CN212229578U - Heat dissipation device for mining machine block chain distributed data storage server - Google Patents

Abstract

The utility model belongs to the technical field of heat dissipation equipment, in particular to a heat dissipation device for an ore deposit machine block chain distributed data storage server, which comprises a mounting frame and a frame-shaped support, wherein the mounting frame is provided with the data storage server, the data storage server is provided with a temperature sensor, the mounting frame is provided with a first heat dissipation mechanism, the first heat dissipation mechanism comprises a water cooling pipe and a cooling box, the cooling box is internally provided with a booster pump and a cooler, the upper side and the lower side of the mounting frame are provided with through holes, both sides of the frame-shaped support are provided with fixing seats, the frame-shaped support is provided with a second heat dissipation mechanism, the second heat dissipation mechanism comprises an air cooler and a hollow disc, the air cooler is provided with an air outlet hose, the hollow disc is communicated with the air outlet hose, the hollow disc is provided with a cold air pipe, one side of the hollow disc, the frame-shaped support is also provided with a motor and a control processor, and a rotating shaft of the motor is fixedly connected with the screw rod.

Description

Heat dissipation device for mining machine block chain distributed data storage server

Technical Field

The utility model belongs to the technical field of the radiating equipment, concretely relates to a heat abstractor for ore deposit block chain distributed data storage server.

Background

The mining machine is a computer for earning bitcoin, which is a network virtual currency generated by open source P2P software and is generated by mass calculation of a specific algorithm, so that the mining machine generates a large amount of data during the working process, and the data needs to be stored.

The block chain 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, and is also an important concept of bitcoin, the block chain is essentially a decentralized database, the distributed data storage system dispersedly stores data on a plurality of independent devices, a traditional network storage system adopts a centralized storage server to store all data, the storage server becomes a bottleneck of system performance and is also a focus of reliability and safety and cannot meet the requirement of large-scale storage application, the distributed network storage system adopts an expandable system structure, a plurality of storage servers are used for sharing storage load, and a position server is used for positioning and storing information, so that the reliability, the availability and the access efficiency of the system are improved, and the expansion is easy.

The data storage server has high energy consumption and huge heat productivity due to large data receiving and storing quantity, and needs to be provided with the data storage server for heat dissipation, however, the heat dissipation of a large part of the existing data storage servers adopts a simple fan for heat dissipation, so that the heat dissipation efficiency is low, the temperature of the data storage server cannot be effectively controlled, the temperature of the data storage server is overhigh, the data storage server runs slowly, and even the data storage server is burnt out.

SUMMERY OF THE UTILITY MODEL

The utility model aims at: it is desirable to provide a heat sink for a mine block chain distributed data storage server that addresses the problems set forth in the background.

In order to realize the technical purpose, the utility model discloses a technical scheme as follows:

a heat dissipation device for an ore-mining machine block chain distributed data storage server comprises a mounting frame and a frame-shaped support, wherein the mounting frame is provided with the data storage server, the data storage server is provided with a temperature sensor, the mounting frame is provided with a first heat dissipation mechanism, the first heat dissipation mechanism comprises water-cooling pipes distributed on the upper side and the lower side of the data storage server and a cooling box fixedly connected with the mounting frame, a booster pump and a cooler are arranged inside the cooling box, the input end of the booster pump is communicated with the output end of the cooler, one end of each water-cooling pipe is communicated with the output end of the booster pump, the other end of each water-cooling pipe is communicated with the input end of the cooler, a plurality of through holes are formed in the upper side and the lower side of the mounting frame, fixing seats are arranged on two sides of the frame-shaped support, the second heat dissipation mechanism comprises an air cooler and hollow discs arranged on the upper side and the lower side of the installation frame, the air cooler is provided with a plurality of air outlet hoses matched with the hollow discs, each hollow disc is communicated with the corresponding air outlet hose, the hollow discs are provided with cold air pipes matched with the through holes and the cold air pipes, the cold air pipes are arranged on one sides of the hollow discs, the cold air pipes are abutted to limit lifting plates, the lifting plates are arranged on one sides of the hollow discs, the lifting plates are arranged on one sides of frame-shaped supports, a motor, The air cooler is electrically connected with the motor.

