JP5271743B2 - Manufacturing method of heating unit and heating container - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method of stably manufacturing a heating unit in which the reaction of exothermic agent in a case during preservation and spilling out of the exothermic agent when heating a heated material are highly suppressed, and to provide a heating container provided with the heating unit. <P>SOLUTION: The method of manufacturing the heating unit 1 includes: a step (1) for attaching a moisture proof sheet 50 to a flange 13 while leaving a peripheral part of a cut part 52 of a seal part 51; a step (2) for folding back a fracture string 70 to an opening part 12 at the cut part; a step (3) for attaching the peripheral part of the cut part 52 to the flange 13; and a step (4) for attaching a steam transmission sheet 60. Further, the heating container includes the heating unit 1. <P>COPYRIGHT: (C)2010,JPO&amp;INPIT

Description

  The present invention relates to a method for manufacturing a heating unit and a heating container.

  A hydration reaction type heating unit that generates steam and heat by a hydration reaction as a heating container capable of storing a heated material such as food (for example, a lunch box) and heating the stored heated material. Heating containers equipped are known.

As a heating unit of the hydration reaction type, a water bag and a heating agent such as quicklime are accommodated in the case, and a moisture-proof sheet is attached to the case opening, and the water bag and the moisture-proof sheet are separated by a string for breaking. A heating unit is disclosed that simultaneously breaks and heats by causing a hydration reaction (for example, Patent Document 1).
However, in the heating unit of Patent Document 1, since the breaking string passes through the moisture-proof sheet, the airtightness inside the case may not be sufficiently maintained. If the airtightness inside the case becomes low and moisture enters the case, the heat generating agent will deteriorate.

  Therefore, it is not necessary to provide a through-hole in the moisture-proof sheet, and as a heating unit having higher internal airtightness than the heating unit, as shown in FIG. 230 and a heat generating agent 240 such as quicklime are accommodated, and a moisture-proof sheet 250 and a water vapor permeable sheet 260 are attached to the opening 212 of the case 210, and the water bag 230 and the moisture-proof sheet 250 are attached to the breaking string 270. Shows a heating unit 201 that simultaneously breaks and heats by causing a hydration reaction (Patent Document 2).

  In the heating unit 201, the moisture-proof sheet 250 has the seal portion 251 attached to the flange 213 of the case 210, but the portion through which the breaking string 270 passes is narrower than the other portions. Accordingly, when the water bag 230 and the moisture-proof sheet 250 are broken by pulling the breaking string 270, the seal portion 251 of the moisture-proof sheet 250 is easily broken, so that a hydration reaction is easily caused to heat the material to be heated. can do.

JP 2002-360439 A JP 2005-304691 A

However, the portion of the heating unit 201 through which the breaking string 270 of the seal portion 251 passes is difficult to press due to the thickness of the breaking string 270 when pasting, and the pasting width is also narrow. There is a risk of poor sticking.
When the adhesion failure of the moisture-proof sheet 250 occurs, moisture enters the inside of the case 210 from that portion, and the heat generating agent 240 reacts with the moisture during storage. Further, when the moisture-proof sheet 250 is broken by the breaking string 270, the moisture-proof sheet 250 rises without being broken well around the portion of the seal portion 251 through which the breaking string 270 passes, and the water vapor permeable sheet 260 is also broken. If the opening is made, the heat generating agent may come out of the opening.
Therefore, by sticking the moisture-proof sheet to the flange stably and without causing poor sticking, the heat-generating agent in the case reacts during storage or when the material to be heated is heated. There is a demand for a heating unit that can suppress the occurrence of the discharge to a higher degree.

  The present invention provides a method for stably producing a heating unit in which the heat generating agent in the case reacts during storage or the heat generating agent is highly suppressed from being heated when the material to be heated is heated, and It aims at providing the heating container provided with the heating unit obtained by this manufacturing method.

