CN113909409B - Dismounting device for insulator binding line - Google Patents

Abstract

The invention discloses a dismounting device for an insulator binding line, which comprises a mounting box body, wherein the bottom of the mounting box body is of an open structure, an insulating rod is fixedly connected to the outer wall of the mounting box body, a straight notch is formed in the lower end of the mounting box body, clamping rods are symmetrically arranged on two sides of the straight notch in the mounting box body, arc-shaped grooves and arc-shaped clamping grooves are formed in opposite faces of the clamping rods, telescopic mechanisms are symmetrically fixed on the side walls of the mounting box body and used for driving the two clamping rods to move oppositely, a tangent mechanism is arranged in the mounting box body and above the clamping rods, the tangent mechanism comprises a mounting box body which is in sliding connection with the inner wall of the mounting box body, the mounting box body is driven by a driving mechanism to move axially, a motor frame is connected in a sliding manner in the mounting box body, a motor I is fixed on the motor frame, and an output shaft of the motor I is fixed with a cutting piece. The invention can realize the disassembly of the binding wire, and solves the problems that the existing binding wire is inconvenient to disassemble and the operation efficiency is affected.

Description

Dismounting device for insulator binding line

Technical Field

The invention relates to the technical field of power equipment, in particular to a dismounting device for an insulator binding wire.

Background

The insulator is a power component which is arranged between the electric transmission wire and the grounding body such as the telegraph pole cross arm and is used for insulating and supporting the wire. The connection and fixation between the existing insulator and the conductor comprises fixation through a wire clamp or fixation through binding wires. The current mode of fixing wire and insulator through binding the line, when conditions such as wearing and tearing or damage appear in insulator or binding line need be changed, need the operation personnel dismantle the binding line, because need guarantee the fastness of ligature when needs are installed, the winding number of turns of binding line is more usually to lead to the operation personnel comparatively difficult when dismantling, make the dismantlement of binding line very inconvenient, influence holistic operating efficiency. Meanwhile, the existing binding line is detached, an operator is required to climb to the upper end of a telegraph pole, or the operator works through the bucket arm vehicle, and the operation of the operator is limited in high-altitude operation, so that the detachment efficiency is affected, and the potential safety hazard of the operator is increased in high-altitude operation.

Disclosure of Invention

The invention aims to provide a dismounting device for an insulator binding wire, which can realize the dismounting of the binding wire and solve the problems that the existing binding wire is inconvenient to dismount and the operation efficiency is affected; meanwhile, through the insulating rod, an operator can detach the binding line on the ground, so that the problem that potential safety hazards exist in the existing high-altitude operation is solved.

In order to achieve the above purpose, the present invention provides the following technical solutions:

The utility model provides a dismounting device for insulator ligature line, includes the installation box, installation box bottom is open structure, installation box outer wall fixedly connected with order gram stick, installation box lower extreme is equipped with straight notch, straight notch runs through two lateral walls of installation box, just be located straight notch bilateral symmetry in the installation box and be equipped with the clamping lever, the arc draw-in groove with wire adaptation and with insulator top adaptation is all offered to the opposite face of clamping lever, the symmetry is fixed with telescopic machanism on the lateral wall of installation box, telescopic machanism is used for driving two clamping levers and carries out the removal in opposite directions, be located clamping lever top and be equipped with tangential line mechanism in the installation box, tangential line mechanism includes the installation framework with installation box inner wall sliding connection, the installation framework is driven by actuating mechanism and is carried out the wire axial and remove, sliding connection has the motor frame in the installation framework, be fixed with motor one on the motor frame, the output shaft and the cutting piece of motor one are fixed.

Preferably, the telescopic mechanism comprises an electric push rod fixed on the inner wall of the installation box body, the electric push rod is fixed with the clamping rods, more than two transverse guide rods are fixed in the installation box body, the transverse guide rods are perpendicular to the clamping rods, the transverse guide rods sequentially penetrate through the two clamping rods, and through holes matched with the transverse guide rods are formed in the clamping rods.

