CN206962646U

CN206962646U - Magnet coil cooling system

Info

Publication number: CN206962646U
Application number: CN201720790758.9U
Authority: CN
Inventors: 王伟; 王毅; 史忠山; 吕松浩; 董韶峰
Original assignee: Guangdong Heyi New Material Institute Co Ltd
Current assignee: Guangdong Heyi New Material Institute Co Ltd
Priority date: 2017-06-30
Filing date: 2017-06-30
Publication date: 2018-02-02
Anticipated expiration: 2027-06-30

Abstract

The utility model discloses a kind of magnet coil cooling system, including for holding reservoir, the magnet coil cooling line flowed through for confession built-in insulation coolant and the liquid driving device for driving built-in insulation coolant to be flowed along magnet coil cooling line of external insulating and cooling liquid；The magnet coil cooling line includes in reservoir and magnet coil, the first radiator and the second radiator for being immersed in the external insulating and cooling liquid；The magnet coil is provided with cooling duct；First radiator is provided with first flow, and the second radiator is provided with second flow channel；Wherein one end of the cooling duct connects with first flow, and the other end connects with second flow channel.The utility model can carry out dual-cooled to magnet coil, can greatly improve cooling effect, and improve cooling effectiveness.

Description

Magnet coil cooling system

Technical field

It the utility model is related to magnet coil cooling field, more particularly to a kind of magnet coil cooling system.

Background technology

At present, magnet coil can produce magnetic field when being powered, and while magnetic field is produced, heat can be also produced, especially When being the high-intensity magnetic field repetition magnet that magnet coil is applied in the proton medical range of Laser Driven, single, which is powered, to be loaded, and can be produced Raw more than 10T high-intensity magnetic fields, but due to the presence of electromagnet winding resistance, and producing high-intensity magnetic field just needs its powerful electric current and close The coiling of collection, therefore magnet coil can also produce a large amount of Joule heats while high-intensity magnetic field is produced, if these heats are not in time Discharge, it will raise coil temperature, increase the resistance of coil, when loading next time, more heats can be produced, reduce magnetic Field intensity, so these heats must discharge.And it is current, mainly magnet coil is immersed in insulating and cooling liquid and carried out cold But, but cooling effect is poor, so as to far from meeting industrial requirement.

Utility model content

For overcome the deficiencies in the prior art, the purpose of this utility model is to provide a kind of magnet coil cooling system, It is designed by using the combination of reservoir, liquid driving device, magnet coil cooling line, and by the way that magnet coil is set In in reservoir, when in use so that magnet coil can be immersed in the external insulating and cooling liquid in reservoir, and using external Insulating and cooling liquid can drive built-in insulation coolant along electricity to being cooled down outside magnet coil by liquid driving device Magnetic coil cooling line flows, and can make built-in insulation coolant flow through the cooling duct of magnet coil magnet coil is carried out it is cold But, so as to which the dual-cooled of magnet coil can be realized, cooling effect can be greatly improved.

The purpose of this utility model adopts the following technical scheme that realization：

Magnet coil cooling system, including for hold external insulating and cooling liquid reservoir, for for built-in insulation it is cold But liquid stream warp magnet coil cooling line and for drive built-in insulation coolant along magnet coil cooling line flow Liquid driving device；The magnet coil cooling line is included in reservoir and for being immersed in the external insulating cold But the magnet coil in liquid, the first radiator and the second radiator；The magnet coil is provided with for being cooled down for built-in insulation The cooling duct of liquid stream warp；First radiator is provided with first flow, and the second radiator is provided with second flow channel；It is described cold But wherein one end of passage connects with first flow, and the other end connects with second flow channel.

Further, the liquid driving device includes first hydraulic cylinder, second hydraulic cylinder；The cooling duct and first One end of flow passage is formed as first end, and the other end is formed as the second end；The first end and first flow of the cooling duct The connection of wherein one end, the other end of first flow is used to connect with the liquid entrance of first hydraulic cylinder, the of cooling duct Two ends connect with wherein one end of second flow channel, and the other end of second flow channel is used to connect with the liquid entrance of second hydraulic cylinder It is logical.

