CN110399426B

CN110399426B - Small integrated water-cooled heat exchanger system for block chain operation center

Info

Publication number: CN110399426B
Application number: CN201910632249.7A
Authority: CN
Inventors: 黄晓东; 黄华东
Original assignee: Guangdong Yiti Technology Co ltd
Current assignee: Guangdong Yiti Technology Co ltd
Priority date: 2019-07-13
Filing date: 2019-07-13
Publication date: 2024-01-26
Anticipated expiration: 2039-07-13
Also published as: CN110399426A

Abstract

The invention discloses a small-sized integrated water-cooled heat exchanger system for a block chain operation center, which comprises: a case; the block chain operation center comprises a plurality of computing devices arranged in the box body; the water-cooling heat exchange device comprises a soft water treatment module, a plate heat exchange unit module and a plate heat exchange unit module arranged outside the box body; a first pipe body is arranged between the soft water treatment module and the plate heat exchanger unit module, and a first control valve module is arranged on the first pipe body; the soft water treatment module is connected with a water inlet pipeline; the plate heat exchanger unit module comprises a plate heat exchanger, a hot side inlet and a hot side outlet which are communicated with a first heat exchange channel of the plate heat exchanger, and a cold side inlet and a cold side outlet which are communicated with a second heat exchange channel of the plate heat exchanger, wherein the hot side inlet is connected with a first pump body and a water return pipeline module, the hot side outlet is connected with a water supply pipeline module, and the water return pipeline module and the water supply pipeline module are both connected with computing equipment; the cold side inlet and the cold side outlet are both connected with the cooling module.

Description

Small integrated water-cooled heat exchanger system for block chain operation center

Technical field:

the invention relates to the technical field of block chain heat exchange, in particular to a small integrated water-cooling heat exchanger system for a block chain operation center.

The background technology is as follows:

with the continuous development of network applications, there are problems in improving internet access speed, service persistence, and enhancing availability and stability of an egress link. High performance blockchain technology is widely used in offices and industrial processes.

The block chain technology is a brand new distributed basic architecture and calculation mode for verifying and storing data by utilizing a block chain data structure, generating and updating data by utilizing a distributed node consensus algorithm, ensuring the safety of data transmission and access by utilizing a cryptography mode, programming and operating the data by utilizing an intelligent contract consisting of an automatic script code, and is a novel application mode of computer technologies such as distributed data storage, point-to-point transmission, a consensus mechanism, an encryption algorithm and the like. The data security of the blockchain technology is high.

With the development of blockchain technology, more and more blockdata needs to be stored in a blockchain network, and long-time and high-reliability safe storage is required, and the frequency of reading and recording data needs to be higher for a blockchain network. In the use process of high strength, the heat dissipation function of the computer equipment is stressed greatly.

The existing machine room adopts a common machine case, the inside of the machine case is provided with small fans for heat dissipation, the machine frames in the whole machine room are arranged in a row, a central air conditioner and the like are arranged above the machine frames for overall heat dissipation, so that air in the small machine room is dried, the comfort of a user in the machine room is reduced, meanwhile, the heat dissipation effect of the machine core of computer equipment is not ideal enough, in order to protect the machine core of the computer equipment, the requirement on the air inlet dust content of the machine room space is high, the power consumption of a cooling fan is high, and the effects of environmental protection and energy saving cannot be achieved.

In view of this, the present inventors have proposed the following means.

The invention comprises the following steps:

the invention aims to overcome the defects of the prior art and provides a small integrated water-cooled heat exchanger system for a block chain operation center.

