CN210326920U - Temporary fixing support for high-voltage cable - Google Patents

Abstract

The utility model discloses a temporary fixing bracket for high-voltage cables, which comprises a main body rod, a hook, a plurality of fixing clamps and an isolating frame; the hook is arranged at the top end of the main body rod and is used for being suspended on a guide line; the fixing clamps are arranged on the main body rod along the length direction of the main body rod and are used for clamping cables passing through the fixing clamps together; the isolation frame comprises a supporting rod and an isolation fork, one end of the supporting rod is connected with the main body rod, and the other end of the supporting rod is connected with the isolation fork. The bypass cable is clamped on the main body rod by the fixing clamps, so that the shape of the bypass cable suspended in the air is restrained, and the shaking of the bypass cable is reduced; meanwhile, the hook position is used as a stress point, so that the stress burden of the quick connector for electrically connecting the bypass cable and the lead is reduced; and the isolation frame avoids the friction and the contact between the bypass cable and the adjacent phase conductor bracket below, and avoids the danger caused by the short circuit between the bypass cable and the phase conductor below.

Description

Temporary fixing support for high-voltage cable

Technical Field

The utility model relates to a live working equipment technical field, in particular to interim fixed bolster of high tension cable.

Background

The live working bypass system is applied to the first-aid repair of 10kV overhead insulated line faults, when the 10kV overhead insulated line faults are repaired or routinely maintained, a temporary power transmission line is rapidly assembled on site, the fault repair or routinely maintained line section is bridged, and uninterrupted power supply is kept for line users through the bypass system.

At the moment, if one end of a bypass cable for constructing a bypass system is directly hung on a lead of a 10kV power distribution network through a quick connector, the quick connector bears all the weight of the whole cable under the action of gravity, so that the quick connector is damaged; in addition, because the upper, middle and lower three-phase conductors of the 10kV power distribution network are erected and distributed along the same vertical plane, under the condition of large wind power in outdoor operation, the bypass cables hung on the upper phase and the middle phase can generate large shaking and frequently rub with the conductors of the middle phase and the lower phase, so that the conductors and the cables are easily damaged, and short circuit is easily caused after the conductors and the cables are damaged.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve one of the technical problem that exists among the prior art at least, provide a temporary fixed bolster of high tension cable, can avoid bypass cable quick-operation joint to damage and avoid bypass cable and three-phase conductor to take place the friction.

The utility model discloses one of them aspect provides a temporary fixed bolster of high tension cable, include:

a main body lever;

the hook is arranged at the top end of the main body rod and is used for being hung on a wire;

the fixing clamps are arranged on the main body rod along the length direction of the main body rod and are used for clamping cables passing through the fixing clamps together;

the isolation frame comprises a supporting rod and an isolation fork, one end of the supporting rod is connected with the main body rod, and the other end of the supporting rod is connected with the isolation fork.

Has the advantages that: the utility model provides a temporary fixing bracket for high-voltage cables, which comprises a main body rod, a hook, a plurality of fixing clamps and an isolating frame, wherein the hook is arranged at the top end of the main body rod and is used for being suspended on a lead; the fixing clamps are arranged on the main body rod along the length direction of the main body rod and are used for clamping cables passing through the fixing clamps together; the isolation frame comprises a supporting rod and an isolation fork, one end of the supporting rod is connected with the main body rod, and the other end of the supporting rod is connected with the isolation fork. The main body rod, the hook, the supporting rod, the isolating fork and the fixing clamp are all made of insulating materials such as rubber and plastic or a layer of insulating materials wraps the outer layer of a metal material. During the use, utilize the fixation clamp to fix on the main part pole with the bypass cable in proper order, will get in touch the wire that needs be connected with the bypass cable electricity among the three-phase wire, then will keep apart the fork on the isolation frame and hold the wire of this looks wire below, be connected this bypass cable and wire electricity finally. The bypass cable is clamped on the main body rod by the fixing clamps, so that the shape of the bypass cable suspended in the air is restrained, and the shaking of the bypass cable is reduced; meanwhile, the hook position is used as a stress point, so that the stress burden of the quick connector for electrically connecting the bypass cable and the lead is reduced; and the isolation frame avoids the friction and the contact between the bypass cable and the adjacent phase conductor bracket below, and avoids the danger caused by the short circuit between the bypass cable and the phase conductor below.

