CN218620225U - Electric rotary lifting insulating platform for operation on auxiliary rod - Google Patents

Abstract

The utility model discloses an insulating platform of electrical rotating lifting of operation on auxiliary rod, contain armful of pole device, the lift slide rail module, the lift pedal module, the elevator motor module, the electric cabinet, protection rail and remote controller, armful of pole device sets firmly in lift slide rail module one side with the electric cabinet, the smooth lift slide rail module opposite side of establishing of lift pedal module, and link to each other with the elevator motor module, the elevator motor module sets firmly on lift slide rail module upper portion, and be in same one side with the lift pedal module, the protection rail is laid in lift pedal module periphery, the electric cabinet respectively with armful of pole device, elevator motor module electric connection and with remote controller wireless communication connection. The utility model has the advantages that: the installation and the disassembly are convenient, and the carrying is convenient; the height and the angle are adjustable, and the maintenance requirements of various hardware fittings on the tower are met; all actions are completed through the remote controller, so that the whole operation process is smoother and faster, the physical consumption and operation risk of operators are reduced, and the safety of the operators is ensured.

Description

Electric rotary lifting insulating platform for operation on auxiliary rod

Technical Field

The utility model relates to an insulating platform belongs to electric power and overhauls technical field, specific saying so relates to an electric rotary lift insulating platform of operation on auxiliary rod.

Background

In power transmission, the problem of damage to the electrical equipment caused by aging of the electrical equipment or other reasons is often encountered, and at this time, a maintainer is required to climb onto an electric pole to repair and treat the electrical equipment. In the whole maintenance process, maintenance personnel need to finish respective operation at high altitude for a long time, great physical energy needs to be consumed, various hardware fitting specifications on the tower often exceed the range which can be reached by the body of the maintenance personnel, and great inconvenience is brought to the construction of the maintenance personnel. Under the background, the insulating platform is used as an auxiliary device capable of effectively relieving the problems, and is widely applied to the field of electric power detection at present. However, the insulating platforms used in the current market still have some disadvantages, such as: 1) The hardware tool is inconvenient to lift and rotate, and cannot be well adapted to maintenance of hardware tools beyond the range which can be reached by the body of a maintenance worker; 2) The folding and the storage are inconvenient, so that the subsequent platform is not convenient to carry; 3) The operation process is not smooth and fast enough, and the efficiency is low.

SUMMERY OF THE UTILITY MODEL

To the problem in the background art, the utility model aims to provide an electric rotary lifting insulation platform of operation on auxiliary rod.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides an insulating platform of electrokinetic rotation lift of operation on auxiliary rod, contains and embraces pole device, lift slide rail module, lift footboard module, elevator motor module, electric cabinet, protection rail and remote controller, it all sets firmly with the electric cabinet to embrace the pole device lift slide rail module one side, the slide of lift footboard module is established lift slide rail module opposite side, and with the elevator motor module links to each other, the elevator motor module sets firmly lift slide rail module upper portion, and with the lift footboard module is in same one side, the protection rail is laid lift footboard module periphery, the electric cabinet respectively with embrace pole device, elevator motor module electric connection and with remote controller wireless communication connects.

Further, it contains first ring tooth and second ring tooth to hold the pole device, first ring tooth links together through a plurality of dead lever with the second ring tooth the bottom ring of first ring tooth is equipped with the tight mechanism in first pole top of a plurality of first pole the top ring of second ring tooth is equipped with the tight mechanism in second pole top one side of first ring tooth still is equipped with a first connecting plate one side of second ring tooth still is equipped with a second connecting plate, first connecting plate one end slip hook is established on the first ring tooth, the other end with lift slide rail module rigid coupling, second connecting plate one end slip hook is established on the second ring tooth, the other end with lift slide rail module rigid coupling still wear to be equipped with a rotation axis between first connecting plate and the second connecting plate the upper portion of rotation axis still install a rotating electrical machines and first gear, just rotating electrical machines with rotation axis transmission connection, and with electric cabinet electric connection, first gear with first ring tooth the rotation axis of second ring tooth is connected and the lower part meshing of second ring tooth is installed the gear and the rotation axis meshing still.

