JP2018090947A - Wrap style circulation type liquid channel - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a wrap style circulation type liquid channel for a body for manufacturing a temperature control clothes, such as a practical cooling clothes etc.SOLUTION: A circulation type liquid channel 1 has a length to be wrapped around a body of a human or an animal, has a liquid channel 3 with a flow channel formed for circulating a circulation water and a removable member for selecting a condition where the liquid channel 3 is wrapped around the body and a condition with a wrap unwind and the liquid channel 3 folds and overlaps a plurality of sheets including at least one sheet of an uneven sheet 2 formed a small irregularity 15 therein and has a fusion part 14 of which portion is formed by fusion in two dimensions and a channel part 16 formed without fusion between the fusion part 14 and is characterized in that the liquid channel 3 is formed by arranging the fusion part 14 and the channel part 16 with a flat plain stretch.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a temperature adjusting member and a temperature adjusting device for adjusting a temperature such as cooling and warming a human body, an animal or the like.

Conventionally, various kinds of cooling clothing for cooling with a liquid circulating in the body have been proposed.
For example, the present applicant has proposed a liquid path member in which a mesh or the like is fixed in the liquid path in order to prevent the liquid path from being broken by the movement of the body and preventing the liquid path from flowing.
The invention according to Patent Document 1 is a technology that can provide practical cooling clothing and the like.

International publication (WO20140313353)

In the process of developing sincerity, practical cooling clothes, etc., the present inventor faces the problem of how the temperature of the body can be efficiently controlled at low cost. Although the configuration of Patent Document 1 is a practical technique that can be realized as compared with the conventional technique, there is a problem that the manufacturing price is increased.
An object of the present invention is to provide a liquid path member and a method for manufacturing the same that can solve the above-described problems of the prior art.
An example of a specific purpose is as follows. In addition, this objective is an example of the subject of each Example mentioned later, The technical scope of this invention should not be limitedly interpreted within the following objective.
(A) To provide a wrap-around circulation type liquid passage for producing practical cooling clothing, temperature control clothing, and the like.
In addition, the subject of invention other than having described above, its solution means, and its effect are demonstrated in detail in description in the specification mentioned later.

  Although the present invention can be expressed in many ways, for example, typical ones are configured as follows. In addition, in each of the following inventions and embodiments, each assigned symbol is shown as an example for easy understanding of the correspondence with the examples described later, and each component of the present invention and each embodiment is The configuration according to the reference numerals described in the embodiments is not limited.

The wrapping circulation type liquid path 1 according to the present invention has a length that can be wound around the body of a human being or an animal, the liquid path 3 that forms a flow path for circulating water, and the liquid A detachable member 13 for selecting a state where the path 3 is wound around the body and a state where the winding is unwound, and
The liquid path 3 includes at least one concavo-convex sheet 2 on which small concavo-convex portions 15 are formed, a plurality of sheets are overlapped, and a part thereof is fused in a plane and spaced apart. And a flow path portion 16 that is formed without being fused between the fusion portions 14, and the liquid passage 3 spreads in a plane between the fusion portion 14 and the flow path portion 16. It is formed by holding and arranging (claim 1).
The “circulation type liquid passage” is a “liquid passage” and has a configuration in which a liquid for temperature adjustment circulates. As an example of temperature control, for example, for cooling can be mentioned.
According to the present invention, the temperature of the body can be easily adjusted, for example, cooled by wrapping around the human or animal body. Moreover, by having the detachable member, it is possible to easily shift between a state in which the circulation type liquid path is wound around the body and a state in which the circulation type liquid path is unwound. Further, by adopting a liquid path configuration including a fusion part and a flow path part as the liquid path, the manufacturing cost can be reduced.
The wrapping circulation type liquid channel 1 according to the present invention relating to another configuration has a length that can be wound around the body of a human being or an animal, and forms a channel for flowing circulating water. 3 and a detachable member 13 for selecting a state where the liquid path 3 is wound around the body and a state where the liquid path 3 is unwound.
The liquid path 3 includes a fusion part 14 formed by superposing at least two sheets and fusing a part thereof, and a flow path part formed without being fused between the fusion parts 14. 16, and the liquid passage 3 is formed by arranging the fusion portion 14 and the flow passage portion 16 so as to spread in a plane (claim 23).
In addition, in the invention which concerns on another structure, the structure which partitions the at least 2 sheet | seat and forms the said liquid path 3 by providing the melt | fusion part 14 is also employable.
For example, as a method of partitioning, a configuration in which a plurality of curved fused portions that form the liquid path 3 in at least two sheets can be employed.
If FIG. 1 is mentioned as an example, by providing the inner and outer curved fusion parts (corresponding to the edge joints 7 and 7 in the example shown in FIG. 1) constituting the liquid path 3, The liquid path 3 formed in a substantially U shape can be constituted. Similarly, it is obvious that the shape of the curved fused portion can be appropriately set in order to form a liquid passage having a desired shape. The “curved fused portion” is used as a concept including the “linear fused portion”.
Further, in the present invention according to another configuration (Claim 23), the configurations according to Claims 4 to 22 can be employed. In that case, for example, in the case of explaining the embodiment, it is only necessary to replace “an uneven sheet with unevenness” with “at least two sheets”.
Various synthetic resins such as polyethylene (PE) can be used for the sheet. It is clear that various synthetic resins include urethane resins, synthetic rubber materials, vinyl chloride and the like. In addition, as a method of configuring the fused portion,
(1) Thermal fusion method (2) Method by application of various adhesives (3) High frequency pressure bonding (4) Various known bonding methods such as ultrasonic pressure bonding can be exemplified. In short, a method of configuring the fused portion according to the material constituting the sheet material may be employed.

  As described above, according to the present invention, it is possible to provide a wound circulation type liquid channel for cooling the body such as an inexpensive and practical cooling garment.

