CN106550589A - circulating cooling system - Google Patents

Abstract

The invention discloses a kind of circulating cooling system.The circulating cooling system includes the first cooler bin, the second cooler bin, connecting tube, transfer tube, radiator, control valve and controller.First cooler bin and the second cooler bin are used to hold coolant, and the first cooler bin, transfer tube, radiator and the second cooler bin are sequentially connected in series connection；Second cooler bin is additionally operable to connect with equipment to be cooled by connecting tube, and the connecting tube between the second cooler bin and equipment to be cooled is provided with control valve, and equipment to be cooled is also communicated in the first cooler bin by connecting tube；Height of the second cooler bin height from the ground compared with the first cooler bin from the ground is high, and when in use, equipment to be cooled height from the ground is located between the second cooler bin and the first cooler bin；Controller is electrically connected to transfer tube and radiator, and radiator radiates for the coolant to flowing through radiator.The circulating cooling system can reduce the operation power of pump, be easy to safeguard.

Description

Circulating cooling system

Technical field

The present invention relates to liquid cooling field, more particularly to a kind of circulating cooling system.

Background technology

With developing rapidly for electronics and mechanics of communication, power device develops towards high-performance, integrated direction rapidly, The power of power device constantly increases, and volume is but gradually reduced, and when most of power devices run, caloric value is big, and moment heats up Hurry up, injurious effects are produced to its performance.The liquid cooling mode that typical high power heater members are adopted is mostly：" fuel tank- Pump-cooling system-filter-high-power heater members-fuel tank " the enclosed type of cooling.Although which has certain excellent Gesture, but there is also following shortcoming：(1) power of pump operation is big.(2) inconvenience is safeguarded, increases the workload safeguarded.

The content of the invention

Based on this, it is necessary to provide a kind of operation power that can reduce pump, be easy to maintenance and the circulation of good cooling results Cooling system.

A kind of circulating cooling system, including the first cooler bin, the second cooler bin, connecting tube, transfer tube, radiator, control Valve and controller；

First cooler bin and second cooler bin are used to hold coolant, first cooler bin, described Transfer tube, the radiator and second cooler bin are sequentially connected in series connection；Second cooler bin is additionally operable to by described Connecting tube is connected with equipment to be cooled, and the connecting tube between second cooler bin and the equipment to be cooled is provided with institute Control valve is stated, the equipment to be cooled is also communicated in first cooler bin by the connecting tube；Second cooler bin from Height first cooler bin on ground height from the ground is high, when in use, the equipment to be cooled height from the ground Between second cooler bin and first cooler bin；The controller is electrically connected to the transfer tube and described Radiator, the radiator radiate for the coolant to flowing through the radiator.

Wherein in one embodiment, also including filter, the filter is connected in series in the radiator and institute State between the second cooler bin.

Wherein in one embodiment, it also is provided with the connecting tube between the filter and second cooler bin The control valve.

Wherein in one embodiment, also including flow control valve, it is described to be cooled that the flow control valve is located at connection And in the connecting tube of first cooler bin.

Wherein in one embodiment, also including Level Detection part, it is cold that the Level Detection part is located at described first But, in case, the Level Detection part is used for the liquid level for detecting the coolant in first cooler bin, the Level Detection portion Part is electrically connected to the controller.

Wherein in one embodiment, the Level Detection part is located at the top in first cooler bin.

Wherein in one embodiment, the radiator has heat dissipation tank and blowing part, and the heat dissipation tank passes through institute Connecting tube serial communication is stated between the transfer tube and second cooler bin, the blowing part is connected to the radiating On case, the blowing part is for heat dissipation tank blowing radiating.

Wherein in one embodiment, the radiator can also adopt water-cooling system.

Wherein in one embodiment, also including part flow arrangement, the part flow arrangement includes shunting support, flow distribution plate, tight Firmware and connector；The connector is located at the shunting support, and the flow distribution plate is connected to the connecting rod, the fastening Part for by the connecting rod with it is described shunting support be fastenedly connected；The shunting support is arranged in the second cooler bin, described Flow distribution plate close to second cooler bin liquid outlet and with the liquid outlet have interval, the size of the flow distribution plate is compared with institute The size for stating liquid outlet is big, and the liquid outlet can be covered on the axial direction of the liquid outlet by the flow distribution plate.

