CN210270111U - High-voltage power supply conduction testing device - Google Patents

Abstract

The utility model provides a high voltage power supply conduction testing arrangement relates to conduction testing arrangement field. This high voltage power supply conduction testing arrangement, including testing arrangement, testing arrangement's top is provided with the angle of protection, testing arrangement's bottom is provided with fixed foot, the bottom of fixed foot is provided with the shock attenuation frame, the inboard bottom of shock attenuation frame is provided with the shock attenuation board, the bottom of shock attenuation frame is provided with the crane, the bottom of crane is provided with the cushion, the bottom of cushion is provided with the removal leg, the bottom of removal leg is provided with removes the wheel. This high voltage power supply conduction testing arrangement sets up cushion, removal leg, removal wheel, brake block below the crane and makes things convenient for testing arrangement to remove, conveniently detects the high voltage power supply in each different places, increases the convenience of detection and the mobility of equipment, reduces because the inconvenient problem of detection that equipment fixing leads to in a position, reduces check out test set and damages equipment because vibrations.

Description

High-voltage power supply conduction testing device

Technical Field

The utility model relates to a conduction testing arrangement technical field specifically is a high voltage power supply conduction testing arrangement technical field.

Background

The high-voltage power supply, also known as a high-voltage generator, generally refers to a power supply with an output voltage of more than five kilovolts, the output voltage of the general high-voltage power supply can reach tens of thousands of volts, even hundreds of thousands of volts or higher, the high-voltage power supply has many uses, and mainly comprises an X-ray machine high-voltage power supply, a laser high-voltage power supply, a spectrum analysis high-voltage power supply, a nondestructive inspection high-voltage power supply, a semiconductor manufacturing equipment high-voltage power supply, a capillary electrophoresis high-voltage power supply, a nondestructive inspection high-voltage power supply and a particle injection high-voltage.

With the continuous development of science and technology and economy in China, electric equipment is also developed rapidly to ensure that electric power support of each item is provided, and in order to ensure the efficiency of electric power transmission and transportation, a high-voltage power supply conduction testing device is provided, but the existing device does not have good protection and shock absorption functions.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides a high voltage power supply conduction testing arrangement has solved high voltage power supply conduction testing arrangement and has not well carried out absorbing problem.

(II) technical scheme

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a high-voltage power conduction testing device comprises a testing device, wherein a protection angle is arranged at the top of the testing device, the bottom of the testing device is provided with a fixed foot, the bottom of the fixed foot is provided with a damping frame, the bottom of the inner side of the shock absorption frame is provided with a shock absorption plate, the bottom of the shock absorption frame is provided with a lifting frame, the bottom of the lifting frame is provided with a cushion block, the bottom of the cushion block is provided with a movable leg, the bottom of the movable leg is provided with a movable wheel, one side of the moving wheel is provided with a brake block, the bottom side inside the lifting frame is provided with a shock absorption column, a lifting motor is arranged on one side of the top of the shock absorption column, a rotating column is arranged on one side of the lifting motor, the outer side of the rotating column is provided with a lifting rod, the bottom of the lifting rod is provided with a lifting pad, the surface of the rotating column is provided with a supporting column, and the bottom side of the supporting column is provided with a supporting block.

Preferably, the top of shock attenuation frame is provided with the fixed slot, the bottom of fixed slot is provided with the bottom plate, the bottom of bottom plate is provided with buffer spring, buffer spring's bottom is provided with the buffer board.

Preferably, a movable block is arranged on the top side inside the damping plate, a movable wheel is arranged on the inner side of the movable block, a movable rod is arranged at the bottom of the movable wheel, a movable block is arranged on one side of the movable rod, a sliding block is arranged at the bottom of the movable block, a sliding groove is formed in the bottom of the sliding block, a return spring is arranged on one side of the movable block, and a return plate is arranged on one side of the return spring.

Preferably, an inner rod is arranged on the inner side of the lifting rod, a lifting screw groove is formed in the inner side of the inner rod, and lifting threads are arranged on the inner side of the lifting screw groove.

Preferably, the bottom of lifter is provided with the interlock wheel, the inboard middle part of lift pad is provided with the fifth wheel, the bottom of fifth wheel is provided with the foundation.

Preferably, one side of the inside of the testing device is provided with an anticorrosive coating, one side of the anticorrosive coating is provided with an interference layer, and one side of the interference layer is provided with an insulating layer.

(III) advantageous effects

The utility model provides a high voltage power supply conduction testing arrangement. Has the following beneficial effects:

1. this high voltage power supply conduction testing arrangement sets up the cushion below the crane, remove the leg, remove the wheel, the brake block makes things convenient for testing arrangement to remove, conveniently detect each different local high voltage power supply, increase the convenience of detection and the mobility of equipment, reduce because the inconvenient problem of detection that equipment fixing leads to in a position, reduce check out test set because vibrations damage equipment, reduce the influence of vibrations area for equipment, increase the probability that equipment received the damage, increase the stability of equipment, it rocks to reduce to take place in work, increase the accuracy that detects.

