CN206207826U - A kind of water cooling plant - Google Patents
A kind of water cooling plant Download PDFInfo
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- CN206207826U CN206207826U CN201621278340.1U CN201621278340U CN206207826U CN 206207826 U CN206207826 U CN 206207826U CN 201621278340 U CN201621278340 U CN 201621278340U CN 206207826 U CN206207826 U CN 206207826U
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- water
- temperature
- cooling
- cooling groove
- groove
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Abstract
The utility model discloses a kind of water cooling plant, solving constantly addition water cool down the wasting of resources that causes and water may be caused to overflow, environment to equipment production is polluted, increase the difficulty and danger coefficient of operation, its drip irrigation device is a kind of water cooling plant, including water-cooling groove and water inlet pipe, also include the temperature-detecting device for detecting water temperature and output water temperature signal in water-cooling groove, temperature-detecting device is coupled to the control device in response to water temperature signal and output control signal and control device is coupled in response to control signal and to perform the performs device of water inlet;Temperature-detecting device has a temperature upper limit for corresponding to highest water temperature, when temperature-detecting device detects water temperature higher than temperature upper limit, control device control performs device starts water inlet water inlet tube, a kind of water cooling plant of the present utility model, can in real time be detected according to the water temperature in water-cooling groove and be added water, be realized the normal of machine operation and automation.
Description
Technical field
The utility model is related to industry cooling equipment, more particularly to a kind of water cooling plant.
Background technology
Wire drawing is carried out after the high-temperature heating of machine melts when filamentary material is drawn in industrial production, due to just completion
Wire-drawing temperature it is high, it is often necessary to cooling device is cooled down, and many water-cooleds using water cooling ponds or water-cooling groove are carried out at present
Cooling, but in order to ensure water temperature less than certain limiting temperature when water-cooling groove is used, for convenient, the Ren Menchang of operation
Often tap is connected on water-cooling groove, it is whether too high according to artificial judgment water temperature and then carry out manual cold water addition, and then
Reduce the water temperature in water-cooling groove.
But constantly being added water can cause the waste of water resource, and water rate control is bad to be also resulted in water-cooling groove
Water constantly increases so that last water overflows water-cooling groove, and artificial addition can not accurately judge water temperature and make the corresponding behaviour that adds water
Make, too high water temperature can cause some unexpected dangerous and operations also very inconvenient to operating personnel, could be improved
Space.
Utility model content
The purpose of this utility model is to provide a kind of water cooling plant, can in real time be examined according to the water temperature in water-cooling groove
Survey and add water so that the normal and automation of processing operation.
Above-mentioned technical purpose of the present utility model technical scheme is that:
A kind of water cooling plant, including water-cooling groove and water inlet pipe, also including the temperature physics for detecting water temperature in water-cooling groove
Measure and by the temperature physical quantity of water temperature be converted to water temperature signal temperature-detecting device, be coupled to temperature-detecting device with response to
The control device of water temperature signal and output control signal and control device is coupled in response to control signal and to perform water inlet
Performs device;
The temperature-detecting device has a temperature upper limit for corresponding to highest water temperature, the temperature-detecting device detection
When to water temperature being higher than temperature upper limit, control device control performs device starts water inlet water inlet tube.
Using such scheme, water-cooling groove can hold the cooling that cold water carries out at once to the object processed, temperature detection dress
The detection that the moment can be carried out to the water temperature in water-cooling groove is put to transmit water temperature signal to control device, control device control is performed
Device drives water inlet water inlet tube, and when the temperature of water-cooled trough inner water is higher than temperature upper limit, performs device automatically controls water inlet
Pipe is reached automatically to carrying out temperature control drop in water-cooling groove to injecting cold water in water-cooling groove to reduce the temperature of cooling water in water-cooling groove
The operation of temperature, it is more intelligent convenient when processing operation, realize that water cooling plant efficiently carries out cooling work.
