JPH11512954A - Thermal pad with common adhesive and oxygen permeable surface - Google Patents

Abstract

(57) Abstract: A disposable thermal pad comprising: (a) having a first side and a second side, embedded between the first side and the second side; This is a substantially planar laminated structure including a plurality of heating cells. Each of the plurality of heating cells is remote and fixed to the stacked structure, the stacked structure providing a means for providing oxygen permeability to each of the plurality of heating cells. Having said means for providing oxygen permeability is predominantly on said first side of said laminated structure; and said disposable heating pad is removable inside a user's clothing Means for releasably attaching, the releasably attaching means being located on the first layer of the laminated structure, the second side of the thermal pad being directly facing the user's body .

Description

Description: FIELD OF THE INVENTION The present invention relates to a thermal pad having a common adhesive and an oxygen permeable surface, which adheres to the user's clothing on one side and to the user's skin on the other side. The present invention relates to a thermal pad intended to be held directly and directly, and more particularly to a thermal pad which requires oxygen permeability to generate heat within the pad. Still more particularly, the present invention relates to heating pads intended to relieve menstrual pain. BACKGROUND OF THE INVENTION Heating pads and ice coolants are common tools used to relieve pain. However, these analgesic devices are typically inconvenient for normal and extended use for the following reasons: heat energy may not be immediately available when needed; It may not be released in an adjustable or sustained manner; and / or it may not be possible to keep a portion of the thermal energy in place while the body moves. Prior art heating pads are typically reusable and are intended to be installed on clothing, not directly on the user's body. Such pads are heated by placing a disposable heating parcel into an electrically heated or reusable bag pocket. Heating parcels typically contain oxidizing chemicals in a single compartment or bag. The heat source is generally large in size and separated from direct contact with the body to avoid skin burns or discomfort due to poor temperature regulation. As a result of the separation from direct contact with the body, the efficiency of the heat is dependent on the thickness of the user's clothing and the heat transfer properties. Electrical heating pads may have the ability to regulate temperature to supplement the user's clothing, but electrical heating pads do not provide the required mobility for sustained prolonged wear . Several heating parcels for reusable bags are commercially available that are designed to use an iron oxidation process to generate portable heat. Generally, the rate of the chemical reaction, and hence the exotherm, is regulated by the amount of oxygen allowed to reach the chemical. This is typically accomplished by imparting a specific oxygen permeability to at least one surface of the parcel, while all other surfaces are impermeable. Most of the permeable surface may be oxygen permeable to provide uniform oxygen delivery to the entire contents of the parcel. For example, Atlanta, Innovativ of GA e Dependable Products, Inc. Medi -Heat TM Heat Pad sold by the fixing adhesive to the garment on one side, and with an oxygen permeable membrane to the opposite side of the work Have been. The product can be worn on the outside of the garment or on the inside of the garment. When worn on the outside of the garment, the oxygen permeable membrane is facing away from the body, and the fixing adhesive is facing the side of the garment. However, because the product is not held directly against the body, it is isolated from the body by any clothing worn by the user, and the temperature on the body surface is therefore not comfortable. When worn inside the garment, the fixing adhesive is outward facing and the oxygen permeable membrane is facing the body. When the product is held directly against the human body, the body impedes the permeation of air into the product, thereby uncontrollably changing the heat generated by the oxidation process. SUMMARY OF THE INVENTION In one aspect of the invention, a disposable thermal pad comprises a substantially planar laminate having a first side and a second side, and a plurality of embedded pads between the first side and the second side. Of heating cells. Each of the plurality of heating cells is separated and fixed to the laminated structure. The stacked structure has a means for providing oxygen permeability to each of the plurality of heating cells. The means for providing oxygen permeability resides mostly on the first side of the laminate structure. The disposable heating pad also comprises a means for removably bonding the heating pad to the inner portion of the user's clothing. A removable adhesive means is located on the first side of the laminate so that the second side of the thermal pad is placed directly against the user's body. The plurality of heating cells desirably have pyrogenic chemicals that are activated with oxygen, including powdered iron, powdered activated carbon, vermiculite, a mixture of water and salt. The means for providing oxygen permeability may consist of a non-permeable layer of a laminated structure having a type of opening through which air contact is provided with the heating chemistry. Such an opening mold is located on each of the plurality of heating cells. The type of opening is sized to control the permeability of oxygen and thereby control the temperature generated in the heating