The present invention relates to a dispenser, and more specifically to a dispenser comprising a base and a cover that define a cavity between them for storing a material to be dispensed.
Dispenser devices are commonly used in situations where materials are to be dispensed to users in relatively small quantities from a store or reservoir of the material held inside the dispenser. For example, common dispenser devices are liquid soap dispensers or paper towel dispensers.
When the material inside the dispenser has been exhausted, the material needs to be replenished, typically by opening the cover of the dispenser and adding new material. This replenishment is typically carried out by maintenance staff, and there is a desire to make opening of the cover as easy as possible. However, one of the problems with making the cover easy to open is that the dispenser become susceptible to opening by unauthorised users, for example users who have not been appropriately trained, or by unscrupulous users who seek to steal all the material stored inside the dispenser or to cause damage.
It is known to provide dispensers that require a key to open them, however keys are often undesirable for maintenance purposes, since they slow the opening of the dispenser and require maintenance staff to carry and avoid losing the keys.
It is therefore an object of the invention to provide an improved dispenser.
According to the invention, there is provided a dispenser comprising a base and a cover that define a cavity between them for storing a material to be dispensed, a fastening mechanism that is movable between a fastened configuration that fastens the cover to the base, and an unfastened configuration that allows the cover to open from the base for replenishing the material to be dispensed. The fastening mechanism comprises a locked state in which the fastening mechanism requires a key to move from the fastened configuration to the unfastened configuration, and an unlocked state in which the fastening mechanism is movable from the fastened configuration to the unfastened configuration without the presence of the key. The fastening mechanism comprises a button, a release member, and a cooperating member, wherein the release member engages with the cooperating member in the fastened configuration to prevent the cover opening from the base, and wherein the release member disengages from the cooperating member in the unfastened configuration to allow the cover to open from the base. The release member is actuable by the button without the presence of the key to disengage the release member from the cooperating member when the fastening mechanism is in the unlocked state, and the release member is actuable by the key to disengage the release member from the cooperating member when the fastening mechanism is in the locked state.
Since the release member is actuable by the button in the unlocked state, the dispenser may be permanently left in the unlocked state if the users of the dispenser are trusted not to steal from or damage the dispenser. Then, maintenance staff do not require any keys to replenish the material stored inside the dispenser. If the dispenser needs to be lockable, for example if the dispenser is installed in a public place, then the fastening mechanism can be put into the locked state in which the key is required to actuate the release member, and the button alone is not sufficient.
Therefore, the release member is actuable by the button and/or the key to open the dispenser, depending on whether the fastening mechanism is locked or unlocked. In the unlocked state, either the button or the key may be useable to actuate the release member and open the dispenser, but since the button can be used to open the dispenser without the key, the key is not required.
The key is preferably a device formed in a shape that most users of the dispenser will not be able to casually imitate. For example, the dispenser may be designed for use with keys that have two separate prongs spaced apart from one another, the two prongs being insertable into two corresponding holes of the dispenser to push against the release member and disengage it from the cooperating member. It will be appreciated that the key is a separate device from the dispenser, and that some purchasers of the dispenser may not purchase or utilise any keys if they have no interest in being able to lock the dispenser.
The button is actuable by maintenance staff when the fastening mechanism is in the unlocked state, to actuate the release member. Actuation of the button may for example comprise pulling, pushing, sliding, or turning of the button. The button is preferably present at the exterior of the dispenser, so that it can be easily accessed and actuated.
The dispenser may only be movable between the locked and unlocked states by opening the dispenser to gain access to its interior. For example, one or more knobs, catches, or sliders may be present inside the dispenser, which can be moved to move the fastening mechanism between the locked and unlocked states, and which may only be accessible when the dispenser is opened. The key may serve an additional purpose of moving the fastening mechanism between the locked and unlocked states, in addition to being used to disengage the release member from the cooperating member when the fastening mechanism is in the locked state and the dispenser is to be opened.
In the locked state, the actuation of the button may be blocked, leaving the key as the only way of actuating the release member to open the dispenser. For example, to move into the locked state, a locking member inside the dispenser may be moved into a position to block the actuation of the button. The button may be actuable by pushing the button to move the button inwardly towards the dispenser, and the inward movement of the button may be blocked in the locked state.
The fastening mechanism may comprise a lock track and the button may comprise a locking member that is configured to move along the lock track during actuation of the button. The lock track may comprise a catch that is configured to restrain movement of the locking member along the lock track when the fastening mechanism is in the locked state, and so prevent actuation of the button. Accordingly, movement of the catch, or movement of the locking member beyond the catch, may be utilised to move the fastening mechanism into the unlocked state where the locking member is free to move along the reminder of the lock track.
The lock track may comprise an enclosure in which the locking member is constrained to move, and the enclosure may comprise an opening into which the key can be inserted to move the locking member between the first and second regions. Since the key is needed to actuate the release member when the fastening mechanism is in the locked state, it is convenient to give the key the additional function of moving the fastening mechanism between the locked and unlocked states, rather than needing to provide a tool for this.
To help the button automatically return to its un-actuated position after it has been actuated, the locking member is configured to flex as it travels along the lock track when the button is actuated, thereby exerting a force against the actuation of the button. This force returns the button to its un-actuated position after the button has been released by the user.
The release member may be formed on the base of the dispenser, as a base catch, or the release member may be formed on the cover of the dispenser, as a cover catch. Equivalently, the cooperating member may be formed on the cover of the dispenser, as a cover catch, or the cooperating member may be formed on the base of the dispenser, as a base catch. The button may be mounted on the base or the cover of the dispenser, as desired. The actuation of the release member by the button may comprise the button pushing against the release member to flex the release member out of engagement from the cooperating member. In the unlocked state, either the key or the button may be used to push against the release member and flex/deflect the release member out of engagement from the cooperating member, but in the locked state the actuation of the button may be blocked, and so only the key may be usable to flex/deflect the release member.
