CN210585602U - Graphite alkene conductive thin film spraying device - Google Patents

Graphite alkene conductive thin film spraying device Download PDF

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Publication number
CN210585602U
CN210585602U CN201921500549.1U CN201921500549U CN210585602U CN 210585602 U CN210585602 U CN 210585602U CN 201921500549 U CN201921500549 U CN 201921500549U CN 210585602 U CN210585602 U CN 210585602U
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Prior art keywords
moving
spraying
driving
group
spraying device
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CN201921500549.1U
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仇斌
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Heilongjiang Mudanjiang Agricultural Reclamation Huangao Graphene Deep Processing Co Ltd
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Heilongjiang Mudanjiang Agricultural Reclamation Huangao Graphene Deep Processing Co Ltd
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Abstract

A graphene conductive film spraying device relates to the technical field of stone grinder spraying equipment and solves the problem that the existing spraying equipment is simple and single spraying in sequence and is not suitable for batch processing; an air drying device is arranged on the left spraying cross beam; the utility model discloses can accomplish the spraying to a plurality of base plates at the removal in-process, process graphite alkene conductive film in batches, increase spraying efficiency.

Description

Graphite alkene conductive thin film spraying device
Technical Field
The utility model relates to a graphite alkene spraying equipment technical field especially relates to a graphite alkene conductive thin film spraying device.
Background
The graphene has excellent optical, electrical and mechanical properties, has important application prospects in the aspects of materials science, micro-nano processing, energy, biomedicine, drug delivery and the like, and is considered to be a revolutionary material in the future; graphene is a two-dimensional crystal, and common graphite is formed by stacking planar carbon atoms which are orderly arranged in a honeycomb shape layer by layer, and the interlayer acting force of the graphite is weak, so that the graphite can be easily peeled off from each other to form a thin graphite sheet. When a graphite sheet is exfoliated into monolayers, such monolayers having only one carbon atom thick are graphene.
The graphene has good heat conduction and electric conduction properties. However, the flexible graphene heat dissipation film developed and produced by utilizing the graphene can help the existing notebook computer, smart phone, LED display screen and the like, and the graphene can help greatly improve the heat dissipation performance;
the batch processing of the graphene conductive film is generally spraying processing of spraying equipment, and the existing spraying equipment is simple and single spraying in sequence and is not suitable for batch processing.
Disclosure of Invention
The utility model overcomes above-mentioned prior art's is not enough, provides a graphite alkene conductive thin film spraying device. The utility model discloses a set up the removal track, place the base plate group that the heating was accomplished in removal track both sides, remove in the middle of base plate group through the spraying base, the in-process of removal is organized on base plate through atomizing pump with graphite alkene dispersion atomizing after the spraying, form graphite alkene conductive film on base plate group, after the spraying is all accomplished to graphite alkene film on the base plate group in the orbital stroke of removal, rotate through rotary drive device, change right spraying crossbeam and left spraying crossbeam position, one side of accomplishing graphite alkene film spraying is air-dried, the opposite side carries out the spraying of graphite alkene film, can accomplish the spraying to a plurality of base plates at the removal in-process, process graphite alkene conductive film in batches, increase spraying efficiency.
The technical scheme of the utility model:
a graphene conductive film spraying device comprises a moving base, wherein the moving base is arranged on two groups of moving rails, a group of moving driving devices are respectively arranged at two ends of the moving track, a group of rotating main shafts are arranged on the moving base, a group of rotating platforms are fixed at the top end of the rotating main shaft, the rotating platforms are connected with a group of rotating driving devices in a matching way, the rotary driving device is fixedly arranged on the movable base and arranged beside the rotary main shaft, a group of lifting support arms are arranged on the rotary platform, the movable ends of the lifting support arms are fixedly connected with a group of mounting beams, the mounting cross beam comprises a right spraying cross beam and a left spraying cross beam, a group of mounting grooves are processed on the lower end face of the right spraying cross beam, a transverse moving device is arranged in the mounting groove, and an atomization spraying device is arranged below the transverse moving device; and an air drying device is arranged on the left spraying cross beam.
