Contact Lens Cleaner

Abstract

A contact lens cleaner device which can be used to clean contact lenses from debris and bacteria. The contact lens cleaner device pumps contact lens solution into reservoirs where contact lenses can be placed. The contact lenses rotate within the reservoirs and debris falls into a filter, as the contact lens solution continues to be pumped through the device. UV-lighting kills bacteria and cleanses the contact lenses in the reservoirs.

Claims

1. A contact lens cleaner device, comprising: a contact lens storage compartment, the contact lens storage compartment comprising: a reservoir for storing at least one contact lens; an inlet to the reservoir of the contact lens storage compartment; an outlet from the reservoir of the contact lens storage compartment; and a filter having a filter inlet and a filter outlet, wherein the filter inlet is in fluid communication with the outlet from the contact lens storage compartment and the filter outlet is in fluid communication with the suction port; and a pump comprising a discharge port and a suction port, wherein the discharge port is in fluid communication with the inlet to the contact lens storage compartment.

2. The contact lens cleaner device of claim 1, wherein the reservoir has a circular cross-section and the inlet is oriented tangentially to the circular cross-section.

3. The contact lens cleaner device of claim 1, wherein the reservoir is bowl-shaped compartment for receiving a contact lens.

4. The contact lens cleaner device of claim 3, wherein the concave inner surface comprises a plurality of protrusions.

5. The contact lens cleaner device of claim 3, wherein the concave inner surface comprises an abrasive surface.

6. The contact lens cleaner device of claim 1, wherein the filter is a screen in the outlet of the reservoir.

7. The contact lens cleaner device of claim 1, comprising a pump controller, wherein the pump controller controls a pumping cycle for the pump.

8. The contact lens cleaner device of claim 7, comprising a battery as the power source.

9. The contact lens cleaning device of claim 1, comprising a source of ultraviolet light to irradiate the reservoir.

10. The contact lens cleaning device of claim 9, wherein the source of ultraviolet light is a source of UV-C light.

11. The contact lens cleaning device of claim 1, wherein the compartment outlet is in a top portion of the inner surface of the reservoir.

12. The contact lens cleaning device of claim 4, comprising a removable lid to cover the reservoir.

13. The contact lens cleaning device of claim 1, wherein the contact lens compartment is detachable from the device.

14. A contact lens cleaning device, comprising: a left contact lens storage compartment, the left contact lens storage compartment comprising a left reservoir for storing at least one contact lens; a left compartment inlet to the reservoir of the contact lens storage compartment; a left compartment outlet from the reservoir of the contact lens storage compartment; and a filter, the filter having a filter inlet and a filter outlet; a right contact lens storage compartment, the right contact lens storage compartment comprising: a right reservoir for storing at least one contact lens; a right compartment inlet to the reservoir of the contact lens storage compartment; a right compartment outlet from the reservoir of the contact lens storage compartment; and a filter, the filter having a filter inlet and a filter outlet; a pump comprising a discharge port and a suction port, wherein the discharge port is in fluid communication with both the left compartment inlet and the right compartment inlet.

15. The contact lens cleaning device of claim 14, wherein the contact lens compartment is detachable from the device.

16. The contact lens cleaning device of claim 14, wherein the filter inlet is in fluid communication with one or both of the right compartment outlet and the left compartment outlet and the filter outlet is in fluid communication with the suction port.

17. The contact lens cleaner device of claim 14, wherein the reservoir has a circular cross-section and the inlet is oriented tangentially to the circular cross-section.

18. The contact lens cleaner device of claim 14, wherein the reservoir is bowl-shaped compartment for receiving a contact lens.

19. The contact lens cleaner device of claim 18, wherein the concave inner surface comprises a plurality of protrusions.

20. The contact lens cleaner device of claim 18, wherein the concave inner surface comprises an abrasive surface.

21. The contact lens cleaner device of claim 14, wherein the filter is a screen in the outlet of the reservoir.

22. The contact lens cleaner device of claim 14, comprising a pump controller, wherein the pump controller controls a pumping cycle for the pump.

23. The contact lens cleaner device of claim 22, comprising a battery as the power source.

24. The contact lens cleaning device of claim 14, comprising a source of ultraviolet light to irradiate the reservoir.

25. The contact lens cleaning device of claim 24, wherein the source of ultraviolet light is a source of UV-C light.

26. The contact lens cleaning device of claim 14, wherein the compartment outlet is in a top portion of the inner surface of the reservoir.

27. The contact lens cleaning device of claim 14, comprising a removable lid to cover the reservoir.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0015] FIG. 1 shows the preferred embodiment of the invention when viewed from the right side with the hingedly connected lid being open. The outer shell of the device is not shown in this figure, to allow for the viewing of the internal components of the invention. Because this view of the invention is from the right side, it does not show those components which are duplicated on the left side.

[0016] FIG. 2 shows the preferred embodiment of the invention when view from the outside with the hingedly connected lid being open. This view does not show the internal components of the invention.

[0017] FIG. 3 shows an additional embodiment of the invention when viewed from the right side with the hingedly connected lid being open. The outer shell of the device is not shown in this figure, to allow for the viewing of the internal components of the invention. Because this view of the invention is from the right side, it does not show those components which are duplicated on the left side.