Preferably, the wire cutting mechanism further comprises a guide wheel, the guide wheel and the cutting blade are located in the same vertical plane, the guide wheel is rotationally connected to a connecting rod, a sliding hole is formed in the side wall of the mounting frame body, and the connecting rod penetrates through the sliding block and is fixed with the motor.

Preferably, the inside of the installation frame body is vertically fixed with more than two guide rods, the guide rods penetrate through a motor frame, through holes matched with the guide rods are formed in the motor frame, springs are sleeved outside the guide rods, and the upper ends and the lower ends of the springs are respectively abutted to the installation frame body.

Preferably, the driving mechanism comprises a second motor fixed at the upper end of the mounting box body and two synchronous pulleys mounted on the mounting box body, an output shaft of the second motor is fixed with one of the synchronous pulleys, the two synchronous pulleys are connected through a synchronous belt, a fixing rod is fixedly connected to the upper end of the mounting box body, and the fixing rod is fixedly connected with the synchronous belt.

Preferably, the installation box body is internally fixedly connected with more than two longitudinal guide rods which are arranged in parallel with the clamping rods, the upper end of the installation box body is fixedly connected with a connecting plate, the longitudinal guide rods penetrate through the connecting plate, and the connecting plate is provided with guide holes which are in clearance fit with the longitudinal guide rods.

Preferably, a grooved wheel is arranged on the outer wall of the mounting box body and above the straight notch.

Preferably, two locating plates are fixedly connected to the lower end of the installation box body, locating notches are formed in the locating plates, the locating notches are arranged oppositely, and the locating notches are matched with the outer wall of the insulator.

Preferably, the top wall of the mounting box body is of a hollowed-out structure.

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

1) According to the invention, the two clamping rods in the mounting box body are used for clamping the lead and the insulator, and the driving mechanism is used for driving the mounting box body to move along the axial direction of the lead, so that the binding wires between the lead and the insulator are cut by the cutting sheet, the binding wires are disassembled, and the convenience for disassembling the binding wires and the overall operation efficiency are effectively improved.

2) Through handheld order gram stick for the operation personnel can be operated the dismantlement operation to binding line in ground, thereby avoided the operation personnel to need high altitude construction, the condition that exists the potential safety hazard appears.

Drawings

Fig. 1 is a schematic structural view of a disassembling device for an insulator binding wire according to an embodiment of the present invention;

fig. 2 is a schematic diagram illustrating a bottom view of a disassembling device for an insulator binding wire according to an embodiment of the present invention;

FIG. 3 is a front view of a detaching device for an insulator ligature in accordance with an embodiment of the present invention;

FIG. 4 is a cross-sectional view taken along line A-A of FIG. 3;

FIG. 5 is a schematic view of a tangential mechanism according to an embodiment of the present invention;

FIG. 6 is an exploded view of the tangential mechanism according to the embodiment of the present invention;

Fig. 7 is a schematic structural diagram of an embodiment of a disassembling device for an insulator binding wire according to an embodiment of the present invention;

Fig. 8 is a schematic structural diagram of a disassembling device for an insulator binding wire according to an embodiment of the present invention when the binding wire is cut;

In the figure, 1, an installation box body, 2, clamping rods, 3, an installation frame body, 4, a driving motor, 5, an insulator, 6, a wire, 11, a link rod, 31, a connecting rod, 101, a straight slot, 102, a grooved pulley, 103, a locating plate, 104, a locating slot, 105, a transverse guide rod, 106, a longitudinal guide rod, 201, an arc-shaped channel, 202, an arc-shaped clamping groove, 203, a telescopic mechanism, 301, a motor frame, 302, a motor, 303, a guide wheel, 304, a cutting blade, 305, a connecting plate, 306, a guide hole, 307, a guide rod, 308, a through hole, 309, a spring, 310, a fixing rod, 401, a synchronous belt, 501 and a binding wire.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-3, the invention discloses a dismounting device for an insulator binding wire, which comprises a mounting box body 1, a clamping rod 2, a wire cutting mechanism and a driving mechanism, wherein a gram bar 11 is connected to the outer wall of the mounting box body 1 through screws. The top wall of the mounting box body 1 is of a hollow structure, so that the overall weight of the mounting box body 1 is reduced, and the convenience of operation of operators is improved. And install box 1 roof and install electrical apparatus components and parts etc. for electrical apparatus box is located the position that is close to order gram stick 11, and keeps away from tangential mechanism, is favorable to making the whole weight distribution of installation box 1 balanced, improves the stability of handheld operation.

