CN112421475A - Operating rod for quickly lapping drainage wire and using method thereof - Google Patents

Abstract

The invention discloses an operating rod for quickly overlapping drainage wires and a using method thereof. The operating rod comprises a fixed self-locking wire clamp and an insulating rod, wherein the fixed self-locking wire clamp comprises a flow guide wire clamp main body, a rotating assembly and a positioning assembly, the rotating assembly is used for being clamped on the insulating rod, and the positioning assembly is used for fixing a drainage wire; the positioning assembly and the rotating assembly are respectively assembled at the upper end and the lower end of the guide wire clamp main body; the rotation of the rotating assembly relative to the main body of the current-guiding wire clamp is realized through the rotation of the insulating rod, and the rotating assembly locks or loosens a main conductor clamped in the main body of the current-guiding wire clamp; and the fixed self-locking wire clamp is assembled on the insulating rod and is used for connecting current from the main lead wire to the drainage wire. The insulation rod clamping device is simple and convenient and quick to operate, stable in clamping force, capable of automatically locking and preventing falling, capable of being opened and closed quickly, capable of avoiding complex disassembly processes, capable of effectively reducing physical load of operators in the insulation rod operation process, capable of reducing operation intensity and capable of improving operation efficiency.

Description

Operating rod for quickly lapping drainage wire and using method thereof

Technical Field

The invention relates to the field of insulating rod operation methods, in particular to an operating rod for quickly overlapping a drainage wire and a using method thereof.

Background

In the live-line maintenance process of a 10KV power line, the drainage wire is disconnected by adopting an operating rod operation method, which is the most common operation method, the least tools and equipment, the lightest tool weight and the highest efficiency.

At present, due to the upgrading of line equipment and the continuous progress of operation methods, the requirements on equipment safety and personnel safety are becoming stricter. However, the conventional operating mode of shorting the drainage wire by the operating lever is to fix the power receiving side lead and then place the power receiving side lead in a suspended state, and then connect the drainage wires phase by phase.

The operating rod for rapidly overlapping the drainage wire is required to be developed to enable the operating rod to be rapidly overlapped in the process of disconnecting the lead wire, the safe distance is increased through the operation of the insulating long rod, the operation safety is improved, and the smooth operation flow is ensured.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides an operating rod for quickly overlapping drainage wires and a using method thereof.

In order to achieve the purpose, the invention adopts the technical scheme that: an operating rod for fast overlapping drainage wires comprises a fixed self-locking wire clamp and an insulating rod,

the fixed self-locking wire clamp comprises a flow guide wire clamp body, a rotating assembly and a positioning assembly, wherein the rotating assembly is used for being clamped on the insulating rod, and the positioning assembly is used for fixing a drainage wire;

the positioning component for fixing the drainage wire and the rotating component for clamping the insulating rod are respectively assembled at the upper end and the lower end of the main body of the drainage wire clamp; the rotation of the rotating assembly relative to the main body of the current-guiding wire clamp is realized through the rotation of the insulating rod, and the rotating assembly locks or loosens a main conductor clamped in the main body of the current-guiding wire clamp;

and the fixed self-locking wire clamp is assembled on the insulating rod and is used for connecting current from the main lead wire to the drainage wire.

After the operation rod is assembled, the main guide wire can be locked by rotating the rotating assembly clamped on the insulating rod, so that the fixed self-locking wire clamp is connected with the main guide wire and the drainage wire together, and power supply is recovered.

As a further supplement to the above technical scheme, the main body of the diversion clamp is provided with a self-locking block, a rotating assembly for being clamped on the insulating rod is provided with a positioning pin matched with a Z-shaped groove at the upper end of the insulating rod, the Z-shaped groove is convenient for the disassembly and assembly of the main body of the diversion clamp, the insulating rod provides a safe distance, and the safety of operators is ensured;

the rotating assembly is connected with the diversion clamp main body through a rotating shaft, and the main guide wire is locked on the diversion clamp main body through a main guide wire positioning block arranged at the head part of the rotating shaft; the positioning assembly for fixing the drainage wire is connected with the drainage wire clamp main body through the positioning bolt, and the drainage wire is fixed on the drainage wire clamp main body through the drainage wire positioning block arranged at the head of the positioning bolt.

