CN210054727U - Air conditioner clothes refrigerating system - Google Patents

Abstract

The utility model discloses an air-conditioning clothes refrigerating system, which comprises a battery, a semiconductor refrigerating module and a refrigerating pipeline arranged in a clothes interlayer, wherein the battery is used for providing power for the semiconductor refrigerating module, and the semiconductor refrigerating module is used for circularly refrigerating the refrigerating pipeline; the refrigeration pipeline comprises a first main pipeline, a second main pipeline and a third main pipeline, the first main pipeline is an annular pipeline, a first tee joint is connected in the first main pipeline and communicated with one end of the third main pipeline through the first tee joint, the other end of the third main pipeline is connected with a pumping component, and the pumping component is connected to a cold end outlet of the semiconductor refrigeration module; the second main pipeline is an annular pipeline, and a second tee pipe joint is connected in the second main pipeline and is connected with a hot end inlet of the semiconductor refrigeration module through the second tee pipe joint; a plurality of branch pipelines are arranged between the first main pipeline and the second main pipeline. The utility model discloses an air conditioner clothes refrigerating system, the cooling is even, refrigeration effect is good.

Description

Air conditioner clothes refrigerating system

Technical Field

The utility model belongs to the technical field of the clothes of controllable temperature, concretely relates to air conditioner clothes refrigerating system.

Background

Under the high-temperature environment, the physiological function of a human body is abnormally changed, for example, the cardiovascular burden is increased due to a large amount of sweating, if the high temperature exceeds the bearing limit of the human body, the working efficiency is reduced, and the judgment is influenced; if serious, the heat stroke can be caused; if the patient is not rescued in time, sudden death is more likely to occur. In order to adapt to modern global warming, solve the problems of too fast physical consumption, reduced operation capacity, full utilization of solar energy resources and the like of workers in special environments and thermal environments due to heat stress effect, the development of intelligent air-conditioning clothes is necessary and necessary. The refrigeration and air-conditioning cost in the fields of aviation, navigation, field operations, biochemistry, fire fighting, nuclear industry and the like is a necessary condition for guaranteeing the life health of personnel, and the refrigeration and air-conditioning cost also has wide application prospect in high-temperature workplaces and fields of traffic, metallurgy, mining, medical treatment, sports, building construction sites, driving, outdoor sports and the like, and can improve the life quality of people, improve the working environment and improve the working efficiency.

The existing air-conditioning suit refrigerating system has a complex pipeline structure, and the refrigerating medium is easy to have partial circulation in the pipeline structure, so that the problems of poor refrigerating uniformity and poor refrigerating effect are caused.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an air conditioner clothes refrigerating system to the problem that exists among the prior art, pipeline structure is simple, and the refrigerant medium is even at the pipeline mesocycle, and refrigeration effect is good.

In order to realize the purpose, the utility model discloses a technical scheme be:

a refrigeration system of air-conditioning clothes comprises a battery, a semiconductor refrigeration module and a refrigeration pipeline arranged in an interlayer of the clothes, wherein the battery is used for providing power for the semiconductor refrigeration module, and the semiconductor refrigeration module is used for circularly refrigerating the refrigeration pipeline;

the refrigeration pipeline comprises a first main pipeline, a second main pipeline and a third main pipeline, the first main pipeline is an annular pipeline, a first tee joint is connected in the first main pipeline and communicated with one end of the third main pipeline through the first tee joint, the other end of the third main pipeline is connected with a pumping component, and the pumping component is connected to a cold end outlet of the semiconductor refrigeration module; the second main pipeline is an annular pipeline, and a second tee pipe joint is connected in the second main pipeline and is connected with a hot end inlet of the semiconductor refrigeration module through the second tee pipe joint; a plurality of branch pipelines are arranged between the first main pipeline and the second main pipeline;

the first main pipeline is arranged at one end, close to the collar, of the clothing interlayer, and the second main pipeline is arranged at one end, close to the bottom, of the clothing interlayer.

