CN115693461A - Deep fusion ring net cage - Google Patents

Abstract

The invention relates to the technical field of electrical equipment, in particular to a deep fusion ring net cage. It includes the box, bionical wing pulse runner and suction subassembly, bionical wing pulse runner all is located the box with the suction subassembly, bionical wing pulse runner includes the intake pipe, suction tube and a plurality of branch pipe, intake pipe fixed connection is on the inner wall of box, the intake pipe runs through the box, the same one end of a plurality of branch pipe all is connected with the intake pipe, the one end that the intake pipe was kept away from to the branch pipe is connected with the suction tube, suction unit mount is on the inner wall of box, the suction tube is connected with the suction subassembly, a plurality of branch pipe extends along the internal perisporium of box, be equipped with the gas pocket on the branch pipe, be equipped with from the closure member on the branch pipe, be equipped with the louvre on the box, the inlet end of intake pipe is equipped with the shutoff piece. This application can follow the gas that the box inhaled temperature is low outside through setting up bionical wing arteries and veins runner and suction subassembly to spout into in the box, help improving the cooling effect.

Description

Deep fusion ring net cage

Technical Field

The invention relates to the technical field of electrical equipment, in particular to a deep fusion ring net cage.

Background

The ring net cage, also called ring main unit, is an important component of transmission and distribution network, and is generally installed outdoors, and the inside is provided with cables, control switches, detecting instruments and the like. Because the cable or the equipment in the ring net cage can release heat during working, the ring net cage is generally provided with heat dissipation holes for dissipating heat in the ring net cage.

In the related technology, an outdoor high-voltage ring main unit is disclosed, which comprises a cabinet body, a switch, a cable and a detection instrument, wherein the switch, the cable and the detection instrument are arranged in the cabinet body; the left side wall and the right side wall of the cabinet body are respectively provided with a heat dissipation hole, the top in the cabinet body is provided with an exhaust fan, and the bottom of the cabinet body is provided with a wire inlet hole.

However, when the cable and the instrument in the ring main unit work for a long time, the temperature of the ring main unit rises, and the air blown by the exhaust fan becomes hot air, so that the heat dissipation effect is poor.

Disclosure of Invention

In order to improve the radiating effect of ring box, this application provides a degree of depth fusion ring box.

The application provides a degree of depth fusion ring box with a net adopts following technical scheme:

the utility model provides a degree of depth fusion ring box with a net, includes box, bionical wing arteries and veins runner and suction subassembly all are located the box, bionical wing arteries and veins runner includes intake pipe, suction tube and a plurality of branch pipe, intake pipe fixed connection is on the inner wall of box, the intake pipe runs through the box, a plurality of the same end of branch pipe all is connected with the intake pipe, the one end that the intake pipe was kept away from to the branch pipe is connected with the suction tube, suction unit mount is on the inner wall of box, the suction tube is connected with the suction subassembly, a plurality of the branch pipe extends along the internal perisporium of box, be equipped with the gas pocket on the branch pipe, be equipped with the self-closing piece that is used for sealing the gas pocket on the branch pipe, be equipped with the louvre on the box, the inlet end of intake pipe is equipped with the shutoff piece that is used for the shutoff intake pipe.

Through adopting above-mentioned technical scheme, the bionical wing arteries and veins runner that a plurality of branch pipe and intake pipe and suction tube are constituteed, and similar insect's wing arteries and veins helps transporting gas to box inside everywhere. When the plugging piece is opened and the self-closing piece is closed, the suction assembly sucks gas outside the box body into the suction assembly; when the plugging piece is closed and the self-closing piece is opened, the suction assembly can spray gas to the cable or the instrument in the box body through the air hole, and the temperature of the cable and the instrument is reduced. Because the blown gas is the gas with low temperature sucked from the outside of the box body, the cooling effect is better.

In a specific possible implementation scheme, the self-closing member comprises an elastic closing block, a connecting screw and a connecting nut, the elastic closing block is abutted to the outer peripheral wall of the branch pipe, the elastic closing block is inserted into the air hole and abutted to the hole wall of the air hole, the elastic closing block and the branch pipe are both provided with connecting holes, the connecting screw penetrates through the connecting hole, and the connecting nut is in threaded connection with the connecting screw.

