CN117031079B - High-altitude wiring clamp - Google Patents

Abstract

The invention discloses a high-altitude wiring clamp, which is used for detecting a cable voltage value and comprises the following components: the clamp seat is provided with two separable and jointed contact copper bars, and the two contact copper bars and the clamp seat form a closed ring together in a jointing state; the end part of the insulating rod is connected with the clamp seat; during detection, the clamp seat moves upwards from the right lower part of the cable so that the contact copper bar contacts with the clamp seat and the cable enters the closed ring for detection; according to the invention, the wiring pliers are pushed up from the right lower part of the cable to be contacted with the cable, so that the problem that the wiring pliers cannot be contacted with the cable at one time due to visual deviation of the height is avoided, the operation difficulty is reduced, the operation efficiency is improved, meanwhile, the connection detection operation with the cable can be efficiently carried out in an environment with limited horizontal operation space, the applicability of the wiring pliers is improved, the connection and disconnection of the wiring pliers are realized through the action of pushing up and pulling down, the operation is simple and convenient, and the improvement of the working efficiency is facilitated.

Description

High-altitude wiring clamp

Technical Field

The invention relates to the technical field of electric power detection, in particular to a high-altitude wiring clamp.

Background

The empty wiring test equipment is necessary equipment used for preventive tests and state maintenance tests in an electric power department, most F-shaped structures of the existing wiring pliers are used, the wiring pliers are moved to the position with the same height on one side of a cable and then horizontally moved to be in contact with the cable, but visual deviation exists when working aloft, workers cannot conveniently judge whether the wiring pliers are at the same height with the cable or not, and further the situation that the wiring pliers are in effective contact with the cable only by needing multiple position calibration possibly occurs, so that the operation difficulty is increased, the working efficiency is reduced, the wiring pliers are required to be in an environment with a certain operation space, the wiring pliers can normally work in the space, and the application range is limited.

Disclosure of Invention

The invention mainly aims to provide a high-altitude wiring clamp which aims to solve the existing technical problems.

In order to achieve the above object, the present invention provides a high-altitude wire clamp for taking out a cable voltage value, comprising:

The clamp seat is provided with two separable and jointed contact copper bars, and the two contact copper bars and the clamp seat form a closed ring together in a jointing state;

The end part of the insulating rod is connected with the clamp seat;

During detection, the clamp seat moves upwards from the right lower part of the cable so that the contact copper bar contacts the clamp seat and the cable enters the closed ring for detection.

Further, the contact copper bar is including the detection section that connects gradually, laminating section and preceding section, two under the laminating state, two detection sections are the type of falling V, two preceding section of connecing is positive V type, and two laminating sections are closely laminated together, wherein, be equipped with the sawtooth district on the detection section.

Further, the strip-shaped opening is formed in the contact copper bar, a guide rod is arranged in the strip-shaped opening, a sliding block is arranged on the guide rod, a hook which is inclined upwards and faces to the vertical center line of the clamp seat is arranged on the sliding block, the sliding block is pulled by ropes which are bolted at two ends, two ropes are connected with the wire collecting device by bypassing the wire seat arranged on the clamp seat, and the hook is pulled by the ropes to move up and down on the guide rod so as to apply downward acting force to the cable in the contact process of pushing up the contact copper bar and the cable.

Further, movable hooks facing opposite directions are arranged on the two contact copper bars, wherein the two hooks are arranged on different sides of the respective contact copper bars, and the strip-shaped openings are distributed on the attaching section and the front connecting section.

Further, an extension port communicated with the strip-shaped port is formed in the detection section, an extension rod connected with the guide rod is arranged in the extension port, a driver capable of driving the hook to rotate is arranged on the sliding block, a counter hook is arranged on the hook, and the hook moves onto the extension rod along the guide rod and rotates to enable the counter hook to be in contact with the cable to apply upward acting force when the contact copper bar is separated from the cable.

Further, the attaching section is provided with electromagnets, when the wiring pliers are connected with the cable and are separated from the cable, the magnetic pole directions of the electromagnets at the two sides are the same, so that the two contact copper bars are separated, and when the wiring pliers are connected with the cable, the magnetic pole directions of the electromagnets at the two sides are opposite, so that the two contact copper bars are attached.

