JP2021059797A - Circulation passage arranging structure in liquid circulation-type cooling body garment - Google Patents

Abstract

To provide a circulation passage arranging structure in a liquid circulation-type cooling body garment, which does not deteriorate cooling efficiency while a circulation passage is protected and is comfortable even if it is worn inside a working wear.SOLUTION: A circulation passage 108 is arranged between two mesh materials 130 and 131, and almost the entire circulation passage is arranged at the inner mesh material 131 in an embedded manner in two mesh materials. Embedding of the circulation passage 108 is performed by covering the circulation passage 108 with the inner mesh material 131 in an approximately "Ω" shape in a cross-sectional view, and sewing the right and left of the circulation passage 108 with a yarn 121.SELECTED DRAWING: Figure 7

Description

The present invention relates to a cooling garment used in an environment where the temperature of the human body is high, and more particularly, to a liquid circulation type cooling bodice.

Conventionally, clothes capable of warming or cooling the body by arranging a circulation path for circulating a liquid are known (see Patent Document 1).

JP-A-2002-58694

The invention described in Patent Document 1 has a drawback that the circulation path is exposed inward and is caught when used. On the other hand, simply covering the circulation path to prevent it will hinder the cooling efficiency.

Therefore, the present invention has been made to solve these problems, and is a liquid that is comfortable to wear in work clothes without lowering the cooling efficiency while protecting the circulation path. The subject is to provide a circulation path arrangement structure in a circulation type cooling bodice.

In order to solve the above problems, the present invention has an arrangement structure of the circulation path in a bodice provided with a circulation path for circulating a cooling medium, and the circulation path is arranged between two mesh materials. A circulation path arrangement structure in a liquid circulation type cooling bodice.

By adopting such a configuration, it does not get caught in the circulation path during use, and because it uses a mesh material with holes, it has good breathability and can reduce discomfort due to sticky sweat. .. Furthermore, by intentionally constructing the outside of the circulation path with a mesh material, sweat evaporates when the liquid circulation type cooling bodice is used in work clothes (more specifically, between underwear and work clothes). Because it does not interfere with the comfort, comfort is not easily impaired even when used for a long time. Normally, a mesh material is not used on the outside of the circulation path in order to give priority to heat insulation, but by intentionally using a mesh material on the outside due to the idea of reversal, the performance when worn under work clothes etc. is improved. There is.

Further, among the two mesh materials, the inner mesh material is arranged so as to embed substantially the entire circulation path.

That is, when viewed from the inside, only the portion of the circulation path 108 rises inward together with the inner mesh material 131. Due to this swelling, the part of the circulation path 108 is in close contact with the body and can efficiently take away the body temperature, and the other parts form a gap between the body and the body, so that air can easily circulate. It does not interfere with the circulation of the air and can promote the evaporation of sweat.

Further, the embedding of the circulation path 108 was performed by covering the circulation path 108 with the inner mesh material 131 in a substantially "Ω" shape and then sewing the left and right sides of the circulation path 108 with the thread 121 (when viewed in cross section). (See FIG. 8).

That is, since the circulation path 108 is fixed to the mesh material 131 only by the "thread 121" and no other mounting member that hinders the flexibility of the mesh material 131 is used, it is comfortable to wear. It is highly sexual and has excellent followability to the body.

By applying the present invention, it is possible to provide a circulation path arrangement structure in a liquid circulation type cooling bodice that protects the circulation path, does not lower the cooling efficiency, and is comfortable to wear in work clothes. Can be done.

It is a schematic overall block diagram of the cooling system using the liquid circulation type cooling bodice which is an example of embodiment of this invention. It is a front view of the liquid circulation type cooling bodice which is an example of embodiment of this invention. It is the front view of the state which showed the state which separated the front body to the left and right by removing the fastener on the front side. It is the figure which showed the inner side surface (body side) in the state where the front body and the back body were unfolded by removing the side surface fastener (connecting member). It is the figure which showed the outer surface in the state which the front body and the back body were unfolded by removing the side surface fastener (connecting member). It is a figure which showed schematic the path of the circulation path in the state of FIG. It is a figure which showed the arrangement structure of the circulation path, and is the figure which showed only one circulation path in the cross section along the line AA in FIG. FIG. 7 is a diagram showing the positional relationship between the circulation path and the mesh material as seen from the direction of arrow α in FIG. 7.

Hereinafter, the liquid circulation type cooling bodice 100, which is an example of the embodiment of the present invention, and its structure will be described with reference to the accompanying drawings. It should be noted that, for the sake of easy understanding of the drawings, some parts are exaggerated in size and dimensions, and some parts do not necessarily match the actual product. In addition, each drawing shall be viewed in the direction of the code, and based on that direction, it is expressed as up / down / left / right, front, and back.

<Construction of liquid circulation type cooling bodice>
The liquid circulation type cooling bodice 100 functions as a part of the cooling system 10 as shown in FIG. The cooling system 10 includes a liquid circulation type cooling bodice 100, a circulation pump 200, and a cooling source 300. Various types and forms of the cooling source 300 can be used, and the cooling source 300 can be replaced and used according to the intended use. For example, a cooler box containing ice, a backpack type, a bag type, a bottle type, and a heat exchanger (chiller) with a built-in radiator and fan are used. It can be used by changing it freely.

