CN220552880U - Insulating rod for high-voltage power equipment test - Google Patents

Abstract

The utility model relates to the technical field of high-voltage power equipment, in particular to an insulating rod for high-voltage power equipment test, which comprises an insulating rod body, wherein a connecting cylinder is slidably arranged on the circumferential surface of the insulating rod body, a first clamping block is slidably arranged at the top end of the connecting cylinder, and a second clamping block is slidably arranged at the side end part of the first clamping block. According to the utility model, the side end part of the rotating plate is tightly attached to the second clamping block, at the moment, the pressing plate is driven by the rotating plate, the rotating plate is tightly attached to the side end part of the second clamping block, the inner wall of the rotating plate extrudes the top end of the directional sliding block, the directional sliding block slides towards the inside of the limiting block, the directional sliding block is pushed by the telescopic rod to slide outwards in the inside of the limiting block through the acting force of the telescopic rod, the directional sliding block stays at the outer side of the pressing plate, the first clamping block is tightly connected with the second clamping block through the pressing plate, the insulating rod body is fastened in the connecting cylinder, and the insulating rod body can be quickly retracted, so that the insulating rod body is convenient for a user to store and carry.

Description

Insulating rod for high-voltage power equipment test

Technical Field

The utility model relates to the technical field of high-voltage power equipment, in particular to an insulating rod for a high-voltage power equipment test.

Background

The insulating rod is a unified name of insulating tool constitution in the electrical power system is exclusively used in, can be used to live working, electrified maintenance and live maintenance operation utensil, generally need carry out electrified effect through the insulating rod when power equipment operation detects, because the operation is comparatively maintenance, the length of general insulating rod is shorter, and does not make up the use, leads to the user to need be close to power equipment, increases the risk of using.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides an insulating rod for a high-voltage power equipment test.

In order to solve the technical problems, the utility model provides the following technical scheme: the utility model provides an insulating rod for high voltage power equipment test, includes the insulating rod body, the circumference surface slidable mounting of insulating rod body has the connecting cylinder, the top slidable mounting of connecting cylinder has first clamp splice, the side tip slidable mounting of first clamp splice has the second clamp splice, the top fixed mounting of second clamp splice has the anti-slip ring, the equal fixed mounting of two side tip of first clamp splice has L type fixed block, the equal movable mounting of two side tip of second clamp splice has the clamp plate, every the equal fixed mounting in top of clamp plate has the locating lever, every the locating lever is all connected with L type fixed block.

As a preferable technical scheme of the utility model, two inner side walls of each second clamping block are fixedly provided with fixing tables, two rotating plates are rotatably arranged at two side end parts of each fixing table, and the side ends of the two rotating plates are connected with a pressing plate.

As a preferable technical scheme of the utility model, limiting blocks are fixedly arranged at two side end parts of each second clamping block, directional sliding blocks are slidably arranged in each limiting block, and telescopic rods are fixedly arranged at the side end parts of each directional sliding block.

Compared with the prior art, the utility model has the following beneficial effects:

through promoting the clamp plate to one side, the inboard of anti-slip ring drives the rotating plate and rotates in the inside of clamp plate, let the clamp plate remove to one side, lead to the clamp plate to drive the inside removal of locating lever at L type fixed block, remove the inside of leaving L type fixed block with the locating lever, remove the fastening state of first clamp splice and second clamp splice, through pulling insulator spindle, let insulator spindle slide in the inside of connecting cylinder, outwards slide insulator spindle from the inside of connecting cylinder, adjust the length of use of insulator spindle, the user can adjust in a flexible way as required, reduce the risk of operation, increase the convenience of use.

The second clamp splice is hugged closely through the side tip with the revolving board, at this moment the clamp plate is under the drive of revolving board, the side tip of second clamp splice is hugged closely to the revolving board, the top of directional slider is extruded to the inner wall of revolving board, let directional slider to the inside slip of stopper, the effort of rethread telescopic link, the telescopic link promotes directional slider outside the inside slip of stopper, stay directional slider in the outside of clamp plate, with first clamp splice and second clamp splice zonulae occludens through the clamp plate, fasten the insulator spindle body in the inside of connecting cylinder, can withdraw the insulator spindle body fast, the user of being convenient for accomodates and carries.

Drawings

FIG. 1 is a schematic view of an insulation rod body according to the present utility model;

FIG. 2 is a schematic view of a connecting cylinder according to the present utility model;

FIG. 3 is a schematic view of the structure of the clamping block of the present utility model;

fig. 4 is a schematic structural view of the stopper of the present utility model.