Further, a pushing air rod is arranged on the clamp seat, one end of the pushing air rod is connected with the contact copper bar at the corresponding side, the other end of the pushing air rod is connected with one end of the hose, the other end of the hose is connected with the insulating rod, a sealing cavity communicated with the hose is formed in the insulating rod, a pressing block movably connected with the sealing cavity is arranged at the end of the insulating rod, and the pushing air rod can be driven to expand to assist in contact copper bar expansion by pressing the pressing block.

Further, one side of the contact copper bar is provided with an arc-shaped plate connected with the contact copper bar, the inner surface of the arc-shaped plate is provided with tooth-shaped protrusions distributed at equal intervals, the tooth-shaped protrusions are elastically arranged and are in contact with the cable before the contact copper bar is used for treating the surface of the cable

Further, the insulating rod is of a telescopic structure, and a camera is arranged at the front end of the insulating rod.

The beneficial effects of the invention are as follows:

According to the invention, the wiring pliers are pushed up from the right lower part of the cable to be contacted with the cable, so that the problem that the wiring pliers cannot be contacted with the cable at one time due to visual deviation of the height is avoided, the operation difficulty is reduced, the operation efficiency is improved, meanwhile, the connection detection operation with the cable can be efficiently carried out in an environment with limited horizontal operation space, the applicability of the wiring pliers is improved, the connection and disconnection of the wiring pliers are realized through the action of pushing up and pulling down, the operation is simple and convenient, and the improvement of the working efficiency is facilitated.

Drawings

FIG. 1 is a schematic elevational view of the structure of the wire pliers of the present invention;

FIG. 2 is a schematic side view of the structure of FIG. 1 in accordance with the present invention;

FIG. 3 is a schematic view of another embodiment of the structure of the present invention;

FIG. 4 is a schematic view of another embodiment of the structure of the present invention;

FIG. 5 is a schematic diagram of the connection process of the cable and the present invention;

FIG. 6 is a schematic diagram of the process of disengaging the present invention from the cable;

FIG. 7 is a schematic view of the connection structure of the pushing air bar of the present invention;

Fig. 8 is a top view of a single contact copper bar to arcuate plate connection of the present invention.

Reference numerals illustrate:

100. A clamp seat; 101. contacting the copper bar; 101a, a detection section; 101b, a jointing section; 101c, a front connection section; 1011. an arc-shaped plate; 1012. tooth-like projections; 102. a connection structure; 103. strong magnet; 104. a near-electricity alarm; 105. a camera; 106. rubber female plug; 200. an insulating rod; 300. a guide rod; 301. a strip-shaped opening; 302. a driver; 303. a slide block; 304. a hook; 3041. a reverse hook; 305. a wire seat; 306. a string; 307. a wire winding device; 308. an extension bar; 309. a lengthening port; 310. pushing the air rod; 311. a hose; 311. pressing the blocks.

Detailed Description

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

It should be noted that, if directional indications (such as up, down, left, right, front, and rear … …) are included in the embodiments of the present invention, the directional indications are merely used to explain the relative positional relationship, movement conditions, etc. between the components in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are correspondingly changed.

In addition, if there is a description of "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" as it appears throughout includes three parallel schemes, for example "A and/or B", including the A scheme, or the B scheme, or the scheme where A and B are satisfied simultaneously. In addition, "a plurality of" means two or more. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary that the combination of the technical solutions should be regarded as not existing when the combination of the technical solutions contradicts or cannot be realized on the basis of the realization of those skilled in the art.

Referring to fig. 1 and 2, an overhead wire clamp according to the present invention is used for extracting a cable voltage value, and includes:

The clamp seat 100 is provided with two separable and attached contact copper bars 101, and the two contact copper bars 101 and the clamp seat 100 form a closed ring together in an attached state;

An insulating rod 200, the end of which is connected to the jaw 100;

In the detection, the clamp base 100 moves up from the right under the cable so that the contact copper bar 101 contacts the cable and the cable enters the closed loop for detection.

This embodiment is arranged to take out the voltage of the cable or to take out a small current.

The contact copper bar 101 is provided with a rubber female plug 106 for wiring detection.

The contact copper bar 101 is rotatably connected with the jaw 100 through a connection structure 102, wherein the connection structure 102 comprises a connection shaft and a torsion spring.