Further, the atomization spraying device comprises a spraying atomization nozzle, the tail end of the spraying atomization nozzle is connected with a group of hollow ball shafts, the hollow ball shaft is arranged in a bearing, the bearing is embedded in a bearing seat, the bearing seat is fixedly connected with the movable end of the transverse moving device through a connecting arm, the spraying atomization nozzle is connected with a group of atomization pumps through a first atomization pipeline, the atomization pumps are communicated with the graphene solution tank through a second atomization pipeline, the second atomization pipeline is communicated with a group of liquid inlet hoses which are provided with a plurality of groups of liquid inlet holes, the liquid inlet hose is arranged in the graphene solution tank, the graphene solution tank is movably connected with the solution tank bracket through a rotating shaft, the solution tank support is fixedly arranged on the rotary platform, and a gravity hollow ball is arranged at the end part of the liquid inlet hose and is provided with a plurality of groups of liquid inlet holes; the gravity clean shot is high quality hollow gravity ball, and the processing has a plurality of feed liquor holes on the gravity clean shot, can supply graphite alkene solution to get into, and simultaneously, the gravity clean shot drives the feed liquor hose and is in the below of solution all the time in graphite alkene solution pipe, when graphite alkene solution is not enough, makes graphite alkene solution gathering through artifical slope graphite alkene solution tank, and the gravity clean shot drives the feed liquor hose and can be in the lower extreme of solution all the time, can guarantee the supply of solution.
Furthermore, the rotary driving device comprises a group of rotary driving motors, a main shaft of each rotary driving motor is connected with a group of rotary driving bevel gear keys, each rotary driving bevel gear is meshed with a group of driven bevel gears, and the driven bevel gears are fixedly arranged below the rotary platform and arranged on the rotary main shaft.
Furthermore, the lifting support arm comprises a set of fixed support arm, a set of lifting grooves are processed on four end faces of the fixed support arm respectively, each set of lifting grooves is internally provided with a set of lifting electric cylinders, the movable ends of the lifting electric cylinders are fixedly connected with a set of movable support arm, and the movable support arm is fixedly connected with the mounting beam.
Furthermore, the lifting groove is an inverted T-shaped groove, and a group of lifting slide blocks matched with the lifting groove are respectively arranged on the end faces of the four inner sides of the movable supporting arm.
Furthermore, the installation crossbeam is provided with an installation through hole corresponding to the movable support arm, the installation crossbeam is sleeved on the lifting support arm through the installation through hole, and the installation crossbeam is fixedly connected with the movable support arm through a plurality of groups of bolt connecting pieces.
Further, lateral shifting device includes a set of moving motor, the moving motor main shaft passes through the shaft coupling and is connected with a set of removal drive lead screw, be provided with on the removal drive lead screw a set of with removal drive lead screw complex ball nut, ball nut outer pot head is equipped with a set of removal slide, it still sets up on four parallel arrangement's of group's moving guide rail to remove the slide, moving guide rail all with it is parallel to remove the drive lead screw, it is provided with to remove the slide below spraying atomizer.
Further, the air-drying device comprises a plurality of groups of air-drying nozzles, the air-drying nozzles are all arranged on a group of fixed air pipes, the fixed air pipes are fixedly arranged on the right spraying cross beam, the other ends of the fixed air pipes are communicated with a group of air-drying fans, and a plurality of groups of heating devices are arranged in the fixed air pipes.
Furthermore, the heating device comprises a group of heating frames, the heating frames are arranged in the fixed air pipes, a plurality of groups of heating pipes are arranged in the heating frames, two groups of heating resistance wires which are arranged in parallel are arranged in each group of heating pipes, the heating resistance wires are connected with the storage battery through a control switch, and the storage battery is arranged on the right spraying cross beam.
Furthermore, the movement driving device comprises a group of movement driving motors, main shafts of the movement driving motors are connected with a group of driving rollers through speed reducers, the driving rollers are erected on roller frames, the roller frames are arranged on the movement tracks, driving steel cables are wound on the driving rollers, and the driving steel cables are fixedly connected with the movement base.
The utility model discloses following beneficial effect has for prior art:
the utility model discloses a set up the removal track, place the base plate group that the heating was accomplished in removal track both sides, move in the middle of base plate group through the spraying base, the in-process of removal is sprayed on base plate group after atomizing graphene dispersion through the atomizing pump, form graphite alkene conductive film on base plate group, until after the graphite alkene film on the base plate group in the stroke of removal track all accomplished the spraying, through the rotation of rotary driving device, change right spraying crossbeam and left spraying crossbeam position, one side of accomplishing graphite alkene film spraying is air-dried, the opposite side carries out the spraying of graphite alkene film, can accomplish the spraying to a plurality of base plates in the removal process, process graphite alkene conductive film in batches, increase spraying efficiency;
