CN112164963A

CN112164963A - Power line maintenance equipment

Info

Publication number: CN112164963A
Application number: CN202011083071.4A
Authority: CN
Inventors: 魏孝堂
Original assignee: 魏孝堂
Current assignee: Shanghai Guozhen Power Technology Co., Ltd
Priority date: 2020-10-12
Filing date: 2020-10-12
Publication date: 2021-01-01
Anticipated expiration: 2040-10-12
Also published as: CN112164963B

Abstract

The invention discloses power line maintenance equipment which comprises a main body box body, wherein a side inner cavity is arranged in the main body box body, an inner groove is arranged in the end wall of the side inner cavity in a communicating manner, electric wires which are symmetrical up and down are arranged in the side inner cavity, clamping and screwing devices which are used for fully clamping and rotating the electric wires so as to facilitate the electric wires to be screwed into roots by personnel are arranged in the main body box body and the side inner cavity, and a cross separating device which is used for carrying out cross separation on wiring harnesses of the electric wires is arranged in the end wall of the side inner cavity.

Description

Power line maintenance equipment

Technical Field

The invention belongs to the technical field of electric power overhaul equipment, and particularly relates to electric power line overhaul equipment.

Background

The existing electric power overhaul process has more problems, particularly in the process of connecting broken cables, it is necessary to remove the outer sheath of the cable of the corresponding electric wire and then branch the corresponding electric connection wire, and then sufficiently wind the branched electric connection wire, most people in the process use the way of manually twisting the corresponding cables sufficiently, since the operation is performed manually and the person is required to frequently branch the cable, the labor burden of the person is increased, and when in actual use, the personnel are inconvenient to continuously and efficiently connect and wind the broken wire quickly, which causes the reduction of the actual working efficiency of the personnel, because the existence of above-mentioned shortcoming, make equipment reliability and the actual use efficiency reduction when carrying out the in-service use, can't be timely carry out high-efficient quick winding connection with the broken string when meetting emergency.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide a power line maintenance apparatus, which can solve the above-mentioned problems in the prior art.

The invention is realized by the following technical scheme: the power line maintenance equipment comprises a main body box body, wherein a side inner cavity is arranged in the main body box body, an inner groove is arranged in the end wall of the side inner cavity in a communicating mode, electric wires which are symmetrical up and down are arranged in the side inner cavity, clamping and screwing devices which are used for clamping the electric wires fully and rotating the electric wires so that personnel can screw the electric wires into wires are arranged in the main body box body and the side inner cavity, and a cross separating device which is used for carrying out cross separation on wiring harnesses of the electric wires is arranged in the end wall of the side inner cavity.

Further technical scheme, press from both sides tightly to twist the device including set up in inside lift driving motor in the inside inslot, inside lift driving motor both sides power connection is provided with the output pole of symmetry, the inslot gliding is provided with the internal thread sliding block, the internal thread sliding block with output pole screw-thread fit connects, goes up the downside the output pole screw thread is revolved to opposite, internal thread sliding block one side is provided with outside piece, the pivoted is provided with inside turning block in the outside piece, be provided with the side inner chamber in the outside piece, be provided with in the inside turning block and be used for the centre gripping elasticity centre gripping subassembly in the electric wire, go up the downside be provided with between the outside piece and be used for making inside turning block carries out pivoted internal drive assembly simultaneously.

According to the technical scheme, the elastic clamping assembly comprises a plurality of sliding holes formed in the inner rotating block, a propping sliding block is arranged in each sliding hole in a sliding mode, a buffer spring is elastically arranged between the propping sliding block and the end wall of each sliding hole, the electric wire penetrates through the inner rotating block, and the propping sliding block props against the electric wire.