2. This high voltage power supply conduction testing arrangement sets up the angle bead on the crane, fixed foot, the shock attenuation frame, the shock attenuation board makes things convenient for the check out test set to take place vibrations in removal and work and does not have damping device, and reduce the life-span of using, the reduction receives the probability of damage, increase the performance of equipment, it does not have protection device and makes equipment receive the damage easily to reduce equipment, the fixity of increase equipment reduces rocking of equipment and makes equipment reduce the appearance error when detecting, increase the accuracy that equipment detected.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a cross-sectional view of the shock absorbing mount of the present invention;

FIG. 3 is a cross-sectional view of the damping plate of the present invention;

fig. 4 is a sectional view of the lifting rod of the present invention;

fig. 5 is a sectional view of the lifting block of the present invention;

fig. 6 is a cross-sectional view of the testing device of the present invention.

In the figure: the device comprises a testing device 1, a protection angle 2, a fixed foot 3, a damping frame 4, a damping plate 5, a lifting frame 6, a cushion block 7, a movable leg 8, a movable wheel 9, a brake pad 10, a lifting motor 11, a lifting pad 12, a lifting rod 13, a rotating column 14, a damping column 15, a supporting column 16, a supporting block 17, a fixed groove 18, a bottom plate 19, a buffer spring 20, a buffer plate 21, a movable block 22, a movable wheel 23, a movable rod 24, a movable block 25, a sliding block 26, a sliding chute 27, a return spring 28, a return plate 29, an inner rod 30, a lifting screw groove 31, a lifting screw 32, a linked wheel 33, a connecting wheel 34, a bottom column 35, an anticorrosive layer 101, an interference layer 102 and an insulating layer 103.

Detailed Description

The invention is explained in more detail below with reference to the figures and examples.

An embodiment of the utility model provides a high voltage power supply conduction testing arrangement, as shown in fig. 1-6, including testing arrangement. An anti-corrosion layer 101 is arranged on one side inside the testing device 1, an interference layer 102 is arranged on one side of the anti-corrosion layer 101, an insulating layer 103 is arranged on one side of the interference layer 102, corrosion of the detection equipment is reduced through the arrangement of the anti-corrosion layer 101, the service time of the testing device 1 is prolonged, the corrosion degree of the testing device 1 is reduced, the radiation protection and damage resistance of the testing device 1 is improved, electric radiation and equipment damage caused by external factors are reduced, a protection angle 2 is arranged at the top of the testing device 1, a fixing pin 3 is arranged at the bottom of the testing device 1, a shock absorption frame 4 is arranged at the bottom of the fixing pin 3, a fixing groove 18 is arranged at the top of the shock absorption frame 4, a bottom plate 19 is arranged at the bottom of the fixing groove 18, a buffer spring 20 is arranged at the bottom of the bottom plate 19, a buffer plate 21 is arranged at the bottom of the buffer spring 20, the shock absorption device for the automobile shock absorption frame has the advantages that the use of the shock absorption frame 4 is reduced, the influence of the device 1 on other devices in the using process is reduced, the influence of shock on other devices is reduced, the structural stability is improved, the instability of the structure caused by shock is reduced, the shock absorption plate 5 is arranged at the bottom of the inner side of the shock absorption frame 4, the movable block 22 is arranged on the top side of the inner portion of the shock absorption plate 5, the movable wheel 23 is arranged on the inner side of the movable block 22, the movable rod 24 is arranged at the bottom of the movable wheel 23, the movable block 25 is arranged on one side of the movable rod 24, the sliding block 26 is arranged at the bottom of the movable block 25, the sliding groove 27 is arranged at the bottom of the sliding block 26, the return spring 28 is arranged on one side of the movable block 25, the return plate 29 is arranged on one side of the return spring 28, and, The return plate 29 is convenient to disperse the force of vibration, the movable block 25 is moved left and right through the movable wheel 23 and the movable rod 24, the force is dispersed through the return spring 28, the force is rebounded back through the return spring 28 and the return plate 29, the damping force of the device is increased, the influence of vibration on the device is reduced, the damping capacity of the device is increased, the influence of vibration on detection is reduced, the lifting frame 6 is arranged at the bottom of the damping frame 4, the cushion block 7 is arranged at the bottom of the lifting frame 6, the movable leg 8 is arranged at the bottom of the cushion block 7, the movable wheel 9 is arranged at the bottom of the movable leg 8, the brake block 10 is arranged at one side of the movable wheel 9, the damping column 15 is arranged at the bottom side inside the lifting frame 6, the lifting motor 11 is arranged at one side of the top of the damping column 15, the rotating column 14 is arranged at one side of the lifting motor 11, the bottom of lifter 13 is provided with interlock wheel 33, the inboard middle part of lift pad 12 is provided with fifth wheel 34, the bottom of fifth wheel 34 is provided with sill bar 35, the inboard of lifter 13 is provided with interior pole 30, the inboard of interior pole 30 is provided with lift thread groove 31, the inboard of lift thread groove 31 is provided with lift screw thread 32, interior pole 30 through setting up, lift thread groove 31, lift screw thread 32, interlock wheel 33, spliced pole 34, sill bar 35 conveniently risees and reduces testing arrangement 1, increase the activity of equipment, reduce equipment because the unable adjustment position can not carry out conduction detection, the influence of vibrations to the box when reducing the rising, increase the stability of box, increase the life of box, the bottom of lifter 13 is provided with lift pad 12, the surface of rotation post 14 is provided with support column 16, the bottom side of support column 16 is provided with supporting shoe 17.