the utility model discloses be provided with on a side end face of spraying crossbeam and air-dry the device, air-dry the device and include a plurality of groups air-dry shower nozzle, air-dry the shower nozzle and all set up on a set of fixed tuber pipe, fixed tuber pipe is fixed to be set up on the spraying crossbeam, the other end and a set of air-dry fan intercommunication of fixed tuber pipe are provided with a plurality of groups heating device in the fixed tuber pipe; the air-dry shower nozzle slope sets up, and after the front end spraying was accomplished, open the air-dry fan, on the air that the air-dry fan blew off blows the base plate group again after heating device heating, the graphene solution after will atomizing air-dries, forms stable graphene conductive film.
The utility model discloses set up rotary drive device, can set up a track to lay base plate group respectively in track both sides, when carrying out air-drying after accomplishing the spraying in one side, carry out the spraying to the base plate group of opposite side, increase work efficiency, suitable batch production.
Drawings
Fig. 1 is a schematic structural diagram of the present invention;
fig. 2 is a schematic structural view of the rotary platform of the present invention;
FIG. 3 is a schematic view of the internal structure of the right spray beam of the present invention;
fig. 4 is a schematic structural view of the left spray beam of the present invention;
FIG. 5 is a side view of FIG. 4;
fig. 6 is a schematic structural view of the heating device of the present invention;
fig. 7 is a schematic structural view of the atomizing spray device of the present invention.
Detailed Description
The present invention will be described in detail with reference to the accompanying drawings.
Referring to fig. 1 to 7, the graphene conductive film spraying device disclosed in this embodiment includes a moving base 1, the moving base 1 is disposed on two sets of moving rails 2, two ends of the moving rails 2 are respectively provided with a set of moving driving devices 3, the moving base 1 is provided with a set of rotating main shaft 4, the top end of the rotating main shaft 4 is fixed with a set of rotating platform 5, the rotating platform 5 is connected with a set of rotating driving devices 6 in a matching manner, the rotating driving devices 6 are fixedly disposed on the moving base 1 and are disposed beside the rotating main shaft 4, the rotating platform 5 is provided with a set of lifting support arms 7, the movable end of the lifting support arms 7 is fixedly connected with a set of mounting beams 8, the mounting beams 8 include a right spraying beam 81 and a left spraying beam 82, a set of mounting grooves 83 is processed on the lower end face of the right spraying beam 81, a transverse moving device 9 is arranged in the mounting groove 83, and an atomization spraying device is arranged below the transverse moving device 9; and an air drying device is arranged on the left spraying cross beam.
Specifically, the atomizing spraying device includes spraying atomizer 10, spraying atomizer 10's tail end is connected with a set of hollow ball axle 11, hollow ball axle 11 sets up in the bearing, the bearing is inlayed in bearing frame 12, bearing frame 12 is through linking arm 13 and lateral shifting device 9's expansion end fixed connection, spraying atomizer 10 is connected with a set of atomizing pump 14 through first atomizing pipeline, atomizing pump 14 is through second atomizing pipeline and graphene solution jar 15 intercommunication, second atomizing pipeline and a set of feed liquor hose 16 intercommunication, it has a plurality of groups of feed liquor holes to process on the feed liquor hose, feed liquor hose 16 sets up in graphene solution jar 15, graphene solution jar 15 is through pivot and solution jar support swing joint, solution jar support is fixed to be set up on rotary platform 5, feed liquor hose 16's tip is provided with gravity hollow sphere 17, and a plurality of groups of liquid inlet holes are processed on the gravity hollow ball 17.
Specifically, the rotation driving device 6 includes a set of rotation driving motor 61, the main shaft of the rotation driving motor 61 is connected with a set of rotation driving bevel gears 62, the rotation driving bevel gears 62 are engaged with a set of driven bevel gears 63, and the driven bevel gears 63 are fixedly disposed below the rotation platform 5 and disposed on the rotation main shaft 4.
Specifically, the lifting support arm 7 includes a set of fixed support arm 71, a set of lifting grooves 72 are respectively processed on four end faces of the fixed support arm 71, each set of lifting grooves 72 is respectively provided with a set of lifting electric cylinders 73, the four sets of lifting electric cylinders 73 are respectively fixedly connected with a set of movable support arm 74, and the movable support arm 74 is fixedly connected with the mounting beam 8.
Specifically, the lifting groove 72 is an inverted T-shaped groove, and a group of lifting sliders 75 matched with the lifting groove 72 are respectively disposed on four inner side end faces of the movable supporting arm 74.
Specifically, processing has on the installation crossbeam 8 with the installation through-hole that the movable support arm 74 corresponds, installation crossbeam 8 passes through the installation through-hole cover is established on the lift support arm 7, installation crossbeam 8 through a plurality of groups of bolted connection spare with movable support arm 74 fixed connection.
