Apparatus and method for removing moisture from portable electronic devices
An apparatus and method are disclosed for rapid, low cost, and safe removal of trapped moisture from portable electronic devices. An airtight, sealable container is divided by an air and moisture permeable barrier into a compartment for the device and a compartment for desiccant. The method includes placing the device and desiccant into the compartments, sealing the container, and waiting for the desiccant to absorb the moisture. In preferred embodiments, the sealable container is made from plastic or glass, is disposable or reusable, and includes electrical, chemical, or other means for heating the device and/or mechanical means for forcing air between the compartments. Embodiments include silica gel or other descant in bulk or in pre-measured packets, pre-loaded in the container or stored in a separate, airtight container. Some embodiments include scoops or other means for measuring and dispensing desired desiccant quantities, and guidelines on optimal desiccant quantities and waiting times.
The invention generally relates to systems and methods for removing moisture from delicate circuitry, and more specifically to an apparatus for removing moisture from portable electronic devices.
BACKGROUND OF THE INVENTIONElectronic equipment normally has a range of acceptable environmental conditions, such as temperature and humidity, determined by the design parameters of the components and the manufacturing techniques used to assemble the finished product. When the environmental conditions exceed the acceptable ranges, the equipment may malfunction and/or may be damaged. Portable electronic devices, such as cellular telephones, PDA's, portable radios, portable GPA units, digital watches, and similar devices, are especially susceptible to environmental exposure, since they are more likely to be transported and used outdoors, where rain, humidity, fog, and other climate conditions may be present.
Exposure of portable electronic devices to moisture is of special concern, because moisture can become trapped inside of such a device and can cause damage long after the initial contact is over. Unfortunately, such damage is often not covered by manufacturer warranties or service agreements. Moisture typically enters in liquid form, seeping through tiny openings in the case. Once moisture has entered the device, the interior remains damp until the water evaporates. If the water evaporates before the device is switched on, and before internal components begin to corrode, damage can be averted. However, since it is not typically convenient for an owner to open such a device and expose the interior to the ambient air, the evaporation process can require days, weeks, or even longer. This very long drying time poses a significant danger of corrosion damage, and is also highly inconvenient, since there may be reluctance to use the device due to fear that the moisture may cause electrical damage. Similar concerns apply to some portable mechanical devices, such as a mechanical watch.
One method for removing moisture from a portable electronic device is to warm it, so as to raise the vapor pressure of the trapped moisture and drive it more rapidly out of the device. However, the sensitivity of most such devices to excessive heat, and the possibility of damaging them, effectively limits this approach and makes it impractical in many cases. Another approach is to seal the device inside a container together with a quantity of desiccant material such as a silica gel. Desiccants are inexpensive materials that aggressively absorb moisture and thereby severely reduce the humidity of the surrounding air. In a closed environment containing desiccant and a moisture-exposed portable device, low humidity induced by the desiccant will greatly accelerate the evaporation of moisture trapped in the device. However, desiccants often generate dust and other contaminants that can pose a hazard to some portable electronic and mechanical devices, and so must be physically separated from the electronic device by an air-permeable barrier. One approach is to pre-package desiccant in packets that are air-permeable. However, such packets must be used in increments of complete packets, which can lead to unnecessary waste of desiccant material. Also, this approach may still not provide moisture evaporation that is sufficient to avoid damage to the device.
SUMMARY OF THE INVENTIONAn apparatus and method of use are disclosed that provide for rapid, low cost removal of moisture from portable devices such as cell phones, pagers, palmtops, laptops, MP3 players, hearing aids, GPA's, watches, and similar devices without exposing the device to hazardous conditions. The apparatus includes an airtight sealable container with a first inner compartment and a second inner compartment, separated by a barrier that is permeable to air and moisture but not to desiccant. The first compartment is able to contain at least one electronic device and the second inner compartment is able to contain desiccant.
In preferred embodiments, the sealable container is made from at least one of plastic and glass, the sealable container is re-sealable and reusable and/or the sealable container is disposable after use.
In preferred embodiments, the apparatus also includes desiccant, which in some embodiments is silica gel. In some of these embodiments the desiccant is contained in air-permeable and moisture permeable packets, while in other of these preferred embodiments the desiccant is supplied in bulk form. In preferred embodiments, the included desiccant is stored before use in an airtight, sealable container so as to prevent exposure to moisture. Some embodiments that include desiccant in bulk form also include also include a graduated dispenser, and/or documentation that provides information regarding recommended quantities of desiccant needed for drying each of a plurality of portable devices and/or recommended drying times for representative types of portable device, so as to ensure maximum benefit without desiccant waste.
Preferred embodiments of the apparatus include a means for warming the portable electronic device so as to raise the vapor pressure of the trapped moisture and accelerate the drying process. Some of these preferred embodiments include an electrical source of heat and/or a chemical source of heat.
Other preferred embodiments of the apparatus include a means for stimulating the movement of air within and between the first and second inner compartments of the sealable container, thereby accelerating the removal of moisture from the device.
In another aspect of the invention, desiccant is pre-loaded in the second part of the air tight sealable container, thereby eliminating the need to handle and/or measure desiccant. In all other regards, this aspect is similar to or identical with the first aspect.
