CN219647119U - Vortex tube structure - Google Patents

Abstract

The utility model belongs to the technical field of vortex tubes, in particular to a vortex tube structure, which comprises a tube body, wherein a heat pipe end is arranged on the tube body, a heat conduction box body is arranged on the outer side of the heat pipe end, the heat conduction box body is fixedly connected with the tube body, a containing cavity is formed in the heat conduction box body, a cooling fan is fixedly arranged at the top of the heat conduction box body, the cooling fan is electrically connected with an external power supply, and two riveting blocks are fixedly connected on the inner side of the heat conduction box body; through being provided with the heat conduction box body on the body, the heat conduction box body is located the outside of heat pipe end, when the heat pipe end produced high temperature heat, through starting radiator fan, radiator fan produced wind and blow to the heat pipe end through interval groove and through-hole, and the heat is discharged from the both sides of heat conduction box body, perhaps wind is in holding the intracavity and is led out, is discharged from the heat dissipation groove to can reduce the temperature of heat pipe end, avoid when operating the vortex tube, bring the danger of operation because the temperature is too high.

Description

Vortex tube structure

Technical Field

The utility model relates to the technical field of vortex tubes, in particular to a vortex tube structure.

Background

The vortex tube is a novel energy separation device capable of generating cold and hot air flow simultaneously, cold and hot air flow is converted through the vortex tube, cold air is generated at one end, hot air is generated at the other end, and the vortex tube can adjust the flow rate of air and the temperature of the cold air end through adjusting a valve at the hot air end.

The prior vortex tube structure generally comprises a nozzle, a vortex chamber, a separation orifice plate and cold and hot two-end pipes, compressed gas expands in the nozzle during operation, air flow rotates at high speed in the vortex chamber, the air flow is separated into two air flows with unequal total temperature after vortex conversion, and the high-temperature air flow flows out of the hot end pipe and the low-temperature air flow flows out of the cold end pipe under the action of the separation orifice plate.

Because the heat pipe end of the vortex tube can generate higher heat, if the vortex tube is operated, the danger of operation is probably brought to staff due to the fact that the temperature of the heat pipe end is too high. Therefore, it is desirable to provide a vortex tube that avoids the potential safety hazard caused by excessive heat pipe end temperature.

Disclosure of Invention

The present utility model is directed to a vortex tube structure, which solves the above-mentioned problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a vortex tube structure, includes the body, have the heat pipe end on the body, the heat pipe end outside is equipped with the heat conduction box body, the heat conduction box body with body fixed connection, the appearance chamber has been seted up to the heat conduction box body, heat conduction box body top fixed mounting has radiator fan, radiator fan and external power source electric connection, just two riveting pieces of heat conduction box body inboard fixedly connected with, two rivet piece all seted up with hold the corresponding through-hole in chamber, two have a spacing groove between the riveting piece, just the heat dissipation groove has been seted up to the heat conduction box body bottom, the heat dissipation groove with hold the chamber intercommunication.

As still further aspects of the utility model: the width of the containing cavity is larger than the diameter of the pipe body.

As still further aspects of the utility model: the two riveting blocks are fixedly connected with positioning blocks, and the positioning blocks are fixedly connected with the pipe body.

As still further aspects of the utility model: one side of the riveting block, which is close to the pipe body, is provided with an air flow groove which is communicated with the through hole.

As still further aspects of the utility model: the heat conduction box body top has seted up the fixed slot, radiator fan fixed mounting is in the fixed slot.

As still further aspects of the utility model: and the two sides of the inner wall of the cavity are fixedly connected with heat conducting fins.

As still further aspects of the utility model: the space groove is communicated with the fixed groove.

Compared with the prior art, the utility model has the beneficial effects that:

through being provided with the heat conduction box body on the body, the heat conduction box body is located the outside of heat pipe end, when the heat pipe end produced high temperature heat, can blow the heat pipe end through start radiator fan, radiator fan produces wind through interval groove and through-hole, the heat can be discharged from the both sides of heat conduction box body, perhaps wind is in holding the intracavity and lead out, discharge from the heat sink, thereby can reduce the temperature of heat pipe end, avoid when operating the vortex tube, bring the danger of operation because the temperature is too high, and the heat conduction fin that sets up is located the both sides of holding the chamber, can make the heat conduction of heat pipe end to the heat conduction fin on, the effect of reducing the temperature is improved, and make the wind that radiator fan produced give off the heat of heat conduction fin in holding the chamber when leading to, the air around can be fast, the radiating effect has been improved.