Specifically, lateral shifting device 9 includes a set of moving motor 91, moving motor 91 main shaft passes through the shaft coupling and is connected with a set of removal drive lead screw 92, be provided with on the removal drive lead screw 92 a set of with remove drive lead screw 92 complex ball nut, ball nut outer pot head is equipped with a set of removal slide 93, it still sets up on four sets of parallel arrangement's removal guide rail 94 to remove slide 93, removal guide rail 94 all with remove drive lead screw 92 parallel, it is provided with to remove slide 93 below spraying atomizer 10.
Specifically, the air-dry device includes that a plurality of groups air-dry shower nozzle 18, air-dry shower nozzle 18 all sets up on a set of fixed tuber pipe 19, fixed tuber pipe 19 is fixed to be set up on the right side spraying crossbeam 81, the other end and a set of air-dry fan intercommunication of fixed tuber pipe 19, be provided with a plurality of groups heating device in the fixed tuber pipe 19.
Specifically, the heating device comprises a group of heating frames 20, the heating frames 20 are arranged in the fixed air pipe 19, a plurality of groups of heating pipes 21 are arranged in the heating frames 20, two groups of heating resistance wires which are arranged in parallel are arranged in each group of heating pipes 21, the heating resistance wires are connected with a storage battery through a control switch, and the storage battery is arranged on the right spraying cross beam 81.
Specifically, the movement driving device 3 includes a group of movement driving motors 31, a main shaft of each movement driving motor 31 is connected with a group of driving rollers 32 through a speed reducer, the driving rollers 32 are erected on roller frames, the roller frames are arranged on the movement track 2, driving steel cables 33 are wound on the driving rollers 32, and the driving steel cables 33 are fixedly connected with the movement base 1.
The utility model discloses a working process:
firstly, a spraying base is arranged on a moving track, a track groove is processed below the spraying base, an auxiliary moving roller is arranged at the top end of the track groove and is a nylon roller, substrate groups which are heated are placed on two sides of the moving track, the spraying base moves in the middle of the substrate groups, graphene dispersion liquid is atomized and then sprayed on the substrate groups through an atomizing pump in the moving process, the spraying base moves in the middle of the substrate groups, the graphene dispersion liquid is atomized and then sprayed on the substrate groups through the atomizing pump in the moving process, a graphene conductive film is formed on the substrate groups, and after the graphene films on the substrate groups in the moving track are sprayed, the right spraying cross beam and the left spraying cross beam are rotated through a rotary driving device, the positions of the right spraying cross beam and the left spraying cross beam are changed, and one side of the sprayed graphene film is dried, the other side is used for spraying a graphene film, after the graphene film on the opposite side is sprayed, the graphene film on one side is firstly sprayed, the graphene film is also air-dried, the graphene film is changed into a next substrate group, the steps are continuously repeated, the graphene conductive film is processed, the multiple substrates can be sprayed in the moving process, the graphene conductive film is processed in batches, the spraying efficiency is improved, an air drying device comprises a plurality of groups of air drying spray heads, the air drying spray heads are all arranged on a group of fixed air pipes, the fixed air pipes are fixedly arranged on the spraying cross beam, the other ends of the fixed air pipes are communicated with a group of air drying fans, and a plurality of groups of heating devices are arranged in the fixed air pipes; the air drying nozzles are obliquely arranged, after the front end is sprayed, the air drying fan is started, air blown out by the air drying fan is heated by the heating device and then blown onto the substrate group, and the atomized graphene solution is air-dried to form a stable graphene conductive film; the base plate sets are respectively laid on both sides of the track.
The utility model discloses the connection that mentions divide into fixed connection and dismantlement connection, fixed connection is for the conventional fixed connection mode such as undetachable connection including but not limited to hem connection, rivet connection, adhesive connection and welded connection, can dismantle the connection including but not limited to conventional dismantlement modes such as threaded connection, buckle connection, pin joint and hinged joint, when not clearly prescribing a limit to concrete connection mode, acquiesces to always can find at least one kind of connected mode in current connected mode and can realize this function, and the technical staff in the art can select by oneself as required. For example: the fixed connection selects welding connection, and the detachable connection selects hinge connection.
The above embodiments are merely illustrative of the present patent and do not limit the scope of the patent, and those skilled in the art can make modifications to the parts thereof without departing from the spirit and scope of the patent.

