CN207833445U - The radiator and cooling system of mine machine are dug for ideal money - Google Patents
The radiator and cooling system of mine machine are dug for ideal money Download PDFInfo
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- CN207833445U CN207833445U CN201820025866.1U CN201820025866U CN207833445U CN 207833445 U CN207833445 U CN 207833445U CN 201820025866 U CN201820025866 U CN 201820025866U CN 207833445 U CN207833445 U CN 207833445U
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Abstract
The utility model discloses a kind of radiator and cooling system digging mine machine for ideal money, radiator includes:An at least fan, the first water of radiation row component, liquid cooling plate component and water pump;First water of radiation row's component is set to the side of an at least fan;Liquid cooling plate component is set on the first water of radiation row's component, and the circuit board that ideal money digs mine machine is carried on liquid cooling plate component;Pass through piping connection between first water of radiation row component, liquid cooling plate component and water pump, channel interior is injected with coolant liquid, coolant liquid is arranged in the first water of radiation under the driving of water pump and is circulated by pipeline between component and liquid cooling plate component, and the heat that circuit board distributes is transferred out.
Description
Technical field
The utility model is related to a kind of radiators and cooling system digging mine machine for ideal money.
Background technology
With the development of the technologies neck such as machinery, microelectronics, computer, automatic technology is flourished, and is promoted
The progress of industry, make it is various wait for heat dissipation equipment, such as dig mine machine, start to realize automation, intelligent.Wait for heat dissipation equipment in reality
During now automation and intelligence, need more and more PCB (Printed circuit board, printed circuit board) electric
Road plate supports operation, this results in PCB circuit board calorific value in supporting calculating process increasing, with the increasing of calorific value
Greatly, the reduced performance of PCB circuit board, it is therefore, various to wait for that radiator is commonly configured in heat dissipation equipment to radiate.
It is dug in mine machine specific to virtual digit coin, circuit board gives off heat in use, it is ensured that dig mine movement piece
Normal work, the heat that must be just generated in time distributes.Otherwise, it under conditions of heat dispersal situations are insufficient, allows
It digs mine machine to continue to work under conditions of high temperature, mine machine cisco unity malfunction or internal short circuits will be caused, or even burn core
Piece.With the continuous improvement for digging mine machine calculation power, heat generation density is also gradually increased, and the requirement to heat dissipation performance also more comes also high.
In existing radiator, generally use directly arranges radiator in PCB circuit board, by fan to absorbing
Wait for that the radiator of the PCB circuit board heat in heat dissipation equipment is blowed or the mode of exhausting takes away the heat on radiator,
To achieve the purpose that radiate to PCB circuit board.But due to using fan directly to the radiator in PCB circuit board into
Row heat dissipation, radiating efficiency is low, is unable to fully take away the heat on radiator, to need the higher fan of actual air volume to carry out
Heat dissipation, noise when this results in equipment to run is very high, with the operation of equipment, PCB circuit board and spreader surface dust stratification
Seriously so that the temperature of PCB circuit board is still higher, increases the risk of PCB circuit board failure.Meanwhile the prior art
In, using fan directly against 2 surface of circuit board to be radiated radiator dry, due to direct air cooling coefficient of heat transfer compared with
It is low, cause the windage of radiator itself higher, and with the operation of equipment, circuit board 2 and radiator outer surface dust stratification are serious,
So that heat dissipation effect further declines, simultaneously because the superficial dust of circuit board 2 so that the failures such as short circuit occurs in circuit board 2
Possibility increases, and has seriously affected the service life of equipment.Since direct air cooled coefficient of heat transfer is relatively low, to make electricity
The temperature of road plate 2 disclosure satisfy that requirement, and required heat spreader structures are compacter, and the flow resistance of generation is higher, required
The air quantity of fan is larger, this causes the operation noise of equipment high.
Therefore it is badly in need of developing a kind of radiator overcoming drawbacks described above.