Through adopting above-mentioned technical scheme, when suction assembly breathes in, under the promotion of air current, elasticity closing block supports tightly on the branch pipe to the shutoff gas pocket makes suction assembly can inhale the gas outside the box smoothly. After the shutoff piece closed, the operation suction module exhaust, under the promotion of air current, elastic deformation takes place for the elasticity closed block to open the gas pocket, make the gas in the suction module can follow the gas pocket blowout, help accomplishing the inside heat dissipation of box smoothly.

In a specific implementation, the elastic closing block comprises an elastic wrapping block, an elastic insertion block and a spring piece, the spring piece is arranged in the elastic wrapping block, the elastic insertion block is fixedly connected to one end of the elastic wrapping block, the elastic wrapping block abuts against the peripheral wall of the branch pipe, the insertion block is inserted into the air hole, the insertion block abuts against the hole wall of the air hole, the connecting hole is formed in one end, far away from the elastic insertion block, of the elastic wrapping block, and the spring piece is penetrated through the connecting hole.

Through adopting above-mentioned technical scheme, the spring leaf can increase the toughness of elasticity parcel piece for can reply original state smoothly after elasticity deformation takes place for the elasticity parcel piece, thereby insert the elasticity in the gas pocket and shutoff gas pocket, help the suction subassembly to absorb the gas outside the box smoothly.

In a specific implementation scheme, the shutoff piece includes elasticity shutoff piece, fixed block, dog, set screw and fixation nut, in the air-intake pipe was all located to elasticity shutoff piece, fixed block and dog, elasticity shutoff piece and fixed block fixed connection, the internal perisporium butt of elasticity shutoff piece and air-intake pipe, the fixed block butt is on the inner wall of air-intake pipe, all be equipped with the fixed orifices in fixed block and the air-intake pipe, set screw wears to locate in the fixed orifices, fixation nut threaded connection is on set screw, dog fixed connection is on the inner wall of air-intake pipe, the dog is located one side that the elasticity shutoff piece deviates from the branch pipe, the one end butt of fixed block is kept away from to the dog and elasticity shutoff piece.

Through adopting above-mentioned technical scheme, when suction assembly breathes in, elastic deformation takes place automatically under the promotion of air current for the outer gas of box can flow into branch pipe and suction assembly smoothly. When the air injection of suction assembly, blockking down of dog, the intake pipe is still blockked up to the elasticity shutoff piece for gaseous can follow the smooth blowout of gas pocket, helps the cable or the instrument heat dissipation in the box.

In a specific possible embodiment, the suction assembly comprises an elastic bag, a support spring and a tension member for pulling the elastic bag to contract, the elastic bag is mounted on the inner wall of the box body, the support spring and the tension member are both arranged in the elastic bag, both ends of the support spring are both connected with the inner wall of the elastic bag, and the suction tube is connected with the elastic bag.

Through adopting above-mentioned technical scheme, when pulling force piece pulling elasticity bag shrink, the gas in the elasticity bag flows in the spinal canal to spout from the gas pocket smoothly, dispel the heat to cable or instrument. When the tension piece stops applying tension, the elastic bag automatically expands under the pushing of the spring, and air outside the box body can be sucked into the elastic bag. Therefore, the suction assembly can spray the gas with lower temperature outside the box body into the box body, and the heat dissipation effect is improved.

In a specific possible embodiment, the elastic bag comprises a fixed plate, a movable plate and an elastic ring, the fixed plate is fixedly connected to the inner wall of the box body, one end of the elastic ring is fixedly connected with the fixed plate, the other end of the elastic ring is fixedly connected with the movable plate, the movable plate is opposite to the fixed plate, the supporting spring is connected between the fixed plate and the movable plate, the tension member is installed on the fixed plate and is connected with the movable plate, the suction tube is fixedly connected with the elastic ring, and the suction tube penetrates through the elastic ring.

Through adopting above-mentioned technical scheme, pulling force spare pulling movable plate moves to the direction that is close to the fixed plate, and the elastic ring takes place elastic shrinkage, can export the interior gas of elastic ring to the box. When the tension piece stops applying tension, the support spring can automatically push the movable plate to move towards the direction far away from the fixed plate, and the gas outside the box body is sucked into the elastic ring.

In a specific embodiment, the pulling member includes a bracket, a shaft, a pulling rope, and a driving motor, the bracket and the driving motor are both fixedly connected to the fixing plate, the shaft is rotatably connected to the bracket, the shaft is coaxially connected to a motor shaft of the driving motor, one end of the pulling rope is fixedly connected to the shaft, and the other end of the pulling rope is fixedly connected to the moving plate.

