described herein. Some example sheet products include towel, bath tissue, facial tissue, napkin, wipe, wrapping paper, aluminum foil, wax paper, plastic wrap, or other sheet-like products. Sheet products may be made from paper, cloth, non-woven, metallic, polymer or other materials, and in some cases may include multiple layers or plies. In some embodiments, the sheet product (such as in roll or stacked form) may be a continuous sheet that is severable or separable into individual sheets using, for example, a tear bar or cutting blade. Additionally or alternatively, the sheet product may include predefined areas of weakness, such as lines of perforations, that define individual sheets and facilitate separation and/or tearing. In some such embodiments, the lines of perforations may extend along the width of the sheet product to define individual sheets that can be torn off by a user.
In some embodiments, the sheet product dispenser 10 is sized to support two full sheet product (e.g., paper towel) rolls and two separate web paths, each one leading to separate dispensing mechanisms. For example, with reference to
In some embodiments, the housing and roll holders are designed to enable the product roll to be installed in either a front loading or a back loading orientation, while still operate effectively in either loading orientation. For example, the product roll may be front loaded when the leading edge of the product roll that extends toward the dispensing mechanism comes in front of the product roll. Likewise, the product roll may be back loaded when the leading edge of the product roll that extends toward the dispensing mechanism comes from behind the product roll. Such embodiments offer versatility in loading for the maintainer.
In some embodiments, such as the depicted embodiment, the sheet product dispenser can include color coded components to aid in easy and intuitive loading. For example, the first funnel cover 44 may be green, which matches the color of corresponding roll holders for the first product roll. Likewise, the second funnel cover 49 may be blue, which matches the color of corresponding roll holders for the second product roll. In this manner, the maintainer can intuitively follow the color coding to ensure that the product rolls are properly loaded into the proper dispensing mechanisms.
In some embodiments, the product dispenser may be designed to hold two different product rolls, each with different properties (one in the first roll holder and the other in the second roll holder). For example, different quality product rolls could be used for expensive and inexpensive situational dispensing. Likewise, a product roll with special absorbency or other attributes could be set in a roll holder and used for special circumstances. In this regard, some embodiments of the present invention utilize web management to maintain separation of the product rolls, which could be useful for such example embodiments that enable two different types of product rolls. Further, in such embodiments with two distinct dispensing mechanisms, the product dispenser may be configured to enable dispensing from either product roll. This may be achieved by providing an input capability for the consumer and/or maintainer to choose which product roll to dispense from.
In some embodiments, the dispenser is an automatic dispenser. In such an embodiment, the dispenser may include an activation sensor (e.g., activation sensor 120 of
In some embodiments, the dispenser may include one or more chutes for guiding the dispensed portion of the product to user. In some embodiments where there are two dispensing mechanisms, the dispenser housing may define two chutes (one for each dispensing mechanism). For example, with reference to
In some embodiments, the housing of the sheet product dispenser is designed such that the roll holders may each receive a full-sized (e.g., full-diameter) product roll. In this regard, when the cover is in the closed position, the housing is sized such that both a first roll holder and a second roll holder are configured to each hold a full size sheet product roll in a substantially vertical orientation with respect to each other (including a slightly offset vertical orientation). For example, one product roll may be generally positioned above the other product roll. Additional information and example embodiments of various dispensers configured for use of two full sized paper towel rolls can be found in U.S. application Ser. No. 13/998,753, entitled “System and Method for Reducing Waste Using a Sheet Product Dispenser”, filed Dec. 2, 2013, and U.S. Application No. 61/731,812, filed Nov. 30, 2012, both of which are owned by the Assignee of the present application and hereby incorporated by reference in their entireties.
Another example sheet product dispenser 10′ that is configured to hold two full size rolls in a vertical relationship with respect to each other is shown in
Although the above described multi-roll dispenser includes two roll holders, some embodiments of the present invention are not meant to be limited to two roll holders, as any number of roll holders may be utilized with the present invention. For example, the housing may be sized to include only one full size roll or one full size roll and one partially depleted roll (e.g., stub roll). Along these lines, various embodiments described herein may be utilized with other various configurations including for example one dispensing mechanism (and, in some cases, a transfer mechanism—such as depending on how many rolls are utilized).
Similarly, housing configurations other than exterior wall mounted may be utilized with various embodiments of the present invention. For example,
An example embodiment of the contemplated dispenser operates as described below.
Other web guide structures are also contemplated by some embodiments of the present invention. For example, the illustrated dispenser also includes a cover divider plate 273 that separates the first product roll 251 from the second product roll 256 to further help avoid the product rolls or webs from contacting each other.
As previously mentioned, in an example embodiment, such as by using product level monitoring, the dispenser controller (e.g., controller 110 of
In some embodiments, a beneficial feature of the dispenser is that the roll holders for one of the product rolls moves out of the dispenser when the cover is open. This allows a user to replace and load either product roll into the dispensing mechanism without disturbing or being obstructed by the other product roll, the other product roll web, or any dispenser components. This also enables a maintainer to service the dispenser without confusion or unnecessary effort. Further, the dispenser may be a compact size while still containing up to two full-sized rolls.
Some embodiments of the present invention provide movable roll holders to enable the benefits of a compact-sized dispenser that contains up to 2 full-size rolls while still enabling the maintainer to have easy access to replace and load either roll without disturbing or being obstructed by the other product roll, the other product roll web, or dispenser parts. The example dispenser illustrated in
As noted herein, some embodiments of the present invention contemplate different ways to manage two separate web paths and still enable a maintainer (or other user) to easily load either product roll and load the corresponding leading edge into the proper dispensing mechanism. In this regard, some embodiments utilize a configuration where the second (e.g., bottom) roll holder is pivotally attached to the base portion (e.g., rear housing) and separate from the cover. In this regard, the movement of the second roll holder can be distinct from the cover even if not (in some cases) independent from movement of the cover. The following description details a number of different embodiments that utilize such a configuration.
Additionally, in the depicted embodiment, the link arm 577′ comprises a piston that is configured to extend the range of travel of roll holders 536′ while still enabling retraction within the dispenser housing when the cover is closed. In this regard, the designed motion of the link arm 577′ and web guide roller 572b′ can be maintained while still enabling the roll holders 536′ to extend and retract as needed.
Once the dispenser is loaded, the maintainer may subsequently close the cover 614 which thereby moves the second roll holder 636 toward the rear housing 612. Furthermore, closing the cover 614 causes the pivoting arm 680 to be urged toward the rear housing 612, as shown in
As shown in
A similar example embodiment is illustrated with the dispenser 600′ shown in
Once the dispenser is loaded, the maintainer may subsequently close the cover 714 which thereby moves the second roll holders 736 towards the rear housing 712. Closing the cover 714 also urges and pivots the second roll chassis 790 towards the rear housing 712, as shown in
With reference to
As shown in
In some embodiments, the chassis 1190 may be configured to pivot upwardly for easier access. For example, as the cover 1114 and second roll holders 1136 pivot out of the dispenser between
Another example embodiment of the present invention that provides, for example, a movable roll holder that is separately movable from the cover also includes a roll partition.
With reference to
In some embodiments, with reference to
In some embodiments, the roll partition 1240 may be configured to rotate around the roll partition hinge 1241, such as from a closed position (
With reference to
With the roll partition 1240 in the opened position, the maintainer is free to replace a depleted first (top) product roll with a new first product roll and feed the leading edge of the first product roll into the first dispensing mechanism 1221. In this regard, with reference to
The maintainer may then close the roll partition 1240 and close the cover 1214, after which the dispenser 1200 will resume dispensing product to users. In some embodiments, the maintainer only needs to close the cover 1214 because the cover 1214 captures and in turn rotates the roll partition 1240 to a closed position. In some embodiments, the roll partition 1240 may be designed to attach to (e.g., snap into engagement with) the rear housing of the dispenser. In such embodiments, an audible snap may occur to provide confirmation to the maintainer that the roll partition 1240 has been properly re-installed inside the dispenser housing (into the closed position) for continued dispensing.
In the illustrated embodiments of
Another example configuration is shown in
As has been described herein, the dispenser of various embodiments of the present invention might jam if the first drive roller draws the second roll web into the first nip, and the dispenser might likewise jam if the second drive roller draws the first roll web into the second nip. This tendency is described in further detail below with reference to
One way to lessen the above noted problem is shown in an example embodiment in
Likewise, a form of web management, such as the web management features described above, may be useful to help prevent the second product roll 1356 from contacting the first roll web 1352 and unwinding the first product roll 1351 enough that the second dispensing mechanism 1326 might draw in the first roll web 1352 and cause the dispenser 1300 to fail.
