JP2002345875A - Exothermic body - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable the collective packaging of exothermic bodies and realize decrease in the amount of refuse without individually packaging the exothermic bodies. SOLUTION: A bag body 10 is constituted of an air-impermeable sheet 12 composed of sheets made of plastics such as a polyethylene and a polypropylene and an air-permeable sheet 11 composed of a nonwoven fabric, a porous film or a laminated product of these, and an exothermic composition 14 is sealed into the bag body 10. An air-shielding sheet 13 composed of sheets made of plastics such as a polyethylene and a polypropylene is peelably laminated on the air-permeable sheet 11 through, for example, a heat sealing or with an adhesive having slight adhesivity, and thus the exothermic body 1 can be obtained. The plurality of exothermic bodies 11 can collectively packaged without individually packaging them, as shown in Fig. 2.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

[0001] The present invention relates to a heating element.
Specifically, the present invention relates to a heating element such as a disposable body warmer, which uses oxygen in the air when in use and generates heat.

[0002]

2. Description of the Related Art Conventionally, as a heating element represented by a disposable body warmer, a heating element in which a heat-generating composition made of iron, activated carbon, water, or the like is sealed in at least a part of a breathable bag body has been used. I have. Further, in order to enhance convenience, a heating element is also provided in which a pressure-sensitive adhesive layer is laminated on a bag so that the heating element can be attached to clothing or directly to the skin.

[0003] These heating elements generate heat by causing an exothermic reaction of the exothermic composition due to the presence of air (oxygen) taken into the bag through the bag. In order to prevent heat generation at the distribution stage, the heating elements are usually individually wrapped individually with a non-breathable packaging material such as an olefin-based resin film. Furthermore, those individually wrapped are often packaged in units of ten or a dozen and placed in the distribution stage.

[0004]

However, when packaged in such a manner, two packaging materials, a packaging material for collective packaging and a packaging material for individual packaging, are required, and a large amount of dust is generated. It was a waste of resources.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems of the prior art, and has as its object to make it possible to collectively package heating elements without individually packaging them and to reduce the amount of dust.

[0006]

The heating element of the present invention is a heating element in which a heat-generating composition which reacts with air during use to generate heat is enclosed in a bag having a ventilation surface. In addition, a ventilation blocking sheet is releasably attached.

At this time, as the bag body, for example, a bag in which a gas permeable sheet and a non-gas permeable sheet are overlapped and their peripheral edges are bonded can be used.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the drawings. FIG. 1 is a sectional view of a heating element 1 according to one embodiment of the present invention. The heating element 1 includes the above-described exothermic composition 14 and a bag 10 that encloses the exothermic composition 14. The bag body 10 shown in FIG. 1 is made by bonding two sheet-like materials, a breathable sheet 11 and a non-breathable sheet 12, around the periphery thereof. On one side, that is, the breathable sheet
The entire surface on one side is a ventilation surface. In the heating element 1, the ventilation blocking sheet 1 is provided on the outer surface of the breathable sheet 11.
3 is releasably attached, and the ventilation surface is covered with a ventilation blocking sheet 13.

The breathable sheet 11 forming the bag 10 is
Any material that has both air permeability and a certain degree of heat resistance may be used. For example, a nonwoven fabric or a porous film is used. Preferably, a nonwoven fabric and a porous film bonded together by an air-permeable pressure-sensitive adhesive layer (not shown) are generally used.

As the non-woven fabric and the porous film, conventionally known ones can be used. More specifically, as the porous film, polyethylene, especially, a polyolefin resin such as linear low-density polyethylene or polypropylene, and an inorganic filler such as calcium carbonate (usually having an average particle diameter of 30 μm or less are preferable. Is used, and a film formed by a conventional method such as an extrusion method or the like and then subjected to a uniaxial or biaxial stretching treatment to make the film porous is used.

[0011] The porous film has a moisture permeability of 100 to
7000g / (m ² · day) may range of, preferably ^{200~1000g / (m 2 · day)} , among others in the patch for underwear to such ^{200~500g / (m 2 · day)} , Ya shoes 400 ~ if you need high air permeability like socks
It is preferably about 1500 g / (m ² · day). The moisture permeability is obtained according to JIS K7129 method.