The working principle is as follows: when in use, the testing device 1 is placed in the fixing feet 3 to fix the testing device 1, the stability of the testing device 1 is improved, the testing device 1 can be prevented from being damaged by other objects through the arranged protection angles 2, the protection performance of the testing device 1 is improved, the rotating column 14 is rotated through the lifting motor 11 arranged in the lifting frame 6, the stability of the rotating column 14 is improved through the arranged supporting column 16 and the supporting block 17 to fix the rotating column 14, the rotating column 4 and the testing device 1 are convenient to lift, the vibration in the lifting process can be reduced through the damping device in the damping plate 5, the testing performance in the testing process is improved, the influence of the lifting device on the lifting frame 6 is reduced through the arranged damping column 15, the vibration generated on the lifting frame 6 is reduced, and the movement is convenient through the arranged moving wheel 9, the moving wheel 9 is conveniently fixed through the arranged brake pad 10, and the moving is reduced when the fixing is carried out.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A high voltage power supply conduction testing device comprises a testing device (1), and is characterized in that: the shock absorption device is characterized in that a protection angle (2) is arranged at the top of the testing device (1), a fixing foot (3) is arranged at the bottom of the testing device (1), a shock absorption frame (4) is arranged at the bottom of the fixing foot (3), a shock absorption plate (5) is arranged at the bottom of the inner side of the shock absorption frame (4), a lifting frame (6) is arranged at the bottom of the shock absorption frame (4), a cushion block (7) is arranged at the bottom of the lifting frame (6), a moving leg (8) is arranged at the bottom of the cushion block (7), a moving wheel (9) is arranged at the bottom of the moving leg (8), a brake pad (10) is arranged at one side of the moving wheel (9), a shock absorption column (15) is arranged at the bottom side of the inner part of the lifting frame (6), a lifting motor (11) is arranged at one side of the top of the shock, the lifting device is characterized in that a lifting rod (13) is arranged on the outer side of the rotating column (14), a lifting pad (12) is arranged at the bottom of the lifting rod (13), a supporting column (16) is arranged on the surface of the rotating column (14), and a supporting block (17) is arranged on the bottom side of the supporting column (16).

2. The high voltage power conduction testing apparatus of claim 1, wherein: the shock absorption frame is characterized in that a fixing groove (18) is formed in the top of the shock absorption frame (4), a bottom plate (19) is arranged at the bottom of the fixing groove (18), a buffer spring (20) is arranged at the bottom of the bottom plate (19), and a buffer plate (21) is arranged at the bottom of the buffer spring (20).

3. The high voltage power conduction testing apparatus of claim 1, wherein: the damping plate is characterized in that a movable block (22) is arranged on the top side inside the damping plate (5), movable wheels (23) are arranged on the inner sides of the movable blocks (22), movable rods (24) are arranged at the bottoms of the movable wheels (23), a movable block (25) is arranged on one side of each movable rod (24), sliding blocks (26) are arranged at the bottoms of the movable blocks (25), sliding grooves (27) are formed in the bottoms of the sliding blocks (26), a return spring (28) is arranged on one side of each movable block (25), and a return plate (29) is arranged on one side of each return spring (28).

4. The high voltage power conduction testing apparatus of claim 1, wherein: an inner rod (30) is arranged on the inner side of the lifting rod (13), a lifting screw groove (31) is arranged on the inner side of the inner rod (30), and a lifting screw thread (32) is arranged on the inner side of the lifting screw groove (31).

5. The high voltage power conduction testing apparatus of claim 1, wherein: the lifting device is characterized in that a linkage wheel (33) is arranged at the bottom of the lifting rod (13), a connecting wheel (34) is arranged in the middle of the inner side of the lifting pad (12), and a bottom column (35) is arranged at the bottom of the connecting wheel (34).

6. The high voltage power conduction testing apparatus of claim 1, wherein: the testing device is characterized in that an anti-corrosion layer (101) is arranged on one side inside the testing device (1), an interference layer (102) is arranged on one side of the anti-corrosion layer (101), and an insulating layer (103) is arranged on one side of the interference layer (102).

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