Drawings

FIG. 1 is a schematic diagram of a vortex tube structure;

FIG. 2 is a schematic diagram of a heat conducting box in a vortex tube structure;

fig. 3 is a schematic diagram of the structure of the inside of the heat conduction box in the vortex tube structure.

In the figure: 1. a tube body; 11. a heat pipe end; 2. a thermally conductive cartridge; 201. a cavity; 202. a space groove; 203. a heat sink; 204. a fixing groove; 21. a heat radiation fan; 22. riveting blocks; 221. a positioning block; 222. a gas flow groove; 223. a through hole; 23. and a heat conduction fin.

Detailed Description

Referring to fig. 1 to 3, in an embodiment of the utility model, a vortex tube structure includes a tube body 1, a heat pipe end 11 is provided on the tube body 1, a heat conducting box body 2 is provided at an outer side of the heat pipe end 11, the heat conducting box body 2 is fixedly connected with the tube body 1, a cavity 201 is provided in the heat conducting box body 2, a heat dissipating fan 21 is fixedly installed at a top of the heat conducting box body 2, the heat dissipating fan 21 is electrically connected with an external power supply, two riveting blocks 22 are fixedly connected at an inner side of the heat conducting box body 2, through holes 223 corresponding to the cavity 201 are provided in the two riveting blocks 22, a space groove 202 is provided between the two riveting blocks 22, a heat dissipating groove 203 is provided at a bottom of the heat conducting box body 2, and the heat dissipating groove 203 is communicated with the cavity 201.

In fig. 1-2: the heat pipe body 1 is provided with the heat pipe end 11, the heat pipe end 11 can generate hot air, the heat pipe end 11 is provided with the heat conduction box body 2 outside, the heat dissipation fan 21 can start to work by starting the heat dissipation fan 21 (model DP 200A), the heat dissipation fan 21 can stop working by switching on the power supply, the heat dissipation fan 21 can be enabled to run, the heat dissipation and the temperature reduction are carried out on the heat pipe end 11, and the danger of operation caused by overhigh temperature during the operation of the vortex tube is avoided.

In fig. 3: the heat conduction box body 2 is fixedly connected with the pipe body 1, the two riveting blocks 22 are fixedly connected with the positioning blocks 221, the positioning blocks 221 are fixedly connected with the pipe body 1, the positioning blocks 221 are in contact with the pipe body 1 for fixing, the use of the heat conduction box body 2 is facilitated, when the heat pipe end 11 generates high-temperature heat, the heat dissipation fan 21 can be started, the top of the heat conduction box body 2 is provided with the fixing groove 204, the heat dissipation fan 21 is fixedly arranged in the fixing groove 204, the use of the heat dissipation fan 21 is facilitated, one side of the riveting block 22 close to the pipe body 1 is provided with the air flow groove 222, the air flow groove 222 is communicated with the through holes 223, the air flow groove 222 is arranged between the positioning blocks 221 and can be positioned in a space for air flow, the number of the through holes 223 is a plurality of, the air can be fully blown to the heat pipe end 11 through the through holes 223, the space groove 202 is communicated with the fixing groove 204, the space groove 202 is positioned between the two air flow grooves 222, the heat pipe end 11 can be fully contacted with the outer wall of the heat pipe end 11 by enabling wind to extend to the outer wall of the heat pipe end 11 and flow through the two airflow grooves 222, when the heat radiation fan 21 generates wind to blow the wind to the heat pipe end 11 through the interval groove 202 and the through hole 223, heat can be discharged from two sides of the heat conduction box body 2, or the wind flows in the containing cavity 201 and is discharged from the heat radiation groove 203, so that the temperature of the heat pipe end 11 can be reduced, the risk of operation caused by overhigh temperature when the pipe body 1 is operated is avoided, the arranged heat conduction fins 23 are positioned on two sides of the containing cavity 201, the heat of the heat pipe end 11 can be conducted to the heat conduction fins 23, the cooling effect is improved, and when the wind generated by the heat radiation fan 21 circulates in the containing cavity 201, the heat around the heat of the heat pipe end 11 can be discharged, the heat of the heat conduction fins 23 can be rapidly emitted to the surrounding air, the heat radiation effect is improved, the width of the accommodating cavity 201 is larger than the diameter of the pipe body 1, so that wind can circulate in the accommodating cavity 201, and the heat pipe end 11 can be conveniently cooled.

