The present disclosure is generally related to systems and methods for dispensing substrate materials and, more specifically, for dispensing paper product provided in roll form.
Manufacturers of apparatus used to dispense substrates, such as paper product from a roll, often face logistical challenges when attempting to meet the needs of different kinds of customers. For example, manufacturers may be required to make, administer, distribute, and maintain dispensers that require the user to manually pull the end of a paper web, as well as hand-free dispensers that automatically dispense paper when a hand is waved in front of a sensor in the dispenser. Likewise, manufacturers often need to accommodate the needs of customers that prefer a dispenser to be mounted on a wall or counter, as well as the needs of those that prefer the dispenser to be at least partially recessed into a wall. The resulting large assortment of dispensers manufacturers are required to offer, in turn, results in the manufacturers having to make a very large assortment of components for each type of dispenser, both for the initial manufacture of each of the dispensers, as well as to offer as replacement parts for maintenance purposes. The complexity in administering large sets of components and a large assortment of dispensers often represents a major hindrance.
In addition to the above, customers often change their dispenser preferences, and require the manufacturers or distributors of dispensers to take on the task of substituting one type of dispenser for another. For example, and without limitation, a customer may require that a manual-type dispenser be replaced with a hands-free type dispenser. This task is often complex and therefore costly. Another example is provided by a customer that wishes for a manual or hands-free dispenser to be installed as a recessed dispenser, using the recessed frame of an existing recessed folded-towel dispenser.
To protect for such scenario, manufacturers are required to make and stock different types of additional dispenser components, to be used in the installation of the new dispenser, depending on the dimensions and shape of the existing recessed folded-towel dispenser. The resulting installation is typically a complex, costly process and results in the newly-installed dispenser being aesthetically undesirable. For example, the newly-installed dispenser may be offset, rather than centered, relative to the recessed frame behind.
It would be desirable, therefore, to have dispenser systems and related methods that address these and other drawbacks of conventional paper product dispensers.
In one embodiment, a paper product dispenser assembly is provided. The assembly has a hood that includes a hood coupling component, as well as a first rear housing member that is configured for selective coupling with the hood. The first rear housing member has a first coupling component that cooperates with the hood coupling component for releasably coupling the hood and the first rear housing member to one another. The first rear housing member and the hood jointly define a first housing that is adapted to hold a roll of paper product therein. A second rear housing member of the assembly is configured for selective coupling with the hood in place of the first rear housing member.
The second rear housing member has a second coupling component that cooperates with the hood coupling component for releasably coupling the hood and the second rear housing member to one another. The second rear housing member and the hood jointly define a second housing that is adapted to hold a roll of paper product therein. The assembly also includes a dispensing member that is at least partially disposed within the first housing or the second housing, and which is adapted to selectively dispense the paper product respectively from within the first housing or from within the second housing.
The first rear housing member has a first pair of oppositely located side walls, a first rear wall extending between the first pair of side walls, and at least one resilient side tab that extends outwardly from one of the first pair of side walls and configured to engage one or both external side walls of a recessed space for mounting the first rear housing member within the recessed space. The first rear housing member further includes a front opening, as well as a front panel that surrounds the front opening. The second rear housing member has a second pair of oppositely located side walls, as well as a second rear wall that extends between the second pair of side walls, and a mounting feature on the second rear wall for mounting the second rear housing member on an external wall.
In specific embodiments, selective releasable coupling between the hood and the first rear housing member, and also between the hood and the second rear housing member, is free of fasteners. Additionally or alternatively, the hood coupling component may include a male coupling component, and each of the first and second coupling components may include a respective female coupling component that is adapted to receive the male component therein for selective releasable coupling between the hood and the first rear housing member, and between the hood and the second rear housing member. The male coupling component may further include a resilient element for snap-coupling between the male coupling component and a female coupling component.