Wherein: 1. an insulating rod body; 11. a connecting cylinder; 12. a first clamping block; 13. a second clamping block; 14. an anti-slip ring; 15. an L-shaped fixed block; 16. a positioning rod; 17. a pressing plate; 18. a fixed table; 19. a rotating plate; 21. a limiting block; 22. a telescopic rod; 23. and (5) orienting the sliding block.

Detailed Description

In order that the manner in which the above recited features, objects and advantages of the present utility model are obtained will become readily apparent, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings. Based on the examples in the embodiments, those skilled in the art can obtain other examples without making any inventive effort, which fall within the scope of the utility model. The experimental methods in the following examples are conventional methods unless otherwise specified, and materials, reagents, etc. used in the following examples are commercially available unless otherwise specified.

The embodiment is shown in fig. 1, fig. 2, fig. 3 and fig. 4, an insulating rod for high-voltage power equipment test comprises an insulating rod body 1, a connecting cylinder 11 is slidably arranged on the circumferential surface of the insulating rod body 1, a first clamping block 12 is slidably arranged at the top end of the connecting cylinder 11, a second clamping block 13 is slidably arranged at the side end part of the first clamping block 12, an anti-slip ring 14 is fixedly arranged at the top end of the second clamping block 13, the anti-slip ring 14 cleans the surface of the insulating rod body 1 through the surface sliding of the anti-slip ring 14, sundries are prevented from affecting the sliding of the insulating rod body 1, the first clamping block 12 and the second clamping block 13 are tightly attached to the surface of the insulating rod body 1 through moving the inner wall of the first clamping block 12 and the second clamping block 13, a pressing plate 17 is driven to rotate through the moving pressing plate 17, the pressing plate 17 is driven to move along with the side of the first clamping block 12 through the two ends of the rotating plate 19, meanwhile, the positioning rod 16 is driven to move into the L-shaped fixed block 15 through pushing the anti-slip ring 14, and the two ends of the pressing plate 17 are fixedly arranged at the two sides of the two clamping blocks 16, and the two ends of the two fixed clamping blocks 16 are fixedly arranged at the two sides of each fixed and each fixed end part of the pressing plate 16 is fixedly arranged at the two sides of the two ends of the pressing plate 16.

Two inner side walls of each second clamping block 13 are fixedly provided with a fixed table 18, two side ends of each fixed table 18 are respectively provided with two rotating plates 19 in a rotating mode, the side ends of the two rotating plates 19 are connected with a pressing plate 17, two side ends of each second clamping block 13 are respectively fixedly provided with a limiting block 21, the inside of each limiting block 21 is respectively provided with an orientation sliding block 23 in a sliding mode, the top ends of the orientation sliding blocks 23 are impacted, extrusion force is applied to the orientation sliding blocks 23, the orientation sliding blocks 23 are pushed to slide towards the inside of the limiting blocks 21, the orientation sliding blocks 23 are lifted to extrude the top ends of the telescopic rods 22, the telescopic rods 22 are forced to shrink in the inside of the limiting blocks 21, the orientation sliding blocks 23 slide into the inside of the limiting blocks 21, the inner sides of the orientation sliding blocks 23 are separated from the side ends of the pressing plate 17, the pressing plate 17 is driven to rotate on the inner side walls of the pressing plate 17 by continuously moving the tail ends of the pressing plate 17, and the side ends of each orientation sliding block 23 are fixedly provided with the telescopic rods 22.

Working principle:

in the first step, when the clamp plate 17 is used, one end of the clamp plate 17 is lifted outwards to enable one end of the clamp plate 17 to move outwards, the levelness of the clamp plate 17 is changed, one end of the clamp plate 17 is moved to enable the inner wall of the clamp plate 17 to extrude the top end of the orientation slide block 23, a extrusion force is applied to the orientation slide block 23 through impacting the top end of the orientation slide block 23, the orientation slide block 23 is pushed to slide towards the inside of the limiting block 21, the top end of the telescopic rod 22 is extruded by the lifting orientation slide block 23, the telescopic rod 22 is forced to shrink in the inside of the limiting block 21, the orientation slide block 23 is slid into the inside of the limiting block 21, the inner side of the orientation slide block 23 is separated from the side end of the clamp plate 17, the clamp plate 17 is enabled to drive the rotating plate 19 to rotate on the inner side wall of the clamp plate 17 through continuing to move the tail end of the clamp plate 17, the rotating plate 19 is pulled on the two ends of the fixed table 18 through the clamp plate 17, the fixed table 18 is fixed on the two ends of the second clamping block 13, the rotating plate 19 is driven to rotate by the pressing plate 17, the rotating plate 19 is adjusted to be in a vertical state, the top end of the rotating plate 19 drives the pressing plate 17 to outwards move away from two side ends of the second clamping block 13, the inner side of the anti-slip ring 14 drives the rotating plate 19 to rotate in the pressing plate 17 by pushing the pressing plate 17 to one side, the pressing plate 17 moves to one side, the positioning rod 16 is driven by the pressing plate 17 to move in the L-shaped fixed block 15, the positioning rod 16 moves away from the L-shaped fixed block 15, the fastening state of the first clamping block 12 and the second clamping block 13 is released, the insulating rod body 1 slides in the connecting cylinder 11 by pulling the insulating rod body 1, the insulating rod body 1 slides outwards from the inside of the connecting cylinder 11, the service length of the insulating rod body 1 is adjusted, a user can flexibly adjust according to requirements, the operation risk is reduced, the convenience of use is increased.

