CN111162490B

CN111162490B - Automatic assembly equipment for adjustable electric power transmission frame

Info

Publication number: CN111162490B
Application number: CN202010140579.7A
Authority: CN
Inventors: 蒋运臣
Original assignee: Individual
Current assignee: Qitaihe Power Supply Co Of State Grid Heilongjiang Electric Power Co ltd; State Grid Corp of China SGCC
Priority date: 2020-03-03
Filing date: 2020-03-03
Publication date: 2021-06-15
Anticipated expiration: 2040-03-03
Also published as: CN111162490A

Abstract

The invention relates to the field of electric power transmission, in particular to an adjustable electric power transmission frame and automatic assembly equipment thereof, which comprise a telegraph pole, a lifting assembly, a rotating assembly and a direction adjusting assembly, wherein the lifting assembly, the rotating assembly and the direction adjusting assembly are all arranged on the telegraph pole, the rotating assembly is positioned at the top of the lifting assembly, the direction adjusting assembly is positioned at the top of the rotating assembly, the lifting assembly, the rotating assembly and the direction adjusting assembly are respectively and sequentially arranged along the length direction of the telegraph pole from bottom to top in a linear state, the lifting assembly comprises an assembly rod piece and a lifting rod piece, the assembly rod piece is sleeved on the telegraph pole, the lifting rod piece is sleeved on the assembly rod piece, and the lifting rod piece can lift up and down on the assembly rod piece, the adjusting difficulty of the line is reduced, and the danger of line maintenance is reduced.

Description

Automatic assembly equipment for adjustable electric power transmission frame

Technical Field

The invention relates to the field of power transmission, in particular to automatic assembling equipment for an adjustable power transmission frame.

Background

The electric power construction has obvious pulling effect on social economy, but Chinese economy develops rapidly, the electric power supply is relatively short, and the state needs to accelerate the electric power construction strength in order to meet the requirements of national economy and social development; the types of electric power construction are various, the most common electric power transmission equipment is a transmission line which is an important component for realizing electric power transmission and overall allocation, but the existing electric power transmission equipment is fixed when a line is erected, so that the line cannot be changed, once the line is changed, the angle and the direction of a distributor need to be reinstalled or readjusted, necessary construction planning is lacked, and the construction difficulty and the operation procedures are increased.

The electric energy transmission refers to a mode of transmitting electric energy from a power plant or a power source to another place from a place, direct-current transmission is adopted for electric energy transmission due to immature technology in the early stage, alternating-current transmission is gradually realized in the later stage, the alternating-current transmission has many advantages, loss in the electric energy transmission is reduced, speed and transmission length are improved, an electric power transmission frame is necessary power transmission equipment in the power transmission process, a support frame and a telegraph pole are fixed to support and fix an electric wire, the height of the electric wire and the trend of the electric wire can be adjusted through the support frame, arrangement of lines is achieved, the support frame used on the telegraph pole at present is simple and crude in structure, not firm in fixation, not convenient to use, particularly, the lines at the positions of the support frame are messy, not beneficial to overhaul and easy to cause danger.

Electric power transmission frame is fixed to setting up of transfer chain at present mostly, can not change the direction of circuit and adjustment circuit, can increase the operation degree of difficulty that changes transfer chain like this, consequently, need design a device that can change transfer chain circuit automatically.

Disclosure of Invention

The technical problem to be solved by the invention is to provide automatic assembly equipment for an adjustable electric power transmission frame, and the technical scheme solves the problems that a circuit cannot be changed and the angle direction of the circuit cannot be adjusted, and the operation difficulty and the working procedures are increased.

In order to solve the technical problems, the invention provides the following technical scheme:

provides an automatic assembling device for an adjustable electric power transmission frame, which comprises a telegraph pole, a lifting assembly, a rotating assembly and a direction adjusting assembly, wherein the lifting assembly, the rotating assembly and the direction adjusting assembly are all arranged on the telegraph pole, the rotating assembly is positioned at the top of the lifting assembly, the direction adjusting assembly is positioned at the top of the rotating assembly, the lifting assembly, the rotating assembly and the direction adjusting assembly are sequentially arranged along the length direction of the telegraph pole from bottom to top in a linear state, the direction adjusting assembly adjusts a wire circuit positioned on the direction adjusting assembly, the rotating assembly is movably connected with the direction adjusting assembly, so that the rotating assembly drives the direction adjusting assembly to rotate when rotating, the lifting assembly comprises an assembling rod piece and a lifting rod piece, the assembling rod piece is sleeved on the telegraph pole, the lifting rod piece is sleeved on the assembling rod piece, and the lifting rod piece can be lifted up and down on the assembling rod piece.