Hereinafter, preferred embodiments of the present invention will be described.
In the present embodiment, the height H of the irregularities 15 is configured in the range of 0.05 mm to 10 mm, and the lateral width W is configured in the range of 0.05 mm to 10 mm (Claim 2).
The present embodiment is characterized in that the unevenness 15 is formed as at least one of the embossing, the printing process, and the spraying process as the uneven sheet 2 (Claim 3).

The present embodiment is characterized in that a folded portion 21 is provided in the liquid path 3 in a distal end side region to which the detachable member 13 of the circulating liquid path 1 to be wound is attached (Claim 4).
Examples of the folded portion include a configuration in which the folded portion is folded at about 180 ° in a substantially opposite direction, and a configuration in which the folded portion is folded so as to look like a V shape.
The present embodiment is characterized in that a plurality of the circulating liquid passages 1 having the folded-back portions 21 are spaced apart and wound around a chest / body part (claim 5).
In the present embodiment, the folded-back portion 21 is divided into lengthwise liquid passages 22, 22 extending in the lengthwise direction, a widthwise liquid passage 23 continuing as a waterway in the widthwise direction, and the lengthwise liquid passages 22, 22. Has a separating portion 24 extending in the length direction (claim 6).
The present embodiment is characterized in that the detachable member 13 is attached to a cover member 25 that covers the liquid passage 3 having the folded portion 21 (Claim 7).

The present embodiment is characterized in that the base end 3c of the liquid passage 3 is fixed to the back surface portion 29 of the cooling garment 20 and is wound separately from the front surface portion 26 of the cooling garment 20. (Claim 8).
In the present embodiment, in the circumferential direction around which the body is wound, the plurality of liquid passages 3 are connected by a flexible connecting pipe 31, and the circumferential direction is adjusted by a margin length or deformation of the connecting pipe 31. The present invention is characterized in that it is configured (claim 9).
The connecting pipe 31 functions as an adjusting means in the circumferential direction around which the body is wound. For example, it is possible to adjust the length in the circumferential direction, prevent twisting, etc. by connecting with a connecting pipe between a plurality of liquid paths in the circumferential direction of the chest, waist, neck, arms, or thigh. There can be advantages.

The present embodiment includes the circulation type liquid passage 1 wound around a human chest and body, and the attachment / detachment member 13 provided so as to correspond to the position of the fastener 33 for attaching / detaching the cooling garment 20. (Claim 10).
In this embodiment, since the attachment / detachment member of the circulation type liquid path can be attached / detached with the line fastener or the hook-and-loop fastener of the cooling clothes opened, the attachment / detachment of the cooling clothes and the attachment / detachment of the circulation type liquid path can be performed. Easy to do.
The present embodiment is characterized in that a neck-around / shoulder circulation type liquid passage 40 for cooling the neck and the shoulder is provided (claim 11).
The neckline / shoulder part is used to include at least one of the neckline and the shoulder part. That is, it includes a configuration that only cools the neck, a configuration that only cools the shoulder, and a configuration that cools both the neck and the shoulder.

In the present embodiment, the connection port 6 is provided at the inlet portion 4 and the outlet portion 5 of the liquid path 3, and the connection port 6 includes a bonding surface portion 8 for bonding the uneven sheet 2 and the liquid path 3. It has the pipe part 11 connected to (Claim 12).
As an example, a spout-shaped thing can be illustrated as a connection mouthpiece.
In the present embodiment, instead of the liquid passage 3 having the fused portion 14 and the flow path portion 16, a three-dimensional structure 41 including a gap 42 through which the liquid flows is formed by the sheet edge joint portion 7. What is fixed to the liquid path 3 is used (claim 13).
It should be noted that it is within the scope of the present invention to add the configurations of claims 4 to 12 to the configuration of claim 13 to create an embodiment relating to each configuration. Examples thereof are listed in claims 14-18.

The present embodiment is characterized in that a folded portion 21 is provided in the liquid path 3 in a distal end side region to which the detachable member 13 of the circulating liquid path 1 to be wound is attached (Claim 14).
The present embodiment is characterized in that a plurality of the circulating liquid passages 1 having the folded-back portions 21 are spaced apart from each other and wound around a chest / body portion (claim 15).
In the present embodiment, the folded-back portion 21 is divided into lengthwise liquid passages 22, 22 extending in the lengthwise direction, a widthwise liquid passage 23 continuing as a waterway in the widthwise direction, and the lengthwise liquid passages 22, 22. Has a separating portion 24 extending in the length direction (claim 16).
In the present embodiment, the detachable member 13 is attached to a cover member 25 that covers the liquid passage 3 having the folded portion 21 (Claim 17).

The present embodiment is characterized in that the base end 3c of the liquid passage 3 is fixed to the back surface portion 29 of the cooling garment 20 and is wound separately from the front surface portion 26 of the cooling garment 20. (Claim 18).
The present embodiment is characterized in that the liquid passage 3 has a length that can be wound around a wrappable part such as the human head, hand, and foot for each purpose such as cooling use, warming use, and medical use. (Claim 19).
This embodiment includes the liquid passage 3 having a length that can be wound around a wrappable part of the animal for each purpose such as cooling use, warming use, and medical use (Claim 20). .
In the present embodiment, for example, as shown in FIG. 15, the human head, hands, feet, etc. are wound around each of the purposes such as cooling use, warming use, and medical use in the configuration including the three-dimensional structure 42. The liquid passage 3 having a length capable of being wound around the possible portion is provided (claim 21).
In the present embodiment, for example, as shown in FIG. 16, in the configuration including the three-dimensional structure 42, the length that can be wound around the wrappable part of the animal for each purpose such as cooling use, warming use, and medical use. The liquid passage 3 having a thickness is provided (claim 22).