Optionally, the semiconductor refrigeration module comprises a cooling fan, a cooling aluminum block, a refrigeration sheet, a heat insulation pad and a cold guide block, wherein a cold guide channel of a reciprocating coiled structure is arranged in the cold guide block, one end of the cold guide channel is the cold end outlet, and the other end of the cold guide channel is the hot end inlet.

Optionally, the first main pipeline comprises a first elbow part, a second elbow part, a straight pipe part and a third elbow part which are sequentially connected to form a ring pipeline, the first elbow part is arranged at the position in front of the neck collar of the clothes interlayer, the second elbow part and the third elbow part are arranged at the position in the armpit of the clothes interlayer, and the straight pipe part is arranged at the position behind the neck collar.

Optionally, the semiconductor refrigeration system further comprises a controller and a temperature sensor, wherein the temperature sensor is used for detecting the temperature of the clothes interlayer, and the controller is used for controlling the starting and stopping of the pumping component and the semiconductor refrigeration module according to the temperature value detected by the temperature sensor.

Optionally, the clothes dryer further comprises a display module, and the display module is used for displaying the real-time temperature value of the clothes interlayer detected by the temperature sensor.

Optionally, the branch lines are distributed in a uniformly spaced manner.

Optionally, the branch pipeline is further provided with a plurality of transverse pipes for communicating the branch pipeline.

Optionally, the branch lines are distributed in a cross-connection manner.

Since the technical scheme is used, the beneficial effects of the utility model are that:

the utility model discloses an air conditioner clothes refrigerating system, through being provided with the pipe network structure that first pipeline, second pipeline and branch pipeline formed, can pump the refrigerant pump to the first pipeline through the third pipeline, the first pipeline passes through to flow to the second pipeline through branch pipeline and retrieves the refrigeration again, forms a circulation pipeline;

one of the first pipeline and the second pipeline is positioned at one end of the clothes interlayer and is positioned at a high position, and the other pipeline is positioned at the other end of the clothes interlayer and is positioned at a low position, so that a refrigeration medium can be ensured to pass through each branch pipeline, the circulation is uniform, and the refrigeration effect is good; meanwhile, when liquid is used as a refrigerating medium, circulation is realized by matching the action of gravity, and compared with a traditional reciprocating type coil pipe structure refrigerating pipeline, the refrigerating system has the advantages that a pumping component with lower power and smaller volume can be used, so that the whole air-conditioning suit refrigerating system is easier to arrange.

Drawings

Fig. 1 is a schematic diagram of a refrigeration pipeline structure of a refrigeration system of an air conditioning suit of the present invention;

fig. 2 is a schematic structural diagram of the air conditioning suit refrigeration system of the present invention.

Reference numerals: 100-refrigeration pipeline, 110-first main pipeline, 111-first elbow pipe part, 112-second elbow pipe part, 113-straight pipe part, 114-third elbow pipe part, 120-first three-way pipe joint, 130-third main pipeline, 140-second main pipeline, 150-second three-way pipe joint, 160-branch pipeline 160, 200-controller, 300-semiconductor refrigeration module and 400-battery.

Detailed Description

Referring to fig. 1 and 2, the utility model discloses an air-conditioning suit refrigerating system, including battery 400, semiconductor refrigeration module 300 and set up in the interbedded refrigeration pipeline 100 of clothes, battery 400 is used for providing the power to semiconductor refrigeration module 300, and semiconductor refrigeration module 300 is used for refrigerating the pipeline 100 circulation. The battery 400 adopts a storage battery, and the storage battery provides electric energy to drive the semiconductor refrigeration module 300 to work, so that the refrigeration medium in the refrigeration pipeline 100 is circulated for refrigeration. The refrigerating medium can be liquid with high specific heat capacity such as water, and can also be gas with high specific heat capacity.