Wherein in one embodiment, also including backflow mechanism, the backflow mechanism includes flow back bucket and siphon, institute State in backflow bucket and also be provided with the part flow arrangement；The backflow bucket is connected with the backflow end of the equipment to be cooled, the shunting Support is arranged in the backflow bucket, and the bottom surface of the backflow bucket has siphon port, and the flow distribution plate is close to the siphon port And there is interval with the siphon port, the size of the flow distribution plate is big compared with the size of the siphon port, and the flow distribution plate is described The siphon port can be covered on the axial direction of siphon port；The siphon be located at it is described backflow bucket outside and one end with The siphon port connection, the other end are connected with first cooler bin.

Above-mentioned circulating cooling system, including the first cooler bin, the second cooler bin, connecting tube, transfer tube, radiator, control Valve processed and controller.First cooler bin and the second cooler bin are used to hold coolant, the first cooler bin, transfer tube, dissipate Hot device and the second cooler bin are sequentially connected in series connection；Second cooler bin is additionally operable to connect with equipment to be cooled by connecting tube, treats Cooling device is also communicated in the first cooler bin by connecting tube, so that the first cooler bin, the second cooler bin and to be cooled setting It is standby to form closed circuit；Height of the second cooler bin height from the ground compared with the first cooler bin from the ground is high, when in use, treats cold But equipment height from the ground is located between the second cooler bin and the first cooler bin, and above-mentioned setting employs siphonic effect, profit Active force is produced with the liquid level difference between the second cooler bin and the first cooler bin so that the coolant in the second cooler bin Into in equipment to be cooled, efficient energy-saving can reduce the operation power of circulating pump, it is to avoid the long-play of circulating pump, When coolant in the second cooler bin enters equipment to be cooled by siphon, circulating pump is in stopped status, be easy to safeguard and Good cooling results.

Description of the drawings

Fig. 1 is an embodiment circulating cooling system schematic diagram；

Second cooler bin and part flow arrangement cooperation schematic diagram of the Fig. 2 for circulating cooling system shown in Fig. 1；

Flow back mechanism and the liquid outlet cooperation schematic diagram of to be cooled equipment of the Fig. 3 for circulating cooling system shown in Fig. 1；

Fig. 4 is the internal shunt devices schematic diagram of backflow mechanism shown in Fig. 3.

Description of reference numerals

10th, circulating cooling system；100th, the first cooler bin；200th, the second cooler bin；210th, liquid outlet；300th, connecting tube； 400th, isocon；500th, transfer tube；600th, filter；700th, radiator；800a, 800b, control valve；900th, flow control valve； 1000th, Level Detection part；1100th, part flow arrangement；1110th, shunt support；1120th, flow distribution plate；1130th, securing member；1140th, even Fitting；1200th, flow back mechanism；1210th, flow back bucket；1211st, siphon port；1220th, siphon；20th, equipment to be cooled.

Specific embodiment

For the ease of understanding the present invention, the present invention is described more fully below with reference to relevant drawings.In accompanying drawing Give presently preferred embodiments of the present invention.But, the present invention can be realized in many different forms, however it is not limited to this paper institutes The embodiment of description.On the contrary, the purpose for providing these embodiments is to make the understanding to the disclosure more thorough Comprehensively.

It should be noted that when element is referred to as " being fixed on " another element, it can directly on another element Or can also there is element placed in the middle.When an element is considered as " connection " another element, it can be directly connected to To another element or may be simultaneously present centering elements.

Unless otherwise defined, all of technology used herein and scientific terminology and the technical field for belonging to the present invention The implication that technical staff is generally understood that is identical.The term for being used in the description of the invention herein is intended merely to description tool The purpose of the embodiment of body, it is not intended that of the invention in limiting.Term as used herein "and/or" includes one or more phases The arbitrary and all of combination of the Listed Items of pass.

Shown in Figure 1, the present embodiment relate to a kind of circulating cooling system 10.It is cold including the first cooler bin 100, second But case 200, connecting tube 300, isocon 400, transfer tube 500, filter 600, radiator 700, control valve (800a, 800b), Controller, flow control valve 900, Level Detection part 1000, part flow arrangement 1100, backflow mechanism 1200.

