CN218941608U - Heat dissipation device of switch - Google Patents

Abstract

The utility model relates to the technical field of switches, in particular to a heat dissipation device of a switch; including box and heat abstractor, heat abstractor includes the compressor, the pipe, the cooler bin, the switch box, capillary and auxiliary assembly, when the long-time work of exchanger makes box internal temperature rise, the compressor action compresses refrigerant gas, carry to the cooler bin through the pipe, the cooler bin converts refrigerant gas into high-pressure liquid, carry the switch box after the capillary throttle step-down, low temperature condensation liquid carries out heat exchange with the air in the box through the switch box, the gasification absorbs heat, reduce temperature, realize refrigeration, the box is in sealing state because of the heat dissipation, thereby can effectively avoid the switch to be infected with outside dust and form dust to pile up, and then realize when the switch carries out heat dissipation work, will effectively avoid the switch to be infected with dust and form dust to pile up, thereby make the switch during operation can carry out more stable heat dissipation, promote the stability of switch work.

Description

Heat dissipation device of switch

Technical Field

The utility model relates to the technical field of switches, in particular to a heat dissipation device of a switch.

Background

The switch is a network device for forwarding photoelectric signals, can provide an electric signal path for any two network nodes connected with the switch, and is mostly directly installed on the installation support through bolts for use when the switch is used, but after the switch works for a long time, the switch generates extremely large heat, and the current installation support does not have a heat dissipation function, so that heat dissipation of the switch is unchanged, and the service life of the switch is greatly reduced.

The prior art CN216490868U discloses a mounting device with a heat dissipation function for switch installation, which comprises a bottom plate, wherein two vertical plates are arranged at the top of the bottom plate, a placing plate is fixedly connected to one corresponding side of each vertical plate, the top of the bottom plate is elastically connected with a mounting plate through a bottom spring, the top of the mounting plate is fixedly connected with a heat dissipation fin, a heat dissipation copper pipe is wound on the heat dissipation fin and connected with one end of the heat dissipation copper pipe, a heat dissipation fan is arranged at the outer side of the heat dissipation copper pipe; this scheme is through conducting the heat that the switch produced, conveniently dispels the heat to the switch, improves the life of switch.

However, when in use, the utility model is arranged in an open way, so that the switch is easy to be stained with dust when in use, and after the dust is accumulated on the surface of the switch, the working efficiency of conduction and heat dissipation of the switch is affected, so that the switch can not stably dissipate heat, and the working stability of the switch is greatly reduced _。

Disclosure of Invention

The purpose of the utility model is that: aim at providing a switch cooling device, when the switch dispels the heat work, will effectively avoid the switch to be infected with the dust and form the dust and pile up to make the switch during operation can carry out more stable heat dissipation, promote the stability of switch work.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: the utility model provides exchanger heat dissipation equipment, which comprises a box body, a heat dissipation device and a heat dissipation device, wherein the box body is provided with a placing groove which is positioned at one side of the box body;

the heat dissipation device comprises a compressor, a guide pipe, a cooling box, an exchange box, a capillary tube and an auxiliary assembly, wherein the compressor is fixedly connected with the box body and is positioned on one side of the box body, the guide pipe is detachably connected with the compressor and is positioned on one side of the compressor, the cooling box is fixedly connected with the box body and is detachably connected with the guide pipe and is positioned on one side of the guide pipe, which is close to the compressor, the exchange box is detachably connected with the guide pipe and is fixedly connected with the box body and is positioned in the placing groove, the capillary tube is detachably connected with the guide pipe and is positioned on one side of the guide pipe, which is close to the cooling box, and the auxiliary assembly is arranged on one side of the box body.

The auxiliary assembly comprises a support column and a protective door, wherein the support column is fixedly connected with the box body and is positioned at one side of the box body; the protective door is rotationally connected with the box body and is positioned on one side of the box body, which is close to the placing groove.

The auxiliary assembly further comprises an I-shaped table, and the I-shaped table is fixedly connected with the box body and is positioned in the placing groove.

The auxiliary assembly further comprises an electric cabinet, wherein the electric cabinet is fixedly connected with the box body, is electrically connected with the box body, and is located on one side of the box body.