The refrigeration circuit 100 includes a first main circuit 110, a second main circuit 140 and a third main circuit 130, wherein the first main circuit 110 is a loop circuit and is disposed at an end of the interlining of clothes close to the collar. The first main line 110 is connected with a first tee joint 120 and is communicated with one end of a third main line 130 through the first tee joint 120, and the other end of the third main line 130 is connected with a pumping member which is connected to a cold end outlet of the semiconductor refrigeration module 300. The pumping means are not shown in the figures, and those skilled in the art can select a suitable position to arrange the pumping means as required. After the semiconductor refrigeration module 300 cools the refrigeration medium, the cooled medium may be transferred to the first main line 110 through the third main line 130 by the pumping means. The second main conduit 140 is a loop conduit and is disposed at an end of the garment sandwich near the bottom. A second three-way pipe joint 150 is connected to the second main pipe 140, and is connected to the hot end inlet of the semiconductor refrigeration module 300 through the second three-way pipe joint 150. The semiconductor refrigeration module 300, the battery 400 and other components can be arranged at the bottom of the clothes interlayer, and the second three-way pipe joint 150 can be directly connected with the semiconductor refrigeration module 300 in an inserting manner or connected through a transmission pipeline. A plurality of branch lines 160 are provided between first main line 110 and second main line 140. The cooling medium enters each branch pipeline 160 from the first main pipeline 110, forms a pipe network structure through the plurality of branch pipelines 160 to form a cooling network, achieves a cooling function, and finally returns to the semiconductor refrigeration module 300 after being collected from the second main pipeline 140 at the bottom for refrigeration.

First main pipeline 110 includes first curved pipe portion 111, second curved pipe portion 112, straight tube portion 113 and third curved pipe portion 114 that connect gradually and form the looped pipeline, and first curved pipe portion 111 arranges in the position before the collar neck of clothes intermediate layer, and second curved pipe portion 112 and third curved pipe portion 114 arrange in the armpit position of clothes intermediate layer, and straight tube portion 113 arranges in the position behind the collar neck.

The branch lines 160 are distributed in an evenly spaced manner, and further, the branch lines 160 are further provided with a plurality of cross pipes for communicating the branch lines 160. Alternatively, the branch lines 160 are distributed in a cross-connected manner.

In this embodiment, the medium refrigerated by the semiconductor refrigeration module 300 can be delivered to the first main pipeline 110 located at a higher position of the clothing interlayer by the pumping assembly, and enters the branch pipelines 160 respectively in cooperation with the gravity, so as to refrigerate the human body in the branch pipelines 160. In the traditional arrangement mode of the reciprocating coil, the refrigeration medium needs to do up-and-down reciprocating motion in the pipeline, so the required pumping power is higher than the pumping power requirement of the pipeline arrangement mode of the embodiment, and the arrangement mode of the refrigeration pipeline 100 of the embodiment can effectively reduce the pumping power of the pumping part, so that when the pumping part is selected, the pumping part with small volume and small power can be selected, and the problem of difficult arrangement of the large volume of the accessories of the air-conditioning suit can be solved.

The semiconductor refrigeration module 300 includes a heat radiation fan, a heat radiation aluminum block, a refrigeration sheet, a heat insulation pad and a cold guide block, wherein a cold guide channel of a reciprocating type coiling structure is arranged in the cold guide block, one end of the cold guide channel is a cold end outlet, and the other end of the cold guide channel is a hot end inlet. The cooling device is formed by connecting a cooling fan, a cooling aluminum block, a refrigerating sheet, a heat insulation pad and a cold guide block by adopting the conventional layout mode and a connecting structure. For the cold guide block, the embodiment is made of a material with good heat conductivity, the cold guide block is a cold guide channel with a reciprocating coiled structure, a refrigerating medium enters from a hot end inlet and then is refrigerated in the cold guide block, and after refrigeration is finished, the refrigerating medium flows out from a cold end outlet and enters a pumping part for pumping.