As described above, some example embodiments of the present invention provide a dispenser that dispenses from the smaller product roll until it is depleted, after which time the dispenser dispenses from the remaining product roll. This preserves the larger product roll as a reserve to sustain the longest time between refills and also to create the soonest opportunity for the smaller product roll to deplete so that a maintainer may again replenish the dispenser. Although this principle is generally true, some embodiments of the dispenser may dispense several feet off the second product roll if the second product roll is full-size, even if the first product roll is the smaller roll. The purpose of firstly dispensing off of a full-size second product roll is to help prevent the risk of a pivoting arm or a nesting arm (such as in certain embodiments) from pressing the first roll web against the rear housing and thereby causing an obstruction to dispensing. By firstly dispensing several feet off of a full-size second product roll, the second product roll decreases in diameter enough for the pivoting arm or nesting arm to pivot away from the rear housing enough to avoid obstructing the first roll web when the first drive roller rotates to dispense product.
In some cases, it is possible for a maintainer to erroneously load the leading edge of the first product roll into the second dispensing mechanism, or alternatively to load the leading edge of the second product roll into the first dispensing mechanism. To help minimize the likelihood of this error, with reference to
Some embodiments of the present invention seek to provide a dispenser with one or more sets of roll holders that are configured to enable easy loading of new sheet product rolls. As used herein “a roll holder” may refer to a set of roll holders that are used to support a single product roll (e.g., “a roll holder for supporting a product roll” and “a set of roll holders for supporting a product roll” may be used interchangeably). In particular, some of the example roll holders are designed to provide a snap-in feature that emits a “click” to give the maintainer confidence that the product roll was loaded properly. Additionally, some example roll holders are designed to provide a drag force on the product roll to aid in preventing overspin of the product roll during dispensing. An additional benefit may include providing a resistance force or feature that prevents the product roll from unintentionally falling out of engagement with the roll holder. Further, some of the example roll holders may be designed to enable a maintainer to simply “drop” the product roll into the roll holder for proper loading. With reference to, for example,
Some embodiments of the present invention contemplate a number of different configurations for roll holders that provide for easy and intuitive loading. For example,
A slight variation of the depicted roll holder shown in
Another similar embodiment of a roll holder can be seen in
In some embodiments, the roll holder may include a drag feature that may provide a friction force against the product roll that helps to prevent overspin of the product roll after the motor ceases during dispensing. In this regard, once the motor stops pulling the product from the product roll there may be momentum that would cause the product roll to continue to spin. The friction force provided by the drag feature 1507″ is designed to counteract that momentum and prevent or limit overspin. For example, the roll holder 1531 depicted in
Yet another example embodiment of a roll holder that utilizes a cantilever portion is shown in
Yet another example embodiment of a roll holder that utilizes a biased feature is shown in
As noted above, some embodiments of the present invention may provide a retention mechanism for one or more sets of roll holders for the dispenser. In this regard, as detailed herein, some embodiments of the present invention provide a dispenser that includes one or more sets of movable roll holders. For example,
Some embodiments of the present invention seek to provide a retention mechanism for the roll holders that keep the product roll installed even during and after movement of the roll holders. In some embodiments, the retention mechanism is configured to retract or be removed from secure engagement with the product roll when the roll holder is in the stowed position or generally vertical orientation so as to enable easy removal and loading. Some embodiments of the present invention contemplate a number of different configurations for retention mechanisms for roll holders.
With reference to
With reference to
With reference to
With reference to
With reference to
With reference to
With reference to
With reference to
The linkage 5087 defines a first pin 5088 that is connected to the engagement portion 5080 and travels within a first slot 5038 of the roll holder 5031 to define an orientation of the engagement portion 5080 with respect to the roll holder 5031 (e.g., an open position shown in
With reference to
With reference to
With reference to
With reference to
In some embodiments, at some point during the rotation of the roll holder 5031′ toward the unstowed position, the second pin 5089′ may disengage from the receptacle 5016′ to enable full rotation of the roll holder 5031′ to the unstowed position. In this regard, the receptacle 5016′ may be shaped with a snap-fit (e.g., interference fit) design to hold engagement with the second pin 5089′ until enough force is provided to overcome the snap-fit.
In some embodiments, at some point during rotation of the roll holder 5031′ toward the stowed position (from the unstowed position), the second pin 5089′ may contact the receptacle 5016′, but not have enough force to overcome the snap-fit (e.g., to re-engage the second pin 5089′ with the receptacle 5016′). However, that contact may be enough force to cause the second pin 5089′ of the linkage 5087′ to move to the distal end of the second slot 5039′ and the first pin 5088′ to move to the distal end of the first slot 5038′, thereby forcing a guide slot of the engagement portion to face generally outwardly and upwardly (e.g., as shown in
In some embodiments, the roll holder 5031′ may be installed on a roll partition and may, in some cases, provide for an audible “snap” as the roll holder and roll partition are moved to their stowed position. For example,
With reference to
With reference to
In some embodiments, one or more roll holders may be designed with one or more slopes, angles, or other wall shapes that are configured to help prevent an installed product roll from being removed or releasing unintentionally (e.g., during rotation of the roll holder). For example, with reference to
As detailed herein, some embodiments of the present invention provide a dispenser that is configured to hold two product rolls and provide corresponding dispensing mechanisms for each product roll. Notably, however, when such a dispenser is completely empty and the maintainer is loading a product roll a further goal may be to ensure that the product roll being installed is loaded into the proper dispensing mechanism. For example, with reference to
As such, some embodiments of the present invention provide a nip cover that moves with the movable roll holder (e.g., a roll partition with a roll holder) to reveal the proper dispensing mechanism for loading the current product roll and, at the same time, block the improper dispensing mechanism to ensure that improper loading does not occur. For example, with reference to
When the roll partition 2540 is in the stowed position (vertical orientation), as shown in
When the roll partition 2540 is in the unstowed position (e.g., horizontal orientation), as shown in
Some embodiments of the present invention contemplate various configurations for how the nip cover moves. For example,
In some embodiments, the nip cover 2665 may be biased (e.g., spring biased) away from the rear housing 2614 of the dispenser 2600. When the roll partition 2640 is being rotated towards the stowed position (shown in
Additionally or alternatively, the nip cover 2665 may have one or more pins 2669 that are configured to be received within tracks that are formed into the roll partition 2640. The tracks may be designed to “grab” the pins 2669 and pull the nip cover 2665 forward when the roll partition 2640 rotates forward such that the nip cover 2665 rotates forward to cover the second nip 2666 and reveal the first nip 2661. Similarly, the tracks may be designed to “push” the pins 2669 and the nip cover 2665 backward when the roll partition 2640 rotates backward such that the nip cover 2665 rotates backward to cover the first nip 2661 and reveal the second nip 2666. Along these same lines, other configurations may be contemplated for rotating the nip cover. For example, the nip cover may be pivotally attached to the roll partition (instead of the dispenser/dispensing mechanisms).
In some embodiments, the nip cover 2765 may have one or more pins 2769 that are configured to be received within corresponding pin guide tracks that are formed into the roll partition 2740. The pin guide tracks may be designed to “grab” the pins 2769 and pull the nip cover 2765 forward when the roll partition 2740 rotates forward such that the nip cover 2765 slides forward to cover the second nip 2766 and reveal the first nip 2761. Similarly, the pin guide tracks may be designed to “push” the pins 2769 and the nip cover 2765 backward when the roll partition 2740 rotates backward such that the nip cover 2765 slides backward to cover the first nip 2761 and reveal the second nip 2766.
In some embodiments, the nip cover 2765 may be biased (e.g., spring biased) away from the rear housing 2714 of the dispenser 2700. When the roll partition 2740 is in the stowed position (shown in
Some embodiments of the present invention contemplate other types of nip covers for selectively covering or revealing nips of dispensing mechanisms based on the position of the roll holder. For example, in some embodiments, the nip cover may be made of elastic material. The nip cover may be attached at one end between the first dispensing mechanism and the second dispensing mechanism and to the roll holder (or corresponding structure with the roll holder) at the other end. In this regard, the elastic nip cover may cover up the first nip when the roll holder is in the stowed position. However, as the roll holder rotates toward the unstowed position, the elastic nip cover may stretch and move generally forward to cover the second nip while revealing the first nip.
Although the above example embodiments illustrate and describe use of a nip cover with a roll partition, some embodiments of the present invention contemplate use of a nip cover with other configurations where the roll holders move (e.g., any of the embodiments described herein and shown in the various figures, such as
Some embodiments of the present invention provide a funnel cover for a nip of the dispensing mechanism. The funnel cover may be designed to improve loading of the leading edge of product into the nip of the dispensing mechanism. In this regard, the funnel cover may provide a surface that physically and/or visually leads the maintainer to where to position the leading edge of the product roll for proper loading.
