CN112003193A - High-voltage wire installation insulating frame on telegraph pole - Google Patents

Abstract

The invention discloses a high-voltage wire mounting insulation frame on a telegraph pole, which relates to the field of high-voltage transmission line operation. The symmetry is equipped with two and pulls the piece on the trapezoidal frame, trapezoidal frame cooperation is connected on the sliding seat, the both ends of sliding seat are equipped with an extensible member respectively, two extensible members swing joint respectively are on two rotation pieces, two rotate piece difference swing joint on two mountings, the angle modulation spare is established on the mounting of left end, the angle modulation spare is connected with the rotation piece transmission of left end, the position control spare is established on the rotation piece of left end, the right-hand member setting of position control spare is on the sliding seat.

Description

High-voltage wire installation insulating frame on telegraph pole

Technical Field

The invention relates to the field of high-voltage transmission line operation, in particular to a high-voltage wire mounting insulation frame on a telegraph pole.

Background

The invention discloses a high-voltage transmission line live working insulating rope winding frame, which comprises a frame and a wire coil with a wire groove, wherein the wire coil is rotatably connected and arranged inside the frame, an insulating rope is wound in the wire groove of the wire coil, a rotating shaft which rotates synchronously with the wire coil is arranged on the wire coil, a torsion limiting wheel is arranged at one end of the rotating shaft, a motor for driving the torsion limiting wheel is arranged in the frame, a wire outlet of the insulating rope is arranged at the edge of the frame, an insulating performance detection plate which is in contact with the insulating rope is arranged on the wire outlet, and an insulating resistance detector which is connected with the insulating performance is arranged on the frame. The invention aims to provide a high-voltage transmission line live working insulating rope winding frame which improves the storage convenience of an insulating rope and ensures the insulating property of the insulating rope. But the device cannot drive the high voltage wires from different directions around the obstacle.

Disclosure of Invention

The invention aims to provide a high-voltage wire mounting insulation frame on a telegraph pole, which has the beneficial effect that the high-voltage wire mounting insulation frame can drive the high-voltage wire to bypass a barrier from different directions from the upper part, the front part or the rear part.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a high tension line installation insulator bracket on wire pole, is including drawing piece, trapezoidal frame, sliding seat, extensible member, rotating piece, mounting, angle modulation spare and position control spare, trapezoidal frame on the symmetry be equipped with two and draw the piece, trapezoidal frame cooperation is connected on the sliding seat, the both ends of sliding seat are equipped with an extensible member respectively, two extensible members swing joint respectively are on two rotation pieces, two rotate piece swing joint respectively on two mountings, angle modulation spare is established on the mounting of left end, angle modulation spare is connected with the rotation piece transmission of left end, position control spare is established on the rotation piece of left end, position modulation spare's right-hand member sets up on the sliding seat.

As a further optimization of the technical scheme, the high-voltage wire installation insulating frame on the telegraph pole comprises a traction piece, a traction piece and a locking piece, wherein the traction piece comprises a rotating rod, a rotating shaft, a U-shaped frame, an insulating wheel, a vertical sliding groove, an insulating block, a convex block, a first locking screw, a deflector rod, a square block and a first electric push rod; the middle part of the rotating rod is fixedly connected with a rotating shaft, the rotating shaft is rotatably connected to the trapezoidal frame, the lower end of the rotating rod is fixedly connected with the U-shaped frame, the lower end of the U-shaped frame is rotatably connected with an insulating wheel, two ends of the U-shaped frame are respectively provided with a vertical sliding groove, an insulating block is connected in the U-shaped frame in a sliding fit manner, two ends of the insulating block are respectively fixedly connected with a lug, the two lugs are respectively connected in the two vertical sliding grooves in a sliding fit manner, a first locking screw is connected to one lug in a threaded fit manner, and the first locking screw is tightly pressed against the U-shaped frame; deflector rod sliding fit connects in the logical inslot of bull stick upper end, deflector rod fixed connection on the square, and square fixed connection is in first electric putter's flexible end, and first electric putter fixed connection is in the upper end of trapezoidal frame.

According to the technical scheme, the high-voltage wire mounting insulation frame on the telegraph pole is further optimized, the middle of the trapezoid frame is provided with the rectangular groove, the rotating shaft is rotatably connected to one end in the rectangular groove, two ends of the trapezoid frame are fixedly connected with the long shafts respectively, and the two long shafts are connected with two ends of the sliding seat in a matched mode respectively.