The present invention employs the following configuration in order to achieve the above-described problems.
[1] A case having an opening, a moisture-proof sheet that seals the opening, a water-vapor-permeable sheet that is provided on the moisture-proof sheet and transmits water vapor, a water bag accommodated in the case, A heating agent housed in the case and generating heat by a hydration reaction; a breaking string for breaking the water bag and the moisture-proof sheet; and a flange formed in the opening of the case, The moisture-proof sheet is attached to a flange, and a cut portion shorter than the width of the flange is formed in a seal part attached to the flange of the moisture-proof sheet, and one end of the breaking string is A method of manufacturing a heating unit that passes from the inside of the case through a portion of the water bag in which water is not sealed and that is drawn out from the cut portion to the outside of the case through the seal portion A step (1) of attaching the moisture-proof sheet to the flange leaving a peripheral portion of the cut portion of the seal portion, and a step of folding the breaking string toward the opening at the cut portion ( 2), a step (3) of attaching a peripheral portion of the cut portion of the moisture-proof sheet to the flange, and a step (4) of attaching the water vapor permeable sheet. Manufacturing method.
[2] The method for manufacturing a heating unit according to [1], wherein the attaching in the step (3) and the attaching in the step (4) are performed simultaneously.
[3] The concave portion corresponding to the shape of the breaking string is formed in a range where the moisture-proof sheet is attached in the step (1) of the flange, according to [1] or [2]. Manufacturing method of heating unit.
[4] A heating unit obtained by the manufacturing method according to any one of [1] to [3], and a container body that accommodates the heating unit, and one end of the breaking string provided in the heating unit is A heating container that passes through the container body and is drawn out of the container body.

According to the manufacturing method of the present invention, it is possible to stably manufacture a heating unit in which the heat generating agent in the case reacts during storage or the heat generating agent is highly suppressed from being generated when the material to be heated is heated. it can.
In addition, since the heating container of the present invention includes the heating unit, it is highly suppressed that the heat generating agent in the case reacts during storage or the heat generating agent is emitted when the material to be heated is heated. Has been.

It is the disassembled perspective view which showed one example of embodiment of the heating unit of this invention. It is an enlarged view of the notch part periphery of the moisture-proof sheet | seat of the heating unit of FIG. It is process drawing which showed a mode that the heating unit of this invention was manufactured. It is process drawing which showed a mode that the heating unit of this invention was manufactured. It is process drawing which showed a mode that the heating unit of this invention was manufactured. It is process drawing which showed a mode that the heating unit of this invention was manufactured. It is process drawing which showed a mode that the heating unit of this invention was manufactured. It is the disassembled perspective view which showed one Embodiment of the heating container of this invention. It is the disassembled perspective view which showed an example of the conventional heating unit.

<Method for manufacturing heating unit>
[Heating unit]
Based on FIGS. 1 and 2, an embodiment of a heating unit obtained by the production method of the present invention will be described in detail.
As shown in FIG. 1, the heating unit 1 according to the present embodiment includes a water bag 30 in a box-shaped case 10 having a bottom surface 11 with a square corner cut out and an opening 12 at the upper end. And an exothermic agent 40 that generates water vapor and heat by a hydration reaction are housed. Further, a water-absorbing sheet 20 is provided along the entire inner surface (bottom surface and side wall) of the case 10, and the water bag 30 and the heat generating agent 40 are sequentially disposed in the interior from the bottom surface side.

As the case 10, a case that is usually used for a case of a heating unit can be used. For example, a case made of resin (made of polypropylene or the like) can be used. A flange 13 is formed in the opening 12 at the upper end of the case 10.
The sheet 20 may be any sheet as long as it can support the breaking string 70 inside the case 10. For example, a sheet is used. Moreover, what can absorb the water which flowed out from the water bags 30, such as a water absorbing paper, can also be used like this embodiment.

The water bag 30 is formed by forming a laminated film or the like having a moisture-proof layer (such as an aluminum layer) that does not transmit moisture between a plurality of resin layers (such as a polyethylene layer) into a bag shape by thermal welding, and water is contained therein. In the end portion (three end portions in the drawing) of the water bag 30, a heat welding portion 31 in which water is not properly sealed is formed. And in the substantially center part of the heat welding part 31 of one end part, the notch part 32 for inserting the string for a fracture | rupture mentioned later is formed.
The exothermic agent 40 should just be what can generate | occur | produce water and water vapor | steam by a hydration reaction, and can heat a to-be-heated material, for example, granular quicklime (calcium oxide) etc. are mentioned.