With reference to
Some example embodiments of the present invention contemplate use of various sensors in the product dispenser. For example, as described herein, some embodiments contemplate a product dispenser with one or more funnel sensors, one or more chute sensors, one or more product level (e.g., fuel) gauges, one or more motor operation sensing systems, one or more tear bar detection mechanisms, an activation sensor, among other sensors. By utilizing the gathered information, example product dispensers (such as through the controller) may be configured to perform various functions (e.g., switch dispensing between product rolls, display information to the user/maintainer, automatic or assisted feed, etc.) and determine various scenarios (e.g., a jam scenario, out of paper scenario, etc.). The following describes various example sensors and functions or scenarios that can be performed or determined using the gathered information from the sensors.
Some embodiments of the present invention provide an activation sensor (e.g., activation sensor 120 of
In some embodiments, an IR activation sensor may be formed of a transmitter and a receiver. The transmitter may be configured to transmit one or more pulses of infrared light in a direction (e.g., an activation sensor space). In some embodiments, one or more light pipes may be used to direct light traveling from an LED on a printed circuit board toward a desired space. The receiver may be configured to sense a reflection of the transmitted infrared light, such as when it reflects off the hand of a user. Depending on the configuration, in some embodiments, the transmitter and receiver may be controlled separately such that they can be operated independently of each other. For example, the transmitter can be turned on and off (e.g., pulsed) and the receiver can be separately turned on and off. By operating the transmitter and receiver separately, overall power consumption can be reduced.
Depending on the location of the sheet product dispenser and general preferences of the maintenance personnel, having an adjustable sensing range can be desirable. For example, the range can be set to high, medium, or low (or other variations), and generally correlates to a distance away that a user's hand may be sensed. By using a lower setting, the IR activation sensor may be configured to avoid detecting passing objects (such as users) at distances further away than the desired distance from the IR activation sensor that are indicative of a user intentionally trying to activate the dispenser. In some embodiments, the IR activation sensor may be enabled with an adjustable sensing range. For example, with reference to
Some example embodiments of the present invention contemplate a product dispenser that is configured to enable automatic or assisted loading of a leading edge of a product roll. For example, in some embodiments, the product dispenser may be configured to automatically energize a drive roller of the dispensing mechanism during loading of the leading edge of the product roll to make it easier for a maintainer to load the dispenser with the product roll. Such automatic energizing of the drive roller may occur in response to sensing the leading edge of the product roll. Further, some embodiments may sense that the product roll has successfully been loaded and, in response, may de-energize or stop rotation of the drive roller.
The funnel and chute sensors are each configured to detect whether or not product is present in the corresponding area. In the depicted embodiments of
In some embodiments other directions or configurations for the funnel and/or chute sensors can be used. For example,
When the maintainer has pulled the leading edge 2953 of the first product roll 2951 to a position that is within a threshold distance of the nip 2961 of the first dispensing mechanism 2921 the first funnel sensor 2941 will detect the leading edge 2953 (e.g., the leading edge 2953 will cross and break the IR light 2941a emitted down the width of the first nip 2961). Though the first funnel sensor 2941 is shown as emitting an IR light 2941a down the width of the nip 2961, other IR sensors are contemplated (such as those described herein).
When the first funnel sensor 2941 detects the presence of the leading edge 2953 of the product roll, the controller may be configured to activate the first dispensing mechanism 2921, such as by causing rotation of the drive roller of the first dispensing mechanism 2921. As the drive roller and pinch roller of the first dispensing mechanism 2921 rotate, the maintainer may further lower the leading edge 2953 of the first product roll 2951 into contact with the drive roller and pinch roller such that the drive roller and pinch roller pull the leading edge 2953 of the first product roll 2951 and automatically feed the leading edge 2953 into the first dispensing mechanism 2921 to subsequently meet user commands for product.
In some embodiments, the controller may continue to operate the motor of the first dispensing mechanism 2921 for a pre-determined amount of time (e.g., 0.3 seconds, 2 seconds, etc.). Additionally or alternatively, in some embodiments, the controller may be configured to operate the motor of the first dispensing mechanism 2921 until the first chute sensor 2942 detects the presence of the leading edge 2953 signifying that the leading edge 2953 has successfully passed through the dispensing mechanism 2921 and into the first chute 2943. Thereafter, the controller may deactivate the motor of the first dispensing mechanism 2921 and the product roll may be successfully loaded. The ability to automatically feed product into the dispensing mechanism is useful to the maintainer because it replaces the step in which the maintainer may need to press a button or otherwise manually activate the dispensing mechanism to feed the leading edge of the product roll into the appropriate dispensing mechanism.
Though the above description focuses on automatically loading a leading edge of a first product roll into a first dispensing mechanism, some embodiments of the present invention may also utilize similar features to enable automatic or assisted loading of a leading edge of a second product roll into a second dispensing mechanism. For example,
In some embodiments, the controller may be configured to cause the automatic or assisted feed operation to initiate slowly to make the experience more pleasant for the maintainer. To explain, the controller may operate the motor of the dispensing mechanism slowly at first and slowly ramp up speed. In this regard, the maintainer might not get scared or intimidated by the burst of motor operation (as their hand is nearby). Further, in some embodiments, the slow acceleration of the motor invites the maintainer to maneuver the leading edge of the product roll near the nip for loading.
In some embodiments, the controller may be configured to enable re-installation of the leading edge. For example, a maintainer may feel that the leading edge was awkwardly loaded. In this case, after the motor stops running (e.g., the controller sensed the leading edge in the chute), the maintainer may pull out the leading edge from above the dispensing mechanism (e.g., upward from within the dispensing mechanism). Instead of fighting, the motor may be configured to cooperate and enable the maintainer to remove the installed leading edge of product roll. Then, in some embodiments, the funnel sensor may detect the lack of presence of the leading edge (as it was pulled out) and the controller may reset the automatic or assisted feed operation and be ready to begin automatic or assisted feeding again.
In some embodiments, the product dispenser may include one or more light pipes to facilitate operation of one or more of the funnel sensor and/or chute sensor. In this regard, in some embodiments, a light pipe system may be configured to reduce parts and maximize the ability to accurately detect the presence or absence of the product roll in the corresponding funnel or chute.
The shape of the illustrated light pipes 3080a, 3080b enable a single transmitter 3012, 3017 to emit light for the IR sensor such that the IR sensor effectively covers the entire nip 3061, 3066 to efficiently and effectively detect the presence or absence of the product in the nip 3061, 3066. To explain, with reference to
Although the above example light pipes are described for funnel sensors, some embodiments of the present invention contemplate use for one or more chute sensors. Along these same lines, some embodiments of the present invention contemplate other light pipe systems for the one or more chute sensors.
Though the above described examples employ light pipes, some example embodiments may employ other structures to reflect and/or direct light, such as mirrors. For example, one or more mirrors could be positioned at various points within the dispenser to redirect light in a desired direction or according to a desired pattern.
Though some example described embodiments contemplate sensing product, the funnel sensors and/or chute sensors may be used to sense other objects, such as a user's hand. In this regard, in some embodiments, if a funnel sensor senses a user's hand, the controller may be configured to initiate automatic or assisted loading operations (such as described herein). In such a situation, a user may be bringing their hand close to the funnel to begin loading or installing the product roll therein. In some embodiments, if a chute sensor senses a user's hand, the controller may be configured to cause operation of the corresponding dispensing mechanism so as to attempt to provide product to the user. In such a situation, the user may be attempting to reach up the chute to grab a small remaining portion of the product, thereby indicating a desire for dispensed product.
Some embodiments of the present invention may include one or more tear bar detection mechanisms (e.g., tear bar detection mechanisms 124, 129 of
Additional example tear bar mechanisms and the various features that can be used due to information gathered by the tear bar mechanism can be found in U.S. application Ser. No. 12/437,921, entitled “Sheet Product Dispenser With Sensor For Sheet Separation”, which is assigned to the assignee of the present application and incorporated by reference herein in its entirety.
While some of the above described example embodiments utilize a movable tear bar to determine a tear event, some embodiments of the present invention may utilize other sensors, such as one or more chute sensors (e.g., the chute sensor examples described herein) to detect tearing and/or removal of a dispensed sheet. In such example embodiments, the tear bar may be stationary and/or the paper may be pre-perforated. In a further example, another type of sensor, such as an accelerometer, may be used to sense the occurrence of a tear event. For example, a stationary tear bar may vibrate upon removal of the paper towel. In such an embodiment, the accelerometer may sense the vibration and determine the occurrence of the tear event.
Some embodiments of the present invention provide product dispensers that may be configured to sense when a motor for a dispensing mechanism operates. Such information can be used by the controller of the product dispenser for a number of different operations including, for example, ensuring dispensing of a desired sheet length, detecting a jamming scenario, detecting an out of paper or near out of paper scenario, among many others.
