The present invention is directed to dispensers for solid objects having a dual lever mechanism. In one embodiment, the dispenser can be used as a dispenser for pieces of candy. In another embodiment, the dispenser can be used to dispense tablets that, for example, deliver therapeutic substances. In a further embodiment, the dispenser is moisture tight for a desired period (e.g. dispenser's use life, solid objects shelf-stability life).
Tablet dispensers are typically employed in the nutritional and candy industries in order to retain and dispense tablets. These dispensers may be designed for specific tablets, such as the Pez dispenser for Pez candy. Because conventional tablet dispensers are not moisture-tight during use life, they are not typically used in industries such as the pharmaceutical industry for moisture sensitive products. Instead, moisture tight tablet packaging has typically been provided by “blister” packs. For “blister packs”, the tablet is pushed through a frangible barrier material in order to separate it from the packaging.
The present invention is directed to a number of embodiments for tablet dispensers that, in some embodiments, maintain a moisture-tight reservoir of tablets during use life. In one example, the design is suited for pharmaceutical applications, particularly where moisture-sensitivity of the tablet is a consideration.
In one embodiment, the present invention is directed to dispensers for dispensing tablets having a dual lever mechanism. In another embodiment, the dispenser maintains a moisture tight seal both during shelf life and during use life. In yet another embodiment, the dispenser provides a reservoir for holding a number of tablets, such as, for example, 50 to 100 tablets. In yet another embodiment, the dispenser is provided with a housing that is constructed in part of plastic material of a substantially water impermeable material, such as polypropylene (“PP”) or polyethylene (“PE”), while other parts of the housing are constructed of an elastomeric material of a substantially water impermeable material such as an ethylene propylene diene terpolymers (EPDM).
For purposes of the present invention, in one embodiment, the dispenser of the present invention is “moisture tight” in accordance with the test protocols set forth in USP 671. In one embodiment, the dispenser is considered “moisture tight” where not more than one of the 10 test dispenser exceeds 100 mg per day, per liter, in moisture permeability. Testing for USP 671 is conducted on sealed containers and on containers that have been opened and then resealed. The testing consists of a desiccant of set quantity 4-8 mesh, anhydrous calcium chloride being first dried at 110 degrees for one hour then cooled in a desiccator. Then 12 containers of uniform size are selected and opened and closed 30 times each. Torque is applied to the closures as specified in the USP monograph. Desiccant is then added to 10 of the packages labeled test containers. These are then filled to within 13 mm of the opening on containers larger than 20 ml and to two-thirds full on containers smaller than 20 ml. The closures are then applied to the torque specified in the monograph. Weight is recorded to the nearest 0.1 mg for containers smaller than 20 ml, to the nearest mg for 20 ml to 200 ml, or to the nearest centigram if the container is larger than 200 ml. The containers are stored at 75 percent, plus or minus three percent, relative humidity at a temperature of 23 degrees, plus or minus two degrees. After 36 hours, plus or minus one hour, the weight is recorded, with the moisture permeability calculated in mg per day, per liter.
Elastomeric materials of the present invention should be sufficiently deformable to allow them to be sufficiently deformed when a force is applied to them so that the solid object can pass through the desired exit location. In one embodiment, the elastomeric material is used to construct a lip seal, that is, a specified opening provided in the elastomeric material. The lip seal remains moisture tight when the seal is closed, and is opened only for the time needed to pass a tablet through the opening. In another embodiment, the elastomeric material is used to construct trigger mechanisms that are used to eject the tablets.
In yet another embodiment, the present invention is directed to dispenser mechanisms for dispensing one tablet at a time from the reservoir. In another embodiment, the dispensers are provided with dispensing mechanisms that queue up the tablets prior to dispensing them. In a further embodiment, the present invention is directed to trigger mechanisms employed in dispensing one tablet at a time from the dispenser. In yet another embodiment, the trigger mechanism and location in the dispensers where the tablets queue up are placed within elastomeric materials to insure moisture tightness and further allow the trigger to be operated by applying a force external to the elastomer.
In yet another embodiment the dispenser is sized so that the housing interiors are sized only as thick as one tablet. In another embodiment, the dispenser maintains a moisture-tight seal within the tablet reservoir throughout the dispenser use life. In another embodiment, a desiccant, such as a desiccant entrained plastic, is used in at least a portion.
