CN212814357U - Cooling clothes - Google Patents

Abstract

The utility model relates to a cooling clothes, including clothes main part, stock solution unit, water-cooling joint, semiconductor refrigeration unit, water pump, circulation honeycomb duct, heat dissipation unit, temperature sensor, main control unit, electrical unit and barrier layer. The clothes have the advantages that the fluid layer is arranged in the clothes body, so that the cooled liquid flows in the fluid layer, and the athlete can be cooled comprehensively; the semiconductor refrigeration unit and the water-cooling joint are used for refrigerating and cooling liquid, so that the cooling efficiency is improved, the equipment volume is reduced, the liquid does not need to be replaced, and the long-time use is realized; utilize temperature sensor to carry out temperature detection to the clothes main part, can acquire the temperature of clothes main part in real time, the sportsman of being convenient for carries out regulation and control to the temperature.

Description

Cooling clothes

Technical Field

The utility model relates to a motion protection technical field especially relates to a cooling clothes.

Background

For athletes, precooling (cooling) before doing exercise can enhance long-term endurance exercise performance, and the benefits include: reducing cardiovascular pressure, lowering core body temperature, balancing internal environment, and reducing metabolism loss.

In the related art, the method of the pre-cooling treatment or the temperature reduction treatment includes:

(1) ice cooling treatment

The cold storage bag is made of cold storage agent (such as cold glue and phase change material) and is used as a cold source, and the cold storage bag is placed in a vest, a vest or other clothes after being refrigerated or frozen, so that the aim of cooling the human body is fulfilled.

(2) Water cooling treatment

Water flows circularly in the coil pipe through the water pump, heat of a human body is taken away for cooling, and the working principle is that sensible heat of the water is utilized for heat exchange or a polymer material after washing is attached to skin for heat absorption.

(3) Air-cooled treatment

The clothes are provided with the micro fan to actively supply air to the human body.

(4) Compression refrigeration process

Air compression is adopted for refrigeration so as to reduce the temperature of the human body.

However, the pre-cooling process described above has some drawbacks. For ice cold treatment, the coolant needs to be replaced frequently; for water cooling treatment, after long-time use, the water temperature can rise, and the cooling effect can be reduced; for air cooling treatment, the temperature of a human body cannot be effectively reduced in an outdoor high-temperature environment; for compression refrigeration treatment, the cost is high, and the air compressor is large and heavy, and has poor flexibility.

At present, no effective solution is provided for the problems of poor refrigeration effect and complicated refrigeration steps caused by a refrigeration mode in the related art.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a cooling clothes aiming at the defects in the prior art.

In order to achieve the purpose, the utility model adopts the technical proposal that:

a cooling garment, comprising:

a garment body comprising an outer layer, an inner layer, and a fluid layer disposed between the outer layer and the inner layer:

the liquid storage unit is arranged on the outer layer of the clothes main body;

a water-cooled joint disposed at the outer layer of the garment body;

the semiconductor refrigeration unit is arranged on the outer layer of the clothes main body and is connected with the water-cooling joint;

a water pump disposed at the outer layer of the garment body;

the circulation flow guide pipe is respectively connected with the fluid layer, the liquid storage unit, the water pump and the water-cooling connector of the clothes main body, so that liquid stored in the liquid storage unit circularly flows in the liquid storage unit, the water-cooling connector and the fluid layer along the circulation flow guide pipe under the action of the water pump;

the heat dissipation unit is connected with the semiconductor refrigeration unit;

a temperature sensor disposed at the inner layer and/or the fluid layer of the garment body;

the main control unit is arranged on the outer layer of the clothes main body and is electrically connected with the semiconductor refrigeration unit, the water pump and the temperature sensor;

the power supply unit is connected with the main control unit;

a barrier layer disposed at least overlying the fluidics layer.

In one embodiment, the method further comprises:

the fixing unit is arranged on the outer layer, and the water-cooling connector, the semiconductor refrigeration unit, the heat dissipation unit, the main control unit and the power supply unit are arranged inside the fixing unit.