As a further optimization of the technical scheme, the high-voltage wire installation insulating frame on the telegraph pole comprises a sliding seat, a sliding block and a wire guide sleeve, wherein the sliding seat comprises a double-output-shaft motor, a screw rod, a guide rod, a sliding rod, a U-shaped frame, a transverse sliding chute, a U-shaped rod and an insulating lead ring; the double-output-shaft motor is fixedly connected to the trapezoidal frame through a motor frame, the two screw rods are respectively connected to output shafts at two ends of the double-output-shaft motor through a coupler, the guide rod is fixedly connected to the motor frame of the double-output-shaft motor, the two slide rods are respectively connected to two ends of the guide rod in a sliding fit manner, the two slide rods are respectively connected to the two screw rods in a threaded fit manner, the two slide rods are respectively and fixedly connected with a U-shaped frame, the two U-shaped frames are respectively provided with a transverse sliding groove, the outer ends of the two transverse sliding grooves are respectively and fixedly connected with a U-shaped rod, and the lower ends of the two U-; the two long shafts are respectively connected in the two transverse sliding chutes in a sliding fit manner; the two telescopic pieces are respectively connected with the two U-shaped rods in a matching way.

As a further optimization of the technical scheme, the high-voltage wire mounting insulation frame on the telegraph pole comprises a telescopic piece, a first electric push rod and a second electric push rod, wherein the telescopic piece comprises a form plate, a hexagonal prism and a second electric push rod; the tool plate is connected to the U-shaped rod in a sliding fit mode, the outer end of the tool plate is fixedly connected with a hexagonal prism, the hexagonal prism is connected to the rotating piece in a matching mode, the second electric push rod is fixedly connected to the U-shaped rod at the left end, and the telescopic end of the second electric push rod is fixedly connected to the tool plate.

As a further optimization of the technical scheme, the high-voltage wire mounting insulation frame on the telegraph pole comprises a rotating part and a rotating part, wherein the rotating part comprises a rectangular seat and a shaft rod; hexagonal prism sliding fit connects in the upper end of rectangle seat, and axostylus axostyle fixed connection is connected at the lower extreme of rectangle seat, and the axostylus axostyle cooperates with the mounting and is connected.

As a further optimization of the technical scheme, the high-voltage wire mounting insulation frame on the telegraph pole comprises a fixed part, a fixing part and a fixing part, wherein the fixed part comprises a right-angle plate, a vertical frame, an arc-shaped frame and an arc-shaped seat; the upper end and the outer end of the right-angle plate are respectively fixedly connected with a vertical frame and an arc-shaped frame, the lower end of the arc-shaped frame is fixedly connected with an arc-shaped seat, and the shaft lever is rotatably connected to the vertical frame.

As a further optimization of the technical scheme, the high-voltage wire mounting insulation frame on the telegraph pole comprises an angle adjusting piece, a first locking screw, a second locking screw and a third locking screw, wherein the angle adjusting piece comprises a folding rod, an adjusting shaft, a driving gear, a driven gear and a first locking screw; the folding rod is fixedly connected to the vertical frame at the left end, the adjusting shaft is rotatably connected to the folding rod, the driving gear is fixedly connected to the adjusting shaft, the driving gear is in meshing transmission connection with the driven gear, and the driven gear is fixedly connected to the outer end of the shaft lever at the left end; the second locking screw is connected to the folding rod through thread fit, and the second locking screw tightly abuts against the adjusting shaft.

As a further optimization of the technical scheme, the high-voltage wire mounting insulation frame on the telegraph pole comprises a sliding plate, a sliding seat, a trapezoidal bar, a sliding block, a driving motor, a lead screw, an articulated arm and a hinged frame; slide fixed connection is on the rectangle seat of left end, and the left end sliding fit of slide connects on the slide, and trapezoidal strip fixed connection is on the slide, and slider sliding fit connects on trapezoidal strip, and driving motor passes through motor frame fixed connection on the slide, and the lead screw passes through coupling joint on driving motor's output shaft, and the slider passes through screw-thread fit with the lead screw to be connected, and link block and articulated frame are rotated respectively at the both ends of articulated arm, and articulated frame fixed connection is on U type frame.