Claims (10)

1. The utility model provides a graphite alkene conductive thin film spraying device, includes moving base (1), its characterized in that, moving base (1) sets up on two sets of moving track (2), the both ends of moving track (2) set up a set of removal drive arrangement (3) respectively, be provided with a set of rotary main shaft (4) on moving base (1), rotary main shaft (4) top is fixed with a set of rotary platform (5), rotary platform (5) and a set of rotary drive arrangement (6) cooperation are connected, rotary drive arrangement (6) are fixed to be set up on moving base (1) and set up rotatory main shaft (4) side, be provided with a set of lift support arm (7) on rotary platform (5), the expansion end and a set of installation crossbeam (8) fixed connection of lift support arm (7), installation crossbeam (8) include right spraying crossbeam (81) and left spraying crossbeam (82), a group of mounting grooves (83) are machined in the lower end face of the right spraying cross beam (81), a transverse moving device (9) is arranged in each mounting groove (83), and an atomization spraying device is arranged below each transverse moving device (9); and an air drying device is arranged on the left spraying cross beam.
2. The graphene conductive thin film spraying device according to claim 1, wherein the spraying device comprises a spraying atomizer (10), the tail end of the spraying atomizer (10) is connected with a set of hollow ball shafts (11), the hollow ball shafts (11) are arranged in bearings, the bearings are embedded in bearing seats (12), the bearing seats (12) are fixedly connected with the movable end of a transverse moving device (9) through connecting arms (13), the spraying atomizer (10) is connected with a set of atomizing pumps (14) through a first atomizing pipeline, the atomizing pumps (14) are communicated with a graphene solution tank (15) through a second atomizing pipeline, the second atomizing pipeline is communicated with a set of liquid inlet hoses (16), a plurality of sets of liquid inlet holes are processed on the liquid inlet hoses, the liquid inlet hoses (16) are arranged in the graphene solution tank (15), graphene solution tank (15) are through pivot and solution tank support swing joint, the solution tank support is fixed to be set up on rotary platform (5), the tip of feed liquor hose (16) is provided with gravity clean shot (17), process a plurality of groups feed liquor holes on the gravity clean shot (17).
3. The graphene conductive thin film spraying device according to claim 1, wherein the rotation driving device (6) comprises a set of rotation driving motors (61), a main shaft of each rotation driving motor (61) is connected with a set of rotation driving bevel gears (62) in a key mode, the rotation driving bevel gears (62) are meshed with a set of driven bevel gears (63), and the driven bevel gears (63) are fixedly arranged below the rotation platform (5) and arranged on the rotation main shaft (4).
4. The graphene conductive film spraying device according to claim 1, wherein the lifting support arm (7) comprises a set of fixed support arms (71), a set of lifting grooves (72) are respectively machined on four end faces of each fixed support arm (71), a set of lifting electric cylinders (73) are respectively arranged in each lifting groove (72), the movable ends of the four sets of lifting electric cylinders (73) are fixedly connected with a set of movable support arms (74), and the movable support arms (74) are fixedly connected with the mounting beam (8).
5. The graphene conductive film spraying device according to claim 4, wherein the lifting groove (72) is an inverted T-shaped groove, and a group of lifting sliders (75) matched with the lifting groove (72) are respectively arranged on four inner side end faces of the movable supporting arm (74).
