CN111193120A - Device for hanging detachable head of grounding wire to high-altitude cable - Google Patents

Abstract

A device for hanging a detachable head of a grounding wire to a high-altitude cable comprises a telescopic insulating rod (1), a detachable head positioned at the top of the telescopic insulating rod, and a vertical screw (7) which is connected to the top end of the detachable head and can be connected with a jointing clamp (9); the detachable head comprises a flared downward horn (2) made of insulating materials and a cylinder (3) connected to the top end of the horn; the top end of the telescopic insulating rod is detachably connected with a cylinder or a horn barrel of the detachable head through a connecting piece, and the cylinder is connected with a jointing clamp (9) or a steering mechanism of an external jointing clamp through a vertical screw rod (7) arranged at the top of the cylinder. The invention has the advantages of reasonable structure, simple and convenient operation, safety, reliability, low manufacturing cost, good feasibility and better application prospect.

Description

Device for hanging detachable head of grounding wire to high-altitude cable

Technical Field

The invention relates to the technical field of electric power construction auxiliary tools, in particular to a device for hanging a detachable head of a grounding wire at a grounding ring hook of a high-altitude cable.

Background

The grounding wire is a wire directly connected with the earth and can also be called as a safety return line, and high voltage is directly transferred to the earth in danger, so that the grounding wire is a life safety wire. The grounding wire is connected with the parts such as the shell of the electrical equipment, and unsafe electric charges or leakage current generated due to various reasons can be timely led out.

In the work of electrical equipment maintenance, electrical test, distribution maintenance and the like, after the fact that the equipment does not have voltage is verified, the maintenance equipment is immediately grounded (provided with a grounding wire or a grounding disconnecting link) and three-phase short circuit operation is carried out, so that the safety of maintenance personnel is ensured, and personal injury caused by sudden power on is prevented.

The existing ground wire device mainly comprises a wire clamp, an insulating operating rod, a short circuit wire, a ground wire and a ground clamp. When the grounding wire is installed, the grounding end is firstly installed, and then the conductor end is installed, so that the grounding wire has to be well contacted and reliably connected. However, the existing grounding wire device at least has the following problems: because the ground clamp hangs in the ground ring hook department of high altitude cable, highly all exceed 3 meters more usually, when needs installation ground wire or earth bar, operating personnel need use the ladder of ascending a height or the climbers of ascending a height climb the shaft tower or use high altitude platform car with the ground clamp hang on stopping the electric wire, in the in-process of ascending a height, not only the operation is complicated troublesome, wastes time and energy, still has personnel to take place serious potential safety hazards such as high altitude falls and electrocute.

Disclosure of Invention

The invention aims to overcome the problems in the prior art and provides a device which does not need high-altitude operation, is safe and reliable, saves time and labor and can be used for hanging a detachable head of a grounding wire on a high-altitude cable.

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

a device for hanging a detachable head of a grounding wire to a high-altitude cable comprises a telescopic insulating rod, a detachable head positioned at the top of the telescopic insulating rod, and a vertical screw rod connected to the top end of the detachable head and capable of being connected with a jointing clamp; can dismantle the head including the flaring that makes with insulating material down the horn section of thick bamboo, connect in the cylinder on horn section of thick bamboo top, but the top of scalable insulator spindle carries out separable connection through connecting piece and the cylinder or the horn section of thick bamboo that can dismantle the head, and vertical screw is installed on the top of cylinder, and the cylinder passes through vertical screw to be connected with the steering mechanism of binding clip or external binding clip.

Furthermore, a blind hole with a downward hole opening is formed in the cylinder of the detachable head, and a powerful magnet block is mounted at the top in the blind hole; the top end of the telescopic insulating rod is provided with a connecting plate, the connecting plate is connected with an extended ferromagnetic body through a connecting screw, and the upper part of the ferromagnetic body extends into the blind hole to be attracted with the strong magnet block.

Furthermore, the blind holes are rectangular vertical holes; the strong magnet block is a cube and is fixedly arranged at the top of the rectangular vertical hole; the ferromagnetic body is of an integrated hammer-shaped structure with a plate-shaped lower part and a trapezoidal cube upper part, and the plane of the top surface of the trapezoidal cube is attracted with the bottom surface of the strong magnet cube.

