CN117277130B - Distribution network fault rush-repair scheduling equipment - Google Patents

Abstract

The invention provides power distribution network fault rush-repair scheduling equipment, which relates to the technical field of power maintenance equipment and comprises an installation positioning part; the installation positioning part is connected with a lifting butt joint part in a sliding way; five electric connection butt joint parts are fixedly connected to the lifting butt joint part; the lifting butt joint part is provided with a protection cutting part; the lifting butt joint part is provided with a switching device; five butting and guiding-out parts are fixedly connected to the lifting butting part; the power distribution network fault rush-repair scheduling device has the advantages that the scheduling is flexible, the auxiliary safety butt joint can be realized, the flexible power output can be realized, the whole use is more flexible and convenient, the break point supporting of the self-adaptive line can be realized, the problems that the existing power distribution network fault rush-repair scheduling device is difficult to schedule and use, meanwhile, the power recovery speed is slow, the free adjustment of the power output line is inconvenient, the use is not flexible enough, the power connection protection cannot be realized, the potential safety hazards such as ignition exist in the direct power connection, and the suitability is poor are solved.

Description

Distribution network fault rush-repair scheduling equipment

Technical Field

The invention relates to the technical field of power maintenance equipment, in particular to power distribution network fault rush-repair scheduling equipment.

Background

The electric power is crucial to the actual life of people, meanwhile, the power grid cable is often subjected to power transmission in a high-altitude erection or ground burying mode, in the actual ground construction process, the engineering machinery is very easy to dig and break the cable, and the cable is also very easy to damage and break when natural disasters occur, so that the good power distribution network fault rush-repair dispatching equipment is particularly important for normal recovery of the electric power and convenient to dispatch and use.

However, for the existing power distribution network fault rush-repair dispatching equipment, the power distribution network fault rush-repair dispatching equipment is not easy to dispatch and use, meanwhile, the power recovery speed is low, the power output line is not convenient to freely adjust, the power distribution network fault rush-repair dispatching equipment is not flexible enough to use, the power connection protection cannot be realized, potential safety hazards such as ignition exist in direct power connection, the suitability is poor, the erection of a break point cannot be realized, and the power distribution network fault rush-repair dispatching equipment is easy to be grounded and short-circuited.

Disclosure of Invention

In view of the above, the invention provides a power distribution network fault rush-repair scheduling device which is provided with a switching device, can be used for conveniently and rapidly switching circuit output, can be simultaneously output, is more flexible to use, is more convenient for temporarily supplying power to external equipment, has stronger practicability, and is more convenient for maintenance and scheduling in the whole structure.

The invention provides the purpose and the efficacy of power distribution network fault rush-repair scheduling equipment, which particularly comprises an installation positioning part; the installation positioning part is connected with a lifting butt joint part in a sliding way; five electric connection butt joint parts are fixedly connected to the lifting butt joint part; the lifting butt joint part is provided with a protection cutting part; the lifting butt joint part is provided with a switching device; five butting and guiding-out parts are fixedly connected to the lifting butting part; the installation locating part includes: the device comprises a device mounting plate and a positioning shaft, wherein the device mounting plate is connected with the positioning shaft in a sliding manner; an armrest is arranged on the equipment mounting plate; the lifting butt joint part comprises: the lifting installation block is connected to the equipment installation plate in a sliding manner; a row of positioning holes are formed in the lifting installation block; a positioning shaft is inserted on the lifting installation block; the switching device includes: the switching sliding block is connected to the lifting installation block in a sliding manner; five butt joint conducting blocks are fixedly embedded on the switching sliding block, and jacks are respectively arranged on the five butt joint conducting blocks.

Further, the protection cut-off portion further includes: the tail parts of the four butt joint conductive shafts are fixedly connected with butt joint wires respectively; the butt-joint screw rod is rotatably connected to the lifting installation block; and the butt joint screw rod is connected with a protective sliding block in a threaded manner.

Further, the lifting butt joint part further comprises: the device comprises a sliding telescopic shaft and a clamping block, wherein the device mounting plate is connected with two sliding telescopic shafts in a sliding manner; the two clamping blocks are arranged, and the structures on the two clamping blocks are identical; the two clamping blocks are respectively and fixedly connected to the two sliding telescopic shafts and the lifting installation block.