Further, the first hydraulic cylinder includes the first cylinder body, first piston provided with first chamber；First cylinder The top of body is provided with the first opening connected with first chamber, and the first piston includes the first piston in first chamber Main part, the shape of cross section of the first piston main part and the shape of cross section of first chamber match, and first piston The lateral wall of main part and the madial wall of first chamber slide and liquid-tight envelope coordinates；The bottom of first cylinder body is provided with and the first chamber The first through hole of room connection, the first through hole are formed as the liquid entrance of first hydraulic cylinder；The second hydraulic cylinder includes The second cylinder body provided with second chamber, second piston；The top of second cylinder body is provided with second connected with second chamber and opened Mouthful, the second piston includes the second piston main part in second chamber, the cross section of the second piston main part The shape of cross section of shape and second chamber matches, and the lateral wall of second piston main part and the madial wall of second chamber are slided Dynamic and liquid-tight envelope coordinates；The bottom of second cylinder body is provided with the second through hole connected with second chamber, and second through hole is formed For the liquid entrance of second hydraulic cylinder；The first piston main body section is in the lower section of the first opening, and first piston main body The upper surface in portion is provided with the first drive rod, and the second piston main body section is in the lower section of the second opening, and second piston master The upper surface in body portion is provided with the second drive rod.

Further, the other end of the first flow passes through the first connecting pipe and the liquid entrance of first hydraulic cylinder Connection；The other end of the second flow channel is connected by the second connecting pipe with the liquid entrance of second hydraulic cylinder.

Further, first radiator is connected by the first isolated pipe connector with magnet coil, and described first Isolated pipe connector is provided with the first connection chamber, and the cooling duct is connected by the first connection chamber with first flow, described Second radiator is connected by the second isolated pipe connector with magnet coil, and the second isolated pipe connector is provided with second Chamber is connected, and cooling duct is connected by the second connection chamber with second flow channel.

Further, the magnet coil includes wire, and the cooling duct is arranged on wire, and prolonging along wire Stretch direction extension.

Further, the magnet coil includes wire, the insulation sleeve being set in outside wire；The madial wall of the insulation sleeve The cooling duct is surrounded with the lateral wall of wire.

Further, first radiator, the second radiator are respectively positioned in reservoir, and are used to be immersed in outside described Put in insulating and cooling liquid.

Further, first radiator, the second radiator are respectively positioned on outside reservoir, and the magnet coil cooling system is also Including for the cooling device to the first radiator and the cooling of the second radiator.

Further, external insulating and cooling liquid, built-in insulation coolant are liquid nitrogen, liquid hydrogen, liquid helium, liquid carbon dioxide Or freon.

Compared with prior art, the beneficial effects of the utility model are：

The utility model designs by using the combination of reservoir, liquid driving device, magnet coil cooling line, and leads to Cross and magnet coil is arranged in reservoir, when in use so that magnet coil can be immersed in the external insulation cooling in reservoir In liquid, and using external insulating and cooling liquid to being cooled down outside magnet coil, and in being driven by liquid driving device Put insulating and cooling liquid to flow along magnet coil cooling line, and built-in insulation coolant can be made to flow through the cooling of magnet coil and led to Road cools down to magnet coil, so as to realize the dual-cooled of magnet coil, can greatly improve cooling effect, and improve cold But efficiency.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model；

Fig. 2 is the structural representation of magnet coil of the present utility model；

Fig. 3 is enlarged drawing at Fig. 2 A；

Fig. 4 is the structural representation of another embodiment of magnet coil；

Fig. 5 is enlarged drawing at Fig. 4 B.

In figure：10th, reservoir；20th, magnet coil；21st, cooling duct；30th, the first radiator；40th, the second radiator； 50th, liquid driving device；51st, first hydraulic cylinder；511st, the first cylinder body；512nd, first piston；52nd, second hydraulic cylinder；521st, Two cylinder bodies；522nd, second piston；61st, the first isolated pipe connector；62nd, the second isolated pipe connector.