As a preferred scheme of the automatic assembly equipment for the adjustable electric power transmission frame, the assembly rod piece and the lifting rod piece are both in hollow cylindrical structures, the tops of the assembly rod piece and the lifting rod piece are also both in a sealing shape, the diameter of the lifting rod piece is larger than that of the assembly rod piece, the top of the assembling rod piece is fixed on the top of the telegraph pole through a plurality of bolts, the lower circle of the assembling rod piece is also fixed on the telegraph pole through a plurality of evenly distributed bolts, a plurality of sliding blocks arranged along the length direction of the lifting rod piece are evenly arranged on the inner circle of the lower half part of the lifting rod piece, a plurality of sliding grooves are uniformly arranged on the outer circle of the assembly rod piece along the length direction of the assembly rod piece, a plurality of sliding blocks are respectively arranged in the corresponding sliding grooves in a sliding manner, and the top of every spout all is equipped with the opening of being convenient for the installation, and the bottom of every spout all is closed form.

As a preferred scheme of the adjustable automatic assembly equipment for the electric power conveying frame, a plurality of guide rods are uniformly arranged on the outer side of an assembly rod piece along the circumferential direction of the assembly rod piece, the length direction of each guide rod is parallel to the length direction of the assembly rod piece, the upper end and the lower end of each guide rod are respectively fixed on the outer side wall of the assembly rod piece through an installation block, one guide rod in the plurality of guide rods is in a threaded rod shape, the threaded rod is driven through a driving motor, a machine box is further arranged on the outer side arm of the assembly rod piece, the driving motor is fixed in the machine box, a plurality of sleeving blocks are further arranged on the inner side of the lifting rod piece along the circumferential direction of the lifting rod piece, each sleeving block is arranged along the length direction of the lifting assembly, and each sleeving block can be respectively sleeved on the corresponding guide rod in a sliding mode.

As an optimal scheme of automatic assembly equipment for an adjustable electric power transmission frame, a rotating assembly comprises a rotary disc and a gear driving mechanism, the gear driving mechanism is arranged at the top of a lifting rod piece, the rotary disc rotates through the gear driving mechanism, the gear driving mechanism comprises an inner ring gear, a driving wheel and three driven wheels, the inner ring gear, the driving wheel and the three driven wheels are all in a horizontal state and are arranged at the top of the lifting rod piece through a circular frame body, the circular frame body is fixed at the top of the lifting rod piece, the top of the circular frame body is further provided with an installation table, the inner ring gear is fixed on the side wall of the installation table, the driving wheel and the inner ring gear are coaxial, the driving wheel is further driven through a first rotating motor, and the three driven wheels are uniformly distributed along the circumferential direction of the.

As an optimal scheme of automatic assembly equipment for an adjustable electric power transmission frame, three driven wheels are meshed with a driving wheel and an inner ring gear, the three driven wheels are further respectively sleeved on a rotating shaft, the tops of the three rotating shafts are connected through a triangular plate, the bottoms of the three rotating shafts are further connected through an upper ball groove, a lower ball groove is further formed in the bottom of the upper ball groove, the bottom of the lower ball groove is further fixed to the top of a lifting rod piece through a chassis, a plurality of steel balls are further arranged between the upper ball groove and the lower ball groove and are uniformly distributed along the circumferential direction of the lower ball groove, a turntable is in a horizontal state and is fixed to the top of the triangular plate through a plurality of first locking bolts, and the turntable and the driving wheel are coaxial.

As a preferred scheme of the automatic assembly equipment for the adjustable electric power transmission rack, the top of the round rack body is provided with a sliding disc, the bottom and the top of the sliding disc are both provided with a circle of first rotating disc, and the first rotating disk at the bottom of the sliding disk can be rotatably arranged in the slot at the top of the circular frame body, the outer side wall of the rotating disk is also provided with a first extending plate in an outward extending way, the first extending plate penetrates through the sliding disc and is arranged outwards, the free end of the first extending plate is also fixedly provided with a first wiring board, and the length direction of the length direction perpendicular to of first extension board of first wiring board, the one end of first wiring board can also be equipped with a second wiring board in the articulated of pivoted, and second wiring board still drives through a second rotating electrical machines, and second rotating electrical machines is fixed in the top of first wiring board, and the top of first wiring board and second wiring board still is equipped with a first distribution ware to the outside respectively.

As an automatic assembly equipment's for electric power carriage preferred scheme with adjustable, direction adjustment assembly includes a support frame, a lasso and a slewing mechanism, the support frame sets up in the top of sliding tray, the bottom of support frame can also the pivoted joint on the first rotary disk at sliding tray top, still be equipped with a fixed box on the lateral wall of circle frame body, and the outside of support frame still is equipped with a bar board and is fixed in the fixed box through a second locking bolt, the bottom of lasso is equipped with a second rolling disc, the joint that the second rolling disc can rotate is in the notch at support frame top, a round mouth has still been seted up at the top of support frame, and slewing mechanism installs in the round mouth.

As an optimal scheme of the automatic assembling equipment for the adjustable electric power conveying frame, the rotating mechanism is composed of a disc, the disc is driven by a third rotating motor, the third rotating motor is fixed to the top of the round opening in a vertical state through a rack, the disc and the ferrule are coplanar, the outer side wall of the disc is further provided with a plurality of connecting plates along the circumferential direction of the disc, a circle of the inner side of the ferrule is provided with a plurality of connecting pieces along the circumferential direction of the ferrule, and the connecting plates and the corresponding connecting pieces are fixed through a plurality of third locking bolts.

