JPH0525498B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Field of Industrial Application This invention relates to a body temperature regulating device, and particularly to improvements in its heat exchanger.

(B) Prior Art As a conventional body temperature regulating device, a so-called water-cooled space suit in which a tube made of soft vinyl chloride resin is formed in the shape of a garment is known.

(c) Problems to be Solved by the Invention However, in conventional heat exchangers, the contact area between the tube and the body temperature regulator is small, resulting in low heat exchange efficiency. In order to ensure this, the entire length of the tube had to be long, for example 90m. For this reason, the means for circulating and transporting the heat medium must be powerful, and there is also the problem that the heat exchanger itself is heavy and difficult to handle. Furthermore, there was a problem in that the poor elasticity made it difficult for the user to carry out activities.

The present invention has been made in view of the above circumstances, and provides a body temperature regulating device that efficiently exchanges heat for supplying heat to the body temperature regulator, and further improves the circulation of a heat medium. By shortening the system path, it is not necessary to have a strong output of the means for circulating and transporting the heat medium, and the weight of the heat exchanger is light and easy to handle, and the body temperature is easily controlled when worn by the body temperature regulator. A regulating device is provided.

(D) Means for Solving the Problems The present invention provides a single heat supply means for applying heat to a heating medium, and a plurality of internally communicating with each other by fusing two soft resin sheets to each other. A plate-shaped heat exchange unit forming a heat medium flow path, a garment to which a plurality of the heat exchange units are attached, and connecting each of the plurality of heat exchange units in parallel to the heat supply means. a circulation path for the heat medium having flexibility, and a means for circulating and transporting the heat medium through the circulation path, the circulation path being arranged along the clothing, and a means for circulating and transporting the heat medium through the circulation path. This body temperature regulating device is detachably connected to the heat supply means via a coupler.

(Function) According to the present invention, the temperature of the entire garment can be uniformly and efficiently adjusted.

In addition, a plurality of plate-shaped heat exchange units are provided, which are formed by fusing two soft resin sheets to each other to form a plurality of heat medium flow paths that communicate with each other.
Since each heat exchange unit is connected in parallel to the heat supply means through a flexible circulation path, the heat medium transfer between each heat exchange unit is not hindered.
In addition, it can flexibly respond to complex movements of the human body.

Furthermore, since the circulation path and the heat supply means are detachably connected via the coupler, the heat supply means can be easily separated.

(f) Examples This invention will be described in detail based on the examples shown in FIGS. 1 to 10, but the invention is not limited thereby.

FIG. 1 shows the configuration of a body temperature regulating device 1. Reference numeral 2 denotes a circulation path through which a heat medium is circulated and transported; 3 a heat supply means for supplying heat to the heat medium; It is connected by. Reference numeral 9 denotes clothing worn by the body temperature regulator, and a plurality of heat exchange units 10 are attached to the clothing 9. Clothing 9 is composed of a jacket 11 and pants 12. The heat medium circulation path 2 connecting the evaporator 7 of the heat supply means 3 and the heat exchange unit 10 and between the respective heat exchange units 10 is constituted by a flexible pipe 13 made of vinyl chloride resin. Reference numeral 14 denotes a circulating transport pump which is a circulating means for transporting the heat medium. The circulation path 2 is provided with a three-way valve 15 and a bypass 16.

As shown in FIGS. 2 to 4, the heat exchange unit 10 has one side with a partition 17 formed by fusing soft vinyl chloride resin with a wall thickness of 1 mm, for example, to form a flow path for the heat medium inside. It consists of a plate-shaped main body 18 having a substantially square shape with a diameter of about 80 mm and a thickness of 3 to 5 mm, and a connecting part 19 made of vinyl chloride resin in the shape of a T-tube and connected to a pipe 13. The weight of the heat exchange unit 10 is approximately 16 g. Further, the connection between the pipe 13 and the heat exchange unit 10 is achieved by inserting the pipe 13 inside the connection part 19 of the heat exchange unit 10 and gluing it with adhesive (see Fig. 3). ).

