Dispenser apparatus with damper for dispensing paper toweling

Abstract

Apparatus for dispensing paper toweling from a roll of paper toweling includes a rotary damper resisting formation of overspin slack in the paper toweling resulting from a pulling force applied to the paper toweling. Control mechanism changes the rotary damper from an operative condition to an inoperative condition responsive to reduction of the diameter of the roll of paper toweling.

Claims

1. Paper toweling dispenser apparatus for dispensing paper toweling from a roll of paper toweling and resisting formation of paper toweling overspin slack, said apparatus including in combination: a roll support structure for supporting a roll of paper toweling with said roll of paper toweling being rotatable when a pulling force is applied to said paper toweling; a rotary damper operatively associated with said roll support structure, said rotary damper alternatively having an operative condition wherein the rotary damper substantially or wholly prevents formation of overspin slack in said paper toweling resulting from said pulling force and an inoperative condition; and a control mechanism operatively associated with said rotary damper to change the rotary damper from said operative condition to said inoperative condition responsive to reduction of the diameter of said roll of paper toweling to a predetermined value during dispensing of paper toweling therefrom, said roll support structure including a hub positioned in an end of said roll of paper toweling fixed against movement relative to said roll of paper toweling and rotatable with said roll of paper toweling, said rotary damper when in said operative condition connected to said hub and continually resisting rotation of said hub and said roll of paper toweling.

2. Paper toweling dispenser apparatus for dispensing paper toweling from a roll of paper toweling and resisting formation of paper toweling overspin slack, said apparatus including in combination: a roll support structure for supporting a roll of paper toweling with said roll of paper toweling being rotatable relative to said roll support structure when a pulling force is applied to said paper toweling; a rotary damper operatively associated with said roll support structure, said rotary damper alternatively having an operative condition wherein the rotary damper substantially or wholly prevents formation of overspin slack in said paper toweling resulting from said pulling force and an inoperative condition; and a control mechanism operatively associated with said rotary damper to change the rotary damper from said operative condition to said inoperative condition responsive to reduction of the diameter of said roll of paper toweling during dispensing of paper toweling therefrom, said roll support structure including a roll support arm and said rotary damper located adjacent to said roll support arm for resisting rotation of said roll of paper toweling when the rotary damper is in said operative condition, said roll support structure additionally including a hub rotatably supported by said support arm, said hub positioned at an end of said roll of paper toweling and rotatable with said roll of paper toweling, said rotary damper when in said operative condition being connected to said hub to resist rotation of said hub and said roll of paper toweling, said rotary damper including a rotary gear component and wherein said hub has a hub gear, said rotary gear component connected to said hub gear when said rotary damper is in said operative condition.

3. The paper toweling dispenser apparatus according to claim 2 wherein said control mechanism includes a movably mounted roll engagement member engageable with said roll of paper toweling.

4. The paper toweling dispenser apparatus according to claim 3 wherein said roll engagement member is operatively associated with said rotary damper, said rotary damper movable from said operative condition to said inoperative condition when said roll engagement member senses that the diameter of said roll of paper toweling has been reduced to a predetermined value.

5. The paper toweling dispenser according to claim 4 additionally including biasing structure and wherein said roll engagement member is adjacent to an end of said roll of paper toweling and is biased by said biasing structure into engagement with said end.

6. The paper toweling dispenser according to claim 5 wherein said roll engagement member is a pivotally mounted, double-ended lever, one end of said lever engageable with the end of the roll of paper toweling, said rotary damper connected to said lever at a location spaced from the end of the lever engageable with the end of the roll of paper toweling.

7. The paper toweling dispenser apparatus of claim 6 wherein said roll support arm includes a housing defining a housing interior accommodating said rotary damper.

8. The paper toweling dispenser apparatus according to claim 7 wherein said rotary damper is movable within said housing interior between a first rotary damper position when said rotary damper is in said operative condition and a second rotary damper position when said rotary damper is in said inoperative condition.

9. The paper toweling dispenser apparatus according to claim 8 including cooperative guide structure in said housing interior to guide movement of said rotary damper between said first rotary damper position and said second rotary damper position.

10. The paper toweling dispenser according to claim 9 additionally including a holder holding said rotary damper, said cooperative guide structure including track and track guide structure on said holder and said housing.

11. The paper toweling dispenser apparatus according to claim 5 wherein said biasing structure comprises a spring.

12. The paper toweling dispenser apparatus according to claim 2 wherein the rotary gear component disengages from the hub gear when said rotary damper moves from said operative condition to said inoperative condition.