In one embodiment, the method further comprises:

and the relay is electrically connected with the main control unit, the water pump and the semiconductor refrigeration unit respectively.

In one embodiment thereof, the heat dissipating unit includes:

and the heat radiating fin covers the hot end of the semiconductor refrigeration unit.

In one embodiment thereof, the heat dissipating unit includes:

and the heat radiation fan is arranged at the hot end of the semiconductor refrigeration unit and is electrically connected with the main control unit.

In one embodiment thereof, the heat dissipating unit includes:

the heat radiating fin covers the hot end of the semiconductor refrigeration unit;

and the heat radiation fan is arranged on the heat radiation fin and is electrically connected with the main control unit.

In one embodiment, the barrier layer is further disposed overlying the inner layer; and/or

The impermeable layer is also arranged to cover the outer layer.

In one embodiment thereof, the garment body further comprises:

the liquid inlet is arranged at the lower part of the clothes main body and is communicated with the fluid layer;

the liquid outlet is arranged at the upper part of the clothes main body and is communicated with the fluid layer;

the first end of circulation honeycomb duct with the inlet is connected, the second end of circulation honeycomb duct with the liquid outlet is connected.

In one embodiment thereof, the circulation duct comprises:

the first guide pipe is respectively connected with the water pump and the water-cooling joint;

the second guide pipe is respectively connected with the water-cooling joint and the fluid layer;

the third flow guide pipe is respectively connected with the fluid layer and the liquid storage unit;

and the fourth flow guide pipe is respectively connected with the liquid storage unit and the water pump.

In one embodiment, the method further comprises:

a plurality of leak protection sealing element, it is a plurality of leak protection sealing element sets up the circulation honeycomb duct with the junction on fluid layer the circulation honeycomb duct with the junction of stock solution unit the circulation honeycomb duct with the junction of water pump the circulation honeycomb duct with the junction that the water-cooling connects.

The utility model adopts the above technical scheme, compare with prior art, have following technological effect:

the utility model relates to a cooling clothes, a fluid layer is arranged in the clothes main body, so that the cooled liquid flows in the fluid layer, thereby cooling the sportsman comprehensively; the semiconductor refrigeration unit and the water-cooling joint are used for refrigerating and cooling liquid, so that the cooling efficiency is improved, the equipment volume is reduced, the liquid does not need to be replaced, and the long-time use is realized; utilize temperature sensor to carry out temperature detection to the clothes main part, can acquire the temperature of clothes main part in real time, the sportsman of being convenient for carries out regulation and control to the temperature.

Drawings

Fig. 1 is a schematic diagram of an exemplary embodiment of the present invention.

Fig. 2 is a circuit block diagram of an exemplary embodiment of the present invention.

Fig. 3 is a sectional view of the garment body of the present invention.

Fig. 4 is a sectional view of the water-cooled joint of the present invention.

Fig. 5 is a schematic view of the circulation duct of the present invention.

Fig. 6 is a schematic view of a first embodiment of the heat dissipating unit of the present invention.

Fig. 7 is a schematic view of a second embodiment of the heat dissipating unit of the present invention.

Fig. 8 is a schematic view of a third embodiment of the heat dissipating unit of the present invention.

Fig. 9 is a schematic view of the fixing unit of the present invention.

Wherein the reference numerals are: the clothes comprise a clothes body 1, a liquid storage unit 2, a water-cooling connector 3, a semiconductor refrigeration unit 4, a water pump 5, a circulation flow guide pipe 6, a heat dissipation unit 7, a temperature sensor 8, a main control unit 9, a power supply unit 10, a fixing unit 11, a relay 12, an outer layer 13, an inner layer 14, a fluid layer 15, an impermeable layer 16, a liquid inlet 17, a liquid outlet 18, a flow guide cavity 19, a liquid inlet connector 20, a liquid outlet connector 21, a heat conduction layer 22, a first flow guide pipe 23, a second flow guide pipe 24, a third flow guide pipe 25, a fourth flow guide pipe 26, a heat dissipation fin 27 and a.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

The present invention will be further described with reference to the accompanying drawings and specific embodiments, but the present invention is not limited thereto.