Examples of the nonwoven fabric include nonwoven fabrics made of, for example, polyamide fibers or polyester fibers. The nonwoven fabric usually has a basis weight (basis weight) of 10 to 100 g / m.
^Two are suitably used. In addition, a permeable substrate such as felt may be used instead of the nonwoven fabric.

For forming the air-permeable adhesive layer, for example, a hot-melt type adhesive substance is bonded by an appropriate method such as a melt blow method, a curtain spray method, or a gravure method in which the adhesive substance is sprayed and spread through hot air while being heated and melted. For example, a method is used in which an active substance is made into fibers or partially applied, and the resultant is spread and deposited on a nonwoven fabric or a porous film. Among them, in the curtain spray method, the hot melt type adhesive (adhesive) enclosed in the container is heated and melted,
By blowing hot air from above the dies, the melted adhesive material becomes fibrous from the spray head and is blown out onto the nonwoven fabric, which moves continuously, laminates the porous film in the same process, and continuously ventilates. The conductive sheet 11 can be obtained. In addition, in order to improve the adhesiveness,
Electric discharge machining such as corona treatment, anchor treatment, or the like is appropriately employed for the non-permeable sheet 12 as necessary.

As the non-breathable sheet 12, a film made of a plastic material such as polyethylene, polypropylene, or polyester, which is used for a general bag 10 having appropriate heat resistance, can be appropriately selected and used. . The non-breathable sheet 12 is formed in a bag shape by bonding the above-described permeable sheet 11 and its periphery with an adhesive or by heat-sealing the periphery. Therefore, in the case of heat sealing, a sheet having a multilayer structure composed of a heat sealing layer and a support layer is used.

In this case, for example, the heat seal layer
Ethylene-vinyl acetate copolymer, ethylene- (meth) acrylic acid copolymer, ethylene- (meth) acrylic acid alkyl ester copolymer, ethylene-α-olefin copolymer, linear low-density polyethylene, low-density polyethylene Etc. can be used. The support layer is made of a mixture of various polyolefin resins such as polyethylene and polypropylene, and various plastic materials such as polyethylene terephthalate. In addition, a sheet in which paper, an aluminum thin film, or the like is attached to these plastic sheets can be used.

According to the present invention, the air permeable sheet 11 and the non-air permeable sheet 12 are made of softer material than hard material because it is necessary to allow the air to enter the bag body 10 by shaking the bag 10 at the time of use. Are more preferably used.

A ventilation blocking sheet 13 is releasably attached to these bags 10 on the entire exposed side of the breathable sheet 11. The ventilation blocking sheet 13 only needs to be able to block the ventilation of the ventilation surface during storage and transportation to prevent the invasion of air, and does not necessarily require the ventilation blocking property completely. As the ventilation blocking sheet 13, for example, in addition to a plastic film similar to the non-breathable sheet 12, a sheet-like material obtained by laminating paper or an aluminum thin film with these plastic films is used. Further, unlike the non-breathable sheet 12, since it is peeled off at the time of use, it does not need heat resistance, and may be not soft but hard.
Since it is sufficient that the exothermic reaction of the exothermic composition 14 can be prevented, the air is not completely shut off, but an oxygen barrier sheet having low oxygen permeability, which is one of the heat sources of the exothermic composition 14, is also used. be able to.

The ventilation blocking sheet 13 is releasably attached to the breathable sheet 11. As this method, for example, a slightly adhesive pressure-sensitive adhesive is
Is applied to the entire surface, or is applied in a streak-coating or spot-like manner, and is partially applied, and is bonded to the air-permeable sheet 11, or is bonded to the air-permeable sheet 11 by laminating. . When the pressure-sensitive adhesive layer is formed on the entire surface of the breathable sheet 11, it is necessary to ensure the breathability of the breathable sheet 11 after peeling. For this purpose, discharge machining such as corona treatment, anchor treatment, or the like is performed on the ventilation blocking sheet 13 to increase the anchoring force with the ventilation blocking sheet 13 so that the adhesive does not remain on the breathable sheet 11 as much as possible. Good.

