SPILL-RESISTANT AIR FRESHENER CANISTER

Abstract

The present invention provides a spill-resistant air freshener canister that includes: a supply vessel filled with aromatic liquid that has a threaded mouth sealed with a puncturable foil/polyethylene membrane; a cylindrical inner sleeve incorporating a socket that sealably engages the threaded mouth of the supply vessel, the sleeve also having a cylindrical axial aperture at the bottom of the socket, and at least one seepage aperture at the very bottom of the socket which enables liquid from inside the supply vessel to escape in a radially outward direction to the exterior of the inner cylindrical sleeve; a cylindrical wick surrounding the cylindrical inner sleeve; and an evaporator cage into which the cylindrical inner sleeve is inserted, the evaporator cage having a fully-enclosed bottom portion containing a central projecting blade that fits through the axial aperture at the bottom of the socket. The bottom portion is ultrasonically welded to the bottom of the cylindrical inner sleeve.

Description

TECHNICAL FIELD

The present invention relates, generally, to air freshener canisters having a central supply vessel containing an aromatic liquid that is surrounded by an evaporation chamber enclosing a generally cylindrical wick that is wetted by liquid escaping from the supply vessel. More particularly, the present invention relates to a spill-resistant air freshener canister that has no unabsorbed standing aromatic liquid outside the vessel, with all aromatic liquid that has seeped from the supply vessel being absorbed by the wick.

RELATED ART

Aromatic fluid delivery devices, such as fragrance dispensers, have been known in the art for many decades. One example of a dispenser for volatile fluid is disclosed in three related U.S. Pat. Nos. 5,533,705; 5,816,846 and 6,105,916. The device provides a drive selectively using large or small motor providing an air stream for generating vapor from a wick, ceramic wafers, or discs containing vaporizable deodorant. Socket assemblies provide a socket for a motor of larger dimensions and a socket for a motor of smaller dimensions. A frame for a cabinet composed of a separate back plate, a top member and a bottom member of a resilient plastic so that the top member and bottom member are snap-locked to the back plate and secured further by projections from the top and bottom members in slots in the back plate. The bottom member is a liquid tight tray capable of processing deodorants contained in wick-equipped bottles and cans, porous impregnated ceramic discs, and porous impregnated fiber wafers. There is a bottle holder snap-locked to the underside of the top member. A battery-blower assembly is snap-locked to the back plate. The battery poles are joined to the wires from the blower-motor by clips using solderless connections.

More recently as disclosed in U.S. Pat. No. 6,957,779 is a framed fluid delivery device that is made up of a fluid-delivery cartridge for the timed-release delivery of a fluid. The fluid delivery cartridge retained by a frame assembly uses a base portion for the delivery of fluid released from a cartridge. The base secures the fluid delivery cartridge within the frame assembly proximate the end when fluid is released. The fluid-delivery cartridge has a bottom, a top, and sides, and a dispersion pad positioned proximate the bottom of the fluid-delivery cartridge that at least partially surrounds the sides of the fluid-delivery cartridge. A generator that generates gas is used for powered discharge of volatile liquid from the storage cell that is part of the fluid delivery cartridge.

While conventional dispensers have been readily utilized in numerous commercial markets, they have not been configured to automatically dispense a fluid at predetermined intervals. In particular, many conventional dispensers are manually or electromechanically actuated by depressing, for example, a cap, a button, or a trigger mechanism. Such manually, or electromechanically actuated dispensers are cumbersome and expensive inasmuch as they have many costly components.

A more recent trend has seen the proliferation of fragrance canisters which have a central fluid supply vessel surrounded by an evaporation chamber enclosing a wick. U.S. Pat. No. 6,283,461 to Ashok Joshi, et al. discloses a fluid delivery device including a container for holding a predetermined quantity of fluid, a gas generator for generating gas within the container, and a dispenser for cyclically dispensing fluid at predetermined intervals out of the container without cyclical actuation by a user. Although the Joshi, et al. device represents an improvement in the art, in that the cost of fragrance dispensers is substantially reduced, the device is still unnecessarily complex and relatively costly.

U.S. Pat. No. 8,005,350 to Arnold H. Zlotnik, et al. discloses an aromatic odor neutralizer that includes a vaporization chamber containing a wick with an end part immersed in fluid in a storage cup that is gravity fed from an airtight vessel by the use of air pathways exposed when the liquid level in the cup is reduced. The vaporization chamber is located in a dispenser housing with an internal passage between end walls and communicating with vents in the sides for aerodynamic airflow to efficiently absorb vapors from a vaporizer chamber. Once activated by puncturing a lower portion of the vessel, the Zlotnick, et al. device soon reaches an equilibrium condition characterized by the presence of standing aromatic fluid in the storage cup. This standing fluid is subject to spillage if the air canister is not handled with care.