As a further improvement of the above scheme, the hook comprises a curved part, an elastic part and a self-locking plate, wherein the curved part is provided with an opening, and one end of the self-locking plate is rotatably connected with the edge of one side of the opening;

the two ends of the elastic piece are respectively connected with the arc bending part and the self-locking piece and used for providing elastic force for abutting against the other end of the self-locking piece to the edge of the other side of the opening. The elastic piece is used for driving the self-locking plate to lock the opening of the curved arc part, so that the risk that the hook is blown by wind to fall off when being hung on the wire is avoided.

As a further improvement of the above scheme, the isolation frame further comprises a hoop, and one end of the support rod is connected with the hoop and fixedly connected to the main body rod through the hoop. According to the vertical interval between the three-phase wires, the hoop is loosened to adjust the position of the supporting rod, so that the adjustment is facilitated.

As a further improvement of the above scheme, the hoop is provided with a mounting groove and a bolt assembly, the mounting groove comprises two side walls, and the side walls are provided with first through holes matched with the bolt assembly; the one end of branch is provided with the second through-hole and imbeds the mounting groove, bolt assembly passes first through-hole and second through-hole simultaneously and locks branch in the mounting groove. After the angle of the supporting rod and the angle of the main body rod are adjusted, the angles of the supporting rod and the main body rod are locked again through the mounting groove and the bolt assembly, the distance between the three-phase line and the main body rod can be adjusted correspondingly, and the adjusting capacity is further improved.

As a further improvement of the above scheme, the fixing clamp comprises a limiting groove, a pressing block, a pressing rod, a connecting rod, a handle rod and a base, wherein the limiting groove is fixed on the main body rod, the base is arranged on one side of the limiting groove, one end of the pressing rod is rotatably connected with the base, the other end of the pressing rod is connected with the pressing block, and the pressing block can be far away from or close to the limiting groove under the driving of the pressing rod and is used for clamping the cable together with the limiting groove;

one end of the handle rod is rotatably connected with the base, the other end of the handle rod is wrapped by the anti-skid rubber sleeve, one end of the connecting rod is rotatably connected to the middle position of the pressure rod, and the other end of the connecting rod is rotatably connected to the middle position of the handle rod;

when the pressing rod drives the pressing block to reach a position where the pressing block and the limiting groove clamp the cable together, three points of a first connecting point and a second connecting point which are rotatably connected with the pressing rod and the handle rod and a third connecting point which is rotatably connected with the handle rod and the base are collinear at two ends of the connecting rod respectively, and a straight line formed by the pressing rod and the base, a fourth connecting point which are rotatably connected with the connecting rod and the first connecting point is mutually vertical to a straight line formed by the first connecting point and the second connecting point. The fixing clamp of the structure does not need a bolt to lock the pressing block and the limiting groove, so that tools such as a spanner are not needed when the pressing block and the limiting groove are adjusted to be opened and closed to clamp or loosen the bypass cable in the fixing clamp, the opening and closing can be directly controlled by hands, and the fixing speed of the cable is accelerated.

As a further improvement of the scheme, the surface of the support rod and/or the main body rod is coated with hydrophobic materials. In rainy days, the rainwater can possibly generate creepage between the bypass cable and the phase conductor which is forked by the isolation fork along the main body rod and the branch rod, and the hydrophobic material can effectively avoid the rainwater from being attached to the main body rod and the branch rod, so that the safety performance is improved.

As a further improvement of the scheme, the number of the hooks is more than two, and the hooks are arranged at the top end of the main body rod in parallel. In order to increase the stability of hanging on the wire by main part pole, the quantity of couple is two and more, reduces the rocking of bypass cable.