Furthermore, the first circular ring gear and the second circular ring gear are both composed of two semi-circular arc-shaped racks, one ends of the two semi-circular arc-shaped racks are hinged together, and the other ends of the two semi-circular arc-shaped racks are mutually connected in an interlocking manner.

Furthermore, each of the first pole jacking mechanism and the second pole jacking mechanism is composed of an adjustable screw rod, a nylon jacking block and a supporting seat, one end of the adjustable screw rod is threaded on the supporting seat, the other end of the adjustable screw rod is connected with the nylon jacking block, and the supporting seat is fixed on the corresponding first circular ring tooth or second circular ring tooth.

It is further, the lift slide rail module contains two parallel relative vertical slide rails the top of two parallel relative vertical slide rails sets firmly a loose pulley assembly and a first fixed block, just first fixed block correspond with the lift footboard module links to each other the bottom of two parallel relative vertical slide rails sets firmly a roll supporting device it is equipped with second fixed block, third fixed block, fourth fixed block and fifth fixed block to still pressing from top to bottom in proper order to press from both sides between two parallel relative vertical slide rails, just second fixed block, third fixed block correspond with it links to each other to embrace the lever apparatus, fourth fixed block, fifth fixed block correspond with the electric cabinet links to each other.

Furthermore, the pulley assembly comprises two pulley supports and a group of pulleys, the two pulley supports are respectively and correspondingly fixedly connected with the two vertical sliding rails, and the group of pulleys are fixedly supported on the two pulley supports.

Furthermore, the rolling supporting device comprises a fixed seat, an adjusting screw rod, an A-shaped supporting frame, two supporting wheels and two guide rods; the fixing base fixation clamp is established two parallel relative vertical slide rails between, adjusting screw one end screw thread is worn to establish fixing base middle part, the other end screw thread is worn to establish in the A type support frame closed end, two supporting wheel symmetries are established the open end of A type support frame, two guide arm symmetries are established the both sides of adjusting screw and A type support frame, and every guide arm one end all slides and wears to establish in the fixing base, the equal fixed connection of the other end is in on the A type support frame.

Further, the lifting pedal module comprises a lifting pedal, two first connecting seats are fixed at the front end of the lifting pedal, two second connecting seats are fixed at the rear end of the lifting pedal, a first connecting rod is fixedly arranged between the two second connecting seats in a penetrating mode, two first sliding blocks are fixedly sleeved on the first connecting rod, two insulating support rods are arranged below the lifting pedal, one ends of the two insulating support rods are correspondingly hinged to the two first connecting seats, the other ends of the two insulating support rods are connected together through a second connecting rod, two second sliding blocks are fixedly sleeved on the second connecting rod and located on the upper portions of the two first sliding blocks and connected together through a third connecting plate, the two first sliding blocks and the two second sliding blocks are equally sleeved on two vertical sliding rails in the lifting pedal module in a corresponding sliding mode, a rope pulling wheel is further sleeved on the first connecting rod, the rope pulling wheel is connected with the lifting motor module through a pulling rope, and protective fences are arranged on the periphery of the lifting pedal.

Furthermore, the lifting motor module comprises a case, a lifting motor and a pull rope reel are arranged in the case, a pull rope is wound on the pull rope reel, the other end of the pull rope is connected to the pull rope wheel, the pull rope reel is supported on the bottom wall in the case and is in transmission connection with the lifting motor, and the lifting motor is electrically connected with the electric cabinet.