Through adopting above-mentioned technical scheme, driving motor drive axis body rotates, can twine the stay cord on the axis body for the stay cord can stimulate the movable plate smoothly and remove. When the driving motor stops rotating, the supporting spring automatically pushes the moving plate to move towards the direction far away from the fixed plate, so that the elastic bag can complete air suction and exhaust.

In a specific implementation mode, the deep fusion ring net cage further comprises a circulation heat dissipation part, the circulation heat dissipation part comprises a liquid storage tank, a heat dissipation fin, a circulation pipe, a liquid return pipe and a liquid pump, the liquid storage tank is fixedly connected to the inner wall of the box body, the liquid pump is mounted on the liquid storage tank, the liquid return pipe is connected between the liquid pump and the liquid storage tank, one end of the circulation pipe is fixedly connected to the liquid storage tank, the other end, far away from the liquid storage tank, of the circulation pipe is fixedly connected with the liquid pump, and the heat dissipation fin is connected to the circulation pipe.

Through adopting above-mentioned technical scheme, with fin and cable or instrument butt, on the heat conduction of cable or instrument arrived the fin, the liquid pump was carried the liquid in the liquid reserve tank to the circulating pipe in, liquid again along the circulating pipe input liquid reserve tank in, the circulating pipe can carry out quick heat dissipation to the fin to help carrying out quick heat dissipation to cable or instrument.

In a specific implementation mode, the circulating pipe comprises liquid flow pipes and assembly pipes, the assembly pipes are fixedly connected to the liquid pump, the same ends of the liquid flow pipes are fixedly connected with the assembly pipes, the ends, far away from the assembly pipes, of the liquid flow pipes are fixedly connected with the liquid storage tank, and the cooling fins are connected to the liquid flow pipes.

Through adopting above-mentioned technical scheme, a plurality of liquid flow tube can disperse the heat dissipation to the fin, helps further improving the radiating efficiency.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the bionic wing vein flow channel and the suction assembly are arranged, so that low-temperature gas can be sucked from the outside of the box body and sprayed into the box body, and the improvement of the cooling effect is facilitated;

2. by arranging the elastic closing block, the connecting screw and the connecting nut, the air hole can be automatically opened or closed, and the smooth completion of heat dissipation in the box body is facilitated;

3. this application is through setting up fixed plate, movable plate and elastic ring, through pulling or promotion movable plate, can realize breathing in and exhaust work, and is more convenient.

Drawings

Fig. 1 is a schematic structural diagram of a deep fusion ring net cage in an embodiment of the application.

Fig. 2 is a cross-sectional view of a deep fusion cage in an embodiment of the present application.

Fig. 3 is an enlarged view of a point a in fig. 2.

Fig. 4 is a schematic structural view of a circulation heat sink in the embodiment of the present application.

Figure 5 is an exploded view of a pumping assembly in an embodiment of the present application.

Fig. 6 is an enlarged view at B in fig. 5.

Fig. 7 is a front view of a deep fusion cage in an embodiment of the present application.

Description of reference numerals:

1. a box body; 11. heat dissipation holes; 12. a rectangular box; 121. a box opening; 13. a box door; 2. a bionic pterygoid channel; 21. an air inlet pipe; 211. a fixing hole; 22. a suction tube; 23. a branch pipe; 231. air holes; 232. connecting holes; 24. a self-closing member; 241. an elastic closing block; 2411. an elastic wrapping block; 2412. an elastic insert block; 2413. a spring plate; 242. a connecting screw; 243. connecting a nut; 25. a blocking member; 251. an elastic plugging block; 252. a fixed block; 253. a stopper; 254. a set screw; 255. fixing a nut; 3. a suction assembly; 31. an elastic bag; 311. a fixing plate; 312. moving the plate; 313. an elastic ring; 32. a support spring; 33. a tension member; 331. a support; 332. a shaft body; 333. pulling a rope; 334. a drive motor; 4. a circulating heat sink; 41. a liquid storage tank; 42. a heat sink; 43. a circulation pipe; 431. a liquid flow tube; 432. an assembly tube; 44. a liquid return pipe; 45. and (4) a liquid pump.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations or positional relationships based on those shown in the drawings, merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention.

The embodiment of the application discloses a degree of depth fusion ring box with a net. Referring to fig. 1, the deep fusion ring net cage comprises a box body 1, a bionic fin vein flow passage 2, a suction component 3 and a circulating heat dissipation part 4. The bionic fin vein flow channel 2, the suction component 3 and the circulating heat radiating piece 4 are all located in the box body 1, the suction component 3 and the circulating heat radiating piece 4 are all installed on the inner wall of the box body 1, the air inlet end of the bionic fin vein flow channel 2 penetrates through the box wall of the box body 1, and the air outlet end of the bionic fin vein flow channel 2 is connected with the suction component 3.