Drawings

The present invention will be further described with reference to the accompanying drawings and examples;

fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a cross-sectional view of a hook according to an embodiment of the present invention;

fig. 3 is a schematic structural view illustrating a state that the fixing clip releases the cable according to the embodiment of the present invention;

fig. 4 is a schematic structural view illustrating a state that the fixing clip clamps the cable according to the embodiment of the present invention;

fig. 5 is a schematic partial structure diagram of an isolation frame according to an embodiment of the present invention;

in the figure, 100-main body rod, 200-hook, 210-curved part, 211-opening, 220-clamp spring, 230-self-locking plate, 300-fixing clip, 301-first connecting point, 302-second connecting point, 303-third connecting point, 304-fourth connecting point, 310-limiting groove, 320-pressing block, 330-pressing rod, 340-connecting rod, 350-handle rod, 360-base, 370-antiskid rubber sleeve, 400-isolation frame, 410-supporting rod, 411-second through hole, 420-isolation fork, 430-hoop, 431-mounting groove, 432-bolt component, 433-side wall and 434-first through hole.

Detailed Description

This section will describe in detail the embodiments of the present invention, preferred embodiments of the present invention are shown in the attached drawings, which are used to supplement the description of the text part of the specification with figures, so that one can intuitively and vividly understand each technical feature and the whole technical solution of the present invention, but they cannot be understood as the limitation of the protection scope of the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship indicated with respect to the orientation description, such as up, down, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does 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.

In the description of the present invention, a plurality of means are one or more, a plurality of means are two or more, and the terms greater than, less than, exceeding, etc. are understood as not including the number, and the terms greater than, less than, within, etc. are understood as including the number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless there is an explicit limitation, the words such as setting, installation, connection, etc. should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above words in combination with the specific contents of the technical solution.

As shown in fig. 1, a temporary fixing bracket for a high voltage cable comprises a main body rod 100, a hook 200, a plurality of fixing clips 300, and an isolation frame 400; the hook 200 is disposed at the top end of the main body rod 100 and used for hanging on a wire; a plurality of fixing clips 300 are provided on the main body bar 100 along the length direction of the main body bar 100 and used for collectively clamping cables passing through the fixing clips 300; the isolation frame 400 comprises a supporting rod 410 and an isolation fork 420, wherein one end of the supporting rod 410 is connected with the main body rod 100, and the other end of the supporting rod 410 is connected with the isolation fork 420.

As shown in fig. 2, on the basis of the above embodiment, the hook 200 includes a curved portion 210, an elastic member, and a self-locking plate 230, the curved portion 210 is provided with an opening 211, and one end of the self-locking plate 230 is rotatably connected to an edge of one side of the opening 211;

the elastic piece is a clamp spring 220, and two ends of the clamp spring 220 are respectively connected with the bent arc portion 210 and the self-locking piece 230 and used for providing elastic force for enabling the other end of the self-locking piece 230 to abut against the edge of the other side of the opening 211. The elastic member is used to drive the self-locking plate 230 to lock the opening 211 of the curved portion 210, thereby avoiding the risk that the hook 200 is blown by wind and falls off when being hung on a conductor. In other embodiments, the resilient member may be implemented as a spring.

As shown in fig. 5, on the basis of the above embodiment, the isolation frame 400 further includes a hoop 430, and one end of the strut 410 is connected to the hoop 430 and is fixedly connected to the main body bar 100 through the hoop 430. According to the vertical spacing between the three-phase conductors, the hoop 430 is loosened to adjust the position of the supporting rod 410, so that the adjustment is facilitated.

As shown in fig. 5, on the basis of the above embodiment, the anchor ear 430 is provided with a mounting groove 431 and a bolt assembly 432, the mounting groove 431 includes two side walls 433, and the side walls 433 are provided with first through holes 434 matched with the bolt assembly 432; one end of the support rod 410 is provided with a second through hole 411 and is inserted into the mounting groove 431, and the bolt assembly 432 simultaneously passes through the first through hole 434 and the second through hole 411 and locks the support rod 410 in the mounting groove 431. After the angle between the pole 410 and the main body pole 100 is adjusted, the angle between the pole 410 and the main body pole 100 is re-locked by the mounting groove 431 and the bolt assembly 432, and the distance between the three-phase line and the main body pole 100 can be correspondingly adjusted, thereby further improving the adjusting capability.