The bottom of the installation box body 1 is of an open structure, the lower end of the installation box body 1 is provided with a straight notch 101, and the straight notch 101 penetrates through two side walls of the installation box body and is used for realizing position limitation of the installation box body 1 through clearance fit of the two straight notches 101 and a wire. As shown in fig. 2 and 4, two clamping rods 2 are symmetrically arranged relative to the straight notch 101, and the opposite surfaces of the two clamping rods 2 are provided with an arc-shaped channel 201 adapted to a wire and an arc-shaped clamping groove 202 adapted to the top end of an insulator. Two clamping rods 2 are all in sliding connection with the inner wall of the installation box body 1, telescopic mechanisms 203 are fixedly connected between the side walls of the installation box body 1, the telescopic mechanisms 201 are electric push rods, one ends of the electric push rods are fixed with the installation box body 1, and the other ends of the electric push rods are fixed with the clamping rods 2. The telescopic mechanism 201 is used for driving the two clamping rods 2 to move in opposite directions, so that the clamping of the lead and the insulator is realized, and a gap is reserved between the two clamping rods 2 after clamping. Two transverse guide rods 105 are welded or connected between the two inner walls of the mounting box body 1 through screws, the transverse guide rods 105 penetrate through the clamping rods 2, through holes in clearance fit with the transverse guide rods 105 are formed in the clamping rods 2, so that the two clamping rods 2 slide on the transverse guide rods 105, and synchronous opposite or reverse movement of the two clamping rods 2 is achieved through the telescopic mechanism 201.

The outer wall of the installation box body 1 is provided with a grooved wheel 102 corresponding to the position of the straight notch 101, and the grooved wheel 102 is matched with the lead 6 to support the installation box body 1. As shown in fig. 8, two positioning plates 103 are welded or bolted on the lower surface of the installation box 1, and the two positioning plates 103 are provided with positioning notches 104, and the two positioning notches 104 are oppositely arranged and are adapted to the outer wall of the insulator 5 for positioning the installation box 1.

As shown in fig. 5 and 6, the thread cutting mechanism includes a mounting frame 3; the installation frame body 3 is in sliding connection with the inner wall of the installation box body 1. Wherein, two longitudinal guide rods 106 are welded or screwed between the two inner walls of the mounting box body 1. The top wall of the installation frame body 3 is welded with a connecting plate 305, and the connecting plate 305 is provided with a guide hole 306 in clearance fit with the longitudinal guide rod 106, so that the installation frame body 3 slides on the longitudinal guide rod 106 through the connecting plate 305, and the sliding connection between the wire cutting mechanism and the installation box body 1 is realized. Wherein, a linear bearing can be arranged in the guide hole 306, and the linear bearing is matched with the longitudinal guide rod 106, so that the moving stability of the mounting frame body 3 is improved.

The motor frame 301 is slidably connected between the inner top wall and the inner bottom wall of the mounting frame 3, two vertically arranged guide rods 307 are welded or connected between the inner top wall and the inner bottom wall of the mounting frame 3 by screws, through holes 308 matched with the guide rods 307 are formed in the bottom wall of the motor frame 301, and the guide rods 307 penetrate through the motor frame 301, so that the motor frame 301 moves vertically along the guide rods 307. A linear bearing may be installed in the through hole 308, and the linear bearing is engaged with the guide rod 307 to improve the stability of movement.