Further technical scheme, inside transmission assembly including the pivoted set up in the intracavity inside connecting rod inclines, inside connecting rod one side is provided with the meshing connecting gear, meshing connecting gear surface engagement is provided with the outside ring gear, outside ring gear with inside turning block fixed fit connects, both sides be provided with between the inside connecting rod outside the piece slides the in-process and still can make both sides inside connecting rod keeps the power structure that slides that power is connected, one of them side intracavity is provided with the drive connection motor, the drive connection motor with meshing connecting gear power is connected the setting.

Further technical scheme, the power structure that slides include with dress kelly and outside cover shell that inside connecting rod fixed fit is connected, be provided with the cooperation inner chamber in the outside cover shell, dress kelly with the cooperation inner chamber slides and normal running fit is connected.

Further technical scheme, cross separator including set up in the flexible push cylinder in the side inner chamber end wall, flexible push cylinder one side power connection is provided with the side lever, the side is provided with the internal connection box of symmetry about the side lever, the internal connection bottom half is provided with and is used for dialling the line and open the subassembly, be provided with in the middle of the internal connection box and be used for pressing the line orientation all around and move so that form the pressure of strip and move the subassembly.

Further technical scheme, dial the subassembly including set up in transmission in the internal connection box is connected and is held the chamber, the transmission is connected and is held the intracavity wall and be provided with top power connection motor, top power connection motor downside power connection is provided with top bevel gear, top bevel gear downside meshing is provided with a plurality of inside cooperation bevel gears, inside cooperation bevel gear one side is provided with the connection power pole, it runs through to connect power pole pivoted the transmission connect hold the chamber and with the internal connection box normal running fit is connected, the gliding a plurality of interior thread matching pieces that are provided with of internal connection bottom half, interior thread matching piece downside is provided with struts the piece, interior thread matching piece with connect power pole screw-thread fit and connect.

Further technical scheme, press the subassembly including set up in a plurality of inside rotating connecting plates in the internal connection box, inside rotating connecting plate one side is provided with the promotion connecting axle, promote the connecting axle with inside rotating connecting plate normal running fit connects, inside rotating connecting plate is rotated by the driving motor drive, it is provided with the removal cooperation board to promote connecting axle one side, be provided with in the internal connection box all the drive structure that inside rotating connecting plate drive removed.

Further technical scheme, drive structure include with the fixed pedestal of internal connection box end wall is fixed, fixed pedestal sets up perpendicularly from top to bottom in turn, be provided with the internal drive connection motor of symmetry in the fixed pedestal, power connection is provided with the cooperation screw thread axle between the internal drive connection motor, cooperation screw thread off-axial surface is provided with revolves to opposite thread line, gliding internal thread cooperation piece that is provided with of fixed pedestal, internal thread cooperation piece with cooperation screw thread off-axial surface revolves to opposite thread line screw-thread fit connection, internal thread cooperation piece downside is provided with the removal cooperation board, the removal cooperation board with promote connecting axle fixed fit and connect.

The invention has the beneficial effects that:

the device has a simple structure, can fully clamp the electric wires and can fully branch the electric wires in the electric wires so that cables between the electric wires on two sides can be fully wound and connected.

When the equipment works, firstly, the electric wire is clamped into the internal rotating block, then the elastic action of the sliding hole enables the abutting sliding block to abut against the electric wire, so that the electric wire is stably clamped in the internal rotating block, then the telescopic pushing cylinder is required to work and then drives the side rods to move, so that the internal connecting box body moves to the position at the center of the electric wire, then the internal lifting driving motor works and drives the output rod to rotate, so that the internal thread sliding block slides in the internal groove, the electric wires at two sides are close to each other, then the driving connecting motor works and drives the meshing connecting gear to rotate, and all the meshing connecting gears can drive the external gear ring to rotate due to the power connection arrangement of the clamping rod, the matching internal cavity and the external casing, the electric wire can be indirectly rotated, so that the electric wire can be conveniently knotted by a person after the electric wire is branched.

