CN211953802U - Graphite modified polypropylene tube type heat exchanger - Google Patents

Abstract

Graphite modified polypropylene shell and tube heat exchanger, its simple structure, high durability and convenient operation, and have good corrosion-resistant high temperature resistance, through cold liquid and hydrothermal solution when mutual with the inside of this heat exchanger, through the function of inside pipe wall time heat transfer, because the seam is few, good leakproofness has, very big promotion the safety degree of heat exchanger, the cold liquid export is close to hydrothermal solution import, the cold liquid import is close to hydrothermal solution export, the arrangement of this kind of liquid import and export has realized the convection current of cold liquid and hydrothermal solution flow direction, fine heat exchange effect has been played, real-time temperature variation can effectually be known in the use of thermometer.

Description

Graphite modified polypropylene tube type heat exchanger

Technical Field

The utility model belongs to the technical field of atmosphere pollution control technique and the harmful waste gas control of industry, in particular to graphite modified polypropylene shell and tube heat exchanger.

Background

With the stricter and stricter requirements on the environmental management in China, more industrial enterprises have more and more investment in gas control, a gas control device with high cost performance is expected, and a heat exchanger is a very important industrial device, but the operation efficiency of the device is greatly hindered due to more market types and different efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a section can satisfy the heat transfer needs, and the while low price, the performance is better, the sexual valence relative altitude, convenient operation, clean maintenance convenient heat exchanger.

The technical scheme is as follows: a graphite modified polypropylene tube type heat exchanger comprises a cylinder body, a cold liquid circulating pipe, a hot liquid baffle plate, a cold liquid inlet, a cold liquid outlet, a hot liquid inlet and a hot liquid outlet.

Wherein, the cold liquid circulating pipe is arranged in the cylinder body and is positioned in the middle of the cylinder body. The hot liquid baffle plate is arranged in the cylinder body and is uniformly distributed on the cold liquid circulating pipe. The hydrothermal inlet is arranged on the cylinder body and is positioned at the lower end of the cylinder body. The hot liquid outlet is arranged on the cylinder body and is positioned at the upper end of the cylinder body. The cold liquid inlet is arranged on the cylinder body and is positioned at one end of the cylinder body close to the hot liquid outlet. The cold liquid outlet is arranged on the cylinder body and is positioned at one end of the cylinder body close to the hot liquid inlet; the cylinder body also comprises a first clapboard and a second clapboard. The first partition board is arranged in the cylinder body and is positioned at one end close to the cold night inlet. The second baffle is arranged in the cylinder body and is positioned at one end close to the cold night outlet. One end of the cold liquid circulating pipe is arranged on the first clapboard, and the other end is arranged on the second clapboard.

The utility model discloses a graphite modified polypropylene shell and tube heat exchanger, a structure is simple, and the operation is convenient, and have good corrosion-resistant high temperature resistance, through cold liquid and hydrothermal solution when mutual with the inside of this heat exchanger, through the function of inside pipe wall time heat transfer, because the seam is few, good leakproofness has, very big promotion the safety degree of heat exchanger, the export of cold liquid is close to hydrothermal solution import, the export of cold liquid is close to hydrothermal solution, cold liquid import is close to hydrothermal solution export, cold liquid and hydrothermal solution flow to's convection current has been realized to this kind of liquid arrangement of importing and exporting, fine heat exchange effect has been played.

Furthermore, the cold liquid circulating pipes of the graphite modified polypropylene tube type heat exchanger are arranged in parallel in a multi-pipe mode. As a further preference of the utility model, the cold liquid circulation pipe adopts the mode that the multitube is abreast arranged, has increased the area that connects out with the hydrothermal solution, has improved the efficiency of heat transfer.

Furthermore, the cold liquid circulating pipe of the graphite modified polypropylene tubular heat exchanger is made of graphite modified polypropylene. As a further optimization of the utility model, the graphite modified polypropylene has better characteristics of corrosion resistance and high temperature resistance.