The high-voltage wire mounting insulation frame on the telegraph pole has the beneficial effects that:

the invention relates to a high-voltage wire mounting insulation frame on a telegraph pole, which can drive a high-voltage wire to bypass a barrier from different directions from the upper part, the front part or the rear part. The distance between the two fixing pieces can be changed, so that the two fixing pieces can be installed on two adjacent wire columns with different distances, the high-voltage wires are lifted upwards by the two traction pieces, the obstacles can be bypassed, the angles of the two traction pieces can be adjusted, the length of the part of the wires lifted upwards can be adjusted, the high-voltage wires are suitable for bypassing the obstacles with different lengths, the heights of the two traction pieces can be adjusted, the obstacles with different heights can be spanned, the position of the sliding seat in the horizontal direction between the two fixing pieces can be adjusted, the obstacles with different positions between the two wire columns can be bypassed, the angle adjusting piece drives the part of the wires pulled to rotate forwards or backwards through the two traction pieces, and the high-voltage wires can bypass the obstacles from different positions above, in front or behind.

Drawings

Figure 1 is a first schematic view of a high voltage wire mounting insulator bracket on a utility pole of the present invention;

figure 2 is a second schematic structural view of a high voltage wire mounting insulator bracket on a utility pole of the present invention;

FIG. 3 is a schematic view of the configuration of the traction element and the ladder;

FIG. 4 is a schematic structural view of the sliding seat;

FIG. 5 is a schematic view of the telescoping member and rotating member;

FIG. 6 is a schematic structural view of the fixing member;

FIG. 7 is a schematic view of the angle adjuster;

fig. 8 is a schematic structural view of the position regulating member.

In the figure: a traction element 1; a position adjustment member; a ladder frame 2; 2-1 of a rectangular groove; a long axis 2-2; a slide base 3; a motor 3-1 with double output shafts; 3-2 parts of a screw; 3-3 of a guide rod; 3-4 of a slide bar; 3-5 parts of a U-shaped frame; 3-6 parts of a horizontal chute; 3-7 parts of a U-shaped rod; 3-8 of an insulated lead ring; a telescopic member 4; 4-1 of a tool plate; a hexagonal prism 4-2; a second electric push rod 4-3; a rotating member 5; a rectangular base 5-1; shaft lever 5-2; a fixing member 6; a right-angle plate 6-1; a vertical frame 6-2; 6-3 of an arc-shaped frame; 6-4 parts of an arc seat; an angle adjusting member 7; a folding rod 7-1; an adjusting shaft 7-2; a driving gear 7-3; 7-4 of a driven gear; a second locking screw 7-5; a position adjusting member 8; 8-1 of a sliding plate; a slide carriage 8-2; 8-3 of trapezoidal strips; 8-4 of a sliding block; 8-5 of a driving motor; 8-6 parts of a lead screw; an articulated arm 8-7; and 8-8 of an articulated frame.

Detailed Description

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Moreover, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the electrical components that appear in this application all external intercommunication power and control switch when using.