In some embodiments, the motor operation sensing information may be utilized by the controller for detecting various scenarios related to the product roll and/or dispensing mechanism, such as some examples described herein. Additionally or alternatively, in some embodiments, knowledge of how many times the motor operates may be utilized with a known time period and/or other information, such as information gathered from other sensors (e.g., a funnel sensor, a chute sensor, a tear bar detection mechanism, a product level sensors, etc.), to determine various scenarios regarding the product roll and/or dispensing mechanism.
In some embodiments, knowing when the motor operates, such as one full rotation of the motor, or alternatively, fractions of a full rotation, may allow the controller to cause the desired sheet length of a dispensed portion of paper towel to be achieved for the dispense. To explain, the number of times a motor rotates is correlated to the number of rotations of the drive roller for the dispensing mechanism, for example by a known gear ratio. The number of rotations of the drive roller is directly correlated to the length of dispensed paper towel, since the size of the drive roller is known. Thus, the controller may be configured to cause the motor to operate and count the number of rotations of the motor. When a certain number of rotations is achieved, then the controller may cease operation of the motor. In this regard, a desired sheet length can be achieved by stopping the motor when the desired sheet length is reached. In some embodiments, the controller may be configured to cause one of at least three different sheet lengths to be dispensed. As described herein in greater detail, the maintainer may set a desired sheet length for dispensing, such as through interaction with a user interface.
Embodiments of the present invention contemplate a number of different ways to sense operation of the motor for the dispensing mechanism. The following describes some example ways in which the product dispenser may be configured to sense operation of the motor of the dispensing mechanism (e.g., each dispensing mechanism).
In some embodiments, with reference to
In some embodiments, the filtered and amplified signal is sent to a comparator, which compares the motor signal to a set reference voltage and outputs a high logic signal when the motor signal is greater than the set reference voltage. This results in a pulse being sent to the controller every time the motor commutates (e.g., switches poles during operation).
In some embodiments, other methods for sensing operation of the motor may be utilized. For example, the controller may monitor the battery voltage to sense operation of the motor. Additional information regarding example embodiments that utilize battery voltage to sense motor operation can be found in U.S. application Ser. No. 14/750,333, entitled “Methods, Systems, and Apparatus for Monitoring a Dispensing State of a Dispensing System”, which is assigned to the assignee of the present application and incorporated by reference herein in its entirety.
Some embodiments of the present invention contemplate other types of sensors for sensing motor operation.
As noted herein, some embodiments of the present invention provide a product dispenser that is configured to dispense from one of two product rolls. In particular, in some embodiments, with two separate dispensing mechanisms, either dispensing mechanism can be used to dispense from either product roll. A goal of some embodiments of the present invention is to provide the best opportunity to avoid a completely empty scenario (e.g., where both product rolls are empty and the dispenser cannot meet user demand). In order to attempt to avoid such a scenario, some embodiments of the present invention seek to always dispense product from the smaller of the two installed product rolls. In such a situation, the smaller (first) product roll will be depleted first, leaving the larger (second) product roll as a back up to dispense while the originally smaller (first) product roll is depleted. Further, since the now depleted (first) product roll can be replaced without the need to replace the currently dispensing other (second) product roll, there is the largest time opportunity for the maintainer to replace the now depleted (first) product roll and avoid a completely empty scenario. Further, such a configuration may help ensure that all of the paper within the dispenser is used up in a timely manner. For example, such a configuration may avoid a single roll sitting in the dispenser as a “permanent” back up roll, with the maintainer always (or often) replacing and dispensing from the other roll.
Along these lines, in some embodiments, the product dispenser (such as through the controller) may be configured to identify which of the first product roll and the second product roll is the smaller roll (i.e., more product has been used from the roll), and then cause dispensing to occur from the smaller roll until it is depleted. After that, the product dispenser may be further configured to dispense from the remaining roll (which was the larger roll).
In some embodiments, the dispenser may use a product level (e.g., fuel) gauge for aiding in identification of the smaller product roll. The following examples provide various product level sensors that may be utilized to aid in identification of the size of the product roll, such as how much product is remaining on the product roll.
In some embodiments, the product dispenser may include one or more pivoting product level arms for each product roll. The pivoting product level arm may be rotatably connected to the dispenser housing at one end. At the other end, the product level may contact the outer circumference of the product roll. As the product roll size decreases (as product is dispensed), the product level arm will rotate toward the center of the product roll. This angular change can be sensed and used (e.g., by the controller) to determine the remaining amount of product on the product roll.
Other example embodiments of suitable product level sensors for the product dispenser are product level sensors using a pivoting arm or a linear displacement sensor such as the examples described in U.S. application Ser. No. 15/247,019, entitled “Sheet Product Dispenser with Product Level Gauge System”, which published as U.S. Publication No. 2017/0057775 on Mar. 2, 2017, and which is assigned to the assignee of the present application and which is hereby incorporated by reference in its entirety.
In some embodiments, while having two product rolls, only one product level sensor may be used to determine which dispensing mechanism to utilize (such as to dispense from the smaller of the two product rolls). In this regard, other sensors can be utilized to determine when dispensing occurs and track the amount of product remaining on the product roll without the product level sensor. For example, for the product roll not being directly monitored by a product level sensor, the amount of product remaining can still be determined using a known starting amount of product and subtracting therefrom the number of dispenses times the sheet length of each dispense. The product level sensor could be utilized to determine the amount of product remaining on the other product roll—thereby enabling determination of which product roll has less product remaining. In similar regard, the tracking and amount remaining estimation could be performed for both product rolls, meaning that no product level sensor was necessary. Further information regarding various ways to estimate an amount of product remaining in a dual product roll dispenser can be found in U.S. Publication No. 2017/0057775 referenced above, which is incorporated herein by reference in its entirety.
In some embodiments, other estimation type routines can be performed to achieve a similar effect as if the dispenser was dispensing from the smaller product roll. For example, the product dispenser may be configured to use a product level sensor to determine if one of the product rolls has less than a predetermined amount of product remaining (e.g., less than 75%). In the instance in which the product roll has less than the predetermined amount, the product dispenser may cause dispensing from that product roll. Since a new product roll should not have less than the predetermined amount (e.g., 75%), the product dispenser would likely be dispensing from the smaller of the two product rolls. If the product roll did not have less than the predetermined amount, then the product dispenser may cause dispensing from the other product roll first. Such a system enables use of only one product level sensor. However, in some embodiments, two product level sensors could be used (e.g., one for each product roll) and a similar threshold check could be performed to determine which product roll to dispense from first.
In some embodiments, the product dispenser (such as through the controller) may be configured to compare the various ratios of rotation of the product rolls to corresponding drive rollers to help determine which product roll is smaller and/or an estimated amount of product remaining on at least one product roll. For example, the product dispenser (such as through the controller) may be configured to detect and compare rotation of the first product roll to rotation of the first drive roller (alternatively, the first motor) of the first dispensing mechanism to form a first rotation ratio (e.g., the time period for a rotation cycle of the first product roll over the time period for a rotation cycle of the first drive roller). Likewise, the product dispenser (such as through the controller) may be configured to detect and compare rotation of the second product roll to rotation of the second drive roller (alternatively, the second motor) of the second dispensing mechanism to form a second rotation ratio (e.g., the time period for a rotation cycle of the first product roll over the time period for a rotation cycle of the first drive roller). By comparing, these ratios, the controller can determine which product roll is smaller (e.g., the smaller of the two ratios indicates a smaller product roll—as less time is required to complete a rotation cycle for a smaller product roll). In some embodiments, the controller may determine the time period of a rotation cycle of each product roll and determine which product roll is smaller due to that product roll completing a rotation cycle in less time.
As shown in
In some embodiments, the rotation sensors may be used to determine the size of a product roll. For example, as the product dispenser dispenses from the first drive roller 3423, the product dispenser 3420 may measure the third rotation sensor 3445 (for the first drive roller 3423) and the first rotation sensor 3425 (for the first product roll 3451). The ratio of rotations is proportional to the diameter of the first product roll 3451, and may be used to determine the amount of product remaining on the first product roll 3451 (e.g., the known diameter of the first drive roller may be used with the ratio of rotations to determine the diameter of the first product roll). Similarly, as the product dispenser 3420 dispenses from the second drive roller 3428, the product dispenser may measure the fourth rotation sensor 3455 (for the second drive roller 3428) and the second rotation sensor 3435 (for the second product roll 3456), and use the ratio of rotations (along with the known diameter of the second drive roller 3428) to determine the diameter of the remaining portion of the second product roll 3456 and, thus, the amount of product remaining on the second product roll 3456.