Shown in Figure 1, the first cooler bin 100 and the second cooler bin 200 are used to hold coolant, the first cooler bin 100th, transfer tube 500, radiator 700, filter 600 and the second cooler bin 200 are sequentially connected in series connection, wherein, filter 600 Can also connect and be located between radiator 700 and the first cooler bin 100.

Second cooler bin 200 is additionally operable to connect with equipment to be cooled 20 by connecting tube 300, the second cooler bin 200 with treat Connecting tube 300 between cooling device 20 is provided with control valve 800b, the connection between filter 600 and the second cooler bin 200 Pipe 300 is provided with control valve 800a.

Shown in Figure 1, equipment to be cooled 20 is also communicated in the first cooler bin 100 by connecting tube 300；Second cooler bin Height of 200 height from the ground compared with the first cooler bin 100 from the ground is high, when in use, the height from the ground of equipment to be cooled 20 Degree is positioned between the second cooler bin 200 and the first cooler bin 100；Controller is electrically connected to transfer tube 500 and radiator 700, radiator 700 radiates for the coolant to flowing through radiator 700.

Shown in Figure 1, flow control valve 900 is located at the connecting tube 300 for connecting to be cooled and the first cooler bin 100 On.

Shown in Figure 1, Level Detection part 1000 is located in the first cooler bin 100, and Level Detection part 1000 is used for The liquid level of the coolant in the first cooler bin 100 is detected, Level Detection part 1000 is electrically connected to controller.Level Detection part 1000 are located at the top in the first cooler bin 100.

Shown in Figure 1, radiator 700 has heat dissipation tank and blowing part, and heat dissipation tank is connected by the series connection of connecting tube 300 Lead between transfer tube 500 and the second cooler bin 200, part of drying is for drying to heat dissipation tank.Blowing part is connected to scattered In hot tank.In the present embodiment, above-mentioned blowing part can adopt fan form or aerator etc..In addition, radiator is also Can be cooled down using water-cooling system.It is shown in Figure 2, part flow arrangement 1100 include shunt support 1100, flow distribution plate 1120, Securing member 1130 and connector 1140.Connector 1140 is located at shunting support 1100, and flow distribution plate 1120 is connected to connecting rod, tightly Firmware 1130 for by connecting rod with shunting support 1100 be fastenedly connected.Shunting support 1100 is arranged in the second cooler bin 200, Flow distribution plate 1120 close to the second cooler bin 200 liquid outlet 210 and with liquid outlet 210 have interval, the chi of flow distribution plate 1120 The very little size compared with liquid outlet 210 is big, and liquid outlet 210 can be covered on the axial direction of liquid outlet 210 by flow distribution plate 1120.Go out Liquid mouth 210 is located at the bottom surface of casing (being the second cooler bin 200 in the present embodiment), shunts support 1100 and is located at liquid outlet 210 Top, flow distribution plate 1120 also are located at the top of liquid outlet 210.

Shown in Figure 2, the quantity of liquid outlet 210 can be multiple.When the quantity of liquid outlet 210 is multiple, connection The quantity of bar, flow distribution plate 1120 and securing member 1130 is multiple, multiple connecting rods, multiple flow distribution plates 1120 and multiple tight Firmware 1130 is corresponded, and multiple flow distribution plates 1120 are corresponded with multiple liquid outlets 210.The quantity of isocon 400 for multiple, Multiple isocons 400 are respectively positioned on the outside of casing and multiple isocons 400 are corresponded with multiple liquid outlets 210, isocon 400 One end connect with corresponding liquid outlet 210, the other end of multiple isocons 400 point liquid feeding end respectively with equipment to be cooled 20 Connection.Flow control valve 900 is equipped with multiple isocons 400.Due to being provided with isocon 400, therefore the second cooler bin 200 Directly can be substituted by isocon 400 with the connecting tube 300 between equipment to be cooled 20, the quantity of isocon 400 can be with root Factually depending on the quantity of border equipment to be cooled 20.