In specific embodiments, snap-coupling includes the hood being locked in place relative to the first rear housing member or relative to the second rear housing member. The assembly may further include a pair of roll support arms, each configured to support an end of a roll of paper product, with the first and second rear housing members including a respective pair of roll support couplers, with each of the roll support couplers being configured for selective releasable coupling with one of the roll support arms. One or more of the roll support couplers may include a female element, and one or more of the roll support arms may include a male element that is configured to be received within the female element.
Coupling between the roll support couplers and the roll support arms may be free of fasteners. Additionally or alternatively, each of the roll support arms may include an arm resilient element that is configured to flex upon coupling engagement between one of the roll support arms and a respective one of the roll support couplers. The arm resilient element may be configured to lock the roll support arm that includes the resilient element, relative to the roll support coupler to which the roll support arm is coupled. In specific embodiments, one or more of the roll support arms has a guide element that is configured to restrict the number of possible orientations of the roll support arm for coupling with one of the roll support couplers.
The dispensing member may include a paper feed bar, and each of the first rear housing member and the second rear housing member may include a top wall and an oppositely disposed bottom wall, both extending between the pair of side walls of the first rear housing member and between the second pair of side walls of the second rear housing member, respectively, with the bottom wall including a notch that defines an opening in the bottom wall that is adapted to allow the paper feed bar to extend there through and to an exterior of the first or second housing.
Additionally, the assembly may include a bottom console that is configured for selective releasable coupling with the bottom wall, with the bottom console including a protruding portion that is configured to engage the notch so as to close the opening in the bottom wall. In specific embodiments, the at least one resilient side tab includes a fastener opening that is adapted to receive a fastener there through, for mounting the first rear housing member to one or both external side walls of the recessed space. Additionally or alternatively, at least one of the first pair of side walls may include an installation guide slot that is adapted to permit viewing, from an interior of the first rear housing member, of an installation mark on an adjacent one of the external side walls.
The first rear housing member may include a bottom wall extending between the first pair of side walls, and a bottom plate adjacent and spaced from the bottom wall, with the bottom plate having first and second bottom plate members that are slidable relative to one another, so as to permit adjustment of a depth dimension of the bottom plate. Additionally or alternatively, each of the first and second rear walls of the first and second rear housing members, respectively, may include a wire hole that is adapted to receive a wire there through, for providing power to the dispensing member.
The dispensing member may include a sensor and a processor, with the sensor being configured to sense the presence of a human body adjacent the sensor, and with the processor being configured to cause the dispensing member to dispense paper product in response to sensing by the sensor. The dispensing member may include a paper feed bar that is manually actuatable to cause the dispensing of paper product upon selective actuation of the paper feed bar. In specific embodiments, the hood has a metallic outer surface. Additionally or alternatively, the first rear housing member may include a front opening and a metallic front panel that surrounds the front opening. Additionally or alternatively also, the second rear housing member may have a metallic outer surface.
In another embodiment, a paper product dispenser assembly includes a hood that has a metallic outer surface and a male coupling component. A first rear housing member of the assembly is configured for selective coupling with the hood, with the first rear housing member having a first female coupling component that cooperates with the male coupling component for releasable, fastener-free coupling between the hood and the first rear housing member. The first rear housing member and the hood jointly define a first housing that is adapted to hold a roll of paper product therein.
The assembly also includes a second rear housing member that has a metallic outer surface, and which is configured for selective coupling with the hood in place of the first rear housing member. The second rear housing member has a second female coupling component that cooperates with the male coupling component for releasable coupling between the hood and the second rear housing member. The second rear housing member and the hood jointly define a second housing that is adapted to hold a roll of paper product therein. A dispensing member of the assembly is at least partially disposed within the first housing or within the second housing, and is adapted to selectively dispense paper product respectively from within the first housing or from within the second housing.