DETAILED DESCRIPTION

[0018] The preferred embodiment of the contact lens cleaner device, shown in FIG. 1, uses contact lens solution to clean and store contact lenses. As used herein, contact lens solution means any fluid used to store or clean contact lens such as but not limited to cleaning solutions, rinsing solutions, disinfecting solutions, multipurpose solutions, saline solutions, water, enzymatic cleaning solutions, saltwater, protein remover solution, hydrogen peroxide solutions, or combinations thereof, for example. This embodiment comprises a contact lens storage compartment 11, a pump 20, a power supply 60, and a hingedly connected lid 50. The contact lens storage compartment 11 comprises two reservoirs, a right reservoir 13, and a left reservoir 12; two compartment inlets, a right compartment inlet 15, and a left compartment inlet 14; and two compartment outlets, a right compartment outlet 17, and a left compartment outlet 16; and two filters 30. The reservoirs 13 and 12 can each be used to hold a contact lens. In this embodiment, the reservoirs 13 and 12 are concave with a bowl shape. The reservoirs 13 and 12 also comprise a plurality of protrusions. These protrusions can be small holes or nubs that come in contact with the contact lenses, to remove debris from the contact lenses via abrasion. Each reservoir 13 and 12 also comprise an inlet that is tangentially oriented to the circular cross-section of the reservoir. These inlets are the right compartment inlet 15 and the left compartment inlet 14. The compartment inlets 15 and 14 can allow contact lens solution to pour into the reservoirs 13 and 12. The compartment inlets 15 and 14 being tangentially oriented to the circular cross section allow for the flow of contact lens solution to move/rotate the contact lenses. This movement/rotation of the contact lenses, coupled with the plurality of protrusions, enhances the contact lens cleaner device's ability to remove debris from the contact lens. Each reservoir 13 and 12 also comprise a compartment outlet, the right compartment outlet 17, and the left compartment outlet 16. The compartment outlets 17 and 16 are located at the bottom of the reservoirs 13 and 12, and allow contact lens solution to flow out of the reservoirs 13 and 12. The compartment outlets 17 and 16 are each connected to a filter 30. The filters 30 are used to filter debris that has been cleaned from the contact lenses away from the contact lens solution. The filters 30 in this embodiment are a basket-style filters which catch the debris in the filter and allow the contact solution to move through the contact lens cleaner device.

[0019] The preferred embodiment in FIG. 1 shows the pump 20. The pump 20 comprises a pump suction port 22 and a pump discharge port 21. The pump suction port 22 sucks in the contact lens solution in the device, as well as the contact lens solution that has passed through the filters 30. The pump discharge port 21 pumps the contact lens solution to the compartment inlets 15 and 14. The power supply 60 is connected to the pump 20, giving it power to perform the work of sucking in the contact solution and pumping it out to the compartment inlets 15 and 14.

[0020] In this embodiment in FIG. 1, the hingedly connected lid 50 is located on the top of the contact lens cleaner device, and comprises two contact lens storage compartment lids 19, and two UV-lights 70. In this embodiment, the UV-lights 70 are comprise of UV-C lights. The contact lens storage compartment lids 19 partially or fully cover each of the reservoirs 13 and 12. The contact lens storage compartment lids 19 are able to protect the contact lenses from any debris outside of the device, and also secure the contact lenses if the contact lens cleaner device is moved or transported. The contact lens storage compartment lids 19 also keep the contact lens solution from leaking from the device. The UV-lights 70 are located above each of the reservoir 13 and 12. In this embodiment the UV-lights 70 are built into the contact lens storage compartment lids 19. The UV-lights 70 are able to clean the contact lens solution with the light and kill bacteria on the contact lenses with the light. The UV-lights 70 are connected to the power supply 60.

[0021] An additional embodiment of the contact lens cleaner device 10 is shown in FIG. 3. In this embodiment, the compartment outlets 17 and 16 are located near top of the reservoirs 13 and 12 and above the compartment inlets 15 and 14, instead of at the bottom of the reservoirs 13 and 12. The compartments outlets 17 and 16 being located higher allows them to act like an overflow, similar to how an overflow works in a residential sink. In this embodiment, contact solution would still be pumped via the pump 20, and flow through the compartment inlets 15 and 14, into the reservoirs 13 and 12, but as the reservoirs 13 and 12 became filled the contact lens solution would flow into the compartment outlets 17 and 16. The compartment outlets 17 and 16 would also allow the flow of debris into the filters 30.

[0022] Additional embodiments of the contact lens cleaner device, comprise different types of filters 30. The filters 30 could be of another style than a basket-style filter; they could also be screens. In another embodiment, the invention may comprise only one filter that allows the flow of contact lens solution coming from both compartment outlets 17 and 16. In another embodiment, the invention may comprise one pump 20, that pumps the contact lens solution in a series, or in parallel, or in another pattern; the invention can also comprise more than one pump: one for pumping solution to each compartment inlet 15 and 14. Another embodiment of the invention could comprise a system of compartment inlets and outlets which are utilized by both reservoirs 13 and 12, where one there is one compartment inlet that allows the flow of contact lens solution into both reservoirs 13 and 12, and one compartment outlet also shared by both reservoirs 13 and 12. In another embodiment of the invention the power supply 60 could be a battery, multiple batteries, or another similar form of power supply. In another embodiment of the invention, there may be only one contact lens storage lids 19 that covers both reservoirs 13 and 12, or the contact lens storage compartment lids 19 could cover the reservoirs 13 and 12 by screwing on or snapping in place. In another embodiment of the invention, one UV-light, or a plurality of UV-lights may be used in place of two UV-lights 70. In another embodiment of the device, the contact lens storage compartment 11 may be detachable from the rest of the device, allowing for cleaning or replacement. In another embodiment of the device, a pump controller may be used to control the pump 20. This controller may be in the form of a button on the device, or some other form of controller.