Furthermore, a blind hole with a downward hole opening is formed in the cylinder of the detachable head, the blind hole is an inverted T-shaped hole and consists of a vertical hole and a rectangular horizontal hole positioned at the bottom of the vertical hole; the top end of the telescopic insulating rod is provided with a connecting plate, the connecting plate is connected with an extending cross through a connecting screw, and the cross is inserted into the inverted T-shaped blind hole and is detachably connected with the cylinder.

Furthermore, a longitudinal notch extending from the horn mouth to the horn bottom is formed in the horn cylinder with the detachable head, a transversely arranged fixed bayonet lock is fixedly connected to the top end of the telescopic insulating rod, and the outer end of the fixed bayonet lock is clamped in the longitudinal notch.

Further, on the first section pole of the topmost of scalable insulator spindle or the cover is equipped with the side on the second section pole and stretches the support, the side is stretched the support and is included the antifriction bearing of suit on scalable insulator spindle, welds the cantilever of the outer end area shackle on one side of the antifriction bearing.

Furthermore, the steering mechanism comprises an L-shaped support plate, a pair of vertical bevel gears and a horizontal bevel gear, wherein the vertical bevel gears and the horizontal bevel gears are arranged in the L-shaped support plate and are meshed with each other; the jointing clamp is connected with a vertical plate of the L-shaped support plate through a horizontal screw rod, the horizontal screw rod penetrates through the L-shaped support plate, and the vertical bevel gear is mounted at the inner end of the horizontal screw rod.

Further, the horizontal screw is a T-shaped screw. The vertical screw is a T-shaped screw.

By adopting the invention, the jointing clamp for connecting the ground wire can be connected with the detachable head, the detachable head is lifted upwards to the high-altitude cable by the telescopic insulating rod and is hooked and connected with the grounding ring at the high-altitude cable, and an operator can stand on the ground and hang the jointing clamp on the grounding ring hook at the high-altitude cable through the telescopic insulating rod to complete the wiring. Because the top of scalable insulator spindle with can dismantle and be separable connection structure between the head, the wiring is accomplished the back, and scalable insulator spindle drop-down can break away from and can dismantle the head, and is very simple and convenient. Whole operation process need not to climb up the shaft tower with the ladder of ascending a height or climbers of ascending a height, also need not the high altitude construction car, not only labour saving and time saving, and is easy and simple to handle, reduces construction cost, has effectively avoided the personnel high altitude to fall moreover and has mistakenly bumped the risk of electrified body.

The connection mode of the wiring clamp and the detachable head is flexible and various, the connection mode of the detachable head and the telescopic insulating rod is also flexible and various, the suitable structural form can be flexibly selected according to the construction field condition, the requirements of different production scenes are met, and the flexible and convenient connection is realized.

The invention has the advantages of reasonable structure, safety, reliability, low manufacturing cost, good implementability and better application prospect.

Drawings

FIG. 1 is a schematic diagram of one embodiment of the connection of the present invention;

FIG. 2 is a schematic view of the telescoping insulator rod of FIG. 1 coupled to a ferromagnetic body;

FIG. 3 is a cross-sectional view A-A of FIG. 1;

FIG. 4 is a schematic view of an alternative form of construction of section A-A of FIG. 1, showing an alternative arrangement of the retractable insulating rod in connection with the removable head;

FIG. 5 is a schematic view of the telescoping insulator rod of FIG. 4 coupled to a cross;

FIG. 6 is a schematic view of yet another configuration of a retractable insulator rod coupled to a detachable head;

FIG. 7 is a schematic view of the present invention with a steering mechanism for connecting the removable head to the binding clip via the steering mechanism;

FIG. 8 is another embodiment of a binding clip with a detachable head attached via a steering mechanism;

FIG. 9 is a schematic view of a side-extension bracket sleeved over a telescoping insulator rod;

FIG. 10 is a schematic view of one way of operating the present invention.

Detailed Description

The invention is further explained by the accompanying drawings.