The jacket 11 of the garment 9 has six heat exchange units 10 on the front, two on the left and right arms, and eight on the back, and the pants 12 have two heat exchange units 10 on the left and right thighs. By stitching the ends of the main bodies 18 of the heat exchange units 10 to the cloth 20, two on the left and right sides of the calves, each heat exchange unit 10 is connected to the heat supply means 3 through the pipes 13. They are arranged to be connected in parallel. pipe 1
3 is fixed in a predetermined position by a net (not shown) formed on the cloth 20 by a cross stitch (see FIGS. 5 to 10).

As shown in FIG. 10, the clothing 9 has a flexible heat insulating layer 21 extending from the outside to the body side.
It has a three-layer structure consisting of a cloth 20 to which the heat exchange unit 10 and the pipe 13 are attached, and a cloth 22 on the side that comes into contact with the body. Heat exchange unit 1
0 and the pipe 13 are sandwiched between two cloths 20 and 22.

A heat medium circulation path 2 on the inflow side extending from the evaporator 7 of the heat supply means 3 toward the clothes 9 branches into a jacket 11 side and a pants 12 side before the clothes 9. The circulation path 2 for the heat medium returning from the clothes 9 to the evaporator 7 of the heat supply means 3 has the same configuration as the inlet side. Jacket 1
The pipe 13 extending to the first side and the pants 12 side is fixed at each side, and a coupler 23 is attached near the front of the fixed part. It is possible to connect and disconnect the heat supply means 3 and the heat supply means 3 side. Valves are embedded inside both ends of the coupler 23, and the heat medium circulation path 2 is connected to the clothing 9 side and the heat supply means 3.
When the heating medium is separated to the side, the heating medium is prevented from spilling out of the circulation path 2. The pipe 13 on the inflow side extending from the coupler 23 to the outerwear 11 side branches into two flow paths on the left and right, and each of them further branches into three directions: the front, the arm, and the back, and is configured to be connected to the heat exchange unit 10. ing. The branching configuration of the pipe 13 on the return side of the jacket 11 is the same as on the inflow side. Moreover, the pipe 1 on the inflow side extending from the coupler 23 to the pants 12 side
3 is configured to branch into two flow paths, left and right, and each branch into two directions, one for the crotch region and the other for the calf region, and connected to the heat exchange unit 10. pants 12
The branching configuration of the pipe 13 on the return side is the same as that on the inflow side.

The body temperature regulating device 1 of the present invention is configured as described above, and is used as shown below.

First, a person to be body temperature adjusted wears a jacket 11 and pants 12, which are clothes 9, and connects a coupler 23 to form a heat medium circulation path 2.

Next, when the rotary compressor 4 is activated, the rotary compressor 4 sucks in the low-pressure refrigerant gas, compresses it, converts it into a high-temperature and high-pressure gas, and sends it to the condenser 5. The refrigerant gas is condensed in the condenser 5, releases heat to the outside, and becomes liquefied. The liquefied refrigerant is depressurized in the capillary reach tube 6 and then sent to the evaporator 7, where it absorbs the heat of vaporization from the surroundings and becomes a gas. The low-pressure refrigerant gas that has become a gas in the evaporator 7 returns to the rotary compressor 8 again and circulates through the flow path 8 (in the direction of arrow A in FIG. 1).

A heat medium circulation path 2 is connected to the evaporator 7, and when the refrigerant is vaporized, the heat of vaporization is taken away from the heat medium, that is, cold heat is given to the heat medium.
The heat medium that has been cooled by being given cold heat is circulated within the circulation path 2 by the transport force of the circulation transport pump 14 . This circulating heat medium enters the heat exchange unit 10 from the pipe 13 (in the direction of arrow B in Figure 3), where it performs heat exchange, that is, gives cold heat to the body temperature regulator, and then passes through the pipe leading to the heat supply means 3 side. 13 (in the direction of arrow C in Figure 3). The body temperature regulator receives this cold heat and lowers the body temperature to regulate body temperature.