Utility model content
To solve the above-mentioned problems, the utility model provides a kind of radiator digging mine machine for ideal money, wherein
Including:
An at least fan;
First water of radiation arranges component, is set to the side of an at least fan;
Liquid cooling plate component is set on the first water of radiation row component, the void is carried on the liquid cooling plate component
Quasi- currency digs the circuit board of mine machine;
Water pump passes through piping connection, institute between the first water of radiation row component, the liquid cooling plate component and the water pump
It states channel interior and is injected with coolant liquid, the coolant liquid arranges component and institute under the driving of the water pump in first water of radiation
It states and is circulated by the pipeline between liquid cooling plate component, the heat that the circuit board distributes is transferred out.
Above-mentioned radiator, wherein further include the second water of radiation row's component, be set to the another of an at least fan
Side passes through between the first water of radiation row component, second water of radiation row component, the liquid cooling plate component and the water pump
Piping connection, the channel interior are injected with coolant liquid, and the coolant liquid is under the driving of the water pump in first heat dissipation
It is circulated by the pipeline between water row component, second water of radiation row's component and the liquid cooling plate component, by institute
The heat that circuit board distributes is stated to transfer out.
Above-mentioned radiator, wherein the liquid cooling plate component includes an interconnected at least liquid cooling plate, each described
Liquid cooling plate has the first inlet, the first liquid outlet and first flow, and the both ends of the first flow are respectively communicated with described first
Inlet and first liquid outlet, the coolant liquid can flow in the first flow, each liquid cooling plate it is described
First inlet is passed through by first liquid outlet of the adjacent liquid cooling plate of the pipeline connection, first inlet
Water pump described in the pipeline connection, first liquid outlet arrange component or described by the first water of radiation described in the pipeline connection
Second water of radiation arranges component.
Above-mentioned radiator, wherein first water of radiation arranges at least one first heat dissipation that component includes interconnected
Water is arranged, and each first water of radiation, which is arranged, has the second inlet, the second liquid outlet and second flow channel, and the two of the second flow channel
End is respectively communicated with second inlet and second liquid outlet, and the coolant liquid can flow in the second flow channel, often
The institute that second inlet of the one first water of radiation row passes through adjacent first water of radiation row of the pipeline connection
The second liquid outlet is stated, second inlet is passed through by the first liquid outlet described in the pipeline connection, second liquid outlet
Second water of radiation described in the pipeline connection arranges component.
Above-mentioned radiator, wherein second water of radiation arranges at least one second heat dissipation that component includes interconnected
Water is arranged, and each second water of radiation, which is arranged, has third inlet, third liquid outlet and third flow channel, and the two of the third flow channel
End is respectively communicated with the third inlet and the third liquid outlet, and the coolant liquid can flow in the third flow channel, often
The institute that the third inlet of the one second water of radiation row passes through adjacent second water of radiation row of the pipeline connection
Third liquid outlet is stated, the third inlet is passed through by the second liquid outlet described in the pipeline connection, the third liquid outlet
Water pump described in the pipeline connection.
Above-mentioned radiator, wherein further include protective base, the protective base has holding part, the fan, institute
The first water of radiation row component, second water of radiation row's component and the water pump is stated to be installed in the holding part.
Above-mentioned radiator, wherein the protective base includes:
Bottom plate;
Multiple side plates, the multiple side plate enclose the edge for setting and being connected to the bottom plate;
Top plate is installed on the multiple side plate, and the length of the top plate is less than the length of the bottom plate to expose portion
Divide the pipeline, the liquid cooling plate component and the circuit board are arranged on the top plate.
Above-mentioned radiator, wherein multiple exhaust vents are offered on the side plate.
Above-mentioned radiator, wherein further include protection cap, be buckled on the liquid cooling plate component and the circuit board.
Above-mentioned radiator a, wherein control box for being electrically connected at the circuit board is also carried in the protection cap.
The utility model also provides a kind of cooling system digging mine machine for ideal money, wherein including:It is multiple among the above
Any one of them radiator is provided with circuit board in each radiator, is installed on each radiator
Control box.