As described above, the ventilation blocking sheet 13 is releasably attached to the ventilation surface (breathable sheet 11) of the bag body 10 in which the exothermic composition 14 is sealed, so that the ventilation and ventilation sheet can be stored and transported. Air (oxygen) does not enter the inside of the bag body 10 from the surface, and heat generation during storage and transportation can be prevented. On the other hand, when used, the ventilation blocking sheet 13 is peeled off from the bag body 10 so that the air permeability can be ensured. Therefore, heat can be generated by normal use. Therefore, it is possible to ship the individual heating elements 1 without individually packaging them as in the related art. For example, as shown in FIG. In addition, the so-called inner bag can be omitted. That is, even if one of them is used in the case of being packaged together, each of the heating elements 1 can be stored in the same manner as when individually packaged, and the storage state is not considered, such as sealing after opening. Can be used for

In the heating element 1 of the present invention, it is conceivable to form the bag body 10 in advance with the air permeable sheet 11 and the non-air permeable sheet 12 and then bond the air blocking sheet 13 to the heating element. First, the air permeable sheet 11 and the air permeable sheet 13 are laminated to prepare a composite sheet in advance, and then the composite sheet and the non-air permeable sheet 12 are attached to each other to form the bag 10 provided with the air permeable sheet 13. It is preferable to make it.

Further, the ventilation blocking sheet 13 needs to cover the entire ventilation surface, but does not necessarily need to cover the entire ventilation surface of the bag body 10, and is preferably set to be slightly smaller than the peripheral edge thereof. Is preferred. This facilitates peeling of the ventilation blocking sheet 13.

In the present invention, various other bonding methods are conceivable. FIG. 3 is a sectional view of a heating element 1 according to another embodiment of the present invention. In the heating element 1, the non-breathable side surface of the bag 10, that is, the non-breathable sheet 1
The pressure-sensitive adhesive layer 15 is partially formed on both sides from both end portions thereof, and a separator 16 that covers the entire surface of the non-permeable sheet 12 is bonded to the pressure-sensitive adhesive layer 15. This pressure-sensitive adhesive layer 15 is for attaching to clothing such as underwear or skin after generating heat when used. For the pressure-sensitive adhesive layer 15, among pressure-sensitive adhesives such as an acrylic pressure-sensitive adhesive and a rubber-based pressure-sensitive adhesive, those having heat resistance are used. It can be similar.

The separator 16 is not particularly limited, and may be a plastic film such as polyester, polyethylene, or polypropylene, a metal film such as an aluminum foil, or other various films or sheets. The separator 16 is also preferably soft.

In the heating element 1 as well, the pressure-sensitive adhesive layer 15 can be formed after the bag 10 is formed in advance, but the pressure-sensitive adhesive layer 15 to be attached to underwear or the like is applied to the non-breathable sheet 12. It is preferable that the formed composite sheet and the composite sheet in which the breathable sheet 11 and the ventilation blocking sheet 13 are laminated as described above are bonded together to form the bag body 10.

FIG. 4 is a sectional view of a heating element 1 according to still another embodiment of the present invention. In the heating element 1,
The non-breathable sheet 12 and the ventilation blocking sheet 13 forming the bag 10 are directly heat-sealed. That is, the bag 10 is formed on the air-permeable side of the bag 10 in a state where the non-breathable sheet 12 is exposed at the peripheral edge of the bag 10. In the example shown in FIG. 4, an opening 17 serving as a ventilation surface is provided at the center of the non-permeable sheet 12 cut to a predetermined size, and a bag body in which the ventilation sheet 11 is bonded in advance to the opening 17 is formed. Sheet 18 is used. The non-breathable sheet 12 is bonded to the non-breathable sheet 12 that forms the non-breathable surface of the bag body 10.
Is designed to be exposed. Thereafter, the air-blocking sheet 13 is superimposed on the bag forming sheet 18, the periphery thereof is heat-sealed, and the ventilation surface is changed to the air-blocking sheet 13.
Structure. In this example, the ventilation blocking sheet 13 and the breathable sheet 11 (venting surface) are sheet-heated, and since they are not structured to be directly bonded to each other, the adhesive does not remain on the venting surface, and There is no stickiness of the hand with the adhesive remaining after peeling off the blocking sheet 13. Note that, in the above example, the case where two non-breathable sheets 12 were used was described, but one non-breathable sheet 12 was made larger than the breathable sheet 11 cut into a predetermined size. In addition, the bag body 10 can be formed by folding back the portion protruding from the air permeable sheet 11. Then, in the region obtained by folding back, it is conceivable to heat seal the non-permeable sheet 12 and the ventilation blocking sheet 13 in a peelable state or to bond them with a slightly tacky adhesive.