As shown in fig. 3 and 4, on the basis of the above embodiment, the fixing clip 300 includes a limiting groove 310, a pressing piece 320, a pressing rod 330, a connecting rod 340, a handle bar 350, and a base 360, the limiting groove 310 is fixed on the main body bar 100, the base 360 is disposed at one side of the limiting groove 310, one end of the pressing rod 330 is rotatably connected with the base 360, the other end of the pressing rod 330 is connected with the pressing piece 320, and the pressing piece 320 can be far away from or close to the limiting groove 310 under the driving of the pressing rod 330 and is used for clamping the cable together with the limiting groove 310;

one end of the handle bar 350 is rotatably connected with the base 360, the other end of the handle bar is wrapped with an anti-slip rubber sleeve 370 made of rubber or silica gel, one end of the connecting rod 340 is rotatably connected with the middle position of the pressure lever 330, and the other end of the connecting rod is rotatably connected with the middle position of the handle bar 350;

when the pressing rod 330 drives the pressing block 320 to reach a position where the pressing block and the limiting groove 310 clamp the cable together, two ends of the connecting rod 340 are respectively collinear with three points of a first connecting point 301 and a second connecting point 302 which are rotationally connected with the pressing rod 330 and the handle rod 350, and a third connecting point 303 which is rotationally connected with the handle rod 350 and the base 360, and a straight line formed by two points of the first connecting point 301 and a straight line formed by two points of the fourth connecting point 304 and the first connecting point 301 which are rotationally connected with the base 360 and the connecting rod 340, and the pressing rod 330 are perpendicular to a straight line formed by two points of the first connecting point.

The fixing clamp 300 with the structure does not need to lock the pressing block 320 and the limiting groove 310 through bolts, so that tools such as a spanner and the like are not needed when the pressing block 320 and the limiting groove 310 are adjusted to be opened and closed to clamp or loosen the bypass cable in the limiting groove, the opening and closing can be directly controlled by hands, and the fixing speed of the cable is accelerated. The principle is that when the pressing rod 330 drives the pressing block 320 to reach the position where the pressing block and the limiting groove 310 clamp the bypass cable together, as shown in fig. 3 and 4, three points of the first connection point 301, the second connection point 302 and the third connection point 303 are collinear, a straight line formed by the three points is parallel to the Y-axis direction, and a straight line formed by the first connection point 301 and the fourth connection point 304 is parallel to the X-axis direction.

The force analysis was as follows: when the bypass cable clamped by the pressing block 320 and the limiting groove 310 together shakes, the pressing block 320 tends to be loosened, a force in the positive direction of the Y axis is applied to the pressing rod 330, the pressing rod 330 applies the force in the positive direction of the Y axis to the pressing rod 330 through the first connecting point 301, the connecting rod 340 applies the force in the positive direction of the Y axis to the handle bar 350 through the second connecting point 302, and the base 360 applies the force in the negative direction of the Y axis to the handle bar 350 through the third connecting point 303 to counteract the force in the positive direction of the Y axis applied to the handle bar 350 by the connecting rod 340 through the second connecting point 302; at this time, the positive and negative forces along the Y-axis on the handle lever 350 and the connecting rod 340 keep a balanced state, so as to ensure that the bypass line is stably fixed in the pressing block 320 and the limiting groove 310.

When an operator needs to loosen the bypass cable, the operator holds the anti-slip rubber sleeve 370 of the handle bar 350 by hand to apply a force to the handle bar 350 deviating from the Y-axis direction, so as to break the stress balance of the handle bar 350 and change the state of the handle bar 350, the handle bar 350 applies a force to the connecting rod 340 deviating from the Y-axis direction through the second connecting point 302, so as to break the stress balance on the connecting rod 340 and change the state of the connecting rod 340, and the connecting rod 340 pulls the pressure rod 330 through the first connecting point 301 so as to drive the pressure block 320 to loosen the bypass cable.

Consequently, this fixation clamp 300 structure avoids the bypass cable because rock and causes the pine to take off, can pass through manual quick fixed cable again, has promoted security performance and assembly efficiency.

As shown in fig. 1, in the above embodiment, the surface of the support rod 410 and/or the main body rod 100 is coated with a hydrophobic material. In rainy days, the rainwater may creep between the bypass cable and the phase conductor crossed by the isolation fork 420 along the main body rod 100 and the support rod 410, and the hydrophobic material can effectively prevent the rainwater from attaching to the main body rod 100 and the support rod 410, thereby improving the safety performance.