As shown in fig. 1, 2 and 3, the device for hanging the detachable head of the ground wire to the overhead cable comprises a telescopic insulating rod 1, a detachable head positioned at the top of the telescopic insulating rod, and a jointing clamp 9 connected to the top end of the detachable head. Can dismantle the head including the flaring that makes with insulating material down horn section of thick bamboo 2, connect in the cylinder 3 on horn section of thick bamboo top, the top of scalable insulator spindle is passed through the connecting piece and is connected with the cylinder that can dismantle the head to the connecting piece is separable with the cylinder, and vertical screw 7 is installed on the top of cylinder. This embodiment structure is used for hanging the earth connection to the wire of horizontal type, mainly used when having a power failure the installation of earth connection in work such as electrical equipment maintenance, electrical test, distribution maintenance. The cylinder 3 is connected with a jointing clamp 9 through a vertical screw 7. The vertical screw 7 is a T-shaped screw. A blind hole with a downward hole opening is formed in the cylinder 3 of the detachable head, and a strong magnet block 4 is arranged at the top in the blind hole; the top end of the telescopic insulating rod is welded with a connecting plate 5, the connecting plate is connected with a ferromagnetic body 6 which extends upwards through a connecting bolt 8, and the upper part of the ferromagnetic body extends into the blind hole to be attracted with the strong magnet block 4. The blind holes are rectangular vertical holes 3-1; the strong magnet block 4 is a cube and is fixedly arranged at the top of the rectangular vertical hole by adopting a screw 11 and connected with the cylinder 3. The strong magnet block can also be embedded at the top of the rectangular vertical hole in an interference fit manner. The ferromagnetic body 6 is an integrated hammer-shaped structure with a plate-shaped lower part and a trapezoidal cube upper part, and the top plane of the trapezoidal cube can be attracted to the bottom surface of the strong magnet block under the strong attraction of the strong magnet block. The ferromagnetic body of the trapezoidal cube can be firmly attracted with the strong magnet block and is convenient to separate. The size of the powerful magnet block and the size of the magnetic attraction force are determined according to actual requirements.

When the device is used, a grounding wire 13 with the lower end connected with a grounding end wire clamp 12 is connected to a binding post 9-1 of a binding clip 9, the grounding wire clamp 12 is reliably grounded firstly, and a vertical screw 7 penetrates through a lower clamping plate 9-2 of the binding clip to be connected with a cylinder 3 of a detachable head. The telescopic insulating rod 1 is inserted into the horn cylinder 2, and the ferromagnet 6 is inserted into the rectangular vertical hole 3-1 until the ferromagnet is tightly attached to the powerful ferromagnetic block and is firmly attracted by the powerful ferromagnet. And then adjusting the telescopic insulating rod, continuously lengthening and lifting the telescopic insulating rod, stably and upwards lifting the detachable head, adjusting and rotating the telescopic insulating rod, driving the detachable head to rotate, and hanging the wiring clamp on the grounding ring hook at the high-altitude cable. After the wiring clamp is hung and the grounding wire is wired, the telescopic insulating rod is pulled down, and the ferromagnet is separated from the strong magnet block 4. When the jointing clamp is to be taken down after the operation is finished, the telescopic insulating rod 1 is inserted into the horn tube 2, the ferromagnetic body 6 is inserted into the rectangular vertical hole 3-1 until the ferromagnetic body is tightly attached to the powerful ferromagnetic block and is firmly attracted by the powerful ferromagnetic body, and the telescopic insulating rod is adjusted and rotated to take down the jointing clamp.

Fig. 4 and 5 show another structure form of the section a-a of fig. 1, which is another connection structure of the telescopic insulation rod and the detachable head. An inverted T-shaped blind hole 3-2 with a downward hole opening is formed in a cylinder 3 of a detachable head, and the inverted T-shaped blind hole consists of a vertical hole and a rectangular groove positioned at the bottom of the vertical hole; the top end of the telescopic insulating rod is provided with a connecting plate 5, the connecting plate is connected with an upward extending cross 14 through a connecting screw 8, and the cross is inserted into the inverted T-shaped blind hole and is detachably connected with the cylinder 3.

When the structure shown in fig. 4 and 5 is adopted, in operation and use, as shown in fig. 1, the grounding wire 13 with the lower end connected with the grounding terminal clamp 12 is connected with the binding post 9-1 of the binding clip 9, the grounding terminal clamp 12 is reliably grounded firstly, and the vertical screw 7 penetrates through the lower clamping plate 9-2 of the binding clip to be connected with the cylinder 3 of the detachable head. The telescopic insulating rod 1 is inserted into the horn cylinder 2, and the cross 14 is inserted into the inverted T-shaped blind hole 3-2, so that the telescopic insulating rod is stably spliced with the cylinder 3. And then adjusting the telescopic insulating rod, continuously lengthening and lifting the telescopic insulating rod, stably and upwards lifting the detachable head, adjusting and rotating the telescopic insulating rod, driving the detachable head to rotate, and hanging the wiring clamp on the grounding ring hook at the high-altitude cable. After the wiring clamp is hung and the grounding wire is wired, the telescopic insulating rod is pulled down, and the cross is separated from the inverted T-shaped blind hole. When the jointing clamp is to be taken down after the operation is finished, the telescopic insulating rod 1 is inserted into the horn cylinder 2, the cross 14 is inserted into the inverted T-shaped blind hole 3-2, and the telescopic insulating rod is adjusted and rotated to take down the jointing clamp.