As a further supplement to the above technical solution, the current-guiding wire clamp body includes a conductive body, a fixed shaft, and a self-locking block, the conductive body and the self-locking block are coupled by the fixed shaft, and the self-locking block rotates around the fixed shaft to realize locking or unlocking;

the upper end of the guide wire clamp main body is provided with a drainage wire limiting groove for placing a drainage wire; when the self-locking block is locked, a groove is formed in the middle of the main body of the diversion wire clamp, and the main guide wire is locked by the rotating assembly; the lower end of the diversion wire clamp main body is provided with a threaded hole for screwing the rotating assembly.

As a further supplement to the above technical solution, the diversion clamp main body further comprises a spring plate, one end of the spring plate is fixed on the self-locking block, and the other end of the spring plate is connected to the conductive main body at the fixed shaft;

when the self-locking block is clamped into the main conductor, the self-locking block is closed, the elastic sheet is compressed, and self-locking is completed; when the device is disassembled, the main guide wire is loosened, and the elastic sheet drives the self-locking block to open under the action of the elastic force.

As a further supplement to the above technical solution, the rotating assembly for being clamped on the insulating rod includes a rotating shaft, a main conducting wire positioning block, a first fixing pin and a positioning pin, wherein the rotating shaft is a bolt;

a main guide line positioning block is arranged at the upper part of the rotating shaft and is fixed by a first fixing pin, and a positioning pin is arranged at the lower part of the rotating shaft; the top surface of the main guide wire positioning block is a concave surface, and the concave surface can increase the contact area of the main guide wire positioning block and the main guide wire and increase the friction force;

the rotating assembly is perpendicular to the main conductor, and the rotating assembly is integrally locked or unlocked on the conductive main body through the rotating shaft.

As a further supplement to the above technical solution, the positioning assembly for fixing the drainage wire comprises a positioning bolt, a drainage wire positioning block and a second fixing pin;

a groove is formed above the positioning bolt; the drainage wire positioning block is locked on the positioning bolt through a second fixing pin;

the top surface of the drainage wire positioning block is a concave surface, and the concave surface can increase the contact area between the drainage wire positioning block and a drainage wire and increase the friction force; the positioning component is vertical to the drainage wire, and the whole positioning component is locked or loosened with the drainage wire limiting groove through the positioning bolt.

As a further supplement to the above technical solution, the upper end of the conductive body is provided with a fixed shaft mounting hole;

the fixed shaft is embedded in the fixed shaft mounting hole and is used for connecting the conductive main body and the self-locking block; the threaded hole is internally screwed with a rotating shaft.

As a further supplement to the above technical scheme, a cavity is formed in the self-locking block, a spring plate mounting hole is formed in the inner wall of the cavity, and one end of a spring plate is inserted into the spring plate mounting hole; one side of the self-locking block is open and can rotate around the upper end of the conductive main body.

As a further supplement to the above technical solution, the conductive main body, the elastic piece, the rotation shaft, the main guide wire positioning block, the positioning bolt, and the drainage wire positioning block are all made of metal materials, and the self-locking block is made of an insulating material.