By adopting the technical scheme of the utility model, the temperature sensor is used for monitoring the real-time temperature of the data storage server; a cooler in the cooling box can cool water, and the booster pump is used for pumping cooling water out and sending the cooling water into the water cooling pipe; the air cooler can suck air into the air cooler for cooling, and send cold air into the air outlet hose;

when the temperature monitoring device is used, the data storage server receives and stores data to generate heat, so that the data storage server is heated, the temperature sensor monitors the real-time temperature of the data storage server, and the control processor receives temperature information;

when the temperature exceeds the preset safe working threshold value of the control processor, the control processor starts a booster pump and a cooler in a cooling box of the first heat dissipation mechanism, the booster pump pumps water into a water cooling pipe, the water cooling pipe flows through the upper side and the lower side of the data storage server to absorb heat emitted by the data storage server, so that the data storage server is cooled, the temperature of water in the water cooling pipe is increased, the water in the water cooling pipe absorbs heat and then flows into the cooler, the cooler can cool the heat absorbed water, the cooled water is pumped into the water cooling pipe by the booster pump to be cooled again, the heat is dissipated and cooled again, the circulation can effectively dissipate and cool the data storage server, the temperature of the data storage server is kept within the preset safe working threshold value, and the booster pump and the cooler are closed after the temperature returns to the preset safe working threshold value;

when the operation time of the data storage server is longer, the data receiving and storing load is overlarge, and the temperature of the data storage server cannot be kept within the preset safe working threshold value by the first heat dissipation mechanism, at this time, the control processor controls the motor to be started according to the temperature information of the temperature sensor, the temperature value of the data storage server is always higher than the preset safe working threshold value within the preset time period, at this time, the control processor controls the motor to be started, the motor rotates to drive the screw rod to rotate, the screw rod rotates due to the fact that the screw threads at the two ends of the screw rod are opposite in rotation direction, the lifting plate is provided with the threaded holes matched with the screw threads in rotation direction, the two lifting plates are driven to mutually approach each other by the rotation of the screw rod, the lifting plates are abutted and limited by the frame-shaped support, the lifting plates can be prevented from rotating to enable the lifting plates to rotate, the cold air pipe is positioned on the upper surface and the lower surface of the data storage server, the processor is controlled to control the motor to be turned off, the cold air fan of the second heat dissipation mechanism is turned on, the cold air fan sends cold air into the hollow disc through the air outlet hose, the cold air pipe sends the cold air to the upper surface and the lower surface of the data storage server, the data storage server is cooled through the cold air, the first heat dissipation mechanism and the second heat dissipation mechanism continuously cool the data storage server, the temperature of the data storage server is kept within a preset safe working threshold value, after the temperature is returned to the preset safe working threshold value, the processor is controlled to turn off the booster pump, the cooler and the cold air fan, and the motor is turned on and controlled to enable the two lifting plates to be away from each other and return;

meanwhile, the lifting plate of the second heat dissipation mechanism drives the hollow disc to lift, so that the second heat dissipation mechanism can be separated from the first heat dissipation mechanism, and people can conveniently maintain and replace parts of the first heat dissipation mechanism and the second heat dissipation mechanism respectively;

the utility model provides a current server heat dissipation adopt fan cooling usually, simple structure, the radiating efficiency is low, makes data storage server's temperature can not obtain effectual control to make data storage server's high temperature, make data storage server move slowly, burn out the problem of data storage server even.

Further limiting, the cross section of the water-cooling pipe is rectangular, and the water-cooling pipe is arranged on the upper side and the lower side of the data storage server and is provided with a plurality of bent pipe sections. By the structure, when water flows through the upper side and the lower side of the data storage server to cool the data storage server, the heat exchange area and the heat exchange time can be increased, and the heat dissipation effect is better.

Further limiting, the water cooling pipes positioned at the upper side and the lower side of the data storage server are provided with heat conduction plates. With the structure, heat generated by the data storage server can be better transferred and guided out to the water cooling pipe, and the heat dissipation effect is further enhanced.

Further, the hollow disc on the upper side is provided with a dust baffle plate. With the structure, dust can be prevented from entering the mounting frame from the through hole on the upper side, and internal dust accumulation is avoided.