SUMMARY

The present invention provides a spill-resistant air freshener canister that includes the following components: a supply vessel filled with aromatic liquid that has a threaded mouth sealed with a puncturable membrane; a cylindrical inner sleeve incorporating a socket that sealably engages the threaded mouth of the supply vessel, the sleeve also having a cylindrical axial aperture at the bottom of the socket, and at least one seepage aperture at the very bottom of the socket which enables liquid from inside the supply vessel to escape in a radially outward direction to the exterior of the cylindrical sleeve; a cylindrical wick surrounding the cylindrical inner sleeve; and an evaporator cage into which the cylindrical sleeve is inserted, the evaporator cage having a fully-enclosed bottom portion containing a central projecting blade that fits through the axial aperture at the bottom of the socket. The bottom portion is ultrasonically welded to the bottom of the cylindrical inner sleeve, leaving no gap between the bottom of the inner sleeve and the bottom portion of the evaporator cage. When a filled supply vessel is screwed into the socket, the projecting blade slices through the puncturable membrane which allows aromatic liquid to escape outside the cylindrical sleeve and wet the cylindrical wick. The air freshener canister is spill resistant, as there is no unabsorbed standing aromatic liquid outside the vessel. All of the aromatic liquid is either within the supply vessel or absorbed by the wick.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an exploded isometric view of the new air freshener canister;

FIG. 2 is first fully-assembled isometric view of the new air freshener canister having a supply vessel installed therein;

FIG. 3 is a second fully-assembly isometric view of the new air freshener canister having a supply vessel installed therein;

FIG. 4 is a third fully-assembled isometric view of the new air freshener canister having a supply vessel installed therein;

FIG. 5 is a cross-sectional isometric view of the new air freshener canister having a supply vessel installed therein;

FIG. 6 is an elevational cross-sectional view of the new air freshener canister having a supply vessel installed therein;

FIG. 7 is an isometric view of a second embodiment supply vessel, a puncturable membrane, a paper washer and a cap having internal and external threads; and

FIG. 8 is a cross sectional view of a second embodiment air freshener canister.

DETAILED DESCRIPTION

The invention will now be described in detail with reference to the attached drawing figures. It is to be understood that the drawings are not necessarily drawn to scale and that they are intended to be merely illustrative.

Referring now to FIGS. 1 through 6, the new spill-resistant air freshener canister 100 is shown in an exploded (disassembled) state. The air freshener canister 100 includes the following components: a supply vessel 101 filled with aromatic liquid that has a finger-twistable projection 103 and a threaded mouth 102 sealed with a puncturable membrane 703; a cylindrical inner sleeve 104 incorporating a socket (see FIG. 5, item 502) that sealably engages the threaded mouth 102 of the supply vessel 101, the cylindrical inner sleeve 104 also having a cylindrical axial aperture at the bottom of the socket, and at least one seepage aperture 106 at the very bottom of the socket which enables liquid from inside the supply vessel to escape in a radially outward direction to the exterior of the cylindrical inner sleeve 104; a cylindrical wick 107 surrounding the cylindrical inner sleeve 104; and an evaporator cage 108 into which the cylindrical inner sleeve is inserted. The evaporator cage 108 includes a bottom portion 110 that may be fully enclosed an may include a central projecting blade (see FIG. 5, item 501) that fits through the axial aperture at the bottom of the socket 502. The evaporator cage 108 also has an open grill work 109 through which evaporating aromatic liquid escapes into the atmosphere. The bottom portion 110 is ultrasonically welded to the bottom of the cylindrical inner sleeve 104, leaving no gap between the bottom of the cylindrical inner sleeve lot and the bottom portion of the evaporator cage 108. When a filled supply 101 vessel is screwed into the socket 502, the projecting blade 501 slices through the puncturable membrane 703, which allows aromatic liquid to escape outside the cylindrical inner sleeve 104 and wet the cylindrical wick 107. The air freshener canister 100 is spill resistant, as there is no unabsorbed standing aromatic liquid outside the supply vessel 101. All of the aromatic liquid is either within the supply vessel 101 or absorbed by the cylindrical wick 107. It will be noted that they cylindrical inner sleeve 104 has locking apertures 105 that fit over projections 111 on the evaporator cage 108.

A second embodiment air freshener canister shown in FIGS. 7 and 8 has been designed to improve sealing between the mouth 702 of the supply vessel 701 and the puncturable membrane 703. A supply vessel 701 having a mouth 702, a puncturable membrane 703, a paper washer 704, and a cap 705 having internal threads 706 and external threads 707 is shown separately in FIG. 7. The mouth 702 may be externally threaded. The puncturable membrane 703 may comprise polyethylene or foil. The cap 705 fits over the threaded mouth of the supply vessel 701. The paper washer 704 compresses and ensures even force against polyethylene/foil the foil membrane 703 during inductive sealing of the puncturable membrane 703 to edges of the mouth of the supply vessel.

Although two embodiments of the new spill-resistant air freshener canister 100 have been shown and described, it will be obvious to those having ordinary skill in the art that changes and modifications may be made thereto without departing from the scope and the spirit of the invention as hereinafter claimed.