Embodiment

Below, with reference to accompanying drawing and embodiment, the utility model is described further, it is necessary to explanation is, On the premise of not colliding, it can be formed in any combination between various embodiments described below or between each technical characteristic new Embodiment.

A kind of magnet coil cooling system as shown in Figure 1, including for hold external insulating and cooling liquid reservoir 10, For the magnet coil cooling line flowed through for built-in insulation coolant and for driving built-in insulation coolant along electromagnetism The liquid driving device 50 of coil cooling line flowing；Magnet coil cooling line is included in reservoir 10 and for submerging Magnet coil 20, the first radiator 30 and the second radiator 40 in external insulating and cooling liquid；The magnet coil 20 is set There is the cooling duct 21 for being flowed through for built-in insulation coolant；First radiator 30 is provided with first flow, the second radiator 40 are provided with second flow channel；Wherein one end of cooling duct 21 connects with first flow, and the other end connects with second flow channel.

The utility model designs by using the combination of reservoir 10, liquid driving device 50, magnet coil cooling line, And because magnet coil 20 is located in reservoir 10, when in use so that magnet coil 20 can be immersed in external in reservoir 10 In insulating and cooling liquid, and using external insulating and cooling liquid to being cooled down outside magnet coil 20；Moreover, it can also be driven by liquid The work of dynamic device 50, driving built-in insulation coolant flows along magnet coil cooling line, and can cool down built-in insulation Cooling duct 21 of the liquid stream through magnet coil 20 can cool down to magnet coil 20, dual so as to be carried out to magnet coil 20 Cooling, can greatly improve cooling effect, and improve cooling effectiveness；Meanwhile in the flow process of built-in insulating and cooling liquid, may be used also The heat of built-in insulation coolant is distributed using the first radiator 30, the second radiator 40.

Further, liquid driving device 50 includes first hydraulic cylinder 51, second hydraulic cylinder 52；The cooling duct 21 with One end of first flow connection is formed as first end, and the other end is formed as the second end；The first end of the cooling duct 21 and the Wherein one end connection of one runner, the other end of first flow are used to connect with the liquid entrance of first hydraulic cylinder 51, cooled down Second end of passage 21 connects with wherein one end of second flow channel, and the other end of second flow channel is used for the liquid with second hydraulic cylinder 52 Body inlet and outlet connection.At work, the piston of first hydraulic cylinder 51 moves downward, the piston upwards of second hydraulic cylinder 52, To promote built-in insulation coolant to be moved toward second flow channel direction, and then the piston upwards by first hydraulic cylinder 51, The piston cylinder of second hydraulic cylinder 52 is moved downward, and built-in insulation coolant can be promoted to be moved toward first flow direction, so as to this The continuous circulation work of mode, driving built-in insulation coolant come and go flowing, magnet coil 20 are cooled down.

Further, first hydraulic cylinder 51 includes the first cylinder body 511, first piston 512 provided with first chamber；First cylinder The top of body 511 is provided with the first opening connected with first chamber, and first piston 512 includes the first work in first chamber Main part is filled in, the shape of cross section of first piston main part and the shape of cross section of first chamber match, and first piston master The lateral wall in body portion and the madial wall of first chamber slide and liquid-tight envelope coordinates；The bottom of first cylinder body 511 is provided with and first The first through hole of chamber, first through hole are formed as the liquid entrance of first hydraulic cylinder 51；Second hydraulic cylinder 52 includes setting There are the second cylinder body 521, the second piston 522 of second chamber；The top of second cylinder body 521 offers connected with second chamber Two openings, second piston 522 include the second piston main part in second chamber, the cross section shape of second piston main part Shape and the shape of cross section of second chamber match, and the lateral wall of second piston main part and the madial wall of second chamber slide And liquid-tight envelope coordinates；The bottom of second cylinder body 521 is provided with the second through hole connected with second chamber, and the second through hole is formed as The liquid entrance of two hydraulic cylinders 52；First piston main body section is in the lower section of the first opening, and first piston main part is upper Surface is additionally provided with the first drive rod, and second piston main body section is in the lower section of the second opening, and second piston main part is upper Surface is provided with the second drive rod.And by the way that first hydraulic cylinder 51, second hydraulic cylinder 52 are used into said structure, it can reduce into This.Wherein, can be by manually driving the first drive rod, the second drive rod to move, to drive first to live in actual use Plug 512, second piston 522 are moved.Certainly, drive device (such as linear electric motors, electric rotating machine and the crank of outside can also be used The cooperation of the cooperation of linkage, electric rotating machine and sliding-block linkage, or other) drive the first drive rod, second to drive respectively Lever is moved, to drive first piston 512, second piston 522 to move.