Further, the cooling liquid inlet of the graphite modified polypropylene tube type heat exchanger further comprises a cooling liquid inlet valve. The cold liquid outlet also includes a cold liquid outlet valve. The cold liquid inlet valve is arranged on the cold liquid inlet and is positioned at one end of the cold liquid inlet, which is far away from the cylinder body. The cold liquid outlet valve is arranged on the cold liquid outlet and is positioned at one end of the cold liquid outlet, which is far away from the cylinder body. As the utility model discloses the further one kind is preferred, sets up the valve in the business turn over department of cold liquid, can improve the effect that cold traded and provide the multiple realization mode that cold traded, both can the selection valve open the cold liquid circulation and continuously carry out cold exchange, also can the valve close realize that partial cold liquid is leading to the cold exchange of carrying on of internal inclosed.

Further, the hydrothermal solution inlet of the graphite modified polypropylene tube type heat exchanger further comprises a hydrothermal solution inlet valve. The hot liquid outlet also includes a hot liquid outlet valve. The hydrothermal solution inlet valve is arranged on the hydrothermal solution inlet and is positioned at one end of the hydrothermal solution inlet far away from the cylinder body. The hot liquid outlet valve is arranged on the hot liquid outlet and is positioned at one end of the hot liquid outlet, which is far away from the cylinder body. As the utility model discloses further one kind is preferred, sets up the valve in the business turn over mouth department of hydrothermal solution, can improve the effect that the heat was traded and provide the multiple realization mode that the heat was traded, both can select the valve to open the hydrothermal solution circulation and continuously carry out the heat exchange, also can the valve to close and realize that partial hydrothermal solution is in leading to the internal inclosed heat exchange that carries on of body.

Further, the graphite modified polypropylene tube type heat exchanger also comprises a cold liquid outlet thermometer. The cold liquid outlet thermometer is arranged on the cold liquid outlet valve. As the utility model discloses further one kind is preferred, sets up the thermometer on the cold liquid outlet valve of cold liquid export, can audio-visually know the temperature of the current cold liquid after the cold exchanger exchanges.

Further, the graphite modified polypropylene tube type heat exchanger also comprises a hydrothermal liquid outlet temperature meter. The hot liquid outlet temperature is arranged on the hot liquid outlet valve. As a further preferred aspect of the present invention, a thermometer is disposed on the outlet valve of the hot liquid outlet, so that the temperature of the current hot liquid after the heat exchanger exchanges can be visually known.

Furthermore, the cylinder of the graphite modified polypropylene tubular heat exchanger is made of heat-insulating and corrosion-resistant materials. As a further preferred of the utility model, the barrel adopts thermal insulation material to make, can prevent to cause the injury because high temperature adversary or health when touching the barrel with the hand.

The technical scheme shows that the invention has the following beneficial effects: graphite modified polypropylene shell and tube heat exchanger, its simple structure, high durability and convenient operation, and have good corrosion-resistant high temperature resistance, through cold liquid and hydrothermal solution when mutual with the inside of this heat exchanger, through the function of inside pipe wall time heat transfer, because the seam is few, good leakproofness has, very big promotion the safety degree of heat exchanger, the cold liquid export is close to hydrothermal solution import, the cold liquid import is close to hydrothermal solution export, the arrangement of this kind of liquid import and export has realized the convection current of cold liquid and hydrothermal solution flow direction, fine heat exchange effect has been played, real-time temperature variation can effectually be known in the use of thermometer.

Drawings

FIG. 1 is a graphite modified polypropylene tubular heat exchanger according to example 1 of the present invention;

FIG. 2 is a graphite modified polypropylene tubular heat exchanger according to embodiment 2 of the present invention;

in the figure: the device comprises a cylinder body 1, a cold liquid flow pipe 11, a hot liquid baffle plate 12, a cold liquid inlet 2, a first partition plate 21, a cold liquid inlet valve 22, a cold liquid outlet 3, a second partition plate 31, a cold liquid outlet valve 32, a cold liquid outlet temperature meter 33, a hot liquid inlet 4, a hot liquid inlet valve 41, a hot liquid outlet 5, a hot liquid outlet valve 51 and a hot liquid outlet temperature meter 52.

Detailed Description

The invention will be further elucidated with reference to the drawings and the specific embodiments.