cell. The means for removably bonding the heating pad may comprise a pressure sensitive adhesive. The laminate structure has an upper end and a lower end, and the pressure-sensitive adhesive may be laid between the heating cells as parallel stripes extending continuously from the upper end to the lower end. Alternatively, the pressure sensitive adhesive may be a thin, partially covering the first surface such that the means for providing oxygen permeability on the first surface maintains an acceptable level of oxygen permeability. Applies to intermittent stripes. The disposable thermal pad may further comprise an air impermeable sheath surrounding the disposable thermal pad. The heating pad is preferably confined in an air-impermeable sheath until the user is ready to apply the heating pad to the garment. Opening the air impermeable sheath allows oxygen from the surrounding air to activate multiple heating cells to produce a controlled and sustained heat generation. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a plan view of a heating pad with a common adhesive and oxygen permeable surface of the present invention, showing the type of heating cell and the stripes of fixing adhesive between the cells; FIG. 2 is a cross-sectional view taken along section line 2-2 of FIG. 1, showing the laminated structure of the heating pad and release paper protecting the adhesive stripes from premature bonding; FIG. 4 is an enlarged view of a portion of FIG. 2 taken from the dotted circle in FIG. 2 to show the laminated structure in more detail; FIG. 4 is a plan view of the female panties as viewed from the waist portion; FIG. 5 shows a heating pad placed on the front of the panties so that the heating pad transfers heat to the user's abdomen when worn; FIG. 5 is a plan view of another heating pad of the present invention, and a heating cell; Non-striped adhesive types, including partial random areas of the oxygen permeable surface of 6 is a side view showing the adhesive mold of FIG. 5 and release paper protecting the adhesive from premature bonding; and FIG. 7 is a cross-sectional view of the thermal pad of FIG. Figure 3 shows a heating pad folded inside. DETAILED DESCRIPTION OF THE INVENTION Referring now to the drawings, and more particularly to FIGS. 1, 2, and 3, there is shown a first preferred embodiment of the present invention that provides a thermal pad having a substantially planar laminate structure. I have. The laminate structure has a common adhesive and oxygen permeable surface, and is generally designated as 10. The heating pad 10 has a first surface 12 located away from the body during wear and a second surface 14 located against the body. The heating pad 10 includes a plurality of heating cells 16. The heating cell 16 includes a chemical 18 embedded in the thermal pad 10 by a cell forming layer 20 and a cell covering layer 22. The cell forming layer 20, the heating chemistry 18, and the cell coating layer 22 define the heating cell 16. The cell forming layer 20 is essentially impermeable to air. Chemical 18 is activated by oxygen obtained from the surrounding air. The cell coating layer 22 has oxygen permeable means 24 for supplying oxygen into the heating cells 16. The plurality of heating cells 16 are spaced apart from each other, and each cell functions independently of the rest. Because the chemicals are tightly packed in each cell, keeping the heating cells apart allows the heating pad to conform to the body contour more easily than a single large cell. The chemicals may be compressed as tablets in each cell. The cells therefore do not bend easily, but the material between the cells can bend, thus providing body adaptability. Desirably, each heating cell 16 has a similar amount of chemicals and similar oxygen permeable means 24. Alternatively, the amount, shape, and oxygen permeability of the chemicals can vary from cell to cell as long as the resulting cell temperatures are similar. The relationship between oxygen permeability and temperature is described below. On either side of the heating cell 16 is a layer of additional material. On the first surface 12, a first external tissue 26 is adhered to the cell covering layer 22 by a first adhesive layer 28. The first outer tissue 26 and the first adhesive layer 28 are desirably more permeable to air than the cell covering layer 22. Further, the first outer tissue 26 and the first adhesive layer 28 desirably do not significantly alter the oxygen permeability of the cell coating layer 22. Therefore, only the cell coating layer 22 controls the flow rate of oxygen to each heating cell 16. On the second surface 14 of the heating pad 10 is a second external tissue 30 that adheres to the cell forming layer 20 by a second adhesive layer 32. Desirably, first external tissue 26 and second external tissue 30 are made of similar materials, and first adhesive layer 28 and second adhesive layer 32 are made of the same material. . The first surface 12 of the heating pad 10 has bonding means 34 for removably bonding the heating pad 10 to clothing. The bonding means 34 may be an adhesive. If an adhesive, then the bonding means 34 may have a release paper 36 attached to the adhesive to protect the adhesive 34 from premature bonding to something other than the intended user's clothing. . The bonding means 34 desirably has a stronger bond to the external tissue 26 than to either the release paper 36 or any target surface. Alternatively, the bonding means 34 may be an adhesive coated film that is bonded to the first external tissue 26. If the adhesive coated film has isolation to prevent the target surface and the film from adhering until pressed against each other to release the adhesive, then release paper 36 is excluded. Good. The bonding