CN216313588U - High-voltage power supply controller - Google Patents

Abstract

The utility model relates to the field of high-voltage power supply devices, in particular to a high-voltage power supply controller which comprises a rack, a supporting plate, a slide way, a control slide way, a slide block, a positioning telescopic rod, a positioning block, a pedal and telescopic rods, wherein the supporting plate is fixedly connected on the rack, the slide way is fixedly connected on the rack, the control slide way is slidably connected in the slide way, the slide block is slidably connected in the control slide way, the positioning telescopic rod is fixedly connected on the slide block, the positioning block is fixedly connected on the positioning telescopic rod, the telescopic rod is fixedly connected on the control slide way, the pedal is fixedly connected on the telescopic rod, the positioning frame is fixedly connected on the rack, the sliding frame is slidably connected on the positioning frame, the rotating wheel is rotatably connected on the supporting plate, the rotating wheel is meshed with the sliding frame, the cleaning rod is fixedly connected on the sliding frame, the clamping blocks are provided with two clamping blocks which are respectively slidably connected on two ends of the supporting plate, can be adapted to high-voltage power supplies with different specifications.

Description

High-voltage power supply controller

Technical Field

The utility model relates to the field of high-voltage power supply devices, in particular to a high-voltage power supply controller.

Background

The high-voltage power supply controller disclosed by the prior art usually comprises a power supply support plate, a control rod and a control switch, wherein a high-voltage power supply is placed on the power supply support plate to support the high-voltage power supply, when the high-voltage power supply needs to be closed, the control rod is pushed, and the control rod drives the control switch to toggle the switch of the high-voltage power supply, so that the high-voltage power supply stops working, but the device can not adapt to the high-voltage power supplies with different specifications.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a high-voltage power supply controller which can be adapted to high-voltage power supplies with different specifications.

The purpose of the utility model is realized by the following technical scheme:

the utility model provides a high voltage electrical source controller, which comprises a frame, a supporting plate, a slide, the control slide, the slider, the location telescopic link, the locating piece, footboard and telescopic link, the backup pad rigid coupling is in the frame, the slide rigid coupling is in the frame, control slide sliding connection is in the slide, slider sliding connection is in the control slide, location telescopic link rigid coupling is on the slider, the locating piece rigid coupling is on the location telescopic link, the telescopic link rigid coupling is on the control slide, the footboard rigid coupling is on the telescopic link.

The utility model provides a high voltage electrical source controller, still includes locating rack, carriage, rotation wheel, clean pole and clamp splice, on the locating rack rigid coupling frame, carriage sliding connection rotated the wheel and rotates and connect in the backup pad on the locating rack, rotated wheel and carriage meshing connection, clean pole rigid coupling is on the carriage, the clamp splice is provided with two, two clamp splices are sliding connection respectively on the both ends of backup pad.

Drawings

The utility model is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of the structure of the apparatus;

FIG. 2 is a schematic view of the connection of the frame and the support plate;

FIG. 3 is a schematic view of the connection of the support plate and the chute;

FIG. 4 is a schematic view of the connection of the ramps and the control ramps;

FIG. 5 is a schematic view of the connection of the support plate and the rotating wheel;

FIG. 6 is a schematic view of the connection of the cleaning rod and the clamp block;

figure 7 is a schematic view of the coupling of the positioning frame and the sliding frame.

In the figure:

a frame 1; a support plate 2; a slideway 3; a control slide 4; a slider 5; positioning the telescopic rod 6; a positioning block 7; a pedal 8; an expansion link 9; a positioning frame 10; a carriage 11; a rotating wheel 12; a cleaning rod 13; a clamping block 14.

Detailed Description

Referring to fig. 1 and 6, there are shown schematic diagrams of placing high voltage power supplies of different specifications on a support plate 2, supporting the high voltage power supplies through the support plate 2, moving clamping blocks 14 at both ends of the support plate 2, fixing the high voltage power supplies through the two clamping blocks 14, and preventing the high voltage power supplies from falling off the support plate 2, further,

when the device is used, a high-voltage power supply is placed on the supporting plate 2, the supporting plate 2 is provided to complete supporting of the device, the two clamping blocks 14 which are connected with the two ends of the supporting plate 2 in a sliding mode are moved, the two clamping blocks 14 are made to be in contact with the two ends of the high-voltage power supply through the movement of the two clamping blocks 14, and therefore the high-voltage power supply is fixed and prevented from falling off from the supporting plate 2.

Referring to fig. 1 and 6, there is shown a schematic diagram of a tension spring disposed between a support plate 2 and clamping blocks 14 according to the present invention, wherein the tension spring is extended by pulling the two clamping blocks 14, so that the two clamping blocks 14 can continuously apply external force to two ends of a high voltage power supply, thereby fixing the high voltage power supply on the support plate 2, and further,

in order to ensure that the device can adapt to high-voltage power supplies of different models, a tension spring needs to be sleeved between the supporting plate 2 and the two clamping blocks 14, the tension spring is driven to extend when the two clamping blocks 14 move, the tension spring extends to generate reverse contraction force, so that the two clamping blocks 14 are pulled to move reversely, the two clamping blocks 14 can continuously apply acting force to the two ends of the high-voltage power supply, and the high-voltage power supply is fixed on the supporting plate 2.

