CN112821279A

CN112821279A - Overhead transmission line gold utensil demolishs device

Info

Publication number: CN112821279A
Application number: CN202110088512.8A
Authority: CN
Inventors: 何德武
Original assignee: Individual
Current assignee: State Grid Shanghai Electric Power Co Ltd
Priority date: 2021-01-22
Filing date: 2021-01-22
Publication date: 2021-05-18
Anticipated expiration: 2041-01-22
Also published as: CN112821279B

Abstract

The invention discloses an overhead transmission line hardware fitting removing device which structurally comprises a collecting frame, a rack, an electric wire, a pipe body, a gear, a blade, a cutting motor, a guide rail, a holding structure and a connecting rod, wherein the holding structure is sleeved on the electric wire, the front end of the holding structure is connected with the pipe body, the outer side surface of the pipe body is connected with the guide rail and the rack respectively, the guide rail is matched with the bottom of the cutting motor, the top of the cutting motor is connected with the blade, the front of the cutting motor is connected with a rotating motor, the rotating motor is connected with the gear, the gear is meshed with the rack, and the bottom of the pipe body is connected with the collecting frame through the connecting rod. Can make the electric wire be located the centre of embracing the structure tightly all the time through correcting the structure, the deviation appears when avoiding the rotatory cutting gold utensil of blade, guarantees that the gold utensil can be dismantled smoothly, and through set up running gear in guide arm department, can make running gear hug closely the electric wire all the time, avoid and the telecommunications between appear not hard up unable walking.

Description

Overhead transmission line gold utensil demolishs device

Technical Field

The invention relates to the technical field of electricity, in particular to a hardware fitting dismounting device for an overhead transmission line.

Background

Install multiple gold utensil on overhead transmission line, the gold utensil generally exposes in the air, and the environment is abominable, can break down after long-time the use sometimes, needs people to go to change the gold utensil of damage or dismantle at this moment.

The device is demolishd to an overhead transmission line gold utensil of patent number 201910471479.X that has now been disclosed, it mainly includes to embrace tightly the piece and hold tightly the piece down, the lock can make on hold tightly the piece and lock each other down, on hold tightly and set up fluting and installation running gear on the piece, running gear includes walking motor and track chassis, on hold tightly the piece and hold tightly the one end of piece down and install cutting device, cutting device installs rack and last guide rail on holding tightly the piece respectively including cutting motor and rotating electrical machines, on holding tightly, holds tightly down and installs rack and lower guide rail on the piece respectively, rotating electrical machines and cutting motor fixed connection, the gear can with last rack and lower rack toothing, the cutting piece is connected through the pivot to the cutting motor. The invention is mainly used for removing hardware fittings on overhead transmission lines.

When the prior art is locked on the electric wire, the electric wire cannot be positioned in the middle of the holding block, if deviation occurs, the distance between the cutting device and the electric wire can have big-end-up difference when the cutting device rotates, and the cutting-off of the cutting fitting can not be guaranteed smoothly.

Disclosure of Invention

The invention mainly aims to overcome the defects in the prior art and provides a hardware fitting dismounting device for an overhead transmission line.

The invention is realized by adopting the following technical scheme: an overhead transmission line hardware fitting removing device structurally comprises a collecting frame, a rack, an electric wire, a pipe body, a gear, a blade, a cutting motor, a guide rail, a holding structure and a connecting rod, wherein the holding structure is sleeved on the electric wire, the front end of the holding structure is connected with the pipe body, the outer side surface of the pipe body is connected with the guide rail and the rack respectively, the guide rail is matched with the bottom of the cutting motor, the top of the cutting motor is connected with the blade, the front part of the cutting motor is connected with a rotating motor, the rotating motor is connected with the gear, the gear is meshed with the rack, the bottom of the pipe body is connected with the collecting frame through the connecting rod, the holding structure comprises a hinge, an upper holding block, a lower holding block, a plug pin plate, a plug pin, a movable cavity and a correcting structure, one side of the upper holding block and one side of the lower holding block are movably connected through the hinge, and the other side, the bolt plate is matched with the bolt, movable cavities are formed in the upper holding block and the lower holding block, and correction structures are installed in the movable cavities.