In the heating unit 1, the moisture-proof sheet 50 and the water vapor permeable sheet 60 are sequentially attached on the flange 13 of the case 10.
The moisture-proof sheet 50 only needs to be a sheet that does not transmit moisture. For example, the moisture-proof sheet 50 is made of a laminated film having a moisture-proof layer sandwiched between a plurality of resin layers, and the peripheral edge thereof is thermally bonded to the flange 13 of the case 10. Examples include a sheet to be stuck. Hereinafter, this heat welded portion is referred to as a seal portion 51. The moisture-proof sheet 50 seals the opening 12 of the case 10.
In the moisture-proof sheet 50, a cut portion 52 shorter than the width of the flange 13 is formed in the seal portion 51.

As the water vapor permeable sheet 60, a material that transmits water vapor can be used, and examples thereof include a nonwoven fabric. Further, the peripheral edge of the water vapor permeable sheet 60 is stuck to the moisture-proof sheet 50 via a sealing material 61 made of an adhesive or the like.
In addition, the form which adheres the moisture-proof sheet 50 and the water vapor permeable sheet 60 on the flange 13 of the case 10 is not limited to the said form, For example, like the water vapor permeable sheet 60, the adhesive etc. It is good also as a form stuck on the flange 13 of case 10 through the sealing material which consists of.

Furthermore, the heating unit 1 is provided with a breaking string 70 for breaking the water bag 30 and the moisture-proof sheet 50.
In this example, the heat welding part 31 of the water bag 30 is being fixed to the bottom face of the sheet | seat 20 by attaching the fixing tool 33 which consists of a stapler etc. in two places on both sides of the notch part 32. FIG. The breaking string 70 passes between the sheet 20 and the water bag 30, the cut portion 32 of the water bag 30, and the seal portion 51 of the moisture-proof sheet 50 in order, and is inserted into the cut portion 52 so as to pass from the inside of the case 10 to the outside. Has been pulled out. Further, the breaking string 70 drawn out of the case 10 is folded back toward the opening 12, passes between the moisture-proof sheet 50 and the water vapor permeable sheet 60, and one end thereof is pulled to the other side of the moisture-proof sheet 50. It is turned.

On the other hand, the other end of the breaking string 70 is supported by the sheet 20.
In this example, the cut portion 21 is formed in the substantially central portion of the side wall opposite to the side on which the fixture 33 of the sheet 20 is attached. A knot 71 larger than the width of the notch 21 is formed at the other end of the breaking string 70. The knot 71 functions as a stopper, and the other end of the breaking string 70 is locked to the notch 21. It is configured to support.

  The water vapor permeable sheet 60 is attached after the breaking string 70 is arranged as described above, and a portion where the breaking string 70 does not pass through the peripheral portion on the back surface side of the water vapor permeable sheet 60 is interposed through the sealing material 61. It is stuck on the moisture-proof sheet 50. Thus, the position where the breaking string 70 is pulled out from the heating unit 1 is fixed.

In the heating unit 1, the moisture-proof sheet 50 and the water bag 30 are simultaneously broken by pulling one end of the breaking string 70 drawn to the outside of the heating unit 1.
That is, when one end of the breaking string 70 is pulled, the moisture-proof sheet 50 does not move because the moisture-proof sheet 50 is fixed to the case 10, but the portion locked to the notch 52 of the breaking string 70 is pulled and the moisture-proof sheet 50 is pulled. The moisture-proof sheet 50 is broken because it moves toward the other end side.
The same applies to the water bag 30. That is, since the water bag 30 is fixed to the sheet 20 and does not move, the portion of the breaking string 70 that is locked to the notch 32 of the water bag 30 is pulled and moved to the other end side. The water bag 30 is broken.