In order to solve the technical problems, the invention adopts the following technical scheme: the small integrated water-cooled heat exchanger system for the blockchain operation center comprises: a case; the block chain operation center comprises a plurality of computing devices arranged in the box body; the water-cooling heat exchange device comprises a soft water treatment module, a plate heat exchange unit module and a cooling module, wherein the soft water treatment module is arranged in the box body, the plate heat exchange unit module is connected with the soft water treatment module, the cooling module is connected with the plate heat exchange unit module, and the cooling module is arranged on the outer side of the box body; a first pipe body is arranged between the soft water treatment module and the plate heat exchange machine group module, and a first control valve module is arranged on the first pipe body; the soft water treatment module is connected with a water inlet pipeline; the plate heat exchanger unit module comprises a plate heat exchanger arranged in the box body, a hot side inlet and a hot side outlet which are communicated with a first heat exchange channel in the plate heat exchanger, and a cold side inlet and a cold side outlet which are communicated with a second heat exchange channel in the plate heat exchanger, wherein the hot side inlet is connected with a first pump body and then is connected with a water return pipeline module, the hot side outlet is connected with a water supply pipeline module, and the water return pipeline module and the water supply pipeline module are both connected with computing equipment so as to cool and dissipate heat of the computing equipment; the cold side inlet and the cold side outlet are both connected to the cooling module.

Furthermore, in the above technical solution, the container body is a container, and a fan is further disposed outside the container; the block chain operation center also comprises a power distribution cabinet and a central control box which are arranged in the box body.

In the above technical solution, the soft water treatment module includes a precise filter, a water softener and a softened water tank, which are sequentially connected, wherein the precise filter is connected with an eighth stop valve and a first proportional valve and then is connected with the water inlet pipeline; a second pump body is arranged between the softening water tank and the first pipe body, and a high-low water level gauge is arranged on the softening water tank.

Furthermore, in the above technical scheme, the first control valve module is including setting gradually first check valve and the first stop valve on first body, still is connected with second stop valve and expansion tank on this first body, still is provided with first relief valve and first pressure sensor on this first body.

Furthermore, in the above technical scheme, still be provided with the second body between hot side import and the first pump body, this second body is connected first body is provided with first manometer, first thermometer, first discharge valve, third stop valve, second temperature sensor, fourth stop valve, second check valve on this second body, still is provided with first filter, fifth stop valve between this first pump body and the return water pipeline module.

Furthermore, in the above technical scheme, a third pipe body and a third pump body are arranged between the cold side inlet and the cooling module, and a sixth stop valve, a second filter, a third temperature sensor, a second pressure gauge, a second thermometer and a first blow-down valve are further arranged on the third pipe body.

Furthermore, in the above technical solution, a fourth pipe body is disposed between the cold side outlet and the cooling module, and a seventh stop valve, a fourth temperature sensor, a third pressure gauge, a third temperature gauge and a second exhaust valve are further disposed on the fourth pipe body.

Furthermore, in the above technical scheme, the water return pipeline module comprises a water return main pipeline and a plurality of water return branch pipelines which are distributed in parallel, wherein the water return branch pipelines are provided with a plurality of first pipe interfaces and a first valve body for controlling the on-off of the first pipe interfaces, and the first pipe interfaces are connected with the computing equipment through water return hoses.

Furthermore, in the above technical solution, the water supply pipeline module includes a main water supply pipeline and a plurality of parallel water supply branch pipelines, the water supply branch pipelines are located beside the return water branch pipelines and are distributed in parallel, the water supply branch pipelines are provided with a plurality of second pipe interfaces and a second valve body for controlling the on-off of the second pipe interfaces, and the second pipe interfaces are connected with the computing equipment through water supply hoses; a fifth pipeline is connected between the main water supply pipeline and the hot side outlet, a fourth pressure gauge, a fourth thermometer, a ninth stop valve and a fifth temperature sensor are arranged on the fifth pipeline, and a drain valve is further arranged on the fifth pipeline.

In the above technical solution, the cooling module is one of a cooling tower and an air cooling mechanism.