In a further embodiment, the present invention is a tablet dispenser for dispensing individual solid objects comprising a lower housing, an upper housing with an elastomeric cover that covers at least a portion of a trigger mechanism, a elastomeric cover of at least a portion of the lower housing and a dispenser mechanism that is dimensioned to fit within the housings, the dispenser mechanism has a container region and a dispenser zone, the dispenser mechanism has a spring element and a lever mechanism pivotally mounted in the dispensing zone, an interior of the lower housing is provided with a pusher bar which extends from a fore wall of the lower housing back towards an upward extending leg of the lever mechanism, the pusher bar, upward extending leg and a hook element are configured so that the pusher bar is not in contact with the upward extending leg and the extending leg is set back from an opening situated on a fore wall of the lower housing and a hook element of the lever mechanism extends into the dispenser zone blocking tablets from being dispensed through the opening when the dispenser mechanism is at rest but, at the same time, when sufficient force is applied to the elastomeric cover, the dispenser mechanism moves forward, towards the fore wall of the lower housing and the upward extending leg of the lever mechanism contacts the pusher bar, as the upward extending leg pivots in the direction opposite the direction in which the dispenser mechanism is moving, the hook element of the lever mechanism pivots in the opposite direction of the upward extending leg and thus removing the impediment prohibiting the tablet from passing through the opening of the dispensing mechanism.
In a further embodiment, the present invention is a tablet dispenser, described above, wherein a lip seal cover the opening in the lower housing and the lip seal is configured so that the upward extending leg opens a slit in the lip seal to allow a tablet to pass therethough, the lip seal forms a substantially moisture tight container.
In a further embodiment, the present invention is a tablet dispenser, described above, wherein the elastomeric cover is provided with a button that extends into an opening of the upper housing, the button and the opening form an interference fit with prongs so that, when the force is removed from the elastomeric cover, the cover returns to it original shape, and pulls the dispenser mechanism back to its original position within the housing.
In a further embodiment, the present invention is a tablet dispenser, described above, wherein the seal is overmolded to form a substantially moisture tight seal, prohibiting the ingress of moisture into the housing.
In a further embodiment, the present invention is a tablet dispenser for dispensing individual solid objects comprising a lower housing, an upper housing with a trigger mechanism, a dispenser mechanism that is dimensioned to fit within the housings, the dispenser mechanism has a container region and a dispenser zone, the dispenser mechanism has a spring element and a lever mechanism pivotally mounted in the dispensing zone, an interior of the lower housing is provided with a pusher bar which extends from a fore wall of the lower housing back towards an upward extending leg of the lever mechanism, the pusher bar, upward extending leg and a hook element are configured so that the pusher bar is not in contact with the upward extending leg and the extending leg is set back from an opening situated on a fore wall of the lower housing and the hook element of the lever mechanism extends into the dispenser zone blocking tablets from being dispensed through the opening when the dispenser mechanism is at rest but, at the same time, when sufficient force is applied to the trigger mechanism, the dispenser mechanism moves forward, towards the fore wall of the lower housing and the upward extending leg of the lever mechanism contacts the pusher bar, as the upward extending leg pivots in the direction opposite the direction in which the dispenser mechanism is moving, the hook element of the lever mechanism pivots in the opposite direction of the upward extending leg and thus removing the impediment prohibiting the tablet from passing through the opening of the dispensing mechanism.
In a further embodiment, the present invention is a method for dispensing individual solid objects from a dispenser comprising the following steps: blocking tablets from being dispensed through an opening when the dispenser mechanism is at rest by employing a dispenser mechanism, the dispenser mechanism has a container region and a dispenser zone, the dispenser mechanism has a lever mechanism pivotally mounted in the dispensing zone, an interior of the lower housing is provided with a pusher bar which extends from a fore wall of the lower housing back towards an upward extending leg of the lever mechanism, the pusher bar, upward extending leg and a hook element are configured so that the pusher bar is not in contact with the upward extending leg and the extending leg is set back from an opening situated on a fore wall of the lower housing and the hook element of the lever mechanism extends into the dispenser zone; applying sufficient force to a trigger mechanism that contacts the dispenser mechanism so that the dispenser mechanism moves forward, towards the fore wall of the lower housing and the upward extending leg of the lever mechanism contacts the pusher bar, as the upward extending leg pivots in the direction opposite the direction in which the dispenser mechanism is moving, the hook element of the lever mechanism pivots in the opposite direction of the upward extending leg that results in allowing the tablet to pass through the opening of the dispensing mechanism.