The first rear housing member has a first pair of oppositely located side walls, a first rear wall that extends between the first pair of side walls, and at least one resilient side tab that extends outwardly from each of the first pair of side walls. The resilient side tabs are configured for engagement with the external side walls of a recessed space for mounting the first rear housing member within the recessed space. The first rear housing member further includes a front opening and a metallic front panel that surrounds the front opening. The second rear housing member has a second pair of oppositely located side walls, a second rear wall that extends between the second pair of side walls, and at least one fastener opening that extends through the second rear wall for mounting the second rear housing member on an external wall.
In yet another embodiment, a paper product dispenser assembly is provided that includes a hood having hood coupling means, and a first rear housing member that is configured for selective coupling with the hood. The first rear housing member has first coupling means that cooperate with the hood coupling means for releasably coupling the hood and the first rear housing member to one another, with the first rear housing member and the hood jointly defining a first housing that is adapted to hold a roll of paper product therein. A second rear housing member of the assembly is configured for selective coupling with the hood in place of the first rear housing member.
The second rear housing member has second coupling means that cooperate with the hood coupling means for releasably coupling the hood and the second rear housing member to one another. The second rear housing member and the hood jointly define a second housing that is adapted to hold a roll of paper product therein. The assembly also includes means at least partially disposed within the first housing or within the second housing for selectively dispensing the paper product respectively from within the first housing or from within the second housing. The first rear housing member has a first pair of oppositely located side walls, a first rear wall that extends between the first pair of side walls, and resilient means extending outwardly from at least one of the first pair of side walls and configured to engage one or both external side walls of a recessed space for mounting the first rear housing member within the recessed space.
The first rear housing member also includes a front opening, as well as a front panel that surrounds the front opening. The second rear housing member has a second pair of oppositely located side walls, a second rear wall that extends between the second pair of side walls, and mounting means on the second rear wall for mounting the second rear housing member on an external wall. The hood coupling means and the first coupling means, in specific embodiments, define a fastener-free coupling between the hood and the first rear housing member. Additionally or alternatively, the hood coupling means and the second coupling means may define a fastener-free coupling between the hood and the second rear housing member.
In another embodiment a paper product dispenser is provided that includes a hood having a hood coupling component. A rear housing member of the dispenser is configured for coupling with the hood, with the rear housing member having a rear housing member coupling component that cooperates with the hood coupling component for releasably coupling the hood and the rear housing member to one another. The rear housing member and the hood jointly define a housing that is adapted to hold a roll of paper product therein. The rear housing member has a pair of oppositely located side walls, a rear wall that extends between the pair of side walls, and at least one pair of resilient side tabs extending outwardly from the pair of side walls.
The resilient side tabs are configured for engagement with the external side walls of a recessed space for mounting the rear housing member within the recessed space. A bottom plate extends between the first pair of side walls. The dispenser also includes a dispensing member that is at least partially disposed within the housing and which is adapted to selectively dispense the paper product from within the housing. The bottom plate has first and second bottom plate members that are slidable relative to one another, so as to permit adjustment of a depth dimension of the bottom plate.
The rear housing member, in specific embodiments, includes a front opening and a front panel that surrounds the front opening. The front panel, if present, may be metallic. Additionally or alternatively, each of the resilient side tabs may include a fastener opening that is adapted to receive a fastener there through for mounting the rear housing member to the external side walls. In some embodiments, at least one of the pair of side walls includes an installation guide slot that is adapted to permit viewing, from an interior of the rear housing member, of an installation mark adjacent one of the external side walls.
The rear wall, in specific embodiments, includes a wire hole that is adapted to receive a wire there through. The dispenser may further include a bottom wall that extends between the pair of side walls and which is disposed in an interior of the rear housing member. The bottom wall includes a notch that defines an opening in the bottom wall that is configured to permit extension there through of a portion of the dispensing member. The dispenser may also include a bottom console that is configured for releasable coupling with the bottom wall, with the bottom console having a protruding portion that is adapted to engage the notch and thereby close the opening in the bottom wall.