It is a perspective view which shows an example of the winding-type circulation type liquid path which concerns on 1st Example. It is a figure for manufacturing a concavo-convex sheet by embossing in the 1st example, (A) is a top view of a sheet before embossing, (B) is a longitudinal section of a sheet before the processing, (C) is The top view of the uneven | corrugated sheet | seat after embossing, (D) is a longitudinal cross-sectional view of the uneven | corrugated sheet | seat after embossing. In the first embodiment, (A) is a longitudinal cross-sectional view showing a state where processing is performed by a pressure-bonding die having a fused portion pattern, and (B) is a plan view after a fused portion is formed and two concavo-convex sheets are pressure-bonded. FIG. 4C is a longitudinal sectional view after two concavo-convex sheets are pressure-bonded. It is a top view which shows an example of the flow of the liquid in the liquid path which has a melt | fusion part and a flow-path part. It is a longitudinal cross-sectional view for demonstrating the other form which comprises the uneven | corrugated sheet | seat of 1st Example. In the first embodiment, (A) is a plan view of a state before a circulating liquid path having a folded portion is accommodated in a cover member (not shown), and (B) is a diagram showing the circulating liquid path in the cover member. It is a top view of the state after being accommodated. In 1st Example, it is the figure seen from the front side with a chuck | zipper etc. at the time of applying a winding type | formula circulation type | formula liquid path to cooling clothing. However, the front part of the cooling garment with the chuck is drawn with imaginary lines. In 1st Example, it is the figure seen from the front side at the time of applying a winding type | formula circulation type | formula liquid path to cooling clothing. However, the cloth material which covers the area | region of the width direction with a storage bag and a connecting pipe shown with the broken line which accommodated the circulation type liquid path is abbreviate | omitted and drawn. In the first embodiment, (A) is a front view for explaining the form of a circulation type liquid passage in a state before a front portion of a cooling clothing chuck or the like is engaged with an attaching / detaching member with the chuck opened. FIG. 4B is a front view for explaining the state of the circulation type liquid passage after engagement with the detachable member with the chuck opened. In 1st Example, it is a front view which shows the external appearance of cooling clothing in the state which closed the chuck | zipper front surface part with the chuck | zipper etc. of cooling clothing. In the second embodiment, (A), (B), and (C) are schematic cross-sectional views for manufacturing a flow path portion in which the flow path portion swells in the vertical direction of the sheet rather than the linear length between the fused portions. is there. In 3rd Example, it is a schematic diagram which shows an example of the circulation type liquid path for neck circumference and shoulder parts. In 4th Example, it is a perspective view which shows an example which fixed the solid structure with a clearance gap in the liquid path. In 5th Example, (A) is a top view which showed the linear liquid path as one form of a circulation type liquid path, (B) is one form of the circulation type liquid path which formed the folding | turning part in the division junction part. It is the shown top view. In 6th Example, (A) is the front view which showed the form which wound the circulation type liquid path around the hand, (B) is the perspective view which showed the circulation type liquid path of the state wound around the head, (C). It is the perspective view which showed the circulation type liquid path of the state which unwound the head. In 7th Example, it is the perspective view which showed the form which wound the circulation type liquid path around the pet animal.

[First embodiment]
Hereinafter, a first embodiment of a wrapping circulation type liquid passage according to the present invention shown in FIGS. 1 to 10 will be described with reference to the drawings. In the description of the present embodiment, a cooling mode is adopted as a mode of temperature adjustment, and thermal fusion that can be performed at low cost as a means for joining sheets will be described as an example.
The circulation type liquid path 1 according to the present embodiment is a liquid path formed in a substantially strip-shaped plane that is long enough to be wound. As shown in FIG. 1, the circulation type liquid path 1 is a liquid path 3 formed by heat-sealing uneven sheets 2 and 2 formed by a pair of elongated heat-sealing sheets (bonding sheets in a broad sense). And a spout 6 as a connection port 6 heat-sealed to each of the inlet portion 4 and the outlet portion 5 of the liquid passage 3. As the heat-sealing sheet 2, various synthetic resin sheets that can be heat-sealed, for example, synthetic resin sheets such as polyethylene (PE) can be employed. In general, the heat-sealing sheet often employs a structure in which a plurality of synthetic resin layers are laminated together with a strong synthetic resin.

Next, formation of the liquid path 3 by the uneven sheet 2 which is a feature of the present embodiment will be described.
The liquid passage 3 as an element forming the circulation type liquid passage 1 as one unit includes at least one concavo-convex sheet 2 on which small concavo-convex is formed, and a planar liquid introduction member in which a plurality of sheets are superposed. It is. It is preferable that both the upper sheet and the lower sheet are concave and convex sheets 2 and 2. However, a configuration in which one is a flat sheet and the other is a concave and convex sheet can be sufficiently employed in practice.
In addition, the liquid path 3 is a sheet that spreads in a plane, and has a fusion part 14 formed by fusing part of the sheet in a plane and spaced apart, and an uneven portion 15 that is not fused between the fusion part 14. And a flow path portion 16 formed in a state in which is left. The flow path portion 16 becomes a passage through which the cooling liquid flows (see, for example, FIG. 3C).
In plan view, the liquid flowing between the pair of fusion portions 14 in the flow of the liquid in the flow channel portion 16 flows so as to soak into each liquid passage 16 as indicated by an arrow in FIG. 4, for example. Since the channel portion 16 is thin and large in its normal shape, the cooling effect can be increased even if the amount of liquid is small.

In FIG. 1, for convenience, the configuration of the fusion part 14, the flow path part 16, and the unevenness 15 is described with a part of the liquid path 3 cut out. Actually, the fused portion 14, the flow path portion 16, and the unevenness 15 are formed over the entire surface of the liquid path 3.
Also, when the circulation type liquid passage 1 is formed thinly and the emphasis is placed on reducing the amount of cooling water and cooling quickly and improving comfort, the thickness of the circulation type liquid passage 1 is set to about 1 mm to 3 mm. It is also possible to manufacture thinly. The height of the unevenness at that time can be set to 0.05 mm to 1 mm, for example.