The guide rod 307 is externally sleeved with a spring 309, the upper end of the spring 309 abuts against the inner top wall of the mounting frame 3, and the lower end of the spring 309 abuts against the bottom wall of the motor frame 301. The piezoelectric frame 301 is arranged at the lower end of the spring 309, so that stability of the motor frame 301 is improved, and meanwhile, when the driving mechanism drives the mounting frame 3 to move along the lead 6, the guide wheel 303 can always keep good contact with the lead 6, so that accuracy of cutting of the binding line 501 by the cutting piece 304 is improved.

The motor frame 301 is fixed with a first motor 302, an output shaft of the motor 302 is connected with a cutting blade 304, and the motor frame 301 can drive the first motor 302 to move up and down in the mounting frame 3. The side wall of the installation frame body 3 is provided with a sliding hole, the motor frame 301 is welded or connected with a connecting rod 31 through a bolt, the connecting rod 31 extends out of the installation frame body 3 from the sliding hole, and the end part of the connecting rod 31 is rotationally connected with a guide wheel 303. The guide wheel 303 and the cutting blade 304 are located in the same vertical plane, and are used for positioning the cutting depth of the cutting blade 304 through the cooperation of the guide wheel 303 and a wire, wherein the guide wheel 303 can be a rubber wheel or a rubber sheave.

The driving mechanism is connected with the mounting box body 1 and is used for driving the wire cutting mechanism to axially move along the wire and cutting the binding wire between the wire and the insulator through the cutting sheet 304. The driving mechanism comprises a motor II 4 and two synchronous pulleys, the motor II 4 is fixedly connected with the top wall of the mounting box body 1, and the synchronous pulleys are mounted on the mounting box body 1. An output shaft of the second motor 4 is connected with one of the synchronous pulleys, and the two synchronous pulleys are connected through the synchronous belt 401, so that the second motor 4 drives the synchronous belt 401 to rotate through the synchronous pulley. The upper end of the installation frame body 3 is welded with a fixing rod 310, the upper end of the fixing rod 310 is fixedly connected with the synchronous belt 401 through bolts, and the motor II 4 drives the installation frame body 3 to move through the synchronous belt 401.

Working principle: as shown in fig. 7 and 8, when in use, an operator lifts the installation box body 1 by holding the insulating rod 11 through the conducting wire 6, after supporting the installation box body 1 on the conducting wire 6 through the grooved pulley 102, the axial position of the installation box body 1 relative to the conducting wire 6 is adjusted through the insulating rod 11, and the positioning notch 104 on the two positioning plates 103 is clamped on the outer wall of the insulator 5, so that the arc clamping groove 202 on the clamping rod 2 corresponds to the insulator 5 in position at the moment, thereby being convenient for realizing the clamping of the insulator 5 through the clamping rod 2, and enabling the position adjustment of the installation box body 1 to be convenient and accurate. After the positions of the straight slot 101 on the two side walls of the mounting box body 1 are corresponding to those of the lead wires 6, the mounting box body 1 is slowly put down, so that the lead wires 6 are clamped at the straight slot 101, and the position between the mounting box body 1 and the lead wires 6 is positioned. Then, the two telescopic mechanisms 203 are started, so that the two clamping rods 2 move in opposite directions, the arc-shaped groove 201 clamps the lead 6, the upper end of the insulator 5 of the arc-shaped clamping groove 202 is clamped, and therefore the whole installation box 1 is kept fixed in position with the lead 6 and the insulator 5.

After the installation box body 1 is placed, the guide wheel 303 is opposite to the position of the wire 6, the guide wheel 303 is pressed on the upper side of the wire 6, the motor rack 301 is synchronously driven to move up and down through the connecting rod 31 by changing the upper and lower positions of the guide wheel 303, so that the guide wheel 303 can position the upper and lower positions of the cutting blade 304, namely, when the guide wheel 303 is pressed on the upper side of the wire 6, a gap is reserved between the cutting blade 304 and the wire 6 at the moment, and the gap is just enough to cut off the binding wire 501 on the insulator 5 and the wire 6. Therefore, the guide wheel 303 is matched with the lead 6, so that the positioning of the cutting depth of the cutting piece 304 is realized, and the situation that the cutting piece 304 cuts the lead 6 and damages the lead 6 is avoided.