The circulation pump 200 does not necessarily have to be configured independently, and may be integrated with the cooling source 300.

As shown in FIGS. 2 to 3, the liquid circulation type cooling bodice 100 is configured in a so-called “best type”. Circulation paths 108 for circulating the cooling medium are arranged in both the front body 102 and the back body 104, and the front body 102 can be separated to the left and right by the fastener 110.

Further, both armpits are provided with connecting members 106 using hook-and-loop fasteners, and the distance between the front body 102 and the back body 104 can be adjusted so that the bodice 100 can be fitted to the wearer's body. ing.

Reference numeral 114 is an entrance / exit of the circulation path 108, and can be connected to a pipeline (not shown) connected to the circulation pump 200 or the cooling source 300 by a connector provided at the tip thereof.

As shown in FIGS. 4 to 5, the front body 102 and the rear body 104 can be developed into a single rectangular sheet by disconnecting the connecting members 106 under both sides. A head hole 116 exists substantially in the center, and circulation paths 108 are also arranged on the left and right sides of the head hole 116.

Further, the connecting member 106 is a hook-and-loop fastener male (first connecting member) 107 attached to the rear body 104 side and a hook-and-loop fastener female (second connecting member) 105 attached to the surface of the front body 102. Connection and adjustment are realized by attaching and detaching.

As shown in FIG. 6, in the liquid circulation type cooling bodice 100 shown as an example of the embodiment of the present invention, four independent circulation paths 108 are arranged in parallel. Two of the four circulation paths (path 1, route 2) entering from the left front body 102 circulate in the right front body via the back of the neck. The remaining two circulation paths (paths 3 and 4) circulate on the back body 104 side.

Further, the entire liquid circulation type cooling bodice 100 including the front body 102 and the back body 104 is formed by stacking two mesh materials 130 and 131 and sewing the periphery thereof, and arranging the circulation path 108 between them.

As shown in FIG. 7, the circulation path 108 is fixed to the inner (human body side) mesh material 131 of the two mesh materials 130 and 131. Further, almost the entire circulation path 108 is arranged so as to be surrounded (embedded) by the mesh material 131, and is fixed by a thread 121 connecting the left and right sides.

<Action / function of circulation path arrangement structure in liquid circulation type cooling bodice>
As explained above, by arranging the 108 circulation paths between the two mesh materials 130 and 132, the circulation path 108 is not caught during use, and the mesh material with holes is used. It has good breathability and can reduce discomfort caused by sticky sweat. Further, by intentionally forming the outside of the circulation path 108 with a mesh material, sweat when the liquid circulation type cooling bodice 100 is used in work clothes or the like (more specifically, between underwear and work clothes or the like). Since it does not interfere with the evaporation of the material, comfort is not easily impaired even when used for a long time. Normally, a mesh material is not used on the outside of the circulation path 108 in order to give priority to heat insulation, but by intentionally using a mesh material on the outside based on the idea of reversal, the performance when worn under work clothes etc. is improved. ing.

Further, of the two mesh materials 130 and 131, the inner mesh material 131 was arranged so as to embed substantially the entire 108 circulation paths.

That is, when viewed from the inside, only the portion of the circulation path rises together with the mesh material. Due to this swelling, the part of the circulation path is in close contact with the body and the body temperature can be efficiently taken away, and the other part forms a gap between the body and the body, which makes it easier for air to circulate. It does not interfere with circulation and can also promote the evaporation of sweat.

Further, the embedding of the circulation path is characterized in that, when viewed in cross section, the circulation path is covered with the inner mesh material in a substantially "Ω" shape, and then the left and right sides of the circulation path are sewn with a thread. To do.

That is, the circulation path is fixed to the mesh material only with "thread", and since no mounting member that hinders the flexibility of the material is used, the comfort at the time of wearing is high and it is attached to the body. It also has excellent followability.

10 ... Cooling system 100 ... Liquid circulation type cooling bodice 102 ... Front body 104 ... Rear body 108 ... Circulation path 105 ... Hook-and-loop fastener (female)
106 ... Connecting member 107 ... Hook-and-loop fastener male 110 ... Fastener 114 ... Doorway (of circulation path) 116 ... Head hole 121 ... Thread 131 ... Mesh material 200 ... Circulation pump 300 ・ ・ ・ Cooling source

Claims (3)

The arrangement structure of the circulation path in the bodice provided with the circulation path for circulating the cooling medium.
The circulation path was arranged between the two mesh materials.
A circulation path arrangement structure in a liquid circulation type cooling bodice. In claim 1,
A circulation path arrangement structure in a liquid circulation type cooling bodice, which is arranged so as to embed substantially the entire circulation path in the inner mesh material among the two mesh materials. In claim 2,
When viewed in cross section, the circulatory path is embedded by covering the circulatory path with the inner mesh material in a substantially “Ω” shape and then sewing the left and right sides of the circulatory path with a thread. Circulation path arrangement structure in the circulation type cooling bodice.

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