CN220605389U - Combined type bench insulating baffle for power engineering - Google Patents

Abstract

The utility model discloses a combined type rack insulating baffle for power engineering, which comprises the following components: the device comprises a support frame, a support mechanism and a fixing mechanism; a pair of inner cavities are cut in the support frame; the support mechanism comprises a plurality of moving blocks, one side of each moving block is provided with a support rod, and one end of each support rod, which is far away from each moving block, is connected with the corresponding support block; the fixed establishment includes a plurality of insulating baffle body, and insulating baffle body lower extreme articulates has a plurality of dead levers, is provided with a plurality of fixed blocks on the support frame, and the inside excavation of fixed block has a plurality of fixed chambeies with dead lever assorted. According to the combined type bench insulating baffle relevant mechanism for the power engineering, the insulating baffle can be folded and assembled, the area required by carrying the insulating baffle is reduced, and the insulating baffle is not easy to deviate in the use process by being combined with the supporting frame, so that the shielding effect of the insulating baffle is ensured, operators can keep a safe distance from a charged circuit, and the occurrence of danger is reduced.

Description

Combined type bench insulating baffle for power engineering

Technical Field

The utility model belongs to the technical field of circuit maintenance equipment, and particularly relates to a combined type bench insulating baffle for power engineering.

Background

The bench type power distribution station, also called on-pole power distribution station and tower type power distribution station, is a small-sized power distribution station composed of cement pole supporting power distribution boxes and circuits at two sides, and is mainly used for distributing power for low-voltage power users in industrial, agricultural and urban buildings. In the operation process of the distribution network, faults such as disconnecting link burnout, lightning arrester burnout, high and low voltage pole head faults of the transformer, transformer burnout and the like often occur, and at the moment, a single transformer needs to be stopped, so that an upper circuit normally works, and the emergency repair is completed under the condition of reducing the power failure range as much as possible.

However, in the process of repairing the transformer, the circuit which is not powered off is threatened to operators, and the operators are difficult to ensure a safe distance from the circuit, so that insulating baffles are needed to isolate charged components, limit the moving range of the operators and prevent the high-voltage charged components from approaching, and the insulating baffles generally have very high insulating performance and can be directly contacted with the charged components of 35kV or below to play a role of temporary shielding.

In prior art, insulating baffle can shelter from the circuit, makes the operator keep safe distance with the circuit, but insulating baffle is general as an organic whole baffle, and the size is fixed and the area is great, inconvenient installation to, be difficult for fixing insulating baffle during the installation, make insulating baffle take place the skew easily, make insulating baffle's shielding effect weaken, make the difficult and electrified circuit of operator keep safe distance, take place danger easily.

Accordingly, in order to solve the above-mentioned problems, it is necessary to provide a combined type rack insulating barrier for power engineering.

Disclosure of Invention

The utility model aims to provide a combined type bench insulating baffle for power engineering, which is used for solving the problem that the insulating baffle is inconvenient to use.

In order to achieve the above object, an embodiment of the present utility model provides the following technical solution:

a modular gantry insulation barrier for electrical power engineering, comprising: the device comprises a support frame, a support mechanism and a fixing mechanism;

a pair of inner cavities are cut in the support frame;

the supporting mechanism is arranged in the inner cavity and comprises a plurality of moving blocks, one side of each moving block is provided with a supporting rod, and one end of each supporting rod, which is far away from each moving block, is connected with the corresponding supporting block;

the fixing mechanism is arranged on the supporting frame and comprises a plurality of insulating baffle bodies, a plurality of fixing rods are hinged to the lower ends of the insulating baffle bodies, a plurality of fixing blocks are arranged on the supporting frame, and a plurality of fixing cavities matched with the fixing rods are formed in the fixing blocks.

Further, the inside dwang that inserts of support frame is equipped with, and the dwang is used for supporting a pair of gear to can drive the gear under the control of rotor and rotate, be provided with a pair of gear on the dwang, the gear rotates along with the dwang, thereby can control the sliding plate and remove, the one end of dwang is connected with the rotor, can control the dwang through rotatory rotor and rotate.

Further, a plurality of the movable blocks are connected with a sliding plate on one side, far away from the supporting rod, of each movable block, the sliding plate can move along with the rotation of the gear, accordingly, the movable blocks are driven to move, a plurality of teeth meshed with the gear are arranged on the sliding plate, and the teeth enable the rotation of the gear to drive the sliding plate to move.

