CN215872446U - Heat dissipation device with block chain server as heat source - Google Patents

Abstract

The utility model provides a heat dissipation device with a block chain server as a heat source, which is characterized in that the block chain server is arranged in a server cabin; a server cabin cover is arranged at the top of the server cabin; an oil outlet and an oil inlet are formed in the server cabin; the heat circulation system is filled with a heat transfer medium; the control panel is arranged on one side of the server cabin, which is far away from the heat dissipation device, and the panel power supply, the thermostat and the control circuit are all arranged on the control panel; the control circuit is electrically connected with the cooling fan, and the control panel is connected with the urban power supply; the control panel is also provided with a modem; according to the utility model, heat generated in the work of the block chain server is radiated, and the heat generated by the heat transfer medium is transferred to the air through the heat circulation system, so that the use cost of the heat radiation system is reduced, no environmental pollution is generated, and the market competitiveness is strong. Can be used in a domestic or commercial environment having an area of up to 60 square meters.

Description

Heat dissipation device with block chain server as heat source

Technical Field

The utility model relates to the technical field of block chains, in particular to a heat dissipation device with a block chain server as a heat source.

Background

With the development of science and technology, the technology of the block chain is increasingly popularized, and when the block chain server works, a large amount of heat is generated due to long-time operation, so that the server needs to be radiated. The existing heat dissipation mode mostly adopts a fan for heat dissipation, although the heat generated by the server can be reduced, the heat dissipation efficiency is not high, and the service life of the server is reduced due to the influence of dust and humidity in the air. And a large amount of heat generated by the server is wasted, so that energy is wasted.

The heater is the field that utilizes heat energy more, and current heater adopts electric energy or petrochemical industry fuel as the heat source more, and not only with high costs, still can produce air pollution or other environmental problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a heat dissipation device with a block chain server as a heat source, which aims to overcome the defect that a large amount of heat generated by the conventional server is wasted, so that energy is wasted; and the existing heater utilizing heat energy mostly adopts electric energy or petrochemical fuel as a heat source, so that the cost is high, and the problems of air pollution or other environmental pollution can be caused.

A heat sink for a blockchain server as a heat source, comprising: a heat cycle system;

the heat circulation system comprises at least one block chain server, a server cabin, a first pipeline, a heat dissipation device, a second pipeline, a pump and a third pipeline; the block chain server is arranged in the server cabin; a server cabin cover is arranged at the top of the server cabin; an oil outlet and an oil inlet are formed in the server cabin; one end of the first pipeline is connected with the oil outlet, and the other end of the first pipeline is connected with the heat dissipation device; the other end of the heat dissipation device is connected with the second pipeline; the other end of the second pipeline is connected with the third pipeline through a pump; the other end of the third pipeline is connected with the oil inlet hole; the heat circulation system is filled with a heat transfer medium;

the heat circulation system is arranged in the radiator cabin.

Further, the heat dissipation device further comprises a control system;

the control system includes: the control panel, the panel power supply, the thermostat and the control circuit;

the control panel is arranged on one side of the server cabin, which is far away from the heat dissipation device, and the panel power supply, the thermostat and the control circuit are all arranged on the control panel; the control panel is connected with an urban power supply;

and a modem is also arranged on the control panel.

Further, the device also comprises a heat radiation fan; the heat dissipation fan is fixed on one side of the heat dissipation device, which faces the server cabin; the control circuit is electrically connected with the cooling fan, and the control circuit and the cooling fan are both connected with the panel power supply.

Further, a chassis is arranged at the bottom of the radiator cabin; the server cabin is fixed on the chassis through a base.

Furthermore, a bracket is fixedly arranged on the chassis; the heat dissipation device is fixed through the bracket.

Furthermore, radiating nets are arranged at the air inlet and the air outlet of the radiating device of the radiator cabin.

Furthermore, a plurality of adjusting seats are arranged at the bottom of the radiator cabin.

Furthermore, a radiator hole is formed in the top of the radiating device.

Furthermore, a man-machine interaction interface is arranged on the control panel.

Further, the heat dissipation device further comprises a SIM card.