Example 1

The graphite modified polypropylene tube type heat exchanger shown in fig. 1 comprises a cylinder 1, a cold liquid circulating pipe 11, a hot liquid baffle plate 12, a cold liquid inlet 2, a cold liquid outlet 3, a hot liquid inlet 4 and a hot liquid outlet 5. Wherein, the cold liquid circulating pipe 11 is arranged in the cylinder 1 and is positioned in the middle of the cylinder 1. The hot liquid baffle plates 12 are arranged in the cylinder body 1 and are uniformly distributed on the cold liquid circulating pipe 11. Meanwhile, the hot liquid inlet 4 is arranged on the cylinder 1 and is positioned at the lower end of the cylinder 1. The hot liquid outlet 5 is arranged on the cylinder body 1 and is positioned at the upper end of the cylinder body 1. In addition, the cold liquid inlet 2 is arranged on the cylinder 1 and is positioned at one end of the cylinder 1 close to the hot liquid outlet 5. In addition, the cold liquid outlet 3 is arranged on the cylinder 1 and is positioned at one end of the cylinder 1 close to the hot liquid inlet 4. Wherein, still include first baffle 21 and second baffle 31 in the barrel 1. Meanwhile, the first partition 21 is provided in the cylinder 1 at an end near the cold night inlet 2. Wherein, the second baffle 31 is arranged in the cylinder 1 and is positioned at one end close to the cold night outlet 3. The cold liquid flow pipe 11 has one end provided to the first partition 21 and the other end provided to the second partition 31. Meanwhile, the cold liquid circulating pipes 11 are arranged in parallel in a multi-pipe manner. Further, the cold liquid flow pipe 11 is made of graphite-modified polypropylene. Wherein, the cylinder body 1 is made of heat-insulating corrosion-resistant materials.

Example 2

The graphite modified polypropylene tube type heat exchanger shown in fig. 2 comprises a cylinder 1, a cold liquid circulating pipe 11, a hot liquid baffle plate 12, a cold liquid inlet 2, a cold liquid outlet 3, a hot liquid inlet 4 and a hot liquid outlet 5. Wherein, the cold liquid circulating pipe 11 is arranged in the cylinder 1 and is positioned in the middle of the cylinder 1. The hot liquid baffle plates 12 are arranged in the cylinder body 1 and are uniformly distributed on the cold liquid circulating pipe 11. Meanwhile, the hot liquid inlet 4 is arranged on the cylinder 1 and is positioned at the lower end of the cylinder 1. The hot liquid outlet 5 is arranged on the cylinder body 1 and is positioned at the upper end of the cylinder body 1. In addition, the cold liquid inlet 2 is arranged on the cylinder 1 and is positioned at one end of the cylinder 1 close to the hot liquid outlet 5. In addition, the cold liquid outlet 3 is arranged on the cylinder 1 and is positioned at one end of the cylinder 1 close to the hot liquid inlet 4. Wherein, still include first baffle 21 and second baffle 31 in the barrel 1. Meanwhile, the first partition 21 is provided in the cylinder 1 at an end near the cold night inlet 2. Wherein, the second baffle 31 is arranged in the cylinder 1 and is positioned at one end close to the cold night outlet 3. The cold liquid flow pipe 11 has one end provided to the first partition 21 and the other end provided to the second partition 31. Meanwhile, the cold liquid circulating pipes 11 are arranged in parallel in a multi-pipe manner. Further, the cold liquid flow pipe 11 is made of graphite-modified polypropylene. Wherein, the cylinder body 1 is made of heat-insulating corrosion-resistant materials. Wherein the cold liquid inlet 2 further comprises a cold liquid inlet valve 22. Furthermore, the cold liquid outlet 3 comprises a cold liquid outlet valve 32. Meanwhile, the cold liquid inlet valve 22 is arranged on the cold liquid inlet 2 and is positioned at one end of the cold liquid inlet 2 far away from the cylinder body 1. In addition, the cold liquid outlet valve 32 is arranged on the cold liquid outlet 3 and is positioned at one end of the cold liquid outlet 3 far away from the cylinder 1. Wherein the hot liquid inlet 4 further comprises a hot liquid inlet valve 41. The hot liquid outlet 5 further comprises a hot liquid outlet valve 51. Wherein, the hot liquid inlet valve 41 is disposed on the hot liquid inlet 4 and is located at an end of the hot liquid inlet 4 away from the cylinder 1. Meanwhile, the hot liquid outlet valve 51 is disposed on the hot liquid outlet 5 and located at an end of the hot liquid outlet 5 away from the cylinder 1. In addition, a cold liquid outlet temperature gauge 33 is included. A cold liquid outlet thermometer 33 is provided on the cold liquid outlet valve 32. Also included is a hot liquid outlet temperature gauge 52. A hot liquid outlet temperature gauge 52 is provided on the hot liquid outlet valve 51.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications can be made without departing from the principles of the present invention, and these modifications should also be regarded as the protection scope of the present invention.