Further, the power connection butt joint part includes: the device comprises a butt joint block, an elastic butt joint shaft, a joint spring and a connecting wire, wherein the butt joint block is fixedly connected to a lifting installation block; an insulating coating is arranged on the outer side of the butt joint block; an elastic butt joint shaft is connected to the butt joint block in a sliding manner; the bottom of the elastic butt joint shaft is fixedly connected with a bonding spring, and the bonding spring is sleeved on the butt joint block; the connecting wire is fixedly connected to the bottom of the butt joint block; the other end of the connecting wire is connected to the five conductive clamping claws on the right side.

Further, the installation positioning part further includes: the positioning tension spring and the movable roller are sleeved on the positioning shaft; the bottom of the equipment mounting plate is rotationally connected with four movable rollers.

Further, the switching device further includes: the five butt joint conductive blocks are internally and respectively fixedly connected with an auxiliary lamination elastic sheet; the switching screw rod is rotationally connected to the lifting installation block; the switching screw rod is connected with a switching sliding block in a threaded manner; the five abutting conductive blocks are aligned with the five elastic abutting axes.

Further, the docking derivation section includes: the butt joint conductive column is fixedly connected to the lifting installation block; the butt joint conductive column is spliced on the butt joint conductive block and is elastically attached to the auxiliary elastic sheet; and the other end of the butt joint conductive column is fixedly connected with an output wire.

Further, the lifting butt joint part further comprises: the lifting clamping shaft brackets are two and are respectively connected to the two clamping blocks in a sliding manner; five conductive clamping claws are fixedly connected to the bottoms of the two lifting clamping shaft brackets respectively; the two lifting clamping shaft brackets are respectively connected with driving screw rods in a rotating mode, and the two driving screw rods are respectively connected above the two clamping blocks in a threaded mode.

Further, the lifting butt joint part further comprises: the left five conductive clamping claws are respectively and fixedly connected with a connecting wire, and the five connecting wires are respectively and fixedly connected with a contact block; the five contact blocks are respectively and fixedly connected to the lifting installation block.

Further, the protection cut-off portion includes: the protective sliding block is connected to the lifting installation block in a sliding manner; four butt joint conductive shafts are fixedly inserted on the protection sliding block and aligned with the four contact blocks.

Advantageous effects

The emergency repair scheduling device is flexible in scheduling, can assist in safe butt joint, can realize flexible power output, is more flexible and convenient to use as a whole, and can realize the break point supporting of the self-adaptive line.

In addition, through setting up lift interfacing part, can adapt to lift adjustment, can realize assisting directly setting up cable breakpoint department, can realize assisting avoiding breakpoint department direct ground connection, especially the circumstances such as short circuit takes place in the great ground environment of humidity, the lift interfacing part that sets up simultaneously can assist and realize automatic adaptation breakpoint interval, and the practicality is stronger, and overall structure is simpler practical, uses more in a flexible way, sets up simultaneously and goes up and down interfacing part and can realize auxiliary line's switch-on, and overall use is simpler nimble, can improve the electric efficiency, is difficult for droing simultaneously, and electric stability is stronger, through the electric gripper jaw centre gripping of two line end wires through both sides with the fracture department, rotates the drive lead screw and can drive lift centre gripping pedestal lift centre gripping, and the whole use is simpler convenient.

In addition, through adopting setting up protection cutting part, the cooperation sets up connects electric butt joint portion, can realize more stable circuit butt joint, can effectually avoid direct butt joint circuit to cause hidden danger such as strike sparks, through adopting protection cutting part, can keep away from electric department, play the effect of keeping away from the protection, the electric butt joint portion that adopts the setting simultaneously can improve circuit butt joint stability, overall structure is simpler stable, the simple operation, whole butt joint is more stable, can not produce the friction, the laminating spring of setting can the roof pressure elasticity butt joint axle, make it paste in the butt joint conducting block, elasticity butt joint axle top is arc structure simultaneously, can be convenient for by the downward extrusion indentation of butt joint conducting block more, rational in infrastructure is stable, it is more efficient to connect the electricity, the dispatch is more nimble.