Further, a plurality of sliding rails are arranged on the side walls of the inner cavity, the sliding rails are used for supporting the moving block, the moving block is not easy to contact with the sliding plate and the teeth, a plurality of sliding grooves are formed in the moving block, and the sliding grooves enable the moving block to move on the sliding rails.

Further, a plurality of the fixed block is inside all to dig to have the sliding chamber, and the sliding chamber is used for placing dog and fixed pin, the sliding intracavity portion is provided with the dog, and the dog is used for supporting fixed pin and pull rod, one side of dog is provided with the fixed pin, and the fixed pin can fix the dead lever, makes the dead lever be difficult for removing at will.

Further, a plurality of the dog is kept away from one side of fixed pin and all is connected with the pull rod, and the pull rod can stimulate the dog and remove to pulling the fixed pin removes, a plurality of all be connected with the spring between dog and the fixed block, the spring is used for promoting the dog and removes, thereby promotes the fixed pin and removes.

Compared with the prior art, the utility model has the following advantages:

according to the combined type bench insulating baffle relevant mechanism for the power engineering, the insulating baffle can be folded and assembled, the area required by carrying the insulating baffle is reduced, and the insulating baffle is not easy to deviate in the use process by being combined with the supporting frame, so that the shielding effect of the insulating baffle is ensured, operators can keep a safe distance from a charged circuit, and the occurrence of danger is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present utility model, and other drawings may be obtained according to the drawings without inventive effort to those skilled in the art.

FIG. 1 is a cross-sectional view of a modular gantry insulation barrier for electrical power engineering according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram of the structure of FIG. 1 at A;

FIG. 3 is a schematic view of a partial structure of a supporting mechanism according to an embodiment of the present utility model;

FIG. 4 is a partial cross-sectional view of a securing mechanism according to an embodiment of the present utility model;

fig. 5 is a perspective view of a combined type rack insulating baffle for power engineering according to an embodiment of the present utility model.

In the figure: 1. support frame, 101, inner cavity, 2, support mechanism, 201, rotating rod, 202, gear, 203, rotating wheel, 204, sliding plate, 205, tooth, 206, moving block, 207, supporting rod, 208, supporting block, 209, sliding rail, 3, fixing mechanism, 301, insulating baffle body, 302, fixing rod, 303, fixing block, 304, fixing cavity, 305, sliding cavity, 306, stop, 307, fixing pin, 308, pull rod, 309, spring.

Detailed Description

The present utility model will be described in detail below with reference to the embodiments shown in the drawings. The embodiments are not intended to limit the utility model, but structural, methodological or functional modifications from the embodiments are within the scope of the utility model.

The utility model discloses a combined type rack insulating baffle for power engineering, which is shown by referring to figures 1-5 and comprises the following components: a supporting frame 1, a supporting mechanism 2 and a fixing mechanism 3.

Referring to fig. 1, a supporting frame 1 is used to support an insulating barrier body 301. The support frame 1 is internally provided with a pair of inner cavities 101, and the inner cavities 101 are used for placing a gear 202, a sliding plate 204, teeth 205 and a moving block 206.

Referring to fig. 1, the supporting mechanism 2 is disposed inside the inner cavity 101, where the supporting mechanism 2 includes a plurality of moving blocks 206, and the moving blocks 206 can move along with the sliding plate 204, so as to drive the supporting rod 207 to move. A support bar 207 is provided at one side of the moving block 206, and the support bar 207 is used to connect the moving block 206 and the support block 208, so that the support block 208 can move following the moving block 206.

Referring to fig. 1 to 2, a support block 208 is connected to one end of the support bar 207 remote from the moving block 206, and the support block 208 is used to support on cement poles at both sides and fix the support frame 1 by friction, thereby fixing the insulating barrier body 301. A rotating rod 201 is inserted into the support frame 1, and the rotating rod 201 is used for supporting a pair of gears 202 and can drive the gears 202 to rotate under the control of a rotating wheel 203.

Preferably, a rubber pad is arranged on the supporting block 208, and the rubber pad can enable the supporting block 208 to be in contact with the cement pole more tightly, and has larger friction force, so that the supporting frame 1 is not easy to fall off.