By adopting the technical scheme, compared with the prior art, the invention has the following beneficial effects: when the invention is used, surface water or tap water is connected through the water inlet pipeline, and after the surface water or tap water enters the soft water treatment module, the soft water treatment module carries out water softening treatment, and soft water is formed; soft water flows into a closed internal circulation heat exchange passage in the plate heat exchange machine module, wherein the closed internal circulation heat exchange passage is formed by a first heat exchange passage, a hot side outlet, a water supply pipeline module, computing equipment, a water return pipeline module, a first pump body, a hot side inlet and a first heat exchange passage in the plate heat exchange machine module, and after the closed internal circulation heat exchange passage is filled with soft water, the first pipe body is controlled to be closed by a first control valve module, so that the closed internal circulation heat exchange passage is not filled with soft water any more; when soft water in the closed internal circulation heat exchange passage is insufficient, the first pipe body is controlled to be opened through the first control valve module, so that the closed internal circulation heat exchange passage is filled with soft water. Then, the first pump body works to enable soft water in the closed internal circulation heat exchange passage to circulate, when the soft water flows through the computing equipment, heat generated during operation of the computing equipment can be taken away rapidly, the purpose of rapid heat dissipation is achieved, the temperature of the soft water becomes high after the soft water absorbs the heat, and the soft water flows into the first heat exchange passage in the plate heat exchanger through the water return pipeline module, the first pump body and the hot side inlet; meanwhile, the cold medium in the cooling module enters from the cold side inlet of the plate heat exchanger, flows out from the cold side outlet after flowing through the second heat exchange channel in the plate heat exchanger, and flows to the cooling module again, so that a cycle is formed, when the soft water with the higher temperature after absorbing heat passes through the first heat exchange channel in the plate heat exchanger, heat exchange is carried out between the soft water and the cold medium flowing through the second heat exchange channel in the plate heat exchanger, so that the temperature of the soft water flowing out from the hot side outlet of the plate heat exchanger is reduced, and the soft water with the lower temperature flows to the computing equipment through the water supply pipeline module again, so that the heat generated during the operation of the computing equipment can be quickly taken away again, the purpose of quick heat dissipation is achieved, the continuous cycle is realized, the whole block chain operation center is used for quick heat dissipation, the heat dissipation effect is extremely ideal, the air inside the box body is not dried, the potential safety hazard of drying air to cause fire can be prevented, the problem that the air intake dust content of a computer room is required to be high in order to protect the core of the computer equipment can be solved, and the power consumption of the cooling fan is high in market competitiveness is extremely strong. Furthermore, each module component is integrated in one box body, so that the box is compact in structure, can move according to the use requirement, is convenient to transport and is extremely convenient to use.

Description of the drawings:

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a perspective view of the present invention;

FIG. 3 is an internal block diagram of the present invention;

FIG. 4 is a block diagram of the present invention;

FIG. 5 is a perspective view of a water cooled heat exchanger in accordance with the present invention;

fig. 6 is a perspective view of another view of the water-cooled heat exchange device of the present invention.

The specific embodiment is as follows:

the invention will be further described with reference to specific examples and figures.