The invention also provides a using method of the operating rod for quickly overlapping the drainage wires, which comprises the following steps:

s1, overlapping the drainage wire:

s11, aligning a positioning pin for fixing the lower end of the self-locking wire clamp to the Z-shaped groove on the insulating rod;

s12, adjusting the fixed self-locking wire clamp to the bottom of the Z-shaped groove on the insulating rod;

s13, the drainage wire is loaded into the drainage wire limiting groove and locked in the groove through a positioning component for fixing the drainage wire, and the preparation of the drainage wire is finished;

s14, at the moment, the self-locking block on the fixed self-locking wire clamp is opened, and the insulating rod is lifted and clamped on the main guide wire;

s15, rotating the insulating rod, and locking the main conductor through the rotating assembly until the fixed self-locking wire clamp completely locks the main conductor;

s16, taking down the insulating rod along the shape of the Z-shaped groove, and completing lap joint;

s2, detaching the drainage wire:

s21, operating the insulating rod, and aligning the Z-shaped groove with a positioning pin for fixing the lower end of the self-locking wire clamp; the integral assembly is completed;

s23, rotating the insulating rod, and loosening the rotating assembly screwed at the position of the insulating rod;

s24, pulling the operating rod laterally, opening the self-locking block under the action of the elastic sheet, and taking down the fixed self-locking wire clamp;

and S25, removing the drainage wire, and finishing the operation.

The operating principle of the operating rod for quickly overlapping the drainage wire provided by the invention is as follows: the complicated overlapping step is avoided through the pre-installed drainage wire, the insulating rod is rotated to control the locking or loosening of the rotating assembly for fixing the lower end of the self-locking wire clamp, the self-locking is completed through hanging the main conductor, the whole overlapping process only needs to be hung on the main conductor for locking, the operation steps of breaking and connecting the lead are greatly simplified, and the operation efficiency is improved.

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

(1) through the self-locking design, the main guide line is limited in the fixed self-locking wire clamp, so that the main guide line is prevented from shaking due to wind, being not hooked in place and the like;

(2) the drainage wire is fixed in advance, so that the complicated operation steps of the traditional operation are greatly simplified, and the hanging state of the drainage wire can be ensured;

(3) compared with the traditional insulating rod operation, the fixed self-locking wire clamp provided by the invention is simple and quick to operate, is convenient to install and disassemble, can be quickly opened and closed, avoids a complex disassembling process, and further improves the operation efficiency.

Drawings

FIG. 1 is a schematic structural view of an operating lever for quick overlapping a drainage wire according to the present invention;

fig. 2-3 are perspective views of the fixed self-locking wire clamp of the present invention;

FIG. 4 is an exploded view of the present invention fixing self-locking wire clamp;

FIG. 5 is a schematic view of the rotating assembly of the present invention;

FIG. 6 is a schematic structural view of a positioning assembly of the present invention;

FIG. 7 is a schematic structural diagram of a conductive body according to the present invention;

FIG. 8 is a schematic structural view of the self-locking block of the present invention;

FIG. 9 is a schematic structural view of an operating lever for self-locking of a quick-splicing drainage wire according to the present invention;

description of reference numerals:

100. fixing the self-locking wire clamp;

110. a diversion clamp main body; 111. a conductive body; 112. A fixed shaft; 113. a self-locking block; 114. A drainage wire limiting groove; 115. a spring plate; 116. a fixed shaft mounting hole; 117. a threaded hole; 118. a spring plate mounting hole;

120. a rotating assembly; 121. a rotating shaft; 122. a main guide line positioning block; 123. a first fixing pin; 124. positioning pins;

130. a positioning assembly; 131. positioning the bolt; 132. a drainage wire positioning block; 133. a second fixing pin;

200. an insulating rod.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the invention easy to understand, the following description further explains how the invention is implemented by combining the attached drawings and the detailed implementation modes.

Referring to fig. 1, 2, 3 and 9, the operating rod for rapidly overlapping a drainage wire according to the present invention includes a fixed self-locking wire clamp 100 and an insulating rod 200; as shown in fig. 4, the fixed self-locking wire clamp 100 includes a current-guiding wire clamp body 110, a rotating component 120 for being clamped on an insulating rod, and a rotating component 130 for fixing a current-guiding wire.