As an optimal scheme of the automatic assembly equipment for the adjustable electric power transmission frame, a round rod is vertically and downwards arranged at the bottom of each connecting plate, an arc-shaped block is fixedly arranged at the bottom of each round rod, a round groove is fixedly arranged at the top of a round opening of the supporting frame in a horizontal state, the round groove is coaxial with a disc, each arc-shaped block can rotate in the round groove, a protective cover used for protection is arranged at the top of the ferrule, and the bottom of the protective cover is fixed with the top of the ferrule through a plurality of fourth locking bolts.

As an optimal scheme of automatic assembly equipment for adjustable electric power transmission frame, the outer side wall of the ferrule extends outwards to be provided with a second extension plate, the free end of the second extension plate is fixedly provided with a third wiring board, the length direction of the third wiring board is perpendicular to that of the second extension plate, one end of the third wiring board can be hinged to a fourth wiring board in a rotating mode, the fourth wiring board is driven by a fourth rotating motor, the fourth rotating motor is fixed at the top of the third wiring board, and the top of the third wiring board and the top of the fourth wiring board and the outward side of the bottom of the third wiring board and the outward side of the bottom of the fourth wiring board are respectively provided with a second wiring device.

Compared with the prior art, the invention has the beneficial effects that:

an operator firstly connects the electric wire to the rotating assembly and the direction adjusting assembly, the assembling rod is assembled on the telegraph pole, the lifting rod can lift and adjust the height of the electric wire circuit on the assembling rod, when the line of the electric wire needs to be adjusted, the electric wire changes the line through the rotating assembly and the direction adjusting assembly, since the circuits of the electric wires are mostly not adjustable, the adjustment of the circuits needs to be arranged orderly, the assembly of the transmission lines on the utility poles needs to be firm and stable, the mix of the circuits and the occurrence of danger are prevented, the circuit is better adjusted through the lifting assembly, the rotating assembly and the direction adjusting assembly, so that the problems that the circuit cannot be changed and the angle direction of the circuit cannot be adjusted and the operation difficulty and the working procedure are increased are solved, the adjusting difficulty of the circuit is reduced, and the danger during the maintenance of the circuit is reduced; the adjustment in different directions can be realized to the circuit of different electric wires.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is an exploded perspective view of the lift assembly;

FIG. 3 is a cross-sectional view of the lift assembly;

FIG. 4 is a perspective view of the rotary assembly;

FIG. 5 is an exploded perspective view of the rotary assembly;

FIG. 6 is an exploded view of a portion of the rotating assembly;

FIG. 7 is a perspective view of the direction adjustment assembly;

FIG. 8 is an exploded perspective view of the orientation adjustment assembly;

fig. 9 is an exploded view of a portion of the orientation adjustment assembly.

The reference numbers in the figures are: the telegraph pole 1, the assembling rod piece 2, the lifting rod piece 3, the bolt 4, the sliding block 5, the sliding groove 6, the guide rod 7, the mounting block 8, the threaded rod 9, the driving motor 10, the machine box 11, the sleeving block 12, the rotating disc 13, the inner ring gear 14, the driving wheel 15, the driven wheel 16, the round frame body 17, the mounting table 18, the first rotating motor 19, the triangular plate 20, the upper ball groove 21, the lower ball groove 22, the chassis 23, the steel ball 24, the first locking bolt 25, the sliding disc 26, the first rotating disc 27, the first extending plate 28, the first wiring plate 29, the second wiring plate 30, the second rotating motor 31, the first wiring device 32, the supporting frame 33, the ferrule 34, the fixing box 35, the strip-shaped plate 36, the second locking bolt 37, the second rotating disc 38, the round opening 39, the round disc 40, the third rotating motor 41, the rack 42, the connecting plate 43, the connecting piece 44, the third locking bolt 45, the round rod 46, the arc-shaped block 47, the, A protective cover 49, a fourth locking bolt 50, a second extension plate 51, a third wiring board 52, a fourth wiring board 53, a fourth rotating motor 54, and a second wiring device 55.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1 to 9, an adjustable automatic assembly equipment for an electric power transmission rack, including wire pole 1, still include lifting unit, rotating assembly and direction adjusting part, lifting unit, rotating assembly and direction adjusting part all set up on wire pole 1, and rotating assembly is located lifting unit's top, direction adjusting part is located rotating unit's top, lifting unit, rotating assembly and direction adjusting part are arranged along the length direction from the bottom up of wire pole 1 respectively and are the linear state in proper order, lifting unit includes an assembly member 2 and a lift member 3, assembly member 2 overlaps and locates on wire pole 1, lift member 3 overlaps and locates on assembly member 2, and lift member 3 can go up and down on assembly member 2. The operating personnel at first with the connection of electric lines on rotating assembly and direction adjustment assembly, assembly member 2 assembles on wire pole 1, lift member 3 can go up and down on assembly member 2 and adjust the height of electric wire circuit, when the circuit of electric wire is adjusted to needs, the electric wire changes the circuit through rotating assembly and direction adjustment assembly, because the circuit of electric wire is most can not adjust, therefore, the regulation of circuit needs to carry out the arrangement, the assembly of the transmission line on wire pole 1 needs firmly stable, prevent the mistake of circuit from being miscellaneous and prevent danger, through the lift assembly, rotating assembly and direction adjustment assembly have carried out better regulation to the circuit.