After the cutting is finished, the telescopic mechanism 201 drives the two clamping rods 2 to move back, the lead 6 and the insulator are loosened, and the whole mounting box body 1 is put down through the insulating rod 11.

The foregoing is merely illustrative and explanatory of the invention, as it is well within the scope of the invention, as it is intended to provide those skilled in the art with various modifications, additions and substitutions to the specific embodiments disclosed and those skilled in the art without departing from the scope of the invention as disclosed in the accompanying claims.

Claims (5)

1. A dismounting device for insulator ligature line, its characterized in that: the electric wire cutting machine comprises a mounting box body, wherein the bottom of the mounting box body is of an open structure, a command bar is fixedly connected to the outer wall of the mounting box body, a straight notch is formed in the lower end of the mounting box body, the straight notch penetrates through two side walls of the mounting box body, clamping rods are symmetrically arranged on two sides of the straight notch in the mounting box body, arc-shaped grooves matched with wires and arc-shaped clamping grooves matched with the top ends of insulators are formed in opposite faces of the clamping rods, telescopic mechanisms are symmetrically fixed on the side walls of the mounting box body and used for driving the two clamping rods to move oppositely, a tangent mechanism is arranged in the mounting box body and above the clamping rods, the tangent mechanism comprises a mounting box body which is slidably connected with the inner wall of the mounting box body, the mounting box body is driven by a driving mechanism to move along the axial direction of the wires, a motor frame is slidably connected in the mounting box body, a first motor is fixed on the motor frame, and an output shaft of the first motor is fixed with a cutting sheet;

the wire cutting mechanism further comprises a guide wheel, the guide wheel and the cutting blade are positioned in the same vertical plane, the guide wheel is rotationally connected to a connecting rod, a sliding hole is formed in the side wall of the mounting frame body, and the connecting rod penetrates through the sliding hole and is fixed with the motor frame;

more than two guide rods are vertically fixed in the mounting frame body, the guide rods penetrate through the motor frame, through holes matched with the guide rods are formed in the motor frame, springs are sleeved outside the guide rods, the upper ends of the springs are propped against the inner top wall of the mounting frame body, and the lower ends of the springs are propped against the bottom wall of the motor frame;

the driving mechanism comprises a second motor fixed at the upper end of the mounting box body and two synchronous pulleys mounted on the mounting box body, an output shaft of the second motor is fixed with one of the synchronous pulleys, the two synchronous pulleys are connected through a synchronous belt, a fixing rod is fixedly connected to the upper end of the mounting box body, and the fixing rod is fixedly connected with the synchronous belt;

The mounting box body is internally fixedly connected with more than two longitudinal guide rods which are arranged in parallel with the clamping rods, the upper end of the mounting box body is fixedly connected with a connecting plate, the longitudinal guide rods penetrate through the connecting plate, and the connecting plate is provided with guide holes which are in clearance fit with the longitudinal guide rods.

2. A dismounting device for an insulator ligature according to claim 1, wherein: the telescopic mechanism comprises an electric push rod fixed on the inner wall of the installation box body, the electric push rod is fixed with clamping rods, more than two transverse guide rods are fixed in the installation box body, the transverse guide rods are perpendicular to the clamping rods, the transverse guide rods sequentially penetrate through the two clamping rods, and through holes matched with the transverse guide rods are formed in the clamping rods.

3. A dismounting device for an insulator ligature according to claim 1, wherein: the grooved wheels are arranged on the outer wall of the installation box body and above the straight notch.

4. A dismounting device for an insulator ligature according to claim 1, wherein: the installation box lower extreme fixedly connected with two locating plates, all seted up the location notch on the locating plate, the location notch sets up relatively, location notch and insulator outer wall adaptation.

5. A dismounting device for an insulator ligature according to claim 1, wherein: the top wall of the mounting box body is of a hollowed-out structure.