In a further embodiment, the present invention is a tablet dispenser for dispensing individual solid objects comprising a housing and a dispenser mechanism that is dimensioned to fit within the housing, the dispenser mechanism has a container region and a dispenser zone, the dispenser mechanism has a spring element and a dual lever mechanism pivotally mounted in the dispensing zone, an interior of the lower housing is provided with a pusher bar which extends from a fore wall of the housing back towards an upward extending leg of the first lever mechanism, the pusher bar, upward extending leg and a first hook element are configured so that the pusher bar is not in contact with the upward extending leg and the extending leg is set back from an opening situated on a fore wall of the housing and the first hook element of the first lever mechanism extends into the dispenser zone blocking tablets from being dispensed through the opening and a second lever mechanism comprises a sloped wall which extends from a side wall of the housing towards a first side of a second hook element of the second lever mechanism, the sloped wall and the first side of the second hook element are configured so that the sloped wall just contacts the first side of the second hook element and a second side of the second hook element of the lever mechanism extends into the dispenser zone blocking a second tablet from being dispensed through the opening when the dispenser mechanism is at rest but, at the same time, when sufficient force is applied to a top portion of the housing, the dispenser mechanism moves forward, towards the fore wall of the housing and the upward extending leg of the dual lever mechanism contacts the pusher bar, as the upward extending leg pivots in the direction opposite the direction in which the dispenser mechanism is moving, the hook element of the first lever mechanism pivots in the opposite direction of the upward extending leg and thus removing the impediment prohibiting the tablet from passing through the opening of the dispensing mechanism while at the same time that the dispenser is moving forward, the first side of the second hook element continually contacts the sloped wall so that the first side of the second hook element moves inward causing the second side of the second hook element of the second lever mechanism to also pivot inward and thus blocking a second tablet from moving into the dispensing zone.
In a further embodiment, the present invention is a method for dispensing individual solid objects from a dispenser comprising the following steps: blocking tablets from being dispensed through an opening when the dispenser mechanism is at rest by employing a dispenser mechanism, the dispenser mechanism has a container region and a dispenser zone, the dispenser mechanism has a dual lever mechanism pivotally mounted in the dispensing zone, an interior of the lower housing is provided with a pusher bar which extends from a fore wall of the lower housing back towards an upward extending leg of the lever mechanism, the pusher bar, upward extending leg and a first hook element are configured so that the pusher bar is not in contact with the upward extending leg and the extending leg is set back from an opening situated on a fore wall of the lower housing and a first hook element of the first lever mechanism extends into the dispenser zone and a second lever mechanism comprises a sloped wall which extends from a side wall of the lower housing towards a first side of a second hook element of the second lever mechanism, the sloped wall and the first side of the second hook element are configured so that the sloped wall just contacts the first side of the second hook element and a second side of the second hook element of the lever mechanism extends into the dispenser zone blocking a second tablet from being dispensed through the opening; applying sufficient force to a top of the housing that contacts the dispenser mechanism so that the dispenser mechanism moves forward, towards the fore wall of the lower housing and the upward extending leg of the lever mechanism contacts the pusher bar, as the upward extending leg pivots in the direction opposite the direction in which the dispenser mechanism is moving, the hook element of the first lever mechanism pivots in the opposite direction of the upward extending leg that results in allowing the tablet to pass through the opening of the dispensing mechanism while at the same time that the dispenser is moving forward, the first side of the second hook element continually contacts the sloped wall so that the first side of the second hook element moves inward causing the second side of the second hook element of the second lever mechanism to also pivot inward and thus blocking a second tablet from moving into the dispensing zone.
In a further embodiment, the present invention is a tablet dispenser, described above, wherein the opening in the lower housing contains an elastomeric material that is used to construct a lip seal whereby the lip seal remains moisture tight when the seal is closed, and is opened only for the time needed to pass a tablet through the opening.
In a further embodiment, the present invention is a tablet dispenser, described above, wherein a at least a portion of either the lower housing, the upper housing or the dispenser mechanism is composed of a desiccant entrained plastic.
In a further embodiment, the present invention is a tablet dispenser, described above, wherein the lower housing is over-molded in a two-shot injection molding machine.
In a further embodiment, the present invention is a tablet dispenser, described above, wherein the lower housing is made in a an injection molding process.
In a further embodiment, the present invention is a tablet dispenser, described above, wherein sufficient force so as to dispense the tablet comprises applying at least two independent motions.
For purposes of the present invention, a “lip seal” is formed by two lip sides that converge at the thin, slit like opening. In one example, the “lip seal” is formed by molding the two lip sides that converge at a thin slit-like opening. In another example, the “lip seal” is formed by molding a membrane and then cutting a slit in the membrane. The lip seal is designed so that it is opened for a sufficient time needed to pass an item through it as a sufficient ejecting force is applied to the item.