Further, in the configuration of FIG. 1, the liquid passage 3 is formed by forming the edge joint portions 7 and 7 in which the elongated band-shaped edge portions are heat-sealed while leaving the central zone in which the liquid flows in the liquid passage 3. In addition, the liquid passages 3 are formed by providing folded portions 21 in substantially opposite directions.
Further, the spout 6 has a joining surface portion 8 for fusing the heat sealing sheet 2 and a tube attachment portion 9 provided with a tube portion 11 so as to penetrate the joining surface portion 8. Various shapes such as a quadrangular shape and a semicircular shape can be adopted as the shape of the joining surface portion 8, but each configuration has a horizontally extending region surface that tightly seals the heat sealing sheet 2 so that liquid does not leak. I have.

In the configuration shown in FIG. 1, the spout 6 is provided with a tube port 10 provided at a position facing the inside of the liquid channel 3, and communicates with the liquid channel 3 by the tube port 10.
Around the tube portion 11 protruding from the joint surface portion 8, a tapered portion 12 protruding so as to expand from the tube portion 11 to the outer peripheral side is formed. The tapered portion 12 has a structure for preventing connection and disconnection of various connection pipes such as a connection pipe connected to the spout 6 such as a connection pipe such as a liquid supply pipe and a liquid return pipe. is there. As the tapered shape portion 12, various configurations such as a substantially conical shape (also referred to as a substantially bamboo shoot shape), a substantially spherical shape, and a substantially elliptical spherical shape can be adopted.

By adopting such a tube attachment portion 9 having the tapered portion 12, the attachment and detachment processing is simplified as compared with the configuration of a spout employed in a normal liquid container, such as a threaded coupling of a male screw and a female screw. can do. This configuration is advantageous when only a part of the liquid passage 3 constituting the cooling garment is damaged when it is broken.
The spout 6 is made of the same type of synthetic resin that can be easily joined to the concave-convex sheet 2, for example, PE, PVC, or the like. Preferably, the same synthetic resin material is used. This is because if the same synthetic resin material is used, the conditions necessary for the bonding, for example, the melting temperature is the same, and the bonding becomes good.

Hereinafter, an example of a process of forming the liquid path 3 according to the present embodiment by including a plurality of sheets including at least one concavo-convex sheet 2 on which small concavo-convex 15 is formed will be described.
First, as shown in FIGS. 2A and 2B, two flat sheets 17 and 17 made of, for example, synthetic resin are prepared, and embossing or the like is performed as shown in FIGS. 2C and 2D. The concavo-convex sheets 2 and 2 are obtained by the method. The height and width of the irregularities 15 are not particularly limited as long as the liquid flows satisfactorily when it is used for cooling clothing. If an example is given, the height H of the said unevenness | corrugation may be comprised in the range of 0.05 mm-10 mm, More preferably, the height H can also be comprised in the range of 0.5 mm-5 mm.
Further, the lateral width W is configured in a range of 0.05 mm to 10 mm,
More preferably, the lateral width W can be configured in the range of 0.5 mm to 5 mm.
Next, as shown in FIG. 3 (A), the concave and convex sheets 2 and 2 are sandwiched and fused by a fusion part pressing die 18 having a predetermined fusion pattern in a plane.
Then, as shown in FIGS. 3 (B) and 3 (C), the flow path part 16 having the fusion part 14 and the uneven part 15 disposed therebetween is formed.

In the configuration shown in FIGS. 1 to 3, the fusion pattern of the fusion portion 14 has a configuration in which circular fusion portions are arranged at regular intervals in the vertical direction and the horizontal direction. The shape and arrangement interval of the fused part 14 are not particularly limited as long as the liquid flows and the body can be cooled satisfactorily.
In general, the concept regarding the configuration of the fused portion 14 is as follows.
(1) The flow rate of the liquid pumped by a pump or the like can be secured, and the flow path unit 16 having an area large enough to be cooled sufficiently is set.
(2) When the liquid is flowed at a predetermined pressure, the size is set such that the fusion part 14 does not peel off due to the pressure of the liquid or the movement of the body.
(3) The shape and the arrangement interval of the fusion part 14 are set so that the liquid flows in all directions as much as possible, such as the vertical direction, the horizontal direction, and the oblique direction.
In consideration of these three points, the balance is set. Generally speaking, it is expected that a configuration in which a circle, an ellipse, and a polygon are spaced apart on a plane often satisfies the above two requirements.

In the case of the configuration of this embodiment, by providing the fusion points at a distance from each other in plane, the swelling of the liquid passage 3 can be suppressed even when pressure is applied to the liquid, and the volume of the cooling and dehumidifying device is reduced. Can do. Moreover, since it forms with the uneven | corrugated sheet 2, if necessary, it can form thinly and can reduce the amount of water required for cooling dehumidification. Since the amount of cooling and dehumidifying water per unit area and unit volume can be reduced, cooling and dehumidification can be performed immediately.
Further, with regard to the liquid channel member, the liquid channel member has the fusion part 14 formed by being fused in a spaced manner in the plane, so that, for example, an advantage that a liquid channel can be secured in the horizontal, vertical, and oblique directions. There is. In addition, even if the liquid channel 3 bends according to the shape and state of the moving body and the object, the channel portion 3 is suppressed from being closed by the small unevenness 15. In addition, since it is possible to easily form the uneven sheet 2 on which the small unevenness 15 is formed and to form the fused portion 14, it is possible to greatly reduce the manufacturing cost in configuring the cooling and dehumidifying device. .

FIG. 5 shows another configuration of a set of sheets forming the liquid path 3 having the fused portion 14 and the flow path portion 16. The configuration of the modification according to the first embodiment is characterized by two points.
First, the first point is that the sheet on one side is constituted by the flat sheet 17 and the other sheet is the uneven sheet 2.
The 2nd point is characterized by having formed convex part 15 of unevenness 15 in one of a printing convex part and a spraying convex part. Also in the first embodiment, it can be manufactured in the same manner simply by adopting the concavo-convex sheet 2 used for forming the liquid path member 1 as a printing convex part sheet and a spraying convex part sheet.