The auxiliary assembly further comprises a first fan and a second fan, wherein the first fan is fixedly connected with the box body, is electrically connected with the electric control box and is positioned in the placing groove; the second fan is fixedly connected with the box body, is electrically connected with the electric control box and is positioned in the placing groove.

The utility model relates to a heat dissipation device of a switch, which is characterized in that a box body is provided with a placing groove, a switch is convenient to install, a compressor is arranged on one side of the box body, a conduit is detachably connected with the compressor, a cooling box is arranged on one side of the box body and detachably connected with the conduit, a switching box is arranged on the box body and detachably connected with the conduit, a capillary tube is detachably connected with the conduit, an auxiliary component is arranged on one side of the box body and is used for sealing the box body and assisting heat dissipation, when the temperature in the box body is increased due to long-time operation of the switch, the compressor acts to compress low-temperature low-pressure refrigerant gas into high-temperature high-pressure refrigerant gas, and the high-temperature high-pressure refrigerant gas is conveyed to the cooling box through the conduit, the cooling box converts radiating high-temperature high-pressure refrigerant gas into high-pressure liquid, and after capillary throttling and depressurization, the high-temperature high-pressure refrigerant gas is converted into low-temperature low-pressure condensed liquid, and then the low-temperature condensed liquid is conveyed to the exchange box through the guide pipe, when the low-temperature condensed liquid passes through the exchange box, heat exchange and gasification heat absorption are carried out on air inside the box, refrigeration is achieved, the temperature inside the box is reduced, and the box is in a sealing state when the heat is dissipated, so that the switch is effectively prevented from being contaminated with external dust and dust accumulation is formed, when the switch is used for radiating, dust pollution of the switch is effectively avoided and dust accumulation is formed, so that the switch can conduct more stable heat dissipation when in operation, and the stability of the switch operation is improved.

Drawings

The utility model may be further illustrated by means of non-limiting examples given in the accompanying drawings.

Fig. 1 is a schematic diagram of the overall structure of a heat dissipating device of a switch according to a first embodiment of the present utility model.

Fig. 2 is a schematic structural view of a first embodiment of the exchange box according to the present utility model.

Fig. 3 is a schematic diagram of the overall structure of a heat dissipating device of a switch according to a second embodiment of the present utility model.

In the figure: 101-box, 102-standing groove, 103-compressor, 104-pipe, 105-cooling box, 106-exchange box, 107-capillary, 108-support column, 109-guard gate, 110-I-shaped platform, 111-electric cabinet, 201-first fan, 202-second fan.

Detailed Description

In order that those skilled in the art will better understand the present utility model, the following technical scheme of the present utility model will be further described with reference to the accompanying drawings and examples.

Embodiment one:

as shown in fig. 1 and fig. 2, where fig. 1 is a schematic diagram of the overall structure of a heat dissipation device of a switch, and fig. 2 is a schematic diagram of the structure of a switch box, the present utility model provides a heat dissipation device of a switch: the heat dissipation device comprises a box body 101 and a heat dissipation device, wherein the heat dissipation device comprises a compressor 103, a conduit 104, a cooling box 105, an exchange box 106, a capillary tube 107 and an auxiliary assembly, and the auxiliary assembly comprises a support column 108, a protective door 109, an I-shaped table 110 and an electric control box 111. Can dispel the heat the during operation at the switch through the aforesaid scheme, will effectively avoid the switch to be infected with the dust and form the dust and pile up to make the switch during operation can carry out more stable heat dissipation, promote the stability of switch work, it can be understood that, the aforesaid scheme can carry out the closed heat dissipation of switch, thereby effectively avoid the switch to be infected with the dust and form the dust to pile up, thereby make the switch during operation can carry out more stable heat dissipation, and can promote the stability of switch work.

In this embodiment, the box 101 has a placing groove 102, the placing groove 102 is located on one side of the box 101, the placing groove 102 is provided on the box 101, so that the installation of the switch and the equipment working assembly is facilitated, the bottom of the inner side of the box 101 is provided with a through hole, and the sealing dustproof treatment is performed, so that the switch cable is facilitated to pass through.