As shown in the figure, a small-sized integrated water-cooled heat exchanger system for a blockchain operation center comprises: a case 1; a blockchain operation center 2 including a plurality of computing devices 21 disposed in the box 1; the water-cooling heat exchange device 3 comprises a soft water treatment module 31 arranged in the box body 1, a plate heat exchange unit module 32 connected with the soft water treatment module 31 and a cooling module 33 connected with the plate heat exchange unit module 32, wherein the cooling module 33 is arranged outside the box body 1; a first pipe body 34 is arranged between the soft water treatment module 31 and the plate heat exchanger unit module 32, and a first control valve module 35 is arranged on the first pipe body 34; the soft water treatment module 31 is connected with a water inlet pipeline 36; the plate heat exchanger unit module 32 comprises a plate heat exchanger 321 installed in the box 1, a hot side inlet 322 and a hot side outlet 323 which are communicated with a first heat exchange channel in the plate heat exchanger 321, and a cold side inlet 324 and a cold side outlet 325 which are communicated with a second heat exchange channel in the plate heat exchanger 321, wherein the hot side inlet 322 is connected with a first pump body 326 and then is connected with a water return pipeline module 327, the hot side outlet 323 is connected with a water supply pipeline module 328, and the water return pipeline module 327 and the water supply pipeline module 328 are both connected with the computing equipment 21 so as to cool and dissipate heat of the computing equipment 21; the cold side inlet 324 and the cold side outlet 325 are both connected to the cooling module 33. The first heat exchange channel, the hot side outlet 323, the water supply pipeline module 328, the computing device 21, the water return pipeline module 327, the first pump 326, the hot side inlet 322 and the first heat exchange channel in the plate heat exchanger 321 form a closed internal circulation heat exchange channel. When the invention is used, surface water (such as river water and reservoir water) is connected through the water inlet pipeline 36, and after the surface water enters the soft water treatment module 31, the soft water treatment module 31 carries out water softening treatment, and soft water is formed; soft water flows into a closed internal circulation heat exchange passage formed by a first heat exchange passage, a hot side outlet 323, a water supply pipeline module 328, a computing device 21, a water return pipeline module 327, a first pump body 326, a hot side inlet 322 and a first heat exchange passage in the plate heat exchange unit module 32, and when the closed internal circulation heat exchange passage is filled with soft water, the first pipe 34 is controlled to be closed by the first control valve module 35, so that the closed internal circulation heat exchange passage is not filled with soft water any more; when the soft water in the closed type internal circulation heat exchange passage is insufficient, the first pipe body 34 is controlled to be opened through the first control valve module 35, so that the closed type internal circulation heat exchange passage is filled with the soft water. Then, the first pump body 326 works to make the soft water in the closed internal circulation heat exchange channel circulate, when the soft water flows through the computing device 21, the heat generated during the operation of the computing device 21 can be taken away rapidly, the purpose of rapid heat dissipation is achieved, the temperature of the soft water becomes high after the soft water absorbs the heat, and the soft water flows into the first heat exchange channel in the plate heat exchanger 321 through the water return pipeline module 327, the first pump body 326 and the hot side inlet 322; meanwhile, the cold medium (such as cold water) in the cooling module 33 enters from the cold side inlet 324 of the plate heat exchanger 321, flows out from the cold side outlet 325 after flowing through the second heat exchange channel inside the plate heat exchanger 321, and flows back to the cooling module 33 again to form a cycle, when the soft water with higher temperature after absorbing heat passes through the first heat exchange channel inside the plate heat exchanger 321, the soft water exchanges heat with the cold medium flowing through the second heat exchange channel inside the plate heat exchanger 321, so that the temperature of the soft water flowing out from the hot side outlet 323 of the plate heat exchanger 321 becomes lower, and the soft water with lower temperature flows to the computing device 21 again through the water supply pipeline module 328, so that the heat generated during the operation of the computing device 21 can be taken away again quickly, the purpose of quick heat dissipation is achieved, the continuous cycle is realized, the heat dissipation effect is very ideal for the whole block chain operation center, the air inside the box is not dried, the potential safety hazard of drying air to fire can be prevented, and the problem of high air intake competition can be solved, and the invention has high air intake capacity and high air intake capacity. Furthermore, each module component is integrated in one box body, so that the box is compact in structure, can move according to the use requirement, is convenient to transport and is extremely convenient to use.

The components of the computing device 21, such as chips, motherboards, graphics cards, etc., may generate a significant amount of heat during operation.

The computing device 21 may be a mining machine.

The container body 1 is a container, however, the container is a ready-made product, the container with proper size is selected according to actual needs, the additional die opening manufacturing is not needed, the cost can be reduced, and the fan 11 is arranged on the outer side of the container and used for radiating the heat of the container body; the blockchain operation center 2 further comprises a power distribution cabinet 22 and a central control box 23 which are arranged in the box body 1.

The soft water treatment module 31 comprises a precise filter 311, a water softener 312 and a soft water tank 313 which are sequentially connected, when the soft water treatment module 31 works, water is filtered through the precise filter 311, so that the quality of the water is ensured, then the soft water is softened by the water softener 312, and the softened soft water is stored in the soft water tank 313. The fine filter 311 is connected to the eighth shut-off valve 314 and the first proportional valve 315, and then to the water intake pipe 36. The precision filter 311 is a bag filter.

A second pump body 316 is disposed between the softened water tank 313 and the first pipe 34, and the second pump body 316 is used for pumping the soft water in the softened water tank 313 to be injected into the closed internal circulation heat exchange passage when the soft water in the closed internal circulation heat exchange passage is insufficient, so as to achieve the purpose of water replenishing. The softening water tank 313 is provided with a high-low water level gauge 317, so that it is known in real time whether the soft water in the softening water tank 313 reaches the highest water level or the lowest water level.