When the electric wires are branched, firstly, before the electric wires approach each other, the top power connecting motor drives the top bevel gear to rotate after working, the top bevel gear drives the internal matching bevel gear to rotate, the internal matching bevel gear drives the connecting power rod to rotate, the strutting blocks are gradually separated from each other from a state of approaching each other after the internal thread matching blocks slide, the internal connecting box body can completely stretch into the electric wires after the electric wires approach each other, and then the matching threaded shaft is driven to rotate after the internal driving connecting motor works, the matching threaded shaft drives the internal thread matching blocks to move after rotating, then the moving matching plate is driven and the connecting shaft is pushed to move, and then the internal rotating connecting plate is pushed out, and the cooperation threaded spindle of front and back side can make all after working remove the cooperation board and promote the connecting axle and drive inside rotating connecting plate keeps away from simultaneously inside connecting box promotes, inside rotating connecting plate swings after working afterwards, makes the opening inner chamber press the electric wire of electric wire one side, makes the electric wire carry out abundant branching so that the electric wire is tied a knot.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view of the overall internal structure of the power line maintenance apparatus of the present invention;

FIG. 2 is a schematic view of A in FIG. 1;

FIG. 3 is a schematic view of B in FIG. 2;

FIG. 4 is a schematic view of C in FIG. 2;

FIG. 5 is a schematic view of D in FIG. 2;

FIG. 6 is a schematic view of the direction E in FIG. 2;

in the figure, a side inner cavity 11, a side lever 12, a telescopic pushing cylinder 13, an abutting slide block 14, a sliding hole 15, a buffer spring 16, an outer block 17, an outer gear ring 18, an inner rotating block 19, a meshing connecting gear 21, a side inner cavity 22, a driving connecting motor 23, an inner groove 25, an output rod 26, a main body box 27, an internal thread sliding block 28, an inner connecting rod 29, an inner lifting driving motor 31 and a clamping rod 32, the internal driving connecting motor 53 is connected with the internal connecting box body 44, the pushing connecting shaft 45, the moving matching plate 46, the opening inner cavity 47, the matching threaded shaft 51, the fixed seat body 52, the internal driving connecting motor 53, the internal thread matching block 62, the connecting power rod 71, the internal matching bevel gear 73, the transmission connecting cavity 74, the top bevel gear 75 and the top power connecting motor 76.

Detailed Description

As shown in fig. 1 to 6, the present invention is explained in detail, and for convenience of description, the following orientations are defined as follows: the power line maintenance equipment comprises a main body box body 27, wherein a side inner cavity 11 is arranged in the main body box body 27, an inner groove 25 is communicated and arranged in the end wall of the side inner cavity 11, electric wires 35 which are symmetrical up and down are arranged in the side inner cavity 11, clamping and screwing devices which are used for fully clamping and rotating the electric wires 35 so that personnel can screw the electric wires into roots are arranged in the main body box body 27 and the side inner cavity 11, and a cross separating device which is used for carrying out cross separation on wiring harnesses of the electric wires 35 is arranged in the end wall of the side inner cavity 11.

Beneficially, the clamping and screwing device includes an internal lifting driving motor 31 disposed in the internal groove 25, two sides of the internal lifting driving motor 31 are power-connected and provided with symmetrical output rods 26, an internal thread sliding block 28 is slidably disposed in the internal groove 25, the internal thread sliding block 28 is in thread fit connection with the output rods 26, the thread directions of the output rods 26 on the upper side and the lower side are opposite, an external block 17 is disposed on one side of the internal thread sliding block 28, an internal rotating block 19 is rotatably disposed in the external block 17, a side inner cavity 22 is disposed in the external block 17, an elastic clamping assembly for clamping the electric wire 35 is disposed in the internal rotating block 19, and an internal transmission assembly for enabling the internal rotating block 19 to simultaneously rotate is disposed between the external blocks 17 on the upper side and the lower side.