The working principle of the utility model is as follows: the heat pipe end 11 is arranged on the pipe body 1, the heat pipe end 11 can generate hot air, the heat conduction box body 2 is arranged on the outer side of the heat pipe end 11, the heat dissipation fan 21 can start to work by switching on a power supply, and stop working by switching off the power supply, so that the heat dissipation fan 21 can run, the heat dissipation and the temperature reduction are carried out on the heat pipe end 11, the danger of operation caused by overhigh temperature is avoided when the vortex tube is operated, the heat conduction box body 2 is fixedly connected with the pipe body 1, the positioning blocks 221 are fixedly connected with the two riveting blocks 22, the positioning blocks 221 are fixedly connected with the pipe body 1, the positioning blocks 221 are fixedly contacted with the pipe body 1, the heat conduction box body 2 is convenient to use, when the heat pipe end 11 generates high-temperature heat, the heat dissipation fan 21 can be started, the fixing groove 204 is arranged at the top of the heat conduction box body 2, the heat dissipation fan 21 is fixedly arranged in the fixing groove 204, the heat dissipation fan 21 is convenient to use, the riveting block 22 is provided with an air flow groove 222 at one side close to the pipe body 1, the air flow groove 222 is communicated with the through holes 223, the air flow groove 222 is positioned between the positioning blocks 221, a space can be provided for air flow, the number of the through holes 223 is a plurality, the air can be fully blown to the heat pipe end 11 through the through holes 223, the space groove 202 is communicated with the fixed groove 204, the space groove 202 is positioned between the two air flow grooves 222, the air can extend the outer wall of the heat pipe end 11 and flow through the two air flow grooves 222, the air can be fully contacted with the outer wall of the heat pipe end 11, when the heat dissipation fan 21 generates air to blow the air to the heat pipe end 11 through the space groove 202 and the through holes 223, heat can be discharged from two sides of the heat conduction box body 2, or the air flows in the containing cavity 201 and is discharged from the heat dissipation groove 203, so that the temperature of the heat pipe end 11 can be reduced, and the danger of operation caused by the over high temperature when the pipe body 1 is operated is avoided, and the heat conduction fins 23 that set up are located the both sides of holding the chamber 201, can make the heat conduction of heat pipe end 11 to on the heat conduction fins 23, improve the effect of cooling, and when making the wind that radiator fan 21 produced circulate in holding the chamber 201, not only can discharge the peripheral heat of heat pipe end 11, can also give off the heat of heat conduction fins 23 in the air around fast, improved radiating effect, the width of holding the chamber 201 is greater than the diameter of body 1, make wind energy circulate in holding the chamber 201, be convenient for dispel the heat to heat pipe end 11 and cool down.

The foregoing description is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical solution of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (7)

1. The utility model provides a vortex tube structure, includes body (1), have hot pipe end (11) on body (1), its characterized in that, hot pipe end (11) outside is equipped with heat conduction box body (2), heat conduction box body (2) with body (1) fixed connection, hold chamber (201) have been seted up to heat conduction box body (2), heat dissipation fan (21) are installed to heat conduction box body (2) top fixed mounting, heat dissipation fan (21) and external power source electric connection, just heat conduction box body (2) inboard fixedly connected with two riveting piece (22), two rivet piece (22) all seted up with hold through-hole (223) that the chamber (201) corresponds, two have between rivet piece (22) a spacing groove (202), just heat dissipation groove (203) have been seted up to heat conduction box body (2) bottom, heat dissipation groove (203) with hold chamber (201) intercommunication.

2. A vortex tube structure according to claim 1, characterized in that the width of the cavity (201) is larger than the diameter of the tube body (1).

3. A vortex tube structure according to claim 1, characterized in that two riveting blocks (22) are fixedly connected with a positioning block (221), and the positioning block (221) is fixedly connected with the tube body (1).

4. A swirl tube structure according to claim 1, characterized in that the riveting block (22) has a flow channel (222) on the side close to the tube body (1), which flow channel (222) communicates with the through hole (223).

5. The vortex tube structure according to claim 1, wherein a fixing groove (204) is formed at the top of the heat conducting box body (2), and the heat radiating fan (21) is fixedly installed in the fixing groove (204).

6. A vortex tube structure according to claim 1, characterized in that the heat conducting fins (23) are fixedly connected to both sides of the inner wall of the cavity (201).

7. A vortex tube structure according to claim 5, characterized in that the intermediate groove (202) communicates with the stationary groove (204).