Above-mentioned part flow arrangement 1100, including shunting support 1100, flow distribution plate 1120, securing member 1130 and connector 1140.Connector 1140 is located at shunting support 1100, and flow distribution plate 1120 is connected to connecting rod, and securing member 1130 is for by connecting rod It is fastenedly connected with shunting support 1100；Shunting support 1100 is used in the casing with liquid outlet 210, when shunting support 1100 be arranged on casing in when, flow distribution plate 1120 close to casing liquid outlet 210 and with liquid outlet 210 have interval, shunting The size of plate 1120 is big compared with the size of liquid outlet 210, and flow distribution plate 1120 can be by liquid outlet on the axial direction of liquid outlet 210 210 cover.When above-mentioned part flow arrangement 1100 runs, shunting form has done the improvement in structure, and coolant is flowed in casing, treated The liquid level of coolant exceedes flow distribution plate 1120, and the liquid that at this moment flow distribution plate 1120 can prevent flow velocity too fast forms vortex and brings into Air, when the liquid for not being mixed with air is completely filled with cooling line, flow will not be disturbed by air, the tune of flow Section need to only control the actual internal area of the liquid that liquid outlet 210 is flowed out, namely the sectional area of isocon 400, and hold very much The regulation of flow is easily realized, uniform divided flows are realized.

Referring to shown in Fig. 3 and Fig. 4, backflow mechanism 1200 includes flow back bucket 1210 and siphon 1220, and flow back mechanism 1200 also include a part flow arrangement 1100.Part flow arrangement 1100 is located in backflow bucket 1210.Backflow bucket 1210 is set with to be cooled Standby 20 backflow end connects, and shunting support 1100 is arranged in backflow bucket 1210, and the bottom surface of the bucket 1210 that flows back has siphon port 1211.Flow distribution plate 1120 in backflow bucket 1210 has interval close to siphon port 1211 and with siphon port 1211, and should The size of flow distribution plate 1120 is big compared with the size of siphon port 1211, and the flow distribution plate 1120 can on the axial direction of siphon port 1211 Siphon port 1211 is covered；Siphon 1220 is located at the outside and one end of backflow bucket 1210 and is connected with siphon port 1211, the other end Connect with the first cooler bin 100, due to being provided with siphon 1220, therefore equipment to be cooled 20 and the first cooler bin 100 it Between connecting tube 300 can directly be replaced by the siphon 1220.

Above-mentioned circulating cooling system 10, when in use, comprises the steps：

It is first shut off controlling valve 800b, opens control valve 800a, circulating pump 500 opens, circulating pump 500 is by the first cooler bin Coolant pump in 100 after the coolant in the second cooler bin 200 reaches predetermined height, is beaten to the second cooler bin 200 Open control valve 800b, closing control valve 800a, height of the coolant in the second cooler bin 200 between equipment to be cooled 20 Under difference effect, enter in isocon 400 and enter in equipment to be cooled 20 by siphonage.Treat cooling device 20 to enter Coolant after row cooling heat transferring is returned in backflow bucket 1210 by the liquid outlet of equipment to be cooled 20 again, in backflow bucket 1210 Coolant further enters into siphon by siphon again by the effect of the part flow arrangement 1100 in backflow bucket 1210 In 1220, the coolant in siphon 1220 turns again to the first cooler bin 100, the Level Detection in the first cooler bin 100 Part 1000 detects liquid level, then provide signal to valve 800a, 800b is controlled, so that closing control valve 800b, opens control Valve 800a, open the circulation pump 500, again pump coolant circulated with this to the second cooler bin 200.

Above-mentioned circulating cooling system 10, including the first cooler bin 100, the second cooler bin 200, connecting tube 300, transfer tube 500th, radiator 700, control valve 800 and controller.First cooler bin 100 and the second cooler bin 200 are used to hold cold But liquid, the first cooler bin 100, transfer tube 500, radiator 700 and the second cooler bin 200 are sequentially connected in series connection；Second cooling Case 200 is additionally operable to connect with equipment to be cooled 20 by connecting tube 300, and equipment to be cooled 20 is also communicated in by connecting tube 300 First cooler bin 100, so that the first cooler bin 100, the second cooler bin 200 and equipment to be cooled 20 form closed circuit； Height of second cooler bin 200 height from the ground compared with the first cooler bin 100 from the ground is high, when in use, equipment to be cooled 20 Height from the ground is located between the second cooler bin 200 and the first cooler bin 100, and above-mentioned setting employs siphonic effect, profit Active force is produced with the liquid level difference between the second cooler bin 200 and the first cooler bin 100 so that the second cooler bin 200 Interior coolant is entered in equipment to be cooled 20, and efficient energy-saving can reduce the operation power of circulating pump, it is to avoid circulating pump Long-play, when the coolant in the second cooler bin 200 enters equipment 20 to be cooled by siphon, circulating pump is in shutting down State, is easy to safeguard and good cooling results.