Preferably, the correcting structure comprises a power structure, a supporting structure and a resetting mechanism, wherein the power structure is matched with the supporting structure, and the supporting structure is connected with the resetting mechanism.

As optimizing, the power structure includes driving gear, micromotor, contact, current conducting plate, rotatory ring gear, swash plate, rotatory ring gear is established at the activity intracavity, the rotatory ring gear outside is connected with the driving gear, the driving gear is connected with the micromotor, the micromotor is equipped with 2 contacts, and 2 contacts inlay respectively and embrace tight piece bottom, the current conducting plate inlays and embraces tight piece top down, rotatory ring gear inboard is connected with the swash plate, the swash plate side is connected with rotatory ring gear inboard through the anchor strut.

Preferably, the rotary toothed ring is divided into two halves which are respectively arranged in the upper holding block and the lower holding block.

As optimization, bearing structure includes guide arm, recess, strake, roller, elasticity piece, fixed block, elastic plate, spring, the guide arm both sides are connected with the strake respectively, guide arm one end is connected with canceling release mechanical system, and the roller is installed to the other end, be equipped with the recess on the guide arm, the recess both sides are connected with the fixed block respectively, the elasticity piece is established between individual fixed block, elasticity piece bottom is connected with the elastic plate, the elastic plate is established in the fixed block below, the elastic plate is connected with the recess bottom through the spring.

As an optimization, the number of the supporting structures is 4, the guide rod of one supporting structure is provided with a walking device, the walking device comprises a walking motor, a large gear and a small gear, the walking motor is arranged in the guide rod and is connected with the large gear, the large gear is meshed with the small gear, and the small gear is connected with the roller.

As optimization, canceling release mechanical system includes stay cord, assembly pulley, reset spring, spring holder, spout, the spout is established in last enclasping piece, the assembly pulley is installed to spout one end, be equipped with the spring holder in the spout, the one end that the assembly pulley was installed with the spout through reset spring to the spring holder is connected, the spring holder is connected with the one end of stay cord, the stay cord other end passes the assembly pulley and is connected with the guide arm.

As optimization, the inclined plates are provided with 4 groups, and 4 inclined plates are arranged in sequence in one group.

Preferably, the elastic block is narrow on one side and is wider on one side, the narrow side is lower than the wide side, and the highest height of the narrow side does not exceed the groove.

Preferably, the pipe body is also divided into two parts which are respectively connected with the upper holding block and the lower holding block.

Advantageous effects

When the electric wire clasping device is used, after the upper clasping block and the lower clasping block are closed and fixed through the bolts, the conductive plate is simultaneously contacted with the contact plates, the micro motor is started to drive the driving gear to rotate, the driving gear drives the rotating toothed ring to rotate clockwise, the inclined plate on the rotating toothed ring pushes the elastic block on the guide rod towards the middle, the guide rod continuously extends out until 4 guide rods are simultaneously released and tightly attached to the electric wire, the micro motor stops working, the electric wire can be kept in the middle of the clasping structure, the large gear is driven to rotate through the traveling motor, the small gear drives the small gear to rotate, the small gear drives the roller to travel on the electric wire, and the elastic block is arranged to smoothly pass through the rotating toothed ring and the inclined plate and be pushed by the inclined plate.

Compared with the prior art, the invention has the beneficial effects that: can make the electric wire be located the centre of embracing the structure tightly all the time through correcting the structure, the deviation appears when avoiding the rotatory cutting gold utensil of blade, guarantees that the gold utensil can be dismantled smoothly, and through set up running gear in guide arm department, can make running gear hug closely the electric wire all the time, avoid and the telecommunications between appear not hard up unable walking.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of an overhead transmission line hardware fitting dismantling device.

Fig. 2 is a cross-sectional view of the clasping structure of the present invention.

Fig. 3 is a schematic structural view of the power structure of the present invention.

Fig. 4 is a schematic structural diagram of the support structure of the present invention.