The bottom console may be configured for fastener-free coupling with the bottom wall. In some embodiments, the releasable coupling between the hood and the rear housing member is fastener-free. In those or other embodiments, the hood coupling component or the rear housing member coupling component includes a male component, and the other of the hood coupling component or the rear housing member coupling component includes a female component, with the female component being configured to receive therein the male component. The male component may include a resilient element for snap-coupling between the male component and the female component. Snap-coupling between the male component and the female component may further include the hood being locked in place relative to the rear housing member.
The dispenser may additionally include a pair of roll support arms, each configured to support an end of a roll of paper product. The rear housing member may include a pair of roll support couplers, each configured for selective releasable coupling with one of the roll support arms. Each of the pair of roll support couplers may include a female element and each of the pair of roll support arms may include a male element that is configured to be received within the female element.
Coupling between each of the pair of roll support couplers and one of the pair of roll support arms may be free of fasteners. Further, in specific embodiments, each of the pair of roll support arms includes an arm resilient element that is configured to flex upon coupling engagement between one of the roll support arms and a respective one of the roll support couplers. The arm resilient element may be configured to lock the roll support arm that includes the resilient element, relative to a roll support coupler to which the roll support arm is coupled. Additionally or alternatively, each of the pair of roll support arms may have a guide element that is configured to restrict the number of possible orientations of that roll support arm for coupling with one of the roll support couplers.
In another embodiment a paper product dispenser is provided that includes a hood having hood coupling means. The dispenser also includes a rear housing member that is configured for coupling with said hood, with the rear housing member having rear housing member coupling means that cooperate with the hood coupling means for releasably coupling the hood and the rear housing member to one another. The rear housing member and the hood jointly define a housing that is adapted to hold a roll of paper product therein.
The rear housing member has a pair of oppositely located side walls, a rear wall that extends between the pair of side walls, and resilient means that extend outwardly from at least one of the side walls and configured to engage one or both external side walls of a recessed space for mounting the rear housing member within the recessed space. A bottom plate extends between the pair of side walls, and a dispensing member is at least partially disposed within the housing and is adapted to selectively dispense the paper product from within the housing. The bottom plate has first and second bottom plate members that are slidable relative to one another, so as to permit adjustment of a depth dimension of the bottom plate.
In still another embodiment, a paper product dispenser includes a hood having a hood coupling component, and a rear housing member that is configured for coupling with the hood. The rear housing member has a rear housing member coupling component that cooperates with the hood coupling component for releasably coupling the hood and the rear housing member to one another. The rear housing member and the hood jointly define a housing that is adapted to hold a roll of paper product therein. The rear housing member has a pair of oppositely located side walls, a rear wall that extends between the pair of side walls, and a bottom wall that extends between the pair of side walls.
A dispensing member of the dispenser is at least partially disposed within the housing, and is adapted to selectively dispense the paper product from within the housing. The dispenser also includes a bottom console that is configured for selective releasable coupling with the bottom wall, with the bottom wall including a notch that defines an opening in the bottom wall that is adapted to allow a portion of the dispensing member to extend there through and out of the housing. The bottom console includes a protruding portion that is configured to engage the notch so as to close the opening in the bottom wall.
The rear housing member may include a front panel that surrounds a front opening of the rear housing member. The front panel may be metallic. In specific embodiments, each of the pair of side walls includes a resilient side tab having a fastener opening that is adapted to receive a fastener there through for mounting the rear housing member to the external side walls of a recessed space. Additionally or alternatively, at least one of the pair of side walls includes an installation guide slot that is adapted to permit viewing, from an interior of the rear housing member, of an installation mark on an adjacent one of the external side walls of a recessed space.
The rear wall, in particular embodiments, includes a wire hole that is adapted to receive a wire there through. The bottom console may be configured for fastener-free coupling with the bottom wall. In specific embodiments, releasable coupling between the hood and the rear housing member is fastener-free. In specific embodiments, the hood coupling component or the rear housing member coupling component includes a male component and the other of the hood coupling component or the rear housing member coupling component includes a female component, with the female component being configured to receive therein the male component.