Each technical characteristic of embodiment described above arbitrarily can be combined, to make description succinct, not to above-mentioned reality Apply all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, the scope of this specification record is all considered to be.

Embodiment described above only expresses the several embodiments of the present invention, and its description is more concrete and detailed, but and Therefore the restriction to the scope of the claims of the present invention can not be interpreted as.It should be pointed out that for one of ordinary skill in the art For, without departing from the inventive concept of the premise, some deformations and improvement can also be made, these belong to the guarantor of the present invention Shield scope.Therefore, the protection domain of patent of the present invention should be defined by claims.

Claims (10)

1. a kind of circulating cooling system, it is characterised in that including the first cooler bin, the second cooler bin, connecting tube, transfer tube, dissipate Hot device, control valve and controller；

First cooler bin and second cooler bin are used to hold coolant, first cooler bin, the driving Pump, the radiator and second cooler bin are sequentially connected in series connection；Second cooler bin is additionally operable to by the connection Pipe is connected with equipment to be cooled, and the connecting tube between second cooler bin and the equipment to be cooled is provided with the control Valve processed, the equipment to be cooled are also communicated in first cooler bin by the connecting tube；Second cooler bin is from the ground Height first cooler bin height from the ground it is high, when in use, the equipment to be cooled height from the ground is located at Between second cooler bin and first cooler bin；The controller is electrically connected to the transfer tube and the radiating Device, the radiator radiate for the coolant to flowing through the radiator.

2. circulating cooling system according to claim 1, it is characterised in that also including filter, the filter series connection It is connected between the radiator and second cooler bin.

3. circulating cooling system according to claim 2, it is characterised in that the filter and second cooler bin it Between the connecting tube on also be provided with the control valve.

4. circulating cooling system according to claim 1, it is characterised in that also including flow control valve, the flow are adjusted Section valve is located in the connecting tube for connecting the equipment to be cooled and first cooler bin.

5. the circulating cooling system according to claim 1-4 any one, it is characterised in that also including Level Detection portion Part, the Level Detection part are located in first cooler bin, and the Level Detection part is used to detect first cooling The liquid level of the coolant in case, the Level Detection part are electrically connected to the controller.

6. circulating cooling system according to claim 5, it is characterised in that the Level Detection part is located at described first Top in cooler bin.

7. the circulating cooling system according to claim 1-4 any one, it is characterised in that the radiator has radiating Case and blowing part, the heat dissipation tank is by the connecting tube serial communication in the transfer tube and second cooler bin Between, the blowing part is connected on the heat dissipation tank, and the blowing part is for heat dissipation tank blowing radiating.

8. the circulating cooling system according to claim 1-4 any one, it is characterised in that the radiator can also be adopted Use water-cooling system.

9. the circulating cooling system according to claim 1-3 any one, it is characterised in that also including part flow arrangement, institute Stating part flow arrangement includes shunting support, flow distribution plate, securing member and connector；The connector is located at the shunting support, institute State flow distribution plate and be connected to the connecting rod, the securing member is for the connecting rod is fastenedly connected with the shunting support；Institute State shunting support be arranged on the second cooler bin in, the flow distribution plate close to second cooler bin liquid outlet and with it is described go out Liquid mouth has interval, and the size of the flow distribution plate is big compared with the size of the liquid outlet, axle of the flow distribution plate in the liquid outlet The liquid outlet can be covered on direction.

10. circulating cooling system according to claim 9, it is characterised in that also including backflow mechanism, the backflow mechanism Including backflow bucket and siphon, in the backflow bucket, the part flow arrangement also is provided with；The backflow bucket to be cooled is set with described Standby backflow end connection, the shunting support are arranged in the backflow bucket, and the bottom surface of the backflow bucket has siphon port, described Flow distribution plate has interval, the chi of the size siphon port of the flow distribution plate close to the siphon port and with the siphon port Very little big, the siphon port can be covered on the axial direction of the siphon port by the flow distribution plate；The siphon is located at institute The outside and one end for stating backflow bucket is connected with the siphon port, and the other end is connected with first cooler bin.