FIG. 5 is a schematic view of the internal structure of the recess in the support structure of the present invention.

Fig. 6 is an enlarged schematic view of a portion a in fig. 2.

Fig. 7 is a schematic structural view of a guide rod provided with a walking device according to the present invention.

In the figure: the collecting frame 1, a rack 2, an electric wire 3, a pipe body 4, a gear 5, a blade 6, a cutting motor 7, a guide rail 8, a holding structure 9, a connecting rod 10, a hinge 90, an upper holding block 91, a lower holding block 92, a latch plate 93, a latch 94, a movable cavity 95, a correcting structure 96, a power structure a, a supporting structure b, a reset mechanism c, a driving gear 1, a micro-motor a2, a contact piece a3, a conductive plate a4, a rotating toothed ring a5, an inclined plate a6, a guide rod b1, a groove b2, an edge strip b3, a roller b4, an elastic block b5, a fixed block b6, an elastic plate b7, a spring b8, a pull rope c1, a pulley block c2, a reset spring c3, a spring seat c4, a sliding groove c5, a traveling device 97, a traveling motor 970, a large gear 971 and a.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1 to 6, the present invention provides a technical solution for removing hardware fittings of overhead transmission lines: the structure of the device comprises a collecting frame 1, a rack 2, an electric wire 3, a pipe body 4, a gear 5, a blade 6, a cutting motor 7, a guide rail 8, a holding structure 9 and a connecting rod 10, wherein the holding structure 9 is sleeved on the electric wire 3, the front end of the holding structure 9 is connected with the pipe body 4, the outer side surface of the pipe body 4 is connected with the guide rail 8 and the rack 2 respectively, the guide rail 8 is matched with the bottom of the cutting motor 7, the top of the cutting motor 7 is connected with the blade 6, the front part of the cutting motor 7 is connected with a rotating motor which is connected with the gear 5, the gear 5 is meshed with the rack 2, the bottom of the pipe body 4 is connected with the collecting frame 1 through the connecting rod 10, the holding structure 9 comprises a hinge 90, an upper holding block 91, a lower holding block 92, a bolt plate 93, a bolt 94, a movable cavity 95 and a correcting structure 96, one side of the upper holding block 91 and the lower, the other sides of the upper enclasping block 91 and the lower enclasping block 92 are respectively connected with a latch plate 93, the latch plate 93 is matched with a latch 94, movable cavities 95 are respectively arranged inside the upper enclasping block 91 and the lower enclasping block 92, a correction structure 96 is installed in the movable cavities 95, the correction structure 96 comprises a power structure a, a supporting structure b and a reset mechanism c, the power structure a is matched with the supporting structure b, the supporting structure b is connected with the reset mechanism c, the power structure a comprises a driving gear a1, a micro motor a2, a contact sheet a3, a conductive plate a4, a rotary toothed ring a5 and an inclined plate a6, the rotary toothed ring a5 is arranged in the movable cavity 95, the outer side of the rotary toothed ring a5 is connected with the driving gear a1, the driving gear a1 is connected with the micro motor a2, the micro motor a2 is provided with 2

contact sheets

3, and 2 contact sheets a3 are respectively embedded at the bottom of the upper enclasping block, the conductive plate a4 is embedded at the top of the lower clasping block 92, the inner side of the rotating toothed ring a5 is connected with an inclined plate a6, the side surface of the inclined plate a6 is connected with the inner side of the rotating toothed ring a6 through a reinforcing rod a6, the rotating toothed ring a6 is divided into two halves and is respectively arranged in the upper clasping block 91 and the lower clasping block 92, the supporting structure b comprises a guide rod b6, a groove b6, an edge b6, a roller b6, an elastic block b6, a fixed block b6, an elastic plate b6 and a spring b6, the two sides of the guide rod b6 are respectively connected with the edge b6, one end of the guide rod b6 is connected with a reset mechanism c, the other end of the guide rod b6 is provided with the groove b6, the two sides of the groove b6 are respectively connected with the b6, the elastic block b6 is arranged between 2 b6, the bottom of the elastic block b6 is connected with the elastic plate b6, the fixed block b6 is connected with the fixed block b6 through the groove b6, the elastic plate 6, the reset mechanism c comprises a pull rope c1, a pulley block c2, a reset spring c3, a spring seat c4 and a sliding groove c5, the sliding groove c5 is arranged in the upper holding block 91, the pulley block c2 is installed at one end of the sliding groove c5, a spring seat c4 is arranged in the sliding groove c5, the spring seat c4 is connected with one end, provided with the pulley block c2, of the sliding groove c5 through the reset spring c3, the spring seat c4 is connected with one end of the pull rope c1, the other end of the pull rope c1 penetrates through the pulley block c2 to be connected with a guide rod b1, 4 groups of the inclined plates a6 are arranged, 4 guide rods are sequentially arranged in one group and can respectively push 4 guide rods b1, and the pipe body 4 is divided into two parts and respectively connected with the upper holding block 91.