Specifically, referring to fig. 2, 3 and 4, the rotating assembly 120 for being fastened to the insulating rod is installed at the lower end of the current guiding clamp body 110, and the positioning assembly 130 for fixing the drainage wire is installed at the upper right end of the current guiding clamp body 110.

Specifically, in the present invention, as shown in fig. 5, the rotating assembly 120 for being snapped at the position of the insulating rod includes a rotating shaft 121, a main conducting wire positioning block 122, a first fixing pin 123 and a positioning pin 124. A main guide line positioning block 122 is arranged above the rotating shaft 121, and a positioning pin 124 is embedded below the rotating shaft; the main guide line positioning block 123 is locked on the rotating shaft 121 by a first fixing pin 123.

More specifically, the top of the main guide wire positioning block 122 is a concave surface, which can increase the contact area between the main guide wire positioning block and the drainage wire and increase the friction force; the rotating member 120 is perpendicular to the main conductor, and the rotating member 120 can be integrally locked or unlocked to or from the conductive body 111 through the rotating shaft 121.

Specifically, in the present invention, as shown in fig. 6, the positioning assembly 130 for fixing the drainage wire includes a positioning bolt 131, a drainage wire positioning block 132, and a second fixing pin 133. A drainage wire positioning block 132 is arranged above the positioning bolt 131; the drainage wire positioning block 132 is locked to the positioning bolt 131 by a second fixing pin 133.

More specifically, the top surface of the drainage wire positioning block 132 is a concave surface, which can increase the contact area between the drainage wire positioning block and the drainage wire and increase the friction force; the positioning assembly 130 is perpendicular to the drainage wire, and the positioning assembly 130 can be integrally locked or unlocked on the conductive body 111 through the positioning bolt 131.

More specifically, as shown in fig. 7, the upper end of the conductive main body 111 is provided with a drainage wire limiting groove 115 and a fixing shaft mounting hole 116, and the lower end is provided with a threaded hole 117; the drainage wire limiting groove 115 is used for installing a drainage wire, and the drainage wire is fixed in the drainage wire limiting groove 115 through the positioning assembly 130; the fixing shaft mounting hole 116 is used for being embedded into the fixing shaft 112 and connecting the conductive main body 111 and the self-locking block 113; the threaded hole 117 is used to connect a rotating assembly.

More specifically, as shown in fig. 8, a cavity is formed in the self-locking block 113, a spring plate mounting hole 118 is formed in the inner wall of the cavity, and one end of a spring plate 115 is inserted into the spring plate mounting hole 118; one side of the self-locking block 113 is open and can rotate around the upper end of the conductive main body 111.

In the present invention, the conductive body 111, the rotating shaft 121, the main lead positioning block 122, the positioning bolt 131, the drainage lead positioning block 132, and the elastic sheet 115 are all made of aluminum alloy materials. The self-locking piece 113 is made of a rubber insulating material.

The invention provides a using method of an operating rod for rapidly overlapping drainage wires, which specifically comprises the following steps:

s1, overlapping the drainage wire:

s11, aligning the lower end positioning pin for fixing the self-locking wire clamp 100 with the Z-shaped groove on the insulating rod 200.

And S12, adjusting the fixed self-locking wire clamp 100 to the bottom of the Z-shaped groove on the insulating rod 200.

And S13, the drainage wire is loaded into the drainage wire limiting groove and locked in the groove through the positioning component for fixing the drainage wire, and the preparation of the drainage wire is finished.

And S14, at the moment, the self-locking block on the fixed self-locking wire clamp 100 is opened, and the insulating rod 200 is lifted to be clamped on the main guide wire.

S15, rotating the insulating rod clockwise, and locking the main conductor through a rotating assembly clamped at the position of the insulating rod until the self-locking wire clamp 100 is fixed to completely lock the main conductor.

And S16, taking down the insulating rod according to the shape of the Z-shaped groove, and completing lap joint.