In addition, through adopting auto-change over device, cooperation butt joint derivation portion, can realize the output switch of more nimble control circuit, can realize alone with electric power intercommunication to output wire or butt joint piece, can realize simultaneously connecting butt joint piece and butt joint conductive column, the whole use is more nimble, can be applicable to more natural disasters and rescue and use, can supply power for the equipment of speedily carrying out rescue, use more simple and stable, inside the butt joint conductive column inserts the butt joint conductive block, still can electrically conduct when the butt joint conductive block slides, but butt joint conductive block bottom will contact the elasticity butt joint axle along with the removal, realize making butt joint piece and butt joint conductive column circular telegram simultaneously, the independent connection can be realized in continuous motion, whole operation control is simpler nimble, the equipment practicality is stronger.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

Fig. 1 is a schematic diagram of the overall structure of a rush-repair device according to an embodiment of the present invention.

Fig. 2 is a schematic diagram of a front side structure of the rush-repair device according to an embodiment of the present invention.

Fig. 3 is a sectional view showing the internal structure of the rush-repair device according to the embodiment of the invention.

Fig. 4 is a schematic view of a power connection interface structure according to an embodiment of the present invention.

Fig. 5 is a schematic view of the structure of the installation positioning portion according to the embodiment of the present invention.

Fig. 6 is a schematic view of the overall structure of the lifting butt joint according to the embodiment of the invention.

Fig. 7 is a schematic view of a lifting butt joint structure according to an embodiment of the present invention.

Fig. 8 is a schematic view of the bottom structure of the lifting butt joint according to the embodiment of the present invention.

Fig. 9 is a schematic view of a power connection interface structure according to an embodiment of the present invention.

Fig. 10 is a schematic view of a guard cut-off structure according to an embodiment of the present invention.

Fig. 11 is a schematic diagram of a switching device according to an embodiment of the present invention.

Fig. 12 is a schematic view of a configuration of a docking export unit according to an embodiment of the present invention.

List of reference numerals

1. A mounting positioning part; 101. an equipment mounting plate; 102. positioning a shaft; 103. positioning a tension spring; 104. moving the roller; 2. lifting the butt joint part; 201. lifting the mounting block; 202. sliding the telescopic shaft; 203. a clamping block; 204. lifting the clamping shaft bracket; 205. a conductive gripper jaw; 206. driving a screw rod; 207. a connecting wire; 2071. a contact block; 3. a power connection butt joint part; 301. a butt joint block; 302. an elastic butt joint shaft; 303. attaching a spring; 304. connecting wires; 4. a protection cutting part; 401. a protective sliding block; 402. butting the conductive shafts; 403. butting wires; 404. docking a screw rod; 5. a switching device; 501. a switching slider; 502. butting conductive blocks; 503. attaching an auxiliary elastic sheet; 504. switching a screw rod; 6. a butt-joint lead-out part; 601. butting conductive columns; 602. and an output wire.

Detailed Description

In order to make the objects, aspects and advantages of the technical solution of the present invention more clear, the technical solution of the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings of the specific embodiment of the present invention. Unless otherwise indicated, terms used herein have the meaning common in the art. Like reference numerals in the drawings denote like parts.

Examples: please refer to fig. 1 to 12:

The invention provides power distribution network fault rush-repair scheduling equipment, which comprises an installation positioning part 1; the installation positioning part 1 is connected with a lifting butt joint part 2 in a sliding way; five electric connection butt joint parts 3 are fixedly connected to the lifting butt joint part 2; the lifting butt joint part 2 is provided with a protection cutting part 4; the lifting butt joint part 2 is provided with a switching device 5; five butt joint guiding-out parts 6 are fixedly connected to the lifting butt joint part 2; the installation positioning portion 1 includes: the device comprises a device mounting plate 101 and a positioning shaft 102, wherein the device mounting plate 101 is connected with the positioning shaft 102 in a sliding manner; an armrest is arranged on the equipment mounting plate 101; the lifting butt joint part 2 includes: a lifting mounting block 201, the lifting mounting block 201 being slidably connected to the apparatus mounting plate 101; a row of positioning holes are arranged on the lifting installation block 201; the lifting installation block 201 is inserted with a positioning shaft 102; the switching device 5 includes: a switching slide block 501 and a butt joint conductive block 502, wherein the switching slide block 501 is connected on the lifting installation block 201 in a sliding manner; five butt joint conductive blocks 502 are fixedly embedded on the switching sliding block 501, and jacks are respectively arranged on the five butt joint conductive blocks 502.