The assembly rod piece 2 and the lifting rod piece 3 are both in hollow cylindrical structures, the tops of the assembly rod piece 2 and the lifting rod piece 3 are also both in a sealing shape, the diameter of the lifting rod piece 3 is larger than that of the assembly rod piece 2, the top of the assembling rod piece 2 is fixed on the top of the telegraph pole 1 through a plurality of bolts 4, the lower circle of the assembling rod piece 2 is also fixed on the telegraph pole 1 through a plurality of evenly distributed bolts 4, a plurality of sliding blocks 5 arranged along the length direction of the lifting rod piece 3 are evenly arranged on the inner circle of the lower half part of the lifting rod piece 3, and a plurality of sliding grooves 6 are uniformly arranged on the outer circle of the assembly rod piece 2 along the length direction of the assembly rod piece 2, a plurality of sliding blocks 5 are respectively arranged in the corresponding sliding grooves 6 in a sliding manner, and the top of every spout 6 all is equipped with the opening of being convenient for the installation, and the bottom of every spout 6 all is the form of closing the mouth. The operating personnel at first with connection of electric lines on rotating assembly and direction adjustment assembly, the top of assembly member 2 and bottom round all assemble on wire pole 1 through a plurality of bolt 4, the stability of the circuit assembly of being convenient for, when the height of 3 regulation circuits of lift member, 3 inboard a plurality of slider 5 of lift member slide in 2 inboard corresponding spouts 6 of assembly member respectively to this height of adjusting lift member 3, the circuit of assembly also consequently obtains adjusting.

The outside of assembly member 2 evenly is equipped with a plurality of guide bar 7 along the circumferencial direction of assembly member 2, and the length direction of every guide bar 7 all is on a parallel with the length direction of assembly member 2, the upper and lower end of every guide bar 7 still is fixed in on the lateral wall of assembly member 2 through an installation piece 8 respectively, a guide bar 7 in a plurality of guide bar 7 still is threaded rod 9 form, and threaded rod 9 still drives through a driving motor 10, still be equipped with a machine box 11 on the outer side arm of assembly member 2, driving motor 10 is fixed in machine box 11, the inboard of lift member 3 still is equipped with a plurality of grafting piece 12 along the circumferencial direction of lift member 3, every grafting piece 12 all sets up along the length direction of lift subassembly, and every grafting piece 12 still can the slip cap respectively and locate on corresponding threaded rod 9. When a plurality of sliding blocks 5 on the inner side of the lifting rod piece 3 slide in corresponding sliding grooves 6 on the outer side of the assembly rod piece 2, the driving motor 10 drives the threaded rod 9 on the assembly rod piece 2 to rotate, and as the assembly rod piece 2 is also provided with a plurality of guide rods 7, and the inner side of the lifting rod piece 3 is provided with a plurality of sleeving blocks 12 sleeved on the corresponding guide rods 7 and the threaded rod 9, the lifting rod piece 3 can lift on the assembly rod piece 2 along with the guide rods, and the circuit can be adjusted in height.

The rotating assembly comprises a rotating disc 13 and a gear driving mechanism, the gear driving mechanism is arranged at the top of the lifting rod piece 3, the rotating disc 13 rotates through the gear driving mechanism, the gear driving mechanism comprises an inner ring gear 14, a driving wheel 15 and three driven wheels 16, the inner ring gear 14, the driving wheel 15 and the three driven wheels 16 are all arranged at the top of the lifting rod piece 3 in a horizontal state through a circular frame body 17, the circular frame body 17 is fixed at the top of the lifting rod piece 3, the top of the circular frame body 17 is further provided with an installation table 18, the inner ring gear 14 is fixed on the side wall of the installation table 18, the driving wheel 15 and the inner ring gear 14 share the same axis, the driving wheel 15 is further driven through a first rotating motor 19, and the three driven wheels 16 are uniformly distributed along the circumferential direction of. When the rotating assembly adjusts the steering of the circuit, the gear driving mechanism drives along with the rotating assembly, and during the process that the gear driving mechanism drives the rotating disc 13 to rotate, the first rotating motor 19 drives the driving wheel 15 to rotate, and because the three driven wheels 16 are meshed with the driving wheel 15 and the inner ring gear 14, the three driven wheels 16 rotate along with the driving wheel 15 in the circumferential direction, and because the diameter of the driving wheel 15 is larger than that of the three driven wheels 16, the transmission ratio is increased due to the rotation of the driving wheel 15.