Advantageously, the elastic clamping assembly comprises a plurality of sliding holes 15 arranged in the inner rotating block 19, an abutting sliding block 14 is arranged in the sliding holes 15 in a sliding manner, a buffer spring 16 is elastically arranged between the abutting sliding block 14 and the end wall of the sliding hole 15, the electric wire 35 penetrates through the inner rotating block 19, and the abutting sliding block 14 is arranged in abutment with the electric wire 35.

Beneficially, the internal transmission assembly comprises an internal connecting rod 29 rotatably arranged in the side inner cavity 22, a meshing connecting gear 21 is arranged on one side of the internal connecting rod 29, an external gear ring 18 is arranged on the outer surface of the meshing connecting gear 21 in a meshing manner, the external gear ring 18 is fixedly matched and connected with the internal rotating block 19, a sliding power structure which can still enable the internal connecting rod 29 on two sides to be in power connection in the sliding process of the external block 17 is arranged between the internal connecting rods 29 on two sides, a driving connecting motor 23 is arranged in the side inner cavity 22 on one side, and the driving connecting motor 23 is in power connection with the meshing connecting gear 21.

Advantageously, the sliding power structure comprises a clamping rod 32 fixedly connected with the inner connecting rod 29 in a matching manner and an outer casing 34, a matching inner cavity 33 is arranged in the outer casing 34, and the clamping rod 32 is connected with the matching inner cavity 33 in a sliding and rotating matching manner.

Advantageously, the cross separating device comprises a telescopic pushing cylinder 13 arranged in the end wall of the side inner cavity 11, one side of the telescopic pushing cylinder 13 is provided with a side rod 12 in a power connection mode, the upper side and the lower side of the side rod 12 are provided with symmetrical internal connecting boxes 44, the bottom of each internal connecting box 44 is provided with a poking assembly used for poking the wires, and a pressing assembly used for pressing the wires towards the periphery so as to form strips is arranged in the middle of each internal connecting box 44.

Beneficially, wherein the pulling-out assembly comprises a transmission connection accommodating cavity 74 arranged in the internal connection box 44, a top power connection motor 76 is arranged in an end wall of the transmission connection accommodating cavity 74, a top bevel gear 75 is arranged on the lower side of the top power connection motor 76 in a power connection manner, a plurality of internal fitting bevel gears 73 are arranged on the lower side of the top bevel gear 75 in a meshed manner, a connection power rod 71 is arranged on one side of each internal fitting bevel gear 73, the connection power rod 71 rotatably penetrates through the transmission connection accommodating cavity 74 and is connected with the internal connection box 44 in a rotating fit manner, a plurality of internal thread fitting blocks 41 are slidably arranged at the bottom of the internal connection box 44, a pulling-out block 42 is arranged on the lower side of each internal thread fitting block 41, and the internal thread fitting blocks 41 are in a.

Advantageously, the pressing assembly comprises a plurality of internal rotating connecting plates 43 arranged in the internal connecting box 44, a pushing connecting shaft 45 is arranged on one side of each internal rotating connecting plate 43, the pushing connecting shaft 45 is connected with the internal rotating connecting plates 43 in a rotating fit mode, the internal rotating connecting plates 43 are driven to rotate by a driving motor, a moving matching plate 46 is arranged on one side of each pushing connecting shaft 45, and a driving structure for driving all the internal rotating connecting plates 43 to move is arranged in the internal connecting box 44.

Beneficially, the driving structure includes a fixed seat body 52 fixed to the end wall of the internal connection box 44, the fixed seat body 52 is vertically arranged in an up-down alternating manner, symmetrical internal driving connection motors 53 are arranged in the fixed seat body 52, a matching threaded shaft 51 is arranged in a power connection between the internal driving connection motors 53, threads with opposite turning directions are arranged on the outer surface of the matching threaded shaft 51, an internal thread matching block 62 is slidably arranged in the fixed seat body 52, the internal thread matching block 62 is in threaded matching connection with the threads with opposite turning directions on the outer surface of the matching threaded shaft 51, a moving matching plate 46 is arranged on the lower side of the internal thread matching block 62, and the moving matching plate 46 is in fixed matching connection with the pushing connection shaft 45.