Further, the electric cabinet comprises an electric control box body, a controller, a wireless receiver and a battery are arranged in the electric control box body, the controller is respectively electrically connected with the wireless receiver, the battery, a rotating motor in the pole holding device and a lifting motor in a lifting motor module, and the wireless receiver is connected with the remote controller 700 in a wireless communication mode

Compared with the prior art, the utility model has the advantages that: (1) convenient to install and disassemble, store and carry; 2) The lifting height and the rotating angle of the tool can be adjusted according to actual requirements so as to meet the maintenance requirements of various hardware fittings on the tower; 3) Adopt the remote controller to accomplish whole actions of a whole set of device, let whole operation process more smooth, swift, convenient, safety, not only greatly reduced operation personnel's physical stamina consumption and operation risk, still guaranteed maintainer's safety, can also increase substantially the operating efficiency simultaneously.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a schematic structural diagram of one view angle according to the embodiment of the present invention;

fig. 3 is a schematic structural diagram of another view angle according to an embodiment of the present invention;

fig. 4 is an exploded view of an embodiment of the present invention;

FIG. 5 is a schematic structural view of an embodiment of a pole embracing device;

fig. 6 is a schematic structural view of an embodiment of the first or second pole jacking mechanism;

FIG. 7 is a schematic structural view of an embodiment of a lifting slide rail module;

FIG. 8 is an enlarged view of FIG. 7 at node M;

FIG. 9 is a schematic structural view of an embodiment of the rolling bearing unit;

FIG. 10 is a schematic structural view of an embodiment of an elevating pedal module;

FIG. 11 is an enlarged view at node N of FIG. 10;

FIG. 12 is a schematic view of a portion of an embodiment of a lift motor module;

FIG. 13 is a schematic view of a partial structure of an embodiment of an electric cabinet;

description of the reference numerals: 100. a pole embracing device; 101. a first ring gear; 102. a second ring gear; 103. a fixing rod; 104. a first pole jacking mechanism; 104a, an adjustable screw; 104b, nylon top blocks; 104c, a supporting seat; 105. a second pole jacking mechanism; 106. a first connecting plate; 107. a second connecting plate; 108. a rotating shaft; 109. a rotating electric machine; 110. a first gear; 111. a second gear; 200. a lifting slide rail module; 201. a vertical slide rail; 202. a sheave assembly; 202a, a pulley bracket; 202b, a pulley; 203. a first fixed block; 204. a rolling support device; 204a, a fixed seat; 204b, adjusting screw; 204c, an A-shaped support frame; 204d, support wheels; 204e, a guide rod; 205. a second fixed block; 206. a third fixed block; 207. a fourth fixed block; 208. a fifth fixed block; 300. a lifting pedal module; 301. a lifting pedal; 302. a first connecting seat; 303. a second connecting seat; 304. a first connecting rod; 305. a second connecting rod; 306. a first slider; 307. a second slider; 308. an insulating support rod; 309. a third connecting plate; 310. a rope pulling wheel; 400. a lifting motor module; 401. a chassis; 402. a lifting motor; 403. a rope reel; 404. pulling a rope; 500. an electric cabinet; 501. an electric control box body; 502. a controller; 503. a wireless receiver; 504. a battery; 600. a protective fence; 700. and a remote controller.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, how to implement the present invention is further explained below with reference to the accompanying drawings and the detailed description.

Referring to fig. 1 to 12, the electric rotary lifting insulating platform for assisting in working on a pole provided by the present invention comprises a pole holding device 100, a lifting slide rail module 200, a lifting pedal module 300, a lifting motor module 400, an electric cabinet 500, a protective fence 600 and a remote controller 700; the pole embracing device 100 and the electric cabinet 500 are fixedly arranged on one side of the lifting slide rail module 200, the lifting pedal module 300 is slidably arranged on the other side of the lifting slide rail module 200 and is connected with the lifting motor module 400, the lifting motor module 400 is fixedly arranged on the upper part of the lifting slide rail module 200 and is positioned on the same side with the lifting pedal module 300, the electric cabinet 500 is respectively electrically connected with the pole embracing device 100 and the lifting motor module 400 and wirelessly communicated with the remote controller 600, and the protective fence 600 is arranged on the periphery of the lifting pedal module 300; the pole embracing device 100 is used for being connected with an electric pole, so that the whole electric rotary lifting insulating platform is fixed on the electric pole; the lifting slide rail module 200 is used as a support mechanism for the pole embracing device 100, the lifting motor module 400 and the electric cabinet 500 and as a lifting track for the lifting pedal module 300; the lifting pedal module 300 is used for sliding up and down on the lifting slide rail module 200 under the driving of the lifting motor module 400, so as to drive the operator on the rod to move to a proper position; the lifting motor module 400 is used for driving the lifting pedal module 300 to slide up and down on the lifting slide rail module 200; the electric cabinet 500 is used for respectively controlling the pole holding device 100 to perform locking, loosening and rotating actions of a corresponding pole holding device through the remote controller 700 and controlling the lifting motor module 400 to drive the pedal lowering module 300 to perform corresponding ascending or descending actions; protective fence 600 is used for the safety of the operating personnel on the protective rod, and prevents that it from inadvertently dropping from the insulating platform.