The three driven wheels 16 are meshed with the driving wheel 15 and the inner ring gear 14, the three driven wheels 16 are further respectively sleeved on a rotating shaft, the tops of the three rotating shafts are connected through a triangular plate 20, the bottoms of the three rotating shafts are further connected through an upper ball groove 21, a lower ball groove 22 is further arranged at the bottom of the upper ball groove 21, the bottom of the lower ball groove 22 is further fixed at the top of the lifting rod piece 3 through a chassis 23, a plurality of steel balls 24 are further arranged between the upper ball groove 21 and the lower ball groove 22, the plurality of steel balls 24 are uniformly distributed along the circumferential direction of the lower ball groove 22, the rotary table 13 is in a horizontal state and is fixed at the top of the triangular plate 20 through a plurality of first locking bolts 25, and the rotary table 13 is coaxial with the driving wheel 15. When the three driven wheels 16 rotate, the rotating shaft on each driven wheel 16 is connected through the triangular plate 20, so the triangular plate 20 rotates along with the rotating shaft, when the triangular plate 20 rotates, the upper ball groove 21 connected with the bottoms of the three rotating shafts also rotates along with the rotating shaft, and because the plurality of steel balls 24 are arranged between the upper ball groove 21 and the lower ball groove 22, the upper ball groove 21 rotates on the steel balls 24, so that the rotating stability of the triangular plate 20 is facilitated, and because the rotating disc 13 is fixed on the top of the triangular plate 20 through the plurality of first locking bolts 25, the rotating disc 13 can rotate along with the rotating shaft.

The top of the round frame body 17 is provided with a sliding disc 26, the bottom and the top of the sliding disc 26 are provided with a circle of first rotating disc 27, and a first rotating disk 27 at the bottom of the sliding disk 26 is rotatably arranged in the notch at the top of the circular frame body 17, a first extending plate 28 is further extended outwards from the outer side wall of the rotating disk 13, and the first extension board 28 is disposed through the sliding plate 26 to the outside, a first bracket board 29 is fixedly provided at the free end of the first extension board 28, and the length direction of first wiring board 29 is perpendicular to the length direction of first extension board 28, and the one end of first wiring board 29 can also pivoted hinge be equipped with a second wiring board 30, and second wiring board 30 still drives through a second rotating electrical machines 31, and second rotating electrical machines 31 is fixed in the top of first wiring board 29, and the top of first wiring board 29 and second wiring board 30 still is equipped with a first distributor 32 to the outside respectively. When the rotary disc 13 rotates, because the outer side of the rotary disc 13 is provided with the first extension plate 28, the free end of the first extension plate 28 is fixed with the first wiring board 29, the first wiring board 29 can rotate along with the first extension plate, and because the tops of the first wiring board 29 and the second wiring board 30 are both provided with the first distributor 32, after the electric wire is assembled on the first distributor 32, when the circuit of the electric wire needs to be changed, the first wiring board 29 adjusts the circuit of the electric wire through rotation, when the first wiring board 29 rotates, the sliding disc 26 also rotates along with the first wiring board, and the second wiring board 30 can rotate through the second rotating motor 31, so that the circuit of the electric wire can be further adjusted.

The direction adjustment assembly comprises a support frame 33, a lasso 34 and a slewing mechanism, support frame 33 sets up in the top of sliding tray 26, the bottom of support frame 33 can also be pivoted joint in the first rotating disk 27 at sliding tray 26 top, still be equipped with a fixed box 35 on the lateral wall of circle framework 17, and the outside of support frame 33 still is equipped with a bar board 36 and is fixed in fixed box 35 through a second locking bolt 37, the bottom of lasso 34 is equipped with a second rotating disk 38, second rotating disk 38 can pivoted joint in the notch at support frame 33 top, a round mouth 39 has still been seted up at the top of support frame 33, and slewing mechanism installs in round mouth 39. When the direction adjusting assembly adjusts the electric wire at another position, the rotating mechanism drives the ferrule 34 to rotate, and the ferrule 34 rotates along with the bottom of the ferrule 34 can rotate at the top of the supporting frame 33 through the second rotating disc 38.

The rotating mechanism is composed of a disc 40, the disc 40 is further driven by a third rotating motor 41, the third rotating motor 41 is further fixed to the top of the round opening 39 through a rack 42 in a vertical state, the disc 40 is further coplanar with the ferrule 34, the outer side wall of the disc 40 is further provided with a plurality of connecting plates 43 along the circumferential direction of the disc 40, a circle of the inner side of the ferrule 34 is provided with a plurality of connecting pieces 44 along the circumferential direction of the ferrule 34, and the plurality of connecting plates 43 and the corresponding connecting pieces 44 are further fixed through a plurality of third locking bolts 45. When the rotating mechanism is driven, the third rotating motor 41 drives the disk 40 to rotate, and since the outer side wall of the disk 40 is provided with a plurality of connecting plates 43, and each connecting plate 43 is respectively fixed on a corresponding connecting piece 44 on the inner side of the ferrule 34, the rotation of the rotating disk 13 drives the ferrule 34 to rotate along with the connecting plates.

The bottom of each connecting plate 43 is vertically downwards provided with a round rod 46, the bottom of each round rod 46 is fixedly provided with an arc-shaped block 47, the top of the round opening 39 of the supporting frame 33 is fixed with a round groove 48 in a horizontal state, the round groove 48 is coaxial with the disc 40, each arc-shaped block 47 can rotate in the round groove 48, the top of the ferrule 34 is also provided with a protective cover 49 for protection, and the bottom of the protective cover 49 is fixed with the top of the ferrule 34 through a plurality of fourth locking bolts 50. To facilitate stability of rotation when each link 43 rotates and the disc 40 rotates, the circular rod 46 at the bottom of each link 43 rotates the corresponding arc 47 in the circular groove 48, and the top of the collar 34 is protected by a protective cover 49.