The method of the invention includes providing an apparatus according to one of the aspects described above, placing a device containing trapped moisture inside the first compartment, placing desiccant material (if not already pre-loaded) in the second compartment, waiting an amount of time sufficient to remove essentially all trapped moisture, and removing the device from the sealable container.
With reference to
Desiccant has a finite capacity for absorbing moisture, and once desiccant is saturated with moisture it is usually not practical to recycle it. Hence, in most preferred embodiments desiccant is stored before use in a sealed, water tight container.
The preferred embodiment illustrated in
The preferred embodiment illustrated in
Other modifications and implementations will occur to those skilled in the art without departing from the spirit and the scope of the invention as claimed. Accordingly, the above description is not intended to limit the invention except as indicated in the following claims.
Claims
1. An apparatus for removing moisture from a portable electronic device, the apparatus comprising a sealable container with an airtight seal, the sealable container including:
- a first inner compartment that is able to contain the electronic device;
- a second inner compartment that is able to contain a quantity of desiccant; and
- a divider separating the first inner compartment and the second inner compartment, the divider permitting the exchange of air and moisture but not the exchange of desiccant.
2. The apparatus of claim 1, wherein the sealable container is made from at least one of plastic, glass, vinyl, polyvinyl chloride, rubber, and synthetic rubber.
3. The apparatus of claim 1, wherein the sealable container is disposable.
4. The apparatus of claim 1, wherein the sealable container is re-sealable and reusable.
5. The apparatus of claim 1, further comprising a quantity of desiccant.
6. The apparatus of claim 5, wherein the desiccant is contained in packets that are air-permeable and moisture-permeable.
7. The apparatus of claim 5, wherein the desiccant is in bulk form.
8. The apparatus of claim 5, also comprising an airtight, sealable desiccant storage container that stores the desiccant while not in use and prevents exposure of the desiccant to ambient moisture.
9. The apparatus of claim 5, wherein the second inner compartment of the sealable container contains a pre-measured quantity of desiccant adequate for removing moisture from a portable electronic device.
10. The apparatus of claim 5, further comprising means to measure desired quantities of desiccant and insert a desired quantity of desiccant into the second inner compartment of the sealable container.
11. The apparatus of claim 5, wherein the desiccant is silica gel.
12. The apparatus of claim 1, further comprising means for warming a portable electronic device while it is in the first compartment, so as to accelerate the removal of moisture from the portable electronic device.
13. The apparatus of claim 12, wherein the means for warming the portable electronic device includes an electrical source of heat.
14. The apparatus of claim 12, wherein the means for warming the portable electronic device includes a chemical source of heat.
15. The apparatus of claim 1, further comprising means for stimulating movement of air within and between the first and second inner compartments of the sealable container, so as to accelerate the removal of moisture from the portable electronic device.
16. The apparatus of claim 15, wherein the means for stimulating movement of air within and between the first and second inner compartments includes at least one additional compartment separated from the first and second inner compartments by a divider that permits the passage of air and moisture, the at least one additional compartment being located such that an increase of air pressure in the at least one additional compartment, due to at least one of mechanical compression, a mechanical air pump, and other pressure raising means, causes air to necessarily pass between the first and second compartments.
17. The apparatus of claim 1, further comprising documentation containing information regarding at least one of recommended quantities of desiccant to be used for drying portable electronic devices and recommended drying times for portable electronic devices.
18. A method for removing moisture from a portable electronic device, the method comprising:
- providing a quantity of desiccant, the quantity being sufficient to absorb essentially all of the moisture from the at least one portable electronic device,
- providing a sealable container with an airtight seal, the sealable container including a first inner compartment that is able to contain the electronic device, a second inner compartment that is able to contain the quantity of desiccant, and a divider between the first inner compartment and the second inner compartment that permits the exchange of air and moisture but does not permit the exchange of desiccant;
- placing the portable electronic device into the first inner compartment of the sealable container;
- placing the quantity of desiccant into the second inner compartment of the sealable container;
- closing the airtight seal of the sealable container; and
- waiting an amount of time sufficient to allow the desiccant to absorb essentially all of the moisture contained in the at least one portable electronic device.
19. A method for removing moisture from at least one portable electronic device, the method comprising:
- providing a sealable container with an airtight seal, the sealable container including a first inner compartment that is able to contain the electronic device, a second inner compartment that contains a quantity of desiccant, and a divider between the first inner compartment and the second inner compartment that permits the exchange of air and moisture but does not permit the exchange of desiccant;
- placing the at least one portable electronic device into the first inner compartment of the sealable container;
- closing the airtight seal of the sealable container;
- waiting an amount of time sufficient to allow the desiccant to absorb essentially all of the moisture contained in the at least one portable electronic device; and
- removing the at least one portable electronic device from the sealable container.
Type: Application
Filed: Dec 7, 2007
Publication Date: Jun 11, 2009
Inventor: Nicholas Andrew Forker (Brooklyn, NY)
Application Number: 11/999,768
International Classification: B65D 81/26 (20060101);