When the moisture-proof sheet 50 and the water bag 30 are simultaneously cleaved, the water enclosed in the water bag 30 flows out of the bag and contacts the heat generating agent 40 disposed on the water bag 30. As a result, the hydration reaction of the exothermic agent 40 proceeds to generate water vapor and heat, which pass through the location where the moisture-proof sheet 50 is cleaved, further permeate the water vapor permeable sheet 60 and release to the outside of the heating unit 1. As a result, the material to be heated can be heated satisfactorily.
In the heating unit 1, the moisture-proof sheet 50 blocks moisture that enters the case 10 from the outside of the heating unit 1, and prevents the exothermic agent 40 accommodated in the case 10 from deteriorating. As a result, not only the water bag 30 but also the moisture-proof sheet 50 is broken at the same time. Therefore, when the material to be heated is heated, the moisture-proof sheet 50 does not hinder the release of water vapor and heat.

  Further, since the breaking string 70 is disposed between the moisture-proof sheet 50 and the water vapor permeable sheet 60, the moisture-proof sheet 50 is broken when the breaking string 70 is pulled, but the moisture-permeable sheet 50 is permeable. The sheet 60 is not broken. Thus, by providing the water vapor permeable sheet 60 that is not broken by the breaking string 70 on the side opposite to the case 10 of the moisture-proof sheet 50, the solid produced by the hydration reaction without inhibiting the release of water vapor and heat. An object or the like can be prevented from leaking outside the heating unit 1. The water vapor permeable sheet 60 also has a function of dispersing the water vapor released from the broken portion of the moisture-proof sheet 50 and uniformly releasing it from the water vapor permeable sheet 60 to uniformly heat the material to be heated.

As described above, the material to be heated can be favorably heated by the heating unit 1.
The sheet 20 is used as a breaking string support material that supports the breaking string 70 inside the case 10, but in the heating unit 1 of the present embodiment, the sheet 20 is provided along the entire inner surface of the case 10, A bag 30 and a heat generating agent 40 are disposed. In such a configuration, the case 10 and the reactant do not directly contact each other, and the sheet 20 exhibits a heat insulating function. Therefore, even when a high temperature is generated by a hydration reaction, the case 10 is thermally deformed and heat is heated outside the heating container. Conduction is suppressed.
Furthermore, in the present embodiment, by using the water-absorbing sheet 20 as the heat insulating material, it is possible to suppress the occurrence of an unexpected ignition of the heat insulating material itself due to the heat generated by the hydration reaction.

Further, in the heating unit 1, the water bag 30 and the heat generating agent 40 are sequentially disposed in the sheet 20 from the bottom surface side. Thereby, in addition to the sheet 20, the water bag 30 also exhibits a heat insulating function, and the influence of heat generation of the case 10 can be further reduced. Moreover, since the sheet | seat 20 and the water bag 30 which function also as a string support material for a fracture | rupture are fixed with the fixing tool 33, and the heat generating agent 40 should just be filled after that, manufacture is also easy.
Furthermore, some of the exothermic agent 40 has a pointed tip, and when the exothermic agent 40 is disposed below the water bag 30, a pinhole or the like is formed in the water bag 30 by the exothermic agent 40 during transportation. May be formed. However, when the exothermic agent 40 is arranged on the upper side of the water bag 30, there is no concern. Although this reason is not certain, this inventor has guessed that it is because the water bag 30 functions as a cushioning material and the effect | action with respect to the water bag 30 of the heat generating agent 40 is relieve | moderated.

  Further, in the heating unit 1, the breaking string 70 is pulled out from the cut portion 52 that is shorter than the width of the seal portion 51, so that the moisture-proof sheet 50 and the case 10 are fixed by the seal portion 51 in the breaking string 70. The portion that is made (hereinafter referred to as “string fixing portion”) is narrower than the width of the seal portion 51, that is, the width of the flange 13. Thereby, the string 70 for a fracture | rupture can be easily peeled from the seal part 51, and the moisture-proof sheet | seat 50 can be easily cleaved, maintaining high airtightness.

In order to easily peel the breaking string 70 from the seal portion 51, it is preferable to make the length a (FIG. 2) of the string fixing portion as short as possible within a range in which high airtightness can be maintained. That is, the ratio (a / b) between the length a (mm) of the string fixing portion and the width b (mm) of the seal portion 51 (equivalent to the width of the flange 13) is set to 0.4 to 0.6. preferable. The length a can be adjusted by adjusting the length of the cut portion 52.
As a specific example of a preferable form, when the width b of the seal part 51 is 10 mm, a form in which the length a of the string fixing part is about 4 mm, or the like can be given.

