CN215493953U - Platform for detecting three-phase thyristor power regulator - Google Patents

Abstract

The utility model discloses a platform for detecting a three-phase thyristor power regulator, which comprises a first frame, a second frame is arranged above the first frame, a platform main body is arranged at the intersection of the first frame and the second frame, a cross brace is arranged inside the upper part of the second frame, a caster wheel is arranged below the first frame, two sides of the upper axle center of the platform main body are respectively provided with a fixing mechanism, one side of the second frame is provided with a placing frame, in the utility model, through respectively arranging a fixing mechanism at two sides of the upper part of the platform main body, and the fixing mechanism is driven by the cylinder component, so that the side plates at the two sides can be close to each other, thus, the three-phase thyristor power regulator is tightly fixed, and one side of the side plate is provided with a protection plate, the problem of damage can not appear in the protection three-phase thyristor power regulator under the effect of guard plate.

Description

Platform for detecting three-phase thyristor power regulator

Technical Field

The utility model relates to the technical field of three-phase power regulators, in particular to a platform for detecting a three-phase thyristor power regulator.

Background

The three-phase power regulator is also called thyristor power regulator, silicon controlled power regulator, thyristor regulator. The thyristor, also known as thyristor, is a four-layer three-terminal semiconductor device, which is connected between a power supply and a load, and is provided with a corresponding trigger control circuit board, so that the voltage, current and power applied to the load can be adjusted.

However, the existing platform for detecting the three-phase thyristor power regulator directly detects the regulator without tightly fixing the regulator, so that the connection of the connection position is not tight due to shaking during detection, and the connection position falls off.

Therefore, it is necessary to provide a platform for three-phase thyristor power regulator detection to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a platform for detecting a three-phase thyristor power regulator, which solves the problem that a wiring part may fall off due to shaking because no fixing device is arranged in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: a platform for detecting a three-phase thyristor power regulator comprises a first frame, a second frame is arranged above the first frame, a platform main body is arranged at the intersection of the first frame and the second frame, a cross brace is arranged inside the second frame, trundles are arranged below the first frame, two fixing mechanisms are respectively arranged on two sides of the upper axis of the platform main body, a placing frame is arranged on one side of the second frame,

the placing frame is composed of a connecting plate, a frame and clamping grooves, the connecting plate is installed on two sides of the frame, and the clamping grooves are installed on two sides inside the frame and are of rectangular structures.

As a further scheme of the utility model, the fixing mechanism is composed of a supporting frame, a cylinder assembly, a transmission shaft, a side plate and a protection plate, the protection plate is installed on one side of the side plate, the transmission shaft is installed on one side of the side plate far away from the protection plate, the cylinder assembly is installed on the outer side of the transmission shaft, and the supporting frame is installed below the cylinder assembly.

As a further scheme of the utility model, the cross brace is of a plate-shaped structure, a lamp is arranged at the lower axial center of the cross brace, and an upper computer is arranged on one side of the lamp close to the placing frame.

As a further aspect of the present invention, the first frame is a box-shaped structure with a hollow interior, and two storage boxes are respectively disposed on two sides of the interior of the first frame.

As a further scheme of the present invention, the platform main body is a plate-shaped structure, and a protective pad is disposed at an inner axis of an intersection of the platform main body and the fixing mechanism.

As a further scheme of the utility model, the placing frame is of a box-shaped structure with a hollow interior, and a communication interface is arranged in the placing frame.

As a further scheme of the utility model, the protection plate and the side plate are both of plate-shaped structures, and the size of the protection plate is smaller than that of the side plate.

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

according to the three-phase thyristor power regulator, the two sides above the platform main body are respectively provided with the fixing mechanism, and the fixing mechanisms are used for transmission through the air cylinder assembly, so that the side plates on the two sides can be close to each other, the three-phase thyristor power regulator is tightly fixed, and the protection plate is arranged on one side of the side plate, so that the three-phase thyristor power regulator is protected from being damaged under the action of the protection plate.