The invention is described in further detail below with reference to figures 1-8 and the detailed description.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 8, and the high-voltage electric wire installation insulating frame on a telegraph pole comprises a traction piece 1, a trapezoidal frame 2, a sliding seat 3, an extensible piece 4, a rotating piece 5, a fixing piece 6, an angle adjusting piece 7 and a position adjusting piece 8, wherein the trapezoidal frame 2 is symmetrically provided with the two traction pieces 1, the trapezoidal frame 2 is connected to the sliding seat 3 in a matching manner, two ends of the sliding seat 3 are respectively provided with the extensible piece 4, the two extensible pieces 4 are respectively and movably connected to the two rotating pieces 5, the two rotating pieces 5 are respectively and movably connected to the two fixing pieces 6, the angle adjusting piece 7 is arranged on the fixing piece 6 at the left end, the angle adjusting piece 7 is in transmission connection with the rotating piece 5 at the left end, the position adjusting piece 8 is arranged on the rotating piece 5 at the left end, and the right end of the position adjusting piece 8 is arranged. When the high-voltage wire drawing device is used, the two fixing pieces 6 are fixed on two adjacent high-voltage wire columns through bolts, the span of the sliding seat 3 can be changed by controlling the sliding seat 3, the sliding seat 3 drives the interval between the two telescopic pieces 4 to be enlarged, the two telescopic pieces 4 change the interval between the two fixing pieces 6 through the two rotating pieces 5, then the two fixing pieces 6 can be installed on the two adjacent wire columns with different intervals, the high-voltage wire penetrates through the left end of the trapezoidal frame 2, sequentially penetrates through the lower ends of the two drawing pieces 1 and penetrates out of the right end of the trapezoidal frame 2, the two drawing pieces 1 lift the high-voltage wire upwards to bypass obstacles, the angles of the two drawing pieces 1 can be adjusted, further the length of the part of the wire lifted upwards can be adjusted, and further the high-voltage wire drawing device is suitable for bypassing obstacles with different lengths, the two telescopic pieces 4 can be started to change the sliding seat 3, Ladder frame 2 and two height of pulling 1, and then can stride across the barrier of co-altitude not, position control 8 starts the position that can change sliding seat 3 horizontal direction between two mountings 6, and then can walk around the barrier of co-altitude not between two electric wire columns, angle adjusting 7 starts and to drive and rotate 5 rotations of piece, it drives sliding seat 3 through extensible member 4 to rotate 5, ladder frame 2 and two pull 1 rotations, and then make two pull 1 parts that drive the electric wire and pull up and rotate forward or backward, make the high-tension electric wire can follow the top, the place ahead or put different positions after and walk around the barrier.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1-8, and the traction member 1 includes a rotating rod 1-1, a rotating shaft 1-2, a U-shaped frame 1-3, an insulating wheel 1-4, a vertical chute 1-5, an insulating block 1-6, a projection 1-7, a first locking screw 1-8, a driving lever 1-9, a square block 1-10 and a first electric push rod 1-11; the middle part of a rotating rod 1-1 is fixedly connected with a rotating shaft 1-2, the rotating shaft 1-2 is rotatably connected to a trapezoidal frame 2, the lower end of the rotating rod 1-1 is fixedly connected with a U-shaped frame 1-3, the lower end of the U-shaped frame 1-3 is rotatably connected with an insulating wheel 1-4, two ends of the U-shaped frame 1-3 are respectively provided with a vertical chute 1-5, an insulating block 1-6 is connected in the U-shaped frame 1-3 in a sliding fit manner, two ends of the insulating block 1-6 are respectively fixedly connected with a lug 1-7, two lugs 1-7 are respectively connected in the two vertical chutes 1-5 in a sliding fit manner, a first locking screw 1-8 is connected to one lug 1-7 in a threaded fit manner, and the first locking screw 1-8 is tightly pressed against the U-shaped frame 1-3; the deflector rod 1-9 is connected in a sliding fit manner in the through groove at the upper end of the rotating rod 1-1, the deflector rod 1-9 is fixedly connected on the square block 1-10, the square block 1-10 is fixedly connected at the telescopic end of the first electric push rod 1-11, and the first electric push rod 1-11 is fixedly connected at the upper end of the trapezoidal frame 2. When in use, a high-voltage wire passes through between the left end insulating wheel 1-4 and the insulating blocks 1-6 and passes out between the right end insulating wheel 1-4 and the insulating blocks 1-6, the high-voltage wire is abutted against the two insulating wheels 1-4, the insulating blocks 1-6 can slide up and down in the U-shaped frame 1-3, the U-shaped frame 1-3 is tightly pressed by screwing the first locking screws 1-8, the positions of the insulating blocks 1-6 are fixed, the distance between the insulating wheels 1-4 and the insulating blocks 1-6 is changed, so that high-voltage wires