In one embodiment, the housing components of the dispenser may be provided with long sides that have a slight curvature and endwalls 31, 31′ joined to the sidewalls by corners, which are squared or rounded. The housing components are hollow in their interior and house the boat 50 (described below) in which tablets are stored. In another embodiment, the interior width dimension of the housing components may be only slightly greater than the boat, which in turn has a width only slightly greater than a single tablet that would be housed in the dispenser. This arrangement provides for storage of the tablets in a single-thickness arrangement.
The housing components are formed of an injection molded plastic (e.g. clarified polypropylene or polyethylene). In one embodiment, the outer surface of the upper housing may be made of a sufficiently water impermeable plastic (e.g. PP or PE) and at least a portion of the inner surface may be overmolded with a desiccant entrained plastic, such as the desiccant entrained plastic formulations disclosed in U.S. Pat. Nos. 5,911,937, 6,214,255, 6,130,263, 6,080,350 and 6,174,952, 6,124,006, and 6,221,446, all of which are incorporated herein by reference.
Upper housing 14 is provided, at its outer end, with a v-shaped cut 17, hi which the relatively hard plastic material that constructs the housing is replaced with a relatively softer elastomeric cover 16. Due to its relative softness, elastomeric cover 16 will deform when a sufficient force is applied to the cover.
The bow section 54 has a first tapered sidewall 58 and a ship's bow 60. The ship's bow is dimensioned to retain only one tablet. The ship's bow is defined by a first sidewall 62, which extends away from the reservoir, and a second sidewall 63 that extends away from the first sidewall. In
In one specific embodiment, the boat 50 is open along side 64, or open for at least a portion of the ship's bow, in order to permit a tablet to pass out of the bow.
In one example, the dispenser is assembled as follows. Tablets are loaded into the reservoir of the boat. The boat is loaded into the housing by placing the aft region of the boat into the upper housing. The lower housing is joined and sealed to the upper housing. With this arrangement, the ship's bow is positioned within the housing, adjacent to the lip seal 22 of the elastomeric cover 20.
To dispense a tablet, the user applies a force to the elastomeric cover 16 in the cut-out region 17 of the upper housing 14, in an amount sufficient to deform the relatively soft elastomeric material. The force is transferred to the aft side 66 of the boat, which moves the boat 50 towards the lower housing. The ship's bow 60 passes through the slit 23 of the lip seal 22, and the tablet is dispensed from the ship's bow.
In another embodiment, shown in
In yet another embodiment, the ship's bow is provided with a slot 70 on its under side, as shown in
It is understood that the lower housing 102, upper housing 104, elastomeric cover 106 that covers the trigger mechanism, seal 108 that joins the lower and upper housings, and cover 110 of an elastomer that covers the portions of the lower housing can be individually assembled or one or more of these parts can be molded/secured together and then assembled with the other parts (e.g. the lower and upper housing are molded as one part).
In another embodiment, a lip seal 22′, with slit 23′, through which a tablet is dispensed, is provided in the elastomer. The lip seal may have the same configuration as in
When the housing is assembled, the seal is overmolded to form a substantially moisture tight seal, prohibiting the ingress of moisture into the housing.
In yet another embodiment, the dispenser apparatus also includes dispenser mechanism 120 that is dimensioned to fit within the housing 100, and move side-to-side, during the dispensing of a tablet, and return to the rest position. As a practical matter, the dispenser mechanism 120 will be loaded into housing full of tablets, the housing will be assembled, and then the housing will be sealed as described above.
In one specific embodiment, the front end of the dispenser mechanism 120 has a relatively flexible spring element 130. As shown, the spring element has extension 131 with a switchback configuration, alternatively extending to the right and left, terminating in crossbar 132. While the switchback configuration of the extension 131 imparts a desirable degree of flexibility that permits the spring element to compress and store energy, and the cross bar 132 distributes the load borne under compression across a relatively large surface area, it should be readily apparent that other designs are suitable for this application.
In yet another embodiment, dispenser mechanism 120 is further provided with a forwardly extending dispenser zone 124. Bumpers 136 are at the fore of the dispenser zone 124. As best seen in
In one example, lever mechanism 142 is pivotally mounted at the upper portion 143 of the dispensing zone 124, at pivot element 144 that joins the lever mechanism 142 to the upper portion 143. Lever mechanism 142 has an upward extending leg 145, which extends upward from about the point where the lever mechanism 142 is pivotally mounted to the upper portion 143. The upward extending leg 145 is joined to horizontal member 146 of the lever mechanism 142. Downwardly depending hook element 148 extends downward from the horizontal member 146 of the lever mechanism 142. The hook element 148 extends down into the space where tablets are situated near the opening 140, and when in that position, will block tablets from being dispensed.
