CN210287717U - Hosiery machine cooling closed system heat dissipation gas-supply pipe - Google Patents

Abstract

The utility model discloses a hosiery machine cooling closed system heat dissipation gas-supply pipe, contain heat conduction tube shell, blast pipe, heat conduction filler, ventilation pipe, gas-supply pipe, heat conduction tube is hollow body, two gas-supply pipes that become a set of are set up in parallel in the body of heat conduction tube shell, establish the ventilation pipe in the middle of two gas-supply pipes and connect into an organic whole, establish the ventilation storehouse in the ventilation pipe, the blast pipe is established to the ventilation pipe upper end, the blast pipe stretches out the heat conduction tube shell outside after upwards extending, the air supply passageway in the blast pipe communicates with the ventilation storehouse, the space between the peripheral of ventilation pipe and gas-supply pipe and heat conduction pipe shell inner wall is filled with heat conduction filler, the utility model discloses install in compressed air cooling closed tower, outside air cooler has sent the cooling air into the ventilation storehouse interior unidirectional flow and has taken away the heat in the compressed air of gas-supply pipe from the blast pipe, cool down, the heat-conducting filler also drives the heat of the compressed air in the air pipe at the same time, so that the function of synchronous cooling is achieved.

Description

Hosiery machine cooling closed system heat dissipation gas-supply pipe

Technical Field

The utility model belongs to the technical field of a cooling device class technique and specifically relates to a hosiery machine cooling closed system heat dissipation gas-supply pipe.

Background

Compressed air is a driving medium applied in various industries, and is output and applied after being pressurized by an air compressor, in reality, the temperature of the compressed air output by a high-pressure gas feeding system of the hosiery machine is high, and the compressed air is provided with water vapor or oil vapor, so that a lot of troubles are brought to application and treatment in subsequent production, and even hidden troubles in product quality are brought.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of the prior art and provide a heat dissipation gas pipe of a hosiery machine cooling closed system, which comprises a heat conduction pipe shell, an air supply pipe, heat conduction filler, a ventilation pipe and a gas pipe, wherein the heat conduction pipe shell is a hollow pipe body, two gas pipes which are a group are arranged in parallel in the pipe body of the heat conduction pipe shell, the ventilation pipe is arranged between the two gas pipes and is connected into a whole, a ventilation bin is arranged in the ventilation pipe, the air supply pipe is arranged at the upper end of the ventilation pipe, the air supply pipe extends upwards and then extends out of the heat conduction pipe shell, an air supply channel in the air supply pipe is communicated with the ventilation bin, the space between the outer peripheries of the ventilation pipe and the inner wall of the heat conduction pipe shell is filled with the heat conduction filler, the utility model is arranged in a compressed air cooling closed tower, an external air cooler sends cooling air into the ventilation bin from, the compressed air is cooled, and the heat conducting filler simultaneously drives the heat of the compressed air in the air pipe while cooling the compressed air, so that the function of synchronously cooling the compressed air is achieved.

In order to achieve the above purpose, the technical scheme of the utility model is that: the utility model provides a hosiery machine cooling closed system heat dissipation gas-supply pipe, contains heat conduction tube shell, blast pipe, heat conduction filler, ventilation pipe, gas-supply pipe, the heat conduction tube shell is hollow body, and the parallel sets up two for a set of gas-supply pipe in the body of heat conduction tube shell, establishes the ventilation pipe in the middle of two gas-supply pipes and connects into an organic whole, establishes the ventilation storehouse in the ventilation pipe, the blast pipe is established to the ventilation pipe upper end, stretch out the heat conduction tube shell outside after the blast pipe upwards extends, air supply channel and ventilation storehouse intercommunication in the blast pipe, and the space between the periphery of ventilation pipe and gas-supply pipe and heat conduction tube shell inner wall is filled with the heat.

Further, a gas transmission channel is arranged in the gas transmission pipe.

Further, the outer surface of the heat conducting pipe shell is uniformly distributed with a corrugated shape.

The utility model has the advantages that: the utility model discloses install in compressed air cooling closed tower, outside air cooler has sent into the cooling air from the blast pipe in the ventilation storehouse one-way flow and has taken away the heat in the compressed air in the gas-supply pipe, and the compressed air cooling, when air-cooled, the heat conduction is packed and is also taken the compressed air heat in the gas-supply pipe simultaneously, reaches the function of synchronous cooling.