The utility model discloses an exemplary embodiment, as shown in fig. 1 ~ 2, a cooling clothes, including clothes main part 1, stock solution unit 2, water-cooling joint 3, semiconductor refrigerating unit 4, water pump 5, circulation honeycomb duct 6, radiating element 7, temperature sensor 8, main control unit 9, electrical unit 10 and fixed unit 11. Wherein, stock solution unit 2 sets up in the outside of clothes main part 1, and temperature sensor 8 sets up in clothes main part 1, and fixed unit 11 sets up in the outside of clothes main part 1, and water-cooling connects 3, semiconductor refrigeration unit 4, water pump 5, radiating unit 7, main control unit 9 and power supply unit 10 and sets up in the inside of fixed unit 11, and circulation honeycomb duct 6 is connected with clothes main part 1, stock solution unit 2, water-cooling connect 3, water pump 5 respectively.

As shown in FIG. 3, the garment body 1 includes an outer layer 13, an inner layer 14, a fluid layer 15, and a barrier layer 16. Wherein, the fluid layer 15 is arranged between the outer layer 13 and the inner layer 14, namely, the closed space between the outer layer 13 and the inner layer 14 is the fluid layer 15; a barrier layer 16 is provided at least over the fluid layer 15.

The outer layer 13 comprises an outer surface (i.e. the surface of the outer layer 13 facing the environment) and an inner surface (i.e. the surface of the outer layer 13 facing the fluid layer 15), and the inner layer 14 comprises an outer surface (i.e. the surface of the inner layer 14 facing the environment) and an inner surface (i.e. the surface of the inner layer 14 facing the fluid layer 15), i.e. the barrier layer 16 is arranged to cover at least the inner surface of the outer layer 13 and the inner surface of the inner layer 14, to prevent liquid in the fluid layer 15 from permeating into the outer layer.

In some embodiments, the barrier layer 16 is also disposed to cover the outer surface of the outer layer 13 and the outer surface of the inner layer 14, i.e., the barrier layer 16 provides a dual barrier arrangement to the outer layer 13 and the inner layer 14.

In addition, the garment body 1 includes a liquid inlet 17 and a liquid outlet 18. The liquid inlet 17 is arranged at the lower part of the clothes main body 1 and is communicated with the fluid layer 15; the liquid outlet 18 is provided at the upper part of the garment body 1 and communicates with the fluid layer 15.

The liquid inlet 17 and the liquid outlet 18 are respectively arranged at the lower part and the upper part of the clothes main body 1, so that the liquid flows in a mode of going in and out from the lower part, and the cooling efficiency of the clothes main body 1 is maximized.

Wherein, the first end of the circulation flow guide pipe 6 is connected with the liquid inlet 17, and the second end of the circulation flow guide pipe 6 is connected with the liquid outlet 18.

In this embodiment, the clothes body 1 is provided in a sandwich structure, and the area of the human body covered by the fluid layer 15 is substantially the same as the area of the human body covered by the inner layer 14 of the clothes body 1, so as to cool the wearer (athlete) comprehensively.

As shown in fig. 1, the liquid storage unit 2 includes a liquid inlet and a liquid outlet, wherein the liquid inlet is disposed at an upper portion of the liquid storage unit 2 and corresponds to the liquid outlet 18 of the garment body 1, and the liquid outlet is disposed at a lower portion of the liquid storage unit 2 and corresponds to the liquid inlet 17 of the garment body 1.

In some embodiments, the reservoir unit 2 is a cartridge or a bag. When the liquid storage unit 2 is a liquid storage box, the shape of the liquid storage unit 2 is fixed, and a certain volume is occupied; when the liquid storage unit 2 is a liquid storage bag, the shape of the liquid storage unit 2 is not fixed, and the occupied volume is variable.

Specifically, when the volume of the liquid to be used is constant, the liquid storage box is preferentially used; when the volume of liquid to be used is variable, the reservoir bag is preferably used.