Wherein, installation location portion 1 still includes: the positioning tension spring 103 and the movable roller 104 are sleeved on the positioning shaft 102; the bottom of the equipment mounting plate 101 is rotatably connected with four movable rollers 104; the lifting butt joint part 2 further includes: a sliding telescopic shaft 202 and a clamping block 203, wherein the device mounting plate 101 is connected with two sliding telescopic shafts 202 in a sliding manner; two clamping blocks 203 are arranged, and the structures on the two clamping blocks 203 are the same; the two clamping blocks 203 are respectively and fixedly connected to the two sliding telescopic shafts 202 and the lifting installation block 201; the lifting butt joint part 2 further includes: the lifting clamping shaft brackets 204, the conductive clamping claws 205 and the driving screw rods 206 are arranged, the lifting clamping shaft brackets 204 are arranged in two, and the two lifting clamping shaft brackets 204 are respectively and slidably connected to the two clamping blocks 203; five conductive clamping claws 205 are fixedly connected to the bottoms of the two lifting clamping shaft brackets 204 respectively; the two lifting clamping shaft brackets 204 are respectively and rotatably connected with driving screw rods 206, and the two driving screw rods 206 are respectively and threadedly connected above the two clamping blocks 203; the lifting butt joint part 2 further includes: the connecting wire 207 and the contact block 2071 are fixedly connected with the connecting wire 207 respectively on the five left conductive clamping claws 205, and the contact block 2071 is fixedly connected with the five connecting wires 207 respectively; five contact pieces 2071 are fixedly connected on the lifting installation block 201 respectively, through setting up lifting butt joint portion 2, can adapt lifting adjustment, can realize assisting direct erection cable breakpoint department, can realize assisting avoiding breakpoint department direct ground connection, especially the circumstances such as short circuit takes place in the great environment of humidity, the automatic adaptation breakpoint interval can be assisted to lifting butt joint portion 2 that sets up simultaneously, the practicality is stronger, overall structure is simpler practical, use more nimble, the switch-on of auxiliary line can be realized to lifting butt joint portion 2 simultaneously, the whole use is simpler nimble, can improve the electric efficiency, be difficult for droing simultaneously, electric stability is stronger, through the conducting gripper 205 centre gripping of passing through both sides with the both ends wire of fracture department, the lifting clamping pedestal 204 lifting clamping can be driven to rotation drive lead screw 206, the whole use is simpler convenient.

Wherein, connect electric interfacing part 3 includes: the butt joint block 301, the elastic butt joint shaft 302, the laminating spring 303 and the connecting wire 304, wherein the butt joint block 301 is fixedly connected to the lifting installation block 201; an insulating coating is arranged on the outer side of the butt joint block 301; an elastic butt joint shaft 302 is connected to the butt joint block 301 in a sliding manner; the bottom of the elastic butt joint shaft 302 is fixedly connected with a bonding spring 303, and the bonding spring 303 is sleeved on the butt joint block 301; the connecting wire 304 is fixedly connected to the bottom of the butt joint block 301; the other end of the connecting wire 304 is connected to the five conductive clamping claws 205 on the right side; the protection cutting section 4 includes: the protective sliding block 401 and the butt joint conductive shaft 402, the protective sliding block 401 is connected on the lifting installation block 201 in a sliding manner; four butting conductive shafts 402 are fixedly inserted on the protective sliding block 401, and the four butting conductive shafts 402 are aligned with the four contact blocks 2071; the protection cutoff portion 4 further includes: the tail parts of the four butt joint conductive shafts 402 are fixedly connected with butt joint wires 403 respectively; the docking screw 404 is rotatably connected to the lifting mounting block 201; the screw thread connection has protection sliding block 401 on the butt joint lead screw 404, through adopting setting up protection cutting portion 4, the cooperation sets up and connects electric butt joint portion 3, can realize more stable circuit butt joint, can effectually avoid direct butt joint circuit to cause hidden danger such as strike sparks, through adopting protection cutting portion 4, can keep away from electric department, play the effect of keeping away from the protection, the electric butt joint portion 3 that adopts the setting simultaneously can improve circuit butt joint stability, the overall structure is simpler stable, the simple operation, whole butt joint is more stable, can not produce the friction, the laminating spring 303 of setting can push up elasticity butt joint axle 302, make it paste in butt joint conducting block 502, elasticity butt joint axle 302 top is arc structure simultaneously, can be convenient for be more by butt joint conducting block 502 extrudeed the indentation downwards, moreover, the steam generator is reasonable stable, it is more efficient to connect, the dispatch is more nimble.