For example, when a person applies a force to the elastomeric cover 106 situated at the aft of the housing, he or she sets in motion the following events that lead to the dispensing of a tablet. When sufficient force is translated from the cover 106 to the aft wall 128 of the dispenser mechanism 120, the dispenser mechanism moves forward, towards the fore wall 103 of the lower housing 102. After moving for a distance, the upward extending leg 145 of the lever mechanism 142 contacts the pusher bar 149 that extends inward from the fore wall 103 of the lower housing 102. As the lever mechanism is pivotally mounted, the upward extending leg 145 pivots in the direction opposite the direction in which the dispenser mechanism is moving, when sufficient force is translated from pusher bar 149 the to the upward extending leg 145. In turn, this lifts the hook element 148, removing the impediment prohibiting the tablet from passing through the opening of the dispensing mechanism.
The dispensing mechanism continues to move forward; with the bumpers 136 contacting the interior side of the lip seal 22′. The bumpers open the slit 23′ in the lip seal 22′, pass therethough, and the tablet is dispensed through the opening. At the time the tablet is dispensed, the crossbar 132 of the spring element 130 is in contact with the fore wall 103 of the lower housing 102. The spring element is in compression. When the person has dispensed a tablet and releases the applied force to the cover 106 at the back end of the housing, the spring element 130 releases the energy it has stored, and pushes the dispenser mechanism back to the rest position. Also, when the force is released from the elastomeric cover 106, it returns to its original position. Button 170 provided on the interior side of the elastomeric cover 106 thereby exerts a return force on the dispensing mechanism by virtue of the interference fit between button 170 and the opening 129 in the rear wall of the dispensing mechanism.
For example, when a person applies a force to the elastomeric cover 106 situated at the aft of the housing, he or she sets in motion the following events that lead to the dispensing of a tablet. When sufficient force is translated from the cover 106 to the aft wall 128 of the dispenser mechanism 120, the dispenser mechanism moves forward, towards the fore wall 103 of the lower housing 102. After moving for a distance, the upward extending leg 145/147 of the lever mechanism contacts the pusher bar 149 that extends inward from the fore wall 103 of the lower housing 102. As the lever mechanism is pivotally mounted, the upward extending leg 145/146 pivots in the direction opposite the direction in which the dispenser mechanism is moving, when sufficient force is translated from pusher bar 149 the to the upward extending leg 145/146. In turn, this pivots the hook element 148 of the lever mechanism in the opposite direction of the upward extending leg 145/146, removing the impediment prohibiting the tablet from passing through the opening of the dispensing mechanism.
The dispensing mechanism continues to move forward. In one specific embodiment, the upward extending leg 145/146 opens the slit 23′ in the lip seal 22′, pass therethough, and the tablet is dispensed through the opening. At the time the tablet is dispensed, the crossbar 132 of the spring element 130 is in contact with the fore wall 103 of the lower housing 102. The spring element is in compression. When the person has dispensed a tablet and releases the applied force to the cover 106 at the back end of the housing, the spring element 130 releases the energy it has stored, and pushes the dispenser mechanism back to the rest position. Also, when the force is released from the elastomeric cover 106, it returns to its original position. Button 170 provided on the interior side of the elastomeric cover 106 thereby exerts a return force on the dispensing mechanism by virtue of the interference fit between button 170 and the opening 129 in the rear wall of the dispensing mechanism.
In one specific embodiment, the dispenser including the lip seal forms a substantially moisture tight container. Finally, the invention is not limited to the embodiments shown in the drawings.
In one specific embodiment, the upward extending leg 248 opens a slit in a lip seal, pass therethough, and the tablet is dispensed through the opening. At the time the tablet is dispensed, the spring element 230 is in contact with the fore wall of the lower housing. The spring element is in compression. When the person has dispensed a tablet and releases the applied force to the cover 106 at the back end of the housing, the spring element 230 releases the energy it has stored, and pushes the dispenser mechanism back to the rest position.
Number | Date | Country | |
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60514774 | Oct 2003 | US |
Number | Date | Country | |
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Parent | 10595437 | May 2008 | US |
Child | 13709529 | US |