Claims (8)

1. A graphite modified polypropylene tubular heat exchanger: the method is characterized in that: comprises a cylinder body (1), a cold liquid circulating pipe (11), a hot liquid baffle plate (12), a cold liquid inlet (2), a cold liquid outlet (3), a hot liquid inlet (4) and a hot liquid outlet (5); wherein the cold liquid circulating pipe (11) is arranged in the cylinder body (1) and is positioned in the middle of the cylinder body (1); the hot liquid baffle plates (12) are arranged in the cylinder body (1) and are uniformly distributed on the cold liquid circulating pipe (11); the hot liquid inlet (4) is arranged on the cylinder body (1) and is positioned at the lower end of the cylinder body (1); the hot liquid outlet (5) is arranged on the cylinder body (1) and is positioned at the upper end of the cylinder body (1); the cold liquid inlet (2) is arranged on the cylinder body (1) and is positioned at one end of the cylinder body (1) close to the hot liquid outlet (5); the cold liquid outlet (3) is arranged on the cylinder body (1) and is positioned at one end of the cylinder body (1) close to the hot liquid inlet (4); the cylinder (1) also comprises a first clapboard (21) and a second clapboard (31); the first partition plate (21) is arranged in the cylinder body (1) and is positioned at one end close to the cold liquid inlet (2); the second partition plate (31) is arranged in the cylinder body (1) and is positioned at one end close to the cold liquid outlet (3); one end of the cold liquid circulating pipe (11) is arranged on the first clapboard (21), and the other end is arranged on the second clapboard (31).

2. The graphite modified polypropylene tube type heat exchanger according to claim 1, wherein: the cold liquid circulating pipes (11) are arranged in parallel in a multi-pipe mode.

3. The graphite modified polypropylene tube type heat exchanger according to claim 2, wherein: the cold liquid circulating pipe (11) is made of graphite modified polypropylene.

4. The graphite modified polypropylene tube type heat exchanger according to claim 1, wherein: the cold liquid inlet (2) further comprises a cold liquid inlet valve (22); the cold liquid outlet (3) further comprises a cold liquid outlet valve (32); the cold liquid inlet valve (22) is arranged on the cold liquid inlet (2) and is positioned at one end of the cold liquid inlet (2) far away from the cylinder body (1); and the cold liquid outlet valve (32) is arranged on the cold liquid outlet (3) and is positioned at one end of the cold liquid outlet (3) far away from the cylinder body (1).

5. The graphite modified polypropylene tube and tube heat exchanger according to claim 4, wherein: the hot liquid inlet (4) further comprises a hot liquid inlet valve (41); the hot liquid outlet (5) further comprises a hot liquid outlet valve (51); the hot liquid inlet valve (41) is arranged on the hot liquid inlet (4) and is positioned at one end of the hot liquid inlet (4) far away from the cylinder body (1); the hot liquid outlet valve (51) is arranged on the hot liquid outlet (5) and is positioned at one end of the hot liquid outlet (5) far away from the cylinder body (1).

6. The graphite modified polypropylene tube and tube heat exchanger according to claim 4, wherein: also comprises a cold liquid outlet thermometer (33); the cold liquid outlet thermometer (33) is arranged on the cold liquid outlet valve (32).

7. The graphite modified polypropylene tube and tube heat exchanger according to claim 5, wherein: further comprising a hot liquid outlet temperature gauge (52); the hot liquid outlet temperature gauge (52) is arranged on the hot liquid outlet valve (51).

8. The graphite modified polypropylene tube type heat exchanger according to claim 1, wherein: the barrel (1) is made of heat-insulating corrosion-resistant materials.

Images