with different diameters can pass through or simultaneously contain a plurality of wires, the distance between the insulating wheels 1-4 and the insulating blocks 1-6 is changed, the high-voltage wire can be limited between the insulating wheels 1-4 and the insulating blocks 1-6, and the danger caused by the vertical movement of the wire in windy weather is avoided, when the high-voltage wire is pulled leftwards and rightwards, the high-voltage wire moves leftwards and rightwards to drive the two insulating wheels 1-4 to rotate through friction force, so that the phenomena that the high-voltage wire is abraded for a long time and the surface skin is peeled off are avoided; the two first electric push rods 1-11 are started to drive the two shift levers 1-9 to move inwards or outwards, the two shift levers 1-9 drive the two rotating rods 1-1 to rotate, and then the two insulating wheels 1-4 are driven to simultaneously rotate towards the inner end or the outer end, so that the distance between the two insulating wheels 1-4 is changed, the length of the lifted part of the high-voltage wire is changed, and the high-voltage wire bypasses barriers with different lengths.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 8, a rectangular groove 2-1 is formed in the middle of the trapezoid frame 2, the rotating shaft 1-2 is rotatably connected to one end of the rectangular groove 2-1, two ends of the trapezoid frame 2 are fixedly connected to a long shaft 2-2, and the two long shafts 2-2 are respectively connected to two ends of the sliding seat 3 in a matching manner.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1-8, and the sliding seat 3 includes a dual output shaft motor 3-1, a screw rod 3-2, a guide rod 3-3, a sliding rod 3-4, a U-shaped frame 3-5, a transverse sliding groove 3-6, a U-shaped rod 3-7, and an insulating lead ring 3-8; a double-output-shaft motor 3-1 is fixedly connected to a trapezoidal frame 2 through a motor frame, two screw rods 3-2 are respectively connected to output shafts at two ends of the double-output-shaft motor 3-1 through a coupler, a guide rod 3-3 is fixedly connected to the motor frame of the double-output-shaft motor 3-1, two slide rods 3-4 are respectively connected to two ends of the guide rod 3-3 in a sliding fit manner, two slide rods 3-4 are respectively connected to the two screw rods 3-2 in a threaded fit manner, two U-shaped frames 3-5 are respectively and fixedly connected to the two slide rods 3-4, two U-shaped frames 3-5 are respectively provided with a transverse chute 3-6, the outer ends of the two transverse chutes 3-6 are respectively and fixedly connected to one U-shaped rod 3-7, and the lower ends of the two U-shaped rods 3-7 are respectively and fixedly connected to an; the two long shafts 2-2 are respectively connected in the two transverse sliding chutes 3-6 in a sliding fit manner; the two telescopic pieces 4 are respectively connected with the two U-shaped rods 3-7 in a matching way. The high-voltage wire penetrates through the insulating lead ring 3-8 at the left end, passes through the upper ends of the two insulating wheels 1-4 and penetrates out of the insulating lead ring 3-8 at the right end; when the double-output-shaft motor 3-1 is used, the two sliding rods 3-4 and the two U-shaped frames 3-5 are driven to approach or separate from each other through the screw rods 3-2 when the double-output-shaft motor 3-1 is started, the two U-shaped frames 3-5 slide towards the outer end or the inner end on the two long shafts 2-2 simultaneously, and the distance between the rotating part 5 at the left end and the sliding seat 3 is fixed due to the position adjusting part 8, so that the distance between the two U-shaped frames 3-5 can simultaneously drive the distance between the two telescopic parts 4 and the two fixing parts 6 to change when the distance between the two U-shaped frames 3-5 is changed, and the two fixing parts 6 can be installed on two adjacent wire columns with different distances.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1-8, and the telescopic member 4 comprises a template 4-1, a hexagonal prism 4-2 and a second electric push rod 4-3; the tool plate 4-1 is connected to the U-shaped rod 3-7 in a sliding fit mode, the outer end of the tool plate 4-1 is fixedly connected with the hexagonal prism 4-2, the hexagonal prism 4-2 is connected to the rotating piece 5 in a matching mode, the second electric push rod 4-3 is fixedly connected to the U-shaped rod 3-7 at the left end, and the telescopic end of the second electric push rod 4-3 is fixedly connected to the tool plate 4-1. When the high-voltage wire drawing machine is used, the second electric push rod 4-3 is started to drive the tool plate 4-1 to move up and down, the tool plate 4-1 slides up and down on the U-shaped rod 3-7, the position of the tool plate 4-1 on the U-shaped rod 3-7 is changed, when the two fixing pieces 6 are fixed, the sliding seat 3, the trapezoidal frame 2 and the two drawing pieces 1 can be driven to move up and down through the control of the second electric push rod 4-3, the heights of the two insulating blocks 1-6 are changed, the high-voltage wire is accordingly improved to different heights, and the wire can bypass obstacles with different heights.