The working principle is as follows: when the electric wire clasping device is used, after the upper clasping block 91 and the lower clasping block 92 are closed and fixed through the bolt 94, the conductive plate a4 is simultaneously contacted with the 2 contact pieces a3, so that the micro motor a2 is started to drive the driving gear a1 to rotate, the driving gear a1 drives the rotating toothed ring a5 to rotate clockwise, the inclined plate a6 on the rotating toothed ring a5 pushes the elastic blocks b5 on the guide rod b1 towards the middle, the guide rod b1 continuously extends out until the 4 guide rods b1 are simultaneously released and tightly attached to the electric wire 3, the micro motor a2 stops working, so that the electric wire 3 can be kept in the middle of the clasping structure 9, and when the place where the rotating toothed ring a5 does not have the inclined plate a6 moves to the elastic blocks b5, the return spring c3 can drive the guide rod b1 to return through the pull rope c 1.

Example 2

Referring to fig. 1 to 7, the present invention provides a technical solution for removing hardware fittings of overhead transmission lines: the structure of the device comprises a collecting frame 1, a rack 2, an electric wire 3, a pipe body 4, a gear 5, a blade 6, a cutting motor 7, a guide rail 8, a holding structure 9 and a connecting rod 10, wherein the holding structure 9 is sleeved on the electric wire 3, the front end of the holding structure 9 is connected with the pipe body 4, the outer side surface of the pipe body 4 is connected with the guide rail 8 and the rack 2 respectively, the guide rail 8 is matched with the bottom of the cutting motor 7, the top of the cutting motor 7 is connected with the blade 6, the front part of the cutting motor 7 is connected with a rotating motor which is connected with the gear 5, the gear 5 is meshed with the rack 2, the bottom of the pipe body 4 is connected with the collecting frame 1 through the connecting rod 10, the holding structure 9 comprises a hinge 90, an upper holding block 91, a lower holding block 92, a bolt plate 93, a bolt 94, a movable cavity 95 and a correcting structure 96, one side of the upper holding block 91 and the lower, the other sides of the upper enclasping block 91 and the lower enclasping block 92 are respectively connected with a latch plate 93, the latch plate 93 is matched with a latch 94, movable cavities 95 are respectively arranged inside the upper enclasping block 91 and the lower enclasping block 92, a correction structure 96 is installed in the movable cavities 95, the correction structure 96 comprises a power structure a, a supporting structure b and a reset mechanism c, the power structure a is matched with the supporting structure b, the supporting structure b is connected with the reset mechanism c, the power structure a comprises a driving gear a1, a micro motor a2, a contact sheet a3, a conductive plate a4, a rotary toothed ring a5 and an inclined plate a6, the rotary toothed ring a5 is arranged in the movable cavity 95, the outer side of the rotary toothed ring a5 is connected with the driving gear a1, the driving gear a1 is connected with the micro motor a2, the micro motor a2 is provided with 2