The box body 1 comprises a rectangular box 12 and a box door 13, wherein a box opening 121 is formed in the side wall of the rectangular box 12, the box door 13 is hinged to the rectangular box 12, and the box opening 121 is sealed by the box door 13. The side wall of the rectangular box 12 is provided with heat dissipation holes 11.

Referring to fig. 2, the bionic pterygoid pathway 2 is located in the rectangular box 12, and the bionic pterygoid pathway 2 includes an air inlet pipe 21, a suction pipe 22 and a branch pipe 23. The air inlet pipe 21 penetrates through the wall of the rectangular box 12, and the air inlet pipe 21 is welded with the rectangular box 12. The branch pipes 23 are provided with a plurality of branch pipes, the same end of each branch pipe 23 is welded with the air inlet pipe 21, and one end of each branch pipe 23, which is far away from the air inlet pipe 21, is welded with the suction pipe 22. The end of suction tube 22 remote from branch 23 is connected to suction module 3.

Referring to fig. 3, a blocking piece 25 is provided on an inner wall of the intake pipe 21. The block piece 25 comprises an elastic block piece 251, a fixing block 252, a stop 253, a fixing screw 254 and a fixing nut 255. The elasticity shutoff piece 251 bonds on fixed block 252, and fixed block 252 butt all is equipped with fixed orifices 211 on fixed block 252 and the intake pipe 21 on the inner wall of intake pipe 21, and fixed orifices 211 on the fixed block 252 is relative with the fixed orifices 211 on the intake pipe 21, and fixing screw 254 passes fixed orifices 211, and fixing nut 255 threaded connection is on fixing screw 254, and fixing nut 255 and the outer wall butt of intake pipe 21.

The stopper 253 is located on a side of the elastic blocking block 251 facing away from the branch tube 23, and the stopper 253 is located at an end of the elastic blocking block 251 remote from the fixing block 252. The stopper 253 is bonded to the inner wall of the intake pipe 21, the elastic block 251 abuts against the stopper 253, and the peripheral wall of the elastic block 251 abuts against the inner peripheral wall of the intake pipe 21.

Referring to fig. 2 and 4, the circulation heat sink 4 includes a liquid storage tank 41, a heat sink 42, a circulation pipe 43, a liquid return pipe 44, and a liquid pump 45, the liquid storage tank 41 being riveted to the inner bottom wall of the rectangular tank 12, and the liquid pump 45 being riveted to the top wall of the liquid storage tank 41. One end of the liquid return pipe 44 is inserted into the liquid inlet end of the liquid pump 45, and the other end of the liquid return pipe 44 penetrates through the top wall of the liquid storage tank 41 and is inserted into the liquid storage tank 41.

The circulation pipe 43 includes a liquid flow pipe 431 and an assembly pipe 432, and the assembly pipe 432 is inserted into the liquid outlet end of the liquid pump 45. The liquid flow pipes 431 are provided with a plurality of liquid flow pipes 431, the same end of each liquid flow pipe 431 is connected with the assembly pipe 432, one end of each liquid flow pipe 431, which is far away from the assembly pipe 432, is welded with the side wall of the liquid storage tank 41, and the liquid flow pipes 431 penetrate through the side wall of the liquid storage tank 41.

The heat sink 42 is mounted on the flow pipe 431, and the instrumentation (not shown) is mounted on the heat sink 42.

Referring to fig. 5 and 6, an air hole 231 is formed on an outer wall of the branch pipe 23, a self-closing member 24 is formed on the branch pipe 23, and the self-closing member 24 closes the air hole 231.

The self-closing member 24 includes a resilient closing die 241, a coupling screw 242 and a coupling nut 243. The elastic closing block 241 comprises an elastic wrapping block 2411, an elastic inserting block 2412 and a spring piece 2413, the elastic wrapping block 2411 and the elastic inserting block 2412 are rubber blocks, the elastic wrapping block 2411 wraps the spring piece 2413, the elastic wrapping block 2411 abuts against the outer wall of the branch pipe 23, the elastic inserting block 2412 is integrally connected to the side wall of the elastic wrapping block 2411 facing the branch pipe 23, and the elastic inserting block 2412 is inserted into the air hole 231 and abuts against the hole wall.