S2, detaching the drainage wire:

s21, operating the insulating rod 200, and aligning the Z-shaped groove with a positioning pin for fixing the lower end of the self-locking wire clamp 100; and finishing the integral assembly.

S23, rotating the insulating rod 200 and loosening the rotating assembly clamped at the position of the insulating rod.

S24, pulling the operating rod 200 laterally, the self-locking block is opened under the action of the elastic sheet, and the self-locking wire clamp 100 is taken down and fixed.

And S25, removing the drainage wire, and finishing the operation.

Finally, the above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent structures or equivalent processes performed by the present invention or directly or indirectly applied to other related technical fields using the contents of the present specification and the attached drawings are included in the scope of the present invention.

Claims (10)

1. The utility model provides an action bars of quick overlap joint drainage wire, includes fixed auto-lock fastener (100) and insulator spindle (200), its characterized in that:

the fixed self-locking wire clamp (100) comprises a flow guide wire clamp main body (110), a rotating assembly (120) used for being clamped on the insulating rod and a positioning assembly (130) used for fixing a drainage wire;

the positioning component (130) for fixing the drainage wire and the rotating component (120) for clamping the insulating rod are respectively assembled at the upper end and the lower end of the drainage wire clamp main body (110); the rotation of the rotating assembly (120) relative to the current-guiding wire clamp body (110) is realized through the rotation of the insulating rod (200), and the rotating assembly (120) locks or releases a main conductor clamped in the current-guiding wire clamp body (110);

the fixed self-locking wire clamp (100) is assembled on the insulating rod (200) and then used for connecting current from the main lead to the drainage lead.

2. The operating rod for rapidly overlapping drainage wires according to claim 1, characterized in that:

the main body (110) of the flow guide wire clamp is provided with a self-locking block (113), and a rotating assembly (120) which is used for being clamped on the insulating rod is provided with a positioning pin (124) which is matched with a Z-shaped groove at the upper end of the insulating rod (200);

the rotating assembly (120) is connected with the diversion clamp main body (110) through a rotating shaft (121), and a main guide wire is locked on the diversion clamp main body (110) through a main guide wire positioning block (122) arranged at the head of the rotating shaft (121); the positioning assembly (130) for fixing the drainage wire is connected with the drainage wire clamp main body (110) through a positioning bolt (131), and the drainage wire is fixed on the drainage wire clamp main body (110) through a drainage wire positioning block (132) arranged at the head of the positioning bolt (131).

3. The operating rod for rapidly overlapping drainage wires according to claim 2, characterized in that:

the guide wire clamp main body (110) comprises a conductive main body (111), a fixing shaft (112) and a self-locking block (113), the conductive main body (111) is connected with the self-locking block (113) in a shaft mode through the fixing shaft (112), and the self-locking block (113) rotates around the fixing shaft to achieve locking or unlocking;

the upper end of the guide wire clamp main body (110) is provided with a drainage wire limiting groove (114) for placing a drainage wire; when the self-locking block is locked, a groove is formed in the middle of the guide wire clamp main body (110), and a main guide wire is locked by the rotating assembly (120); the lower end of the guide wire clamp body (110) is provided with a threaded hole (117) for screwing the rotating assembly (120).

4. The operating rod for rapidly overlapping drainage wires according to claim 3, wherein:

the guide wire clamp main body (110) further comprises an elastic sheet (115), one end of the elastic sheet (115) is fixed on the self-locking block (113), and the other end of the elastic sheet (115) is connected to the conductive main body (111) located at the fixed shaft (112);

when the self-locking block (113) is clamped into the main guide line, the self-locking block (113) is closed, the elastic sheet (115) is compressed, and self-locking is completed; when the device is disassembled, the main guide wire is loosened, and the elastic sheet (115) under the action of the elastic force drives the self-locking block (113) to be opened.