Preferably, being connected with the conductive bar set along the short transverse of water-cooling groove, the biography in the water-cooling groove
The buoy for being provided with and floating on the water surface is arranged on guide rod, the temperature-detecting device includes the groove near water-cooling groove positioned at buoy
The end face of bottom side and it is dipped in the thermo-sensitive resistor of underwater.
Using such scheme, buoy is arranged in the conductive bar of integrally connected in water-cooling groove, can swum on the water surface constantly,
Thermo-sensitive resistor is installed in the lower surface of buoy, can be immersed in underwater and water temperature is detected, buoy can be with the lifting of the water surface
Lifting so that the thermo-sensitive resistor moment is maintained in water and is detected, realizes the real-time and accurate of detection.
Preferably, the control device includes being coupled to the controlling switch of temperature-detecting device and is coupled to controlling switch
To carry out the actuation means that performs device enters water management, the control device also time delay including delay cutoff control device is filled
Put.
Using such scheme, the actuation means control performs device of control device operated into water, and control signal is entered
Row transmission, the time-delay mechanism of coupling being capable of delay cutoff control device so that temperature is higher than temperature upper limit timed unit control
Make into water energy time delay for a period of time in cut-out, prevent performs device to be constantly opened and closed.
Preferably, the instruction that the control device is also coupled to be used to indicate when water temperature is higher than temperature upper limit is filled
Put.
Using such scheme, the instruction device of control device coupling is indicated when temperature is higher than higher limit, is carried
The situation of water temperature is high temperature in awake operating personnel's water-cooling groove, it is to avoid personnel touch water body and cause danger, while being easy to operating personnel
Whether have when checking water inlet pipe at high temperature and lower the temperature in water inlet, convenient investigation failure.
Preferably, the performs device include control water inlet water inlet tube water inlet motor, it is described enter water-driven electricity
Machine is installed on side of the water inlet pipe away from water-cooling groove.
Using such scheme, the motor of performs device provides power to water inlet pipe water inlet, after controlling switch closure
Motor work lower the temperature into water, has enough power to pump into water-cooling groove cold water using motor.
Preferably, the control device is also coupled to be used to the discharging device for detaching the water in water-cooling groove, institute
State discharging device include be arranged in water-cooling groove and near water-cooling groove side wall upper surface outlet pipe and positioned at outlet pipe away from
Water outlet motor of the water-cooling groove side to drive outlet pipe to draw water.
Using such scheme, the discharging device on control device can constantly intake in water inlet pipe and cause water level in water-cooling groove
The exclusion of part is carried out when rising to the water in water-cooling groove, the exchange of hot and cold water in water-cooling groove is realized, cooling operation is carried out,
Outlet pipe is located at the upper surface of the side wall of water-cooling groove, can be at port of the water level less than outlet pipe, and outlet pipe can not be to water-cooling groove
Interior water is detached, and water inlet water inlet tube reaches preferred operation water level with the water level realized in water-cooling groove so that in water-cooling groove
Water will not be very few and influence water-cooled effect.
Preferably, the water-cooling groove offers the inlet opening of the side wall for being communicated in water-cooling groove, institute near the side of bottom land
The lateral wall abutting inlet opening and interference for stating water inlet pipe are installed in inlet opening.
Using such scheme, the inlet opening that water-cooling groove is opened up near the connection of bottom land side, water inlet pipe interference is arranged on water inlet
In hole so that water inlet pipe directly can be injected in water-cooling groove cold water by inlet opening, inwardly inject cold from the bottom land of water-cooling groove
Water extraction cooling effect high, the effect of interference fit causes that water inlet pipe is firmly installed.
Preferably, the bottom land side of the water-cooling groove is integrally provided with cooling tube along the length direction of water-cooling groove, it is described
Inlet opening is communicated in cooling tube, and the cooling tube offers water injection hole near the side of water-cooling groove.