means 34 may also consist of a mechanical fastener bonded to the first external tissue 26, which provides sufficient contact with a variety of different garments for a fixed installation to take place. If mechanical fasteners are used, release paper 36 may also be omitted. The thermal pad 10 has an upper end 38 and a lower end 40 opposite the pad from the upper end 38. These edges are designed for the orientation of the pad when it is used as a menstrual cramp thermal pad and is placed against the abdomen in the female panties. FIG. 4 shows panties having a crotch 46 and a front panel 48. The adhesive stripes 34 are used to adhere the thermal pad 10 to the front panel 48 after the release paper 36 has been removed. The heating pad 10 is preferably placed in the direction of the upper end 38 located near the waistband of the panty 44. In this case, the heating pad 10 functions as a heating pad for relieving menstrual pain. Other uses of the heating pad 10 will be envisioned. For example, the heating pad 10 can be used as a headache-mitigating heating pad when placed in the altar and placed on the user's forehead. The cell forming layer 20 may be comprised of any suitable material, including but not limited to: polyethylene, polypropylene, polyester films, styrene block copolymers, nonwovens coated with films, laminates, and embossed products. Preferably, the cell forming layer 20 comprises a 0.001 inch (0.025 mm) low density polyethylene film having a thickness on a weight basis. A particularly suitable material is P18-1401 white PE microflex embossed film available from Clopay Plastic Products of Cincinnati, OH. The cell cover 100 is made from any of a number of suitable materials including, but not limited to, polyethylene, polypropylene, polyester films, styrene block copolymers, nonwovens coated with films, thin films, permeable membranes, and molds. Press products. A particularly suitable material is P18-1401 white PE microflex embossed film available from Clopay Plastic Products of Cincinnati, OH. The oxygen permeable means 24 in the cell cover layer 22 are preferably a plurality of openings in the cell cover layer 22, which are made by piercing the cell cover layer 22 with a heated needle. The size of the openings is preferably from about 0.1 mm to about 0.08 mm in diameter, and preferably there are 20 to 60 openings per heating cell. Another desirable way to create the opening is to pierce the cell cover layer 22 with a cold needle. Alternatively, the openings 24 may be made by vacuum generation or high pressure water jet generation techniques. Yet another method is to make the cell cover layer 22 from a microporous or semi-permeable membrane. Such a membrane may be combined with a highly porous carrier material to facilitate the process. Oxygen permeability requires a range from about 0.01 cc of oxygen per 5 square centimeters per minute at 21 ° C. and 1 atmosphere to about 15 cc of oxygen per minute per 5 square centimeters. In order to removably bond the heating pad 10 to the garment, the bonding means 34 may be of any suitable type of adhesive and application. A preferred adhesive is Dispomelt ^™ 34-5598, a pressure sensitive hot melt adhesive available from the National Starch and Chemical Company of Bridgewater, NJ. This adhesive may be applied to the first outer tissue 26 by slot dye coating or print printing. In either case, the adhesive is first adhered to the first external tissue 26 when the thermal pad 10 is removed from the user's clothing after use, so that the adhesive preferentially adheres to the first external tissue 26. It is desirable to enter one external organization 26. The adhesive mold produced by this method is straight parallel stripes extending from the upper end 38 to the lower end 40 of the heating pad 10 and located between the heating cells 16 as shown in FIG. Good. The relatively thick adhesive stripes are impermeable to oxygen. By locating the adhesive stripes between the heating cells 16, the oxygen permeating means 24 remains undistorted in its ability to pass oxygen through the heating cells 16. Release paper 36 is preferably a siliconized paper such as AK 89147 FT release paper from Akrosil of Menasha, WI. 5 and 6 show another embodiment of a thermal pad having a common adhesive and oxygen permeable surface, and is generally designated 50. FIGS. 5 and 6 illustrate another method of delivering a bonding means by spirally melting, blowing or conditioning and coating a pressure sensitive heat-soluble adhesive in fine fibers. Such methods deliver the adhesive in a repeating fashion or in a random, discontinuous manner. The heating pad 50 has a first surface 52 located away from the body during wear and a second surface 54 located relative to the body. The heating pad 50 includes a plurality of heating cells 56. The heating cell 56 includes a chemical, not shown, embedded in the thermal pad 50 by a cell forming layer and a cell covering layer. The heating cell 56 has oxygen permeable means 64 for supplying oxygen to the heating cell 56. The plurality of heating cells 56 are spaced apart from each other, and each cell functions independently of the rest. A means 74 for bonding to clothing is shown on the first surface 52. The garment bonding means 74 is preferably a fine pressure-sensitive adhesive line or fibril bonded to the external tissue. The first side 52 of the heating pad 50 has a release sheet 76 associated with the bonding line to protect the bonding line 74 from premature bonding to something other than the intended user's clothing. The bonding means 74 desirably has a stronger bond to external tissue than to either the release paper 76 or any intended surface. This is accomplished by dissolving the adhesive into the fibers so