contact sheets

3, and 2 contact sheets a3 are respectively embedded at the bottom of the upper enclasping block, the conductive plate a4 is embedded at the top of the lower clasping block 92, the inner side of the rotating toothed ring a5 is connected with an inclined plate a6, the side surface of the inclined plate a6 is connected with the inner side of the rotating toothed ring a6 through a reinforcing rod a6, the rotating toothed ring a6 is divided into two halves and is respectively arranged in the upper clasping block 91 and the lower clasping block 92, the supporting structure b comprises a guide rod b6, a groove b6, an edge b6, a roller b6, an elastic block b6, a fixed block b6, an elastic plate b6 and a spring b6, the two sides of the guide rod b6 are respectively connected with the edge b6, one end of the guide rod b6 is connected with a reset mechanism c, the other end of the guide rod b6 is provided with the groove b6, the two sides of the groove b6 are respectively connected with the b6, the elastic block b6 is arranged between 2 b6, the bottom of the elastic block b6 is connected with the elastic plate b6, the fixed block b6 is connected with the fixed block b6 through the groove b6, the elastic plate 6, the reset mechanism c comprises a pull rope c1, a pulley block c2, a reset spring c3, a spring seat c4 and a chute c5, the chute c5 is arranged in the upper holding block 91, the pulley block c2 is installed at one end of the chute c5, a spring seat c4 is arranged in the chute c5, the spring seat c4 is connected with one end of the chute c5, which is provided with the pulley block c2, through the reset spring c3, the spring seat c4 is connected with one end of the pull rope c1, the other end of the pull rope c1 penetrates through the pulley block c2 to be connected with the guide rod b1, the inclined plate a6 is provided with 4 groups, 4 guide rods b1 are sequentially arranged in one group and can be respectively pushed, the pipe body 4 is also divided into two groups and is respectively connected with the upper holding block 91 and the lower holding block 92, the support structure b is provided with 4 groups, a walking device 97 is installed on the guide rod b1 of one support structure b, and the walking device, Pinion 972, walking motor 970 is established in guide arm b1, walking motor 970 is connected with gear wheel 971, gear wheel 971 meshes with pinion 972, pinion 972 is connected with roller b4, elasticity piece b5 one side wide one side is narrow, and narrow one side is less than wide one side, and the highest height on narrow one side does not exceed recess b2, is convenient for push down when passing through swash plate a6, and rotatory ring gear a5 is higher than rotatory ring gear a5, can not contact with rotatory ring gear a 5.

The working principle is as follows: the large gear 971 is driven to rotate by the walking motor 970, the large gear 971 drives the small gear 972 to rotate, the small gear 972 drives the roller b4 to walk on the electric wire 3, and when the elastic block b5 is arranged, the elastic block b5 can smoothly pass through the inclined plate a6 and is pushed by the inclined plate a 6.

Compared with the prior art, the invention has the technical progress that: can make the electric wire be located the centre of embracing the structure tightly all the time through correcting the structure, the deviation appears when avoiding the rotatory cutting gold utensil of blade, guarantees that the gold utensil can be dismantled smoothly, and through set up running gear in guide arm department, can make running gear hug closely the electric wire all the time, avoid and the telecommunications between appear not hard up unable walking.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims

1. The overhead transmission line hardware fitting dismantling device structurally comprises a collecting frame (1), a rack (2), an electric wire (3), a pipe body (4), a gear (5), a blade (6), a cutting motor (7), a guide rail (8), a holding structure (9) and a connecting rod (10), wherein the holding structure (9) is sleeved on the electric wire (3), the front end of the holding structure (9) is connected with the pipe body (4), the outer side surface of the pipe body (4) is connected with the guide rail (8) and the rack (2) respectively, the guide rail (8) is matched with the bottom of the cutting motor (7), the top of the cutting motor (7) is connected with the blade (6), the front part of the cutting motor (7) is connected with a rotating motor which is connected with the gear (5), the gear (5) is meshed with the rack (2), the bottom of the pipe body (4) is connected with the collecting frame (1) through the connecting rod (10), the method is characterized in that:

embrace structure (9) including hinge (90), go up to embrace tightly piece (91), embrace tightly piece (92), bolt board (93), bolt (94), activity chamber (95), correction structure (96) down, go up to embrace tightly piece (91) and embrace tightly piece (92) one side down and pass through hinge (90) swing joint, go up to embrace tightly piece (91) and embrace tightly piece (92) opposite side down and be connected with bolt board (93) respectively, bolt board (93) cooperate with bolt (94), go up to embrace tightly piece (91) and embrace tightly piece (92) inside all to be equipped with activity chamber (95) down, install correction structure (96) in activity chamber (95).

