CN211241807U - Constant temperature refrigeration clothes - Google Patents

Abstract

The utility model discloses a constant temperature refrigeration clothes, include: the clothes comprise a clothes body, a water flow pipeline, a refrigerating device and a heat insulation layer, wherein the water flow pipeline is arranged on the inner surface of the clothes body in a serpentine shape, the two ends of the water flow pipeline are respectively communicated with the two ends of the refrigerating device, the heat-insulating layer covers from one surface direction of the water flow pipeline or covers from two opposite surface directions of the water flow pipeline to form a heat-insulating covering layer of the water flow pipeline, the refrigerating device can ensure that the clothes body has refrigerating and constant-temperature refrigerating effects, the heat insulation layer insulates heat of the water-cooling refrigerating water flow which flows into the water flow pipeline to form circulating water flow through the heat insulation covering layer to achieve heat insulation effect, can realize refrigeration of clothes and constant-temperature refrigeration of clothes, and improves the use experience of users, meanwhile, the heat insulation of the clothes refrigeration or constant temperature refrigeration can be realized, and the maintenance time of the refrigeration or constant temperature refrigeration is prolonged.

Description

Constant temperature refrigeration clothes

Technical Field

The utility model relates to a refrigeration clothing technical field especially relates to a constant temperature refrigeration clothes.

Background

In summer, the weather is hot, most of the existing clothes achieve the cool effect through poor fit and good air permeability, but the effect is not ideal when the clothes are used for outdoor activities under hot summer.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a constant temperature refrigeration clothes can realize that the clothes can refrigerate to resist the heat of the outdoor activities under the heat, can realize moreover that the clothes can refrigerate with constant temperature, improved user's use and experienced, can realize this clothes refrigeration or the cryogenic heat-insulating of constant temperature again simultaneously, prolonged this refrigeration or the cryogenic hold time of constant temperature.

According to an aspect of the utility model, a constant temperature refrigeration clothes is provided, include:

the clothes comprise a clothes body, a water flow pipeline, a refrigerating device and a heat insulation layer;

the water flow pipeline is arranged on the inner surface of the clothes body in a serpentine line, two ends of the water flow pipeline are respectively communicated with two ends of the refrigerating device, and the heat insulation layer covers from one surface direction of the water flow pipeline or from two opposite surface directions of the water flow pipeline to form a heat insulation covering layer of the water flow pipeline;

the refrigerating plant refrigerates the water-cooling, and will rivers after the water-cooling refrigeration flow in the rivers pipeline forms circulation rivers, in order to reach the messenger the clothes body has refrigeration effect and constant temperature refrigeration effect, the insulating layer passes through the thermal-insulated overburden that forms is right the inflow the water-cooling refrigeration rivers that the rivers pipeline formed circulation rivers carry out the heat energy and keep apart and reach thermal-insulated effect.

Wherein, the refrigerating plant includes:

the system comprises a water accumulator, a circulating water pump, an evaporator, a compressor, a heat exchanger, a capillary tube and a temperature controller;

the circulating water pump is connected with the water accumulator and the evaporator respectively, the evaporator is connected with the circulating water pump and the compressor respectively, the compressor is connected with the evaporator and the heat exchanger respectively, the heat exchanger is connected with the compressor and the capillary tube respectively, the capillary tube is connected with the heat exchanger and the water accumulator respectively, and the temperature controller is connected with the compressor;

the water storage device stores water, the circulating water pump enables the stored water in the water storage device to circulate in a water flow passage formed by the evaporator, the compressor, the heat exchanger and the capillary tube to form circulating water flow in cycles, the evaporator absorbs heat of the circulating water flow in a mode of carrying out heat exchange on low-temperature low-pressure liquid refrigerant and the circulating water flow to evaporate the low-temperature low-pressure liquid refrigerant into low-temperature low-pressure gaseous refrigerant, wherein in the process of evaporating the low-temperature low-pressure liquid refrigerant into the low-temperature low-pressure gaseous refrigerant, the temperature of the refrigerant is constant, the compressor generates mechanical energy, the refrigerant can flow in the circulating water flow in a circulating mode through the generated mechanical energy and repeatedly works in a gaseous state or a liquid state, and the low-temperature low-pressure gaseous refrigerant is compressed into high-temperature high-pressure gaseous refrigerant, the heat exchanger continuously absorbs the heat of the formed circulating water flow through the circularly flowing high-temperature high-pressure gaseous refrigerant, the circularly flowing high-temperature high-pressure gaseous refrigerant is subjected to heat exchange and is converted into a circularly flowing high-temperature high-pressure liquid refrigerant, the formed circulating water flow is subjected to heat exchange, cooling and refrigeration, the high-temperature high-pressure liquid refrigerant is throttled by the capillary tube, the high-temperature high-pressure liquid refrigerant is cooled by the throttling, the high-temperature high-pressure liquid refrigerant is throttled and is converted into a low-temperature low-pressure liquid refrigerant with reduced temperature, the water cooling and refrigeration of the circulating water flow subjected to heat exchange, cooling and refrigeration are realized, the temperature controller controls the compressor to work, controls the compressor to generate mechanical energy, and enables the refrigerant to circularly flow in the circulating water flow and repeatedly work in a gaseous state or a liquid state through the generated, and compressing the low-temperature low-pressure gaseous refrigerant into a high-temperature high-pressure gaseous refrigerant, so that the temperature of the water flow after the heat of the formed circulating water flow is absorbed by the circularly flowing refrigerant is constant.

The heat exchanger is a spiral tube heat exchanger, and the spiral tube heat exchanger is made of an external thread tube.

The heat exchanger is sequentially provided with a water inlet, a refrigerant outlet, a spiral pipe, a water outlet and a refrigerant inlet from left to right, wherein the refrigerant which circularly flows enters the spiral pipe through the refrigerant inlet, the formed circulating water flow enters the spiral pipe from the water inlet, the spiral pipe continuously absorbs the heat of the entering water flow through the entering high-temperature high-pressure gaseous refrigerant in a spiral heat and cold exchange mode, the entering water flow is cooled and refrigerated through heat exchange, the high-temperature high-pressure gaseous refrigerant which absorbs the heat of the entering water flow is exchanged into a circularly flowing high-temperature high-pressure liquid refrigerant which flows out through the refrigerant outlet, and the water flow which is cooled and refrigerated through the heat exchange flows out through the water outlet.

Wherein, the refrigerating device still includes:

a condenser;

the condenser is respectively connected with the capillary tube and the water accumulator;

the condenser discharges heat absorbed by the circularly flowing refrigerant and outputs the circulating water flow after water cooling refrigeration to the water accumulator.

The condenser comprises a first outlet, a second outlet and a third outlet, the first outlet discharges heat absorbed by the circularly flowing refrigerant, the second outlet outputs circulating water flow subjected to water-cooling refrigeration to the water accumulator when the third outlet does not work, and the third outlet outputs the circulating water flow subjected to water-cooling refrigeration to the outside when the second outlet does not work.

It can be found that, by the above scheme, the refrigeration clothes can comprise a clothes body, a water flow pipeline, a refrigeration device and a thermal insulation layer, wherein the water flow pipeline is arranged on the inner surface of the clothes body in a serpentine shape, two ends of the water flow pipeline are respectively communicated with two ends of the refrigeration device, the thermal insulation layer covers from one surface direction of the water flow pipeline or two opposite surface directions of the water flow pipeline to form a thermal insulation covering layer of the water flow pipeline, the refrigeration device can cool water and refrigerate the water, and flow the water cooled and refrigerated by the water cooling into the water flow pipeline to form circulating water flow, so as to achieve the purposes that the clothes body has refrigeration effect and constant temperature refrigeration effect, the thermal insulation layer can perform heat energy isolation on the water cooling water flow flowing into the water flow pipeline to form the circulating water flow through the thermal insulation covering layer to achieve the thermal insulation effect, and can realize, the heat of outdoor activities under severe summer is resisted, the clothes can be refrigerated at constant temperature, the use experience of a user is improved, meanwhile, the heat insulation of the refrigeration or constant temperature refrigeration of the clothes can be realized, and the maintenance time of the refrigeration or constant temperature refrigeration is prolonged

Further, according to the above technical scheme, the refrigeration device may include a water reservoir, a circulating water pump, an evaporator, a compressor, a heat exchanger, a capillary tube and a temperature controller, the circulating water pump may circulate the stored water in the water reservoir in a water flow path formed by the evaporator, the compressor, the heat exchanger and the capillary tube to form a circulating water flow, the evaporator may absorb heat of the circulating water flow by exchanging heat between a low-temperature low-pressure liquid refrigerant and the circulating water flow, and evaporate the low-temperature low-pressure liquid refrigerant into a low-temperature low-pressure gaseous refrigerant, wherein, in the process of evaporating the low-temperature low-pressure liquid refrigerant into the low-temperature low-pressure gaseous refrigerant, the temperature of the refrigerant is constant, the compressor may generate mechanical energy, and the refrigerant may circulate in the circulating water flow and repeatedly work in a gaseous state or a liquid state through the generated mechanical energy, the low-temperature low-pressure gaseous refrigerant is compressed into a high-temperature high-pressure gaseous refrigerant, the heat exchanger can continuously absorb the heat of the formed circulating water flow through the circularly flowing high-temperature high-pressure gaseous refrigerant, the circularly flowing high-temperature high-pressure gaseous refrigerant is subjected to heat exchange into a circularly flowing high-temperature high-pressure liquid refrigerant, the formed circulating water flow is subjected to heat exchange cooling refrigeration, the capillary tube can throttle the high-temperature high-pressure liquid refrigerant, the high-temperature high-pressure liquid refrigerant is cooled through the throttle, the high-temperature high-pressure liquid refrigerant is throttled and then changed into a low-temperature low-pressure liquid refrigerant with reduced temperature, the water cooling refrigeration of the circulating water flow subjected to heat exchange cooling refrigeration is realized, the temperature controller can control the work of the compressor, the compressor is controlled to generate mechanical energy, the refrigerant circularly flows in the circulating water flow and repeatedly works in a gaseous state or a liquid state through the generated mechanical, the low-temperature low-pressure gaseous refrigerant is compressed into the high-temperature high-pressure gaseous refrigerant, so that the water temperature of the water flow after the heat of the formed circulating water flow is absorbed by the circularly flowing refrigerant is constant, the circulating heat exchange cooling water refrigeration and the water cooling refrigeration of the water flow after the circulating heat exchange cooling water refrigeration can be realized, the circulating heat exchange cooling water refrigeration and the water cooling refrigeration of the water flow after the circulating heat exchange cooling water refrigeration can be maintained, the refrigeration effect is improved, and the constant water temperature of the circulating water flow can be realized.

Furthermore, above scheme, this heat exchanger can be the spiral pipe heat exchanger, and this spiral pipe heat exchanger can adopt the external screw thread pipe preparation, and this spiral pipe heat exchanger is small, the refrigerating output is big, the heat dissipation is good, compact structure is pleasing to the eye, energy-conservation.

Further, above scheme, this heat exchanger can set gradually water inlet and refrigerant export from left to right, the spiral pipe, delivery port and refrigerant import, this circulation flow's refrigerant enters into this spiral pipe through this refrigerant import, this circulating water flow that forms enters into this spiral pipe from this water inlet, this spiral pipe adopts the heat of this rivers that enter of spiral cold and hot exchange mode to absorb constantly through the gaseous state refrigerant of this high temperature high pressure that this gets into, make the rivers heat exchange cooling refrigeration that should get into, this gaseous state heat exchange through the high temperature high pressure that absorbs the heat of this rivers that get into changes into the high temperature high pressure liquid state refrigerant of circulation flow and flows out through this refrigerant export, this rivers through this heat exchange cooling refrigeration flow out through this delivery port, this spiral pipe is small, the refrigeration volume is big, good, compact structure is pleasing to the eye, energy-conservation.

Furthermore, above scheme, this refrigerating plant can also include the condenser, and this condenser is connected with this capillary, this water accumulator respectively, and this condenser is discharged through the heat that this refrigerant of circulation flow absorbed to export this circulating water flow after the water-cooling refrigeration to this water accumulator, and such advantage can realize that guarantee circulating water flow maintains water-cooling refrigeration state.

Further, above scheme, this condenser can include first export, second export and third export, this first export will be discharged through the heat that this refrigerant absorption of this circulation flow, this second export when this third export is out of work, will this through the circulating water after the water-cooling refrigeration export this water reservoir, this third export when this second export is out of work, will this through the circulating water after the water-cooling refrigeration export the external world, such advantage can realize that the circulating water maintains the water-cooling refrigeration state, and can supply the circulating water that should maintain the water-cooling refrigeration state to export the use.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of an embodiment of the constant temperature refrigeration garment of the present invention;

fig. 2 is a schematic structural diagram of an embodiment of the refrigeration apparatus of the present invention;

fig. 3 is a schematic view illustrating a heat exchanger structure according to the present invention;

fig. 4 is a schematic structural diagram of another embodiment of the refrigeration device of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be noted that the following examples are only for illustrating the present invention, but do not limit the scope of the present invention. Similarly, the following embodiments are only some but not all embodiments of the present invention, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

The utility model provides a constant temperature refrigeration clothes can realize that the clothes can refrigerate to resist the hot of the outdoor activities under the heat, can realize moreover that the clothes can refrigerate with constant temperature, improved user's use and experienced, can realize this clothes refrigeration or the refrigerated thermal-insulated of constant temperature again simultaneously, prolonged this refrigeration or the refrigerated hold time of constant temperature.

Referring to fig. 1, fig. 1 is a schematic structural view of an embodiment of the constant temperature refrigeration garment of the present invention. In this embodiment, the constant temperature refrigeration clothes 10 includes a clothes body 11, a water flow pipeline 12, a refrigeration device 13 and a heat insulation layer 14.

The water flow pipe 12 is arranged in a serpentine line on the inner surface of the garment body 11.

Both ends of the water flow pipe 12 are respectively communicated with both ends of the refrigerating device 13.

The insulating layer 14 covers from one surface of the water flow pipe 12 or from two opposite surfaces of the water flow pipe 12 to form an insulating cover of the water flow pipe 12.

The refrigerating device 13 is used for water-cooling refrigeration of water, and the water after the water-cooling refrigeration flows into the water flow pipeline 12 to form circulating water flow, so that the clothes body 11 has a refrigeration effect and a constant-temperature refrigeration effect.

The heat insulation layer 14 is used for performing heat insulation on the water-cooling refrigeration water flow which flows into the water flow pipeline 12 to form the circulating water flow through the formed heat insulation covering layer so as to achieve the heat insulation effect.

Please refer to fig. 2, fig. 2 is a schematic structural diagram of an embodiment of the refrigeration device of the present invention. In this embodiment, the refrigeration apparatus 13 includes a water reservoir 131, a circulating water pump 132, an evaporator 133, a compressor 134, a heat exchanger 135, a capillary tube 136, and a temperature controller 137.

The circulating water pump 132 is connected to the water reservoir 131 and the evaporator 133, respectively.

The evaporator 133 is connected to the circulating water pump 132 and the compressor 134, respectively.

The compressor 134 is connected to the evaporator 133 and the heat exchanger 135, respectively.

The heat exchanger 135 is connected to the compressor 134 and the capillary tube 136, respectively.

The capillary tube 136 is connected to the heat exchanger 135 and the water reservoir 131, respectively.

The temperature controller 137 is connected to the compressor 134.

The water reservoir 131 is used for storing water.

The circulating water pump 132 is used for circulating the stored water in the water reservoir 131 repeatedly to form a circulating water flow in the water flow path formed by the evaporator 133, the compressor 134, the heat exchanger 135 and the capillary tube 136.

The evaporator 133 is configured to absorb heat of the circulating water flow by performing heat exchange between a low-temperature low-pressure liquid refrigerant and the circulating water flow, and evaporate the low-temperature low-pressure liquid refrigerant into a low-temperature low-pressure gaseous refrigerant; in the process of evaporating the low-temperature low-pressure liquid refrigerant into the low-temperature low-pressure gaseous refrigerant, the temperature of the refrigerant is constant.

The compressor 134 is configured to generate mechanical energy, and enable the refrigerant to flow in a circulating water flow circularly by the generated mechanical energy and repeatedly work in a gaseous state or a liquid state, so as to compress the low-temperature and low-pressure gaseous refrigerant into a high-temperature and high-pressure gaseous refrigerant.

The heat exchanger 135 is configured to continuously absorb heat of the formed circulating water flow through the circularly flowing high-temperature and high-pressure gaseous refrigerant, and exchange heat of the circularly flowing high-temperature and high-pressure gaseous refrigerant into a circularly flowing high-temperature and high-pressure liquid refrigerant, so that heat exchange cooling and refrigeration of the formed circulating water flow are performed.

The capillary tube 136 is used for throttling the high-temperature high-pressure liquid refrigerant, and cooling the high-temperature high-pressure liquid refrigerant through the throttling, and the high-temperature high-pressure liquid refrigerant is changed into a low-temperature low-pressure liquid refrigerant with reduced temperature after being throttled, so that the water-cooling refrigeration of the circulating water flow cooled and refrigerated through heat exchange is realized.

The temperature controller 137 is configured to control the operation of the compressor 134, control the compressor 134 to generate mechanical energy, enable the refrigerant to flow in a circulating water flow in a circulating manner through the generated mechanical energy and repeatedly operate in a gaseous state or a liquid state, compress the low-temperature and low-pressure gaseous refrigerant into a high-temperature and high-pressure gaseous refrigerant, and maintain the temperature of the water flow after the heat of the formed circulating water flow is absorbed by the refrigerant flowing in the circulating manner.

Optionally, the heat exchanger 135 may be a spiral tube heat exchanger, which may be made of an external thread tube, and has a small volume, a large cooling capacity, a good heat dissipation, a compact and beautiful structure, and energy saving.

Optionally, please refer to fig. 3, fig. 3 is a schematic view illustrating a heat exchanger structure according to the present invention. As shown in fig. 3, the heat exchanger 135 is sequentially provided with a water inlet, a refrigerant outlet, a spiral tube, a water outlet and a refrigerant inlet from left to right, the refrigerant flowing in a circulating manner enters the spiral tube through the refrigerant inlet, the formed circulating water flow enters the spiral tube from the water inlet, the spiral tube continuously absorbs heat of the entering water flow through the entering high-temperature and high-pressure gaseous refrigerant in a spiral heat exchange manner, so that the entering water flow is cooled and refrigerated through heat exchange, the high-temperature and high-pressure gaseous refrigerant absorbing heat of the entering water flow is exchanged into a circulating high-temperature and high-pressure liquid refrigerant flowing out through the refrigerant outlet, and the water flowing through the heat exchange cooling refrigeration flows out through the water outlet.

In this embodiment, the total flow of the circulating water pump 132 may be greater than the flow of the water flowing through the evaporator 133, the compressor 134, the heat exchanger 135 and the capillary tube 136, or equal to the flow of the water flowing through the evaporator 133, the compressor 134, the heat exchanger 135 and the capillary tube 136, which is not limited by the present invention.

In this embodiment, this low temperature low pressure liquid refrigerant can be one kind and easily absorbs the heat and become the gaseous state, releases heat again and becomes liquid material easily, and this low temperature low pressure liquid refrigerant can be natural liquid refrigerant, also can be synthetic liquid refrigerant, the utility model discloses not prescribing a limit to.

In this embodiment, the compressor 134 may be a driven fluid machine that raises a low pressure gas state to a high pressure gas state, and is the heart of a refrigeration system. The low-temperature low-pressure gaseous refrigerant is sucked from the air suction pipe, and after the gaseous refrigerant is compressed by driving the piston through the operation of the motor, the high-temperature high-pressure gaseous refrigerant is discharged to the exhaust pipe, so that power is provided for the refrigeration cycle.

In this embodiment, the heat exchanger 135 can continuously absorb the heat of the formed circulating water flow through the circulating high-temperature high-pressure gaseous refrigerant, so as to perform heat exchange cooling and refrigeration on the formed circulating water flow, and can heat-exchange the circulating high-temperature high-pressure gaseous refrigerant into a circulating high-temperature high-pressure liquid refrigerant; in the process of exchanging heat of the circularly flowing high-temperature and high-pressure gaseous refrigerant into the circularly flowing high-temperature and high-pressure liquid refrigerant, the temperature of the refrigerant is constant.

Please refer to fig. 4, fig. 4 is a schematic structural diagram of another embodiment of the refrigeration device of the present invention. Unlike the previous embodiment, the refrigeration device 13 of the present embodiment further includes: a condenser 138.

The condenser 138 is connected to the capillary tube 136 and the water reservoir 131, and is configured to discharge heat absorbed by the refrigerant flowing in the circulation path, and output the circulating water cooled and cooled to the water reservoir 131.

Alternatively, the condenser 138 may include a first outlet that discharges heat absorbed by the refrigerant flowing in the circulation path, a second outlet that outputs the circulating water stream cooled by water cooling to the accumulator 131 when the third outlet is not operated, and a third outlet that outputs the circulating water stream cooled by water cooling to the outside when the second outlet is not operated.

It can be found that, by the above scheme, the refrigeration clothes can comprise a clothes body, a water flow pipeline, a refrigeration device and a thermal insulation layer, wherein the water flow pipeline is arranged on the inner surface of the clothes body in a serpentine shape, two ends of the water flow pipeline are respectively communicated with two ends of the refrigeration device, the thermal insulation layer covers from one surface direction of the water flow pipeline or two opposite surface directions of the water flow pipeline to form a thermal insulation covering layer of the water flow pipeline, the refrigeration device can cool water and refrigerate the water, and flow the water cooled and refrigerated by the water cooling into the water flow pipeline to form circulating water flow, so as to achieve the purposes that the clothes body has refrigeration effect and constant temperature refrigeration effect, the thermal insulation layer can perform heat energy isolation on the water cooling water flow flowing into the water flow pipeline to form the circulating water flow through the thermal insulation covering layer to achieve the thermal insulation effect, and can realize, the heat of outdoor activities under severe summer is resisted, the clothes can be refrigerated at constant temperature, the use experience of a user is improved, meanwhile, the heat insulation of the refrigeration or constant temperature refrigeration of the clothes can be realized, and the maintenance time of the refrigeration or constant temperature refrigeration is prolonged

Further, according to the above technical scheme, the refrigeration device may include a water reservoir, a circulating water pump, an evaporator, a compressor, a heat exchanger, a capillary tube and a temperature controller, the circulating water pump may circulate the stored water in the water reservoir in a water flow path formed by the evaporator, the compressor, the heat exchanger and the capillary tube to form a circulating water flow, the evaporator may absorb heat of the circulating water flow by exchanging heat between a low-temperature low-pressure liquid refrigerant and the circulating water flow, and evaporate the low-temperature low-pressure liquid refrigerant into a low-temperature low-pressure gaseous refrigerant, wherein, in the process of evaporating the low-temperature low-pressure liquid refrigerant into the low-temperature low-pressure gaseous refrigerant, the temperature of the refrigerant is constant, the compressor may generate mechanical energy, and the refrigerant may circulate in the circulating water flow and repeatedly work in a gaseous state or a liquid state through the generated mechanical energy, the low-temperature low-pressure gaseous refrigerant is compressed into a high-temperature high-pressure gaseous refrigerant, the heat exchanger can continuously absorb the heat of the formed circulating water flow through the circularly flowing high-temperature high-pressure gaseous refrigerant, the circularly flowing high-temperature high-pressure gaseous refrigerant is subjected to heat exchange into a circularly flowing high-temperature high-pressure liquid refrigerant, the formed circulating water flow is subjected to heat exchange cooling refrigeration, the capillary tube can throttle the high-temperature high-pressure liquid refrigerant, the high-temperature high-pressure liquid refrigerant is cooled through the throttle, the high-temperature high-pressure liquid refrigerant is throttled and then changed into a low-temperature low-pressure liquid refrigerant with reduced temperature, the water cooling refrigeration of the circulating water flow subjected to heat exchange cooling refrigeration is realized, the temperature controller can control the work of the compressor, the compressor is controlled to generate mechanical energy, the refrigerant circularly flows in the circulating water flow and repeatedly works in a gaseous state or a liquid state through the generated mechanical, the low-temperature low-pressure gaseous refrigerant is compressed into the high-temperature high-pressure gaseous refrigerant, so that the water temperature of the water flow after the heat of the formed circulating water flow is absorbed by the circularly flowing refrigerant is constant, the circulating heat exchange cooling water refrigeration and the water cooling refrigeration of the water flow after the circulating heat exchange cooling water refrigeration can be realized, the circulating heat exchange cooling water refrigeration and the water cooling refrigeration of the water flow after the circulating heat exchange cooling water refrigeration can be maintained, the refrigeration effect is improved, and the constant water temperature of the circulating water flow can be realized.

Furthermore, above scheme, this heat exchanger can be the spiral pipe heat exchanger, and this spiral pipe heat exchanger can adopt the external screw thread pipe preparation, and this spiral pipe heat exchanger is small, the refrigerating output is big, the heat dissipation is good, compact structure is pleasing to the eye, energy-conservation.

Further, above scheme, this heat exchanger can set gradually water inlet and refrigerant export from left to right, the spiral pipe, delivery port and refrigerant import, this circulation flow's refrigerant enters into this spiral pipe through this refrigerant import, this circulating water flow that forms enters into this spiral pipe from this water inlet, this spiral pipe adopts the heat of this rivers that enter of spiral cold and hot exchange mode to absorb constantly through the gaseous state refrigerant of this high temperature high pressure that this gets into, make the rivers heat exchange cooling refrigeration that should get into, this gaseous state heat exchange through the high temperature high pressure that absorbs the heat of this rivers that get into changes into the high temperature high pressure liquid state refrigerant of circulation flow and flows out through this refrigerant export, this rivers through this heat exchange cooling refrigeration flow out through this delivery port, this spiral pipe is small, the refrigeration volume is big, good, compact structure is pleasing to the eye, energy-conservation.

Furthermore, above scheme, this refrigerating plant can also include the condenser, and this condenser is connected with this capillary, this water accumulator respectively, and this condenser is discharged through the heat that this refrigerant of circulation flow absorbed to export this circulating water flow after the water-cooling refrigeration to this water accumulator, and such advantage can realize that guarantee circulating water flow maintains water-cooling refrigeration state.

Further, above scheme, this condenser can include first export, second export and third export, this first export will be discharged through the heat that this refrigerant absorption of this circulation flow, this second export when this third export is out of work, will this through the circulating water after the water-cooling refrigeration export this water reservoir, this third export when this second export is out of work, will this through the circulating water after the water-cooling refrigeration export the external world, such advantage can realize that the circulating water maintains the water-cooling refrigeration state, and can supply the circulating water that should maintain the water-cooling refrigeration state to export the use.

It should be noted that, a common algorithm for realizing the function of the clothes body is run on the clothes body 11, a common algorithm for realizing the function of the water flow pipe is run on the water flow pipe 12, a common algorithm for realizing the function of the refrigerating device is run on the refrigerating device 13, a common algorithm for realizing the function of the heat insulating layer is run on the heat insulating layer 14, a common algorithm for realizing the function of the water reservoir is run on the water reservoir 131, a common algorithm for realizing the function of the circulating water pump is run on the circulating water pump 132, a common algorithm for realizing the function of the evaporator is run on the evaporator 133, a common algorithm for realizing the function of the compressor 134 is run on the compressor 134, a common algorithm for realizing the function of the heat exchanger is run on the heat exchanger 135, a common algorithm for realizing the function of the capillary tube 136, a common algorithm for realizing the function of the temperature controller 137 is run on the temperature controller, the algorithm that realizes condenser function that the operation was used commonly on condenser 138, the technical scheme of the utility model realizes, need not make any improvement to the software program, and this statement especially.

The above only is the partial embodiment of the utility model discloses a not therefore restriction the utility model discloses a protection scope, all utilize the utility model discloses equivalent device or equivalent flow transform that the content of description and drawing was done, or direct or indirect application in other relevant technical field, all the same reason is included in the patent protection scope of the utility model.

Claims (6)

1. A constant temperature refrigeration clothes, characterized by comprising:

the clothes comprise a clothes body, a water flow pipeline, a refrigerating device and a heat insulation layer;

the water flow pipeline is arranged on the inner surface of the clothes body in a serpentine line, two ends of the water flow pipeline are respectively communicated with two ends of the refrigerating device, and the heat insulation layer covers from one surface direction of the water flow pipeline or from two opposite surface directions of the water flow pipeline to form a heat insulation covering layer of the water flow pipeline;

the refrigerating plant refrigerates the water-cooling, and will rivers after the water-cooling refrigeration flow in the rivers pipeline forms circulation rivers, in order to reach the messenger the clothes body has refrigeration effect and constant temperature refrigeration effect, the insulating layer passes through the thermal-insulated overburden that forms is right the inflow the water-cooling refrigeration rivers that the rivers pipeline formed circulation rivers carry out the heat energy and keep apart and reach thermal-insulated effect.