In some embodiments, the ratio of duration of time for a full rotation of the product roll versus the ratio of duration of time for a full rotation of the drive roller can be used to determine the size of the product roll. For example, as the product dispenser dispenses from the first drive roller 3423, the product dispenser 3420 may measure the time it takes to complete a full rotation of the first drive roller 3421 (e.g., by using the third rotation sensor 3445) and the time it takes to complete a full rotation of the first product roll 3451 (e.g., by using the first rotation sensor 3425). Since the diameter of the drive roller is known, the ratio of the time it takes to complete a full rotation of the product roll versus the time it takes to complete a full rotation of the drive roller can be used to determine the diameter of the product roll and, thus, the amount of remaining product on the product roll. The same method can be utilized for determining the amount of product remaining on the second product roll 3456 using the second rotation sensor 3435 and the fourth rotation sensor 3455.
In some embodiments, the product dispenser may include one or more IR sensors configured to determine the amount of product remaining on a product roll. For example,
In some embodiments with a web management feature (such as a roll partition, divider, etc.), one or more IR sensors may be positioned on the web management feature and directed toward one or more of the product rolls. For example, with reference to
In some embodiments, the controller (such as through the first IR sensor 3525) may be configured to determine the intensity of the reflected IR compared to the emitted IR. The controller may then be configured to determine the size of the first product roll 3551 by comparing the first reflected IR to the first emitted IR. Likewise, the same analysis can be performed with respect to the second product roll 3556. In this manner, the product dispenser may know the size of each product roll. The product dispenser (such as through the controller) may then determine which product roll is smaller and dispense from that product roll first.
In another embodiment, both IR sensors 3225, 3535 may be configured to emit a known intensity of light and measure the reflected intensities of light. The controller may compare which reflected intensity is weaker (from a roll surface that is further away because the roll is smaller) and thereby determine which roll is smaller.
In another embodiment, a first product roll is larger than a second product roll yet the reflected intensity from the first product roll is weaker than the reflected intensity from a second product roll due to factors such as the IR transmitter and/or receiver for the first product roll being mounted further away from the first product roll holders, or mounted at an angle, or is configured to transmit less IR intensity, or other factors. In such a case, the controller can be configured to determine that the weaker reflected intensity for the first product roll is still large enough to compensate for those factors, and the controller may then determine that the second product roll is smaller and should be dispensed from first.
In another embodiment, the IR sensor emits a light beam and measures the amount of time that it takes for the light to reflect off of a product roll and return to an IR detector. The amount of time that the light travels is directly correlated to the distance from the product roll, since the speed of light is known and constant. In this manner, the controller is able to determine the distance to the product roll surface and, thus, the diameter of the product roll. Alternatively, the product level sensor may emit a sound signal and measure the amount of time that it takes for the sound to reflect off of a product roll surface and return to the product level sensor. The amount of time that the sound travels is directly correlated to distance from the roll, since the speed of sound is very consistent in the typical operating temperatures of the dispenser. In this manner, the controller is able to determine the distance to the product roll surface and, thus, the diameter of the roll.
Along the above lines, some embodiments of the present invention contemplate other types of product level sensors for determining the amount of product remaining on a product roll or determining which product roll is smaller (e.g., has less product remaining).
In some embodiments, both product rolls may be replaced with full product rolls. In such a scenario, either product roll may be dispensed from. In some such embodiments, the product dispenser may default to dispensing from the first product roll (e.g., the top product roll). Alternatively, the product dispenser may default to dispensing from the second product roll (e.g., the bottom product roll). Likewise, a maintainer may replace a partially depleted product roll, leaving behind two full product rolls. In such a scenario, in some embodiments, the product dispenser may be configured to dispense from the older of the product rolls (e.g., the product roll that has been installed the longest). In other embodiments, the controller is configured to dispense, alternately, from both product rolls for a period of time in order to gather enough information to determine which roll is smaller.
In some embodiments, the controller of the product dispenser may be configured to determine the occurrence of a jam scenario. This may be accomplished in multiple ways. In an example embodiment, the controller determines how many times the motor has been energized to dispense paper and whether or not paper has been detected by the chute sensor. In this regard, if there is expected to be paper in the chute but the chute sensor does not indicate the presence of paper, then the controller may determine that a jam has occurred (e.g., above the chute sensor). In some embodiments, a product level sensor (such as example product level sensors described herein) and/or funnel sensor may be checked to confirm that there is product available for dispensing (making sure the motor isn't running without product). In some embodiments, the controller monitors the motor and/or drive roller rotations to determine if a jam has occurred. For example, if the controller energizes the motor to dispense product yet the motor does not rotate, then the controller may determine that a jam (or other inoperable condition) has occurred. In some embodiments, the controller monitors the position of the product level arm 3415 and rotations of a product level roller 3402 to determine if a jam has occurred. For example, if the position of the product level arm 3415 indicates that there is product on the roll yet the product level roller 3402 is not rotating, then the controller may determine that a jam (or other inoperable condition) has occurred. In the event of a jam scenario, the product dispenser (such as through the controller) may be configured to automatically switch dispensing to the other product roll (which would utilize the other dispensing mechanism that is most likely not jammed). Further, the jam scenario could be communicated to the maintainer, such as through a maintainer user interface, the main user interface, or wirelessly (e.g., a text message, email, etc.).
As noted herein, some embodiments of the present invention provide a product dispenser that is configured to dispense from one of two product rolls. In particular, in some embodiments, with two separate dispensing mechanisms, either dispensing mechanism can be used to dispense from the associated product roll. In some embodiments, it is desirable to automatically switch dispensing from one dispensing mechanism for one product roll to the other dispensing mechanism for the other product roll without additional steps required by the user. For example, in some embodiments, a user may initiate the dispense (such as by detection from the activation sensor). The product dispenser may determine that the first product roll is empty (or near empty) and automatically dispense from the second product roll. In this manner, there is seamless transition between dispensing of both product rolls and user demand is realized.
In some embodiments, the controller may be configured to use various information, such as from the funnel sensor, motor operation sensor, and/or product level sensor to determine when one product roll is out-of-paper or nearly out-of-paper. For example, in some embodiments, the controller may be configured to determine the occurrence of an out of paper scenario by determining whether or not paper has been detected by the funnel sensor. In some embodiments, the attempted operation of the motor or actuation of the activation sensor can trigger a check of the corresponding funnel sensor to determine if there is an out of paper scenario. In this regard, if there is no paper detected by the funnel sensor, then the product roll is likely empty. In some embodiments, a product level sensor (such as example product level sensors described herein) may be used to determine whether there is any product remaining, for example by determining whether a roller 3402 is rotating when the associated motor is energized. Further, in some embodiments, a product level sensor can be checked to determine if the product roll is nearly out of paper. When such a determination is made, the controller may automatically switch to dispensing from the other remaining product roll (such as described above). In some embodiments, other indications may cause the controller to switch operation to the other dispensing mechanism and product roll, such as a rotation sensor associated with the motor, drive roller, and/or product roll indicates that the corresponding rotation mechanism is rotating either too quickly or not quickly enough (e.g., depending on the scenario).
In some embodiments, the product dispenser may include a user interface (e.g., the user interface 114 shown in
In some embodiments, the cover must be opened in order to access the user interface and/or other portions of the chassis. Alternatively, in some embodiments, at least a portion of the chassis may be accessible to a user/maintainer without opening the cover. In this regard, in some embodiments, the user interface 7000 (or portions thereof) may be physically accessible, but may be disabled from a user. Further, access could be granted to such features in various ways, such as by opening the cover, entering a code, swiping a badge, etc.
In some embodiments, the user interface may form a part of a chassis that includes, for example, the first and second dispensing mechanism, the first and second chutes, and/or additional components (e.g., the controller, etc.). In some embodiments, the cover may be designed such that the chassis can be replaceable without opening the cover. For example, the chassis could be a “snap-in” module. Such an embodiment may provide for easy maintenance and replacement capabilities.
In some embodiments, the user interface may be configured to enable a maintainer to select one or more options for dispensing the product. For example, with reference to
In some embodiments, the buttons 7010a-d may be tactile buttons that provide tactile feedback to the maintainer upon selection. In other embodiments, the buttons 7010a-d may be other forms of buttons, including, for example, capacitive sensor based buttons.
In some embodiments, one or more LEDs may be utilized to provide an indication of the option selected. For example, with reference to
Though the above described user interface includes circular buttons and annular LEDs, some embodiments of the present invention contemplate other shapes and placements for the buttons and LEDs.