The utility model is directed to the prior art its effect and is, the radiator based on the utility model and heat dissipation are
System, by the driving of water pump, the heat generated in PCB circuit board is brought into water of radiation row by the coolant liquid in liquid cooling plate, profit
With fan by water of radiation arrange in heat be brought into ambient enviroment, realize absorbed in the way of liquid cooling PCB circuit board production
Raw heat, heat exchange efficiency is high, and PCB circuit board is positioned in protective cover, is not in direct contact with external environment.Therefore, it adopts
With the technical solution of the utility model, the heat on radiator can be fully taken away, avoids the dust stratification of PCB circuit board, is improved
The radiating efficiency of radiator, and then the temperature of PCB circuit board is reduced, on the other hand due to the external surface area ratio of water of radiation row
It is larger, therefore the fan of relatively low air quantity can be used to radiate, therefore the noise that fan generates is lower, making an uproar when equipment is run
Sound also decreases.
Description of the drawings
Fig. 1 is the structural schematic diagram of the utility model radiator first embodiment;
Fig. 2 is the structural schematic diagram of the utility model radiator second embodiment;
Fig. 3 is the explosive view of Fig. 2;
Fig. 4 is the structural schematic diagram of the utility model cooling system.
Wherein, reference numeral is:
Radiator 1
Fan 11
First water of radiation arranges component 12
First water of radiation row 121
Second inlet I2
Second liquid outlet O2
Liquid cooling plate component 13
Liquid cooling plate 131
First inlet I1
First liquid outlet O1
Second water of radiation arranges component 14
Second water of radiation row 141
Third inlet I3
Third liquid outlet O3
Water pump 15
Pipeline 16
Protective base 17
Holding part 171
Bottom plate 172
Multiple side plates 173
Top plate 174
Protection cap 18
Circuit board 2
Control box 3
Specific implementation mode
The hereby the technical content and a detailed description in relation to the utility model, cooperation schema are described as follows:
Referring to Fig. 1, Fig. 1 is the structural schematic diagram of 1 first embodiment of the utility model radiator.As shown in Figure 1, this
The radiator 1 of utility model includes:Fan 11, the first water of radiation row component 12, liquid cooling plate component 13 and water pump 15;First dissipates
Hot water row's component 12 is set to the side of fan 11;Liquid cooling plate component 13 is set on the first water of radiation row's component 12, liquid cooling
The circuit board 2 that ideal money digs mine machine is carried on board group part 13;First water of radiation arranges component 12, liquid cooling plate component 13 and water pump 15
Between connected by pipeline 16, coolant liquid (not shown) is injected with inside pipeline 16, coolant liquid is under the driving of water pump 15 in
One water of radiation, which is arranged, to be circulated between component 12 and liquid cooling plate component 13 by pipeline 16, and the heat that circuit board 2 is distributed passes
Export.
Further, radiator 1 further includes the second water of radiation row's component 14, is set to the other side of fan 11, and first
It is connected, is managed by pipeline 16 between water of radiation row component 12, the second water of radiation row component 14, liquid cooling plate component 13 and water pump 15
Coolant liquid is injected with inside road 16, coolant liquid arranges component 12, the second water of radiation row under the driving of water pump 15 in the first water of radiation
It is circulated by pipeline 16 between component 14 and liquid cooling plate component 13, the heat that circuit board 2 distributes is transferred out.
It should be noted that only disclosing a fan 11 in the present embodiment, fan 11 is set to the first water of radiation row
Between component 12 and the second water of radiation row's component 14, but the utility model is not limited thereto, in other embodiments heat dissipation dress
It sets 1 and may also include multiple fans 11, multiple fans 11 are arranged in parallel in the first water of radiation row's component 12 and second water of radiation row's group
Between part 14.
Still further, liquid cooling plate component 13 includes phase liquid cooling plate 131, liquid cooling plate 131 has the first inlet I1, first
The both ends of liquid outlet O1 and first flow (not shown), first flow are respectively communicated with the first inlet I1 and the first liquid outlet O1,
Coolant liquid can flow in first flow, and the first inlet I1 is connected to water pump 15 by pipeline 16, and the first liquid outlet O1 passes through pipe
Road 16 is connected to the first water of radiation and arranges component 12, but the utility model is not limited thereto, in other embodiments, the first liquid outlet
O1 can also be connected to the second water of radiation by pipeline 16 and arrange component 14.