Further, the other end of the first flow is passed in and out by the first connecting pipe and the liquid of first hydraulic cylinder 51 Mouth connection；The other end of the second flow channel is connected by the second connecting pipe with the liquid entrance of second hydraulic cylinder 52.And By using said structure, can be convenient to make.

Further, the first radiator 30 is connected by the first isolated pipe connector 61 with magnet coil 20, and described One isolated pipe connector 61 is provided with the first connection chamber, and the cooling duct 21 is connected by the first connection chamber with first flow Logical, the second radiator 40 is connected by the second isolated pipe connector 62 with magnet coil 20, the second isolated pipe connection Device 62 is provided with the second connection chamber, and cooling duct 21 is connected by the second connection chamber with second flow channel.

According to common knowledge, magnet coil 20 has generally comprised wire, and wire passes through the conductive material systems such as copper, aluminium or silver Into, when magnet coil 20 works, mainly it is powered by wire to produce magnetic field, thus, heat is concentrated mainly on wire.And Improvement of the present utility model is cooling duct 21 being arranged on wire, and extends along the bearing of trend of wire, thus, Built-in insulation coolant can be made directly directly to contact cooling with wire, can further improve cooling effect.Specifically, cooling duct 21 may be provided on the centre of wire.

Certainly, except cooling duct 21 can be arranged on wire, also cooling duct 21 can be arranged on other positions, example Such as, also magnet coil 20 can be used into wire, the insulation sleeve being set in outside wire such as Fig. 2,3；The madial wall and wire of insulation sleeve Lateral wall surround cooling duct 21, equally built-in insulation coolant can be made directly to contact cooling with wire, further to improve Cooling effect.And in addition, also cooling duct 21 can be used into tie point and the second branch road such as Fig. 4,5, tie point is set Put on wire, and the second branch road has insulation sleeve to be surrounded with wire, can improve cooling effect to greatest extent.

Further, the first radiator 30, the second radiator 40 are respectively positioned in reservoir 10, and are used to be immersed in described In external insulating and cooling liquid, to cause the first radiator 30, the second radiator 40 to distribute heat in external insulating and cooling liquid, Moreover, when built-in insulation coolant flows through magnet coil cooling line, can be carried out with the external insulating and cooling liquid in reservoir 10 Heat exchange.And by using said structure, built-in insulation coolant and the path of external insulating and cooling liquid heat exchange can be increased.

Certainly, in addition, the first radiator 30, the second radiator 40 can also be may be contained within outside reservoir 10, the electricity Magnetic coil cooling system also includes being used for the cooling device to the first radiator 30, the cooling of the second radiator 40.Wherein, cooling dress Put and may be configured as air cooling equipment or water cooling plant, to carry out air-cooled or water to the first radiator 30, the second radiator 40 It is cold.

Further, external insulating and cooling liquid, built-in insulation coolant can use liquid nitrogen, liquid hydrogen, liquid helium, liquid titanium dioxide The existing insulating and cooling liquid such as carbon or freon.

Above-mentioned embodiment is only preferred embodiment of the present utility model, it is impossible to is protected with this to limit the utility model Scope, the change of any unsubstantiality that those skilled in the art is done on the basis of the utility model and replacing belongs to In the utility model scope claimed.