As an embodiment of the pole embracing device 100, as shown in fig. 5, the pole embracing device comprises a first circular ring gear 101 and a second circular ring gear 102, the first circular ring gear 101 and the second circular ring gear 102 are connected together through a plurality of fixing rods 103, a plurality of first pole tightening mechanisms 104 are arranged around the bottom of the first circular ring gear 101, a plurality of second pole tightening mechanisms 105 are arranged around the top of the second circular ring gear 102, a first connecting plate 106 is further arranged on one side of the first circular ring gear 101, a second connecting plate 107 is further arranged on one side of the second circular ring gear 102, one end of the first connecting plate 106 is slidably hooked on the first circular ring gear 101, the other end of the first connecting plate is fixedly connected with the lifting slide rail module 200, one end of the second connecting plate 107 is slidably hooked on the second circular ring gear 102, the other end of the second connecting plate is fixedly connected with the lifting slide rail module 200, a rotating shaft 108 is further inserted between the first connecting plate 106 and the second connecting plate 107, a rotating motor 109 and a first gear 110 are further mounted on the upper portion of the rotating shaft 108, the rotating shaft 108 is connected with a transmission motor 108, the first gear 111 is electrically connected with the first circular ring gear 102, and the first gear 111 is further connected with the second gear 111, and the electric control box, and the second gear 111 is electrically connected with the first circular ring gear 102, and the second gear 111.

Specifically, in the above embodiment, the first ring gear 101 and the second ring gear 102 are each composed of two semi-circular arc-shaped racks, and one end of each of the two semi-circular arc-shaped racks is hinged to each other (for example, hinged to each other by a hinge) and the other end of each of the two semi-circular arc-shaped racks is interlocked with each other (for example, locked to each other by a locking pin). During the use, when needs are installed pole on the pole with embracing pole device 100, need open first ring tooth 101 and second ring tooth 102 earlier, be about to open the one end that two half-circular arc racks looks interlocking in first ring tooth 101 and the second ring tooth 102 were in the same place, then with first ring tooth 101 and second ring tooth 102 embrace to wait to carry on the pole of pole operation on to close first ring tooth 101 and second ring tooth 102, be about to two half-circular arc racks looks interlocking in first ring tooth 101 and the second ring tooth 102 and link together one end locking.

Specifically, in the above-mentioned embodiment, referring to fig. 5 and 6, each of the first pole tightening mechanism 104 and the second pole tightening mechanism 105 is composed of an adjustable screw 104a, a nylon top block 104b and a supporting base 104c, and the adjustable screw 104a is threaded through the supporting base 104c at one end and connected to the nylon top block 104b at the other end, and the supporting base 104c is fixed to the corresponding first circular ring tooth 101 or the corresponding second circular ring tooth 102. The first pole jacking mechanism 104 and the second pole jacking mechanism 105 are used for jacking the poles, so that the pole holding device 100 is fixed on the poles and cannot slide up and down. During the use, twist adjustable screw 104a through electronic torque plate and drive nylon kicking block 104b and to the radial forward or retreat of pole, can realize the top tight or loosen the pole. When the electric pole needs to be tightly jacked, the adjustable screw 104a is twisted by the electric torque plate to drive the nylon jacking block 104b to move forward in the radial direction of the electric pole until the nylon jacking block 104b tightly jacks the outer wall of the electric pole; when the pole needs to be loosened, the adjustable screw 104a is twisted through the electric torsion plate to drive the nylon jacking block 104b to be aligned with the radial direction of the pole until the nylon jacking block 104b loosens the contact with the outer wall of the pole.