The male component may include a resilient element for snap-coupling between the male component and the female component. Snap-coupling between the male component and the female component, in some embodiments, includes the hood being locked in place relative to the rear housing member. The dispenser may also include a pair of roll support arms, each configured to support an end of a roll of paper product, with the rear housing member including a pair of roll support couplers, each configured for selective releasable coupling with one the pair of roll support arms.
In some embodiments, each of the pair of roll support couplers includes a female element, and each of the pair of roll support arms includes a male element that is configured to be received within female element. Coupling between each of the pair of roll support couplers and one of the pair of roll support arms may be free of fasteners. Each of the pair of roll support arms may include an arm resilient element that is configured to flex upon coupling engagement between one of the roll support arms and a respective one of the pair of roll support couplers.
Additionally or alternatively, the arm resilient element may be configured to lock the roll support arm that includes the resilient element, relative to the roll support coupler to which the roll support arm is coupled. In specific embodiments, each of the pair of roll support arms has a guide element that is configured to restrict the number of possible orientations of each roll support arm relative to one of the roll support couplers, for coupling with that roll support coupler.
The objectives and features of the invention will become more readily apparent from the following detailed description taken in conjunction with the accompanying drawings in which:
To the extent that any meaning or definition of a term in this written document conflicts with any meaning or definition of the term in a document incorporated by reference, the meaning or definition assigned to the term in this written document shall govern. Also, it is to be understood that the phraseology and terminology used herein is for the purpose of description and should not be regarded as limiting. The use of “including,” “comprising,” or “having” and variations thereof herein is meant to encompass the items listed thereafter and equivalents thereof as well as additional items. Unless specified or limited otherwise, the terms “mounted,” “connected,” “supported,” and “coupled” and variations thereof are used broadly and encompass both direct and indirect mountings, connections, supports, and couplings. Further, “connected” and “coupled” are not restricted to physical or mechanical connections or couplings.
With reference to the figures, and more particularly to
In one embodiment, particularly shown in
With particular reference to
Referring now to
The example dispensing member 46 is in the form of a cassette that has a front wall 62, a rear wall 64, and two side walls 66. The dispensing member 46 includes a pressure roller 70, a rotary drum, and a rotary cutter (not shown). The web 26a of paper product is arranged to be fed from the roll 26 of paper product and into the dispensing member 46 for subsequent dispensing out of the dispensing opening 54 (
As stated above, the hood 12 is selectively coupled to either of the two different rear housing members 20, 24. Coupling of the hood 12 with either of the two rear housing members 20, 24 is of the releasable type, rather than of the permanent type. As used herein the term “releasable coupling,” and related terms, refer to a type of coupling in which the coupled structures may be readily detached, decoupled, or otherwise separated from one another in a simple manner and without causing the destruction or damage of any of those structures. For sake of further explanation, a permanent—rather than “releasable”—type of coupling may refer, for example, to two structures that are integrally formed with one another, or which are adhesively attached, such that their separation would necessarily result in at least some level of damage to one or more of the parts being separated.