Referring to fig. 5 and 6, the problem that the wire pliers cannot be contacted with the cable at one time due to visual deviation of the height is avoided by pushing the wire pliers up from the lower side of the cable to be contacted with the wire pliers, the operation difficulty is reduced, the operation efficiency is improved, meanwhile, the connection detection operation with the cable can be efficiently performed in an environment with limited horizontal operation space, the applicability of the wire pliers is improved, connection and disconnection of the wire pliers are realized through pushing up and pulling down, the operation is simple and convenient, and the improvement of the working efficiency is facilitated.

Preferably, the contact copper bar 101 is provided with a near-electricity alarm 104, the wire clamp can be connected to the contact copper bar after the power failure of the high-voltage electricity, and the near-electricity alarm 104 can prevent misoperation of a high-voltage electric personnel with the electric wires and ensure personal safety of the working personnel.

In an embodiment, the contact copper bar 101 includes a detection section 101a, a bonding section 101b and a front connection section 101c that are sequentially connected, the two detection sections 101a are in an inverted V shape, the two front connection sections 101c are in a positive V shape, and the two bonding sections 101b are tightly bonded together, wherein a saw-tooth area is arranged on the detection section 101 a.

The setting like this of this embodiment, preceding section 101c is positive V type and can form the contact with the cable in advance when contacting with the cable to spacing cable, guide it along appointed direction remove to by pincers seat 100 and contact copper bar 101 in the closed loop that forms, after the cable is located the closed loop, two laminating sections 101b reset laminating together, and the wiring pincers hang on the cable this moment, accomplish the connection, can directly develop subsequent operation.

In an embodiment, referring to fig. 4 and 5, a strip-shaped opening 301 is formed on the contact copper bar 101, a guide rod 300 is disposed in the strip-shaped opening 301, a slidable slider 303 is disposed on the guide rod 300, a hook 304 which is inclined upwards and faces to the vertical center line of the clamp base 100 is disposed on the slider 303, the slider 303 is pulled by a wire rope 306 which is bolted at two ends, the two wire ropes 306 are connected with a wire collector 307 by bypassing a wire seat 305 disposed on the clamp base 100, and the hook 304 is pulled by the wire rope 306 to move up and down on the guide rod 300 so as to apply a downward force to the cable in the process of pushing up the contact copper bar 101 to contact the cable.

The setting of this embodiment is like this, when the binding clip from bottom to top with cable contact and exert effort and make laminating section 101b separation, the cotton rope 306 shrink of control slider 303 one end, pulling slider 303 moves down along guide bar 300, synchronous drive couple 304 moves down, couple 304 moves down and contacts with the cable, along with contact copper bar 101 keeps moving up, couple 304 moves down in step, exert ascending effort to the cable, make the cable can get into more easily in the closed loop that is formed by pincers seat 100 and contact copper bar 101, the cable is in the vertical removal of a small margin all the time in this process, can not produce great pulling force to the cable is whole, and then avoid producing the influence to cable both ends junction, the security is improved.

Wherein, strip mouth 301 covers laminating section 101b, when laminating section 101b contact cable and separation, couple 304 has contacted with the cable to receive the cable to stop the separation in-process at laminating section 101b, couple 304 applys continuous downward effort to the cable, guarantees at the wire clamp connection in-process, and the cable receives downward effort all the time, and then guarantees that the cable can not appear rocking by a wide margin.

The hook 304 can always keep the contact state with the cable in the contact detection process of the contact copper bar 101 and the cable and is in a stress state, so that the contact copper bar 101 can be prevented from sliding along the cable due to external force at will, and the stability is improved.

In an embodiment, referring to fig. 4, two contact copper bars 101 are provided with movable hooks 304 facing opposite, wherein the two hooks 304 are disposed on different sides of the respective contact copper bars 101, and strip-shaped openings 301 are distributed on the attaching section 101b and the front connecting section 101 c.

The embodiment sets up like this, applys decurrent effort to the cable simultaneously when wiring pincers and cable contact through the crisscross couple 304 in position, and the effort of applys is located cable and contact copper bar 101 junction both sides respectively for the cable atress is more even, can not appear the problem of cable slope, guarantees contact copper bar 101 efficient and cable contact and be connected smoothly, has improved the smoothness nature of operation and operating efficiency.