Drawings

FIG. 1 is a schematic view of the present invention;

fig. 2 is a side view of fig. 1.

In the figure: the heat-conducting pipe comprises a heat-conducting pipe shell 1, an air supply pipe 2, an air supply channel 201, heat-conducting filler 3, a vent pipe 4, a vent cabin 401, a gas pipe 5 and a gas transmission channel 501.

Detailed Description

The technical solution of the present invention is further specifically described below by way of examples and with reference to the accompanying drawings.

As shown in figures 1 and 2, the heat dissipation air delivery pipe of the hosiery machine cooling closed system comprises a heat conduction pipe shell 1, an air supply pipe 2, heat conduction fillers 3, a ventilation pipe 4 and air delivery pipes 5, wherein the heat conduction pipe shell 1 is a hollow pipe body, two air delivery pipes 5 which are a group are arranged in parallel in the pipe body of the heat conduction pipe shell 1, the ventilation pipe 4 is arranged between the two air delivery pipes 5 to be connected into a whole, an air ventilation bin 401 is arranged in the ventilation pipe 4, the air supply pipe 2 is arranged at the upper end of the ventilation pipe 4, the air supply pipe 2 extends upwards and then extends out of the heat conduction pipe shell 1, an air supply channel 201 in the air supply pipe 2 is communicated with the ventilation bin 401, the space between the peripheries of the ventilation pipe 4 and the air delivery pipes 5 and the inner wall of the heat conduction pipe shell 1 is filled with the heat conduction fillers 3, the utility model is arranged in a compressed air cooling closed tower, and an external air cooler sends cooling air into the ventilation bin, the compressed air is cooled, and the heat conducting filler simultaneously drives the heat of the compressed air in the air conveying pipe while cooling the compressed air, so that the function of synchronous cooling is achieved.

An air delivery channel 501 is arranged in the air delivery pipe 5.

The corrugated shape is evenly distributed on the outer surface of the heat conducting tube shell 1, so that the heat radiating area is favorably enlarged, and heat can be better released.

In practical application, the heat dissipation air delivery pipe is arranged in the compressed air cooling closed tower, the air supply channel 201 of the air delivery pipe 2 is connected with an external air cooler, the air outlets at two ends of the ventilation bin 401 of the ventilation pipe 4 are communicated with the inside and the outside of the compressed air cooling closed tower, the air cooler sends cold air into the ventilation bin 401 from the ventilation pipe 4 and flows, the flowing cold air and the compressed air in the air delivery pipe 5 carry out heat transfer to cool the compressed air, the cooled air after absorbing the heat of the compressed air and warming up is discharged from the air outlets along the ventilation bin 401, the temperature of the compressed air flowing in the air delivery pipe 5 is greatly reduced in the cooling process, the peripheral heat conduction filler 3 also synchronously absorbs part of the heat of the compressed air in the air delivery pipe 5 and is transmitted to the outside through the heat conduction pipe shell 1 to achieve the cooling function at the same time of air cooling, and meanwhile, a cooling water spraying system can also be arranged in the compressed air cooling, the compressed air cooling function achieves a better cooling effect, and the cooled gas provides a low-temperature or normal-temperature gas source for the pneumatic system of the hosiery machine again.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the protection scope of the present invention.

Claims (1)

1. The utility model provides a hosiery machine cooling closed system heat dissipation gas-supply pipe which characterized in that: contain heat conduction tube shell (1), blast pipe (2), heat conduction filler (3), ventilation pipe (4), gas-supply pipe (5), the heat conduction tube shell (1) of surface equipartition corrugate is hollow body, and parallel arrangement is two gas-supply pipe (5) as a set of in the body of heat conduction tube shell (1), establishes ventilation pipe (4) in the middle of two gas-supply pipe (5) and connects into an integral piece, establishes ventilation storehouse (401) in ventilation pipe (4), blast pipe (2) are established to ventilation pipe (4) upper end, stretch out heat conduction tube shell (1) outside after blast pipe (2) upwards extend, air supply passageway (201) and ventilation storehouse (401) intercommunication in blast pipe (2), and ventilation pipe (4) and the space that has between gas-supply pipe (5) periphery and heat conduction tube shell (1) inner wall of air-supply pipe (501) fill with heat conduction filler (3).

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