Wherein the compressor 103 is fixedly connected with the box 101 and is positioned at one side of the box 101, the guide pipe 104 is detachably connected with the compressor 103 and is positioned at one side of the compressor 103, the cooling box 105 is fixedly connected with the box 101 and is detachably connected with the guide pipe 104 and is positioned at one side of the guide pipe 104 close to the compressor 103, the exchange box 106 is detachably connected with the guide pipe 104 and is fixedly connected with the box 101 and is positioned in the placing groove 102, the capillary pipe 107 is detachably connected with the guide pipe 104 and is positioned at one side of the guide pipe 104 close to the cooling box 105, the auxiliary assembly is arranged at one side of the box 101, the compressor 103 is arranged at the top of the box 101 through bolts, the guide pipe 104 is arranged on an air outlet pipe and a return pipe of the compressor 103 through a cutting sleeve type copper pipe nut, the air inlet pipe of the cooling box 105 is connected with the guide pipe 104 through a clamping sleeve type copper pipe nut, the cooling box 105 is convenient to detach, the air outlet pipe of the cooling box 105 is connected with the guide pipe 104 through the clamping sleeve type copper pipe nut, the cooling box is convenient to detach, the two ends of the capillary tube 107 are arranged on the guide pipe 104 through the clamping sleeve type copper pipe nut, the cooling box is convenient to detach, the air inlet pipe of the exchanging box 106 is connected with the guide pipe 104 through the clamping sleeve type copper pipe nut, the cooling box is convenient to detach, a circulating refrigerating system can be formed, the auxiliary component is arranged on the box 101, the exchanger is arranged in the box 101, the temperature inside the box 101 is increased after the exchanger works for a long time, at the moment, the action of the compressor 103 can be controlled, the low-temperature low-pressure refrigerant gas is compressed into high-temperature high-pressure refrigerant gas, and the high-temperature high-pressure refrigerant gas is conveyed to the cooling box 105 through the guide pipe 104, a U-shaped pipe group which is arranged at intervals is arranged inside the cooling box 105, an air supply cooling fan is arranged on the outer side of the cooling box, so that the working efficiency of the cooling box 105 is accelerated, the cooling box 105 converts the radiating high-temperature high-pressure refrigerant gas into a high-pressure liquid state, the high-pressure liquid state is throttled and depressurized by the capillary pipe 107 and then is converted into a low-temperature low-pressure condensed liquid, the low-temperature low-pressure condensed liquid is conveyed to the exchange box 106 through the guide pipe 104, a plurality of groups of U-shaped pipes are arranged inside the exchange box 106, heat conducting fins are arranged at intervals on the outer sides of the U-shaped pipes, heat conduction exchange is facilitated, and the low-temperature condensed liquid can exchange heat with air inside the box 101 when passing through the exchange box 106, gasification and heat absorption are realized, and the internal temperature of the box 101 can be effectively reduced, and the work heat radiation of an exchange is realized.

Secondly, support column 108 with box 101 fixed connection, and be located box 101 one side, guard gate 109 with box 101 rotates to be connected, and is located box 101 is close to standing groove 102 one side, a plurality of support columns 108 pass through the bolt and install the box 101 bottom will be used for right box 101 carries out stable working height and supports, guard gate 109 passes through the hinge and installs box 101 one side will be used for standing groove 102 seals, thereby can dispel the heat in sealed environment when making the switch work dispel the heat.

Then, the i-shaped table 110 is fixedly connected with the box 101 and is located in the placement groove 102, and the i-shaped table 110 is installed in the box 101 through bolts and is used for placing and installing the switch.

Finally, the electric control box 111 is fixedly connected with the box body 101, is electrically connected with the compressor 103, and is located at one side of the box body 101, the electric control box 111 is mounted on the box body 101 through bolts, and a control PLC is mounted in the electric control box 111 and is provided with corresponding control circuits, so that the compressor 103 can be controlled automatically and manually.