In an embodiment, referring to fig. 4 and 5, an extension port 309 is formed on the detection section 101a and is communicated with the strip port 301, an extension rod 308 connected with the guide rod 300 is disposed in the extension port 309, a driver 302 capable of driving the hook 304 to rotate is disposed on the slider 303, a counter hook 3041 is disposed on the hook 304, and when the contact copper bar 101 is separated from the cable, the hook 304 moves onto the extension rod 308 along the guide rod 300 and rotates to enable the counter hook 3041 to contact the cable to apply an upward force.

The embodiment is so arranged that when working is finished, the insulation rod 200 applies downward acting force to the clamp base 100, meanwhile, the control slider 303 and the guide rod 300 slide onto the extension rod 308 and drive the hook 304 to rotate towards the outer side of the contact copper bar 101 until the counter hook 3041 contacts with the lower edge of the cable, in the process of separating the contact copper bar 101 from the cable, the rope 306 at one end of the control slider 303 contracts, the slider 303 drives the counter hook 3041 to move upwards along the extension rod 308 and the guide rod 300, the holding position of the counter hook 3041 does not move along with the downward movement of the contact copper bar 101, and upward acting force is provided for the cable, so that the cable cannot move greatly in the separation process of the contact copper bar 101, the quick and safe separation of the contact copper bar 101 is assisted, and the connection positions at two ends of the cable are protected.

In an embodiment, the bonding section 101b is provided with electromagnets 103, when the wire pliers are connected with and separated from the cable, the directions of magnetic poles of the electromagnets 103 at two sides are the same, so that the two contact copper bars 101 are separated, and when the wire pliers are connected with the cable, the directions of magnetic poles of the electromagnets 103 at two sides are opposite, so that the two contact copper bars 101 are bonded.

The embodiment sets up like this, can enough be around contact copper bar 101 and cable connection, through driving two contact copper bars 101 to advance the separation, be convenient for realize contact copper bar 101 and cable's contact and break away from fast, can avoid again that the problem that breaks away from appears easily after contact copper bar 101 is connected with the cable, guarantee joint strength, and then improve the stability in the testing process.

In an embodiment, referring to fig. 7, a pushing gas rod 310 is disposed on the clamp seat, one end of the pushing gas rod is connected with the contact copper bar 101 at the corresponding side, the other end of the pushing gas rod is connected with one end of a hose 311, the other end of the hose 311 is connected with an insulating rod 200, a sealing cavity communicated with the hose 311 is formed in the insulating rod 200, a pressing block 312 movably connected with the sealing cavity is disposed at the end of the insulating rod 200, and the pushing gas rod 310 can be driven to expand to assist in expanding the contact copper bar 101 by pressing the pressing block 312.

The embodiment sets up like this, when meetting the great cable of diameter, two contact copper bars 101 accessible are pressed the briquetting 312 and are driven the top pushing gas pole 310 and stretch, promote two contact copper bars 101 outside, make its bigger angle of opening to this realizes being connected with the great cable of diameter, has improved the application scope of wire clamp, can combine electromagnetic block 103 to carry out synchronous use simultaneously.

In an embodiment, referring to fig. 8, an arc plate 1011 connected with the contact copper bar 101 is disposed on one side of the contact copper bar 101, tooth-shaped protrusions 1012 are disposed on the inner surface of the arc plate 1011 and are equidistantly distributed, and the tooth-shaped protrusions 1012 are elastically disposed and are used for treating the surface of the cable before the contact copper bar 101 contacts the cable. Wherein, the curved plate 1011 is embedded with a spring connected with the tooth-shaped protrusion 1012.

The arrangement of this embodiment is such, before contact copper bar 101 is connected with the cable, makes arc 1011 press close to the cable in advance to with tooth form protruding 1012 and cable contact, make tooth form protruding 1012 move the friction in cable surface through the removal, can get rid of the barrier layer on cable surface, avoid causing the problem of influence to subsequent detection, improved the accuracy of detection.

In one embodiment, referring to fig. 2, the insulation rod 200 is of a telescopic structure, and the front end thereof is provided with a camera 105. Specifically, the insulating rod 200 is composed of a plurality of sections of struts, and adjacent struts are connected with a fixed wire head through external nuts; the setting like this of this embodiment can satisfy high altitude wiring pincers operational environment's demand, simultaneously, after the insulator spindle 200 exhibition is stretched, and length is longer, and the staff that is in the operation end probably is difficult to see the connection condition of contact copper bar 101 and cable clearly, and camera 105's setting can be convenient for the clear observation of staff.