Next, a part of the heating medium that has become warm by giving cold energy to the body temperature regulator from the heat exchange unit 10 goes to the bypass 16 (in the direction of arrow D in FIG. 1), and the rest goes to the heat supply means 3 (the first direction of arrow E). Bypass 16
The warm heat medium that has proceeded to the heating medium and the cold heat medium from the heat supply means 3 are mixed at the three-way valve 15, and by controlling the opening and closing of the three-way valve 15, the temperature of the heat medium sent toward the circulation pump 14 can be adjusted to a desired temperature. can. Furthermore, by controlling the output of the rotary compressor 4, the amount of cold heat supplied from the heat supply means 3 to the heating medium can be adjusted as appropriate. As described above, the amount of cold heat received by the body temperature regulator can be adjusted.

After use, the coupler 23 separates the heat medium circulation path 2 into the clothing 9 side and the heat supply means 3 side. At this time,
The body temperature regulator can take off the clothing 9 without spilling the heat medium by the action of the valve of the coupler 23.

At this time, since the clothing 9 and the heat exchange unit 10 and pipe 13 attached to the clothing 9 have flexibility, they can be easily taken off. Further, even when wearing the clothes 9, the clothes 9 are flexible,
Since the heat exchange unit 10 is flexible and is not attached to parts that are subject to severe bending, such as relative joints, the body temperature regulator can act freely.

In the above example, the heat supplied to the body temperature regulator is cold, but it may be warm if necessary. At this time, the heat supply means supplies warm heat.

Further, for example, by bringing a temperature sensor into contact with the neck of the body temperature regulator, and providing a control means for controlling the opening and closing of the three-way valve and the output of the rotary compressor based on the measured value from the temperature sensor, It is possible to automate the supply of cold and heat to the body temperature regulator.

(G) Effects of the Invention As described above, according to the present invention, the temperature of the entire garment can be uniformly and efficiently adjusted, and as a result, the total weight of the garment can be reduced and the impact on the person wearing it can be reduced. It is possible to suppress it.

In addition, a plurality of plate-shaped heat exchange units are provided, which are formed by fusing two soft resin sheets to each other to form a plurality of heat medium flow paths that communicate with each other.
Since each heat exchange unit is connected in parallel to the heat supply means through a flexible circulation path, the heat medium transfer between each heat exchange unit is not hindered.
In addition, it can flexibly respond to complex movements of the human body.

Furthermore, since the circulation path and the heat supply means are detachably connected via the coupler, it is convenient that the heat supply means can be easily disconnected when the user is in a room with complete temperature control.

[Brief explanation of the drawing]

Fig. 1 is an explanatory diagram showing the configuration of an embodiment of the present invention, Fig. 2 is a perspective view of a heat exchange unit and pipes used in this, Fig. 3 is a partial sectional view taken along line FF,
Figure 4 is a partial sectional view taken along the line G-G, Figures 5-7 are explanatory diagrams showing the heat exchange unit and pipe attached to the jacket, Figures 8-9 are the heat exchange unit and pipe attached to the pants. Explanatory diagram showing the attached state, No. 10
The figure is a sectional view showing the structure of the garment. 1... Body temperature regulator, 2... Heat medium circulation path, 3
... Heat supply means, 9 ... Clothing, 10 ... Heat exchange unit, 13 ... Pipe, 18 ... Main body of heat exchange unit, 19 ... Connection part of heat exchange unit, 2
3...Coupler.

Claims (1)

[Claims] 1. Only one heat supply means that gives heat to the heating medium,
A plate-shaped heat exchange unit formed by fusing two soft resin sheets to each other to form a plurality of mutually communicating heat medium channels therein; and a garment to which a plurality of the heat exchange units are attached; a circulation path for the heating medium having flexibility for connecting each of the plurality of heat exchange units in parallel to the heat supply means; and means for circulating and transporting the heating medium via the circulation path. A body temperature regulating device, characterized in that the circulation path is arranged along the clothing, and the circulation path and the heat supply means are detachably connected via a coupler.