In some embodiments, the user interface may be configured to enable a user to manually operate the one or more dispensing mechanisms (such as to clear a jam or help in loading a new product roll). With reference to
In some embodiments, such as described herein, the product dispenser (such as through the controller) may be configured to determine the occurrence of a jam situation for each of the dispensing mechanisms. In such a situation, an LED may illuminate in some manner to indicate the jam and the dispensing mechanism in which the jam has occurred. For example, with reference to
In some embodiments, the user interface may include a portion designed to provide information to the maintainer and the consumer. For example, the user interface 7000 of
In some embodiments, an activation sensor origin 7020 may be positioned proximate the screen 7025 and may be shaped or otherwise designed to draw a user's attention to it to indicate the general space in which they should place their hand to cause initiation of a dispense. In some embodiments, the activation sensor origin 7020 may be shaped and/or designed to enable light from the activation sensor (e.g., IR light) to pass therethrough. Further, in some embodiments, the activation sensor origin 7020 may be shaped and/or designed to separate the pathway of light for the activation sensor from light used to illuminate one or more indicators (e.g., icons 7026, 7027, 7028).
In some embodiments, the user interface may provide an indication to a user that a task or feature has been properly (or in some cases improperly) completed, such as by providing an animation of lights to indicate the completion of the task. For example, with reference to
While the above description details one example animation, some embodiments of the present invention contemplate other example animations and patterns to provide one or more indications to a maintainer or consumer. Along similar lines, though the above example is directed to indicating a proper loading, some embodiments of the present invention contemplate other tasks for which proper completion or improper completion may be indicated to the maintainer or consumer (e.g., a jamming scenario; an out-of-paper scenario; a successful loading of the product roll into the roll holders, among many others).
In some embodiments, the product dispenser (such as through the controller) may be configured to monitor the battery voltage to determine the amount of battery remaining. In this regard, some embodiments of the present invention seek to provide an indication to the user when the battery life of the current batteries are low. Additionally, some embodiments of the present invention seek to utilize the measured battery voltage being used for other features, such as determining information about the motor or other used components (e.g., to confirm proper operation of the motor, change operational parameters of the motor, such as how long the motor needs to run to achieve an assigned sheet length, etc.).
In some embodiments, in order to determine the remaining life of the one or more batteries, the controller of the product dispenser may be configured to monitor the battery voltage being used. In some embodiments, an analog-to-digital conversion may be performed on the battery voltage. In some embodiments, the controller may be configured to utilize a rolling average algorithm to gather the lowest average battery voltage taken during a dispense cycle (e.g., the time period it takes to complete a full dispense). The controller may be configured to then use the lowest average to determine an amount of battery life remaining, so as to account for the “worst case” scenario (though other averages can be utilized, such as highest average, mean average, median average, etc.). Further, the controller may, based on the amount of battery life remaining, calculate the estimated time remaining before a replacement is needed based on a number of factors, including, for example, an estimated number of dispensers over a time period (e.g., hour, day, year, etc.) and/or an estimated number of energy tasks over a time period. Example energy tasks include running the motor(s), checking the product level sensor(s), measuring the battery, checking one or more sensors, among many others (such as those examples described herein). Such estimates may be based on historical data (such as entered during manufacturing) or, in some cases, may be based on observed data specific to at least the current product dispenser.
In some embodiments, the product dispenser (such as through the controller) may be configured to indicate a low battery to a user and/or maintainer, such as through the user interface or the maintainer user interface. For example, the controller may be configured to cause one or more LEDs to illuminate when the battery life is below a predetermined threshold. Additionally or alternatively, other indications may be provided, such as an estimated time remaining until a replacement is needed. While the above example includes providing an indication using an LED, other ways to provide an indication are contemplated, including, for example, sending a message (e.g., text or email) to the maintainer, providing text on the user interface, etc.
Some embodiments of the present invention seek to provide more efficient operation of the motor and product dispenser as a whole. In this regard, in some embodiments, the product dispenser (such as through the controller) may be configured to control the motor to reduce bleeding of the product from the roll (e.g., a user manually pulling the product through the rollers of the dispensing mechanism). In some embodiments, to prevent bleeding, the controller may be configured to brake the motor. For example, some embodiments of the present invention may short both sides of the motor together, such as to the battery positive. In some embodiments, the controller may be configured to brake the motor for a certain amount of time after each dispense. Additionally or alternatively, the controller may be configured to brake the motor any time the motor is not running.
Some embodiments of the present invention seek to increase the efficiency of operation of the motor, such as to increase battery life and reduce overall energy usage. In this regard, the product dispenser includes a gear ratio for operation of the motor of each dispensing mechanism. The gear ratio is the ratio of the size of the gears that transfer rotation of the motor to the drive roller of the dispensing mechanism. In some embodiments, the product dispenser includes a lowered gear ratio. In some embodiments, the lowered gear ratio results in a faster dispense (e.g., less time to achieve a dispense of the product).
In some embodiments, the overall drivetrain is comprised of a plurality of gears which determine the overall gear ratio. The drivetrain may be comprised of at least two gears, but could be any number of gears more than two. To determine the overall gear ratio of the drivetrain, the output gear pitch diameter (or number of teeth) is divided by the input gear pitch diameter (or number of teeth) for each pair of gears in contact. In some embodiments, the drivetrain uses a compound gear to transfer from one gear set to another gear set. A compound gear has two gears on the same shaft, which therefore rotate at the same rotational speed. In some embodiments, the drivetrain may use one or more intermediate gears to transfer speed and torque from the input gear to the output gear. In such an example, the intermediate gears may function only to switch rotation direction and spacing between the input gear and the output gear. To determine the output rotational speed, the input speed is divided by the gear ratio.
As an example, the following scenario is presented: a motor input gear has 16 teeth followed by meshing with a 40 tooth gear; the 40 tooth gear is a compound gear with 20 teeth on the other gear; the 20 tooth gear then meshes with the output gear that has 50 teeth. For this example, the gear ratio is determined by: (40/16)×(50/20)=6.25:1. If the input speed from the motor is 3600 rpm, then the output rotational speed is 3600 rpm/6.25=576 rpm.
In some embodiments, various factors may be used to optimize the efficiency of the drivetrain. Some example factors include: feed roller diameter (determines speed of paper delivery and required torque), resistance to motion (friction from bearings/bushings, applied friction to the paper delivery system and gear shaft and tooth friction) and the motor performance curve (motor torque, rotational speed, efficiency, etc.).
Some embodiments of the present invention seek to reduce the effects of static electricity build-up in the product dispenser. In this regard, static electricity can build-up due to the product (e.g., paper) passing across various surfaces within the product dispenser. In some embodiments, the product dispenser may include one or more static electricity paths that provide a pathway from a metal surface within the product dispenser to “ground”. In such embodiments, for example, the product dispenser may include a pathway (e.g., a wire) that passes from the product dispenser into an external structure, such as the wall where the product dispenser is mounted. In some embodiments, every metal surface within the product dispenser may include a pathway that is grounded. Additional information regarding static electricity management and corresponding pathways to ground can be found in U.S. Pat. No. 6,871,815, entitled “Static Build Up Control in Electronic Dispensing Systems”, filed Sep. 27, 2011; U.S. Pat. No. 7,017,856, entitled “Static Build-Up Control in Dispensing System”, filed Mar. 23, 2004; U.S. Pat. No. 7,182,289, entitled “Static Build-Up Control in Dispensing System”, filed Feb. 3, 2005; and U.S. Pat. No. 7,387,274, entitled “Static Build-Up Control in Dispensing System”, filed Jan. 10, 2006; each of which is assigned to the Assignee of the present invention and is incorporated by reference herein in its entirety.
In some embodiments, the product dispenser may include a configurable lock for controlling access to the inside of the product dispenser. For example, with reference to
In some circumstances, the product dispenser may be mounted on a wall and the lock feature 8090 may be difficult to reach and/or see for a user (e.g., the user may have to reach up above their head and over the top 8016 of the dispenser housing 8014 to reach the lock feature 8090). In such a situation, it may be difficult for a user (e.g., maintainer) to align the key 8095 with the lock feature 8090 to open the cover 8012. In this regard, with reference to
In some embodiments, the lock feature 8090 may be configurable to enable installation of a permanent button 8070. This changes the lock feature 8090 into an unlocked configuration (although the latch 8072 may still be engaged to keep the cover closed). For example, with reference to
In some embodiments, the button 8070 may be removable to reset the lock feature 8090 to the locked configuration. For example, with reference to
In some embodiments, the button 8070 may be used to replace the lock feature 8090. For example, with reference to
A schematic representation of components of an example product dispenser system 100 according to various embodiments described herein is shown in
The product dispenser 105 may include many different components and/or systems (such as shown in
As will be described in more detail herein, the controller 110 provides logic and control functionality used during operation of the product dispenser 105. Alternatively, the functionality of the controller 110 may be distributed to several controllers that each provides more limited functionality to discrete portions of the operation of product dispenser 105.