As shown in fig. 1, in addition to the above embodiment, the number of the hooks 200 is two or more, and two or more hooks 200 are arranged in parallel at the tip of the main body lever 100. In order to increase the stability of the main body pole 100 hanging on the wire, the number of the hooks 200 is two or more, and the sway of the bypass cable is reduced.

The working principle of the temporary fixing bracket for high-voltage cables is illustrated as follows:

when the bypass cable needs to be electrically connected to the upper phase conductor, the bypass cable is fixed in the fixing clip 300, then the hook 200 is hung on the upper phase conductor, the isolation fork 420 is clamped to the middle phase conductor or the lower phase conductor, and then the bypass cable is electrically connected to the upper phase conductor.

When the bypass cable needs to be electrically connected with the middle phase conductor, the bypass cable is fixed in the fixing clip 300, then the hook 200 is hung on the middle phase conductor, the isolation fork 420 is used for forking the lower phase conductor, and then the bypass cable is electrically connected with the middle phase conductor.

When the bypass cable needs to be electrically connected to the lower phase conductor, the bypass cable is fixed in the fixing clip 300, and then the hook 200 is hung on the lower phase conductor, and the isolation fork 420 may be omitted.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (7)

1. A high tension cable temporary fixation support, comprising:

a main body lever;

the hook is arranged at the top end of the main body rod and is used for being hung on a wire;

the fixing clamps are arranged on the main body rod along the length direction of the main body rod and are used for clamping cables passing through the fixing clamps together;

the isolation frame comprises a supporting rod and an isolation fork, one end of the supporting rod is connected with the main body rod, and the other end of the supporting rod is connected with the isolation fork.

2. A temporary fixing bracket for high-voltage cables according to claim 1, characterized in that: the hook comprises a bent arc part, an elastic part and a self-locking plate, wherein the bent arc part is provided with an opening, and one end of the self-locking plate is rotatably connected with the edge of one side of the opening;

the two ends of the elastic piece are respectively connected with the arc bending part and the self-locking piece and used for providing elastic force for abutting against the other end of the self-locking piece to the edge of the other side of the opening.

3. A temporary fixing bracket for high-voltage cables according to claim 1, characterized in that: the isolation frame further comprises a hoop, one end of the support rod is connected with the hoop and fixedly connected to the main body rod through the hoop.

4. A temporary fixing bracket for high voltage cable according to claim 3, characterized in that: the hoop is provided with a mounting groove and a bolt assembly, the mounting groove comprises two side walls, and a first through hole matched with the bolt assembly is formed in each side wall; the one end of branch is provided with the second through-hole and imbeds the mounting groove, bolt assembly passes first through-hole and second through-hole simultaneously and locks branch in the mounting groove.

5. A temporary fixing bracket for high-voltage cables according to claim 1, characterized in that: the fixing clamp comprises a limiting groove, a pressing block, a pressing rod, a connecting rod, a handle rod and a base, wherein the limiting groove is fixed on the main body rod, the base is arranged on one side of the limiting groove, one end of the pressing rod is rotatably connected with the base, the other end of the pressing rod is connected with the pressing block, and the pressing block can be far away from or close to the limiting groove under the driving of the pressing rod and is used for clamping a cable together with the limiting groove;

one end of the handle rod is rotatably connected with the base, the other end of the handle rod is wrapped by the anti-skid rubber sleeve, one end of the connecting rod is rotatably connected to the middle position of the pressure rod, and the other end of the connecting rod is rotatably connected to the middle position of the handle rod;

when the pressing rod drives the pressing block to reach a position where the pressing block and the limiting groove clamp the cable together, three points of a first connecting point and a second connecting point which are rotatably connected with the pressing rod and the handle rod and a third connecting point which is rotatably connected with the handle rod and the base are collinear at two ends of the connecting rod respectively, and a straight line formed by the pressing rod and the base, a fourth connecting point which are rotatably connected with the connecting rod and the first connecting point is mutually vertical to a straight line formed by the first connecting point and the second connecting point.

6. A temporary fixing bracket for high-voltage cables according to claim 1, characterized in that: the surfaces of the support rods and/or the main body rods are coated with hydrophobic materials.

7. A temporary fixing bracket for high-voltage cables according to claim 1, characterized in that: the quantity of couple be more than two, and two more than couple set up in parallel on the top of main part pole.

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