Specifically, in the above embodiment, a first contact type limit switch (not shown) is disposed at the bottom of each of the first connecting plate 106 and the second connecting plate 107, and a limit block (not shown) for being in contact fit with the first contact type limit switch is disposed at each of the two half-arc-shaped rack joining portions of the first circular ring gear 101 and the second circular ring gear 102; and wherein every first contact limit switch all is connected with controller 502 electricity in electric cabinet 500, and its purpose is used for feeling with the stopper and feels the cooperation, guarantees that whole device automatic stop after rotatory to suitable position, avoids continuing the rotation again.

As an embodiment of the above-mentioned lifting slide rail module 200, referring to fig. 7, it includes two parallel and opposite vertical slide rails 201, a pulley assembly 202 and a first fixed block 203 are fixedly disposed at the top of the two parallel and opposite vertical slide rails 201, the first fixed block 203 is correspondingly connected to the lifting pedal module 300, a rolling support device 204 is fixedly disposed at the bottom of the two parallel and opposite vertical slide rails 201, a second fixed block 205, a third fixed block 206, a fourth fixed block 207, and a fifth fixed block 208 are sequentially interposed between the two parallel and opposite vertical slide rails 201 from top to bottom, the second fixed block 205, the third fixed block 206 are correspondingly connected to the pole embracing device 100, and the fourth fixed block 207, and the fifth fixed block 208 are correspondingly connected to the electric cabinet 500.

Specifically, in the above embodiment, referring to fig. 8, the pulley assembly 202 includes two pulley brackets 202a and a set of pulleys 202b, the two pulley brackets 202a are respectively and fixedly connected to the two vertical sliding rails 201, and the set of pulleys 202b is fixedly supported on the two pulley brackets 202 a. The pulley assembly 202 is used for guiding the lifting rope and preventing the lifting rope from being scratched when the insulating platform is hoisted on the cross arm of the electric pole through the lifting rope.

Specifically, in the above embodiment, referring to fig. 9, the rolling support device 204 includes a fixed seat 204a, an adjusting screw 204b, an a-shaped support frame 204c, two support wheels 204d and two guide rods 204e; the fixing seat 204a is fixedly clamped between the two parallel and opposite vertical sliding rails 201, one end of the adjusting screw 204b is threaded through the middle of the fixing seat 204a, the other end of the adjusting screw is threaded through the closed end of the A-shaped support frame 204c, the two supporting wheels 204d are symmetrically arranged at the open end of the A-shaped support frame 204c, the two guide rods 204e are symmetrically arranged at the two sides of the adjusting screw 204b and the A-shaped support frame 204c, one end of each guide rod 204e is slidably arranged in the fixing seat 204a, and the other end of each guide rod 204e is fixedly connected to the A-shaped support frame 204 c.

As an embodiment of the above-mentioned lifting pedal module 300, referring to fig. 10 and 11, the lifting pedal module 300 includes a lifting pedal 301, two first connecting seats 302 are fixed at a front end of the lifting pedal 301, two second connecting seats 303 are fixed at a rear end of the lifting pedal 301, a first connecting rod 304 is fixedly inserted between the two second connecting seats 303, two first sliding blocks 306 are fixedly sleeved on the first connecting rod 304, two insulating support rods 308 are arranged below the lifting pedal 301, one end of each of the two insulating support rods 308 is correspondingly hinged to the two first connecting seats 302, the other end of each of the two insulating support rods 308 is connected to the other end of each of the two second connecting rods 305, two second sliding blocks 307 are fixedly sleeved on the second connecting rod 305, the two second sliding blocks 307 are located above the two first sliding blocks 306 and are connected to the two first sliding blocks 306 through a third connecting plate 309, the two first sliding blocks 306 and the two second sliding blocks 307 are respectively and slidably sleeved on two sliding rails 201 in the lifting pedal 200, a rope pulley 310 is further sleeved on the first connecting rod 304, and the rope pulley 310 is connected to the lifting motor 400 through a rope pulley 404. When the lifting pedal module 300 is used, the lifting pedal module 300 is driven by the lifting motor module 400 through the pull rope 404 to realize lifting movement. In addition, the lifting pedal module 300 can be folded upwards to be stored when not in use, namely, the two insulating support rods 308 are disconnected with the second connecting rod 305, so that the lifting pedal 301 can be folded upwards around the first connecting rod 304 to be stored. When the lifting pedal 301 needs to be used, the lifting pedal 301 is unfolded downwards around the first connecting rod 304, and then the two insulating support rods 308 are connected with the second connecting rod 305 again.