  Further, since the heating unit 1 is provided with the cut portion 52, when the breaking cord 70 is pulled, the breaking cord 70 moves smoothly along the extending direction from the cut portion 52, and the moisture-proof sheet 50 is cleaved well.

[Production method]
Hereinafter, the manufacturing method of the above-mentioned heating unit 1 is demonstrated as one embodiment of the manufacturing method of the heating unit of this invention.
The manufacturing method of this embodiment includes the step (1) of attaching the moisture-proof sheet 50 to the flange 13 leaving the peripheral portion 51A (FIG. 2) of the cut portion 52 of the seal portion 51, and the cut portion of the breaking string 70. Step (2) for turning back to the opening 12 side at 52, Step (3) for sticking the peripheral portion 51A of the cut portion 52 of the moisture-proof sheet 50 to the flange 13, and Step (4) for sticking the water vapor permeable sheet 60 A method including:

In the manufacturing method of this embodiment, first, a knot 71 is formed on the breaking string 70, and the breaking string 70 is inserted into the cut portion 21 of the sheet 20 so that the knot 71 serves as a stopper. Next, the sheet 20 and the water bag 30 are fixed by the fixture 33 so that the breaking string 70 sequentially passes through the notch 32 of the water bag 30 between the sheet 20 and the water bag 30, and these are fixed to the sheet 20. Is inserted along the inside of the case 10, and the heat generating agent 40 is disposed on the water bag 30 (FIG. 3).
Next, the opening 12 of the case 10 is covered with the moisture-proof sheet 50, and the breaking string 70 is passed through the notch 52 of the moisture-proof sheet 50 and pulled out from the inside of the case 10 (FIG. 4).

  Next, in step (1), the seal portion 51B excluding the peripheral portion 51A of the cut portion 52 in the seal portion 51 is attached to the flange 13 by thermal welding (FIG. 4). In the step (1), the peripheral portion 51A in the seal portion 51 is not adhered, and the breaking string 70 is fixed to the seal portion 51B with the flange 13 and the moisture-proof sheet 50.

If the recessed part 14 (refer FIG. 1) corresponding to the shape of the string 70 for a fracture | rupture is formed in the range equivalent to the seal | sticker part 51B in the flange 13 at this time (within the range stuck in a process (1)). Since it becomes easy to press the periphery of the breaking string 70 in the seal portion 51B, it becomes easier to realize a high degree of airtightness inside the case 10.
That is, the recess 14 is a recess having a length a of the string fixing portion of the breaking string 70, and the breaking string 70 is guided to the notch 52 of the moisture-proof sheet 50 along the recess 14.

  In the manufacturing method of this invention, it is preferable to repeat process (1) twice from the point which improves the certainty of sticking of the seal | sticker part 51B of the moisture-proof sheet 50, and obtains the heating unit 1 excellent in airtightness more reliably. .

  After the step (1), in the step (2), the breaking string 70 drawn from the inside of the case 10 is folded back to the opening 12 side by the cut portion 52 of the moisture-proof sheet 50 (FIG. 5).

Next, in step (3), the peripheral portion 51A of the cut portion 52 in the seal portion 51 of the moisture-proof sheet 50 is attached to the flange 13 by thermal welding (FIG. 6).
In the step (3), heat welding is performed so that the peripheral portion 51C of the breaking string 70 folded back to the opening 12 side is not heated.
In the step (3), any method may be used as long as the peripheral portion 51A is firmly attached, and the peripheral portion 51A is attached by thermally welding the seal portion 51D except the peripheral portion 51C in the seal portion 51. The method of wearing is preferred.

In the step (4), the water vapor permeable sheet 60 is installed on the moisture proof sheet 50, and the moisture proof sheet 50 and the water vapor permeable sheet 60 are bonded by thermal welding via the sealing material 61 (FIG. 7). The sealing material 61 is provided so that the breaking string 70 pulled out from the case 10 at the notch 52 of the moisture-proof sheet 50 and folded back is not fixed to the water vapor permeable sheet 60.
If the shape of the sealing portion 51D of the sealing portion 51 and the shape of the sealing material 61 are the same, heat welding can be performed using the same heat sealer.