The sixth specific implementation mode:

referring to fig. 1-8, the rotor 5 includes a rectangular base 5-1 and a shaft 5-2; the hexagonal prism 4-2 is connected to the upper end of the rectangular seat 5-1 in a sliding fit mode, the shaft lever 5-2 is fixedly connected to the lower end of the rectangular seat 5-1, and the shaft lever 5-2 is connected with the fixing piece 6 in a matching mode.

The seventh embodiment:

the embodiment is described below with reference to fig. 1-8, and the fixing member 6 includes a right-angle plate 6-1, a vertical frame 6-2, an arc frame 6-3 and an arc seat 6-4; the upper end and the outer end of the right-angle plate 6-1 are respectively fixedly connected with a vertical frame 6-2 and an arc frame 6-3, the lower end of the arc frame 6-3 is fixedly connected with an arc seat 6-4, and a shaft lever 5-2 is rotatably connected on the vertical frame 6-2. The arc-shaped seat 6-4 is fixed on the electric wire column by inserting a screw into the arc-shaped seat 6-4, and the arc-shaped frame 6-3 is abutted against the electric wire column, so that the installation inclination and deviation are avoided.

The specific implementation mode is eight:

the present embodiment is described below with reference to fig. 1 to 8, wherein the angle adjusting member 7 includes a folding rod 7-1, an adjusting shaft 7-2, a driving gear 7-3, a driven gear 7-4 and a second locking screw 7-5; the folding rod 7-1 is fixedly connected to the vertical frame 6-2 at the left end, the adjusting shaft 7-2 is rotatably connected to the folding rod 7-1, the driving gear 7-3 is fixedly connected to the adjusting shaft 7-2, the driving gear 7-3 is in meshed transmission connection with the driven gear 7-4, and the driven gear 7-4 is fixedly connected to the outer end of the shaft rod 5-2 at the left end; the second locking screw 7-5 is connected to the folding rod 7-1 through thread fit, and the second locking screw 7-5 is tightly pressed against the adjusting shaft 7-2. When the electric wire drawing machine is used, the rotation adjusting shaft 7-2 drives the driving gear 7-3 to rotate, the driving gear 7-3 drives the shaft lever 5-2 at the left end to rotate through the driven gear 7-4, the two shaft levers 5-2 respectively drive the two rectangular seats 5-1 and the two telescopic pieces 4 to rotate, the two telescopic pieces 4 drive the two drawing pieces 1 to rotate through the sliding seat 3 and the trapezoid frame 2, so that part of electric wires lifted through the two drawing pieces 1 are rotated to different directions, and then obstacles can be bypassed from different positions, and the rectangular seats 5-1 can drive the hexagonal prisms 4-2 to rotate around the axes of the shaft levers 5-2 because the hexagonal prisms 4-2 are hexagonal prisms.

The specific implementation method nine:

the embodiment is described below with reference to fig. 1-8, and the position adjusting member 8 includes a sliding plate 8-1, a sliding seat 8-2, a trapezoidal bar 8-3, a sliding block 8-4, a driving motor 8-5, a lead screw 8-6, an articulated arm 8-7 and an articulated frame 8-8; the sliding plate 8-1 is fixedly connected to the rectangular base 5-1 at the left end, the sliding base 8-2 is connected to the sliding plate 8-1 in a sliding fit mode at the left end, the trapezoidal bar 8-3 is fixedly connected to the sliding base 8-2, the sliding block 8-4 is connected to the trapezoidal bar 8-3 in a sliding fit mode, the driving motor 8-5 is fixedly connected to the sliding base 8-2 through the motor frame, the lead screw 8-6 is connected to the output shaft of the driving motor 8-5 through the coupler, the sliding block 8-4 is connected with the lead screw 8-6 in a threaded fit mode, two ends of the hinged arm 8-7 are respectively connected with the sliding block 8-4 and the hinged frame 8-8 in a rotating mode, and the hinged frame 8-8 is fixedly connected to. Because the lead screw 8-6 has self-locking property, the distance between the sliding block 8-4 and the hinge frame 8-8 can be locked, when the double-output-shaft motor 3-1 is started to drive the two U-shaped frames 3-5 to approach or separate from each other, the hexagonal prism 4-2 cannot slide on the rectangular seat 5-1, but the U-shaped rod 3-7 drives the rotating part 5 and the fixing part 6 to slide outwards or inwards through the template plate 4-1, so that the distance between the two fixing parts 6 is changed; when the electric wire drawing device is used, the driving motor 8-5 is started to drive the sliding block 8-4 to slide up and down through the screw rod 8-6, the sliding block 8-4 drives the hinge frame 8-8 to move left and right through the hinge arm 8-7, the hinge frame 8-8 drives the sliding seat 3 to move left and right, and the sliding seat 3 drives the two drawing pieces 1 to move left and right through the trapezoid frame 2, so that the position of the two drawing pieces 1 between the two fixing pieces 6 is changed, the position of the lifted part of an electric wire is changed, and the electric wire drawing device can bypass obstacles from different positions.