5. The operating rod for rapidly overlapping drainage wires according to claim 2, characterized in that:

the rotating assembly (120) used for being clamped on the insulating rod comprises a rotating shaft (121), a main conducting wire positioning block (122), a first fixing pin (123) and a positioning pin (124), and the rotating shaft is a bolt;

a main guide line positioning block (122) is arranged at the upper part of the rotating shaft (121) and is fixed through a first fixing pin (123), and a positioning pin (124) is arranged at the lower part of the rotating shaft (121); the top surface of the main guide line positioning block (122) is a concave surface;

the rotating assembly (120) is perpendicular to the main conductor, and the rotating assembly (120) is integrally locked or unlocked on the conductive main body (111) through the rotating shaft (121).

6. The operating rod for rapidly overlapping drainage wires according to claim 2, characterized in that:

the positioning assembly (130) for fixing the drainage wire comprises a positioning bolt (131), a drainage wire positioning block (132) and a second fixing pin (133);

a groove is formed above the positioning bolt (131); the drainage wire positioning block (132) is locked on the positioning bolt (131) through a second fixing pin (133);

the top surface of the drainage wire positioning block (132) is a concave surface; the positioning component (130) is vertical to the drainage wire, and the positioning component (130) is integrally locked or loosened with the drainage wire limiting groove (114) through the positioning bolt (131).

7. The operating rod for rapidly overlapping drainage wires according to claim 2, characterized in that: a fixed shaft mounting hole (116) is formed in the upper end of the conductive main body (111);

the fixed shaft (112) is embedded in the fixed shaft mounting hole (116) and is used for connecting the conductive main body (111) and the self-locking block (113);

the threaded hole (117) is internally screwed with a rotating shaft (121).

8. The operating rod for rapidly overlapping drainage wires according to claim 4, wherein:

a cavity is arranged in the self-locking block (113), an elastic sheet mounting hole (118) is formed in the inner wall of the cavity, and one end of an elastic sheet (115) is inserted into the elastic sheet mounting hole (118); one side of the self-locking block (113) is open and can rotate around the upper end of the conductive main body (111).

9. The operating rod for rapidly overlapping drainage wires according to claim 4, wherein: the conductive main body (111), the elastic sheet (115), the rotating shaft (121), the main conducting wire positioning block (123), the positioning bolt (131) and the drainage wire positioning block (132) are all made of metal materials, and the self-locking block (113) is made of insulating materials.

10. The use method of the operating rod for rapidly overlapping the drainage wires of any one of claims 1 to 9 is characterized in that: the method comprises the following steps:

s1, overlapping the drainage wire:

s11, aligning a positioning pin for fixing the lower end of the self-locking wire clamp (100) to a Z-shaped groove on the insulating rod (200);

s12, adjusting the fixed self-locking wire clamp (100) to the bottom of the Z-shaped groove on the insulating rod (200);

s13, the drainage wire is loaded into the drainage wire limiting groove and locked in the groove through a positioning component for fixing the drainage wire, and the preparation of the drainage wire is finished;

s14, at the moment, the self-locking block on the fixed self-locking wire clamp (100) is opened, and the insulating rod (200) is lifted to be clamped on the main guide wire;

s15, rotating the insulating rod, and locking the main conductor through the rotating assembly until the fixed self-locking wire clamp (100) completely locks the main conductor;

s16, taking down the insulating rod along the shape of the Z-shaped groove, and completing lap joint;

s2, detaching the drainage wire:

s21, operating the insulating rod (200), and aligning the Z-shaped groove with a positioning pin at the lower end of the self-locking wire clamp (100); the integral assembly is completed;

s23, rotating the insulation rod (200), and loosening the rotating assembly screwed at the position of the insulation rod;

s24, pulling the operating rod (200) laterally, the self-locking block is opened under the action of the elastic sheet, and the fixed self-locking wire clamp (100) is taken down;

and S25, removing the drainage wire, and finishing the operation.

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