DEVICE FOR EVAPORATING VOLATILE SUBSTANCES

Abstract

The device for evaporating volatile substances comprises a container (1) housing a liquid with the volatile substances, and wick (2) in contact with said liquid and extending outside said container (1), wherein the device also comprises a porous element (3) placed inside the container (1) that is impregnated with said liquid with the volatile substances.

The presence of the porous element inside the container permits to place the evaporation device according to the present invention in any suitable position, preventing the leakage of the liquid and still allowing its correct performance.

Claims

1. Device for evaporating volatile substances, comprising: a container (1) housing a liquid with the volatile substances, and a wick (2) in contact with said liquid and extending outside said container (1), characterized in that the device also comprises a porous element (3) placed inside the container (1) that is impregnated with said liquid with the volatile substances.

2. Device for evaporating volatile substances according to claim 1, wherein all the liquid is impregnated in the porous element (3).

3. Device for evaporating volatile substances according to claim 1, wherein the porous element (3) is a sponge.

4. Device for evaporating volatile substances according to claim 1, wherein the porous element (3) is made from a polymeric substrate.

5. Device for evaporating volatile substances according to claim 1, wherein the container (1) comprises a cover (4).

6. Device for evaporating volatile substances according to claim 1, wherein said cover (4) or container (1) comprises a hole through which said wick (2) is passed.

7. Device for evaporating volatile substances according to claim 6, wherein the cover (4) or container (1) comprises a stopper (5) placed around the hole in contact with the wick (2).

8. Device for evaporating volatile substances according to claim 1, wherein the porous element (3) is compressed inside the container (1).

9. Device for evaporating volatile substances according to claim 1, wherein the wick (2) extends substantially along the whole container (1).

10. Device for evaporating volatile substances according to claim 1, wherein the device also comprises venting means (6) for venting the container (1).

11. Device for evaporating volatile substances according to claim 10, wherein the venting means comprises at least a vent (6) placed on the container (1) and/or on the stopper (5).

12. Device for evaporating volatile substances according to claim 10, wherein the venting means comprises a plurality of vents (6) placed on the top and bottom portions of the container (1) and/or on the side portion of the container (1).

13. Device for evaporating volatile substances according to claim 1, wherein the device also comprises an additional body (7) placed symmetrically with respect to the wick (2), the additional body having an external geometry similar to the container.

14. Device for evaporating volatile substances according to claim 1, wherein the device also comprises a heater (8).

15. Device for evaporating volatile substances according to claim 14, wherein the heater (8) is placed close or next to the wick (2).

16. Device for evaporating volatile substances according to claim 15, wherein the heater (8) is placed substantially equidistantly from the container (1) and the additional body (7).

17. Device for evaporating volatile substances according to claim 9, wherein the device also comprises venting means (6) for venting the container (1).

18. Device for evaporating volatile substances according to claim 17, wherein the venting means comprises at least a vent (6) placed on the container (1) and/or on the stopper (5).

19. Device for evaporating volatile substances according to claim 17, wherein the venting means comprises a plurality of vents (6) placed on the top and bottom portions of the container (1) and/or on the side portion of the container (1).

20. Device for evaporating volatile substances according to claim 19, wherein the device also comprises an additional body (7) placed symmetrically with respect to the wick (2), the additional body having an external geometry similar to the container.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0022] For a better understanding the above explanation and for the sole purpose of providing an example, some non-limiting drawings are included that schematically depict a practical embodiment.

[0023] FIG. 1 is an elevation cross-section view of the device of the present invention, according to a first embodiment;

[0024] FIG. 2 is an elevation cross-section view of the device of the present invention, according to a second embodiment;

[0025] FIG. 3 is an elevation cross-section view of the device of the present invention, according to a third embodiment, before the insertion of the porous element inside the container;

[0026] FIG. 4 is an elevation cross-section view of the device of the present invention, according to a third embodiment, after the insertion of the porous element inside the container, in its use position;

[0027] FIG. 5 is a diagrammatical elevation cross-section view of the device of the present invention, according to said third embodiment, comprising venting means according to a first option;

[0028] FIG. 6 is a diagrammatical elevation cross-section view of the device of the present invention, according to said third embodiment, comprising venting means according to a second option; and

[0029] FIG. 7 is a diagrammatical elevation cross-section view of the device of the present invention, according to said fourth embodiment, comprising an additional body and a heater.

DESCRIPTION OF PREFERRED EMBODIMENTS

[0030] The device for evaporating volatile substances according to the present invention comprises a container 1 that houses liquid with said volatile substances and a wick 2 in contact with the liquid.

[0031] Said wick 2 preferably extends from the bottom of the container 1 in contact with the liquid and outside of the container 1, where evaporation occurs (which can be promoted by additional means like heaters (shown in FIG. 7) or fans (not shown in the drawings)).

[0032] According to the present invention, the liquid is not free flowing inside the container 1, but it is contained or impregnated in a porous element 3 (e.g. a sponge).