Fig. 6 is a schematic view showing still another structure in which the retractable insulating rod is coupled to the detachable head. For ease of illustration, fig. 6 depicts the horn 2 as transparent to facilitate visualization of the internal structure. A horn cylinder 2 with a detachable head is provided with a longitudinal notch 2-1 extending from a horn mouth to a horn bottom, the top end of the telescopic insulating rod 1 is fixedly connected with a transversely arranged fixed bayonet lock 15, and the outer end of the fixed bayonet lock is clamped in the longitudinal notch 2-1. The telescopic insulating rod and the detachable head are connected through the clamping pin.

By adopting the structure shown in fig. 6, when in operation and use, the grounding wire 13 with the lower end connected with the grounding end clamp 12 is connected with the binding post 9-1 of the binding clip 9, the grounding wire clamp 12 is reliably grounded firstly, and the vertical screw 7 penetrates through the lower clamping plate 9-2 of the binding clip to be connected with the cylinder 3 of the detachable head. The telescopic insulating rod 1 is inserted into the horn cylinder 2, and the bayonet 15 is clamped in the longitudinal notch 2-1, so that the telescopic insulating rod and the horn cylinder 2 form separable connection. And then adjusting the telescopic insulating rod, continuously lengthening and lifting the telescopic insulating rod, stably and upwards lifting the detachable head, adjusting and rotating the telescopic insulating rod, driving the detachable head to rotate, and hanging the wiring clamp on the grounding ring hook at the high-altitude cable. After the wiring clamp is hung and the wiring of the grounding wire is finished, the telescopic insulating rod is pulled down, and the clamping pin is withdrawn from the longitudinal notch. When the jointing clamp is to be taken down after the operation is finished, the telescopic insulating rod 1 is inserted into the telescopic insulating rod 1 from the horn cylinder 2, the bayonet pin 15 is clamped in the longitudinal notch 2-1, and the telescopic insulating rod is adjusted and rotated to take down the jointing clamp.

In both fig. 1 and fig. 6, the cylinder 3 of the detachable head is directly connected with the binding clip 9 by a vertical screw 7. The connecting structure is mainly suitable for hanging the jointing clamp on a horizontal conductor. However, in practice, it is sometimes necessary to suspend the ground wire from a vertical wire, and at this time, the clamp is turned to a horizontal position. In order to facilitate hanging the wiring clamp on a vertical conductor, the cylinder 3 of the detachable head is firstly connected with a steering mechanism through a vertical screw 7, and then the wiring clamp 9 is connected with the steering mechanism, so that the wiring clamp is in a transverse position, as shown in fig. 7. The steering mechanism comprises an L-shaped support plate 16, a pair of vertical bevel gears 17 and a horizontal bevel gear 18 which are arranged in the L-shaped support plate and meshed with each other, the vertical screw 7 penetrates through a transverse plate of the L-shaped support plate, and the horizontal bevel gear 18 is arranged at the top of the vertical screw; the jointing clamp 9 is connected with a vertical plate of the L-shaped support plate through a horizontal screw rod 19, the horizontal screw rod 19 penetrates through the vertical plate of the L-shaped support plate, and the vertical bevel gear 17 is installed at the inner end of the horizontal screw rod. The horizontal screw 19 is a T-shaped screw.

Fig. 8 shows another embodiment of a binding clip with a removable head attached via a steering mechanism. The cylinder 3 of the detachable head in the structure that the telescopic insulating rod is connected with the horn cylinder of the detachable head shown in the figure 6 is connected with a jointing clamp 9 through a steering mechanism.