Wherein the switching device 5 further comprises: the laminating auxiliary elastic sheet 503 and the switching screw rod 504 are respectively fixedly connected with the laminating auxiliary elastic sheet 503 inside the five butting conductive blocks 502; the switching screw rod 504 is rotatably connected to the lifting mounting block 201; a switching sliding block 501 is connected to the switching screw rod 504 in a threaded manner; five docking conductive blocks 502 are aligned with the five resilient docking shafts 302; the docking derivation unit 6 includes: the butt joint conductive column 601 and the output wire 602, the butt joint conductive column 601 is fixedly connected to the lifting installation block 201; the butt joint conductive posts 601 are spliced on the butt joint conductive blocks 502, and the butt joint conductive posts 601 are elastically attached to the auxiliary elastic sheets 503; the output wire 602 is fixedly connected to the other end of the butt joint conductive column 601, the butt joint lead-out part 6 is arranged, the switching device 5 is adopted, the butt joint lead-out part 6 is matched, output switching of more flexible control circuits can be achieved, electric power can be independently communicated to the output wire 602 or the butt joint block 301, meanwhile, the butt joint block 301 and the butt joint conductive column 601 can be simultaneously connected, the whole operation is more flexible, the butt joint conductive column 601 can be more suitable for natural disaster rescue, power can be supplied to rescue equipment, the use is simpler and more stable, the butt joint conductive column 601 is inserted into the butt joint conductive block 502, the butt joint conductive block 502 still can conduct electricity when sliding, but the bottom of the butt joint conductive block 502 can contact the elastic butt joint shaft 302 along with movement, the butt joint block 301 and the butt joint conductive column 601 are electrified, independent connection can be achieved through continuous movement, the whole operation control is simpler and more flexible, and the equipment practicability is stronger.

Specific use and action of the embodiment: in the invention, the dispatching equipment can be directly moved by moving the idler wheel 104, the positioning shaft 102 is pulled, the limit on the lifting installation block 201 is relieved, then the lifting installation block 201 can be slid to lift and adjust, the positioning shaft 102 is loosened, the limit again is realized, the whole structure is simple and stable, a supporting cable can be hung, the sliding telescopic shaft 202 can be automatically adjusted according to the length of a break point, the two terminal wires at the break point are clamped by the conductive clamping claws 205 at two sides, the lifting clamping shaft bracket 204 can be driven to lift and clamp by rotating the driving screw 206, the abutting conductive block 502 on the switching sliding block 501 is driven to move by rotating the driving screw 206, the abutting conductive block 401 is driven to move by rotating the switching screw 504, in the sliding process of the abutting conductive block 502, the abutting conductive block 502 still can conduct electricity when sliding, but the bottom of the abutting conductive block 502 is contacted with the elastic abutting shaft 302 along with the movement, the abutting conductive block 301 is electrified, the abutting conductive block 502 is continuously moved along with the continuous movement of the abutting conductive block 502, the abutting conductive block 502 is separated from the abutting conductive column 601, the abutting conductive block 301 is only connected, the abutting conductive block 401 is driven to move, the abutting conductive block 401 is prevented from moving, the abutting conductive block 401 is driven to be abutted against the abutting conductive block 502, the abutting conductive block 502 is enabled to be more stably arranged, and the abutting conductive block 502 is enabled to be in the abutting process of abutting joint spring and the abutting joint is realized, the abutting joint is achieved, the abutting joint of the abutting conductive block is more stable, and the abutting joint spring is achieved, and the abutting joint spring is achieved.

The foregoing is merely exemplary embodiments of the present invention and is not intended to limit the scope of the invention, which is defined by the appended claims.

Claims (1)

1. The power distribution network fault rush-repair scheduling equipment is characterized by comprising an installation positioning part (1); the installation positioning part (1) is connected with a lifting butt joint part (2) in a sliding way; five electric connection butt joint parts (3) are fixedly connected to the lifting butt joint part (2); a protective cutting part (4) is arranged on the lifting butt joint part (2); a switching device (5) is arranged on the lifting butt joint part (2); five butting and guiding-out parts (6) are fixedly connected to the lifting butting part (2); the installation positioning part (1) comprises: the device comprises a device mounting plate (101) and a positioning shaft (102), wherein the positioning shaft (102) is connected to the device mounting plate (101) in a sliding manner; an armrest is arranged on the equipment mounting plate (101); the lifting butt joint part (2) comprises: the lifting installation block (201), the lifting installation block (201) is connected to the equipment installation plate (101) in a sliding manner; a row of positioning holes are formed in the lifting installation block (201); a positioning shaft (102) is inserted on the lifting installation block (201); the switching device (5) comprises: the switching sliding block (501) and the butt joint conductive block (502), wherein the switching sliding block (501) is connected to the lifting installation block (201) in a sliding manner; five butt joint conductive blocks (502) are fixedly embedded on the switching sliding block (501), and jacks are respectively arranged on the five butt joint conductive blocks (502);