It should be noted that in the present embodiment liquid cooling plate component 13 only include a liquid cooling plate 131, but but this practicality newly
Type is not limited thereto, and in another embodiment of the utility model, liquid cooling plate component 13 may also include multiple interconnected
Liquid cooling plate 131, vertically lamination is arranged multiple liquid cooling plates 131, and the first inlet I1 of each liquid cooling plate 131 passes through pipeline
16 are connected to the first liquid outlet O1 of adjacent liquid cooling plate 131, and the first inlet I1 positioned at the liquid cooling plate 131 at top passes through pipeline
16 connection water pumps 15, the first liquid outlet O1 for being located at the liquid cooling plate 131 of bottom are connected to the first water of radiation row's component by pipeline 16
12.Also it can will pass through pipeline positioned at the first inlet I1 of the liquid cooling plate 131 of bottom in the another embodiment of the utility model
16 connection water pumps 15, the first liquid outlet O1 for being located at the liquid cooling plate 131 at top are connected to the first water of radiation row's component by pipeline 16
12。
Further, the first water of radiation row component 12 includes that the first water of radiation arranges 121, and the first water of radiation row 121 has
Second inlet I2, the second liquid outlet O2 and second flow channel (not shown), the both ends of second flow channel are respectively communicated with the second inlet
I2 and the second liquid outlet O2, the coolant liquid can flow in second flow channel, and the second inlet I2 is connected to first by pipeline 16
Liquid outlet O1, the second liquid outlet O2 arrange component 14 by the second water of radiation of pipeline connection.
It should be noted that the first water of radiation row component 12 only includes that first water of radiation arranges 121 in the present embodiment,
But the utility model is not limited thereto, and in another embodiment of the utility model, the first water of radiation row's component 12 can also wrap
Multiple interconnected first water of radiation rows 121 are included, lamination is arranged multiple first water of radiation rows 121 in the horizontal direction, and every 1 the
The second inlet I2 of one water of radiation row 121 is connected to the second liquid outlet O2 of adjacent the first water of radiation row 121 by pipeline 16,
The liquid cooling plate for being located at top or bottom is connected to by pipeline 16 positioned at the second inlet I2 of the first water of radiation row 121 in outside
131 the first liquid outlet O1, the second liquid outlet O2 positioned at the first water of radiation row 121 of inside are radiated by pipeline connection second
Water arranges component 14.In the another embodiment of the utility model can also by positioned at the first water of radiation of inside row 121 second into
By the connection of pipeline 16 positioned at the first liquid outlet O1 of the liquid cooling plate 131 at top or bottom, be located at outside first dissipates liquid mouth I2
The second liquid outlet O2 of hot water row 121 arranges component 14 by the second water of radiation of pipeline connection.
Further, the second water of radiation row component 14 includes that the second water of radiation arranges 141, and the second water of radiation row 141 has
Third inlet I3, third liquid outlet O3 (see Fig. 3) and third flow channel (not shown), the both ends of third flow channel are respectively communicated with third
Inlet I3 and third liquid outlet O3, coolant liquid can flow in third flow channel, and third inlet I3 passes through the connection of pipeline 16 the
Two liquid outlet O2, third liquid outlet O3 are connected to water pump 15 by pipeline 16.
It should be noted that the second water of radiation row component 14 only includes that second water of radiation arranges 141 in the present embodiment,
But the utility model is not limited thereto, and in another embodiment of the utility model, the second water of radiation row's component 14 can also wrap
Multiple interconnected second water of radiation rows 141 are included, lamination is arranged multiple second water of radiation rows 141 in the horizontal direction, and every 1 the
The third inlet I3 of two water of radiation row 141 is connected to the third liquid outlet O3 of adjacent the second water of radiation row 141 by pipeline 16,
Third inlet I3 positioned at the second water of radiation row 141 in outside is radiated by the connection of pipeline 16 positioned at the first of outside or inside
The second liquid outlet O2 of water row 121, the third liquid outlet O3 positioned at the second water of radiation row 141 of inside are connected to by pipeline 16
Water pump 15.141 third inlet can will be also arranged positioned at the second water of radiation of inside in the another embodiment of the utility model
I3, positioned at the second liquid outlet O2 of the first water of radiation of outside or inside row 121, is located at the second of outside by the connection of pipeline 16
The third liquid outlet O3 of water of radiation row 141 is connected to water pump 15 by pipeline 16.