Using such scheme, the cooling tube that the bottom land one of water-cooling groove is installed first exists the water that water inlet pipe injects from inlet opening
Concentrated in cooling tube, the water injection hole that cooling tube is opened up near the side of water-cooling groove is so that the water energy in cooling tube is enough entered water-driven
The water injection pressure of motor injects toward in water-cooling groove so that there are the water of water injection hole injection water-cooling groove larger initial forces to accelerate
Outpour, cold water can carry out heat exchange in farther distance, accelerate cooling.
Preferably, the water injection hole offer it is some in cooling tube towards on the side wall of water-cooling groove end face and along cooling tube
Length direction be uniformly arranged.
Using such scheme, water injection hole is opened up towards the end face side of water-cooling groove so that cold water is injected from bottom land to the water surface,
Motion upwards, carries out the water circulation heat exchange of a wheel after being outpoured due to the pressure cold water of motor, when the water body part of injection
After speed is fallen, because cold water density is more than hot water, cold water can be moved downward again, carry out heat with the hot water in water-cooling groove again
Exchange so that the hot water radiator in water-cooling groove is more quick, and water injection hole is uniformly arranged some energy along the length direction of cooling tube
Enough so that even water temperature in water-cooling groove, the porous water that increases accelerates cooling.
Preferably, the buoy is provided with several and is respectively uniformly distributed in water-cooling groove.
Using such scheme, buoy is provided with several and is evenly distributed in water-cooling groove, can be uniformly to water-cooling groove
The water body at interior each position carries out temperature detection so that the water temperature in water-cooling groove is detected comprehensive.
In sum, the utility model has the advantages that:
1. the cooperation of the inlet opening cooling tube that water-cooling groove is opened up on the side wall of bottom land so that be cooled pipe after cold water injection
Concentrate, cause that the water in cooling tube has larger kinetic energy because the pressure of motor of intaking injects, uniformly opened on cooling tube
If water injection hole the cold water of cooling tube can be injected to water-cooling groove, cold water can flow bigger distance in water-cooling groove, increase
The heat exchange scope of big cold water and hot water so that cooling more Quick uniform;
2. water inlet pipe interference fit and inlet opening so that water inlet more seals firm, and outlet pipe is also located in water-cooling groove
Side wall on, water outlet motor can be detached to the water in water-cooling groove, prevent in water-cooling groove water body to overflow while facilitating water
The replacing of body;
3. the setting of buoy enables to the water to water-cooling groove of thermo-sensitive resistor stabilization to detect, some uniform distributions
Thermometric uniformly can be carried out to water-cooling groove so that thermometric it is uniform accurate.
Brief description of the drawings
Fig. 1 is the structural representation one of embodiment one;
Fig. 2 is the structural representation two of embodiment one;
Fig. 3 is the sectional view in A-A portions in Fig. 2;
Fig. 4 is the circuit theory diagrams of embodiment one;
Fig. 5 is the circuit theory diagrams of the temperature-detecting device in embodiment one;
Fig. 6 is the structural representation of embodiment two;
Fig. 7 is the circuit theory diagrams of embodiment two.
In figure:1st, water-cooling groove;11st, inlet opening;2nd, water inlet pipe;21st, water inlet motor;3rd, discharging device;31st, water drive is gone out
Dynamic motor;32nd, outlet pipe;4th, conductive bar;41st, buoy;5th, cooling tube;51st, water injection hole;6th, temperature-detecting device;61st, signal is defeated
Go out device;62nd, thermo-sensitive resistor;7th, control device;71st, instruction device;72nd, time-delay mechanism;73rd, actuation means;74th, control is opened
Close;8th, performs device.
Specific embodiment
The utility model is described in further detail below in conjunction with accompanying drawing.
Embodiment one:
A kind of water cooling plant disclosed in the present embodiment, including water-cooling groove 1 and water inlet pipe 2, are provided with temperature inspection on device
Survey device 6, control device 7 and performs device 8.