Hereinafter, with reference to FIG. 6 to FIG. 10, the features and contrivances of this embodiment when used as a cooling garment or a cooling member will be described.
(Adoption of folding part 21 at the detachable part)
Although the liquid channel 3 must be continuous as a water channel, it is necessary to switch between the case of wearing the cooling garment 20 and the case of taking it off. In order to solve this problem, the folded portion 21 of the liquid path 3 is provided in a portion where the detachable member 13 of the winding band portion is provided.
In the configuration shown in FIG. 6, the folded portion 21 has at least a longitudinal direction liquid passage 22, 22 extending in the circumferential direction in the length direction, for example, around the waist, and a width direction liquid passage 23 continuous as a water passage in the width direction. I have.
Further, a separation portion 24 extending in the length direction of each of the pair of length direction liquid passages 22 is provided. By having the separation part 24, it is possible to make the longitudinal liquid passages 22 and 22 follow along the body surface such as a fat person, a thin person, or a person who gets angry. Furthermore, for example, in the length direction, the width direction, or the front-rear direction (the direction orthogonal to the sheet surface of the liquid path) of the length direction liquid passages 22 and 22, each length depends on the body shape and the movement of the body. The directional liquid passages 22 and 22 can move relatively freely.
The separation part 24 can also be formed by making a linear cut on the sheet surface on which the plurality of liquid passages 3 are formed.

(Configuration in which a plurality of circulating liquid passages 1 are separated and wound)
As shown in FIGS. 7 to 10, a plurality of circulating liquid passages 1 having folded portions 21 are spaced apart from each other and wound around the chest and trunk. Specifically, the lower liquid passages 3b and 3b are provided with a distance L from the upper liquid passages 3a and 3a of the trunk portion, and a total of four circulation type liquid passages 1 can be wound around the chest and the trunk portion. It can be configured. It is possible to increase the number of the plurality of circulation type liquid passages 1 to 2, 4, 6,..., 2n, but when considering the configuration of the cooling clothes for cooling the torso and the chest, ease of making, Considering the manufacturing cost and the like, it can be expected that the number is preferably 2 to 8 or less.
By arranging with a plurality of circulation type liquid passages 1 and intervals L, the movement of the body can be tracked without interfering with the movement of the same cooling area as compared with the case where one wide circulation type liquid passage 1 is used. can do.

(Convention of the structure of the detachable member 13)
The detachable member 13 is preferably attached to a cover member 25 such as a storage bag 25 a that stores the liquid passage 3 having the folded portion 21. The reason is that a large force is often applied to the attachment / detachment member 13 such as the hook-and-loop fastener 13a, and when the attachment / detachment member 13 is attached to the circulation type liquid passage 1 itself, the circulation type liquid passage 1 is likely to be damaged. Because.
However, as the structure of the cover member 25, not only a bag structure but various structures can be adopted. For example, the cover member 25 may be composed of a reinforcing sheet with good heat conduction, and the liquid path 3 may be covered with the reinforcing sheet, or the reinforcing sheet may be laminated together in the manufacturing process of the circulating liquid path 1. . In such a configuration, a configuration in which the detachable member 13 is attached to the reinforcing sheet integrated with the circulation type liquid path 1 can also be employed.
Since the concavo-convex sheet 2 and the flat sheet 17 of the liquid path 3 are made of a material having flexibility, the circulation type liquid path 1 has, for example, shapes such as a trunk and a chest that have different sizes and shapes for each operator. It can be wound in such a form as to follow exactly.

As shown in FIGS. 7 to 10, for example, when the circulation type liquid passage 1 for winding an adult's torso and chest is constructed, it is based on the size standards of the cooling clothing such as the sizes S, M, L, and LL. Thus, the length in the longitudinal direction of the circulation type liquid passage 1 may be determined on the assumption of the circumference of the torso or the chest which is expected from the size of the body.
For example, a length obtained by adding the length around the chest / torso of the assumed operator and the length of the overlapping region 28 (see FIG. 7) of the detachable member 13 fixed to the distal end side of the circulation type liquid passage 1. What is necessary is just to set the circulation type liquid path 1 suitably.
It should be noted that by setting the length of the overlapping area 28 large enough with a margin and adjusting the length of the overlapping area 28 to a level that matches the waist of each individual, It is possible to provide the circulation type liquid passage 1 having a high cooling effect close to the skin.

(A device for making the wrap-around circulation type liquid passage 1 separately inside the front face portion 26 of the cooling garment 20)
In the present embodiment, the base end 3 c of the liquid path 3 is fixed to the back surface portion 29 of the cooling garment 20, and is configured to be wound separately from the front surface portion 26 of the cooling garment 20.
If it is this structure, the circulation type liquid path 1 can be wound in the contact | adherence state preferable for an operator separately from the adhesiveness of the front part 26 of the cooling garment 20. That is, as compared with the configuration in which the liquid passage 3 is formed in the exterior part itself such as the front part 26 of the cooling garment 20, it is not affected by the adhesion between the exterior part of the cooling garment 20 and the chest / body, and the wrap-around circulation. Since the mold liquid path 1 can be wound around the chest and torso in a state preferable to the operator, the cooling performance can be increased without difficulty.

(Structure of connecting the left and right circulation type liquid passages 1 with play with a flexible connecting pipe 31)
By disposing the base end 3c of the liquid passage 3 in the central width region 30 of the back surface portion 29 and connecting the base end 3c with a soft connecting tube 31 such as a rubber tube, the body twisting motion, bowing motion, The circulation-type liquid path 1 can be changed so as to follow each movement of the chest and torso, such as a back-warping operation. In this case, by providing the central width region 30 with a certain degree of elasticity, it is possible to cope with fluctuations in the circumferential direction.