that mechanical entanglement occurs. Deposition of the adhesive fibrils or wires to the outer tissue minimizes obstruction of the flow of oxygen to the heating cells 56 such that an acceptable level of oxygen permeability is maintained. In a particularly preferred embodiment of the present invention, the first outer tissue 26 is desirably a soft and flexible material. Suitable materials for the first outer tissue 26 include, but are not limited to: molded films; fibers, including wovens, knits, and nonwovens; and they are spun, spun and air. Bonded, thermally bonded, wet, melt-blown, and / or bound with air. The material composition of the first outer tissue 26 may be cotton, polyester, polyethylene, polypropylene, nylon, or the like. A particularly suitable material for the first external tissue 26 is 32 gsm (grams per square meter), a hydrophobic, polypropylene non-woven fabric, which is available from Fibertech of Landisville, NJ, of a spun thermally bonded type. Fiber. Desirably, second external tissue 30 is a soft, pliable, non-irritating substance on the skin. Suitable materials for the second external tissue 30 include, but are not limited to: molded films; fibers, including wovens, knits, and nonwovens; and they are spun, spun and air. Bonded, thermally bonded, wet, melt-blown, and / or bound with air. The material of the second external tissue 30 is cotton, polyester, polyethylene, polypropylene, nylon or the like. A particularly suitable material for the second outer tissue 30 is 63 gsm hydrophobic polypropylene, which is a spun thermally bonded nonwoven available from Veratec of Walpole, MA. The adhesive layers 28 and 32 are applied in such a manner as not to impair the oxygen permeability to the heating cell 16. Suitable materials and applications that have been successfully used are: 2031 pressure sensitive, hot melt adhesive available from Findley Adhesives, Milwaukee, WI, and it is available from Nordson, Waycross, GA Applied by spiral bonding application method. The thermal pad 10 generates heat through the use of a mixture of chemicals that undergoes an oxidation process during use. Chemical 18 is preferably a mixture of powdered iron, powdered activated carbon, vermiculite, water, and salt. This type of mixture reacts when exposed to oxygen to provide heat for several hours. The heating cells 16 and their manufacture were first described in a co-pending application filed on 6/29/95 in the United States and entitled "HEAT CELL S" with an application number 08 / 496,639. And it was abandoned and filed on 2/21/96 with the same title and converted to a continuation application with an application number of 08 / 604,694. Both applications are required to be identified as the assignee of this application. The latter application is incorporated herein by reference. Prior to use, the thermal pad 10 is packaged in an oxygen impermeable container 70. The heating pad 10 is preferably folded in half with the second side 14 inside and the outer side 12 inside the container, as shown in FIG. The heating pad 10 is ejected from the oxygen impermeable container and oxygen is reacted with the chemical 18. This chemical oxidation system is compact and portable. Once the chemical reaction is complete, the thermal pad is no longer capable of generating heat and is optionally discarded into a solid waste system. Thus, the heating pad 10 is a disposable material. The thermal pad 10 is a prior art product that solves the previously experienced temperature regulation problems. Prior art products are intended for use outside the inner layer of clothing. When there is a layer of clothing between the heating pad and the user's body, adjustment of the temperature delivered to the body is not possible because different clothings provide different thermal conductivities. By placing the adhesive means on the same side as the oxygen permeable layer, the thermal pad of the present invention may be worn in the user's clothing and may be in direct contact with the user's body. Such direct contact by the heating cell in the heating pad provides a known thermal resistance between the heating chemical and the body surface. In this way, chemicals are designed to oxidize at a specific rate to produce a specific temperature. Temperature is particularly important because it has been determined that the temperature at which the body touches must be at least about 39 degrees Celsius for the average person to feel the heat of the heat. Prolonged contact to temperatures above 45 degrees Celsius can potentially harm the user. It is therefore important to maintain tight temperature regulation. The oxygen permeability required to maintain the temperature between 39 ° C and 45 ° C is very low. Ordinary garments are fairly open and virtually nothing resists the flow of oxygen. When the thermal pad of the present invention is worn inside a user's garment with an oxygen permeable layer and an outward facing bond, the permeability is not affected by the presence of the overlying garment layers. The heating cells of the present invention are firmly adhered into the thermal pad and are separated from each other. Each cell has a permeable surface to flow oxygen to the chemical so that uniform and complete oxidation of the chemical occurs independently in each cell. In a preferred embodiment, a heating cell having a diameter of 25.4 mm in size, 6.4 mm in thickness and containing 2.8 grams of chemicals has an oxygen permeation of 1 cc per 5 square centimeters per minute and a heating pad. Exposure to 1 atmosphere of air at 21 ° C. produces a temperature of about 41 ° C. on the body surface for about 8 hours. This permeability is achieved by opening 26 openings with a diameter of 0.5 mm in the layer covering each cell.