Both the elastic packing block 2411 and the branch pipe 23 are provided with connecting holes 232, the connecting holes 232 penetrate through the spring piece 2413, and the connecting holes 232 on the elastic packing block 2411 are opposite to the connecting holes 232 on the branch pipe 23. The coupling screw 242 passes through the coupling hole 232, the coupling nut 243 is screwed to the coupling screw 242, and the coupling nut 243 abuts against the elastic packing block 2411.

Referring to fig. 5 and 7, the suction unit 3 includes an elastic bag 31, a support spring 32 and a tension member 33, the elastic bag 31 includes a fixed plate 311, a moving plate 312 and an elastic ring 313, the fixed plate 311 is welded to an inner top wall of the rectangular casing 12, a top end of the elastic ring 313 is bonded to the fixed plate 311, the moving plate 312 is bonded to a bottom end of the elastic ring 313, and the moving plate 312 is opposite to the fixed plate 311. The tension member 33 and the support spring 32 are both located in the elastic ring 313, the tension member 33 is mounted on the fixed plate 311, and the support spring 32 is welded between the fixed plate 311 and the moving plate 312. The end of the suction pipe 22 remote from the branch pipe 23 penetrates the elastic ring 313, and the suction pipe 22 is bonded to the elastic ring 313.

The tension member 33 includes a bracket 331, a shaft body 332, a pulling rope 333 and a driving motor 334, the bracket 331 is welded on the fixing plate 311, and the driving motor 334 is riveted on the fixing plate 311. The bracket 331 is provided with an axial hole, and the shaft body 332 is inserted into the axial hole and abuts against the hole wall. One end of the shaft body 332 is coaxially connected to a motor shaft of the driving motor 334. One end of the string 333 is bonded to the shaft body 332, and the other end of the string 333 is bonded to the moving plate 312.

The implementation principle of the deep fusion ring net cage in the embodiment of the application is as follows: the driving motor 334 is started, the driving motor 334 drives the shaft body 332 to rotate, the pulling rope 333 is wound on the shaft body 332, meanwhile, the pulling rope 333 pulls the moving plate 312 to move upwards, the elastic ring 313 contracts elastically, gas in the elastic ring 313 is input into the branch pipe 23, the gas pushes the elastic wrapping block 2411 to bend, the gas is sprayed out from the gas hole 231, and the temperature in the rectangular box 12 is reduced.

Then, the driving motor 334 is turned off, the supporting spring 32 automatically extends, the moving plate 312 is pushed to move downwards, the elastic ring 313 elastically expands, and the gas outside the box body 1 is sucked. The temperature decrease in the case 1 can be accelerated by turning on or off the driving motor 334 several times as described above.

The liquid pump 45 is then activated, and the liquid flows along the liquid flow pipe 431, and the heat of the heat sink 42 is taken away by the liquid, thereby further accelerating the heat dissipation of the test meter.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a degree of depth fusion ring box with a net which characterized in that: including box (1), bionical wing arteries and veins runner (2) and suction subassembly (3) all are located box (1), bionical wing arteries and veins runner (2) include intake pipe (21), suction tube (22) and a plurality of branch pipe (23), intake pipe (21) fixed connection is on the inner wall of box (1), intake pipe (21) run through box (1), a plurality of the same end of branch pipe (23) all is connected with intake pipe (21), the one end that intake pipe (21) were kept away from in branch pipe (23) is connected with suction tube (22), install on the inner wall of box (1) suction subassembly (3), suction tube (22) are connected with suction subassembly (3), a plurality of branch pipe (23) extend along the internal perisporium of box (1), be equipped with gas pocket (231) on branch pipe (23), be equipped with self-closing piece (24) that are used for sealing gas pocket (231) on branch pipe (23), be equipped with box (11), the gas pocket (21) are equipped with shutoff intake pipe (25) that are used for sealing up.

2. The deep fusion cage of claim 1, wherein: the self-closing piece (24) comprises an elastic closing block (241), a connecting screw (242) and a connecting nut (243), the elastic closing block (241) is abutted to the outer peripheral wall of the branch pipe (23), the elastic closing block (241) is inserted into the air hole (231), the elastic closing block (241) is abutted to the hole wall of the air hole (231), the elastic closing block (241) and the branch pipe (23) are respectively provided with a connecting hole (232), the connecting screw (242) penetrates through the connecting hole (232), and the connecting nut (243) is in threaded connection with the connecting screw (242).