The base and cover may for example be connected by a hinge at a bottom and of the dispenser, and by the fastening mechanism at a top end of the dispenser, so the cover portion hinges away from the base portion to open the dispenser when the fastening mechanism is moved to the unfastened configuration. The base may for example form a wall plate for mounting the dispenser on a wall, and the cover may form an outer housing of the dispenser.
Embodiments of the invention will now be described by way of non-limiting example only and with reference to the accompanying drawings, in which:
The figures are not to scale, and same or similar reference signs denote same or similar features.
An embodiment of the invention will now be described with reference to
The cover 100 comprises a paddle 105 towards the bottom of the dispenser, and the paddle can be pushed by a user of the dispenser to dispense material. In this particular embodiment, the dispenser 1 is a liquid soap dispenser, and so pressing the paddle 105 causes soap to be dispensed out the bottom of the dispenser, from a store of soap inside the dispenser. The base 10 is attached to the cover 100 by a hinge (not shown in Figs) at the bottom of the dispenser. The hinge allows the cover to open away from the base, to the configuration shown in
To control the opening and closing of the cover from the base, the dispenser comprises a fastening mechanism which is movable between a fastened configuration (shown in
The schematic diagram of
Two side portions 24a and 24b also extend from the upper and rearward plates 21 and 22, perpendicular to the upper and rearward plates 21 and 22, at opposing sides of the plates 21 and 22. The side portions 24a and 24b each define respective channels 25a and 25b, the channels extending downwardly from the upper plate 21, and being open towards the front of the dispenser.
The button 20 also comprises two locking members 26a and 26b. The locking members are integrally formed as part of the button, and extend downwardly from the rearward plate 22 at opposite sides to the hammer 23 from one another. The locking members are formed of a flexible material such as a plastic, and both curve outwardly away from the hammer 23, in opposite directions to one another, and in a same plane as the plane of the rearward plate 22.
Each of the locking members 26a and 26b comprise distal ends having wedges 27a and 27b, and ramps 28a and 28b, respectively. Each wedge has an outer surface facing outwardly in sideward/upward directions depending on how far the locking member is flexed, and each ramp has an outer surface facing in a forward and downward direction in the position shown.
The base 10 comprises a lock track 12a along which the locking member 26a is slidable, and also a lock track 12b along which the locking member 26b is slidable. The locking members slide along the lock tracks when the button 20 is pushed and moved downwardly. Since the lock tracks curve outward towards the sides of the base 10 along their lengths, the locking members are flexed outwardly along the lock tracks when the button 20 is pressed and moved downwards. The un-flexed curvature of the locking members biases the button in the raised position shown in
The locking members 26a and 26b slide within the lock channels 12a and 12b, respectively, and as can be seen in the enlarged portion of
This is most easily seen in the expanded portion of
The fastening mechanism can be moved between the locked and unlocked states by moving the distal ends of the locking members beyond the catches of the lock tracks, from the first regions to the second regions. To move the distal ends in that manner, they can be accessed from inside of the dispenser when the dispenser is in the unfastened configuration shown in
As shown in
Similarly, as shown in
The two slots 18a and 18b, and therefore the two ends of the U-shaped key 30, are spaced apart from one another by the same distance as the holes 19a and 19b that pass through the base 10 at opposite sides of the button 20 (as shown in
The base catches 13a and 13b of the base 10 that are labelled in
To unfasten the cover 100 from the base 10, the release member 120 is flexed downwardly until the apertures 121a and 121b are moved beneath the ridges 13a1 and 13b1 and the downward ramping protrusions 13a2 and 13b2, so the fastening mechanism is unfastened. The release member can be flexed downwardly in two different manners.
Firstly, pushing the button 20 to move it downwardly causes the hammer 23 (see
Secondly, inserting the two ends of the U-shaped key 30 into the holes 19a and 19b, and along the channels 25a and 25b (see
It will be appreciated that in alternate embodiments, the button 20 may act to flex the base catch, rather than the cover catch, or that the button 20 could be mounted on the cover 100 rather than the base 10. The use of one mechanism (such as a locking member and lock track) that allows the button for opening the dispenser to be enabled or disabled, and the use of another mechanism (such as the key) that allows the dispenser to be opened regardless of whether the button is enabled or disabled, and which is only distributed to authorised persons, allows the end user to choose whether or not the key should be required in order for a person to open the dispenser.
There is no need for a specific key when moving the distal ends of the locking members between the first and second regions, and any suitable means could be used.
It is possible that a single hole extending through the upper plate 21 and hammer 23 could be provided for receiving a member to push the release member downwardly, instead of providing the two separate holes 19a and 19b for a U-shaped key. In that case, any straight and narrow member capable of entering the single hole and pushing the release member downwardly could be treated as a key.
The key for pushing downward on the rearward edge 122 of the release member to allow opening of the dispenser when the fastening mechanism is in the locked state and the button is prevented from moving downward, may be made as simple or elaborate as desired.
Many other variations of the described embodiments falling within the scope of the invention will be apparent to those skilled in the art.
Number | Date | Country | Kind |
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1905786 | Apr 2019 | GB | national |
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Number | Date | Country |
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WO 2013165994 | Nov 2013 | WO |
Number | Date | Country | |
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20200337506 A1 | Oct 2020 | US |