The first control valve module 35 comprises a first check valve 351 and a first stop valve 352 which are sequentially arranged on the first pipe body 34, wherein the first check valve 351 is used for controlling the on-off of the first pipe body 34 in order to prevent the backflow of soft water; the first pipe body 34 is further connected with a second shut-off valve 343 and an expansion tank 344, and the first pipe body 34 is further provided with a first relief valve 341 and a first pressure sensor 342. The expansion tank 344 is used for increasing the water pressure, so that the second pump 316 can smoothly pump the soft water in the softened water tank 313 to be injected into the closed internal circulation heat exchange passage, thereby achieving the purpose of water replenishment.

A second pipe body 37 is further disposed between the hot side inlet 322 and the first pump body 326, the second pipe body 37 is connected with the first pipe body 34, a first pressure gauge 371, a first temperature gauge 372, a first exhaust valve 373, a third stop valve 374, a second temperature sensor 375, a fourth stop valve 376, and a second check valve 377 are disposed on the second pipe body 37, and a first filter 329 and a fifth stop valve 320 are further disposed between the first pump body 326 and the return water pipe module 327. The first pressure gauge 371 and the first temperature gauge 372 show the pressure and temperature of the hot side inlet 322 in real time, the second check valve 377 prevents the backflow of soft water, and the first pump body 326 can smoothly circulate the water. The first exhaust valve 373 is used for exhausting and reducing pressure, the third stop valve 374 and fourth stop valve 376 control on-off.

A third pipe body 3241 and a third pump body 3242 are disposed between the cold side inlet 324 and the cooling module 33, and a sixth stop valve 3243, a second filter 3244, a third temperature sensor 3245, a second pressure gauge 3246, a second temperature gauge 3247 and a first drain valve 3248 are further disposed on the third pipe body 3241. Second pressure gauge 3246, second temperature gauge 3247 show the pressure and temperature of cold side inlet 324 in real time, second filter 3244 for filtration and first blowdown valve 3248 for blowdown. The sixth shut-off valve 3243 is for controlling on-off.

A fourth pipe body 3251 is disposed between the cold side outlet 325 and the cooling module 33, and a seventh stop valve 3252, a fourth temperature sensor 3253, a third pressure gauge 3254, a third temperature gauge 3255, and a second exhaust valve 3256 are further disposed on the fourth pipe body 3251. The third pressure gauge 3254 and the third temperature gauge 3255 are used for displaying the pressure and the temperature at the cold side outlet 325 in real time, the seventh stop valve 3252 is used for controlling on-off, and the second exhaust valve 3256 is used for controlling the decompression of the exhaust.

The water return pipeline module 327 comprises a water return main pipeline 3271 and a plurality of water return branch pipelines 3272 which are distributed in parallel, wherein the water return branch pipelines 3272 are provided with a plurality of first pipe interfaces 3273 and a first valve body 3274 for controlling the on-off of the first pipe interfaces 3273, and the first pipe interfaces 3273 are connected with the computing equipment 21 through water return hoses. The water supply pipeline module 328 comprises a main water supply pipeline 3281 and a plurality of parallel water supply branch pipelines 3282, the water supply branch pipelines 3282 are positioned beside the water return branch pipelines 3282 and are distributed in parallel, the water supply branch pipelines 3282 are provided with a plurality of second pipe joints 3283 and second valve bodies 3284 for controlling the on-off of the second pipe joints 3283, and the second pipe joints 3283 are connected with the computing equipment 21 through water supply hoses; the water return pipeline module 327 and the water supply pipeline module 328 are arranged to save space, and the second pipe joint 3283 of the water supply branch pipeline 3282 and the first pipe joint 3273 of the water return branch pipeline 3272 are distributed in parallel in a row, so that the same computing equipment 21 can be conveniently connected at the same time, and a good heat exchange effect is achieved.

A fifth pipe 3280 is connected between the main water supply pipe 3281 and the hot side outlet 323, a fourth pressure gauge 3285, a fourth temperature gauge 3286, a ninth shut-off valve 3287, and a fifth temperature sensor 3288 are provided on the fifth pipe 3280, and a drain valve 3289 is provided on the fifth pipe 3280.