In the example embodiment of
With continued reference to
Engagement of raised stop 89 with the surfaces defining locking aperture 90 is effective to prevent movement of the finger 80 relative to channel 84, in a direction along the longitudinal axis 84a of the channel 84, as well as in the two directions that are orthogonal to that longitudinal axis 84a. Engagement of raised stop 89 with the surfaces defining locking aperture 90 locks the finger 80 in place and, more specifically, is effective to prevent unintended separation of the hood 12 from the rear housing member 20, 24 to which the hood 12 is coupled. Engagement of raised stop 89 with the surfaces defining locking aperture 90 is also effective to substantially prevent movement of the hood 12 relative to the rear housing member 20, 24 along the height, depth, and width dimensions of the resulting housing 30, 34. The type of releasable, fastener-free coupling between hood 12 and rear housing members 20, 24 in the embodiment of
Referring now particularly to
While in the embodiments shown in the above-referenced figures the hood 12 has two fingers 80 that cooperate with two corresponding channels 84 in the rear housing member 20, 24, variations are contemplated. For example, the hood 12 and rear housing members 20, 24 may have respective fingers 80 and channels 84 in numbers other than the two of the example embodiments in those figures. Similarly, it is contemplated that one or more fingers 80 may be located in the interior or even exterior of the rear housing members 20, 24, while one or more cooperating channels 84 may form part of the hood 12. An additional alternative includes a hood 12 having both, a finger 80 and a channel 84, that cooperate, respectively, with a channel 84 and hood forming part of the rear housing member 20, 24. Further, releasable, fastener-free coupling of the hood 12 and rear housing members 20, 24 may be provided by structural elements different from the illustrative, yet non-limiting fingers 80 and channels 84 in the illustrated embodiments.
Referring with particularity to
The number of tabs 100, as well as the material, shape, and structure making up those tabs 100, are suitably chosen so as to be resilient enough, such that they may be depressed upon engaging contact with the external side walls SW, as the rear housing member 20 is inserted into the recessed space. Further, the number of tabs 100, as well as the material, shape, and structure making up those tabs 100 are suitably chosen such, upon being depressed, the tabs 100 are able exert a sufficiently high force against the external side walls SW, effective to support the weight of the rear housing member 20 through frictional engagement with the external side walls SW. In that regard, the rear housing member 20 may for example have a total of four tabs 100, with two tabs 100 on each of the side walls 20a, with the tabs 100 made out of metal, and more specifically made of sheet steel having a thickness of about 1/16 inches (about 1.6 mm), and each protruding by about ⅝ inches (about 16 mm) from the surface of the respective side wall 20a. Further, each of the tabs 100 may be integrally formed with the adjacent side wall 20a. For example, in the embodiment shown in
With continued particular reference to
The rear housing member 20 in the illustrated embodiment also includes an installation guide slot 116 on one of side walls 20a that permits viewing, from the interior of rear housing member 20, of a mark (not shown) on one of the external side walls SW. The mark may correspond, for example, to a height requirement for the resulting dispenser being installed, necessary to comply with specific regulations. Alternatively, each of the two side walls 20a may include a respective guide slot 116. For example, prior to or during installation, the installer may measure and mark on one or both external side walls SW, a regulation-based height of the dispenser relative to the ground. As the rear housing member 20 is inserted in the recessed space, the installer may raise or lower the rear housing member 20 until the installation mark is seen through the installation guide slot 116. The tabs 100 would then frictionally support the rear housing member 20 in place, against the external side walls SW, and the installer may then proceed to drive a screw or some other fastener through each fastener opening 104 and through the side walls SW. The screw or other fastener would, in turn, secure the rear housing member 20 in place, in the recessed space. Further, a wire hole M is located on a rear wall 20b, extending between side walls 20a, and is configured to allow passage of a power wire and/or other wiring providing power and/or communication to the various components within housing 30. For example, wire hole M may receive a power wire there through, configured to provide power to a dispensing member such as the example dispensing members 39 and 46 of
The various features described above allow a relative easy, quick, and in some cases one-handed installation of the rear housing member 20 into a recessed space, and accommodate installation into recessed spaces for example having depths in the range of about 97 mm to about 267 mm, and/or widths (i.e., the distance between the external side walls SW in the recessed space) in the range of about 380 mm to about 400 mm, and in some embodiments between about 384 mm and about 389 mm.