(Advantage of the configuration in which the fastener 33 on the front surface of the cooling garment 20 and the opening / closing part of the circulation type liquid passage 1 are substantially coincident)
In this embodiment, the detachable member 13 is constituted by a detachable hook-and-loop fastener 13 a fixed to the circulation type liquid passage 1. The hook-and-loop fastener 13a is, for example, a hook-and-loop fastener that is detachably attached by locking a male engaging member and a female engaging member. As an example, Velcro (registered trademark) is well known. ing. Note that Free Magic (registered trademark) in which both the male engaging portion and the female engaging member are on the engaging surface can be suitably used.
Moreover, as shown in FIGS. 7-9, the overlapping area | region 28 of the circulation type liquid path 1 on either side is provided in the position corresponding to the front surface position in which the line fastener 33 or the hook_and_loop | surface fastener 33 of cooling clothing was provided. Therefore, the attaching / detaching member 13 of the circulation type liquid path 1 can be easily attached / detached using a hand for opening the fastener 33.

[Second Embodiment]
As shown in FIG. 11, in this embodiment, by setting the length of the sheet portion of the flow path portion 16 to be longer than the linear length S of the flow path portion 16, the liquid swells when the liquid flows. The structure which improved the adhesiveness of is demonstrated.
As shown in FIG. 11 (A), at least one concavo-convex sheet 2 having a length larger than the full width L of the liquid path or a vertical length (not shown) is prepared. Then, when the fusion part 14 is formed as shown in FIG. 11B, the liquid is supplied to the flow path part 16 by the width and length of the upper uneven sheet 2 and the lower uneven sheet 2 in FIG. The bulge R (indicated by R in FIG. 11) can be increased when flowing. In this production, it is necessary to perform the fusing process with care so that the wide upper concavo-convex sheet 2 and the lower concavo-convex sheet 2 are not folded and fused to the fusion part 14. As a method therefor, a method is conceivable in which air is pressurized and a fusion treatment is performed in a state where the upper and lower uneven sheets 2 are swollen.
Only the sheet 2 on one side of the upper concavo-convex sheet 2 and the lower concavo-convex sheet 2 may be set large in the width direction and the length direction so as to be configured as a wide sheet or a vertically long sheet.
FIG. 11C is a schematic enlarged cross-sectional view showing a state of the flow path portion 16 that swells up and down in a state where the liquid flows.
It should be noted that the magnification of the configuration with the large bulge R as shown in FIGS. 11B and 11C as compared with the configuration with the small bulge of the flow path portion 16 as shown in FIG. It will vary depending on the application and location of the cooling garment used.

[Third embodiment]
The embodiment shown in FIG. 12 shows a cooling garment 20 provided with a neck- / shoulder circulation type liquid passage 40 that cools the neck-shoulder.
The folding part 21 is provided on the front end side of the circulating liquid passage 40 for the neck / shoulder part on the one side and the circulating liquid path 40 for the neck / shoulder part on the other side shown in FIG. 21 is provided with a detachable member 13 (for example, a hook-and-loop fastener 13a) that can be attached to and detached from the left and right circulation type liquid passage 1 on the front side of the cooling garment 20.
It is also possible to employ a method in which the attachment / detachment member 13 is not provided on the front end side, and the front side left and right circulation type liquid passages 1 are accommodated by being sewn to the accommodation bag 25a shown in FIG. 9 and FIG.
Although not shown, a dedicated neck circumference / shoulder circulation type liquid passage 40 can be manufactured separately from the chest and torso.
As the liquid path 3 that employs the circulation liquid path 40 for the neck and shoulder portions, the liquid paths shown in the first and fourth examples and the configurations shown in (A) and (B) of the fifth embodiment are used. Can be adopted.
In FIG. 12, for convenience, the liquid paths shown in the first example, the fourth example, and the fifth embodiment are drawn in a simple pair of tubes.

[Fourth embodiment]
As shown in FIG. 13, the feature of the fourth embodiment is that the liquid passage 3 formed by the edge joining portion 7 of the sheet is used instead of the liquid passage 3 by using the uneven sheet 2 as shown in FIG. The three-dimensional structure 41 having flexibility is fixed inside.
In the configuration shown in FIG. 13, the three-dimensional structure 41 has a configuration including a gap 42 through which a liquid flows, so that a good liquid flow can be secured.
As an example of the three-dimensional structure 41, there can be exemplified a fiber structure in which warp yarns and weft yarns intersect vertically and a gap 42 through which liquid flows is secured by the intersection. Examples of such a fiber structure include a mesh in which warp and weft intersect vertically.
Further, the three-dimensional structure 41 is preferably fixed to at least one of the sheet surfaces constituting the liquid path 3.

Furthermore, it is preferable to fix the three-dimensional structure 41 to at least one of the sheet surfaces by the same method as the joining method according to the plurality of joining sheets 2 for forming the shape pattern of the liquid path 3. In that case, the same type as the synthetic resin constituting the three-dimensional structure 41 and the synthetic resin constituting the bonding sheet 2 or a synthetic resin that can be easily bonded is selected. The three-dimensional structure 41 can be fixed to at least one of the joining sheets 2 and 2 by joining the three-dimensional structure 41 together with the edge joint portion 7 in the same manner.
The present invention also excludes a method of fixing a three-dimensional structure 41 in the central zone of the liquid path 3 assumed by providing fixing means such as an adhesive on at least one side of the heat-sealing sheets 2 and 2. Not what you want.

[Fifth embodiment]
The configuration shown in FIG. 14A is a configuration in which the wrapping circulation type liquid passage 1 is constituted by a straight fluid passage 3, and connection ports 6 are provided at both ends. The shape of the wrap-around circulation type liquid passage 1 is not limited to a linear shape, but can be deformed according to the shape of the portion to be cooled, such as a curved shape.
The configuration shown in FIG. 14A can constitute a part of the winding band portion of the winding circulation type liquid passage 1.