the installation positioning part (1) further comprises: the positioning tension spring (103) and the movable roller (104) are sleeved on the positioning shaft (102); the bottom of the equipment mounting plate (101) is rotatably connected with four movable rollers (104);

The lifting butt joint part (2) further comprises: the device comprises a sliding telescopic shaft (202) and a clamping block (203), wherein the device mounting plate (101) is connected with the two sliding telescopic shafts (202) in a sliding manner; two clamping blocks (203) are arranged, and the structures on the two clamping blocks (203) are identical; the two clamping blocks (203) are respectively and fixedly connected to the two sliding telescopic shafts (202) and the lifting installation block (201);

The lifting butt joint part (2) further comprises: the lifting clamping shaft brackets (204), the conductive clamping claws (205) and the driving screw rods (206), wherein two lifting clamping shaft brackets (204) are arranged, and the two lifting clamping shaft brackets (204) are respectively and slidably connected to the two clamping blocks (203); five conductive clamping claws (205) are fixedly connected to the bottoms of the two lifting clamping shaft brackets (204) respectively; the two lifting clamping shaft brackets (204) are respectively and rotatably connected with driving screw rods (206), and the two driving screw rods (206) are respectively and threadedly connected above the two clamping blocks (203);

The lifting butt joint part (2) further comprises: the connecting wire (207) and the contact block (2071) are fixedly connected with the connecting wire (207) on the left five conductive clamping claws (205) respectively, and the contact block (2071) is fixedly connected with the five connecting wires (207) respectively; the five contact blocks (2071) are respectively and fixedly connected to the lifting installation block (201);

the power connection butt joint part (3) comprises: the device comprises a butt joint block (301), an elastic butt joint shaft (302), a laminating spring (303) and a connecting wire (304), wherein the butt joint block (301) is fixedly connected to a lifting installation block (201); an insulating coating is arranged on the outer side of the butt joint block (301); an elastic butt joint shaft (302) is connected to the butt joint block (301) in a sliding manner; the bottom of the elastic butt joint shaft (302) is fixedly connected with a bonding spring (303), and the bonding spring (303) is sleeved on the butt joint block (301); the connecting wire (304) is fixedly connected to the bottom of the butt joint block (301); the other end of the connecting wire (304) is connected to the five conductive clamping claws (205) on the right side;

The protection cutting part (4) comprises: the protective sliding block (401) and the butt joint conductive shaft (402), wherein the protective sliding block (401) is connected to the lifting installation block (201) in a sliding manner; four butting conductive shafts (402) are fixedly inserted on the protective sliding block (401), and the four butting conductive shafts (402) are aligned with the four contact blocks (2071);

the protection cutting part (4) further comprises: the tail parts of the four butt joint conductive shafts (402) are fixedly connected with butt joint wires (403) respectively; the butt-joint screw rod (404) is rotationally connected to the lifting installation block (201); a protective sliding block (401) is connected to the butt joint screw rod (404) in a threaded manner;

The switching device (5) further comprises: the laminating auxiliary elastic sheet (503) and the switching screw rod (504) are respectively fixedly connected with the laminating auxiliary elastic sheet (503) inside the five butt joint conductive blocks (502); the switching screw rod (504) is rotatably connected to the lifting installation block (201); a switching sliding block (501) is connected to the switching screw rod (504) in a threaded manner; five docking conductive blocks (502) are aligned with the five elastic docking shafts (302);

The docking derivation unit (6) comprises: the butt joint conductive column (601) and the output wire (602), wherein the butt joint conductive column (601) is fixedly connected to the lifting installation block (201); the butt joint conductive columns (601) are spliced on the butt joint conductive blocks (502), and the butt joint conductive columns (601) are elastically attached to the auxiliary elastic sheets (503); the other end of the butt joint conductive column (601) is fixedly connected with an output wire (602).