[0033] This way the feeding of the wick is only due to capillarity through the porous element 3 and the capillar connection between the porous element 3 and the wick 2, and not anymore linked to gravity, as occurs with container with free-flowing liquids. Thanks to that, the transportation to the evaporation area of the wick 2 is similar independently of the position of the device.

[0034] The wick 2 can be whatever wick currently used in this kind of product, but preferably is a high capillarity wick made of fibers or sintered plastics.

[0035] The porous element can be made from a felt, a cellulosic part or an open cell polymeric material. Felt can be made from wool, synthetic fibers or thermally bonded fibers. The open cell polymeric material can be made of polyurethane, silicone, EPDM, melamine or other materials known for this kind of applications having chemical resistance to fragrances or solvents.

[0036] Preferably, the porous element density is lower than 0.05 g/cm3.

[0037] Also, preferably the volumetric ratio between liquid absorbed and foam material is higher than 10.

[0038] The container 1 also comprises preferably a cover 4 in such a way the porous element 3 can be introduced in the container 1 substantially not deforming it. Even though in FIGS. 1-3 the cover 4 is shown not in contact with the container 1, it is use position it is in contact with the container 1, as shown in FIG. 4.

[0039] Preferably, the cover 4 has a hole to allow the wick to pass through it, and a stopper 5 to guarantee the sealing between the wick and the cover, as shown in the first embodiment of FIG. 1.

[0040] In a second embodiment, the upper part of the container 1 is of reduced dimensions and the lower part of the container 1 is progressively widening in order to have a biased profile (FIG. 2).

[0041] This biased profile is to reduce obstruction of the vapors when the container 1 is placed above the evaporation surface. This is particularly relevant when the container is used together with a heater as hot vapors tends to condensate on the surfaces found on their way out of the device if the flow is not easy.

[0042] Therefore, in this embodiment, the profile of the container is mainly conical or pyramidal and the cover 4 is in fact the base of the cone or pyramid.

[0043] The porous element 3 in these embodiments can be made, for example, of an absorbent cellulosic substrate, a fibrous polymeric structure or an open cell polymeric foam.

[0044] The porous element 3 preferably fills all the inner space of the container 1 (apart the space taken by the wick 2). Alternatively, the porous element 3 can also leave part of the inner space of the container 1 free.

[0045] In a third embodiment shown in FIGS. 3 and 4, the design of the porous element 3 is not, or only partially, similar to the inner space of the container, and it is compressed before and/or during its introduction in the container 1.

[0046] It is clear that the contact between the porous element 3 and the wick 2 is critical to assure a good capillary connection of the volatile substance between them.

[0047] By compressing the porous element 3, the contact will be forced between the wick 2 and said porous element 3 in order to assure the correct contact.

[0048] Of course, the compression of the porous element 3 modifies its pore size and also its absorption capacity.

[0049] It is important then that the amount of liquid dosed inside the porous element 3 does not exceeds the absorption capacity of the porous element 3 in its compressed state, in order to avoid the liquid to be ejected from the porous element 3 when the porous element 3 is introduced and compressed in the container 1.

[0050] Regarding the connection between the porous element 3 and the wick 2, according to one embodiment, the porous element 3 is designed to have a hole with similar dimensions and shape that the wick 2 so that the wick 2 can fit in the porous element 3.

[0051] Alternatively, the hole in the porous element 3 is quite bigger than the wick 2 and the porous element 3 is pressed against the wick 2 when it is compressed during its introduction in the container 1.

[0052] Still alternatively, the hole is the porous element 3 is a simple flat cut, preferably passing through the whole porous element length. The porous element 3 is compressed against the wick 2 when the wick 2 is introduced in the porous element 3.

[0053] The device according to the present invention can also comprise venting means for venting the container 1, as shown in FIGS. 5 and 6.

[0054] In FIG. 5 the venting means comprises two vents 6, which are placed on a top and bottom portion of the container 1, for balancing the pressure inside the container 1.

[0055] In FIG. 6 the venting means comprises also two vents 6, one placed on the top portion of the container 1 and the other placed on the side portion of the container 1. This vent 6 placed on the side portion of the container 1 is preferably a channel made on the container itself or on the porous element 3.

[0056] The vents 6 can be closed in any suitable way, e.g. with the stopper 5 or with an impermeable label (not shown).

[0057] FIG. 7 shows a fourth embodiment of the device according to the present invention. According to this embodiment, the device comprises an additional body 7 having a shape that matches with the shape of the container 1 (or with the shape of a housing that houses the container 1) and placed symmetrically with respect to the wick 2.

[0058] According to this embodiment, the device also comprises preferably a heater 8 placed close or next to the wick 2, in particular, placed equidistantly from the container 1 and the additional body 7.

[0059] Even though reference has been made to a specific embodiment of the invention, it is obvious for a person skilled in the art that the device described herein is susceptible to numerous variations and modifications, and that all of the details mentioned can be substituted for other technically equivalent ones without departing from the scope of protection defined by the attached claims.