According to the heat dissipation device with the block chain server as the heat source, disclosed by the utility model, the server is immersed in the heat transfer medium, heat generated in the working process of the server is transferred into the heat transfer medium, then the heat transfer medium flows through the heat dissipation device through the heat circulation system, the heat is transferred into the air through the heat dissipation device, and the environment is heated, so that not only can the heat energy generated by the server be fully utilized, but also the cost of the heating device for heating the environment can be reduced, no environmental pollution is generated, and the market competitiveness is strong.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a top view of a heat dissipation device of the present invention;

FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1 in accordance with the present invention;

FIG. 3 is a schematic view of a control panel connection according to the present invention;

fig. 4 is an overall schematic view of the heat dissipation device of the present invention.

Wherein: 1. a heat sink; 2. a heat radiation fan; 3. a screw; 4. a support; 5. a first pipeline; 6. A server bay; 7. a thermostat; 8. a chassis; 9. a control circuit; 10. a plug; 11. a control panel; 12. a pump; 13. a third pipeline; 14. a second pipeline; 15. a heat sink aperture; 16. an adjusting seat; 17. A base; 18. an oil inlet hole; 19. a block chain server; 20. a panel power supply; 21. a heat transfer medium; 22. A radiator compartment; 23. a server hatch; 24. a modem; 25. a heat-dissipating web; 26. an oil outlet.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The utility model discloses a heat dissipation device with a block chain server as a heat source, which comprises a thermal circulation system and a control system as shown in attached figures 1-4; the heat sink is disposed inside the heat sink compartment 22.

The heat circulation system comprises a block chain server 19, a server cabin 6, a first pipeline 5, a heat dissipation device 1, a second pipeline 14, a pump 12 and a third pipeline 13; the blockchain server 19 is arranged inside the server bay 6; a server cabin cover 23 is arranged at the top of the server cabin 6; the server cabin 6 is provided with an oil outlet 26 and an oil inlet 18; one end of the first pipeline 5 is connected with the oil outlet 26, and the other end of the first pipeline is connected with the heat dissipation device 1; the other end of the heat sink 1 is connected with the second pipeline 14; the other end of the second pipeline 14 is connected with the third pipeline 13 through a pump 12; the other end of the third pipeline 13 is connected with the oil inlet 18; the heat circulation system is filled with a heat transfer medium 21;

preferably, the server bay 6 in this embodiment is made of 28 × 14 × 40cm sheet iron, and is provided with a server bay cover 23 on top, and the inside blockchain server 19 can be seen and observed by opening the server bay cover 23; the heat transfer medium 21 is mineral oil which has high non-conductivity and chemical components which do not cause corrosion of server electronic components; the mineral oil fills the entire thermal cycle system to transfer heat generated by the blockchain server 19. The heat generated by the blockchain server 19 in this embodiment is to make the mineral oil reach an oil temperature of 60 degrees, and enters the heat sink 1 through the first pipeline 5 with a diameter of 3cm to transfer the heat absorbed by the mineral oil and generated by the blockchain server 19 to the heat sink 1 through the flow of the mineral oil. Specifically, the size of the heat dissipation device 1 of this embodiment is 38 × 32 × 4cm, after mineral oil enters the heat dissipation device from the top of the heat dissipation device, the mineral oil directly reaches the bottom of the heat dissipation device 1 due to the action of gravity, and the heat of the mineral oil is dissipated through the air passing through the heat dissipation device 1 and the heat dissipation fan 2 fixed on the heat dissipation device, the heat dissipation fan 2 is fixed on the side of the heat dissipation device 1 facing the server cabin 6, and the positions of the heat dissipation fan 2 and the heat dissipation device 1 are designed so that the heat generated by the heat dissipation device can flow out through the heat dissipation fan to enter the environment to be heated, so that the design can improve the performance and efficiency of the heat dissipation device.