The product dispenser 105 may be configured to hold two full product rolls. For example, the depicted product dispenser 105 houses a first product roll 151, such as may be received by a first set of roll holders that are attached to a base of the product dispenser 105. Additionally, the product dispenser 105 houses a second product roll 156, such as may be received by a second set of roll holders. In the depicted embodiment, the second product roll 156 is received within roll holders that are attached to a roll partition 140.
The roll partition 140 may be designed, in some embodiments, to hold a product roll (e.g., product roll 156). Additionally, the roll partition 140 may be movably (e.g., pivotably) attached to the base and/or cover of the product dispenser 105, thereby enabling movement of the roll partition between a closed position and an open position. In some embodiments, the roll partition 140 may be configured to help separate or manage the web paths of the first product roll 151 and the second product roll 156.
The activation sensor 120 may be configured to sense/receive user input (such as a user's hand or portion thereof) indicating a desire to cause the product dispenser 105 to dispense a portion of product (e.g., a portion of sheet from the first or second product roll). The activation sensor 120 may be any type of sensor or feature capable of receiving user input to begin dispensing, including for example, a capacitive sensor, a light sensor, an IR sensor, a mechanical lever or button, etc. The activation sensor 120 may be in communication with the controller 110 such that the controller 110 can determine when to cause dispensing of the product.
The first and second dispensing mechanism 121, 126 may each be configured to cause dispensing of a portion of the product, such as a portion (or length) of the roll of product (e.g., the first or second product roll). Depending on the configuration, the dispensing mechanisms 121, 126 may each comprise a motor (e.g., first motor 122 or second motor 127, respectively) that drives one or more drive rollers (e.g., first roller(s) 123 or second roller(s) 128, respectively). In each dispensing mechanism, a portion of the product roll may be sandwiched (e.g., in frictional contact) between the drive roller and one or more pinch rollers such that operation/rotation of the drive roller causes dispensing of a portion of the product roll. The first and second dispensing mechanism motors 122, 127 may be in communication with the controller 110 such that the controller 110 may control operation of the motors 122, 127.
The first and second funnel sensors 141, 146 may each be positioned within or relative to the funnels for the corresponding first and second dispensing mechanisms 121, 126 and configured to sense the presence (or absence) of product within the corresponding funnels. For example, the first funnel sensor 141 may be positioned to sense for product within the funnel leading into the first dispensing mechanism 121. In some embodiments, the first and second funnel sensors 141, 146 may be configured to utilize IR sensing capabilities to sense the presence of the product in the funnel. In some embodiments, however, other types of sensors may be utilized (e.g., capacitive sensors, light sensors, mechanical sensors, etc.). The first and second funnel sensors 141, 146 may be in communication with the controller 110 such that the controller 110 may determine when product is present or absent within each funnel.
The first and second chute sensors 142, 147 may each be positioned within or relative to the chutes for the corresponding first and second dispensing mechanisms 121, 126 and configured to sense the presence (or absence) of product within the corresponding chutes. For example, the first chute sensor 142 may be positioned to sense for product within the chute extending from the first dispensing mechanism 121 (e.g., where the product is dispensed). In some embodiments, the first and second chute sensors 142, 147 may be configured to utilize IR sensing capabilities to sense the presence of the product in the chute(s). In some embodiments, however, other types of sensors may be utilized (e.g., capacitive sensors, light sensors, mechanical sensors, etc.). The first and second chute sensors 142, 147 may be in communication with the controller 110 such that the controller 110 may determine when product is present or absent within each chute.
The first and second tear mechanisms 124, 129 may each be configured to enable tearing of the dispensed portion of the product roll. In this regard, the first and second tear mechanisms 124, 129 may each comprise a tear bar or other feature that can enable a user to provide a force to tear off the portion of the product roll. For example, the first and second tear mechanisms 124, 129 may include a serrated edge that cuts into the sheet when the user pulls the dispensed product. The separated portion of the product from the product roll may then be used and discarded as necessary by the user. Alternatively, the first and second tear mechanisms 124, 129 may be configured to perform a tear or partial tear prior to interaction with the user such that the user simply pulls on the pre-torn portion of the product roll to complete dispensing of the portion of the product. In some embodiments, the first and second tear mechanisms 124, 129 may be configured to detect the occurrence of tearing of the product. For example, the serrated edge of a blade of the first and second tear mechanisms 124, 129 may be configured to sense and/or move in response to tearing occurring. In some embodiments, other types of tear mechanisms that can sense tearing of the product can be utilized. In this regard, the first and second tear mechanisms 124, 129 may be in communication with the controller 110 such that the controller 110 may determine when product is torn (such as during a dispense).
The product sensor(s) 118 (e.g., product level sensor(s)) is configured to sense product data (e.g., from the first and/or second product roll). In some embodiments, the product data may correspond to dispensing from at least one of the first product roll or the second product roll (e.g., how much product is being dispensed, when product is being dispensed, which product roll is dispensing occurring from, etc.). Additionally or alternatively, the product data may correspond to an amount of product remaining for at least one of the first product roll or the second product roll (e.g., a remaining size of the product roll, an amount of the product roll remaining, etc.). The product sensor 118 may be in communication with the controller 110 such that the controller 110 may receive the product data and perform one or more determinations regarding the product data (e.g., if one or more of the product rolls are substantially depleted, which product roll is dispensing, if there is leftover product in an exit chute, if there is a product jam, among others). Depending on the configuration of the product dispenser 105 and/or the desired information/product data, one or more product sensors 118 may be configured to sense data from the first product roll 151, the second product roll 156, and/or other components of the product dispenser 105 (e.g., the first and second tear mechanisms 124, 129, the first and second dispensing mechanisms 121, 126, etc.).
The controller 110 is a suitable electronic device capable of executing dispenser functionality via hardware and/or software control, with the preferred embodiment accepting data and instructions, executing the instructions to process the data, and presenting the results. Controller 110 may accept instructions through the user interface 114, or through other means such as but not limited to the activation sensor 120, other sensors, voice activation means, manually-operable selection and control means, radiated wavelength and electronic or electrical transfer. Therefore, the controller 110 can be, but is not limited to, a microprocessor, microcomputer, a minicomputer, an optical computer, a board computer, a complex instruction set computer, an ASIC (application specific integrated circuit), a reduced instruction set computer, an analog computer, a digital computer, a molecular computer, a quantum computer, a cellular computer, a solid-state computer, a single-board computer, a buffered computer, a computer network, a desktop computer, a laptop computer, a personal digital assistant (PDA) or a hybrid of any of the foregoing.
The controller 110 may be operably coupled with one or more components of the product dispenser 105. Such operable coupling may include, but is not limited to, solid-core wiring, twisted pair wiring, coaxial cable, fiber optic cable, mechanical, wireless, radio, and infrared. Controller 110 may be configured to provide one or more operating signals to these components and to receive data from these components. Such communication can occur using a well-known computer communications protocol such as Inter-Integrated Circuit (I2C), Serial Peripheral Interface (SPI), System Management Bus (SMBus), Transmission Control Protocol/Internet Protocol (TCP/IP), RS-232, ModBus, or any other communications protocol suitable for the purposes disclosed herein.
The controller 110 may include one or more processors coupled to a memory device 112. Controller 110 may optionally be connected to one or more input/output (I/O) controllers or data interface devices (not shown). The memory 112 may be any form of memory such as an EPROM (Erasable Programmable Read Only Memory) chip, a flash memory chip, a disk drive, or the like. As such, the memory 112 may store various data, protocols, instructions, computer program code, operational parameters, etc. In this regard, controller 110 may include operation control methods embodied in application code. These methods are embodied in computer instructions written to be executed by one or more processors, typically in the form of software. The software can be encoded in any language, including, but not limited to, machine language, assembly language, VHDL (Verilog Hardware Description Language), VHSIC HDL (Very High Speed IC Hardware Description Language), Fortran (formula translation), C, C++, Visual C++, Java, ALGOL (algorithmic language), BASIC (beginners all-purpose symbolic instruction code), visual BASIC, ActiveX, HTML (HyperText Markup Language), and any combination or derivative of at least one of the foregoing. Additionally, an operator can use an existing software application such as a spreadsheet or database and correlate various cells with the variables enumerated in the algorithms. Furthermore, the software can be independent of other software or dependent upon other software, such as in the form of integrated software.
In this regard, in some embodiments, the controller 110 may be configured to execute computer program code instructions to perform aspects of various embodiments of the present invention described herein. For example, the controller 110 may be configured to determine an instance in which one of the product rolls is substantially depleted. In such a regard, in some embodiments, the controller 110 may be configured to switch between operation of the first and second dispensing mechanisms 121, 126 to ensure constant ability to dispense product—such as described in various example embodiments herein.