3. The deep fusion cage of claim 2, wherein: elasticity closing block (241) includes elasticity parcel piece (2411), elasticity inserted block (2412) and spring leaf (2413), elasticity parcel piece (2411) is located in elasticity parcel piece (2413), elasticity inserted block (2412) fixed connection is in the one end of elasticity parcel piece (2411), elasticity parcel piece (2411) butt is on the periphery wall of branch pipe (23), the inserted block is inserted and is located in gas pocket (231), the pore wall butt of inserted block and gas pocket (231), the one end that elasticity inserted block (2412) was kept away from in elasticity parcel piece (2411) is located in connecting hole (232), connecting hole (232) run through spring leaf (2413).

4. The deep fusion ring net cage according to claim 1, characterized in that: the blocking piece (25) comprises an elastic blocking block (251), a fixing block (252), a stop block (253), a fixing screw (254) and a fixing nut (255), wherein the elastic blocking block (251), the fixing block (252) and the stop block (253) are arranged in the air inlet pipe (21), the elastic blocking block (251) is fixedly connected with the fixing block (252), the elastic blocking block (251) is abutted to the inner peripheral wall of the air inlet pipe (21), the fixing block (252) is abutted to the inner wall of the air inlet pipe (21), fixing holes (211) are formed in the fixing block (252) and the air inlet pipe (21), the fixing screw (254) penetrates through the fixing holes (211), the fixing nut (255) is in threaded connection with the fixing screw (254), the stop block (253) is fixedly connected to the inner wall of the air inlet pipe (21), the stop block (253) is located on one side, deviating from the branch pipe (23), of the stop block (253) and the elastic blocking block (251) are far away from the abutting end of the fixing block (252).

5. The deep fusion cage of claim 1, wherein: suction assembly (3) include elasticity bag (31), supporting spring (32) and be used for pulling tension member (33) that elasticity bag (31) shrink, install on the inner wall of box (1) elasticity bag (31), supporting spring (32) and tension member (33) are all located in elasticity bag (31), the both ends of supporting spring (32) all are connected with the inner wall of elasticity bag (31), suction tube (22) are connected with elasticity bag (31).

6. The deep fusion cage of claim 5, wherein: elastic bag package (31) is including fixed plate (311), movable plate (312) and elastic ring (313), fixed plate (311) fixed connection is on the inner wall of box (1), the one end and fixed plate (311) fixed connection of elastic ring (313), the other end and movable plate (312) fixed connection of elastic ring (313), movable plate (312) are relative with fixed plate (311), supporting spring (32) are connected between fixed plate (311) and movable plate (312), pulling force piece (33) are installed on fixed plate (311), pulling force piece (33) are connected with movable plate (312), suction tube (22) and elastic ring (313) fixed connection, suction tube (22) run through elastic ring (313).

7. The deep fusion ring cage according to claim 6, wherein: the tension member (33) comprises a support (331), a shaft body (332), a pulling rope (333) and a driving motor (334), wherein the support (331) and the driving motor (334) are both fixedly connected to the fixing plate (311), the shaft body (332) is rotatably connected to the support (331), the shaft body (332) is coaxially connected with a motor shaft of the driving motor (334), one end of the pulling rope (333) is fixedly connected with the shaft body (332), and the other end of the pulling rope (333) is fixedly connected with the moving plate (312).

8. The deep fusion cage of claim 1, wherein: the degree of depth fusion ring box with a net still includes circulation radiating part (4), circulation radiating part (4) include liquid reserve tank (41), fin (42), circulating pipe (43), return liquid pipe (44) and liquid pump (45), liquid reserve tank (41) fixed connection is on the inner wall of box (1), install on liquid reserve tank (41) liquid pump (45), return liquid pipe (44) and connect between liquid pump (45) and liquid reserve tank (41), the equal fixed connection in one end of circulating pipe (43) is on liquid reserve tank (41), the other end and liquid pump (45) fixed connection of liquid reserve tank (41) are kept away from in circulating pipe (43), fin (42) are connected on circulating pipe (43).

9. The deep fusion cage of claim 8, wherein: the circulating pipe (43) comprises a liquid flow pipe (431) and an assembly pipe (432), the assembly pipe (432) is fixedly connected to the liquid pump (45), the same end of the liquid flow pipe (431) is fixedly connected with the assembly pipe (432), one end, far away from the assembly pipe (432), of the liquid flow pipe (431) is fixedly connected with the liquid storage tank (41), and the radiating fin (42) is connected to the liquid flow pipe (431).

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