2. The overhead transmission line fitting dismantling device of claim 1, characterized in that: the correcting structure (96) comprises a power structure (a), a supporting structure (b) and a resetting mechanism (c), wherein the power structure (a) is matched with the supporting structure (b), and the supporting structure (b) is connected with the resetting mechanism (c).

3. The overhead transmission line fitting dismantling device of claim 2, characterized in that: the power structure (a) comprises a driving gear (a1), a micro motor (a2), contact plates (a3), a conductive plate (a4), a rotary toothed ring (a5) and an inclined plate (a6), wherein the rotary toothed ring (a5) is arranged in a movable cavity (95), the outer side of the rotary toothed ring (a5) is connected with the driving gear (a1), the driving gear (a1) is connected with the micro motor (a2), the micro motor (a2) is provided with 2 contact plates (a3), 2 contact plates (a3) are respectively embedded at the bottom of an upper clasping block (91), the conductive plate (a4) is embedded at the top of a lower clasping block (92), the inner side of the rotary toothed ring (a5) is connected with the inclined plate (a6), and the side of the inclined plate (a6) is connected with the inner side of the rotary toothed ring (a5) through a reinforcing rod (a 61).

4. The overhead transmission line fitting dismantling device of claim 3, characterized in that: the rotary gear ring (a5) is divided into two halves and is respectively arranged in the upper holding block (91) and the lower holding block (92).

5. The overhead transmission line fitting dismantling device of claim 2, characterized in that: the supporting structure (b) comprises a guide rod (b1), a groove (b2), edge strips (b3), rollers (b4), an elastic block (b5), fixing blocks (b6), an elastic plate (b7) and springs (b8), wherein the edge strips (b3) are connected to two sides of the guide rod (b1) respectively, one end of the guide rod (b1) is connected with a resetting mechanism (c), the rollers (b4) are mounted at the other end of the guide rod (b1), the groove (b2) is formed in the guide rod (b1), the fixing blocks (b6) are connected to two sides of the groove (b2) respectively, the elastic block (b5) is arranged between 2 fixing blocks (b6), the bottom of the elastic block (b5) is connected with the elastic plate (b7), the elastic plate (b7) is arranged below the fixing blocks (b6), and the elastic plate (b7) is connected with the bottom of the groove (b2) through the springs (b 8).

6. The overhead transmission line fitting dismantling device of claim 5, characterized in that: bearing structure (b) is equipped with 4, and running gear (97) are installed to guide arm (b1) of one of them bearing structure (b), running gear (97) are including walking motor (970), gear wheel (971), pinion (972), walking motor (970) is established in guide arm (b1), walking motor (970) is connected with gear wheel (971), gear wheel (971) meshes with pinion (972) mutually, pinion (972) is connected with roller (b 4).

7. The overhead transmission line fitting dismantling device of claim 2, characterized in that: the resetting mechanism (c) comprises a pull rope (c1), a pulley block (c2), a resetting spring (c3), a spring seat (c4) and a sliding groove (c5), the sliding groove (c5) is arranged in the upper clasping block (91), the pulley block (c2) is installed at one end of the sliding groove (c5), a spring seat (c4) is arranged in the sliding groove (c5), the spring seat (c4) is connected with one end, provided with the pulley block (c2), of the sliding groove (c5) through the resetting spring (c3), the spring seat (c4) is connected with one end of the pull rope (c1), and the other end of the pull rope (c1) penetrates through the pulley block (c2) to be connected with a guide rod (b 1).

8. The overhead transmission line fitting dismantling device of claim 3, characterized in that: the sloping plates (a6) are provided with 4 groups, and 4 sloping plates are arranged in sequence.