Further inject, the installing frame opening part can be dismantled and be connected with the dust screen. By the structure, dust can be prevented from entering from the opening of the mounting frame, and internal dust deposition is avoided.

Compared with the prior art, the utility model has the following advantages:

1. the first heat dissipation mechanism adopts water cooling heat dissipation, the heat dissipation efficiency is high, meanwhile, the bent pipe section of the water cooling pipe and the water cooling pipe are arranged into rectangular pipes, the heat exchange time and the heat exchange area can be increased, and the heat dissipation and cooling effects of the data storage server are good;

2. if the data storage server runs under high load for a long time and the first heat dissipation mechanism cannot control the temperature of the data storage server, cold air can be directly sent to the data storage server through the second heat dissipation mechanism, and the temperature of the data storage server can be effectively controlled by matching with the first heat dissipation mechanism;

3. set up dust board and dust screen, can prevent that the dust from getting into from the through-hole of upside and the opening of installing frame, avoid inside deposition.

Drawings

The present invention can be further illustrated by the non-limiting examples given in the accompanying drawings;

FIG. 1 is a schematic diagram of an embodiment of a heat sink for a mine block chain distributed data storage server of the present invention;

FIG. 2 is a schematic diagram of a rear view of an embodiment of a heat sink for a mine block chain distributed data storage server according to the present invention;

fig. 3 is a schematic cross-sectional view of a mounting frame of an embodiment of a heat sink for a mine block chain distributed data storage server according to the present invention;

the main element symbols are as follows:

the device comprises an installation frame 1, a data storage server 11, a water cooling pipe 12, a pipe bending section 121, a heat conducting plate 122, a cooling box 13, a through hole 14, a dustproof screen 15, a frame-shaped support 2, a fixed seat 21, an air cooler 22, an air outlet hose 221, a hollow disc 23, a dust baffle 231, an air cooling pipe 24, a lifting plate 31, a screw 32, a motor 33 and a control processor 34.

Detailed Description

In order to make the present invention better understood by those skilled in the art, the technical solutions of the present invention are further described below with reference to the accompanying drawings and examples.

As shown in figures 1-3, the utility model discloses a heat dissipation device for an ore-mining machine block chain distributed data storage server, which comprises a mounting frame 1 and a frame-shaped support 2, wherein the mounting frame 1 is provided with a data storage server 11, the data storage server 11 is provided with a temperature sensor, the mounting frame 1 is provided with a first heat dissipation mechanism, the first heat dissipation mechanism comprises water-cooling pipes 12 distributed on the upper side and the lower side of the data storage server 11 and a cooling box 13 fixedly connected with the mounting frame 1, a booster pump and a cooler are arranged in the cooling box 13, the input end of the booster pump is communicated with the output end of the cooler, one end of each water-cooling pipe 12 is communicated with the output end of the booster pump, the other end of each water-cooling pipe is communicated with the input end of the cooler, the upper side and the lower side of the mounting frame 1 are provided with a plurality, the frame-shaped support 2 is provided with a second heat dissipation mechanism, the second heat dissipation mechanism comprises an air cooler 22 and hollow discs 23 arranged at the upper side and the lower side of the mounting frame 1, the air cooler 22 is provided with a plurality of air outlet hoses 221 matched with the hollow discs 23, the hollow discs 23 are communicated with the air outlet hoses 221, cold air pipes 24 matched with the through holes 14 are arranged at one sides of the two hollow discs 23 facing the through holes 14, one sides of the two hollow discs 23 are provided with lifting plates 31 abutted and limited against the frame-shaped support 2, the same side fixing seats 21 are rotatably connected with screw rods 32, two ends of the screw rods 32 are respectively rotatably connected with the two hollow discs 23, the screw thread directions of two ends of the screw rods 32 are opposite, the same side lifting plates 31 are provided with screw holes matched with the screw thread directions of the screw rods 32, the frame-shaped support 2 is also provided with a motor 33 and a control processor 34, the rotating, the control processor 34 is electrically connected to the booster pump, the cooler, the air cooler 22 and the motor 33, respectively.