The user interface 114 may be configured to provide information and/or indications to a user. In some embodiments, the user interface 114 may comprise one or more light emitting diodes (LEDs) to indicate such information (e.g., low battery, dispensing is occurring, low product amount, transfer complete, etc.). In some embodiments, the user interface 114 may include a screen to display such information. In some embodiments, the user interface 114 may include an interface on the exterior of the product dispenser 105 such as for an end consumer. Additionally or alternatively, the user interface 114 (including a second user interface) may be configured to provide information or indications to a maintainer (e.g., maintenance personnel), such as internally of the cover of the product dispenser 105.
In some embodiments, the user interface 114 may be configured to receive user input such as through a keypad, touchscreen, buttons, or other input device. The user interface 114 may be in communication with the controller 110 such that the controller 110 can operate the user interface 114 and/or receive instructions or information from the user interface 114. In some embodiments, the user interface 114 may include an interface on the exterior of the product dispenser 105 such as for an end consumer. Additionally or alternatively, the user interface 114 (including a second user interface) may be internal of the cover of the product dispenser 105, such as for a maintainer (e.g., maintenance personnel).
The communication interface 113 may be configured to enable connection to external systems (e.g., an external network 102). In this manner, the controller 110 may retrieve data and/or instructions from or transmit data and/or instructions to a remote, external server via the external network 102 in addition to or as an alternative to the memory 112.
In an example embodiment, the electrical energy (e.g., power 116) for operating the product dispenser 105 may be provided by a battery, which may be comprised of one or more batteries arranged in series or in parallel to provide the desired energy. For example, the battery may comprise four 1.5-volt “D” cell batteries. Additionally or alternatively, the power 116 may be supplied by an external power source, such as an alternating current (“AC”) power source or a solar power source, or any other alternative power source as may be appropriate for an application. The AC power source may be any conventional power source, such as a 120V, 60 Hz wall outlets for example.
The other sensor(s)/system(s) 115 may be any other type of sensors or systems that are usable in various embodiments of the present invention. Some example additional sensors or systems include a position sensor, a time sensor, a cover opening or closing sensor, among many others.
As indicated herein, some embodiments of the present invention may be utilized with other types of product dispensers (such as mechanical product dispensers). Additional information regarding non-automated (mechanical) product dispensers, including components and functionality thereof, can be found in U.S. Pat. No. 7,270,292 and U.S. Pat. No. 5,441,189, both of which are assigned to the owner of the present invention and incorporated by reference in their entireties.
Embodiments of the present invention provide methods, apparatuses and computer program products for controlling and operating product dispensers according to various embodiments described herein. Various examples of the operations performed in accordance with embodiments of the present invention will now be provided with reference to
Operation 4002 may comprise receiving an indication from a funnel sensor that a leading edge of a product is proximate the dispensing nip of a dispensing mechanism. The controller 110, memory 112, communication interface 113, and/or first or second funnel sensor 141/146 may, for example, provide means for performing operation 4002. Operation 4004 may comprise causing operation of the motor for the drive roller of the dispensing nip. The controller 110, memory 112, communication interface 113, and/or first or second dispensing mechanism 121/126 may, for example, provide means for performing operation 4004. Operation 4006 may comprise receiving an indication from a chute sensor that a leading edge of a product is within the chute. The controller 110, memory 112, communication interface 113, and/or first or second chute sensor 142/147 may, for example, provide means for performing operation 4006. Operation 4008 may comprise causing operation of the motor to cease to end the automatic or assisted feeding operation to load the product roll into the dispensing mechanism. The controller 110, memory 112, communication interface 113, and/or first or second dispensing mechanism 121/126 may, for example, provide means for performing operation 4008.
Operation 4102 may comprise receiving a request to dispense the product. The controller 110, memory 112, communication interface 113, and/or activation sensor 120 may, for example, provide means for performing operation 4102. Operation 4104 may comprise causing operation of the motor to rotate the drive roller to begin a dispense. The controller 110, memory 112, communication interface 113, and/or first or second dispensing mechanism 121/126 may, for example, provide means for performing operation 4104. Operation 4106 may comprise counting motor rotations during operation. The controller 110, memory 112, communication interface 113, and/or other sensor(s)/system(s) 115 may, for example, provide means for performing operation 4106. Operation 4108 may comprise causing operation of the motor to cease when a certain number of motor rotations have occurred to dispense a desired sheet length of the product. The controller 110, memory 112, communication interface 113, and/or first or second dispensing mechanism 121/126 may, for example, provide means for performing operation 4108.
Operation 4202 may comprise receiving a request to dispense the product. The controller 110, memory 112, communication interface 113, and/or activation sensor 120 may, for example, provide means for performing operation 4202. Operation 4204 may comprise determining an amount of fuel (e.g., product) remaining for a first product roll. The controller 110, memory 112, communication interface 113, and/or product sensor 118 may, for example, provide means for performing operation 4204. Operation 4206 may comprise determining an amount of fuel remaining for a second product roll. The controller 110, memory 112, communication interface 113, and/or product sensor 118 may, for example, provide means for performing operation 4206. Operation 4208 may comprise causing dispensing to occur from the product roll with the lesser amount of fuel remaining. The controller 110, memory 112, communication interface 113, and/or first or second dispensing mechanism 121/126 may, for example, provide means for performing operation 4208.
Operation 4302 may comprise determining a time period for a rotation cycle of a first product roll. The controller 110, memory 112, communication interface 113, product sensor 118 and/or other sensor(s)/system(s) 115 may, for example, provide means for performing operation 4302. Operation 4304 may comprise determining a time period for a rotation cycle of a drive roller associated with the first product roll. The controller 110, memory 112, communication interface 113, product sensor 118 and/or other sensor(s)/system(s) 115 may, for example, provide means for performing operation 4304. Operation 4306 may comprise determining a time period for a rotation cycle of a second product roll. The controller 110, memory 112, communication interface 113, product sensor 118 and/or other sensor(s)/system(s) 115 may, for example, provide means for performing operation 4306. Operation 4308 may comprise determining a time period for a rotation cycle of a drive roller associated with the second product roll. The controller 110, memory 112, communication interface 113, product sensor 118 and/or other sensor(s)/system(s) 115 may, for example, provide means for performing operation 4308. Operation 4310 may comprise comparing a first ratio of the rotation cycle time period for the first product roll over the rotation cycle time period for the drive roller associated with the first product roll with a second ratio of the rotation cycle time period for the second product roll over the rotation cycle time period for the drive roller associated with the second product roll. The controller 110, memory 112, and/or communication interface 113 may, for example, provide means for performing operation 4310.
Operation 4312 may comprise receiving a request to dispense the product. The controller 110, memory 112, communication interface 113, and/or activation sensor 120 may, for example, provide means for performing operation 4312. Operation 4314 may comprise causing dispensing to occur from the product roll associated with the smaller ratio. The controller 110, memory 112, communication interface 113, and/or first or second dispensing mechanism 121/126 may, for example, provide means for performing operation 4314.
Operation 4402 may comprise receiving a request to dispense the product. The controller 110, memory 112, communication interface 113, and/or activation sensor 120 may, for example, provide means for performing operation 4402. Operation 4404 may comprise receiving an indication from a first funnel sensor associated with a first product roll that no product is present within the funnel. The controller 110, memory 112, communication interface 113, and/or first or second funnel sensor 141/146 may, for example, provide means for performing operation 4404. Operation 4406 may comprise causing dispensing to occur from a second product roll in response to receiving the indication. The controller 110, memory 112, communication interface 113, and/or first or second dispensing mechanism 121/126 may, for example, provide means for performing operation 4406.
Associated systems and methods for manufacturing example product dispensers described herein are also contemplated by some embodiments of the present invention.
Many modifications and other embodiments of the inventions set forth herein may come to mind to one skilled in the art to which these inventions pertain having the benefit of the teachings presented in the foregoing descriptions and the associated drawings. Therefore, it is to be understood that the embodiments of the invention are not to be limited to the specific embodiments disclosed and that modifications and other embodiments are intended to be included within the scope of the invention. Moreover, although the foregoing descriptions and the associated drawings describe example embodiments in the context of certain example combinations of elements and/or functions, it should be appreciated that different combinations of elements and/or functions may be provided by alternative embodiments without departing from the scope of the invention. In this regard, for example, different combinations of elements and/or functions than those explicitly described above are also contemplated within the scope of the invention. Although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.
This application claims priority to and is a continuation of U.S. patent application Ser. No. 15/479,656, filed Apr. 5, 2017, entitled “Sheet Product Dispenser”, which claims priority to U.S. provisional Patent Application No. 62/453,829, filed Feb. 2, 2017, entitled “Sheet Product Dispenser”, and U.S. provisional Patent Application No. 62/320,829, filed Apr. 11, 2016, entitled “Dual Roll Dispenser With Movable Towel Roll Holder”, each of which is hereby incorporated by reference in its entirety.
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