Rear housing member 20 further includes a front panel 120 that surrounds a front opening 122 of the rear housing member 20 and which is aesthetically advantageous, to the extent that it provides a finished appearance to the dispenser that is ultimately installed. The entirety or at least a substantial portion of front panel 120 may be made of metal, and more specifically, in certain embodiments, of a fingerprint-resistant type stainless steel type 304 (per ASTM A240), such as the material sold under the trade name Uginox® Cleantouch, commercially available from Aperam Stainless Europe, of France, and which includes a 4 μm-thick fingerprint-resistant coating. The rear housing member 20 further includes top and bottom walls 20c, 20d disposed opposite one another, that extend between the side walls 20a of the rear housing member 20 and which are connected to rear wall 20b. Bottom wall 20c is adjacent and spaced from the bottom plate 110 (
With continued reference to
Releasable coupling of the bottom wall 20d and bottom console 130 in the illustrated embodiment is also free of fasteners (e.g., screws, bolts), which enhances the ease of coupling and decoupling between bottom wall 20d and bottom console 130, and is provided by male and female components, as well as resilient elements, similar to those described above with reference to the coupling between the hood 12 and each of the two rear housing members 20, 24. Specifically, in the illustrated embodiment, the bottom console 130 includes male components in the form of a pair of outer fingers 132, and a centrally located finger 134, which are received within respective female components in the form of a pair of outer channels 20f and a centrally located channel 20g. Those of ordinary skill in the art will readily appreciate that releasable, fastener-free coupling between bottom wall 20d and bottom console 130 may be accomplished through other means. For example, and without limitation, the bottom wall 20d may have a combination of male and female components (e.g., fingers and channels, respectively) that cooperate with a corresponding combination of female and male components of the bottom console 130. Similarly, it is contemplated that the bottom wall 20d may have only male components (e.g., fingers), which are configured to be received within cooperating female components (e.g., channels) of the bottom console 130.
In the example embodiment of
With continued particular reference to
With continued reference to 1, 2, 2A, 3-13, 14A, 14B, 15, 16A, 16B, and further referring to
Further, in the illustrated example embodiments, and as shown in
In the illustrated embodiment also, system 10 includes one or more flex-type roll support arms 156 and one or more fixed-type roll support arms 158. The flex-type roll support arm 156 is designed to flex in the width dimension, so as to accommodate rolls 26 of various widths, such as rolls in the range from about 195 mm to about 210 mm in width, for example. The fixed-type roll support arm 158, on the other hand, is designed to have a substantially fixed position in the width dimension of the dispenser (and of the roll 26 of paper product). To that end, the flex-type roll support arm 156 has an integral hinge element 156c that permits flexing of a hub 178 of that roll support arm 156 in the width dimension, relative to the male elements 154 of that roll support arm 156, as shown in
It is contemplated that releasable coupling between the roll support arms 156, 158 and roll support couplers 150 may, alternatively, be reversed i.e., such that the male and female elements are reversed relative to those in the embodiment shown in the figures. Similarly, alternative embodiments include each of the roll support arms 156, 158 having a combination of male and female components cooperating with female and male components, respectively, of the roll support couplers 150.
Referring generally to the various embodiments of the figures described above, the exterior surface of hood 12, as well the exterior surface of rear housing member 24 (
From the above disclosure of the general principles of the present invention and the preceding detailed description of exemplifying embodiments, those skilled in the art will readily comprehend the various modifications to which this invention is susceptible. Accordingly, this invention is intended to be limited only by the scope of the following claims and equivalents thereof.
This application is a continuation application of co-pending prior U.S. patent application Ser. No. 14/798,056, filed Jul. 13, 2015, which claims the filing date benefit of U.S. Provisional Patent Application No. 62/180,693, titled DISPENSER ASSEMBLY AND RELATED METHODS, filed Jun. 17, 2015. The contents of each of these applications are incorporated herein in their entirety.
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Number | Date | Country | |
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20190021557 A1 | Jan 2019 | US |
Number | Date | Country | |
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62180693 | Jun 2015 | US |
Number | Date | Country | |
---|---|---|---|
Parent | 14798056 | Jul 2015 | US |
Child | 16142139 | US |