Preferably, in order to reduce energy waste, the heat sink 1 of the present embodiment has the same area as the contact portion of the server bay 6, thereby facilitating heat conduction. When mineral oil enters the heat dissipation device from the server cabin 6 to the bottom of the heat dissipation device, the mineral oil cools air near the heat dissipation fan, the mineral oil reaches the bottom of the heat dissipation device 1 and then is connected with an oil inlet 18 at the bottom of the server cabin 6 through a second pipeline 14 and a third pipeline 13, and the mineral oil enters the server cabin 6 again. The second pipeline 14 and the third pipeline 13 are connected through a pump 12, the pump 12 is small in size, the flow rate of the pump 12 is 360 liters per hour, the power of the pump is 30W, the circulation speed of the mineral oil can be increased through the pump 12, and the efficiency of the heat dissipation device is improved. Specifically, the diameter of the third pipeline 13 is 1.2cm, and the third pipeline is connected with the pump 12 and the oil inlet 18; the second conduit 14 is a hose.

The top of the heat sink 1 is provided with a heat sink hole 15 to allow the heat sink 1 to exhaust excess air.

The control system includes: a control panel 11, a panel power supply 20, a thermostat 7 and a control circuit 9; the control panel 11 is arranged on one side of the server cabin 6, which is far away from the heat dissipation device 1, and the thermostat 7 and the control circuit 9 are both arranged on the control panel 11; the control circuit 9 is electrically connected with the heat radiation fan 2; the control circuit 9 and the cooling fan 2 are both connected to the panel power supply 20; the control panel 11 is connected with an urban power supply; a modem 24 is also arranged on the control panel 11;

specifically, the thermostat 7 arranged on the control panel 11 is used for controlling the temperature of the mineral oil, when the temperature of the mineral oil is too high, the thermostat 7 is closed, and when the temperature of the mineral oil is reduced, the thermostat 7 is automatically opened; the control panel 11 is connected with a 220V city power supply through a plug 10 arranged on the control panel;

preferably, the control circuit 9 controls the rotation speed of the heat dissipation fan 2 according to the temperature of the environment, so as to control the heat dissipation effect of the heat dissipation device according to the temperature of the environment. Specifically, the present embodiment determines the ambient temperature by the control panel, and then presses a confirmation button (not shown) located at the right side of the control panel.

Specifically, the rotating speed of the cooling fan 2 is high, the cooling effect is better, and the control circuit 9 changes the wind speed according to the ambient temperature, so that the ambient temperature achieves the effect required by a user. Preferably, the cooling fan 2 and the control circuit 9 provide 5V dc power through the panel power supply 20.

For the utility model to be optimally utilized, it is necessary to connect the blockchain server to the INTERNET to be able to communicate with the blockchain network. In the embodiment, an SIM card is adopted, and the Internet connection between a server and a block chain network is established through a modem; connecting a network by using a computer, opening a control panel of the blockchain server, adjusting network settings and settings of the blockchain server, and setting the temperature of the blockchain server.

In another embodiment of the present invention, the modem 24 is accessed remotely by connecting to a computer over a local network.

The control panel 11 is provided with a human-computer interaction interface, and the human-computer interaction interface can change the temperature and the power generated by the heat dissipation device according to the environmental temperature required by a user.

Preferably, the bottom of the radiator chamber 22 is provided with a chassis 8; the server bay 6 is secured to the chassis 8 by a base 17.

Specifically, the radiator module 22 in this embodiment is made of galvanized sheet, and the radiator module 22 is provided with the radiator nets 25 at the air inlet and the air outlet of the radiator, specifically, the radiator nets are metal nets, the size of the radiator module 22 in this embodiment is 47 × 62 × 57cm, and the size of the metal nets is 55 × 55cm, which is the same as that of the air inlet and the air outlet.

The chassis 8 is also fixedly provided with a bracket 4; the heat sink 1 is fixed by the bracket 4. The chassis 8 in this embodiment is made of iron sheet with a size of 62 × 47cm, and the bracket 4 and the heat sink 1 are fixed by screws 3. The utility model needs to be placed in a level place when in use, if the placed position has a certain gradient, in order to adjust the height of the heat dissipation device, the height of the heat dissipation device is adjusted by the adjusting seat arranged below the heat dissipation device; a plurality of adjusting seats 16 are arranged at the bottom of the radiator chamber 22; specifically, in this embodiment, four screw seats capable of adjusting the height of the PVC are disposed around the bottom of the heat sink chamber 22.