The cooling module 33 is one of a cooling tower or an air cooling mechanism, and can be matched with the cooling tower or the air cooling mechanism according to actual requirements to meet different use requirements.

In summary, when the invention is used, surface water is connected through the water inlet pipeline 36, and after the surface water enters the soft water treatment module 31, the soft water treatment module 31 carries out water softening treatment to form soft water; soft water flows into a closed internal circulation heat exchange passage formed by a first heat exchange passage, a hot side outlet 323, a water supply pipeline module 328, the computing equipment 21, a water return pipeline module 327, a first pump body 326, a hot side inlet 322 and a first heat exchange passage in the plate heat exchange unit module 32, and when the closed internal circulation heat exchange passage is filled with soft water, the first pipe body 34 is controlled to be closed by the first control valve module 35, so that the closed internal circulation heat exchange passage is not filled with soft water any more; when the soft water in the closed type internal circulation heat exchange passage is insufficient, the first pipe body 34 is controlled to be opened through the first control valve module 35, so that the closed type internal circulation heat exchange passage is filled with the soft water. Then, the first pump body 326 works to make the soft water in the closed internal circulation heat exchange channel circulate, when the soft water flows through the computing device 21, the heat generated during the operation of the computing device 21 can be taken away rapidly, the purpose of rapid heat dissipation is achieved, the temperature of the soft water becomes high after the soft water absorbs the heat, and the soft water flows into the first heat exchange channel in the plate heat exchanger 321 through the water return pipeline module 327, the first pump body 326 and the hot side inlet 322; meanwhile, the cooling medium in the cooling module 33 enters from the cold side inlet 324 of the plate heat exchanger 321, flows out from the cold side outlet 325 after flowing through the second heat exchange channel inside the plate heat exchanger 321, and flows back to the cooling module 33 again, so as to form a cycle, when the soft water with a higher temperature after absorbing heat passes through the first heat exchange channel inside the plate heat exchanger 321, the soft water exchanges heat with the cold medium flowing through the second heat exchange channel inside the plate heat exchanger 321, so that the soft water with a lower temperature flows out from the hot side outlet 323 of the plate heat exchanger 321, and then flows to the computing device 21 through the water supply pipeline module 328, so that the heat generated during the operation of the computing device 21 can be quickly taken away again, the purpose of quick heat dissipation is achieved, the cycle is continuously performed, the whole block chain operation center is quickly dissipated, the heat dissipation effect is very ideal, the air inside the box is not dried, the dry air can be prevented from being heated, the safety hidden danger of cooling is avoided, and the hidden danger of the cooling fan has high requirements on the dust content of the air inlet space of the computer room and the fan has high competitive power consumption because the machine core is protected. Furthermore, each module component is integrated in one box body, so that the box is compact in structure, can move according to the use requirement, is convenient to transport and is extremely convenient to use.

It is understood that the foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, but rather is to be construed according to the principles, features and advantages of the present invention.

Claims

1. A small-size integrated form water-cooling heat exchanger system for blockchain operation center, its characterized in that: it comprises the following steps:

a case (1);

a blockchain computing center (2) comprising a plurality of computing devices (21) arranged in the box (1);

the water-cooling heat exchange device (3) comprises a soft water treatment module (31) arranged in the box body (1), a plate heat exchange unit module (32) connected with the soft water treatment module (31) and a cooling module (33) connected with the plate heat exchange unit module (32), wherein the cooling module (33) is arranged outside the box body (1); a first pipe body (34) is arranged between the soft water treatment module (31) and the plate heat exchanger unit module (32), and a first control valve module (35) is arranged on the first pipe body (34); the soft water treatment module (31) is connected with a water inlet pipeline (36);

the plate heat exchanger unit module (32) comprises a plate heat exchanger (321) arranged in the box body (1), a hot side inlet (322) and a hot side outlet (323) which are communicated with a first heat exchange channel in the plate heat exchanger (321), and a cold side inlet (324) and a cold side outlet (325) which are communicated with a second heat exchange channel in the plate heat exchanger (321), wherein the hot side inlet (322) is connected with a first pump body (326) and then is connected with a water return pipeline module (327), the hot side outlet (323) is connected with a water supply pipeline module (328), and the water return pipeline module (327) and the water supply pipeline module (328) are both connected with the computing equipment (21) so as to cool and dissipate heat of the computing equipment (21); the cold side inlet (324) and the cold side outlet (325) are both connected to the cooling module (33);