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Claims (1)

[Claims] 1. Disposable thermal pad characterized by:     (A) a substantially planar laminate structure having a first surface and a second surface; A plurality of heating cells embedded between the surface and the second surface, wherein the plurality of heating cells Each of which is separated and fixed to the laminate structure, The laminated structure of the present invention is to provide oxygen permeability to each of the plurality of heating cells. Means for providing oxygen permeability, wherein said means for providing oxygen permeability is mostly said lamination Being on said first side of the structure; and     (B) The heating pad can be removed from the inner part of the user's clothes. Means for bonding, said means for releasable bonding being said heat The lamination structure described above such that the second side of the pad rests directly on the user's body. Located on the first side of the structure. 2. The plurality of heating cells have an exothermic chemical activated by oxygen. 1 disposable thermal pad. 3. Wherein said means for providing oxygen permeability is through said exothermic chemistry A non-permeable layer of said laminate structure with an opening type providing air communication with the substance Wherein the mold of the opening is located above the plurality of heating cells, Parts are sized such that the oxygen permeability is controlled and 3. The disposable heating pad according to claim 2, wherein the heat generated in the heating cell is adjusted. 4. The exothermic chemical forms a mixture of powdered iron, powdered activated carbon, vermiculite, water and salt. A disposable thermal pad according to claim 2 or 3 comprising: 5. The means for removably bonding to the thermal pad is pressure sensitive A disposable according to any one of claims 1, 2, 3 or 4, comprising a self-adhesive. Heating pad. 6. The laminate has an upper end and a lower end, where the pressure sensitive adhesive is In parallel stripes extending continuously from the top to the bottom between the heating cells. 6. A disposable thermal pad according to claim 5, wherein the thermal pad is provided. 7. The pressure-sensitive adhesive for providing oxygen permeability on the first surface; The first side so that the means of maintaining an acceptable level of oxygen permeability. 6. The disposable thermal pad according to claim 5, wherein the thermal pad is applied in a finely striped manner. 8. Further comprising an air impermeable sheath surrounding the disposable thermal pad, Until the heating pad is ready for the user to apply the heating pad to the garment Enclosed in an air-impermeable sheath, and open the air-impermeable sheath. The oxygen from the surrounding air to regulate and produce a persistent fever 6. The method according to claim 1, wherein said plurality of heating cells are activated. A disposable heating pad according to any one of the preceding claims, 6, or 7. 9. Disposable thermal pad characterized by:     (A) having a first surface and a second surface, between the first surface and the second surface; Multiple heating cells with embedded oxygen activated pyrogens Each of the plurality of heating cells is remote and secured to the laminate structure. The plurality of heating cells are used for heating the exothermic chemical and the total heat generation to the user. While being provided, is defined by the aforementioned substantially planar laminate structure to be minimized. Occupies less than about 42% of the defined area, and the laminate structure Each of the heating cells has a means for providing oxygen permeability, The means for providing transients are mostly on the first surface of the laminate structure. Exists; and     (B) The heating pad can be removed from the inner part of the user's clothes. Means for bonding, said means for releasable bonding being said heat The lamination structure described above such that the second side of the pad rests directly on the user's body. Located on the first side of the structure. 10. The exothermic chemical is a mixture of powdered iron, powdered activated carbon, water and salt. A disposable thermal pad according to claim 9, characterized in that: