CN209846202U - Connection structure of refrigeration module and refrigeration pipeline of air conditioner clothes - Google Patents

Abstract

The utility model discloses a connection structure of a refrigeration module and a refrigeration pipeline of an air conditioning suit, which comprises a refrigeration module and a refrigeration pipeline, wherein the refrigeration pipeline comprises an inlet end and an outlet end, the connection structure comprises a connecting buckle, the connecting buckle is fixedly embedded with a first connecting pipe and a second connecting pipe, the first connecting pipe is in interference connection with the inlet end of the refrigeration pipeline, the second connecting pipe is in interference connection with the outlet end, and one side of the refrigeration module is provided with a concave part; a cold end outlet pipe and a hot end inlet pipe of the refrigeration module are arranged in the concave cavity, the cold end outlet pipe can be in socket joint with the first connecting pipe, and the hot end inlet pipe can be in socket joint with the second connecting pipe; the bottom of the cavity part and one side face of the connecting buckle are respectively provided with a magnetic adsorption piece which is used for detachably connecting the connecting buckle and the refrigeration module. The utility model discloses a connection structure, the refrigeration module is connected with dismantling of refrigeration pipeline, easy operation, and convenient.

Description

Connection structure of refrigeration module and refrigeration pipeline of air conditioner clothes

Technical Field

The utility model belongs to the technical field of the air conditioner clothes, concretely relates to connection structure of refrigeration module and refrigeration pipeline of air conditioner clothes.

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.

Refrigeration module volume is great in the current air conditioner clothes, and refrigeration module and refrigeration pipeline's connection all is connected through pipeline, staple bolt usually, but along with the continuous development of technique, the miniaturized back of refrigeration module volume adopts the built-up connection of traditional pipeline and staple bolt no longer to be suitable for, and refrigeration module is connected with quick dismantlement if realizing with the refrigeration pipeline, is the problem that the urgent need was solved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve the problem that exists among the prior art, provide a refrigeration module and the connection structure of refrigeration pipeline of air conditioner clothes, can realize that the quick dismantlement of refrigeration module and refrigeration pipeline is connected, easy operation, and convenient, be favorable to maintaining, the clothes cleaning work after maintenance and the dismantlement.

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

a connection structure of a refrigeration module and a refrigeration pipeline of an air conditioning suit comprises the refrigeration module and the refrigeration pipeline, wherein the refrigeration pipeline comprises an inlet end and an outlet end, the connection structure comprises a connection buckle, a first connection pipe and a second connection pipe are fixedly embedded in the connection buckle, the first connection pipe is in interference connection with the inlet end of the refrigeration pipeline, the second connection pipe is in interference connection with the outlet end, and a cavity part capable of containing part of the connection buckle is arranged on one side of the refrigeration module; a cold end outlet pipe and a hot end inlet pipe of the refrigeration module are arranged in the cavity, the cold end outlet pipe can be in socket joint with the first connecting pipe, the hot end inlet pipe can be in socket joint with the second connecting pipe, a first annular groove capable of bearing the first connecting pipe is arranged on the periphery of the cold end outlet pipe, a second annular groove capable of bearing the second connecting pipe is arranged on the periphery of the hot end inlet pipe, and sealing rubber gaskets are arranged in the first annular groove and the second annular groove; the bottom of the cavity part and one side face of the connecting buckle are respectively provided with a magnetic adsorption piece, and the connecting buckle is detachably connected with the refrigeration module.

Optionally, the first connecting pipe is one end pipe of an elbow joint, and the second connecting pipe is a middle branch pipe of a tee joint.

Optionally, the refrigeration module adopts a semiconductor for refrigeration.

Optionally, the refrigeration module includes a heat dissipation fan, a heat dissipation 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 pipe, and the other end of the cold guide channel is the hot end inlet pipe.

Optionally, the refrigeration module is further connected with a battery module and a controller module respectively, the refrigeration module is in plug-in connection with the battery module, and the refrigeration module is in plug-in connection with the controller module.

Optionally, the cold end outlet pipe and the hot end inlet pipe may be in interference connection with the first connecting pipe socket joint and the second connecting pipe socket joint.

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

the utility model discloses a connection structure of refrigeration module and refrigeration pipeline of air conditioner clothes through being provided with the connector link, realizes the high-speed joint with refrigeration pipeline and refrigeration module, connects simply and conveniently, and the connector link is connected the back with the refrigeration module moreover, and connector link part structure is inlayed wherein to can not increase the thickness of clothes, be favorable to the overall arrangement of air conditioner clothes.

Drawings

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

fig. 2 is a schematic structural diagram of a refrigeration pipeline of the air-conditioning suit, which is not provided with a refrigeration module;

fig. 3 is an exploded sectional view of a connection structure of a refrigeration module and a refrigeration pipeline of the air conditioning suit of the present invention;

fig. 4 is a sectional view showing a connection state of the connection structure of the refrigeration module and the refrigeration pipeline of the air conditioning suit of the present invention.

Reference numerals: 100-refrigeration pipeline, 110-first main pipeline, 120-second main pipeline, 130-third main pipeline, 200-connecting buckle, 300-refrigeration module, 301-cavity part, 302-cold end outlet pipe, 303-hot end inlet pipe, 304-sealing rubber gasket, 400-battery module, 500-controller module, 601-first connecting pipe and 602-second connecting pipe.

Detailed Description

Referring to fig. 1-4, the utility model discloses a connection structure of refrigeration module 300 and refrigeration pipeline 100 of air conditioning suit, including refrigeration module 300 and refrigeration pipeline 100, refrigeration pipeline 100 arranges in the clothes intermediate layer, is used for refrigerating the human body, and refrigeration module 300 is used for supplying refrigeration pipeline 100 circulation refrigeration, provides the refrigeration motive power.

The refrigeration module 300 adopts semiconductor refrigeration, and comprises a cooling fan, a cooling aluminum block, a refrigeration sheet, a heat insulation pad and a cold guide block, wherein the cold guide block is provided with a cold guide channel of a reciprocating coiled structure, one end of the cold guide channel is a cold end outlet pipe 302, and the other end of the cold guide channel is a hot end inlet pipe 303. The refrigeration module 300 is further connected with a battery module 400 and a controller module 500 respectively, the refrigeration module 300 is connected with the battery module 400 in a plug-in manner, and the refrigeration module 300 is connected with the controller module 500 in a plug-in manner. The battery module 400, the refrigeration module 300 and the controller module 500 are sequentially connected in parallel to form a relatively fixed whole. The battery module 400 adopts a storage battery, and the storage battery provides electric energy to drive the refrigeration module 300 to work, so as to circulate the refrigeration medium in the refrigeration pipeline 100 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 connecting structure comprises a connecting buckle 200, a first connecting pipe 601 and a second connecting pipe 602 are fixedly embedded in the connecting buckle 200, the first connecting pipe 601 is in interference connection with the inlet end of the refrigeration pipeline 100, the second connecting pipe 602 is in interference connection with the outlet end, and a cavity part 301 capable of accommodating part of the connecting buckle 200 is arranged on one side of the refrigeration module 300; the cavity part 301 is provided with a cold end outlet pipe 302 and a hot end inlet pipe 303 of the refrigeration module 300, the cold end outlet pipe 302 can be in socket connection with the first connecting pipe 601, the hot end inlet pipe 303 can be in socket connection with the second connecting pipe 602, a first annular groove capable of receiving the first connecting pipe 601 is arranged on the periphery of the cold end outlet pipe 302, a second annular groove capable of receiving the second connecting pipe 602 is arranged on the periphery of the hot end inlet pipe 303, and sealing rubber gaskets 304 are arranged in the first annular groove and the second annular groove. The bottom of the cavity part 301 and one side of the connection buckle 200 are both provided with magnetic adsorption pieces for detachably connecting the connection buckle 200 and the refrigeration module 300.

In this embodiment, the refrigeration circuit 100 includes a first main circuit 110, a second main circuit 120 and a third main circuit 130, the first main circuit 110 is arranged in a ring shape and is disposed at an upper end portion of a clothing interlayer, the second main circuit 120 is arranged in a ring shape and is disposed at a lower end portion of the clothing interlayer, the first main circuit 110 is connected to one end of the third main circuit 130, and the other end of the third main circuit 130 is used as an inlet end of the refrigeration circuit 100; both ends of second main refrigerant line 120 serve as outlet ends of refrigerant line 100. In this embodiment, the first connection pipe 601 is one end pipe of an elbow joint, such that the third main pipeline 130 is directly connected to one end of the elbow joint, and the other end of the elbow joint is embedded in the connection buckle 200 as the first connection pipe 601 and is socket-connected to the cold end outlet pipe 302 of the refrigeration module 300.