As shown in fig. 4, the water-cooling joint 3 includes a diversion cavity 19, a liquid inlet joint 20 and a liquid outlet joint 21, the diversion cavity 19 is disposed inside the water-cooling joint 3, a first end of the diversion cavity 19 is connected to the liquid inlet joint 20, and a second end of the diversion cavity 19 is connected to the liquid outlet joint 21.

The liquid inlet joint 20 corresponds to a liquid outlet of the liquid storage unit 2, and the liquid outlet joint 21 corresponds to a liquid inlet of the clothes main body 1.

In some embodiments, the diversion cavity 19 is a serpentine diversion channel, which can increase the residence time of the liquid in the water-cooled joint 3.

The semiconductor refrigeration unit 4 comprises a cold end and a hot end, the cold end of the semiconductor refrigeration unit 4 faces the water-cooling joint 3, is in contact with and connected with the water-cooling joint 3, and the hot end of the semiconductor refrigeration unit 4 deviates from the water-cooling joint 3.

In some embodiments, the semiconductor refrigeration unit 4 is a semiconductor refrigeration chip.

Specifically, the semiconductor refrigeration unit 4 is a TEC 1-12706.

In some embodiments, to increase the thermal conductivity of the semiconductor refrigeration unit, thermally conductive layers 22 are provided at the cold and hot ends of the semiconductor refrigeration unit 4, respectively.

Specifically, the heat conductive layer 22 is disposed over the cold and hot ends of the semiconductor refrigeration unit 4.

In some embodiments, the thermally conductive layer 22 is a thermally conductive silicone grease.

The water pump 5 is respectively connected with the liquid storage unit 2 and the water-cooling joint 3 and is used for pumping liquid from the liquid storage unit 2 to the water-cooling joint 3.

In some embodiments, the water pump 5 is a micro dc water pump for volume control.

As shown in fig. 5, the circulation duct 6 comprises a first duct 23, a second duct 24, a third duct 25 and a fourth duct 26. Wherein, first honeycomb duct 23 is connected with water-cooling joint 3, water pump 5 respectively, and second honeycomb duct 24 is connected with water-cooling joint 3, fluid layer 15 respectively, and third honeycomb duct 25 is connected with fluid layer 13, stock solution unit 2 respectively, and fourth honeycomb duct 26 is connected with stock solution unit 2, water pump 5 respectively.

Specifically, the first draft tube 23 is respectively connected with the liquid inlet joint 20 of the water-cooling joint 3 and the water pump 5, and the liquid enters the diversion cavity 19 of the water-cooling joint 3 from the liquid inlet joint 20 through the first draft tube 23 under the action of the water pump 5; the second guide pipe 24 is respectively connected with the liquid outlet joint 21 of the water cooling joint 3 and the liquid inlet 17 of the clothes main body 1, and liquid enters the second guide pipe 24 from the guide cavity 19 through the liquid outlet joint 21 under the action of the water pump 5 and enters the fluid layer 13 from the liquid inlet 17 through the second guide pipe 24; the third flow guide pipe 25 is respectively connected with the liquid outlet 18 of the clothes main body 1 and the liquid inlet of the liquid storage unit 2, and liquid enters the third flow guide pipe 25 from the liquid outlet 18 through the fluid layer 13 and enters the liquid storage unit 2 from the liquid inlet of the liquid storage unit 2 through the third flow guide pipe 25 under the action of the water pump 5; the fourth honeycomb duct 26 is connected with the liquid outlet of the liquid storage unit 2 and the water pump 5 respectively, and liquid enters the fourth honeycomb duct 26 from the liquid outlet of the liquid storage unit 2 through the liquid storage unit 2 under the action of the water pump 5 and enters the water pump 5 through the fourth honeycomb duct 26 to complete liquid circulation backflow.

Wherein the first end of the circulation draft tube 6 refers to one end of the second draft tube 24, and the second end of the circulation draft tube 6 refers to one end of the third draft tube 25.