2. A constant temperature refrigeration garment as claimed in claim 1, wherein the refrigeration means comprises:

the system comprises a water accumulator, a circulating water pump, an evaporator, a compressor, a heat exchanger, a capillary tube and a temperature controller;

the circulating water pump is connected with the water accumulator and the evaporator respectively, the evaporator is connected with the circulating water pump and the compressor respectively, the compressor is connected with the evaporator and the heat exchanger respectively, the heat exchanger is connected with the compressor and the capillary tube respectively, the capillary tube is connected with the heat exchanger and the water accumulator respectively, and the temperature controller is connected with the compressor;

the water storage device stores water, the circulating water pump enables the stored water in the water storage device to circulate in a water flow passage formed by the evaporator, the compressor, the heat exchanger and the capillary tube to form circulating water flow in cycles, the evaporator absorbs heat of the circulating water flow in a mode of carrying out heat exchange on low-temperature low-pressure liquid refrigerant and the circulating water flow to evaporate the low-temperature low-pressure liquid refrigerant into low-temperature low-pressure gaseous refrigerant, wherein in the process of evaporating the low-temperature low-pressure liquid refrigerant into the low-temperature low-pressure gaseous refrigerant, the temperature of the refrigerant is constant, the compressor generates mechanical energy, the refrigerant can flow in the circulating water flow in a circulating mode through the generated mechanical energy and repeatedly works in a gaseous state or a liquid state, and the low-temperature low-pressure gaseous refrigerant is compressed into high-temperature high-pressure gaseous refrigerant, the heat exchanger continuously absorbs the heat of the formed circulating water flow through the circularly flowing high-temperature high-pressure gaseous refrigerant, the circularly flowing high-temperature high-pressure gaseous refrigerant is subjected to heat exchange and is converted into a circularly flowing high-temperature high-pressure liquid refrigerant, the formed circulating water flow is subjected to heat exchange, cooling and refrigeration, the high-temperature high-pressure liquid refrigerant is throttled by the capillary tube, the high-temperature high-pressure liquid refrigerant is cooled by the throttling, the high-temperature high-pressure liquid refrigerant is throttled and is converted into a low-temperature low-pressure liquid refrigerant with reduced temperature, the water cooling and refrigeration of the circulating water flow subjected to heat exchange, cooling and refrigeration are realized, the temperature controller controls the compressor to work, controls the compressor to generate mechanical energy, and enables the refrigerant to circularly flow in the circulating water flow and repeatedly work in a gaseous state or a liquid state through the generated, and compressing the low-temperature low-pressure gaseous refrigerant into a high-temperature high-pressure gaseous refrigerant, so that the temperature of the water flow after the heat of the formed circulating water flow is absorbed by the circularly flowing refrigerant is constant.

3. A thermostatic cooling garment as set forth in claim 2 wherein said heat exchanger is a spiral tube heat exchanger, said spiral tube heat exchanger being made of externally threaded tubing.

4. The constant-temperature refrigeration garment as claimed in claim 2, wherein the heat exchanger is provided with a water inlet, a refrigerant outlet, a spiral pipe, a water outlet and a refrigerant inlet in sequence from left to right, the circularly flowing refrigerant enters the spiral pipe through the refrigerant inlet, the formed circulating water flow enters the spiral pipe from the water inlet, the spiral pipe continuously absorbs heat of the entering water flow through the entering high-temperature high-pressure gaseous refrigerant in a spiral heat and cold exchange manner, the entering water flow is cooled and refrigerated through heat exchange, the high-temperature high-pressure gaseous refrigerant absorbing heat of the entering water flow is exchanged into a circularly flowing high-temperature high-pressure liquid refrigerant flowing out through the refrigerant outlet, and the water cooled and refrigerated through heat exchange flows out through the water outlet.

5. A constant temperature refrigeration garment as claimed in claim 2, wherein the refrigeration device further comprises:

a condenser;

the condenser is respectively connected with the capillary tube and the water accumulator;

the condenser discharges heat absorbed by the circularly flowing refrigerant and outputs the circulating water flow after water cooling refrigeration to the water accumulator.

6. The constant-temperature refrigeration garment as claimed in claim 5, wherein the condenser comprises a first outlet, a second outlet and a third outlet, the first outlet discharges heat absorbed by the refrigerant which flows in a circulation manner, the second outlet outputs the circulating water flow which is cooled by water cooling to the water reservoir when the third outlet does not work, and the third outlet outputs the circulating water flow which is cooled by water cooling to the outside when the second outlet does not work.

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