A bearing is connected between the rotating rod 201 and the support frame 1, and the bearing can support and fix the rotating rod 201 and enable the rotating rod 201 to rotate inside the support frame 1.

Referring to fig. 3, a pair of gears 202 are provided on a rotation lever 201, and the gears 202 rotate following the rotation lever 201, thereby enabling control of movement of a slide plate 204. One end of the rotation lever 201 is connected to a rotation wheel 203, and the rotation lever 201 can be controlled to rotate by rotating the rotation wheel 203.

Wherein, all dig a plurality of locating holes on rotor 203 and the support frame 1, the locating hole is inside to be provided with the locating pin, and locating hole and locating pin can make rotor 203 be difficult for rotating when using to make supporting shoe 208 be difficult for removing in the use.

Referring to fig. 2, a sliding plate 204 is connected to one side of the plurality of moving blocks 206 away from the supporting rod 207, and the sliding plate 204 can move along with the rotation of the gear 202, so as to drive the moving blocks 206 to move. The sliding plate 204 is provided with a plurality of teeth 205 meshed with the gear 202, and the teeth 205 enable the sliding plate 204 to be driven to move by rotation of the gear 202.

Referring to fig. 2, a plurality of sliding rails 209 are disposed on the sidewalls of the pair of inner cavities 101, and the sliding rails 209 are used for supporting the moving block 206, so that the moving block 206 is not easy to contact with the sliding plate 204 and the teeth 205. A pair of sliding grooves are cut on each of the plurality of moving blocks 206, and the sliding grooves enable the moving blocks 206 to move on the sliding rails 209.

Referring to fig. 4, the fixing mechanism 3 is disposed on the supporting frame 1, and the fixing mechanism 3 includes a plurality of insulating baffle bodies 301, where the insulating baffle bodies 301 are used to shield an operator and a charged circuit, so that the operator maintains a safe distance from the charged circuit. The insulating barrier body 301 has a plurality of dead levers 302 in the lower extreme hinge, and the dead lever 302 is used for supporting insulating barrier body 301 to can rotate, be convenient for insulating barrier body 301 carries.

Preferably, the plurality of insulating baffle bodies 301 are hinged, and the direction of the hinge is opposite to the direction of the fixing rod 302, so that the plurality of insulating baffle bodies 301 can be unfolded to be large enough in the use process, and the operators and the electrified circuit are shielded.

The fixing rod 302 is provided with a fixing hole matched with the fixing pin 307, and the fixing hole can enable the fixing pin 307 to be inserted and fix the fixing rod 302.

Referring to fig. 4, the supporting frame 1 is provided with a plurality of fixing blocks 303, and the fixing blocks 303 are used for fixing the fixing rods 302, thereby fixing the insulating barrier body 301. The fixing block 303 is internally provided with a plurality of fixing cavities 304 matched with the fixing rods 302, and the fixing cavities 304 are used for placing the fixing rods 302.

Referring to fig. 4, a sliding chamber 305 is cut in each of the plurality of fixing blocks 303, and the sliding chamber 305 is used for placing a stopper 306 and a fixing pin 307. A stopper 306 is provided inside the slide chamber 305, and the stopper 306 is used for supporting a fixing pin 307 and a pull rod 308. One side of the stopper 306 is provided with a fixing pin 307, and the fixing pin 307 can fix the fixing rod 302, so that the fixing rod 302 is not easy to move at will.

Referring to fig. 4, a plurality of stoppers 306 are connected to a pull rod 308 at a side far from the fixing pin 307, and the pull rod 308 can pull the stoppers 306 to move, thereby pulling the fixing pin 307 to move. Springs 309 are connected between the plurality of stoppers 306 and the fixed block 303, and the springs 309 are used for pushing the stoppers 306 to move, so as to push the fixing pins 307 to move.