When high altitude cable was located higher position height, the length of earth connection is longer, weight is heavier, if connect the skew scalable insulator spindle of earth connection on the binding clip too far away, and form great contained angle between the scalable insulator spindle, can form great slant pulling force to the lead frame, lead to scalable insulator spindle rising resistance to increase and even cause scalable insulator spindle to empty, cause the incident, consequently, can be as shown in figure 9, on the first section pole at scalable insulator spindle top or second section pole on the side of suit stretch the support, stretch the support with the earth connection cover on the side, make the earth connection be close to scalable insulator spindle as far as possible. The side-stretching support comprises a rolling bearing 22 sleeved on the telescopic insulating rod and a cantilever 23 welded to one side of the rolling bearing and provided with a hook ring at the outer end, and the grounding wire 13 is arranged in the hook ring, so that the grounding wire is kept in a vertical lifting state as much as possible in the lifting process of the telescopic insulating rod, and excessive side tension is prevented from being generated outwards. Adopt antifriction bearing 22 suit on scalable insulator spindle to weld cantilever 23 on antifriction bearing, can be when scalable insulator spindle rotates, the cantilever does not rotate along with scalable insulator spindle, remains one side at scalable insulator spindle all the time, avoids the earth connection to take place the winding. To avoid interference, the length of the cantilever 23 is greater than the flare radius of the horn 2. The rolling bearing 22 is mounted on the telescopic insulating rod at a position lower than the bottom edge of the horn 2. The rolling bearing 22 is preferably sleeved on the first section rod at the top of the telescopic insulating rod to reduce the influence on the rod retraction of the insulating rod as much as possible, and the insulating rod is stopped when being retracted to the bottom surface of the rolling bearing and cannot be retracted to a short length. When necessary, the rolling bearing can be sleeved on the second section rod at the top of the telescopic insulating rod, and the length of the insulating rod after the rod is retracted is slightly longer, so that the bottom surface of the rolling bearing on the second section rod can be retracted.

The detachable heads of the invention are all made of insulating materials, the horn cylinder 2 is usually made of rubber, and the cylinder 3 is usually made of resin materials or engineering plastics. The horn cylinder plays guiding and protecting roles, can guide the telescopic insulating rod to be smoothly inserted into the blind hole, and prevents the telescopic insulating rod from shaking to touch cables or equipment around when the telescopic insulating rod is just separated from the cylinder.

The telescopic insulating rod is formed by sleeving pipe fittings section by section, and the rod section at the top can be a solid rod piece so as to be convenient for connecting the top end with the connecting plate 5 or the bayonet 15. The topmost rod section can be a hollow pipe but a solid section is welded at the top so as to facilitate the connection of a connecting plate or a bayonet lock at the top end. The telescopic rod of the telescopic insulating rod can be purchased in the market and can also be manufactured according to the prior art. The binding clip is the universal binding clip of prior art, can purchase in the market.

The present invention may also be provided with a ground wire retrieving winch 20 as shown in fig. 9 and 10 to automatically take up and pay off the ground wire. The ground wire recovery winch 20 can be a wire coil winding and unwinding device in the prior art and can be directly purchased in the market.

When the detachable head is lifted by the telescopic insulating rod, as shown in fig. 10, a support is arranged on the ground, a pulley 24 is arranged on the support, an insulating pull wire 25 is sleeved on the pulley, one end of the pull wire is tied on the grounding wire 13, the other end of the pull wire is pulled down by an operator 26, the wiring clamp 9 arranged on the detachable head is firstly pulled upwards from a low position along the arrow in the figure to be lifted to a proper height in the air, then the other operator inserts the detachable head into the top of the telescopic insulating rod 1, the detachable head is continuously lifted, and the wiring clamp is hung on the grounding ring hook at the high-altitude cable. Time and labor are saved, and the device can be prevented from being broken by toppling over of the telescopic insulating rod in the process of grounding wires.

The invention effectively solves the problems that the ground wire must be climbed to a tower by using a climbing ladder, climbing climbers or hanging the ground wire clamp on a power-off wire by using a high-altitude platform truck in the prior art and the potential safety hazard. The operating personnel can send earth connection or earth bar to high altitude cable department and ground ring hook and be connected standing subaerial, realizes that the operating personnel is safe controllable, operation labour saving and time saving's purpose.