According to the utility model, the protection pad is arranged on the inner sides of the fixing mechanisms on the two sides, so that the protection pad can play a better protection role, the placing frame is arranged, the communication interface can be placed in the placing frame, the clamping grooves are formed in the two sides of the inside of the placing frame, so that a circuit can be placed in the clamping grooves better, and the phenomenon that the communication interface is not tightly connected with the three-phase thyristor power regulator is avoided.

Drawings

The utility model is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic diagram of a platform elevation configuration for three-phase thyristor power regulator testing of the present invention;

FIG. 2 is a schematic front view of the securing mechanism of the present invention;

fig. 3 is a schematic view of the overall structure of the placement frame of the present invention.

In the figure: 1. a first frame; 2. a platform body; 3. a second frame; 4. a cross brace; 5. a fixing mechanism; 51. a support frame; 52. a cylinder assembly; 53. a drive shaft; 54. a side plate; 55. a protection plate; 6. placing the frame; 61. a connecting plate; 62. a frame; 63. a card slot; 7. a communication interface; 8. a protective pad; 9. a storage box; 10. a caster wheel; 11. a light fixture; 12. and (4) an upper computer.

Detailed Description

Embodiment 1, as shown in fig. 1, a platform for three-phase thyristor power regulator detection comprises a first frame 1, a second frame 3 is arranged above the first frame 1, a platform main body 2 is arranged at the intersection of the first frame 1 and the second frame 3, a cross brace 4 is arranged inside the upper part of the second frame 3, casters 10 are arranged below the first frame 1, two fixing mechanisms 5 are respectively arranged on two sides of the upper axis of the platform main body 2, a placing frame 6 is arranged on one side of the second frame 3,

the placing frame 6 is composed of a connecting plate 61, a frame 62 and clamping grooves 63, wherein the connecting plate 61 is installed on two sides of the frame 62, and the clamping grooves 63 are installed on two sides inside the frame 62 and are of a rectangular structure.

During the specific use, fixed with three-phase thyristor power regulator under the effect of both sides fixed establishment 5, then make three-phase thyristor power regulator and communication interface 7 be connected, can detect through host computer 12 at last, avoided the circuit to appear twining or fixed untight phenomenon to take place moreover under the effect of placing frame 6.

In embodiment 2, as shown in fig. 2, the fixing mechanism 5 is composed of a supporting frame 51, a cylinder assembly 52, a transmission shaft 53, a side plate 54 and a protection plate 55, the protection plate 55 is installed on one side of the side plate 54, the transmission shaft 53 is installed on one side of the side plate 54 far away from the protection plate 55, the cylinder assembly 52 is installed on the outer side of the transmission shaft 53, and the supporting frame 51 is installed below the cylinder assembly 52.

When the three-phase thyristor power regulator is used specifically, the ventilation cylinder assembly 52 drives the transmission shaft 53 to move, so that the transmission shaft 53 can drive the side plate 54 to move towards one side close to the three-phase thyristor power regulator, and the three-phase thyristor power regulator is tightly fixed.

In embodiment 3, as shown in fig. 1, the wale 4 has a plate-shaped structure, a lamp 11 is disposed at the axis below the wale 4, and an upper computer 12 is disposed on one side of the lamp 11 close to the placing frame 6.

When the LED lamp is used specifically, light of a working environment can be provided through the lamp 11, and then the program is set under the action of the upper computer 12.

In embodiment 4, as shown in fig. 1, the first rack 1 is a box-shaped structure with a hollow interior, and two storage boxes 9 are respectively disposed on two sides of the interior of the first rack 1.

In particular use, some tools for maintenance may be placed inside the storage compartment 9.

In embodiment 5, as shown in fig. 1, the platform main body 2 is a plate-shaped structure, and a protection pad 8 is disposed at an inner axis of a crossing portion of the platform main body 2 and the fixing mechanism 5.

During the specific use, through placing three-phase thyristor power regulator in the top of protection pad 8 to make three-phase thyristor power regulator fixed inseparable through fixed establishment 5, avoided appearing fixed untight phenomenon in the detection.