The second connection pipe 602 is a middle branch pipe of the tee joint, two ends of the second main pipeline 120 are respectively connected to two ends of the tee joint in an inserting manner, and the middle branch pipe of the tee joint is embedded in the connection buckle 200 as the second connection pipe 602 and is in socket connection with the hot end inlet pipe 303 of the refrigeration module 300.

A plurality of branch pipelines are arranged between the first main pipeline 110 and the second main pipeline 120 to realize refrigeration.

Wherein, cold junction outlet pipe 302 can be connected with first connecting pipe 601 socket joint and hot junction inlet tube 303 can be connected with second connecting pipe 602 socket joint and be interference connection, and it is convenient to connect, and the leakproofness is good.

The utility model discloses in, refrigeration module 300, the whole that battery module 400 and controller module 500 constitute, can realize quick plug-in connection through this connection structure and refrigeration pipeline 100, specifically, directly aim at connector link 200 with cavity 301 of refrigeration module 300, both relative movement, until the magnetic adsorption spare of connector link 200 enters into cavity 301, with the mutual actuation of the magnetic adsorption spare in cavity 301, in the actuation of magnetic adsorption spare, first connecting pipe 601 and cold junction outlet pipe 302 socket joint, second connecting pipe 602 and hot junction inlet tube 303 socket joint, when the magnetic adsorption spare pastes completely, the socket joint is also accomplished, first connecting pipe 601 and second connecting pipe 602 also corresponding offset with the sealed cushion 304 of various correspondences, realize sealed processing. The utility model discloses in, the circulation of medium can set up the pumping module on the third main line 130 of refrigeration pipeline 100, can realize the circulation of medium at refrigeration pipeline 100 and refrigeration module 300.

Claims (6)

1. A connection structure of a refrigeration module and a refrigeration pipeline of an air conditioning suit comprises the refrigeration module and the refrigeration pipeline, wherein the refrigeration pipeline comprises an inlet end and an outlet end, and is characterized in that the connection structure comprises a connecting buckle, a first connecting pipe and a second connecting pipe are fixedly embedded in the connecting buckle, the first connecting pipe is in interference connection with the inlet end of the refrigeration pipeline, the second connecting pipe is in interference connection with the outlet end, and a cavity part capable of containing part of the connecting buckle is arranged on one side of the refrigeration module; a cold end outlet pipe and a hot end inlet pipe of the refrigeration module are arranged in the cavity, the cold end outlet pipe can be in socket joint with the first connecting pipe, the hot end inlet pipe can be in socket joint with the second connecting pipe, a first annular groove capable of bearing the first connecting pipe is arranged on the periphery of the cold end outlet pipe, a second annular groove capable of bearing the second connecting pipe is arranged on the periphery of the hot end inlet pipe, and sealing rubber gaskets are arranged in the first annular groove and the second annular groove; the bottom of the cavity part and one side face of the connecting buckle are respectively provided with a magnetic adsorption piece, and the connecting buckle is detachably connected with the refrigeration module.

2. A connection structure of a refrigerating module and a refrigerating pipe of an air conditioning suit according to claim 1, wherein the first connection pipe is one of end pipes of an elbow joint, and the second connection pipe is a middle branch pipe of a tee joint.

3. A connection structure of a refrigerating module and a refrigerating pipeline of an air conditioning suit according to claim 1, wherein the refrigerating module employs a semiconductor for refrigeration.

4. A connection structure of a refrigerating module and a refrigerating pipeline of an air conditioning suit according to claim 3, wherein the refrigerating module comprises a heat radiation fan, a heat radiation aluminum block, a refrigerating sheet, a heat insulation pad and a cold conducting block, a cold conducting channel of a reciprocating coiled structure is arranged in the cold conducting block, one end of the cold conducting channel is the cold end outlet pipe, and the other end of the cold conducting channel is the hot end inlet pipe.

5. A connection structure of a refrigerating module and a refrigerating pipeline of an air conditioning suit according to claim 1, wherein the refrigerating module is further connected with a battery module and a controller module, respectively, the refrigerating module and the battery module are in plug-in connection, and the refrigerating module and the controller module are in plug-in connection.

6. A connection structure of a refrigerating module and a refrigerating pipeline of an air conditioning suit according to claim 1, wherein the cold end outlet pipe and the hot end inlet pipe are both in interference connection.