The configuration shown in FIG. 14 (B) is configured by the partition joint portion 44 between the length direction liquid paths 22 and 22, so that the length direction liquid paths 22 and 22 and the width direction liquid section 23 are formed and folded. It is characterized in that the portion 21 is configured. That is, it can be said that the part of the separation part 24 shown in FIG. 1 and FIG. 6 is constituted by the partition joint part 44 similar to the edge joint part 7 without being separated.
Also in this embodiment, the folded portion 21 can be formed at the detachable portion where the detachable member 13 is provided.

[Sixth embodiment]
The embodiment shown in FIG. 15A shows a configuration in which the circulation type liquid path 1 is wound around the hand 34, a liquid container 35 containing ice, and a control unit 36 having a motor and a power supply attached to the waist. is there.
A hook-and-loop fastener 13a is attached to the circulation type liquid path 1, and the portion of the hand 34 to be cooled can be continuously cooled by winding. As an application for cooling the hands 34, not only cooling in hot weather but also medical cooling can be employed. That is, it may be better to cool from medical detection, such as sprains, bruises, burns or scratches. In the case of the wrapping type circulation type liquid passage 1 according to the present embodiment, the hand 34 such as the arm or the palm is not affected even if the size, the thickness, and the portion to be cooled are different. Can do. Moreover, it can cool over a long time only by supplying ice in the liquid container 35.
Although not shown, the circulation type liquid passage 1 of the present embodiment can be similarly applied to each part of the foot such as the thigh, the calf, the instep and the sole of the foot in the form of wrapping each part.

  In the embodiment shown in FIGS. 15B and 15C, the circulation type liquid passage 1 for cooling the head is preferably composed of a belt 37 formed of a cloth or a fiber material that can be wound, and a belt 37 in contact with the head. Has a circulation type liquid passage 1 provided on the inner surface, and attachment / detachment members 13, 13 attached to a pair of attachment / detachment end regions 38, 38 of the band portion 37.

[Seventh embodiment]
The embodiment shown in FIG. 16 shows a state in which the circulation type liquid path 1 is wound around a portion where a pet such as a dog or cat can be wound. Usually it is often wrapped around the body. The liquid container 35 and the control unit 36 shown in FIG. 15 may be attached to a pet animal, or may be attached to the waist of the owner when taking a walk of the owner if the animal is a small pet animal whose weight is a burden. .
By adopting the wrap-around circulation type liquid passage 1, it is not limited to the part where the kind, size or temperature of the pet animal is adjusted, and it is a great advantage that it has versatility.

The present invention can be modified in various ways within the scope of the present invention other than the above-described embodiments.
(1) In the embodiment, water is preferable as the liquid. However, the present invention can also be configured by adopting a liquid obtained by mixing a substance (liquid) that promotes heat exchange with water, or a liquid other than water suitable for heat exchange. Even if it is these structures, it is preferable to employ | adopt the structure which is not harmful to the human body as the liquid which accelerates | stimulates an above described heat exchange.
(2) In the present invention, it is a known technique to provide a pump for circulating the liquid in the liquid path or to provide a liquid container containing ice. What is necessary is just to employ | adopt the optimal structure, such as various liquid containers.
(3) In the above-described embodiment, the temperature adjustment is described by taking an example of cooling. However, if necessary, a configuration in which warm water is supplied to warm the body can be employed. In this case, instead of the “liquid container containing ice” described in (2) above, a “hot water container or the like equipped with a heating device” may be provided. Examples of such a heating device include heating by fuel combustion such as a gas burner, heating by electric means such as an electric heater, heating such as mixing of chemical substances, and the like.
(4) The “body” cooled or warmed by the circulating liquid passage 1 using temperature-adjusted water includes pets such as dogs and cats and various animals such as race horses.
(5) Moreover, the said unevenness | corrugation formed in the said uneven | corrugated sheet will not be specifically limited if the flow of water can be maintained substantially favorable even if it curves to some extent. For example, not only a circle such as a circle and an ellipse, but also one provided with a large number of polygons such as a hexagon. Moreover, various uneven | corrugated shapes, such as a grid pattern, a rhombus pattern, and a grid pattern formed by making a some convex line or a concave line intersect at an angle, can be illustrated. Moreover, the said unevenness | corrugation can also employ | adopt the uneven | corrugated sheet | seat etc. in which the small uneven | corrugated | grooved part used for wallpaper etc. is formed irregularly.

DESCRIPTION OF SYMBOLS 1 ... Circulation type liquid path 2 ... Concavity and convexity sheet 3 ... Liquid passage 3c ... Base end 4 ... Inlet part 5 ... Outlet part 6 ... Connection port 11 ... Pipe part 13 ... Detachable member 13a ... Surface fastener 15 ... Concavity and convexity 14 ... Fusion Part 16 ... Channel part 20 ... Cooling garment 21 ... Folding part 22 ... Length direction liquid path 23 ... Width direction liquid path 24 ... Separation part 25 ... Cover member 25a ... Containment bag 26 ... Front part 29 ... Back part 30 ... Center Width region 31 ... Connecting pipe 33 ... Fastener 40 ... Circulation type liquid passage 42 around the neck and shoulders ... Gap 41 ... Three-dimensional structure H ... Height of unevenness W W ... Horizontal width of unevenness 15

Claims (23)