As shown in figure 1, conductive bar 4 vertically-mounted in water-cooling groove 1, the integrally molded bottom land in water-cooling groove 1 of conductive bar 4,
The buoy 41 for being provided with and floating on the water surface is arranged in conductive bar 4, the groove depth of the height slightly larger than water-cooling groove 1 of conductive bar 4 is passed
Also fixation is arranged with the locating part for preventing buoy 41 from departing from conductive bar 4 on guide rod 4, and the density of buoy 41 is slightly less than water, places
It is under water near water surface one end point when in water, circuit is connected with conductive bar 4, temperature-detecting device 6 is floating including being located at
Near the thermo-sensitive resistor 62 of the end face of water surface side, the contact water surface of thermo-sensitive resistor 62 carries out water temperature detection to mark 41, and will detect
Temperature carry out being transferred to temperature-detecting device 6 after circuit is converted into electric signal.
Water inlet motor 21 is water injecting pump M1, and water outlet motor 31 is suction pump M2.
Water inlet pipe 2 is connected on the side wall of water-cooling groove 1, and as shown in Figures 2 and 3, water inlet motor 21 is installed on into water
Away from the side of water-cooling groove 1, water-cooling groove 1 offers the inlet opening of the side wall for being communicated in water-cooling groove 1 near the side of bottom land to pipe 2
11, the lateral wall of water inlet pipe 2 is connected to the madial wall of inlet opening 11 and interference is installed in inlet opening 11;In the groove of water-cooling groove 1
Bottom side is integrally provided with cooling tube 5 along the length direction of water-cooling groove 1, and cooling tube 5 is preferably the side wall pasted installed in water-cooling groove 1
And ground between, the end face of cooling tube 5 is in arc-shaped, and inlet opening 11 is communicated in cooling tube 5, and cooling tube 5 is near water-cooling groove 1
Side offers water injection hole 51, and the size of water injection hole 51 is less than the size of inlet opening 11, and preferably circular hole, the edge of water injection hole 51
The length direction of the side wall of cooling tube 5 uniformly offers some, and is opened up towards the side of the end face of water-cooling groove 1.
After inlet opening 11 is taken out and be pressed into water by motor 21 of intaking, cold water is introduced into cooling tube 5, by cooling tube 5
Interior hot water is constantly taken out after being pressed into cold water by the pressure venting of water injection hole 51, cold water is full of in cooling tube 5, in inlet opening 11
Under the hydraulic pressure effect of water inlet, cooling water is discharged from the water injection hole 51 of small-bore so that cold water is injected from bottom land to the water surface, is entered
The water circulation heat exchange of the wheel of row one, after the water body partial velocity of injection is fallen, because cold water density is more than hot water, cold water can be again
It is secondary to move downward, heat exchange is carried out with the hot water in water-cooling groove 1 again, during exchange, the hot water in water-cooling groove 1 is entered
Row heat exchange is lowered the temperature.
Discharging device 3 includes being arranged in water-cooling groove 1 near the outlet pipe 32 of upper surface side side wall and positioned at outlet pipe 32
Water outlet motor 31 away from the side of water-cooling groove 1 to drive outlet pipe 32 to draw water, outlet pipe 32 is located at the upper end of water inlet pipe 2,
Pumping operation is carried out in the inside of water-cooling groove 1, the water speed that draws water out of outlet pipe 32 is slightly larger than water intake velocity, when water inlet
Drawn water, realized the water level balance in water-cooling groove 1, when water level once being less than ordinary water level, the end face of outlet pipe 32 is higher than
Water level cannot be drawn water, and now only carry out being operated into water.
As shown in figure 4, temperature-detecting device 6 is coupled to control device 7, control device 7 is coupled with instruction device 71, control
The control of device 7 performs device 8 is acted.