The course of work of the utility model radiator further explained below, liquid cooling plate 121 are in contact with circuit board 2,
The heat that circuit board 2 generates is directly transferred in liquid cooling plate 131, is absorbed immediately by the coolant liquid in liquid cooling plate 131, is absorbed circuit
The coolant liquid of 2 heat of plate 16 enters in water of radiation row 121,141 by the road under the driving of water pump 15, fan 11 and water of radiation
Row 121,141 is oppositely arranged, and the side that fan 11 arranges 121,141 from water of radiation sucks air, is arranged in water of radiation using air
121, the heat of water of radiation 121,141 internal coolants of row is transmitted in air by washing away for 141 outer surfaces, via water of radiation
The slave air for absorbing heat is discharged for the other side of row 121,141, simultaneously because water of radiation arranges 121,141 heat-delivery surface
Product sets so as to use the fan of relatively low air quantity to solve much larger than radiator surface area used in the prior art
The high problem of noise when received shipment row.
Fig. 2-3 is please referred to, Fig. 2 is the structural schematic diagram of 1 second embodiment of the utility model radiator;Fig. 3 is Fig. 2's
Explosive view.Radiator 1 as Figure 2-3 is roughly the same with the structure of radiator 1 shown in FIG. 1, therefore same section
Details are not described herein again, now points out to be described as follows by difference.In the present embodiment, radiator 1 further includes protective base 17,
Protective base 17 has holding part 171, fan 11, the first water of radiation row component 12, the second water of radiation row's component 14 and water pump 15
It is installed in holding part 171.
Further, protective base 17 further includes:Bottom plate 172, multiple side plates 173 and top plate 174;Multiple side plates 173 enclose
If being connected to the edge of bottom plate 172;Top plate 174 is installed on multiple side plates 173, and the length of top plate 174 is less than the length of bottom plate 172
To expose part pipeline 16, liquid cooling plate component 13 and circuit board 2 are set on top plate 174, are offered on side plate 173 multiple degree
Exhaust vent 1731.
Still further, radiator 1 further includes protection cap 18, it is buckled in 2 on liquid cooling plate component 13 and circuit board, protects
A control box 3 for being electrically connected at circuit board 2 is also carried on lid 18, circuit board 2 and liquid cooling plate component 13 are placed on protective cover
Inside 18, circuit board 2 is not in direct contact with external environment, avoids the dust stratification problem of 2 outer surface of circuit board;Inside control box 3
Dependent control element, the operations such as operation and the input and output of data for controlling devices are installed.Control box 3 is installed on anti-
It protects on head cover 18, and is connect with circuit board 2, and then realize the data interaction etc. between control box 3 and circuit board 2, make circuit board
2 complete related operation.
For example, which can be as the digging mine machine of bit coin, and it includes circuit board 2 and control to dig mine machine
Box 3 sends instruction by the control of control box 3 and the operation of circuit board 2 to mine machine is dug, automatic to make digging mine machine realize
Change, is intelligent, effectively completing task, while can effectively be dissipated to circuit board 2 using radiator shown in Fig. 1-3
Heat avoids the dust stratification of circuit board 2, improves the radiating efficiency of the present embodiment cooling system, also, reduces cooling system
Noise, and then enable the operation for waiting for that heat dissipation equipment is more stable, more reliable.
Fig. 4 is please referred to, Fig. 4 is the structural schematic diagram of the utility model cooling system.As shown in figure 4, the utility model
System includes:Multiple Fig. 1 or Fig. 2 shows radiator 1, be provided with circuit board, each radiator in each radiator 1
Control box 3 is installed on 1.