As shown in FIG. 5, a gas permeable sheet 19 different from the gas permeable sheet 11, for example, a non-woven fabric made of nylon fiber or the like may be used by bonding. In this case, as in the heating element 1 shown in FIG. 5, the air permeable sheet 19 may be provided only at the opening 17 portion, or the opening 17 is provided in a state where the air permeable sheet 11 and the air permeable sheet 19 are overlapped in advance. The bag 10 can also be configured after being bonded to the impermeable sheet 12 thus obtained to form a bag forming sheet.

[0027]

Next, the present invention will be specifically described based on the following examples. Polyolefin-based porous film sheet (average pore size 0.5 μm, moisture permeability 400 g / (m
²・ day)) and polyester-based nonwoven fabric (basis weight 70g /
m ² ), a polyethylene film (thickness 30 μm)
m) were laminated by heat sealing.

As a non-breathable sheet, a polyolefin-based film is used, an adhesive layer (30 μm) is formed on one surface thereof, and the surface of the adhesive layer is formed on a release liner (separator).
Protected. Thereafter, the air-impermeable sheet with the pressure-sensitive adhesive layer and the air-permeable sheet provided with the air-permeation blocking sheet are heat-sealed to form a bag, and the heat-generating composition is enclosed therein to generate a heat-generating body (130 mm × 95 mm). ) Got.

The heating element does not generate heat while the ventilation blocking sheet covers the nonwoven fabric surface. After the ventilation blocking sheet is peeled off, the heating element starts generating heat in a usual manner, and can be used as a warmer. did it.

[0030]

According to the heating element of the present invention, since the ventilation blocking sheet is releasably attached to the ventilation surface of the bag, air can enter through the ventilation surface even when stored as it is. No fever. In addition, if the ventilation blocking sheet is peeled off, air can be caused to enter from the ventilation surface to generate heat. Therefore, it can be stored without being individually packaged. Therefore, a plurality of heating elements can be packaged together and stored stably even when opened. As a result, it is possible to contribute to a reduction in packaging materials.

[Brief description of the drawings]

FIG. 1 is a cross-sectional view of a heating element according to an embodiment of the present invention.

FIG. 2 is a schematic sectional view when the heating elements are packaged together.

FIG. 3 is a cross-sectional view of a heating element according to another embodiment of the present invention.

FIG. 4 is a sectional view of a heating element according to still another embodiment of the present invention.

FIG. 5 is a sectional view of a heating element according to still another embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Bag body 11 Breathable sheet 12 Non-breathable sheet 13 Ventilation-blocking sheet 14 Heat generating composition 15 Adhesive layer 20 Packaging bag

 ──────────────────────────────────────────────────の Continued on the front page F term (reference) 4C099 AA01 CA11 GA03 JA04 LA06 4F100 AK03D AK04A AK04C AK41B AR00A AR00B AR00D BA04 BA07 BA10A DB02 DG15B EC03 GB16 JD02 JD02B JD02D JJ10 JL05 JL14A

Claims (2)

[Claims] 1. A heating element in which a heat-generating composition that generates heat by reacting with air at the time of use is enclosed in a bag having a ventilation surface, wherein a ventilation-blocking sheet is releasably attached to the ventilation surface of the bag. A heating element characterized in that: 2. The heating element according to claim 1, wherein the bag body is formed by laminating a gas-permeable sheet and a non-gas-permeable sheet, and bonding peripheral portions thereof.