As shown in figure 5, resistance RT1 is thermo-sensitive resistor 62, temperature-detecting device 6 includes thermo-sensitive resistor 62 and resistance R1, temperature
The one end of quick resistance 62 is coupled to power supply V1, and the other end is coupled to resistance R1, another termination earth terminal GND, comparator A1 of resistance R1
Model LM324, the backward end of comparator A1 is coupled to the node of thermo-sensitive resistor 62 and resistance R1, the end in the same direction of comparator A1
Temperature upper limit is coupled with, thermo-sensitive resistor 62 is positive temperature coefficient and model SY16P, when water temperature is raised, thermo-sensitive resistor 62
Resistance increase, be carried in voltage on resistance R1 and reduce, comparator A1 end of oppisite phase receives low level, the same phase of comparator A1
End is coupled to resistance R3, the R3 other end and is coupled to power supply Vcc, adjustable resistance RP1 be coupled to the in-phase end of comparator A1 with
The node of resistance R3, another termination earth terminal GND of adjustable resistance RP1, controlled output temperature upper limit, when water temperature is higher than certain value
When causing the level of end of oppisite phase less than the temperature upper limit that in-phase end is coupled, comparator is turned on and exports high level to control device
7;Conversely, exporting low level, control device 7 does not start.
As shown in figure 4, control device 7 includes being coupled to the controlling switch 74 of temperature-detecting device 6 and being coupled to control opening
74 are closed to carry out the actuation means 73 that performs device 8 enters water management, also the prolonging including delay cutoff control device 7 of control device 7
When device 72, controlling switch 74 is triode Q1, and triode Q1 is the triode and model 1N4007, triode Q1 of NPN type
Base stage be coupled to the output signal end of temperature-detecting device 6, the colelctor electrode of triode Q1 is coupled to power supply V2, and emitter stage connects
Ground terminal GND, is in series with the coil of the control relay KA1 of actuation means 73, relay KA1 between emitter stage and earth terminal GND
The coil of the time-delay relay KT1 of time-delay mechanism 72 is parallel with, the normally closed switch of time-delay relay KT1 is series at relay KA1
Coil and earth terminal GND between, the normal open switch KA1-1 of relay KA1 is series at the collector and emitter of triode Q1
Between.Control device 7 is also coupled to be used to the instruction device 71 for indicating when water temperature is higher than temperature upper limit, instruction device 71
Indicator lamp L is series between colelctor electrode and the node and power supply V2 of normal open switch KA1-1.
When the output temperature signal of temperature-detecting device 6 is high level, the triode ON of control device 7, time-delay relay
The coil of KT1 and relay KA1 it is electric, control device 7 is turned on, and the indicator lamp L of instruction device 71 is bright, and relay KA1's is normal
Switch KA1-1 closures, after temperature-detecting device 6 detects a high temperature output high level signal, the relay of control device 7
The normal open switch KA1-1 fault controls switch 74 of device KA1 carries out lasting control operation, the normally closed switch of time-delay relay KT1
Closure state, after obtaining electric time delay disconnection, the short circuit of control device 7, the coil losing electricity of time-delay relay KT1 and relay KA1, relay
The normal open switch KA1-1 of device KA1 disconnects, and the indicator lamp of instruction device 71 goes out.
Performs device 8 includes the water inlet motor 21 of the control water inlet of water inlet pipe 2, and it is right that control device 7 has been also coupled to be used to
The discharging device 3 that water in water-cooling groove 1 is detached, water inlet motor 21 is parallel to water outlet motor 31, the one of connection
Individual node meets earth terminal GND, and the normal open switch KA1-2 of relay KA1 is series between node and earth terminal GND;Another section
Point meets power supply V3, and resistance R2 is series between node and power supply V3.
After the coil of the relay KA1 of the actuation means 73 of control device 7 obtains electric, control normal open switch KA1-2 closures,
Performs device 8 is turned on, and water inlet motor 21 and water outlet motor 31 are operated, and keeps the water level in water-cooling groove 1 to maintain an equal level,
Cold water is added simultaneously is lowered the temperature, hot water is detached;After reaching the extension time of time-delay mechanism 72 of control device 7, control
The open circuit of control device 7, normal open switch KA1-2 disconnects, and water inlet motor 21 and water outlet motor 31 are stopped, water-cooling groove
1 carries out normal water-cooled operation.