In the second step, through pulling the insulating rod body 1 to slide in the interior of the connecting cylinder 11, the service length of the insulating rod body 1 is increased, after the use is finished, the insulating rod body 1 is pushed to the inside of the connecting cylinder 11 by pushing the insulating rod body 1, simultaneously, the inner side walls of the first clamping block 12 and the second clamping block 13 slide along the surface of the insulating rod body 1, the anti-slip ring 14 slides on the surface of the insulating rod body 1, the anti-slip ring 14 cleans the surface of the insulating rod body 1, impurities are prevented from affecting the sliding of the insulating rod body 1, the first clamping block 12 and the second clamping block 13 are moved, the inner walls of the first clamping block 12 and the second clamping block 13 are tightly attached to the surface of the insulating rod body 1, the pressing plate 17 is moved, the pressing plate 17 drives the rotating plate 19 to rotate towards the first clamping block 12 by moving the pressing plate 17, the pressing plate 17 drives the positioning rod 16 to move towards the inner side of the L-shaped fixing block 15, the pressing plate 17 is pushed reversely, the pressing plate 17 drives the rotating plate 17 to rotate towards the two ends of the second clamping block 19 by pushing the pressing plate 19, the two ends of the pressing plate 19 are pushed towards the two ends of the second clamping block 19 by the pressing plate 19, the two ends of the pressing plate 19 are pushed towards the end of the second clamping block 19 is tightly towards the end of the second clamping block 13 by the second clamping block 13, the end of the pressing plate 19 is pushed towards the end of the rotating plate 19 is tightly towards the end of the rotating plate 13, and the end of the rotating plate 19 is tightly pressed towards the end of the rotating plate 13 is tightly towards the end of the rotating plate 13, and the end of the rotating plate 13 is tightly towards the end of the connecting rod body is directly opposite end is directly to be pushed to move. The telescopic rod 22 pushes the directional sliding block 23 to slide outwards in the limiting block 21, the directional sliding block 23 stays on the outer side of the pressing plate 17, the first clamping block 12 and the second clamping block 13 are tightly connected through the pressing plate 17, the insulating rod body 1 is fastened in the connecting cylinder 11, the insulating rod body 1 can be quickly retracted, and the insulating rod is convenient for a user to store and carry.

Claims (6)

1. The utility model provides an insulating rod for high voltage power equipment test, includes insulating rod body (1), its characterized in that, circumference surface slidable mounting of insulating rod body (1) has connecting cylinder (11), the top slidable mounting of connecting cylinder (11) has first clamp splice (12), the side tip slidable mounting of first clamp splice (12) has second clamp splice (13), the top fixed mounting of second clamp splice (13) has anti-slip ring (14), the equal fixed mounting of two side tip of first clamp splice (12) has L type fixed block (15), the equal movable mounting of two side tip of second clamp splice (13) has clamp plate (17), every the equal fixed mounting in top of clamp plate (17) has locating lever (16), every locating lever (16) all are connected with L type fixed block (15).

2. An insulating rod for testing high-voltage power equipment according to claim 1, characterized in that two inner side walls of each second clamping block (13) are fixedly provided with fixing tables (18).

3. An insulating rod for testing high-voltage power equipment according to claim 2, characterized in that two rotating plates (19) are rotatably mounted at both side ends of each fixed table (18), and the side ends of the two rotating plates (19) are connected with a pressing plate (17).

4. An insulating rod for high-voltage power equipment test according to claim 1, characterized in that the two side ends of each second clamping block (13) are fixedly provided with limiting blocks (21).

5. An insulating rod for testing high-voltage power equipment according to claim 4, characterized in that the inside of each limiting block (21) is slidably provided with a directional slider (23).

6. An insulating rod for testing high-voltage power equipment according to claim 5, characterized in that the side end of each of said orientation slide blocks (23) is fixedly fitted with a telescopic rod (22).