The present invention relates to a multilayered fabric designed to regulate and control the transfer of heat and moisture on the external surface of an individual when used in conjunction with hot and cold therapy packs, to such hot and cold packs, and to a method for treating an individual with hot or cold therapy.
Hot and cold packs have been used to treat a variety of conditions such as, inter alia, muscle and tendon injuries, chronic pain, and joint inflammation. The pack itself is usually held in place on a body surface by means of a wrap of fabric. Although known hot and cold packs are very similar and usually comprise gel packs contained in a bag of nylon, polyester, vinyl, or other woven on non-woven polymeric material, the prior art fabrics used between the pack and body fail to enhance the effectiveness of the pack and/or do not provide adequate protection for the user. For example, excessive cold can cause frostbite without the proper insulation. Inadequate moisture control of a hot pack can result in inadequate heat transfer from the pack to the body surface.
It is according an aspect of the invention to provide a fabric composition which affords increased control of heat transfer from a hot or cold pack incorporating such fabric.
It is another aspect of the invention to provide hot and cold packs incorporating such fabric compositions.
It is yet another aspect of the invention to provide a method for treating an individual using the above hot and cold packs.
These aspects and others set forth below, are achieved by a sleeve which comprises a thermal pack encased within a moisture absorbing fabric. A temperature control fabric is positioned adjacent the thermal pack along one side thereof.
The choice and configuration of the fabric can have a significant impact on the effectiveness of the pack in use. Important parameters of the fabric include insulation qualities and heat distribution, moisture control and comfort.
With these parameters in mind, the inventors have found that a combination of at least two layers of fabric, each having a different function, can simultaneously provide moisture control and heat distribution over a wide temperature range. This result was unexpected, since it was heretofore believed. that moisture control and heat distribution were mutually exclusive in a single wrap.
In a preferred embodiment, suitable yarn for temperature control has thermal properties which vary as a function of temperature. Standardized measurement of thermal properties of yarn under static and dynamic temperature conditions is provided in accordance with Test Method for Steady State and Dynamic Thermal Performance in Textile Materials (ASTM D7024). In a highly preferred embodiment, the temperature control yarn incorporates one or more phase change materials which act as temperature buffers. Such materials undergo a phase change as the surrounding temperature varies, absorbing heat during a temperature rise, and releasing heat when temperature falls. The melting point of the phase change materials, that is, the temperature at which the phase change occurs, can be varied depending on the particular application. A source for suitable fabrics incorporating phase change materials is Outlast Technologies of Boulder, Colo.
In addition to the selection of particular phase change materials, the construction of the temperature control yarn can be varied by the use of specific denier and loop size in the terry.
Moisture control can be accomplished by the use of a wicking yarn effectively moving the moisture to enhance effectiveness and safety. Various moisture wicking yarns are available, one of which is Sorbtek manufactured by Unifi.
The sleeve 1 is designed to be placed directly over the affected area, for example, a knee. The sleeve is oriented with the temperature control fabric positioned between the affected area and the thermal pack 2. The optional insulation fabric reduces heat loss from the thermal pack from the side opposite to that applied to the affected area.
The wrap can be constructed using a flat knit machine or weaving. The two layers of the moisture absorbing fabric and temperature control fabric can be woven using a Jacquard machine or the fabrics can be woven separately and then sewn together.
A thermocromatic ink can be printed on the fabric to indicate to the user the temperature of the pack when it is heated such as in a microwave or cooled such as a freezer. This would indicate that the pack has reached the proper temperature, that it is too hot or that it is sufficiently cold.
This application claims priority under 35 U.S.C. § 119 to U.S. provisional application No. 60/701,503 filed Jul. 22, 2005, the entire content of which is incorporated herein by reference.
Number | Date | Country | |
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60701513 | Jul 2005 | US |