Operating procedure:
1st, temperature detector detects to the water temperature in water-cooling groove 1, when water temperature is high and higher than temperature upper limit, temperature
Degree detection means 6 transmits signals to control device 7, and control device 7 is controlled the startup of performs device 8, and control device 7 prolongs
When control, performs device 8 drives water inlet motor 21 to enter to advance the operation that cold water and water outlet motor 31 drawn water;
2nd, water inlet motor 21 starts and pumps into water inlet pipe 2 cold water of storage, then enters cooling by inlet opening 11
It is expelled to after pipe 5 in cold rinse bank and enters the heat exchange of water-filling, outlet pipe 32 is drawn water while water inlet, and the hot water of overheat is detached
Water-cooling groove 1;
3rd, after reaching the time of the control Inlet and outlet water of control device 7, performs device 8 stops water inlet, the normal work of water-cooling groove 1
Make;
4th, temperature-detecting device 6 persistently detected, when water temperature is detected higher than temperature upper limit, i.e., is opened again
It is dynamic, repeat to be automatically brought into operation step 1 to 3.
Embodiment two:
As shown in Fig. 6 and 7 figures, the embodiment that compares is theed improvement is that, conductive bar 4 and buoy 41 are provided with some
It is individual in water-cooling groove 1, and length direction along water-cooling groove 1 is uniformly arranged installation.
Temperature-detecting device 6 is also equipped with several and is respectively arranged with thermo-sensitive resistor 62 installed in the lower surface of buoy 41
Water surface floating is fitted in, the signal Sx of the output signal end output of temperature-detecting device 6 is coupled to signal output apparatus 61, believes
Number output device 61 be model 74HV1078's or gate chip controls, the output end of signal output apparatus 61 is coupled to control
The base stage of the triode Q1 of the controlling switch 74 of device processed 7, the colelctor electrode of triode Q1 is coupled to power supply V2, emitter stage ground connection
End GND, is in series with the coil of the control relay KA1 of actuation means 73 between emitter stage and earth terminal GND, relay KA1 is simultaneously
The coil of the time-delay relay KT1 of time-delay mechanism 72 is associated with, the normally closed switch of time-delay relay KT1 is series at relay KA1's
Between coil and earth terminal GND, the normal open switch KA1-1 of relay KA1 be series at triode Q1 collector and emitter it
Between.Control device 7 is also coupled to be used to the instruction device 71 for indicating, the finger of instruction device 71 when water temperature is higher than temperature upper limit
Show that lamp L is series between colelctor electrode and the node and power supply V2 of normal open switch KA1-1.
When any temperature-detecting device 6 detects water temperature higher than temperature upper limit in water-cooling groove 1, signal output apparatus
Water inlet of the 61 equal output signals to realize the control performs device 8 of control device 7 is operated, i.e., any one appearance in water-cooling groove 1
During high temperature, carrying out lowering the temperature into water operates, to cause the water temperature in water-cooling groove 1 up to standard everywhere.
This specific embodiment is only that, to explanation of the present utility model, it is not to limitation of the present utility model, ability
Field technique personnel can make the modification without creative contribution to the present embodiment as needed after this specification is read, but
As long as all being protected by Patent Law in right of the present utility model.
Claims (10)
1. a kind of water cooling plant, including water-cooling groove (1) and water inlet pipe (2), it is characterized in that:Also include for detecting water-cooling groove (1)
The temperature physical quantity of water temperature is simultaneously converted to the temperature-detecting device (6) of water temperature signal, is coupled to by the temperature physical quantity of interior water temperature
Temperature-detecting device (6) is with the control device (7) in response to water temperature signal and output control signal and is coupled to control device (7)
In response to control signal and to perform the performs device (8) of water inlet;
The temperature-detecting device (6) is with a temperature upper limit for corresponding to highest water temperature, temperature-detecting device (6) inspection
When measuring water temperature higher than temperature upper limit, the control device (7) controls performs device (8) to start water inlet pipe (2) water inlet.