The outer side wall of the ferrule 34 extends outwards to form a second extension plate 51, the free end of the second extension plate 51 is further fixedly provided with a third wiring board 52, the length direction of the third wiring board 52 is perpendicular to the length direction of the second extension plate 51, one end of the third wiring board 52 can be hinged to form a fourth wiring board 53 in a rotating mode, the fourth wiring board 53 is further driven by a fourth rotating motor 54, the fourth rotating motor 54 is fixed to the top of the third wiring board 52, and the top and the bottom of the third wiring board 52 and the bottom of the fourth wiring board 53 are further provided with a second wiring device 55 towards the outside respectively. After the ferrule 34 rotates, because the outside of the ferrule 34 is provided with a second extension plate 51, and the free end of the second extension plate 51 is fixed with a third wiring board 52, the third wiring board 52 can rotate along with the rotation, and because the tops of the third wiring board 52 and the fourth wiring board 53 are both provided with a second distributor 55, after the electric wire is assembled on the second distributor 55, when the circuit of another electric wire needs to be changed, the third wiring board 52 adjusts the circuit of the electric wire by rotating, and the fourth wiring board 53 can rotate by a fourth rotating motor 54, so as to further adjust the electric wire, finally, the electric wire can be changed and further adjusted, which is convenient for the maintenance of operators, and is convenient for the change of the electric wire.

The working principle of the invention is as follows: an operator firstly connects an electric wire to the rotating assembly and the direction adjusting assembly, the top and the bottom circles of the assembling rod piece 2 are assembled on the telegraph pole 1 through a plurality of bolts 4, the stability of line assembly is convenient, when the height of a line is adjusted by the lifting rod piece 3, a plurality of sliding blocks 5 on the inner side of the lifting rod piece 3 respectively slide in corresponding sliding grooves 6 on the inner side of the assembling rod piece 2, so as to adjust the height of the lifting rod piece 3, when a plurality of sliding blocks 5 on the inner side of the lifting rod piece 3 slide in corresponding sliding grooves 6 on the outer side of the assembling rod piece 2, a driving motor 10 drives a threaded rod 9 on the assembling rod piece 2 to rotate, as a plurality of guide rods 7 are also arranged on the assembling rod piece 2, a plurality of sleeving blocks 12 on the inner side of the lifting rod piece 3 are sleeved on the corresponding guide rods 7 and threaded rod 9, therefore, the, the circuit is also adjusted in height, when the rotating assembly adjusts the rotation direction of the circuit, the gear driving mechanism is driven along with the rotating assembly, during the rotation process of the gear driving mechanism driving the rotating disc 13, the first rotating motor 19 drives the driving wheel 15 to rotate, the three driven wheels 16 rotate along with the driving wheel 15 due to the mutual engagement between the three driven wheels 16 and the driving wheel 15 and the inner ring gear 14, the three driven wheels 16 rotate along with the driving wheel 15, the diameter of the driving wheel 15 is larger than that of the three driven wheels 16, therefore, the transmission ratio of the driving wheel 15 is increased, when the three driven wheels 16 rotate, the rotating shaft on each driven wheel 16 is connected through a triangular plate 20, therefore, the triangular plate 20 rotates along with the rotating shaft, when the triangular plate 20 rotates, the upper ball grooves 21 connected to the bottoms of the three rotating shafts rotate along with the rotating shaft, and because a plurality of steel balls 24 are arranged between the, therefore, the upper ball groove 21 rotates on the steel balls 24, which is convenient for the stability of the rotation of the triangle 20, and because the rotary disc 13 is fixed on the top of the triangle 20 through a plurality of first locking bolts 25, the rotary disc 13 can rotate along with the rotary disc 13, when the rotary disc 13 rotates, because the outer side of the rotary disc 13 is provided with a first extending plate 28, the free end of the first extending plate 28 is fixed with a first wiring board 29, therefore, the first wiring board 29 can rotate along with the first wiring board 29, and because the top of the first wiring board 29 and the top of the second wiring board 30 are both provided with a first wiring device 32, after the electric wires are assembled on the first wiring device 32, when the circuit of the electric wires needs to be changed, the first wiring board 29 adjusts the circuit of the electric wires through rotation, when the first wiring board 29 rotates, the sliding disc 26 also rotates along with the first wiring board 29, the second wiring board 30 can rotate through a second rotating motor 31, so as to further adjust the circuit of, when the direction adjusting assembly adjusts the electric wire at another position, the rotating mechanism drives the ferrule 34 to rotate, because the bottom of the ferrule 34 can rotate on the top of the supporting frame 33 through the second rotating disc 38, the ferrule 34 rotates along with the rotating mechanism, when the rotating mechanism is driven, the third rotating motor 41 drives the disk 40 to rotate, because the outer side wall of the disk 40 is provided with a plurality of connecting plates 43, and each connecting plate 43 is respectively fixed on a corresponding connecting piece 44 at the inner side of the ferrule 34, therefore, the rotating of the rotating disc 13 drives the ferrule 34 to rotate along with the rotating of each connecting plate 43, when each connecting plate 43 rotates along with the disk 40, the stability of rotation is facilitated, therefore, the round rod 46 at the bottom of each connecting plate 43 respectively drives the corresponding arc-shaped block 47 to rotate in the round groove 48, the top of the ferrule 34 is also provided with a protective cover 49 for protection, because the outer side of the ferrule 34 is provided with, the free end of the second extension board 51 is fixed with a third wiring board 52, therefore, the third wiring board 52 can rotate, and because the top of the third wiring board 52 and the fourth wiring board 53 are both provided with a second distributor 55, the electric wire is assembled behind the second distributor 55, when the circuit of another electric wire needs to be changed, the third wiring board 52 can rotate the circuit of adjusting the electric wire, the fourth wiring board 53 can rotate through a fourth rotating motor 54, thereby further adjusting the electric wire, finally, the electric wire can be changed and further adjusted, the overhaul of an operator is facilitated, and the change of the electric wire is facilitated.