Moreover, in the manufacturing method of this invention, even if it sticks the periphery part 51A of the seal | sticker part 51 in a process (3), and the sticking of the water vapor permeable sheet 60 via the sealing material 61 in a process (4) simultaneously. Good. That is, the sticking of the seal portion 51D (including the peripheral portion 51A) in the seal portion 51 of the moisture-proof sheet 50 and the sticking of the water vapor permeable sheet 60 through the seal material 61 may be performed simultaneously.
Further, in this case, from the viewpoint of improving the reliability of the sticking of the water vapor permeable sheet 60 on the peripheral portion 51A of the seal part 51 and the sealing material 61, it is preferable to perform the thermal welding to stick them at the same time twice. .

  According to the production method of the present invention described above, the moisture-proof sheet can be stably and firmly attached to the flange without causing poor attachment. For this reason, the manufacturing method of the present invention has an opening in the water vapor permeable sheet because the heat generating agent in the case reacts during storage or the end of the moisture-proof sheet is not broken well when it is broken by the breaking string. It is possible to stably manufacture a heating unit that can highly suppress the occurrence of the heat generating agent from the opening.

  In addition, the manufacturing method of the heating unit of this invention is not limited to the method of manufacturing the above-mentioned heating unit 1. For example, a method using a case in which the concave portion 14 is not provided may be used, and a method using a sheet having no water absorption as the sheet 20 may be used. Moreover, when using a sheet | seat without water absorption as the sheet | seat 20, if this sheet | seat is a range which can support the string for a fracture | rupture inside a case, it may not be the form which follows the inside of a case as mentioned above.

<Heating container>
Next, based on FIG. 8, one Embodiment of the heating container provided with the above-mentioned heating unit 1 is explained in full detail.
The heating container 2 of the present embodiment has a circular bottom surface 81, an outer container body 80 having an opening 82 at the upper end, and an inner container body 90 having a similar shape having an opening 92 at the upper end. The heating unit 1 is accommodated in a heavy container main body, and a heated material container 110 capable of accommodating a heated material such as food and a removable lid 120 are sequentially attached thereon. It is roughly structured.

  Out of the container bodies, the outer container body 80 is made of paper. Thereby, the heat retention effect inside the heating container 2 is enhanced, and the material to be heated can be heated efficiently. Moreover, since heat conduction to the outside of the heating container 2 is suppressed, the user can have the heating container 2 without feeling hot. The material of the inner container body 90 is not particularly limited, and a resin is preferable. It is preferable that the container body has a two-type structure in that the heat insulation inside the container can be improved and heat conduction to the outside of the heating container 2 can be suppressed at the same time even by the air layer interposed between the container bodies.

Through holes 83 and 93 are formed at substantially the same positions on the side walls of the outer container body 80 and the inner container body 90, respectively, and the breaking string 70 pulled out from the heating unit 1 passes through these through holes. It is pulled out of the container body.
A plurality of projecting portions 84 and 94 projecting from the inner surface side toward the outer surface side are provided on the upper portions of the side walls of the outer container body 80 and the inner container body 90 so as to fit each other. As a result, the inner container body 90 is detachably fixed to the outer container body 80 so that the positions of the through holes 83 and 93 through which the breaking string 70 passes are not displaced.

Furthermore, a heating unit storage portion 91 that stores a portion below the flange 13 of the heating unit 1 is provided at the bottom of the inner container body 90. As a result, the heating unit 1 is detachably fixed to the inner container main body 90 so that the positions of the breaking string 70 drawn out from the heating unit 1 and the through holes 83 and 93 are not displaced.
Further, a heat insulating material 100 such as cardboard is accommodated on the bottom surface of the heating unit housing portion 91 so that the bottom surface of the heating unit 1 does not directly touch the inner container body 90.

  The heated material container 110 is a container having a circular bottom surface 111 and an opening 112 at the upper end. The container has a shape in which the upper part of the side wall is bent outward, and the bent portion 113 is fitted to the upper part of the side wall of the outer container body 80 and the inner container body 90 and is detachably fixed. The upper end surface 114 of the bent portion 113 is a flat surface. Further, another flat surface 115 is provided on the inner side of the bent portion 113 (on the heated material accommodating side) at a level one step lower than the upper end surface 114, and a plurality of hole portions 116 are opened in the flat surface 115. ing.

