Patent Application
20170071784
The present invention pertains generally to the treatment of pain with “hot packs” and/or “cold packs,” also commonly referred to as thermal gel packs, therapeutic gel packs, or simply gel packs. A typical gel pack can be used as either a hot or cold pack. More particularly, the most preferred embodiment of the invention is a small, bedside unit that can quickly and efficiently either heat or cool a therapeutic thermal gel pack for the user; the user does not have to get out of bed or other resting place.
Many types of therapeutic gel packs are available to millions of users who either have chronic or temporary pain. The user typically either has to get out of bed (or other resting place) or has to rely on another person to provide either a hot or cold pack. The number of persons with chronic pain in the United States is more than 100,000,000 and continues to increase. More and more persons with chronic pain live alone and remain in bed or at rest for extended periods each day. Athletes with temporary pain can benefit from the present invention since the gel pack is heated or cooled very quickly.
There is a huge and rising demand for a system that includes a small bedside unit that provides either a hot or cold pack for a user whereby the user can repeatedly obtain either a hot or cold pack quickly without getting out of bed or other resting place. The present invention provides such a system.
The present invention is a small unit which provides heating and/or cooling by conduction, and has an internal chamber of less than 0.5 cubic foot. At least one wall of the chamber has a high thermal conductivity, such as aluminum, copper or stainless steel. The therapeutic gel pack is brought into direct physical contact with the thermally conductive wall and is either heated or cooled to a desired temperature rapidly by conduction. The thermal conductivity of aluminum is roughly 8,000 times greater than the thermal conductivity of air; copper is about 16,000 times more conductive than air. Stainless steel has a thermal conductivity about 600 times greater than air. The present invention either heats or cools the therapeutic gel pad by conduction. It is inherently capable of heating or cooling the pads much more quickly than standard air chambers used in common refrigerators and heaters.
The present invention is preferably thermostatically controlled and is capable of heating or cooling the thermal pad to any desired temperature.
The present invention is capable of remote actuation by a cell phone or other similar remote means.
A primary object of the invention is to provide a thermal care system wherein a relatively small bedside or chair-side unit either heats or cools a therapeutic gel pack to a desired temperature by conduction.
A further object of the invention is to provide a system wherein a user can obtain a heated or cooled gel pack quickly without getting out of bed, or other resting place, and without any help from another person.
Further objects and advantages of the invention will become apparent from the following description and drawings.
The present invention is designed to bring hot and cold gel pack therapy convenience to the user. Instead of having to walk back and forth to the kitchen, the user can place the device near his/her bed, couch or chair and have easy access to therapy gel packs. The energy efficient system will either heat or cool a gel pack to optimum temperature in approximately 20 minutes or less allowing the user to remain as comfortable as possible thereby minimizing the possibility of any re-injury. The system in one embodiment of the invention can be outfitted with one or more trays allowing the user to apply cold and heated gel packs at the same time to different parts of the body or to alternate between hot and cold. The system with multiple trays could also be used in a physical therapy office making reusable gel packs accessible because of the quicker heating or cooling time required.
The invention can be used by amateur and professional athletes, since the system heats and/or cools the gel packs so quickly.
As shown in
Also shown in
An insulation layer 106 is mounted adjacent conductive plate 105.
A sealing actuator 111 is removably connected to tray 107 and moves tray 107 vertically as shown in
A horizontal actuator 110 is connected to tray 107 and moves tray 107 from a first, open or extended position shown in
To operate the device, the user presses the Open/Close tray pushbutton 114 (
After the tray door is closed, the sealing actuator 111 pushes up the tray 107 against the thermally conductive surface of plate 105. Now the gel pack 108 is in direct physical contact with the plate 105 so heat transfer is by conduction which is substantially more efficient than convection. Depending on which mode the user selects with Warm/Cold pushbutton 115, it starts to warm or cool. For cooling, the compressor 101 starts and controller 109 monitors the gel pack 108 temperature. As the temperature of the gel pack transitions through its phase change, as shown in
Today a gel pack sold at CVS recommends leaving the gel pack in the freezer for a minimum of 1 hour before use. The present system is designed to press the room temperature gel pack 108 against its refrigerated cold plate 105 so the heat transfer is by conduction which is significantly more efficient than any standard refrigerator/freezer that uses natural or forced air convection as is means for heat transfer. Therefore the present refrigeration system is dedicated to cool a gel pack 108 by the most efficient means possible.
The present system is designed to cool gel packs of different chemical compositions to optimum temperature automatically. The microprocessor 109 will monitor the gel pack 108 temperature. In particular it will recognize when the gel pack goes through its phase change (
The system may also be used to warm a gel pack. The user pushes the Warm/Cold pushbutton 115 until the light turns from Blue (cold) to Red (warm). The user places the gel pack 108 on the tray 107 and pushes button 114. The gel pack tray will be pushed up against the now warming plate and be heated to the maximum allowable temperature so as not to burn the skin. The same microprocessor temperature control will illuminate the “Relief is Ready” light (13) when the gel pack is warm enough.
The system also has a shutdown monitor. If the unit has not be accessed for more than 4 hours (this is adjustable), it will shut down.
The system will have internet access with the user's smartphone through an application allowing the user to begin heating or cooling of a gel pack remotely. For instance, the user may remotely start the system before driving home after a game of tennis. When the user arrives at home, the gel pack will be ready for use.
The foregoing description of the invention has been presented for purposes of illustration and description and is not intended to be exhaustive or to limit the invention to the precise form disclosed. Modifications and variations are possible in light of the above teaching. The embodiments were chosen and described to best explain the principles of the invention and its practical application to thereby enable others skilled in the art to best use the invention in various embodiments suited to the particular use contemplated.