When the cement mortar is specifically used, the rotating wheel 203 is rotated, the rotating wheel 203 drives the rotating rod 201 to rotate, so that the pair of gears 202 are driven to rotate, the gears 202 can control the sliding plate 204 to move through rotation, the moving block 206 moves along with the sliding plate 204 and drives the supporting rod 207 to move, so that the supporting block 208 is driven to move, the rotating wheel 203 is used for pre-adjusting the distance between the supporting blocks 208 according to the distance between the cement mortar bars at two sides, and the distance between the pair of supporting blocks 208 is enabled to be as close to the distance between the pair of cement mortar bars as possible under the condition of not affecting installation;

after the pre-adjustment is completed, the support frame 1 is placed between a pair of cement bars, the rotating wheel 203 is continuously rotated, the support blocks 208 are in contact with the cement bars, the support frame 1 is tightly matched with the cement bars under the action of rubber pads on the support blocks 208, the support frame 1 is not easy to move, the fixed bars 302 on the insulating baffle body 301 are aligned with the fixed cavities 304, the fixed bars 302 are pressed into the fixed cavities 304, the fixed pins 307 are inserted into the fixed holes under the pushing of the springs 309 to fix the fixed bars 302, the fixed bars 302 are not easy to move out of the fixed cavities 304, and therefore the insulating baffle body 301 is fixed, the insulating baffle bodies 301 are unfolded, and the insulating baffle body 301 can play a role of shielding before operators and a charged circuit;

folding a plurality of insulating baffle bodies 301, pulling a pull rod 308, and driving a stop block 306 by the pull rod 308 to move so as to drive a fixing pin 307 to move, moving the fixing pin 307 out of the fixing hole, taking the fixing rod 302 out of the fixing cavity 304, taking down the insulating baffle bodies 301, rotating the rotating wheel 203 reversely, preventing the supporting block 208 from contacting with a cement pole, and retracting the supporting frame 1.

The technical scheme shows that the utility model has the following beneficial effects:

according to the combined type bench insulating baffle relevant mechanism for the power engineering, the insulating baffle can be folded and assembled, the area required by carrying the insulating baffle is reduced, and the insulating baffle is not easy to deviate in the use process by being combined with the supporting frame, so that the shielding effect of the insulating baffle is ensured, operators can keep a safe distance from a charged circuit, and the occurrence of danger is reduced.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment contains only one independent technical solution, and that such description is provided for clarity only, and that the technical solutions of the embodiments may be appropriately combined to form other embodiments that will be understood by those skilled in the art.

Claims (6)

1. The utility model provides a power engineering is with combination formula rack insulation baffle which characterized in that includes:

the device comprises a support frame (1), wherein a pair of inner cavities (101) are cut in the support frame (1);

the supporting mechanism (2) is arranged in the inner cavity (101), the supporting mechanism (2) comprises a plurality of moving blocks (206), one side of each moving block (206) is provided with a supporting rod (207), and one end, far away from each moving block (206), of each supporting rod (207) is connected with a supporting block (208);

the fixing mechanism (3) is arranged on the support frame (1), the fixing mechanism (3) comprises a plurality of insulating baffle bodies (301), a plurality of fixing rods (302) are hinged to the lower ends of the insulating baffle bodies (301), a plurality of fixing blocks (303) are arranged on the support frame (1), and a plurality of fixing cavities (304) matched with the fixing rods (302) are formed in the fixing blocks (303) in an cutting mode.

2. The combined type bench insulating baffle for electric power engineering according to claim 1, characterized in that a rotating rod (201) is inserted into the supporting frame (1), a pair of gears (202) are arranged on the rotating rod (201), and one end of the rotating rod (201) is connected with a rotating wheel (203).

3. The combined type bench insulating baffle for electric power engineering according to claim 2, wherein a plurality of moving blocks (206) are connected with a sliding plate (204) on one side far away from the supporting rod (207), and a plurality of teeth (205) meshed with the gear (202) are arranged on the sliding plate (204).

4. The combined type bench insulating baffle for electric power engineering according to claim 1, wherein a plurality of sliding rails (209) are arranged on the side walls of the pair of inner cavities (101), and a pair of sliding grooves are cut on the plurality of moving blocks (206).

5. The combined type bench insulating baffle for electric power engineering according to claim 1, wherein a plurality of fixed blocks (303) are internally provided with sliding cavities (305), the sliding cavities (305) are internally provided with stop blocks (306), and one side of each stop block (306) is provided with a fixing pin (307).

6. The combined type bench insulating baffle for electric power engineering according to claim 5, wherein a plurality of the stoppers (306) are respectively connected with a pull rod (308) at one side far away from the fixed pin (307), and springs (309) are respectively connected between the plurality of the stoppers (306) and the fixed block (303).