The working principle of the high-voltage wire installation insulating frame on the telegraph pole is as follows: when the device is used, the two fixing pieces 6 are fixed on two adjacent high-voltage wire columns through bolts, the span of the sliding seat 3 can be changed by controlling the sliding seat 3, the sliding seat 3 drives the interval between the two expansion pieces 4 to be enlarged, the two expansion pieces 4 change the interval between the two fixing pieces 6 through the two rotating pieces 5, so that the two fixing pieces 6 can be installed on the two adjacent wire columns with different intervals, a high-voltage wire penetrates through the left end of the trapezoidal frame 2, sequentially penetrates through the lower ends of the two traction pieces 1 and penetrates out of the right end of the trapezoidal frame 2, the two traction pieces 1 lift the high-voltage wire upwards to bypass obstacles, the angles of the two traction pieces 1 can be adjusted, so that the length of the part of the wire lifted upwards can be adjusted, and the high-voltage wire is suitable for bypassing obstacles with different lengths, the two expansion pieces 4 can be started to change the sliding seat 3, Ladder frame 2 and two height of pulling 1, and then can stride across the barrier of co-altitude not, position control 8 starts the position that can change sliding seat 3 horizontal direction between two mountings 6, and then can walk around the barrier of co-altitude not between two electric wire columns, angle adjusting 7 starts and to drive and rotate 5 rotations of piece, it drives sliding seat 3 through extensible member 4 to rotate 5, ladder frame 2 and two pull 1 rotations, and then make two pull 1 parts that drive the electric wire and pull up and rotate forward or backward, make the high-tension electric wire can follow the top, the place ahead or put different positions after and walk around the barrier.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (9)

1. The utility model provides a high tension line installation insulator bracket on wire pole, includes traction member (1), trapezoidal frame (2), sliding seat (3), extensible member (4), rotates piece (5), mounting (6), angle adjusting part (7) and position control spare (8), its characterized in that: ladder frame (2) are gone up the symmetry and are equipped with two and draw piece (1), ladder frame (2) cooperation is connected on sliding seat (3), the both ends of sliding seat (3) are equipped with one extensible member (4) respectively, two extensible member (4) swing joint respectively are on two rotation piece (5), two rotation piece (5) swing joint respectively are on two mounting (6), angle adjusting part (7) are established on mounting (6) of left end, angle adjusting part (7) are connected with rotation piece (5) transmission of left end, position adjusting part (8) are established on the rotation piece (5) of left end, the right-hand member setting of position adjusting part (8) is on sliding seat (3).

2. The utility pole high-voltage wire mounting insulator rack of claim 1, wherein: the traction piece (1) comprises a rotating rod (1-1), a rotating shaft (1-2), a U-shaped frame (1-3), an insulating wheel (1-4), a vertical sliding groove (1-5), an insulating block (1-6), a convex block (1-7), a first locking screw (1-8), a deflector rod (1-9), a square block (1-10) and a first electric push rod (1-11); the middle part of a rotating rod (1-1) is fixedly connected with a rotating shaft (1-2), the rotating shaft (1-2) is rotatably connected on a trapezoidal frame (2), the lower end of the rotating rod (1-1) is fixedly connected with a U-shaped frame (1-3), the lower end of the U-shaped frame (1-3) is rotatably connected with an insulating wheel (1-4), two ends of the U-shaped frame (1-3) are respectively provided with a vertical chute (1-5), an insulating block (1-6) is connected in the U-shaped frame (1-3) in a sliding fit manner, two ends of the insulating block (1-6) are respectively fixedly connected with a lug (1-7), two lugs (1-7) are respectively connected in the two vertical chutes (1-5) in a sliding fit manner, a first locking screw (1-8) is connected on one lug (1-7) in a threaded fit manner, the first locking screw (1-8) is tightly propped against the U-shaped frame (1-3); the shifting rod (1-9) is connected in a through groove at the upper end of the rotating rod (1-1) in a sliding fit mode, the shifting rod (1-9) is fixedly connected onto the square block (1-10), the square block (1-10) is fixedly connected to the telescopic end of the first electric push rod (1-11), and the first electric push rod (1-11) is fixedly connected to the upper end of the trapezoidal frame (2).

3. The high-voltage wire mounting insulator rack on a utility pole of claim 2, wherein: the middle part of the trapezoid frame (2) is provided with a rectangular groove (2-1), the rotating shaft (1-2) is rotatably connected with one end in the rectangular groove (2-1), two ends of the trapezoid frame (2) are respectively fixedly connected with a long shaft (2-2), and the two long shafts (2-2) are respectively connected with two ends of the sliding seat (3) in a matching manner.