In embodiment 6, as shown in fig. 1, the placement frame 6 has a box-shaped structure with a hollow interior, and a communication interface 7 is provided inside the placement frame 6.

During the specific use, make three-phase thyristor power regulator and communication interface 7 interconnect through will testing the line, can be better detect like this.

In embodiment 7, as shown in fig. 2, the protection plate 55 and the side plate 54 are both plate-shaped structures, and the size of the protection plate 55 is smaller than that of the side plate 54.

When the three-phase thyristor power regulator is used specifically, the protection plate 55 is in contact with the three-phase thyristor power regulator, so that the three-phase thyristor power regulator can be protected better.

The working principle is as follows: when the device is used, a user firstly takes out the three-phase thyristor power regulator, then places the three-phase thyristor power regulator inside the two-side fixing mechanisms 5 above the platform main body 2, and then opens the switches of the fixing mechanisms 5, so that the cylinder assembly 52 inside the fixing mechanisms 5 drives the side plates 54 to move, thereby tightly fixing the three-phase thyristor power regulator under the action of the protection plate 55,

later the user takes out the test wire, then is connected the one end and the three-phase thyristor power regulator of test wire, the other one end of test wire with place the inside communication interface 7 interconnect of frame 6 to can make the winding phenomenon can not appear in the circuit under the effect of draw-in groove 63, later communication interface 7 and host computer 12 electric connection, the user can detect the three-phase thyristor power regulator through controlling host computer 12 like this, just so accomplished the device used.

Claims (7)

1. A platform for three-phase thyristor power regulator detection, comprising a first frame (1), characterized in that: a second frame (3) is arranged above the first frame (1), a platform main body (2) is arranged at the intersection of the first frame (1) and the second frame (3), a cross brace (4) is arranged inside the upper portion of the second frame (3), trundles (10) are arranged below the first frame (1), two fixing mechanisms (5) are respectively arranged on two sides of the upper axle center of the platform main body (2), a placing frame (6) is arranged on one side of the second frame (3),

the placement frame (6) is composed of a connecting plate (61), a frame (62) and clamping grooves (63), the connecting plate (61) is installed on two sides of the frame (62), and the clamping grooves (63) are installed on two sides inside the frame (62) and are rectangular structures.

2. The platform for three-phase thyristor power regulator test of claim 1, wherein: the fixing mechanism (5) is composed of a supporting frame (51), a cylinder assembly (52), a transmission shaft (53), a side plate (54) and a protection plate (55), the protection plate (55) is installed on one side of the side plate (54), the transmission shaft (53) is installed on one side, away from the protection plate (55), of the side plate (54), the cylinder assembly (52) is installed on the outer side of the transmission shaft (53), and the supporting frame (51) is installed below the cylinder assembly (52).

3. The platform for three-phase thyristor power regulator test of claim 1, wherein: the transverse support (4) is of a plate-shaped structure, a lamp (11) is arranged at the axis below the transverse support (4), and an upper computer (12) is arranged on one side, close to the placement frame (6), of the lamp (11).

4. The platform for three-phase thyristor power regulator test of claim 1, wherein: the first rack (1) is of a box-shaped structure with a hollow interior, and two storage boxes (9) are respectively arranged on two sides of the interior of the first rack (1).

5. The platform for three-phase thyristor power regulator test of claim 1, wherein: the platform main body (2) is of a plate-shaped structure, and a protective pad (8) is arranged at the inner side axis of the intersection of the platform main body (2) and the fixing mechanism (5).

6. The platform for three-phase thyristor power regulator test of claim 1, wherein: the placing frame (6) is of a hollow box-type structure, and a communication interface (7) is arranged inside the placing frame (6).

7. The platform for three-phase thyristor power regulator test of claim 2, wherein: the protection plate (55) and the side plate (54) are both of plate-shaped structures, and the size of the protection plate (55) is smaller than that of the side plate (54).

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