By adopting the technical scheme of the utility model, the temperature sensor is used for monitoring the real-time temperature of the data storage server 11; a cooler in the cooling tank 13 can cool water, and a booster pump is used for pumping cooling water out and sending the cooling water into the water cooling pipe 12; the air cooler 22 can suck air in for cooling, and send cold air into the air outlet hose 221;

when the temperature monitoring device is used, the data storage server 11 receives and stores data to generate heat, so that the data storage server 11 is heated, the temperature sensor monitors the real-time temperature of the data storage server 11, and the control processor 34 receives temperature information;

when the temperature exceeds the preset safe working threshold value of the control processor 34, the control processor 34 starts a booster pump and a cooler in the cooling box 13 of the first heat dissipation mechanism, the booster pump pumps water into the water cooling pipe 12, the water cooling pipe 12 flows through the upper side and the lower side of the data storage server 11 to absorb heat emitted by the data storage server 11, so that the data storage server 11 is cooled, the temperature of water in the water cooling pipe 12 is increased, the water in the water cooling pipe 12 absorbs heat and then flows into the cooler, the cooler cools the water after absorbing heat, and the booster pump pumps the cooled water into the water cooling pipe to cool the water again, the circulation can effectively dissipate heat and cool the data storage server 11, so that the temperature of the data storage server 11 is kept within the preset safe working threshold, and the processor 34 is controlled to close the booster pump and the cooler after the temperature returns to the preset safe working threshold;

however, when the operation time of the data storage server 11 is long, the data receiving and storing load is too large, and the first heat dissipation mechanism cannot keep the temperature of the data storage server 11 within the preset safe operation threshold, at this time, the control processor 34 controls the motor 33 to start according to the temperature information of the temperature sensor, and the temperature value of the data storage server 11 is always higher than the preset safe operation threshold within the preset time period, at this time, the control processor 34 controls the motor 33 to start, the motor 33 rotates to drive the screw rod 32 to rotate, because the thread directions of the two ends of the screw rod 32 are opposite, the lifting plate 31 is provided with a threaded hole matching with the thread direction of the screw rod 32, the screw rod 32 rotates to drive the two lifting plates 31 to approach each other, and the lifting plate 31 abuts against the frame-shaped bracket 2 to limit, the rotation of the screw rod 32 can be prevented from causing the lifting plate 31 to, the cold air pipes 24 of the two hollow discs 23 are respectively inserted into the through holes 14 at the upper side and the lower side of the mounting frame 1, the cold air pipes 24 are positioned on the upper surface and the lower surface of the data storage server 11, then the processor 34 is controlled to control the motor 33 to be closed, the air cooler 22 of the second heat dissipation mechanism is started, the air cooler 22 sends cold air into the hollow discs 23 through the air outlet hose 221, the cold air is sent to the upper surface and the lower surface of the data storage server 11 through the cold air pipes 24, the data storage server 11 is cooled through cold air, the data storage server 11 is continuously cooled through the first heat dissipation mechanism and the second heat dissipation mechanism, the temperature of the data storage server 11 is kept within a preset safe working threshold value, after the temperature returns to the preset safe working threshold value, the processor 34 is controlled to close the booster pump, the cooler and the air cooler 22, and the motor 33 is simultaneously started and controlled to rotate to enable, returning to the initial position;

meanwhile, the lifting plate 31 of the second heat dissipation mechanism drives the hollow disc 23 to lift, so that the second heat dissipation mechanism can be separated from the first heat dissipation mechanism, and people can conveniently maintain and replace parts of the first heat dissipation mechanism and the second heat dissipation mechanism respectively;

the utility model provides a current server heat dissipation adopt fan cooling usually, simple structure, the radiating efficiency is low, makes data storage server's temperature can not obtain effectual control to make data storage server's high temperature, make data storage server move slowly, burn out the problem of data storage server even.

Specifically, the cross-sectional shape of the water-cooling tubes 12 is rectangular, and the water-cooling tubes 12 located on the upper and lower sides of the data storage server 11 are provided with a plurality of bent tube sections 121. With the structure, when water flows through the upper side and the lower side of the data storage server 11 to cool the data storage server 11, the heat exchange area and the heat exchange time of the water-cooling pipe 12 can be increased, and the heat dissipation effect is better. In fact, other structures can be considered according to the situation, the heat exchange area and the heat exchange time of the water cooling pipe 12 can be increased, and the heat dissipation effect is better.