Claims

1. An automatic assembling device for an adjustable electric power transmission frame is characterized by comprising a telegraph pole (1), and further comprising a lifting assembly, a rotating assembly and a direction adjusting assembly, wherein the lifting assembly, the rotating assembly and the direction adjusting assembly are all arranged on the telegraph pole (1), the rotating assembly is positioned at the top of the lifting assembly, the direction adjusting assembly is positioned at the top of the rotating assembly, the lifting assembly, the rotating assembly and the direction adjusting assembly are sequentially arranged along the length direction of the telegraph pole (1) from bottom to top in a linear state, the direction adjusting assembly adjusts a wire circuit positioned on the direction adjusting assembly, the rotating assembly is movably connected with the direction adjusting assembly, so that the rotating assembly drives the direction adjusting assembly to rotate when rotating, the lifting assembly comprises an assembling rod piece (2) and a lifting rod piece (3), the assembling rod piece (2) is sleeved on the telegraph pole (1), the lifting rod piece (3) is sleeved on the assembling rod piece (2), and the lifting rod piece (3) can lift up and down on the assembling rod piece (2).

2. The automatic assembling equipment for the adjustable electric power transmission rack according to claim 1, wherein the assembling rod (2) and the lifting rod (3) are both hollow cylindrical structures, the tops of the assembling rod (2) and the lifting rod (3) are sealed, the diameter of the lifting rod (3) is larger than that of the assembling rod (2), the top of the assembling rod (2) is fixed on the top of the telegraph pole (1) through a plurality of bolts (4), the lower circle of the assembling rod (2) is also fixed on the telegraph pole (1) through a plurality of uniformly distributed bolts (4), a plurality of sliding blocks (5) arranged along the length direction of the lifting rod (3) are uniformly arranged on the inner circle of the lower half part of the lifting rod (3), a plurality of sliding grooves (6) are uniformly arranged on the outer circle of the assembling rod (2) along the length direction of the assembling rod (2), a plurality of slider (5) can gliding setting respectively in corresponding spout (6) to the top of every spout (6) all is equipped with the opening of being convenient for the installation, and the bottom of every spout (6) all is closed the mouth and describes.

3. The automatic assembling equipment for the adjustable electric power transmission rack according to claim 2, wherein the outer side of the assembling rod member (2) is uniformly provided with a plurality of guide rods (7) along the circumferential direction of the assembling rod member (2), the length direction of each guide rod (7) is parallel to the length direction of the assembling rod member (2), the upper end and the lower end of each guide rod (7) are respectively fixed on the outer side wall of the assembling rod member (2) through a mounting block (8), one guide rod (7) of the plurality of guide rods (7) is also in the shape of a threaded rod (9), the threaded rod (9) is also driven through a driving motor (10), the outer side arm of the assembling rod member (2) is also provided with a machine box (11), the driving motor (10) is fixed in the machine box (11), the inner side of the lifting rod member (3) is also provided with a plurality of sleeving blocks (12) along the circumferential direction of the lifting rod member (3), each splicing block (12) is arranged along the length direction of the lifting assembly, and each splicing block (12) can be further respectively sleeved on the corresponding guide rod (7) in a sliding mode.

4. The automatic assembling equipment for the adjustable electric power transmission frame according to claim 3, wherein the rotating assembly comprises a rotating disc (13) and a gear driving mechanism, the gear driving mechanism is arranged at the top of the lifting rod piece (3), the rotating disc (13) rotates through the gear driving mechanism, the gear driving mechanism comprises an inner ring gear (14), a driving wheel (15) and three driven wheels (16), the inner ring gear (14), the driving wheel (15) and the three driven wheels (16) are all arranged at the top of the lifting rod piece (3) in a horizontal state through a circular frame body (17), the circular frame body (17) is fixed at the top of the lifting rod piece (3), the top of the circular frame body (17) is further provided with a mounting table (18), the inner ring gear (14) is fixed on the side wall of the mounting table (18), and the coaxial line exists between the driving wheel (15) and the inner ring gear (14), the driving wheel (15) is also driven by a first rotating motor (19), and three driven wheels (16) are uniformly distributed along the circumferential direction of the driving wheel (15).