As an embodiment of the above-mentioned elevator motor module 400, refer to fig. 12, which includes a chassis 401, an elevator motor 402 and a rope reel 403 are disposed in the chassis 401, a rope 404 is wound on the rope reel 403, and the other end of the rope 404 passes through the chassis 401 and is connected to the rope reel 310, wherein the rope reel 403 is fixedly supported on the bottom wall of the chassis 401 and is in transmission connection with the elevator motor 402, and the elevator motor 402 is electrically connected to the electric cabinet 500. When the device is used, the lifting motor 402 drives the pull rope winding drum 403 to wind or unwind the pull rope 404 under the control of the electric cabinet 500; when the pulling rope reel 403 winds the pulling rope 404, the pulling rope 404 drives the pulling rope wheel 310 on the lifting pedal module 300 to move upwards together, so that the lifting pedal module 300 is lifted; when the pull rope 404 is unwound from the pull rope reel 403, the lifting pedal module 300 drives the pull rope wheel 310 to move downward together.

Specifically, in the above embodiment, a second contact-type limit switch (not shown) is further disposed on one side of the bottom of the chassis 401, and the second contact-type limit switch is used for being in contact fit with a first sliding block 306 disposed on the same side of the lifting pedal module 300, and is electrically connected to the controller 502 in the electric cabinet 500, so as to ensure that the lifting pedal module 300 can automatically stop after being lifted to the top of the lifting slide rail module 200, and avoid further lifting and colliding with the lifting motor module 400.

As an embodiment of the electric cabinet 500, referring to fig. 13, it includes an electric cabinet 501, and a controller 502, a wireless receiver 503 and a battery 504 are disposed in the electric cabinet 501; the controller 502 is electrically connected to the wireless receiver 503, the battery 504, the rotating motor 110 in the pole embracing device 100, and the lifting motor 402 in the lifting motor module 400, respectively; the wireless receiver 503 is connected to the remote controller 700 in wireless communication. When the pole embracing device works, a wireless signal instruction is sent to the electric cabinet 500 by the remote controller 700, then the wireless signal instruction sent by the remote controller 700 is received by the wireless receiver 503 in the electric cabinet 500, then the received control instruction is sent to the controller 502 by the wireless receiver 503, and then the controller 502 controls the rotating motor 110 in the pole embracing device 100 and the lifting motor 402 in the lifting motor module 400 to execute corresponding actions (such as starting, stopping, forward and reverse rotation).

The utility model provides a pair of insulating platform of electric rotary lift's of operation on auxiliary rod use specifically as follows:

(1) The holding pole device 100, the lifting slide rail module 200, the lifting pedal module 300, the lifting motor module 400, the electric cabinet 500, the protective fence 600 and the remote controller 700 which form the electric rotating lifting insulating platform of the utility model are transported to a working site from a factory in a bulk state, and then are assembled together at the working site;

(2) After the insulating protective articles are worn by live working personnel, the live working personnel climb the electric pole, fix the cross arm at a proper position on the electric pole, and then fix the jack rope at a position of 300mm away from the electric pole;

(3) Lifting the assembled electric rotary lifting insulating platform in the step (1) to a required mounting position by using a lifting motor, and locking the electric rotary lifting insulating platform on a proper position of an electric pole through a pole holding device 100;

(4) The height and the rotation angle of the lifting pedal module 300 are adjusted to a proper operation position by ground operators or pole operators through a remote controller 700, and live-line maintenance operation is carried out;

(5) After the operation is finished, the electric rotary lifting insulating platform is firstly loosened to be connected with the electric pole through the pole holding device 100, and then the electric rotary lifting insulating platform is lowered to the ground position through the lifting motor;

(6) And (4) splitting the electric rotary lifting insulating platform into an initial state, and then transporting the electric rotary lifting insulating platform back to a factory.