In some embodiments, a plurality of anti-leakage sealing elements (not shown) are further included, and are arranged at the joint of the circulation flow guide pipe 6 and the fluid layer 15, the joint of the circulation flow guide pipe 6 and the liquid storage unit 2, the joint of the circulation flow guide pipe 6 and the water pump 5, and the joint of the circulation flow guide pipe 6 and the water-cooling joint 3.

The heat dissipation unit 7 is detachably arranged at the hot end of the semiconductor refrigeration unit 4 and used for dissipating heat of the semiconductor refrigeration unit 4, so that reduction of refrigeration efficiency caused by overheating of the semiconductor refrigeration unit 4 is avoided.

In some embodiments, the semiconductor refrigeration unit 4 is passively cooled at the heat sink unit 7, as shown in fig. 6. Specifically, the heat radiating unit 7 includes a heat radiating fin 27, and the heat radiating fin 27 is provided so as to cover the hot end of the semiconductor cooling unit 4.

Because the hot end of the semiconductor refrigeration unit 4 is also covered with the heat conduction layer 22, under the action of the heat conduction layer, the heat generated by the semiconductor refrigeration unit 4 is quickly transferred to the heat dissipation fins through the heat conduction layer 22, and the heat dissipation fins radiate the heat outwards.

In some embodiments, as shown in fig. 7, the heat dissipation unit 7 actively dissipates heat from the semiconductor refrigeration unit 4. Specifically, the heat dissipation unit 7 includes a heat dissipation fan 28, and the heat dissipation fan 28 is disposed to cover the hot end of the semiconductor refrigeration unit 4.

Since the heat conducting layer 22 is also disposed at the hot end of the semiconductor refrigeration unit 4, the heat generated by the semiconductor refrigeration unit 4 is transferred to the heat conducting layer 22 under the action of the heat conducting layer 22, and the heat accumulated in the heat conducting layer 22 is rapidly transferred to the outside air by the heat dissipation fan.

In some embodiments, the heat dissipation unit 7 passively and actively dissipates heat from the semiconductor refrigeration unit 4, as shown in fig. 8. Specifically, the heat radiating unit 7 includes a heat radiating fin 27 and a heat radiating fan 28, the heat radiating fin 27 being disposed so as to cover the hot end of the semiconductor refrigeration unit 4, and the heat radiating fan 28 being disposed so as to cover the heat radiating fin 27.

Further, in order to improve heat radiation efficiency, a heat conductive layer 22 (not shown) is further provided between the heat radiation fins 27 and the heat radiation fan 28.

In this embodiment, in the case where the heat radiation pressure is not large, the heat radiation fan 28 does not operate, and only the heat radiation fins 27 are used to perform passive heat radiation on the semiconductor cooling unit 4; under the condition of high heat dissipation pressure, the heat dissipation fan 28 operates to quickly dissipate heat of the semiconductor refrigeration unit 4 under the combined action of the heat conduction layer 22, the heat dissipation fins 27 and the heat dissipation fan 28, so as to prevent the semiconductor refrigeration unit 4 from overheating.

The temperature sensor 8 is provided in the garment body 1 to monitor the temperature of the garment body 1. The temperature sensor 8 may be provided on the outer surface of the inner layer 14 of the garment body 1 for monitoring the temperature of the garment body 1 towards the wearer; the temperature sensor 8 may be provided on the outer surface of the outer layer 13 of the garment body 1 for monitoring the temperature of the garment body 1 towards the outside; the temperature sensor may also be arranged at the fluid layer 15 for the temperature of the liquid of the fluid layer 15.

The main control unit 9 is electrically connected with the semiconductor refrigeration unit 4, the water pump 5, the temperature sensor 8 and the power supply unit 10 respectively, the power supply unit 10 is used for supplying electric energy to the main control unit 9, the semiconductor refrigeration unit 4, the water pump 5 and the temperature sensor 8, and the main control unit 9 controls the semiconductor refrigeration unit 4 to refrigerate and controls the flow of the water pump 5 according to temperature data transmitted by the temperature sensor 8.