The liquid path (3) has a length that can be wound around the body of a human being or an animal and forms a flow path for circulating water, and the liquid path (3) is wound around the body. A detachable member (13) for selecting a state where
The liquid path (3) includes at least one concavo-convex sheet (2) formed with small concavo-convex portions (15), and a plurality of sheets are superposed and a part thereof is fused in a plane and spaced apart. A fusion part (14) formed, and a flow path part (16) formed without being fused between the fusion part (14), and the liquid channel (3) is connected to the fusion part. A wrap-around circulation type liquid passage characterized in that (14) and the flow passage portion (16) are arranged so as to spread in a plane. The wound circulation type liquid passage according to claim 1, wherein the height (H) of the unevenness (15) is in the range of 0.05 mm to 10 mm, and the lateral width (W) is 0.05 mm to 10 mm. A wrap-around circulation type liquid passage constructed in the range of The winding-type circulation type liquid channel according to claim 2, wherein the projections and depressions (15) are formed as at least one of embossing, printing, and spraying processes as the concave-convex sheet (2). In the winding | circulation type | formula circulation type liquid path as described in any one of Claims 1-3, in the front end side area | region which attached the said detachable member (13) of the said circulation type liquid path (1) to wind, A wrap-around circulation type liquid passage provided with a folded portion (21) in the liquid passage (3). 5. The wrapping type circulation type liquid passage according to claim 4, wherein a plurality of the circulation type liquid passages (1) having the folded portion (21) are wound around a chest / body part at a distance. Wrapped circulation type liquid path. The wrap-around circulation type liquid passage according to any one of claims 4 to 5, wherein the folded portion (21) includes a longitudinal liquid passage (22, 22) extending in a length direction and a width. A wrapping circulation type liquid having a width direction liquid path (23) continuous as a water path in the direction and a separating portion (24) extending in the length direction of each of the length direction liquid paths (22, 22). Road. The wrap-around circulation type liquid passage according to any one of claims 4 to 6, wherein the detachable member (13) covers the liquid passage (3) having the folded portion (21). Wrapped circulation type liquid passage attached to 25). The winding-type circulating liquid path according to any one of claims 1 to 7, wherein a base end (3c) of the liquid path (3) is fixed to a back surface portion (29) of a cooling garment (20). And the winding-type circulation type liquid path made into the structure wound separately from the said front-surface part (26) of the said cooling garment (20). The winding-type circulating liquid path according to any one of claims 1 to 8, wherein a plurality of the liquid paths (3) are connected to a flexible connecting pipe (31) in a circumferential direction around which the body is wound. And a wrap-around circulation type liquid passage configured to be adjusted in the circumferential direction by a margin length or deformation of the connection pipe (31). The wrapping type circulation type liquid passage according to any one of claims 1 to 9, wherein the circulation type liquid passage (1) wound around a human chest / body part and a cooling garment (20) are attached / detached. A wrapping circulation type liquid passage having the detachable member (13) provided so as to correspond to the position of the fastener (33). The wrapping circulation type liquid passage according to claim 1, wherein the wrapping type circulation type liquid passage is provided with a neck portion / shoulder circulation type liquid passage (40) for cooling the neck portion and the shoulder portion. The wound circulation type liquid passage according to any one of claims 1 to 11, wherein a connection port (6) is provided at an inlet portion (4) and an outlet portion (5) of the liquid passage (3). The connecting mouthpiece (6) is a wrapping circulation type having a joining surface part (8) for joining the concavo-convex sheet (2) and a pipe part (11) communicating with the liquid path (3). Liquid path. The wound circulation type liquid passage according to any one of claims 1 to 12, wherein the liquid passage (3) having the fusion portion (14) and the flow passage portion (16) is used. A wrap-around circulation using a three-dimensional structure (41) having a gap (42) through which the liquid flows is fixed to the liquid path (3) formed by the edge joint (7) of the sheet. Type liquid channel. The wrap-around circulation type liquid passage according to claim 13, wherein a fold-back portion () is formed on the liquid passage (3) in a distal end side region where the detachable member (13) of the circulation type liquid passage (1) is attached. 21) A wrap-around circulation type liquid passage provided. The wrapping type circulation type liquid passage according to claim 14, wherein a plurality of the circulation type liquid passages (1) having the folded portion (21) are wound around the chest / body part at a distance. Wrapped circulation type liquid path. The wrap-around circulation type liquid passage according to claim 14, wherein the folded portion (21) includes a longitudinal direction liquid passage (22, 22) extending in a length direction and a width direction liquid continuous as a water passage in the width direction. A wound circulation type liquid passage having a passage (23) and a separating portion (24) extending in the length direction of each of the longitudinal liquid passages (22, 22). The winding circulation type liquid passage according to claim 14, wherein the detachable member (13) is attached to a cover member (25) covering the liquid passage (3) having the folded portion (21). Type liquid channel. The wrapping-type circulating liquid path according to claim 14, wherein a base end (3c) of the liquid path (3) is fixed to a back surface portion (29) of the cooling garment (20), and the cooling garment (20). A wrapping-type circulation type liquid passage having a structure wound separately from the front surface portion (26). The wound circulation type liquid passage according to any one of claims 1 to 7, wherein the human head, hand, foot, etc. can be wound for each purpose of cooling use, warming use, medical use, etc. A wrapping circulation type liquid passage having the liquid passage (3) having a length capable of being wound around a portion. The wrapping-type circulation type liquid passage according to any one of claims 1 to 7, wherein the length of the wrapping-type circulating liquid path that can be wound around the wrappable portion of the animal for each purpose such as cooling use, warming use, and medical use. A wrap-around circulation type liquid passage having the liquid passage (3). The wrapping type circulating liquid path according to any one of claims 13 to 18, wherein the human head, hand, foot, etc. can be wound for each purpose of cooling use, warming use, medical use, etc. A wrapping circulation type liquid passage having the liquid passage (3) having a length capable of being wound around a portion. The length which can be wound around the winding possible part of the said animal for each purpose, such as a cooling use, a warming use, a medical use, in the winding-type circulation type liquid path as described in any one of Claims 13-18. A wrap-around circulation type liquid passage having the liquid passage (3). A liquid path (3) having a length that can be wound around the body of a human or animal and forming a flow path for circulating water, and a state in which the liquid path (3) is wound around the body; A detachable member (13) for selecting the unwound state,
The liquid path (3) is not fused between the fusion part (14) formed by superposing at least two sheets and fusing a part thereof, and the fusion part (14). And the liquid passage (3) is formed by arranging the fusion portion (14) and the flow passage portion (16) so as to spread in a plane. A wrap-around circulation type liquid passage characterized by being made.

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