2. water cooling plant according to claim 1, it is characterized in that:It is connected with along water-cooling groove in the water-cooling groove (1)
(1) conductive bar (4) that short transverse is set, is arranged the buoy (41) for being provided with and floating on the water surface on the conductive bar (4),
The temperature-detecting device (6) is including positioned at the lower surface of buoy (41) and being dipped in the thermo-sensitive resistor (62) of underwater.
3. water cooling plant according to claim 1, it is characterized in that:The control device (7) is including being coupled to temperature detection
The controlling switch (74) of device (6) and controlling switch (74) is coupled to carry out the actuation means that performs device (8) enters water management
(73), the control device (7) the also time-delay mechanism (72) including delay cutoff control device (7).
4. water cooling plant according to claim 3, it is characterized in that:The control device (7) has been also coupled to
It is used to the instruction device (71) for indicating during temperature upper limit.
5. water cooling plant according to claim 4, it is characterized in that:The performs device (8) is entered including control water inlet pipe (2)
The water inlet motor (21) of water, water inlet motor (21) is installed on side of the water inlet pipe (2) away from water-cooling groove (1).
6. water cooling plant according to claim 1, it is characterized in that:The control device (7) has been also coupled to be used to water-cooled
The discharging device (3) that water in groove (1) is detached, the discharging device (3) is including being arranged in water-cooling groove (1) and being close to water-cooled
The outlet pipe (32) of the upper surface of the side wall of groove (1) and positioned at outlet pipe (32) away from water-cooling groove (1) side driving outlet pipe
(32) the water outlet motor (31) for drawing water.
7. water cooling plant according to claim 1, it is characterized in that:The water-cooling groove (1) offers near the side of bottom land
The inlet opening (11) of the side wall of water-cooling groove (1) is communicated in, the lateral wall of the water inlet pipe (2) abuts inlet opening (11) and interference is pacified
Loaded in inlet opening (11).
8. water cooling plant according to claim 7, it is characterized in that:The bottom land side of the water-cooling groove (1) is along water-cooling groove (1)
Length direction cooling tube (5) is integrally installed, the inlet opening (11) is communicated in cooling tube (5), and the cooling tube (5) is close to
The side of water-cooling groove (1) offers water injection hole (51).
9. water cooling plant according to claim 8, it is characterized in that:The water injection hole (51) offers some in cooling tube
(5) it is uniformly arranged towards the length direction on the side wall of water-cooling groove (1) end face and along cooling tube (5).
10. water cooling plant according to claim 2, it is characterized in that:The buoy (41) is provided with several and difference is equal
It is even to be distributed in water-cooling groove (1).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621278340.1U CN206207826U (en) | 2016-11-26 | 2016-11-26 | A kind of water cooling plant |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621278340.1U CN206207826U (en) | 2016-11-26 | 2016-11-26 | A kind of water cooling plant |
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CN206207826U true CN206207826U (en) | 2017-05-31 |
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CN201621278340.1U Expired - Fee Related CN206207826U (en) | 2016-11-26 | 2016-11-26 | A kind of water cooling plant |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110958815A (en) * | 2019-12-09 | 2020-04-03 | 华南理工大学 | Water bath heat dissipation system suitable for data center and control method |
CN112460900A (en) * | 2020-11-07 | 2021-03-09 | 广东韶钢松山股份有限公司 | Device for rapidly cooling high-temperature electromagnetic disc and using method thereof |
-
2016
- 2016-11-26 CN CN201621278340.1U patent/CN206207826U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110958815A (en) * | 2019-12-09 | 2020-04-03 | 华南理工大学 | Water bath heat dissipation system suitable for data center and control method |
CN110958815B (en) * | 2019-12-09 | 2024-03-22 | 华南理工大学 | Water bath heat dissipation system suitable for data center and control method |
CN112460900A (en) * | 2020-11-07 | 2021-03-09 | 广东韶钢松山股份有限公司 | Device for rapidly cooling high-temperature electromagnetic disc and using method thereof |
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