Claims

1. magnet coil cooling system, it is characterised in that：Including the reservoir for holding external insulating and cooling liquid, in confession Put magnet coil cooling line that insulating and cooling liquid flows through and for driving built-in insulation coolant to be cooled down along magnet coil The liquid driving device of tube runs；The magnet coil cooling line includes in reservoir and described outer for being immersed in Put magnet coil, the first radiator and the second radiator in insulating and cooling liquid；The magnet coil is provided with for built in confession The cooling duct that insulating and cooling liquid flows through；First radiator is provided with first flow, and the second radiator is provided with second Road；Wherein one end of the cooling duct connects with first flow, and the other end connects with second flow channel.

2. magnet coil cooling system as claimed in claim 1, it is characterised in that：The liquid driving device includes the first liquid Cylinder pressure, second hydraulic cylinder；One end that the cooling duct connects with first flow is formed as first end, and the other end is formed as second End；The first end of the cooling duct connects with wherein one end of first flow, and the other end of first flow is used for and the first liquid The liquid entrance connection of cylinder pressure, the second end of cooling duct connects with wherein one end of second flow channel, second flow channel it is another Hold and connected for the liquid entrance with second hydraulic cylinder.

3. magnet coil cooling system as claimed in claim 2, it is characterised in that：The first hydraulic cylinder includes being provided with first The first cylinder body, the first piston of chamber；The top of first cylinder body is provided with first connect with first chamber and is open, and described the One piston includes the first piston main part in first chamber, the shape of cross section and first of the first piston main part The shape of cross section of chamber matches, and the lateral wall of first piston main part and the slip of the madial wall of first chamber and liquid-tight envelope Coordinate；The bottom of first cylinder body is provided with the first through hole connected with first chamber, and the first through hole is formed as the first hydraulic pressure The liquid entrance of cylinder；The second hydraulic cylinder includes the second cylinder body provided with second chamber, second piston；Second cylinder body Top be provided with connect with second chamber second opening, the second piston include be located at second chamber in second piston master Body portion, the shape of cross section of the second piston main part and the shape of cross section of second chamber match, and second piston master The lateral wall in body portion and the madial wall of second chamber slide and liquid-tight envelope coordinates；The bottom of second cylinder body is provided with and second chamber Second through hole of connection, second through hole are formed as the liquid entrance of second hydraulic cylinder；The first piston main body section In the lower section of the first opening, and the upper surface of first piston main part is provided with the first drive rod, the second piston main part Positioned at the lower section of the second opening, and the upper surface of second piston main part is provided with the second drive rod.

4. magnet coil cooling system as claimed in claim 2, it is characterised in that：The other end of the first flow passes through A connecting pipe road connects with the liquid entrance of first hydraulic cylinder；The other end of the second flow channel by the second connecting pipe with The liquid entrance connection of second hydraulic cylinder.

5. magnet coil cooling system as claimed in claim 1, it is characterised in that：First radiator passes through the first insulation Pipe jointer is connected with magnet coil, and the first isolated pipe connector is provided with the first connection chamber, and the cooling duct Connected by the first connection chamber with first flow, second radiator is connected by the second isolated pipe connector and magnet coil Connect, the second isolated pipe connector is provided with the second connection chamber, and cooling duct is connected by the second connection chamber with second flow channel It is logical.

6. magnet coil cooling system as claimed in claim 1, it is characterised in that：The magnet coil includes wire, described Cooling duct is arranged on wire, and is extended along the bearing of trend of wire.

7. magnet coil cooling system as claimed in claim 1, it is characterised in that：The magnet coil includes wire, is arranged Insulation sleeve outside wire；The madial wall of the insulation sleeve and the lateral wall of wire surround the cooling duct.

8. magnet coil cooling system as claimed in claim 1, it is characterised in that：First radiator, the second radiator It is respectively positioned in reservoir, and is used to be immersed in the external insulating and cooling liquid.

9. magnet coil cooling system as claimed in claim 1, it is characterised in that：First radiator, the second radiator It is respectively positioned on outside reservoir, the magnet coil cooling system also includes being used for the cooling for cooling down the first radiator and the second radiator Device.

10. magnet coil cooling system as claimed in claim 1, it is characterised in that：External insulating and cooling liquid, built-in insulation are cold But liquid is liquid nitrogen, liquid hydrogen, liquid helium, liquid carbon dioxide or freon.