5. The automatic assembling equipment for the adjustable electric power transmission frame as claimed in claim 4, wherein three driven wheels (16) are engaged with the driving wheel (15) and the inner ring gear (14), the three driven wheels (16) are respectively sleeved on a rotating shaft, the tops of the three rotating shafts are connected through a triangular plate (20), the bottoms of the three rotating shafts are connected through an upper ball groove (21), a lower ball groove (22) is further arranged at the bottom of the upper ball groove (21), the bottom of the lower ball groove (22) is further fixed at the top of the lifting rod member (3) through a chassis (23), a plurality of steel balls (24) are further arranged between the upper ball groove (21) and the lower ball groove (22), the plurality of steel balls (24) are uniformly distributed along the circumferential direction of the lower ball groove (22), the rotary plate (13) is fixed at the top of the triangular plate (20) through a plurality of first locking bolts (25) in a horizontal state, and the rotary table (13) is coaxial with the driving wheel (15).

6. The automatic assembling equipment for the adjustable electric power transmission rack according to claim 5, wherein a sliding disc (26) is arranged at the top of the circular rack body (17), a ring of first rotating disc (27) is arranged at the bottom and the top of the sliding disc (26), the first rotating disc (27) at the bottom of the sliding disc (26) is rotatably arranged in a slot at the top of the circular rack body (17), a first extending plate (28) is further outwards extended from the outer side wall of the rotating disc (13), the first extending plate (28) penetrates through the sliding disc (26) to be outwards arranged, a first wire rack plate (29) is further fixedly arranged at the free end of the first extending plate (28), the length direction of the first wire rack plate (29) is perpendicular to the length direction of the first extending plate (28), and a second wire rack (30) is further rotatably hinged at one end of the first wire rack plate (29), the second wiring board (30) is driven by a second rotating motor (31), the second rotating motor (31) is fixed at the top of the first wiring board (29), and the top of the first wiring board (29) and the top of the second wiring board (30) are respectively provided with a first wiring device (32) towards the outside.

7. The automatic assembly equipment for the adjustable electric power transmission rack according to claim 6, wherein the direction adjusting assembly comprises a support frame (33), a ferrule (34) and a rotating mechanism, the support frame (33) is arranged at the top of the sliding disc (26), the bottom of the support frame (33) can be rotatably clamped on a first rotating disc (27) at the top of the sliding disc (26), a fixing box (35) is further arranged on the outer side wall of the round rack body (17), a strip-shaped plate (36) is further arranged on the outer side of the support frame (33) and fixed in the fixing box (35) through a second locking bolt (37), a second rotating disc (38) is arranged at the bottom of the ferrule (34), the second rotating disc (38) can be rotatably clamped in a groove at the top of the support frame (33), a round opening (39) is further formed at the top of the support frame (33), and the rotating mechanism is arranged in the round opening (39).

8. The automatic assembling equipment for the adjustable electric power conveying frame is characterized in that the rotating mechanism consists of a disc (40), the disc (40) is further driven by a third rotating motor (41), the third rotating motor (41) is further fixed to the top of the round opening (39) through a rack (42) in a vertical state, the disc (40) is further coplanar with the ferrule (34), the outer side wall of the disc (40) is further provided with a plurality of connecting plates (43) along the circumferential direction of the disc (40), one circle of the inner side of the ferrule (34) is provided with a plurality of connecting pieces (44) along the circumferential direction of the ferrule (34), and the plurality of connecting plates (43) and the corresponding connecting pieces (44) are further fixed through a plurality of third locking bolts (45).

9. The automatic assembling equipment for the adjustable electric power conveying frame according to claim 8, characterized in that a round rod (46) is vertically arranged at the bottom of each connecting plate (43) downwards, an arc-shaped block (47) is fixedly arranged at the bottom of each round rod (46), a round groove (48) is further horizontally fixed at the top of a round opening (39) of the supporting frame (33), the round groove (48) is further coaxial with the disc (40), each arc-shaped block (47) can rotate in the round groove (48), a protective cover (49) for protection is further arranged at the top of the ferrule (34), and the bottom of the protective cover (49) and the top of the ferrule (34) are further fixed through a plurality of fourth locking bolts (50).

10. The automatic assembling device for the adjustable electric power transmission rack according to claim 9, wherein the outer side wall of the ferrule (34) extends outwards to form a second extending plate (51), the free end of the second extending plate (51) is further fixedly provided with a third wiring board (52), the length direction of the third wiring board (52) is perpendicular to the length direction of the second extending plate (51), one end of the third wiring board (52) is further rotatably hinged to form a fourth wiring board (53), the fourth wiring board (53) is further driven by a fourth rotating motor (54), the fourth rotating motor (54) is fixed on the top of the third wiring board (52), and the outward sides of the top and the bottom of the third wiring board (52) and the bottom of the fourth wiring board (53) are further provided with a second distributor (55).