In an embodiment, referring to fig. 1, a strong magnet 103 is disposed on the bonding section 101b to increase the connection strength of the two contact copper bars 101 in the bonded state.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims (7)

1. A high altitude wire clamp for retrieving a cable voltage value, comprising:

The clamp seat (100) is provided with two separable and bonded contact copper bars (101), and the two contact copper bars (101) and the clamp seat (100) form a closed ring together in a bonding state;

an insulating rod (200), the end of which is connected with the clamp seat (100);

During detection, the clamp seat (100) moves upwards from the right lower part of the cable so that the contact copper bar (101) contacts with the clamp seat and the cable enters the closed ring for detection;

The contact copper bar (101) comprises a detection section (101 a), a bonding section (101 b) and a front joint section (101 c) which are sequentially connected, wherein in the bonding state of the two contact copper bars (101), the two detection sections (101 a) are in an inverted V shape, the two front joint sections (101 c) are in a positive V shape, the two bonding sections (101 b) are tightly bonded together, and a sawtooth area is arranged on the detection section (101 a);

The contact copper bar (101) is provided with a strip-shaped opening (301), a guide rod (300) is arranged in the strip-shaped opening (301), a sliding block (303) is arranged on the guide rod (300), a hook (304) which is inclined upwards and faces to the vertical center line of the clamp seat (100) is arranged on the sliding block (303), the sliding block (303) is pulled through ropes (306) which are bolted at two ends, the two ropes (306) are connected with a wire collector (307) by bypassing a wire seat (305) arranged on the clamp seat (100), and the hook (304) is pulled by the ropes (306) to move upwards and downwards in the guide rod (300) so as to apply downward acting force to a cable in the contact process of the contact copper bar (101).

2. A high altitude construction pliers as claimed in claim 1 wherein: the two contact copper bars (101) are provided with hooks (304) which are movable and face opposite, wherein the two hooks (304) are arranged on different sides of the respective contact copper bars (101), and the strip-shaped openings (301) are distributed on the attaching section (101 b) and the front connecting section (101 c).

3. A high altitude construction pliers as claimed in claim 1 wherein: the detection section (101 a) is provided with an extension port (309) communicated with the strip-shaped port (301), an extension rod (308) connected with the guide rod (300) is arranged in the extension port (309), a driver (302) capable of driving the hook (304) to rotate is arranged on the sliding block (303), a reverse hook (3041) is arranged on the hook (304), and the hook (304) moves onto the extension rod (308) along the guide rod (300) and rotates to enable the reverse hook (3041) to be in contact with the cable to apply upward acting force when the copper bar (101) is separated from the cable.

4. A high altitude construction pliers as claimed in claim 1 wherein: the bonding section (101 b) is provided with electromagnets (103), when the wiring pliers are connected with the cable and are separated from the cable, the magnetic pole directions of the electromagnets (103) on the two sides are the same, so that the two contact copper bars (101) are separated, and when the wiring pliers are connected with the cable, the magnetic pole directions of the electromagnets (103) on the two sides are opposite, so that the two contact copper bars (101) are bonded.

5. A high altitude construction pliers according to claim 1 or 4 wherein: the pliers are characterized in that the pliers seat is provided with a pushing air rod (310), one end of the pushing air rod is connected with the contact copper bar (101) at the corresponding side, the other end of the pushing air rod is connected with one end of a hose (311), the other end of the hose (311) is connected with an insulating rod (200), a sealing cavity communicated with the hose (311) is formed in the insulating rod (200), the end of the insulating rod (200) is provided with a pressing block (312) movably connected with the sealing cavity, and the pushing air rod (310) can be driven to expand to assist in contact with the copper bar (101) by pressing the pressing block (312).

6. A high altitude construction pliers as claimed in claim 1 wherein: an arc-shaped plate (1011) connected with the contact copper bar (101) is arranged on one side of the contact copper bar, tooth-shaped protrusions (1012) distributed at equal intervals are arranged on the inner surface of the arc-shaped plate (1011), the tooth-shaped protrusions (1012) are elastically arranged and are in contact with the cable before the contact copper bar (101) is used for treating the surface of the cable.

7. A high altitude construction pliers as claimed in claim 1 wherein: the insulation rod (200) is of a telescopic structure, and the front end of the insulation rod is provided with a camera (105).