It is worth noting that, in practical applications, in order to enable the cooling system to work normally, the cooling system
Further include power supply, power supply respectively in control box 3 and radiator 1 fan 11 and water pump 15 connect, with to control box 3,
Fan 11 and water pump 15 are powered, and three is enable to work normally.Wherein the installation site of power supply can be according to the practical need of user
It asks and is installed, such as some position that power supply can be mounted on radiator 1, power supply is made to be integrated with radiator 1
Power supply and radiator 1 can also be installed separately by structure, and the present embodiment is not particularly limited.
In conclusion the radiator based on the utility model and cooling system, by the driving of water pump, in liquid cooling plate
Coolant liquid by the heat generated in PCB circuit board be brought into water of radiation row in, using fan by water of radiation arrange in heat bring into
Into ambient enviroment, the heat that PCB circuit board generation is absorbed in the way of liquid cooling is realized, heat exchange efficiency is high, and PCB electricity
Road plate is positioned in protective cover, is not in direct contact with external environment.Therefore, using the technical solution of the utility model, Neng Gouchong
Divide the heat taken away on radiator, avoid the dust stratification of PCB circuit board, improves the radiating efficiency of radiator, and then reduce
The temperature of PCB circuit boards can use relatively low air quantity on the other hand since the external surface area of water of radiation row is bigger
Fan radiates, therefore the noise that fan generates is lower, and noise when equipment is run also decreases.
The above, the only detailed description of the utility model preferred embodiment and schema, only the utility model
Feature is not limited thereto, and not to limit the utility model, all ranges of the utility model should be wanted with following rights
Subject to the protection domain asked, the embodiment of all spirit variations similar with its together in present utility model application the scope of the claims is all answered
It is included in the scope of the utility model, any those skilled in the relevant technical field, can in the field of the utility model
Easily think and changes or modifications can all cover in the protection domain of the appended claims for the utility model.
Claims (11)
1. a kind of radiator digging mine machine for ideal money, which is characterized in that including:
An at least fan;
First water of radiation arranges component, is set to the side of an at least fan;
Liquid cooling plate component is set on the first water of radiation row component, the virtual goods is carried on the liquid cooling plate component
Coin digs the circuit board of mine machine;
Water pump passes through piping connection, the pipe between the first water of radiation row component, the liquid cooling plate component and the water pump
Coolant liquid is injected with inside road, the coolant liquid arranges component and the liquid under the driving of the water pump in first water of radiation
It is circulated by the pipeline between cold drawing assembly, the heat that the circuit board distributes is transferred out.
2. radiator as described in claim 1, which is characterized in that further include the second water of radiation row's component, be set to described
At least other side of a fan, first water of radiation row component, second water of radiation row component, the liquid cooling plate component and
By piping connection between the water pump, the channel interior is injected with coolant liquid, driving of the coolant liquid in the water pump
Under in first water of radiation arrange component, second water of radiation row component and the liquid cooling plate component between pass through the pipeline
It circulates, the heat that the circuit board distributes is transferred out.
3. radiator as claimed in claim 2, which is characterized in that the liquid cooling plate component includes interconnected at least one
Liquid cooling plate, each liquid cooling plate have the first inlet, the first liquid outlet and first flow, the both ends point of the first flow
It is not connected to first inlet and first liquid outlet, the coolant liquid can flow in the first flow, Mei Yisuo
First inlet of liquid cooling plate is stated by first liquid outlet of the adjacent liquid cooling plate of the pipeline connection, it is described
First inlet passes through the first heat dissipation described in the pipeline connection by water pump described in the pipeline connection, first liquid outlet
Water arranges component or second water of radiation arranges component.
4. radiator as claimed in claim 3, which is characterized in that the first water of radiation row component includes interconnected
At least one first water of radiation is arranged, and each first water of radiation row has the second inlet, the second liquid outlet and second flow channel, institute
The both ends for stating second flow channel are respectively communicated with second inlet and second liquid outlet, and the coolant liquid can be described second
Flowing in runner, second inlet of each first water of radiation row by the pipeline connection it is adjacent described first
Second liquid outlet of water of radiation row, second inlet is by the first liquid outlet described in the pipeline connection, and described the
Two liquid outlets arrange component by the second water of radiation described in the pipeline connection.