In this embodiment, the air-conditioning suit refrigeration system further includes a controller 200, a temperature sensor and a display module, the temperature sensor is used for detecting the temperature of the suit interlayer, and the controller 200 is used for controlling the start and stop of the pumping unit and the start and stop of the semiconductor refrigeration module 300 according to the temperature value detected by the temperature sensor. For example, the threshold temperatures set in the controller 200 are 20 ℃ minimum and 25 ℃ maximum, and when the temperature detected by the temperature sensor is higher than 25 ℃, the controller 200 controls the pumping assembly and the semiconductor refrigeration module 300 to start working, so as to implement the refrigeration cycle; when the temperature detected by the sensor is lower than 20 ℃, the controller 200 controls the pumping assembly and the semiconductor cooling module 300 to stop operating. The display module is used for displaying the real-time temperature value of the garment interlayer detected by the temperature sensor. The part of the control program can be realized by adopting the existing computer software program, which is not the key point of protection of the scheme and is not described in more detail.

Claims (8)

1. The refrigerating system of the air conditioning clothes is characterized by comprising a battery, a semiconductor refrigerating module and a refrigerating pipeline arranged in a clothes interlayer, wherein the battery is used for providing power for the semiconductor refrigerating module, and the semiconductor refrigerating module is used for circularly refrigerating the refrigerating pipeline;

the refrigeration pipeline comprises a first main pipeline, a second main pipeline and a third main pipeline, the first main pipeline is an annular pipeline, a first tee joint is connected in the first main pipeline and communicated with one end of the third main pipeline through the first tee joint, the other end of the third main pipeline is connected with a pumping component, and the pumping component is connected to a cold end outlet of the semiconductor refrigeration module; the second main pipeline is an annular pipeline, and a second tee pipe joint is connected in the second main pipeline and is connected with a hot end inlet of the semiconductor refrigeration module through the second tee pipe joint; a plurality of branch pipelines are arranged between the first main pipeline and the second main pipeline;

the first main pipeline is arranged at one end, close to the collar, of the clothing interlayer, and the second main pipeline is arranged at one end, close to the bottom, of the clothing interlayer.

2. The air conditioning suit refrigeration system of claim 1, wherein the semiconductor refrigeration module includes a heat radiation fan, a heat radiation aluminum block, a refrigeration sheet, a heat insulation pad and a cold guide block, the cold guide block is provided with a cold guide channel of a reciprocating coiled structure, one end of the cold guide channel is the cold end outlet, and the other end of the cold guide channel is the hot end inlet.

3. An air conditioning garment refrigerating system as claimed in claim 1, wherein the first main pipeline includes a first elbow part, a second elbow part, a straight pipe part and a third elbow part which are connected in sequence to form a loop pipeline, the first elbow part is arranged at a position in front of a neck collar of the garment interlayer, the second elbow part and the third elbow part are arranged at a position in an underarm of the garment interlayer, and the straight pipe part is arranged at a position behind the neck collar.

4. An air conditioning garment refrigeration system as set forth in claim 1 further comprising a controller and a temperature sensor, said temperature sensor being adapted to sense the temperature of the garment interlayer, said controller being adapted to control the start and stop of said pumping means and the start and stop of the semiconductor refrigeration module based on the temperature sensed by said temperature sensor.

5. The air conditioning garment refrigeration system of claim 4 further comprising a display module for displaying the real-time temperature value of the garment interlayer detected by the temperature sensor.

6. A refrigeration system for air conditioning garments as claimed in claim 1 wherein the branch lines are distributed in a uniformly spaced manner.

7. A refrigeration system for air conditioning clothes according to claim 6 wherein the branch lines are further provided with a plurality of cross pipes for connecting the branch lines.

8. A refrigeration system for air conditioning garments as claimed in claim 1 wherein the branch lines are distributed in a cross-linked manner.

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