In the initial state, the above devices, assemblies and structures are in the stop working state, and the device can sufficiently clamp the electric wires 35 and sufficiently branch the electric wires in the electric wires 35 so that cables between the electric wires 35 on two sides can be sufficiently wound and connected.

When the device is operated, firstly, the electric wire 35 is clamped into the inner rotating block 19, at this time, the elastic action of the sliding hole 15 makes the abutting slide block 14 abut against the electric wire 35, so that the electric wire 35 is stably clamped in the inner rotating block 19, then the telescopic pushing cylinder 13 is operated to drive the side rod 12 to move, so that the inner connecting box 44 moves to a position at the center of the electric wire 35, then the inner lifting driving motor 31 is operated to drive the output rod 26 to rotate, so that the inner thread sliding block 28 slides in the inner groove 25, so that the electric wires 35 at two sides approach each other, then the driving connecting motor 23 is operated to drive the meshing connecting gear 21 to rotate, and due to the power connection arrangement of the clamping rod 32, the matching inner cavity 33 and the outer sleeve 34, all the meshed connecting gears 21 can drive the external gear ring 18 to rotate, so that the electric wire 35 can indirectly rotate, and the electric wire 35 can be conveniently knotted by a person after the electric wire is branched.

When branching the electric wires, firstly before the electric wires 35 approach each other, the top power connection motor 76 operates to drive the top bevel gear 75 to rotate, the top bevel gear 75 drives the internal matching bevel gear 73 to rotate, the internal matching bevel gear 73 drives the connection power rod 71 to rotate, the internal thread matching blocks 41 slide to gradually separate the spreading blocks 42 from each other from a state of approaching each other, the internal connection box 44 can fully extend between the electric wires 35 after the electric wires 35 approach each other, and then the internal drive connection motor 53 operates to drive the matching threaded shaft 51 to rotate, the matching threaded shaft 51 rotates to drive the internal thread matching blocks 62 to move and then drive the movable matching plate 46 and the pushing connection shaft 45 to move to push out the internal rotating connection plate 43, after the front and rear matching threaded shafts 51 work, all the movable matching plates 46 and the pushing connecting shaft 45 can drive the internal rotating connecting plate 43 to be away from the internal connecting box body 44 to push, and then the internal rotating connecting plate 43 swings after working, so that the opening inner cavity 47 presses the electric wire on one side of the electric wire 35, and the electric wire is sufficiently branched to facilitate knotting of the electric wire.

The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims

1. Power line overhauls equipment, including the main part box, be provided with the side inner chamber in the main part box, the intercommunication is provided with inside groove in the side inner chamber end wall, the intracavity is provided with the electric wire of longitudinal symmetry in the side, be provided with in main part box and the intracavity of side with the electric wire carries out abundant centre gripping and rotates so that personnel twist the electric wire and become the tight device of twisting of pressing from both sides of root, be provided with in the intracavity end wall of side and be used for with the pencil of electric wire carries out the detached cross separator of cross.

2. The power line servicing apparatus of claim 1, wherein: press from both sides tightly to twist and move the device including set up in inside lift driving motor in the inside inslot, inside lift driving motor both sides power connection is provided with the output pole of symmetry, the inslot gliding internal thread sliding block that is provided with of inside, the internal thread sliding block with output pole screw-thread fit connects, goes up the downside the output pole screw thread is turned to opposite soon, internal thread sliding block one side is provided with outside piece, the pivoted is provided with inside turning block in the outside piece, be provided with the side inner chamber in the outside piece, be provided with in the inside turning block and be used for the centre gripping elasticity centre gripping subassembly in the electric wire, go up the downside be provided with between the outside piece and be used for making inside turning block carries out pivoted internal drive subassembly simultaneously.