5. radiator as claimed in claim 4, which is characterized in that the second water of radiation row component includes interconnected
At least one second water of radiation is arranged, and each second water of radiation row has third inlet, third liquid outlet and third flow channel, institute
The both ends for stating third flow channel are respectively communicated with the third inlet and the third liquid outlet, and the coolant liquid can be in the third
Flowing in runner, the third inlet of each second water of radiation row by the pipeline connection it is adjacent described second
The third liquid outlet of water of radiation row, the third inlet is by the second liquid outlet described in the pipeline connection, and described the
Three liquid outlets pass through water pump described in the pipeline connection.
6. radiator as claimed in claim 2, which is characterized in that further include protective base, the protective base, which has, to be held
Portion is set, the fan, first water of radiation row component, second water of radiation row's component and the water pump are installed in the appearance
It sets in portion.
7. radiator as claimed in claim 6, which is characterized in that the protective base includes:
Bottom plate;
Multiple side plates, the multiple side plate enclose the edge for setting and being connected to the bottom plate;
Top plate is installed on the multiple side plate, and the length of the top plate is less than the length of the bottom plate to expose part institute
Pipeline is stated, the liquid cooling plate component and the circuit board are arranged on the top plate.
8. radiator as claimed in claim 7, which is characterized in that offer multiple exhaust vents on the side plate.
9. radiator as described in claim 1, which is characterized in that further include protection cap, be buckled in the liquid cooling plate component
And on the circuit board.
10. radiator as claimed in claim 9, which is characterized in that also carry one in the protection cap and be electrically connected at institute
State the control box of circuit board.
11. a kind of cooling system digging mine machine for ideal money, which is characterized in that including:Multiple the claims 1-10
Any one of described in radiator, be provided with circuit board in each radiator, installed on each radiator
There is control box.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820025866.1U CN207833445U (en) | 2018-01-08 | 2018-01-08 | The radiator and cooling system of mine machine are dug for ideal money |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820025866.1U CN207833445U (en) | 2018-01-08 | 2018-01-08 | The radiator and cooling system of mine machine are dug for ideal money |
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CN207833445U true CN207833445U (en) | 2018-09-07 |
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CN201820025866.1U Active CN207833445U (en) | 2018-01-08 | 2018-01-08 | The radiator and cooling system of mine machine are dug for ideal money |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109413963A (en) * | 2018-12-13 | 2019-03-01 | 珠海格力电器股份有限公司 | Accommodating device and air conditioner with same |
CN110928388A (en) * | 2019-12-26 | 2020-03-27 | 北京比特大陆科技有限公司 | Integrated component of liquid cooling plate and circuit board and liquid cooling server |
CN110958825A (en) * | 2019-12-30 | 2020-04-03 | 巢湖市金辉自控设备有限公司 | Heat dissipation device of frequency converter |
CN112223706A (en) * | 2020-10-04 | 2021-01-15 | 何涛 | Double-screw extrusion device for plastic plate production and use method |
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2018
- 2018-01-08 CN CN201820025866.1U patent/CN207833445U/en active Active
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109413963A (en) * | 2018-12-13 | 2019-03-01 | 珠海格力电器股份有限公司 | Accommodating device and air conditioner with same |
CN110928388A (en) * | 2019-12-26 | 2020-03-27 | 北京比特大陆科技有限公司 | Integrated component of liquid cooling plate and circuit board and liquid cooling server |
CN110958825A (en) * | 2019-12-30 | 2020-04-03 | 巢湖市金辉自控设备有限公司 | Heat dissipation device of frequency converter |
CN110958825B (en) * | 2019-12-30 | 2021-08-03 | 巢湖市金辉自控设备有限公司 | Heat dissipation device of frequency converter |
CN112223706A (en) * | 2020-10-04 | 2021-01-15 | 何涛 | Double-screw extrusion device for plastic plate production and use method |
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