6. The graphene conductive film spraying device as claimed in claim 5, wherein a mounting through hole corresponding to the movable supporting arm (74) is processed on the mounting cross beam (8), the mounting cross beam (8) is sleeved on the lifting supporting arm (7) through the mounting through hole, and the mounting cross beam (8) is fixedly connected with the movable supporting arm (74) through a plurality of groups of bolt connecting pieces.
7. The graphene conductive thin film spraying device according to claim 2, wherein the transverse moving device (9) comprises a set of moving motor (91), a spindle of the moving motor (91) is connected with a set of moving driving lead screw (92) through a coupler, a set of ball screw nut matched with the moving driving lead screw (92) is arranged on the moving driving lead screw (92), a set of moving sliding seat (93) is sleeved outside the ball screw nut, the moving sliding seat (93) is further arranged on four sets of moving guide rails (94) arranged in parallel, the moving guide rails (94) are all parallel to the moving driving lead screw (92), and the spraying atomization nozzle (10) is arranged below the moving sliding seat (93).
8. The graphene conductive thin film spraying device according to claim 1, wherein the air drying device comprises a plurality of groups of air drying nozzles (18), the air drying nozzles (18) are all arranged on a group of fixed air pipes (19), the fixed air pipes (19) are fixedly arranged on the right spraying cross beam (81), the other ends of the fixed air pipes (19) are communicated with a group of air drying fans, and a plurality of groups of heating devices are arranged in the fixed air pipes (19).
9. The graphene conductive thin film spraying device according to claim 8, wherein the heating device comprises a group of heating frames (20), the heating frames (20) are arranged in the fixed air duct (19), a plurality of groups of heating pipes (21) are arranged in the heating frames (20), two groups of heating resistance wires which are arranged in parallel are arranged in each group of heating pipes (21), the heating resistance wires are connected with a storage battery through a control switch, and the storage battery is arranged on the right spraying cross beam (81).
10. The graphene conductive film spraying device according to claim 1, wherein the moving driving device (3) comprises a group of moving driving motors (31), a main shaft of each moving driving motor (31) is connected with a group of driving rollers (32) through a speed reducer, the driving rollers (32) are arranged on roller frames, the roller frames are arranged on the moving track (2), driving steel cables (33) are wound on the driving rollers (32), and the driving steel cables (33) are fixedly connected with the moving base (1).
CN201921500549.1U 2019-09-10 2019-09-10 Graphite alkene conductive thin film spraying device Active CN210585602U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201921500549.1U CN210585602U (en) 2019-09-10 2019-09-10 Graphite alkene conductive thin film spraying device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201921500549.1U CN210585602U (en) 2019-09-10 2019-09-10 Graphite alkene conductive thin film spraying device

Publications (1)

Publication Number Publication Date
CN210585602U true CN210585602U (en) 2020-05-22

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CN201921500549.1U Active CN210585602U (en) 2019-09-10 2019-09-10 Graphite alkene conductive thin film spraying device

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112290451A (en) * 2020-10-23 2021-01-29 广东电网有限责任公司广州供电局 Power transmission line clamp heating detection cooling system and method

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN112290451A (en) * 2020-10-23 2021-01-29 广东电网有限责任公司广州供电局 Power transmission line clamp heating detection cooling system and method
CN112290451B (en) * 2020-10-23 2021-11-05 广东电网有限责任公司广州供电局 Power transmission line clamp heating detection cooling system and method

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