Claims (10)

1. A device for hanging a detachable head of a grounding wire to a high-altitude cable is characterized by comprising a telescopic insulating rod (1), a detachable head positioned at the top of the telescopic insulating rod, and a vertical screw (7) which is connected to the top end of the detachable head and can be connected with a jointing clamp (9); the detachable head comprises a flared downward horn (2) made of insulating materials and a cylinder (3) connected to the top end of the horn; the top end of the telescopic insulating rod is detachably connected with a cylinder or a horn barrel of the detachable head through a connecting piece, and the cylinder is connected with a jointing clamp (9) or a steering mechanism of an external jointing clamp through a vertical screw rod (7) arranged at the top of the cylinder.

2. The device for hanging the detachable head of the grounding wire to the overhead cable according to claim 1, wherein a blind hole with a downward opening is formed in the cylinder (3) of the detachable head, and a strong magnet block (4) is mounted at the top in the blind hole; the top end of the telescopic insulating rod is provided with a connecting plate (5), the connecting plate is connected with an upper extended ferromagnetic body (6) through a connecting screw (8), and the upper part of the ferromagnetic body extends into the blind hole to be attracted with the strong magnet block (4).

3. Device for suspending a detachable head of a ground wire to an overhead cable according to claim 2, characterized in that said blind hole is a rectangular vertical hole (3-1); the strong magnet block (4) is a cube and is fixedly arranged at the top of the rectangular vertical hole; the lower part of the ferromagnetic body (6) is in a plate shape, the upper part of the ferromagnetic body is in an integrated hammer-shaped structure of a trapezoidal cube, and the plane of the top surface of the trapezoidal cube is attracted to the bottom surface of the strong magnet cube.

4. The device for hanging the detachable head of the grounding wire to the overhead cable according to claim 1, characterized in that a blind hole with a downward opening is formed in the cylinder (3) of the detachable head, and the blind hole is an inverted T-shaped hole (3-2) formed by a vertical hole and a rectangular horizontal hole at the bottom of the vertical hole; the top end of the telescopic insulating rod is provided with a connecting plate (5), the connecting plate is connected with an upper extending cross (14) through a connecting screw, and the cross is inserted into the inverted T-shaped blind hole and is detachably connected with the cylinder (3).

5. The device for hanging the detachable head of the ground wire to the overhead cable according to claim 1, wherein a horn cylinder (2) of the detachable head is provided with a longitudinal notch (2-1) extending from a horn mouth to a horn bottom, a transversely arranged fixing bayonet (15) is fixedly connected to the top end of the telescopic insulating rod, and the outer end of the fixing bayonet is clamped in the longitudinal notch (2-1).

6. The device for hanging the detachable head of the grounding wire to the overhead cable according to any one of claims 1 to 5, wherein a side extension bracket is sleeved on the first section rod or the second section rod at the topmost part of the telescopic insulating rod (1), the side extension bracket comprises a rolling bearing (22) sleeved on the telescopic insulating rod, and a cantilever (23) welded to one side of the rolling bearing and provided with a hook ring at the outer end.

7. The device for hanging the detachable head of the grounding wire to the overhead cable is characterized in that the steering mechanism comprises an L-shaped support plate (16), a pair of vertical bevel gears (17) and a horizontal bevel gear (18) which are meshed with each other and arranged in the L-shaped support plate, the vertical screw (7) penetrates through a transverse plate of the L-shaped support plate, and the horizontal bevel gear (18) is installed at the top of the vertical screw; the jointing clamp (9) is connected with a vertical plate of the L-shaped support plate through a horizontal screw rod (19), the horizontal screw rod (19) penetrates through the L-shaped support plate, and the vertical bevel gear (17) is installed at the inner end of the horizontal screw rod.

8. The device for hanging the detachable head of the grounding wire to the overhead cable is characterized in that the steering mechanism comprises an L-shaped support plate (16), a pair of vertical bevel gears (17) and a horizontal bevel gear (18) which are meshed with each other and arranged in the L-shaped support plate, the vertical screw (7) penetrates through a transverse plate of the L-shaped support plate, and the horizontal bevel gear (18) is installed at the top of the vertical screw; the jointing clamp (9) is connected with a vertical plate of the L-shaped support plate through a horizontal screw rod (19), the horizontal screw rod (19) penetrates through the L-shaped support plate, and the vertical bevel gear (17) is installed at the inner end of the horizontal screw rod.

9. Device for suspending a detachable head of a ground wire to an overhead cable according to claim 7 or 8, characterized in that the horizontal screw (19) is a T-screw.

10. Device for hanging a detachable head of a ground wire to an overhead cable according to any of claims 1 to 5, characterized in that the vertical screw (7) is a T-shaped screw.

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