Referring to fig. 1, 5, 6 and 7, there are shown schematic diagrams illustrating that the carriage 11 is reciprocally rotated by controlling the rotation of the rotating wheel 12, and the cleaning rod 13 fixedly connected to the carriage 11 is reciprocally moved to remove dust from the surface of the high voltage power supply according to the present invention, and further,

after the high voltage power supply is placed on the supporting plate 2, the rotating wheel 12 is controlled to rotate, so that the rotating wheel 12 can drive the sliding frame 11 to rotate, and the sliding frame 11 can be pushed to reciprocate in the continuous rotating process of the rotating wheel 12 because the rotating wheel 12 is designed to be a half-gear half-round wheel, so that the cleaning rod 13 fixedly connected onto the sliding frame 11 is driven to move, and the surface of the high voltage power supply can be continuously cleaned by the cleaning rod 13.

Referring to fig. 1, 3 and 4, there are shown schematic diagrams of fixedly connecting a slide way 3 to a support plate 2, changing the position of a slide block 5 by moving a control slide way 4 slidably connected to the slide block 3, so that the slide block 5 can correspond to the switch position of a high voltage power supply, and further,

after the high voltage power supply of different models is put in backup pad 2, the control switch position according to high voltage power supply is different, need rotate the lead screw that sets up in the slide 3, the rotatory control slide 4 that drives through the lead screw removes, can drive the slider 5 of sliding connection in the control slide 4 when control slide 4 removes and remove, thereby change the horizontal position of slider 5, make slider 5 remove the control switch's of high voltage power supply below, promote slider 5 and rise when the urgent cutter high voltage power supply of needs, utilize the slider 5 that rises to close high voltage power supply's control switch.

Referring to fig. 1, 3 and 4, a schematic diagram of a control switch for turning off a high-voltage power supply when a switch of the high-voltage power supply needs to be turned off urgently is shown, according to the present invention, a pedal 8 is stepped on to drive a positioning block 7 to contract, so that the positioning block 7 is separated from the pedal 8, a slider 5 is pushed to rise by losing a constraint to push the slider 5, and further,

when the device normally operates, the first pressure spring on the sliding block 5 contracts to push the sliding block 5 to ascend, the positioning telescopic rod 6 on the sliding block 5 extends to drive the positioning block 7 to be attached to the pedal 8, so as to drive the pedal 8 to ascend, after the pedal 8 ascends to the maximum height, the first pressure spring on the sliding block 5 keeps in a contracted state and continuously provides power for the ascending of the sliding block 5, when a high-voltage power supply needs to be closed urgently, a worker steps down the pedal 8 to drive the telescopic rod 9 to contract, the pedal 8 which is pressed downwards pushes the positioning block 7 to move, so that the positioning block 7 drives the positioning telescopic rod 6 to contract, the positioning telescopic rod 6 contracts the positioning block 7 to be separated from the pedal 8, so that the sliding block 5 is not bound, the first pressure spring on the sliding block 5 pushes the sliding block 5 to ascend quickly, the sliding block 5 can impact a control switch of the high-voltage power supply, so as to close the high-voltage power supply, and ensure that the device cannot be touched by mistake, need set up the second pressure spring between location telescopic link 6 and locating piece 7, when locating piece 7 and the contact of footboard 8, the second pressure spring shrink produces continuous driving force, makes locating piece 7 can keep laminating with footboard 8 to be connected to prevent that location telescopic link 6 from not receiving shrink under the condition that external force influences and drive locating piece 7 and remove, make footboard 8 can't restrict slider 5.

Claims (8)

1. The utility model provides a high voltage power supply controller, includes that frame (1), backup pad (2) include locating rack (10), carriage (11), rotate wheel (12), clean pole (13) and clamp splice (14), its characterized in that: the fixed connection has backup pad (2) on frame (1), and the fixed connection has locating rack (10) on frame (1), and sliding connection has carriage (11) on locating rack (10), rotates on backup pad (2) and is connected with and rotates wheel (12), and the fixed connection has cleaning rod (13) on carriage (11), rotates wheel (12) and carriage (11) meshing, and equal sliding connection has clamp splice (14) on the both ends of backup pad (2), is provided with the extension spring between backup pad (2) and clamp splice (14).

2. A high voltage power supply controller according to claim 1 wherein: the rotating wheel (12) is a half gear.

3. A high voltage power supply controller according to claim 1 wherein: the automatic feeding device is characterized by further comprising a slide way (3), a control slide way (4) and a slide block (5), the slide way (3) is fixedly connected to the supporting plate (2), a lead screw is arranged in the slide way (3), the control slide way (4) is connected to the slide way (3) in a sliding mode, the lead screw is connected with the control slide way (4) in a threaded mode, and the slide block (5) is connected to the control slide way (4) in a sliding mode.

4. A high voltage power supply controller according to claim 3 wherein: a first pressure spring is arranged between the control slide way (4) and the sliding block (5).

5. A high voltage power supply controller according to claim 3 wherein: still include location telescopic link (6), locating piece (7), footboard (8) and telescopic link (9), the rigid coupling has location telescopic link (6) on slider (5), and the rigid coupling has locating piece (7) on location telescopic link (6), and the rigid coupling has telescopic link (9) on control slide (4), and the rigid coupling has footboard (8) on telescopic link (9).

6. A high voltage power supply controller according to claim 5 wherein: and a second pressure spring is arranged between the positioning telescopic rod (6) and the positioning block (7).

7. A high voltage power supply controller according to claim 1 wherein: the surface of the support plate (2) is made of insulating materials.

8. A high voltage power supply controller according to claim 1 wherein: and the two clamping blocks (14) are respectively provided with an insulating positioning block.

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