In some embodiments, the main control unit 9 is a single chip or a main control board. In particular, the master control unit 9 is a wonderbits master.

The advantage of using the wonderbits masters is that the microcontrollers on them can be programmed in the Arduino programming language.

In addition, the main control unit 9 is further integrated with a wireless sensor, and is used for being in communication connection with an external terminal, so that the terminal can inquire various parameters of the cooling clothes, and the main control unit 9 is controlled by the terminal.

In some embodiments, when the heat dissipation unit 7 includes the heat dissipation fan 28, the main control unit 9 is connected to the heat dissipation fan 28 for controlling the heat dissipation fan 28.

The power supply unit 10 may be a detachable power supply or a non-detachable power supply. The device can work under the condition of not plugging electricity and also can work under the condition of plugging electricity.

In some embodiments, the power supply unit 10 is a lithium battery, such as 18650 lithium battery, lithium iron phosphate battery, or the like.

As shown in fig. 9, the fixing unit 11 is a fixing box for accommodating the water-cooled joint 3, the semiconductor cooling unit 4, the water pump 5, the heat radiating unit 7, the main control unit 9, and the power supply unit 10. The fastening unit 11 is detachably attached, e.g. glued, to the outer layer 13 of the garment body 1.

In addition, the fixing unit 11 is provided with a heat dissipation window for accommodating the heat dissipation unit 7, so that the heat dissipation unit 7 transfers heat to the outside through the heat dissipation window.

Further, the cooling clothes further comprise a relay 12, wherein the relay 12 is installed inside the fixing unit 11 and connected with the main control unit 9 for transmitting a control signal.

In some embodiments, the relay 12 is a strip optocoupler isolation relay.

In addition, the fixing unit 11 is further provided with a display screen and a control key, the display screen and the control key are respectively connected with the main control unit 9, the display screen is used for displaying the temperature value and the temperature set value monitored by the temperature sensor 8, and the control key is used for controlling the main control unit 9 to start or close and adjusting the temperature set value.

The utility model discloses a use method as follows: liquid (such as water) with certain temperature and certain volume is injected into the liquid storage unit 2 through a liquid inlet of the liquid storage unit 2, and then the liquid storage unit 2 is connected with a liquid outlet 18 of the clothes main body 1; the semiconductor refrigeration unit 4 and the water pump 5 are started through the main control unit 9, so that the liquid in the liquid storage unit 2 circulates along the circulation flow guide pipe 6 under the action of the water pump 5, the semiconductor refrigeration unit 4 refrigerates the liquid flowing through the water-cooling connector 3, the temperature of the liquid entering the fluid layer 15 of the clothes main body 1 reaches a set temperature value, and the body temperature of a wearer wearing the clothes main body 1 is reduced; the heat radiating unit 7 radiates heat from the semiconductor cooling unit 4, so that the semiconductor cooling unit 4 can be used for a long time.

To the utility model discloses an actual use effect has tested, and the test condition is ambient temperature 32 ℃, to the inside injection 50 of stock solution unit 2, 800 ml's water, the temperature setting value is 22 ℃, the test result is as shown in the following table:

time (min)	0.25	0.5	0.75	1	1.25	1.5	1.75	2	2.25	2.5	2.75	3	3.25	3.5
															Water temperature (. degree.C.)	50	50	50	49	49	48	47	46	46	45	44	43	42	41
Time (min)	3.75	4	4.25	4.5	4.75	5	5.25	5.5	5.75	6	6.25	6.5	6.75	7
															Water temperature (. degree.C.)	39	37	35	32	30	29	28	27	26	23	23	23	23	23
Time (min)	7.25	7.5	7.75	8	8.25	8.5	8.75	9	9.25	9.5	9.75	10	10.25	10.5
															Water temperature (. degree.C.)	23	23	22	22	22	22	23	23	23	23	23	22	22	22

As can be seen from the upper table, the cooling clothes of the utility model can reach the temperature setting value in about 6min and keep constant.