When the heat exchanger is used for working and radiating in a sealed environment, the heat exchanger is firstly arranged on the I-shaped table 110, then the protective door 109 is closed, the box body 101 is sealed, the heat exchanger is in the sealed working environment, when the temperature inside the box body 101 is increased after the heat exchanger works for a long time, the compressor 103 can be controlled to act, the low-temperature low-pressure refrigerant gas is compressed into the high-temperature high-pressure refrigerant gas, the high-temperature high-pressure refrigerant gas is conveyed to the cooling box 105 through the guide pipe 104, the cooling box 105 converts the high-temperature high-pressure refrigerant gas radiating into a high-pressure liquid state, the low-temperature low-pressure condensed liquid is converted into a low-temperature low-pressure condensed liquid after the capillary tube 107 throttles and reduces the pressure, then the low-temperature condensed liquid passes through the exchange box 106, the heat exchanger exchanges heat with air inside the box body 101, and is gasified, so that the internal temperature of the box body 101 is effectively reduced, the heat exchanger is effectively polluted, the heat exchanger is effectively radiated when the heat exchanger is in a sealed state, dust is prevented from being accumulated when the heat exchanger is in a sealed state, and dust is more stable when the heat exchanger is formed, and dust is more stable when the heat exchanger is radiated is in a working state.

Embodiment two:

as shown in fig. 3, where fig. 3 is a schematic view of the overall structure of the heat dissipating device of the switch, the present utility model provides, on the basis of the first embodiment, a heat dissipating device of the switch, and the auxiliary assembly further includes a first fan 201 and a second fan 202.

The first fan 201 is fixedly connected with the box 101, is electrically connected with the electric cabinet 111, and is located in the placing groove 102, the second fan 202 is fixedly connected with the box 101, is electrically connected with the electric cabinet 111, is located in the placing groove 102, the first fan 201 is mounted on the inner side wall of the box 101 through bolts, the second fan 202 is mounted on the inner side wall of the box 101 through bolts and is symmetrically mounted with the first fan 201, and then, the first fan 201 and the second fan 202 are electrically connected with the electric cabinet 111 through cables respectively.

When the exchange box 106 exchanges with the hot air in the box 101, the first fan 201 and the second fan 202 will act simultaneously, so that the air flow in the box 101 can be stirred, the exchange efficiency of the exchange box 106 is accelerated, and the work heat dissipation of the exchange box is more facilitated.

The above embodiments are merely illustrative of the principles of the present utility model and its effectiveness, and are not intended to limit the utility model. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the utility model. Accordingly, it is intended that all equivalent modifications and variations of the utility model be covered by the claims of this utility model, which are within the skill of those skilled in the art, can be made without departing from the spirit and scope of the utility model disclosed herein.

Claims (5)

1. A heat dissipation device for a switch comprises a box body, wherein the box body is provided with a placing groove, the placing groove is positioned at one side of the box body, and the heat dissipation device is characterized in that,

the heat dissipation device is also included;

the heat dissipation device comprises a compressor, a guide pipe, a cooling box, an exchange box, a capillary tube and an auxiliary assembly, wherein the compressor is fixedly connected with the box body and is positioned on one side of the box body, the guide pipe is detachably connected with the compressor and is positioned on one side of the compressor, the cooling box is fixedly connected with the box body and is detachably connected with the guide pipe and is positioned on one side of the guide pipe, which is close to the compressor, the exchange box is detachably connected with the guide pipe and is fixedly connected with the box body and is positioned in the placing groove, the capillary tube is detachably connected with the guide pipe and is positioned on one side of the guide pipe, which is close to the cooling box, and the auxiliary assembly is arranged on one side of the box body.

2. The heat sink apparatus of claim 1, wherein,

the auxiliary assembly comprises a support column and a protective door, wherein the support column is fixedly connected with the box body and is positioned at one side of the box body; the protective door is rotationally connected with the box body and is positioned on one side of the box body, which is close to the placing groove.

3. The heat sink apparatus of claim 2, wherein,

the auxiliary assembly further comprises an I-shaped table which is fixedly connected with the box body and is positioned in the placing groove.

4. The heat sink apparatus of claim 3, wherein,

the auxiliary assembly further comprises an electric control box, wherein the electric control box is fixedly connected with the box body, is electrically connected with the compressor and is positioned on one side of the box body.

5. The heat sink apparatus of claim 4, wherein,

the auxiliary assembly further comprises a first fan and a second fan, wherein the first fan is fixedly connected with the box body, is electrically connected with the electric control box and is positioned in the placing groove; the second fan is fixedly connected with the box body, is electrically connected with the electric control box and is positioned in the placing groove.

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