Specifically, the water cooling pipes 12 on the upper and lower sides of the data storage server 11 are provided with heat conducting plates 122. With the structure, heat generated by the data storage server 11 can be better transferred and led out to the water cooling pipe 12, and the heat dissipation effect is further enhanced. In fact, other structures can be considered according to the situation, so that the heat generated by the data storage server 11 can be better transferred and guided out to the water cooling pipe 12, and the heat dissipation effect is further enhanced.

Specifically, the upper hollow plate 23 is provided with a dust guard 231. With this structure, dust can be prevented from entering the mounting frame 1 through the upper through hole 14, and internal dust deposition can be avoided. In fact, other structures can be used according to circumstances, so that dust can be prevented from entering the mounting frame 1 through the through hole 14 on the upper side, and internal dust deposition can be avoided.

Specifically, the opening of the mounting frame 1 is detachably connected with a dustproof screen 15. With the structure, dust can be prevented from entering from the opening of the mounting frame 1, and internal dust deposition is avoided. In fact, other structures can be considered according to the situation, dust can be prevented from entering from the opening of the mounting frame 1, and internal dust deposition is avoided.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (5)

1. A heat sink for a mine blockchain distributed data storage server, comprising a mounting frame (1) and a frame support (2), the mounting frame (1) mounting a data storage server (11), characterized in that: data storage server (11) are equipped with temperature sensor, installing frame (1) is equipped with first heat dissipation mechanism, first heat dissipation mechanism including distribute in water-cooled tube (12) of both sides about data storage server (11) and with installing frame (1) fixed connection's cooler bin (13), inside booster pump and the cooler of being equipped with of cooler bin (13), the booster pump input is linked together with the cooler output, water-cooled tube (12) one end is linked together with the booster pump output, and the other end is linked together with the cooler input, both sides are equipped with a plurality of through-holes (14) about installing frame (1), frame-shaped support (2) both sides all are equipped with fixing base (21), two fixing base (21) respectively with installing frame (1) both sides fixed connection, frame-shaped support (2) are equipped with second heat dissipation mechanism, second heat dissipation mechanism is including air-cooler (22) and set up in the hollow dish (1) of both sides about installing frame (1), (13) 23) The air cooler (22) is provided with a plurality of air outlet hoses (221) matched with the hollow discs (23), the hollow discs (23) are communicated with the air outlet hoses (221), two air cooling pipes (24) matched with the through holes (14) are arranged on one sides of the hollow discs (23) facing the through holes (14), one sides of the hollow discs (23) are provided with lifting plates (31) which are in butt joint with the frame-shaped support (2) in a limiting mode, the fixing seats (21) are connected with screw rods (32) in a rotating mode, two ends of each screw rod (32) are respectively connected with the two hollow discs (23) in a rotating mode, threads at two ends of each screw rod (32) are opposite in rotating direction, the lifting plates (31) are arranged on the same side and are provided with threaded holes matched with the threads of the screw rods (32), the frame-shaped support (2) is further provided with a motor (33) and a control processor (34), and a rotating shaft of the motor (, the temperature sensor is electrically connected with the control processor (34), and the control processor (34) is respectively electrically connected with the booster pump, the cooler, the air cooler (22) and the motor (33).

2. A heat sink for a mine block chain distributed data storage server as recited in claim 1, wherein: the section of the water-cooled tube (12) is rectangular, and the water-cooled tube (12) is arranged on the upper side and the lower side of the data storage server (11) and is provided with a plurality of bent tube sections (121).

3. A heat sink for a mine block chain distributed data storage server as recited in claim 2, wherein: the water cooling pipes (12) are positioned at the upper side and the lower side of the data storage server (11) and are provided with heat conduction plates (122).

4. A heat sink for a mine block chain distributed data storage server as recited in claim 1, wherein: the hollow disc (23) on the upper side is provided with a dust board (231).

5. A heat sink for a mine block chain distributed data storage server as recited in claim 1, wherein: the opening of the mounting frame (1) is detachably connected with a dustproof screen (15).

Images