Finally, the above description is only the embodiments of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. The utility model provides an insulating platform of electric rotary lift of operation on auxiliary rod which characterized in that: contain and embrace pole device (100), lift slide rail module (200), lift pedal module (300), elevator motor module (400), electric cabinet (500), protection rail (600) and remote controller (700), embrace pole device (100) and electric cabinet (500) and all set firmly lift slide rail module (200) one side, lift pedal module (300) slide to be established lift slide rail module (200) opposite side, and with elevator motor module (400) link to each other, elevator motor module (400) set firmly lift slide rail module (200) upper portion, and with elevator pedal module (300) are in same one side, protection rail (600) are laid elevator pedal module (300) periphery, electric cabinet (500) respectively with embrace pole device (100), elevator motor module (400) electric connection and with remote controller (700) wireless communication connects.

2. An electrically rotating lifting insulating platform working on an auxiliary pole according to claim 1, characterized in that: the pole embracing device (100) comprises first circular ring teeth (101) and second circular ring teeth (102), the first circular ring teeth (101) are connected with the second circular ring teeth (102) through a plurality of fixing rods (103), a plurality of first electric pole tightening mechanisms (104) are arranged at the bottom of the first circular ring teeth (101) in a surrounding manner, a plurality of second electric pole tightening mechanisms (105) are arranged at the top of the second circular ring teeth (102) in a surrounding manner, a first connecting plate (106) is further arranged at one side of the first circular ring teeth (101), a second connecting plate (107) is further arranged at one side of the second circular ring teeth (102), one end of the first connecting plate (106) is slidably hooked on the first circular ring teeth (101), the other end of the first connecting plate is fixedly connected with the lifting slide rail module (200), one end of the second connecting plate (107) is slidably hooked on the second circular ring teeth (102), the other end of the first connecting plate is fixedly connected with the lifting slide rail module (200), the first connecting plate (106) is fixedly connected with the first rotating gear (108), and the rotating shaft (109) is connected with the first rotating gear (108) and the electric control box (109), a second gear (111) is further mounted on the lower portion of the rotating shaft (108), and the second gear (111) is in meshed connection with the second annular gear (102).

3. An electrically powered rotary lifting insulating platform for working on an auxiliary pole as claimed in claim 2, characterized in that: the first circular ring gear (101) and the second circular ring gear (102) are composed of two semi-circular arc-shaped racks, one ends of the two semi-circular arc-shaped racks are hinged together, and the other ends of the two semi-circular arc-shaped racks are mutually connected in an interlocking manner.

4. An electrically rotating lifting insulating platform working on an auxiliary pole according to claim 2, characterized in that: each first electric pole jacking mechanism (104) and each second electric pole jacking mechanism (105) are composed of an adjustable screw rod (104 a), a nylon jacking block (104 b) and a supporting seat (104 c), one end of each adjustable screw rod (104 a) is arranged on the supporting seat (104 c) in a threaded mode, the other end of each adjustable screw rod (104 a) is connected with the nylon jacking block (104 b), and the supporting seats (104 c) are fixed on the corresponding first circular ring teeth (101) or the corresponding second circular ring teeth (102).