Description

BRIEF DESCRIPTION OF DRAWINGS

(1) FIG. 1 is a perspective view illustrating a back cabinet portion and selected structural operating components of the dispenser apparatus of the present invention including a rotary damper on a roll support arm supporting a roll of toweling;

(2) FIG. 2 is an enlarged, perspective view of the damper arm assembly of the invention including the support arm, a geared roll support hub located at the outer surface of a housing of the roll support arm, and a portion of a roll engagement member;

(3) FIG. 3 is an enlarged, perspective view of the roll support arm as viewed from the outer side thereof, the housing interior of the housing accommodating a rotary damper;

(4) FIG. 4 is a top view in partial cross-section showing a full roll of paper toweling supported by roll support arms with a roll engagement member in engagement with an end of the full roll;

(5) FIG. 5 is a view similar to FIG. 4, but showing the roll of paper toweling in reduced diameter, the roll engagement member no longer engaged with the end of the roll which results in disengagement of the rotary damper from roll support hub;

(6) FIG. 6 is an exploded, perspective view as viewed from the inner side of the roll support arm of FIGS. 1-3 illustrating selected components including disassembled roll support hub, the rotary damper, a damper holder and roll engagement member;

(7) FIG. 7 is a view similar to FIG. 6, but illustrating the selected components as viewed from the outer side of the roll support arm;

(8) FIG. 8 is a cross-sectional, perspective view showing portions of selected components of the invention when the damper gear is disengaged from the geared hub; and

(9) FIG. 9 is a view similar to FIG. 8, but illustrating the damper gear engaged with the geared hub.

BEST MODE FOR CARRYING OUT THE INVENTION

(10) Referring now to the drawings, dispenser apparatus constructed in accordance with the teachings of the present invention is illustrated. The invention includes a cabinet 10, only the rear cabinet portion thereof being shown. Attached to the rear cabinet portion are roll support arms 12, 14 utilized to support a roll of paper toweling 16. In FIGS. 1 and 4 the roll is at full diameter condition as is the situation when the roll is positioned in the cabinet and dispensing of toweling therefrom has not yet occurred.

(11) A plug or hub 20 (FIGS. 4 and 5) supports the end of the roll of paper toweling closest to support arm 14. The hub is positioned in a cylindrically shaped support arm portion 22 which projects inwardly from the rest of support arm 14. Hub 20 rotates with roll of paper toweling 16. Alternatively, the hub may be affixed to or part of support arm 14, with the roll rotatable thereabout.

(12) The roll support structure at the other end of the roll is different. Support arm 12 includes a housing 24 which extends from both sides of support arm 12. The outwardly extending portion of the housing 24 has an enlarged opening 26 which communicates with a housing interior 28 surrounded by a cylindrical wall.

(13) The inner portion of housing 24 has an end wall 30. A boss 32 extends inwardly in the direction of the roll of paper toweling and defines a screw hole passageway. A hub 34 is positioned over boss 32 and is rotatable relative thereto. A screw 36 is employed to maintain the hub 34 in place on the boss while allowing rotation thereof relative to the boss.

(14) The hub 34 is inserted into the end of the roll of paper toweling closest to support arm 12 and rotates with the roll of paper toweling. Ribs 38 on the hub 34 help maintain the hub in fixed position relative to the roll of paper toweling. Gear teeth 44 are formed at the inner cylindrical wall of hub 34. An opening 46 is formed in end wall 30 adjacent to boss 32.

(15) The apparatus includes a rotary damper 50 of any suitable type operatively associated with the roll support structure described above, the rotary damper alternatively having an operative condition wherein the rotary damper substantially or wholly prevents formation of overspin slack in the paper toweling within the cabinet resulting from a pulling force and an inoperative condition.

(16) The rotary damper 50 is positioned in a damper holder 52. Damper holder 52 has guide pins 54 which engage a track structure 56 within housing interior 28. The damper holder and rotary damper are movable relative to the track within the housing 24 between a first rotary damper position when the rotary damper is in the operative condition and a second rotary damper position when the rotary damper is in the inoperative condition.

(17) The rotary damper 50 includes a rotary gear component 60, the rotary gear component is connected to the hub gear teeth when the rotary damper is in its operative condition. This condition is shown in FIG. 9 wherein the rotary gear component extends outwardly through opening 46. Outward movement of the damper holder and rotary damper within the housing 24 causes the rotary gear component 60 and the gear teeth 44 of hub 34 to disengage as shown in FIG. 8. Of course, when such disengagement occurs, the rotary damper will no longer resist rotation of roll of paper toweling 16 and hub 34.

(18) Control mechanism is operatively associated with the rotary damper to change the rotary damper from the operative condition to the inoperative condition responsive to a certain amount of reduction of the diameter of the roll of paper toweling caused by dispensing of paper toweling therefrom.

(19) The control mechanism includes a movably mounted roll engagement member engageable with the roll of paper toweling. The rotary damper (within holder 52) is movable from the operative condition to the inoperative condition when the roll engagement member senses that the diameter of the roll of paper toweling has been reduced to a predetermined value.

(20) The roll engagement member is a double-ended engagement lever 64 engageable with the end of the roll of paper toweling. FIG. 4 shows such condition. The rotary damper and damper holder are connected by a pin 65 to the engagement lever at a location spaced from the end thereof engageable with the end of the roll of paper toweling.

(21) The engagement lever 64 pivots about pin 66 and a spring 68 continuously urges the engagement lever for movement in a clockwise direction as shown in FIGS. 4 and 5. The spring shown is a torsion spring but any suitable type of spring, including a plastic spring integral with the engagement lever, may be utilized. When the diameter of the roll of paper toweling decreases to a certain value, for example 4.5 inches, the spring will urge the engagement lever to the position shown in FIG. 5 and cause disengagement of the rotary gear component of the rotary damper and the hub gear teeth 44. The roll of toweling will then rotate more readily.