3. The power line servicing apparatus of claim 2, wherein: the elastic clamping assembly comprises a plurality of sliding holes formed in the inner rotating block, a propping sliding block is arranged in each sliding hole in a sliding mode, a buffer spring is elastically arranged between the propping sliding block and the end wall of each sliding hole, the electric wire penetrates through the inner rotating block, and the propping sliding block props against the electric wire.

4. The power line servicing apparatus of claim 2, wherein: the internal transmission assembly comprises a rotating internal connecting rod arranged in the side inner cavity, a meshing connecting gear is arranged on one side of the internal connecting rod, an external gear ring is arranged on the outer surface of the meshing connecting gear in a meshed mode, the external gear ring is connected with the internal rotating block in a fixed matched mode, two sides of the external rotating block are arranged between the internal connecting rods, the external rotating block can still enable two sides of the external rotating block in a sliding process, the internal connecting rod keeps a sliding power structure connected with power, one side of the sliding power structure is provided with a driving connecting motor in the side inner cavity, and the driving connecting motor is connected with the meshing connecting gear in a power connection mode.

5. The power line servicing apparatus of claim 4, wherein: the sliding power structure comprises a clamping rod and an outer casing, wherein the clamping rod and the outer casing are fixedly connected in a matched mode through the inner connecting rod, a matched inner cavity is formed in the outer casing, and the clamping rod is connected with the matched inner cavity in a sliding and rotating matched mode.

6. The power line servicing apparatus of claim 1, wherein: the cross separator including set up in flexible push cylinder in the side inner chamber end wall, flexible push cylinder one side power connection is provided with the side lever, the side is provided with the internal connection box of symmetry about the side lever, the internal connection bottom half is provided with and is used for dialling the line and dials the subassembly of opening, be provided with in the middle of the internal connection box and be used for pressing the line orientation all around so that form the pressure of strip and move the subassembly.

7. The power line servicing apparatus of claim 6, wherein: the poking component comprises a transmission connection accommodating cavity arranged in the internal connection box, a top power connection motor is arranged in the end wall of the transmission connection accommodating cavity, a top bevel gear is arranged on the lower side of the top power connection motor in a power connection mode, a plurality of internal-fit bevel gears are arranged on the lower side of the top bevel gear in a meshed mode, a connection power rod is arranged on one side of each internal-fit bevel gear, the connection power rod runs through the transmission connection accommodating cavity in a rotating fit mode and is connected with the internal connection box in a rotating fit mode, a plurality of internal thread matching blocks are arranged on the bottom of the internal connection box in a sliding mode, a propping block is arranged on the lower side of each internal thread matching block.

8. The power line servicing apparatus of claim 6, wherein: the pressure moves the subassembly including set up in a plurality of inside rotating connecting plates in the internal connection box, inside rotating connecting plate one side is provided with the promotion connecting axle, promote the connecting axle with inside rotating connecting plate normal running fit is connected, inside rotating connecting plate is rotated by the driving motor drive, it is provided with the removal cooperation board to promote connecting axle one side, be provided with in the internal connection box all the drive structure that inside rotating connecting plate drive removed.

9. The power line servicing apparatus of claim 8, wherein: the drive structure include with the fixed pedestal of internal connection box end wall is fixed, fixed pedestal sets up perpendicularly from top to bottom in turn, be provided with the internal drive connection motor of symmetry in the fixed pedestal, power connection is provided with the cooperation screw thread axle between the internal drive connection motor, cooperation screw thread off-axial surface is provided with revolves to opposite thread line, gliding internal thread cooperation piece that is provided with in the fixed pedestal, internal thread cooperation piece with cooperation screw thread off-axial surface revolves to opposite thread line screw-thread fit connection, internal thread cooperation piece downside is provided with the removal cooperation board, the removal cooperation board with promote connecting axle fixed fit and connect.