4. The utility pole high-voltage wire mounting insulator rack of claim 3, wherein: the sliding seat (3) comprises a double-output-shaft motor (3-1), a screw rod (3-2), a guide rod (3-3), a sliding rod (3-4), a U-shaped frame (3-5), a transverse sliding chute (3-6), a U-shaped rod (3-7) and an insulating lead ring (3-8); a double-output-shaft motor (3-1) is fixedly connected to a trapezoidal frame (2) through a motor frame, two screw rods (3-2) are respectively connected to output shafts at two ends of the double-output-shaft motor (3-1) through a coupler, a guide rod (3-3) is fixedly connected to the motor frame of the double-output-shaft motor (3-1), two slide bars (3-4) are respectively connected to two ends of the guide rod (3-3) in a sliding fit manner, the two slide bars (3-4) are respectively connected to the two screw rods (3-2) through a thread fit manner, the two slide bars (3-4) are respectively fixedly connected with a U-shaped frame (3-5), two U-shaped frames (3-5) are respectively provided with a transverse sliding chute (3-6), the outer ends of the two transverse sliding chutes (3-6) are respectively fixedly connected with a U-shaped rod (3-7), the lower ends of the two U-shaped rods (3-7) are respectively fixedly connected with an insulating lead ring (3-8); the two long shafts (2-2) are respectively connected in the two transverse sliding chutes (3-6) in a sliding fit manner; the two telescopic pieces (4) are respectively connected with the two U-shaped rods (3-7) in a matching way.

5. The utility pole high-voltage wire mounting insulator rack of claim 4, wherein: the telescopic part (4) comprises a tool plate (4-1), a hexagonal prism (4-2) and a second electric push rod (4-3); the tool type plate (4-1) is connected to the U-shaped rod (3-7) in a sliding fit mode, the outer end of the tool type plate (4-1) is fixedly connected with the hexagonal prism (4-2), the hexagonal prism (4-2) is connected to the rotating piece (5) in a matching mode, the second electric push rod (4-3) is fixedly connected to the U-shaped rod (3-7) at the left end, and the telescopic end of the second electric push rod (4-3) is fixedly connected to the tool type plate (4-1).

6. The utility pole high-voltage wire mounting insulator rack of claim 5, wherein: the rotating piece (5) comprises a rectangular seat (5-1) and a shaft lever (5-2); the hexagonal prism (4-2) is connected to the upper end of the rectangular seat (5-1) in a sliding fit mode, the shaft lever (5-2) is fixedly connected to the lower end of the rectangular seat (5-1), and the shaft lever (5-2) is connected with the fixing piece (6) in a matching mode.

7. The utility pole high-voltage wire mounting insulator rack of claim 6, wherein: the fixing piece (6) comprises a right-angle plate (6-1), a vertical frame (6-2), an arc-shaped frame (6-3) and an arc-shaped seat (6-4); the upper end and the outer end of the right-angle plate (6-1) are respectively fixedly connected with a vertical frame (6-2) and an arc-shaped frame (6-3), the lower end of the arc-shaped frame (6-3) is fixedly connected with an arc-shaped seat (6-4), and the shaft lever (5-2) is rotatably connected to the vertical frame (6-2).

8. The utility pole high-voltage wire mounting insulator rack of claim 7, wherein: the angle adjusting piece (7) comprises a folding rod (7-1), an adjusting shaft (7-2), a driving gear (7-3), a driven gear (7-4) and a second locking screw (7-5); the folding rod (7-1) is fixedly connected to the vertical frame (6-2) at the left end, the adjusting shaft (7-2) is rotatably connected to the folding rod (7-1), the driving gear (7-3) is fixedly connected to the adjusting shaft (7-2), the driving gear (7-3) is in meshing transmission connection with the driven gear (7-4), and the driven gear (7-4) is fixedly connected to the outer end of the shaft lever (5-2) at the left end; the second locking screw (7-5) is connected to the folding rod (7-1) through thread fit, and the second locking screw (7-5) is tightly pressed against the adjusting shaft (7-2).

9. The utility pole high-voltage wire mounting insulator rack of claim 8, wherein: the position adjusting piece (8) comprises a sliding plate (8-1), a sliding seat (8-2), a trapezoidal bar (8-3), a sliding block (8-4), a driving motor (8-5), a lead screw (8-6), an articulated arm (8-7) and an articulated frame (8-8); the sliding plate (8-1) is fixedly connected to the rectangular seat (5-1) at the left end, the sliding seat (8-2) is connected to the sliding plate (8-1) in a sliding fit mode at the left end, the trapezoidal bar (8-3) is fixedly connected to the sliding seat (8-2), the sliding block (8-4) is connected to the trapezoidal bar (8-3) in a sliding fit mode, the driving motor (8-5) is fixedly connected to the sliding seat (8-2) through a motor frame, the lead screw (8-6) is connected to an output shaft of the driving motor (8-5) through a coupler, the sliding block (8-4) is connected with the lead screw (8-6) in a threaded fit mode, the sliding block (8-4) and the hinge frame (8-8) are rotatably connected to two ends of the hinge arm (8-7) respectively, and the hinge frame (8-8) is fixedly connected to the U-5).

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