The lid 120 is made of a resin material having a peripheral edge along the upper shape of the heated material container 110. That is, along the peripheral edge of the lid 120, a corner 121 is formed of a flat surface along the outer side of the upper end surface 114 of the heated material container 110 and the bent portion 113 and a side surface. Furthermore, a plurality of projecting portions 122 bulging from the inner side (heated material container 110 side) toward the outer side extend in the corner portion 121 in the radial direction.
By providing the protrusion 122, an appropriate gap is formed between the heated material container 110 and the lid body 120, and therefore, water vapor and heat generated by the exothermic reaction are appropriately supplied to the outside through the gap. To be released. As a result, an increase in the internal pressure of the heated material container 110 is suppressed, and detachment of the lid 120 from the heated material container 110 is suppressed.

In the heating container 2 of the present embodiment, the material to be heated is accommodated in the material to be heated 110, and the breaking string 70 pulled out from the outer container body 80 is pulled while the lid 120 is attached. Water vapor and heat are generated from the unit 1, and these are guided through the hole 116 into the heated material container 110, and the accommodated heated material is heated. Moreover, when accommodating a foodstuff as a to-be-heated material, it is also possible to steam and cook a foodstuff with the generated water vapor and heat.
In the case where the material to be heated does not need to be steamed and can be sufficiently heated only by heating from below the material to be heated 110, the hole 116 may not be provided in the material to be heated 110.

  The heating container 2 of the present embodiment is provided with the heating unit 1, and further, a heat insulating material 100 is provided below the heating unit 1 and the container body has a double structure. Alternatively, the exothermic reaction can be performed without affecting the outer container body 80 and the inner container body 90. That is, the material to be heated can be satisfactorily heated while suppressing thermal deformation of the case 10 and the like due to reaction heat and heat conduction to the outside of the heating container 2.

  The heating unit and the heating container of the present invention can be preferably used for a heating container such as a lunch box that accommodates a material to be heated such as food and heats it when necessary.

  DESCRIPTION OF SYMBOLS 1 Heating unit 10 Case 12 Opening part 13 Flange 30 Water bag 40 Heat generating agent 50 Moisture-proof sheet 51 Sealing part 51A Peripheral part of cutting part 52 Cutting part 60 Water vapor permeable sheet 70 Breaking string 2 Heating container 80, 90 Container main body 110 Heated Material container 120 Lid

Claims (4)

A case having an opening; a moisture-proof sheet that seals the opening; a water-vapor-permeable sheet that is provided on the moisture-proof sheet and transmits water vapor; a water bag accommodated in the case; and the interior of the case An exothermic agent that generates heat due to a hydration reaction, and a breaking string for breaking the water bag and the moisture-proof sheet,
A flange is formed in the opening of the case, and the moisture-proof sheet is attached to the flange.
A cut portion shorter than the width of the flange is formed in the seal portion adhered to the flange of the moisture-proof sheet,
A heating unit in which one end of the breaking string passes from the inside of the case through a portion of the water bag where water is not sealed, and is pulled out from the cut portion through the seal portion to the outside of the case. A method of manufacturing comprising:
A step (1) of attaching the moisture-proof sheet to the flange leaving a peripheral portion of the cut portion of the seal portion;
A step (2) of folding the breaking string toward the opening at the cut portion;
A step (3) of attaching a peripheral portion of the cut portion of the moisture-proof sheet to the flange;
And a step (4) of sticking the water vapor permeable sheet.   The manufacturing method of the heating unit of Claim 1 which performs the sticking of the said process (3) and the sticking of a process (4) simultaneously.   The manufacturing method of the heating unit according to claim 1 or 2, wherein a recess corresponding to the shape of the breaking string is formed in a range where the moisture-proof sheet is stuck in the step (1) of the flange. .   A heating unit obtained by the manufacturing method according to any one of claims 1 to 3, and a container main body that accommodates the heating unit, wherein one end of the breakage string provided in the heating unit includes the container main body. A heating container that penetrates and is drawn out of the container body.

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