Specifically, the blockchain server in this embodiment uses an ASIC to connect to a blockchain network for operation, the blockchain server is connected to a blockchain network pool through a network cable and a GSM modem, and during operation, the temperature of the processor of the blockchain server can reach 55 to 120 degrees, and the specific temperature depends on the number of operations per second of the server. This temperature is passed to the environment through the thermal cycling system.

The utility model has the following beneficial effects:

1. the heat dissipation device heats the environment by fully utilizing the heat generated by the block chain server, reduces the use cost of the heat dissipation device, does not generate environmental pollution and has strong market competitiveness.

2. Due to the design of the heat dissipation nets at the air inlet and the air outlet, the heat dissipation device adopts a convection mode for heating the environment, the oil temperature does not exceed 60 ℃, and the heat dissipation device is very safe to use in a household or business environment.

3. Because the blockchain servers of the present invention are all in a mineral oil filled environment, there is no dust and moisture that can damage the servers, increasing the useful life of the blockchain servers.

4. The block chain server of the utility model utilizes the heat generated by the block chain server, so that a cooling fan is not required to be installed, the noise of the block chain server is reduced from 76db to 45db when the block chain server is used, and the working noise is greatly reduced.

5. The heat dissipation system can be used in the environment with the area of 60 square meters.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the utility model has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. A heat sink for a blockchain server as a heat source, the heat sink comprising: a heat cycle system;

the heat circulation system comprises at least one block chain server (19), a server cabin (6), a first pipeline (5), a heat dissipation device (1), a second pipeline (14), a pump (12) and a third pipeline (13); the blockchain server (19) is arranged inside the server cabin (6); a server cabin cover (23) is arranged at the top of the server cabin (6); an oil outlet (26) and an oil inlet (18) are formed in the server cabin (6); one end of the first pipeline (5) is connected with the oil outlet (26), and the other end of the first pipeline is connected with the heat dissipation device (1); the other end of the heat dissipation device (1) is connected with the second pipeline (14); the other end of the second pipeline (14) is connected with the third pipeline (13) through a pump (12); the other end of the third pipeline (13) is connected with the oil inlet hole (18); the heat circulation system is filled with a heat transfer medium (21);

the heat cycle system is disposed inside a radiator module (22).

2. The heat sink for a blockchain server as a heat source according to claim 1, wherein the heat sink further comprises a control system;

the control system includes: a control panel (11), a panel power supply (20), a thermostat (7) and a control circuit (9);

the control panel (11) is arranged on one side, away from the heat dissipation device (1), of the server cabin (6), and the panel power supply (20), the thermostat (7) and the control circuit (9) are arranged on the control panel (11); the control panel (11) is connected with an urban power supply;

the control panel (11) is also provided with a modem (24).

3. A heat sink for a block chain server as a heat source according to claim 2, further comprising a heat sink fan (2); the heat radiation fan (2) is fixed on one side of the heat radiation device (1) facing the server cabin (6); the control circuit (9) is electrically connected with the heat dissipation fan (2), and the control circuit (9) and the heat dissipation fan (2) are connected to the panel power supply (20).

4. A heat sink device for a blockchain server as a heat source according to claim 1, wherein a bottom plate (8) is provided at the bottom of the heat sink compartment (22); the server cabin (6) is fixed on the chassis (8) through a base (17).

5. A heat sink for a blockchain server as a heat source according to claim 4, wherein a bracket (4) is further fixedly arranged on the chassis (8); the heat dissipation device (1) is fixed through the support (4).

6. A heat sink as a heat source for a blockchain server according to claim 1, wherein the heat sink compartment (22) is provided with heat sinks (25) at the air inlet and the air outlet of the heat sink.

7. A heat sink device for a block chain server as a heat source as claimed in claim 1, wherein the bottom of the heat sink compartment (22) is provided with a plurality of adjustment seats (16).

8. A heat sink for a blockchain server as a heat source according to claim 1, wherein a heat sink hole (15) is formed at the top of the heat sink (1).

9. A heat sink using a blockchain server as a heat source according to claim 2, wherein a human-machine interface is disposed on the control panel (11).

10. The heat sink for a blockchain server as a heat source according to claim 1, wherein the heat sink further comprises a SIM card.

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