the container body (1) is a container, and a fan (11) is arranged outside the container; the block chain operation center (2) further comprises a power distribution cabinet (22) and a central control box (23) which are arranged in the box body (1);

the soft water treatment module (31) comprises a precise filter (311), a water softener (312) and a softened water tank (313) which are sequentially connected, wherein the precise filter (311) is connected with an eighth stop valve (314) and a first proportional valve (315) and then is connected with the water inlet pipeline (36); a second pump body (316) is arranged between the softening water tank (313) and the first pipe body (34), and a high-low water level gauge (317) is arranged on the softening water tank (313).

2. The compact integrated water cooled heat exchanger system for a blockchain operation center of claim 1, wherein: the first control valve module (35) comprises a first check valve (351) and a first stop valve (352) which are sequentially arranged on a first pipe body (34), the first pipe body (34) is further connected with a second stop valve (343) and an expansion tank (344), and the first pipe body (34) is further provided with a first safety valve (341) and a first pressure sensor (342).

3. The compact integrated water cooled heat exchanger system for a blockchain operation center as in any of claims 1-2, wherein: still be provided with second body (37) between hot side import (322) and the first pump body (326), this second body (37) are connected first body (34), be provided with first manometer (371), first thermometer (372), first discharge valve (373), third stop valve (374), second temperature sensor (375), fourth stop valve (376), second check valve (377) on this second body (37), still be provided with first filter (329), fifth stop valve (320) between this first pump body (326) and return water pipeline module (327).

4. The compact integrated water cooled heat exchanger system for a blockchain operation center as in any of claims 1-2, wherein: a third pipe body (3241) and a third pump body (3242) are arranged between the cold side inlet (324) and the cooling module (33), and a sixth stop valve (3243) and a second filter (3244), a third temperature sensor (3245), a second pressure gauge (3246), a second temperature gauge (3247) and a first blow-down valve (3248) are further arranged on the third pipe body (3241).

5. The compact integrated water cooled heat exchanger system for a blockchain operation center of claim 4, wherein: a fourth pipe body (3251) is arranged between the cold side outlet (325) and the cooling module (33), and a seventh stop valve (3252), a fourth temperature sensor (3253), a third pressure gauge (3254), a third temperature gauge (3255) and a second exhaust valve (3256) are further arranged on the fourth pipe body (3251).

6. The compact integrated water cooled heat exchanger system for a blockchain operation center as in any of claims 1-2, wherein: the water return pipeline module (327) comprises a water return main pipeline (3271) and a plurality of water return branch pipelines (3272) which are distributed in parallel, wherein the water return branch pipelines (3272) are provided with a plurality of first pipeline interfaces (3273) and a first valve body (3274) for controlling the on-off of the first pipeline interfaces (3273), and the first pipeline interfaces (3273) are connected with the computing equipment (21) through water return hoses.

7. The compact integrated water cooled heat exchanger system for a blockchain operation center of claim 6, wherein: the water supply pipeline module (328) comprises a main water supply pipeline (3281) and a plurality of parallel water supply branch pipelines (3282), the water supply branch pipelines (3282) are positioned beside the return water branch pipelines (3272) and are distributed in parallel, the water supply branch pipelines (3282) are provided with a plurality of second pipeline interfaces (3283) and a second valve body (3284) for controlling the on-off of the second pipeline interfaces (3283), and the second pipeline interfaces (3283) are connected with the computing equipment (21) through water supply hoses; a fifth pipeline (3280) is connected between the main water supply pipeline (3281) and the hot side outlet (323), a fourth pressure gauge (3285), a fourth thermometer (3286), a ninth stop valve (3287) and a fifth temperature sensor (3288) are arranged on the fifth pipeline (3280), and a drain valve (3289) is further arranged on the fifth pipeline (3280).

8. A compact integrated water cooled heat exchanger system for a blockchain operation center as in claim 3 wherein: the cooling module (33) is one of a cooling tower or an air cooling mechanism.