Claims

1. A spill-resistant aromatic dispenser, comprising: a supply vessel for holding an aromatic liquid, the supply vessel including a mouth;an inner sleeve including: an interior configured to receive the supply vessel;a socket configured to sealably engage the mouth of the supply vessel;at least one seepage aperture in communication with the socket and configured to communicate the aromatic liquid from the supply vessel to a location outside of the inner sleeve;a wick located outside of the inner sleeve; andan evaporator located outside of the wick, the evaporator element including a bottom portion that, together with a bottom portion of the inner sleeve, at least partially defines a fluid receptacle, the fluid receptacle including an open top occupied by a portion of the wick in a manner that prevents aromatic fluid within the fluid receptacle from spilling out of the open top.

2. The spill-resistant aromatic dispenser of claim 1, wherein the bottom portion of the evaporator is secured to the bottom portion of the inner sleeve.

3. A spill-resistant aromatic dispenser, comprising: a supply vessel for holding an aromatic liquid, the supply vessel including a mouth;an inner sleeve including a socket configured to sealably engage the mouth of the supply vessel, the inner sleeve also including at least one seepage aperture at a bottom of the socket to enable liquid to flow from the supply vessel to an exterior of the inner sleeve;a wick surrounding the inner sleeve; andan evaporator surrounding the wick, the evaporator, the wick and the inner sleeve at least partially defining a fluid receptacle that receives liquid through the at least one seepage aperture, an outer wall of the fluid receptacle lacking any gaps.

4. The spill-resistant aromatic dispenser of claim 3, wherein an upper surface of a base of the evaporator and a bottom surface of the inner sleeve are secured to one another.

5. The spill-resistant aromatic dispenser of claim 3, wherein the supply vessel includes a seal over the mouth and a piercing element within the inner sleeve is configured to pierce the seal when the supply vessel is assembled with the inner sleeve.

6. A spill-resistant aromatic dispensing system, comprising: a supply vessel for holding an aromatic liquid, the supply vessel including a mouth comprising a lip; anda dispenser, including: an inner element;an outer element positioned outside of and spaced apart from the inner element; anda base to which bottom edges of the inner element and a portion of the outer element are secured, the base and adjacent, spaced apart portions of the inner element and the outer element defining a fluid receptacle with an open top, the base including: an interior surface that, along with an interior of the inner element, defines a receptacle for the supply vessel, the interior surface including a periphery configured to seal against the lip of the mouth of the supply vessel; andat least one seepage aperture including an ingress end that is configured to communicate with an interior of the supply vessel when the supply vessel is assembled with the inner element and an egress end that communicates with a fluid receptacle defined between the inner element and the outer element; anda wick positioned between the inner element and the outer element in a manner that prevents fluid within the fluid receptacle from spilling out of the open top of the fluid receptacle.

7. The spill-resistant aromatic dispensing system of claim 6, wherein the lip of the mouth of the supply vessel includes a raised outer periphery configured to seal against the periphery of the interior surface of the base of the dispenser.

8. The spill-resistant aromatic dispensing system of claim 6, wherein the lip of the mouth of the supply vessel surrounds a recessed portion of the mouth, the recessed portion configured to facilitate communication of the aromatic liquid from an interior of the supply vessel to the at least one seepage aperture of the base of the dispenser.

9. The spill-resistant aromatic dispensing system of claim 6, wherein the inner element of the dispenser is configured to guide the supply vessel into an assembled relationship between the supply vessel and the dispenser.

10. The spill-resistant aromatic dispensing system of claim 9, wherein the inner element of the dispenser is configured to receive the supply vessel.

11. The spill-resistant aromatic dispensing system of claim 10, wherein the inner element comprises an inner sleeve.

12. The spill-resistant aromatic dispensing system of claim 6, wherein the outer element of the dispenser is configured to exposed a portion of the wick.

13. The spill-resistant aromatic dispensing system of claim 12, wherein the outer element of the dispenser includes at least one ventilating aperture.

14. The spill-resistant aromatic dispensing system of claim 6, wherein the dispenser comprises a plurality of seep apertures, each seep aperture of the plurality of seep apertures enabling communication between the interior surface of the base and the fluid receptacle.

15. The spill-resistant aromatic dispensing system of claim 6, wherein the supply vessel includes a seal over the mouth of the supply vessel.

16. The spill-resistant aromatic dispensing system of claim 15, wherein the seal is configured to be pierced or punctured to enable removal of the aromatic liquid from an interior of the supply vessel.

17. The spill-resistant aromatic dispensing system of claim 16, wherein the base of the dispenser further includes: a protruding element configured to pierce or puncture the seal when the supply vessel is assembled with the dispenser.

18. The spill-resistant aromatic dispensing system of claim 6, wherein the outer element of the dispenser surrounds the inner element of the dispenser.

19. The spill-resistant aromatic dispensing system of claim 18, wherein the fluid receptacle of the base of the dispenser surrounds at least a portion of a base portion of the inner element of the dispenser.

20. The spill-resistant aromatic dispensing system of claim 19, wherein the wick of the dispenser is configured to surround at least a portion of the inner element of the dispenser.