5. An electrically rotating lifting insulating platform working on an auxiliary pole according to claim 2, characterized in that: lift slide rail module (200) contain two parallel relative vertical slide rail (201) the top of two parallel relative vertical slide rail (201) sets firmly a pulley block (202) and a first fixed block (203), just first fixed block (203) correspond with lift pedal module (300) link to each other the bottom of two parallel relative vertical slide rail (201) sets firmly a roll supporting device (204) from last to pressing from both sides down in proper order between two parallel relative vertical slide rail (201) and be equipped with second fixed block (205), third fixed block (206), fourth fixed block (207) and fifth fixed block (208), just second fixed block (205), third fixed block (206) correspond with it links to each other to hold pole device (100), fourth fixed block (207), fifth fixed block (208) correspond with electric cabinet (500) link to each other.

6. An electrically rotating elevating insulating platform working on an auxiliary pole according to claim 5, characterized in that: the pulley assembly (202) comprises two pulley supports (202 a) and a group of pulleys (202 b), the two pulley supports (202 a) are respectively and correspondingly fixedly connected with the two vertical sliding rails (201), and the group of pulleys (202 b) are fixedly supported on the two pulley supports (202 a).

7. An electrically rotating elevating insulating platform working on an auxiliary pole according to claim 5, characterized in that: the rolling supporting device (204) comprises a fixed seat (204 a), an adjusting screw rod (204 b), an A-shaped supporting frame (204 c), two supporting wheels (204 d) and two guide rods (204 e); fixing base (204 a) fixation clamp is established two parallel relative vertical slide rail (201) between, adjusting screw (204 b) one end screw thread wears to establish fixing base (204 a) middle part, and the other end screw thread wears to establish in A type support frame (204 c) closed end, two supporting wheels (204 d) symmetry are established respectively A type support frame (204 c) open end, two guide arms (204 e) symmetry are established respectively adjusting screw (204 b) and the both sides of A type support frame (204 c), and every guide arm (204 e) one end all slides and wears to establish in fixing base (204 a), the other end all fixed connection is in on A type support frame (204 c).

8. An electrically powered rotary lifting insulating platform for working on an auxiliary pole as claimed in claim 5, characterized in that: the lifting pedal module (300) comprises a lifting pedal (301), two first connecting seats (302) are fixed at the front end of the lifting pedal (301), two second connecting seats (303) are fixed at the rear end of the lifting pedal (301), a first connecting rod (304) is fixedly arranged between the two second connecting seats (303) in a penetrating manner, two first sliding blocks (306) are fixedly sleeved on the first connecting rod (304), two insulating support rods (308) are arranged below the lifting pedal (301), one ends of the two insulating support rods (308) are correspondingly hinged to the two first connecting seats (302), the other ends of the two insulating support rods (308) are connected together through a second connecting rod (305), two second sliding blocks (307) are fixedly sleeved on the second connecting rod (305), the two second sliding blocks (307) are positioned on the upper portions of the two first sliding blocks (306), the two sliding blocks (306) are connected together through a third connecting plate (309), the two sliding blocks (306) and the two sliding blocks (304) are respectively sleeved on the lifting pulley (300) through a vertical pull rope (310), and a motor (400) is sleeved on the lifting pulley (400), the protective fence (600) is arranged on the periphery of the lifting pedal (301).

9. An electrically powered rotary lifting insulating platform for working on an auxiliary pole as claimed in claim 8, wherein: the lifting motor module (400) comprises a case (401), a lifting motor (402) and a rope pulling reel (403) are arranged in the case (401), a pulling rope (404) is wound on the rope pulling reel (403), the other end of the pulling rope (404) is connected to the rope pulling wheel (310), the rope pulling reel (403) is supported on the inner bottom wall of the case (401) and is in transmission connection with the lifting motor (402), and the lifting motor (402) is electrically connected with the electric cabinet (500).

10. An electrically rotating elevating insulating platform working on an auxiliary pole according to claim 9, characterized in that: the electric control box (500) comprises an electric control box body (501), a controller (502), a wireless receiver (503) and a battery (504) are arranged in the electric control box body (501), the controller (502) is respectively electrically connected with the wireless receiver (503), the battery (504), a rotating motor (109) in the pole holding device (100) and a lifting motor (402) in the lifting motor module (400), and the wireless receiver (503) is in wireless communication connection with the remote controller (700).

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