To sum up, the utility model has the advantages that the fluid layer is arranged inside the clothes main body, so that the liquid after cooling flows in the fluid layer, thereby cooling the sportsman comprehensively; the semiconductor refrigeration unit and the water-cooling joint are used for refrigerating and cooling liquid, so that the cooling efficiency is improved, the equipment volume is reduced, the liquid does not need to be replaced, and the long-time use is realized; utilize temperature sensor to carry out temperature detection to the clothes main part, can acquire the temperature of clothes main part in real time, the sportsman of being convenient for carries out regulation and control to the temperature.

The above description is only an example of the preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and those skilled in the art should be able to realize the equivalent alternatives and obvious variations of the present invention.

Claims (10)

1. A cooling garment, comprising:

a garment body comprising an outer layer, an inner layer, and a fluid layer disposed between the outer layer and the inner layer:

the liquid storage unit is arranged on the outer layer of the clothes main body;

a water-cooled joint disposed at the outer layer of the garment body;

the semiconductor refrigeration unit is arranged on the outer layer of the clothes main body and is connected with the water-cooling joint;

a water pump disposed at the outer layer of the garment body;

the circulation flow guide pipe is respectively connected with the fluid layer, the liquid storage unit, the water pump and the water-cooling connector of the clothes main body, so that liquid stored in the liquid storage unit circularly flows in the liquid storage unit, the water-cooling connector and the fluid layer along the circulation flow guide pipe under the action of the water pump;

the heat dissipation unit is connected with the semiconductor refrigeration unit;

a temperature sensor disposed at the inner layer and/or the fluid layer of the garment body;

the main control unit is arranged on the outer layer of the clothes main body and is electrically connected with the semiconductor refrigeration unit, the water pump and the temperature sensor;

the power supply unit is connected with the main control unit;

a barrier layer disposed at least overlying the fluidics layer.

2. The cooling garment of claim 1, further comprising:

the fixing unit is arranged on the outer layer, and the water-cooling connector, the semiconductor refrigeration unit, the heat dissipation unit, the main control unit and the power supply unit are arranged inside the fixing unit.

3. The cooling garment of claim 1, further comprising:

and the relay is electrically connected with the main control unit, the water pump and the semiconductor refrigeration unit respectively.

4. The cooling garment of claim 1, wherein the heat dissipation unit comprises:

and the heat radiating fin covers the hot end of the semiconductor refrigeration unit.

5. The cooling garment of claim 1, wherein the heat dissipation unit comprises:

and the heat radiation fan is arranged at the hot end of the semiconductor refrigeration unit and is electrically connected with the main control unit.

6. The cooling garment of claim 1, wherein the heat dissipation unit comprises:

the heat radiating fin covers the hot end of the semiconductor refrigeration unit;

and the heat radiation fan is arranged on the heat radiation fin and is electrically connected with the main control unit.

7. The cooling garment of claim 1, wherein the impermeable layer is further disposed over the inner layer; and/or

The impermeable layer is also arranged to cover the outer layer.

8. The cooling garment of claim 1, wherein the garment body further comprises:

the liquid inlet is arranged at the lower part of the clothes main body and is communicated with the fluid layer;

the liquid outlet is arranged at the upper part of the clothes main body and is communicated with the fluid layer;

the first end of circulation honeycomb duct with the inlet is connected, the second end of circulation honeycomb duct with the liquid outlet is connected.

9. The cooling garment of claim 1, wherein the circulation duct comprises:

the first guide pipe is respectively connected with the water pump and the water-cooling joint;

the second guide pipe is respectively connected with the water-cooling joint and the fluid layer;

the third flow guide pipe is respectively connected with the fluid layer and the liquid storage unit;

and the fourth flow guide pipe is respectively connected with the liquid storage unit and the water pump.

10. The cooling garment of claim 1, further comprising:

a plurality of leak protection sealing element, it is a plurality of leak protection sealing element sets up the circulation honeycomb duct with the junction on fluid layer the circulation honeycomb duct with the junction of stock solution unit the circulation honeycomb duct with the junction of water pump the circulation honeycomb duct with the junction that the water-cooling connects.

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