CN214935762U - High-voltage board transportation and assembly quality - Google Patents

Abstract

The utility model provides a high-voltage board transportation and assembly quality. This high-voltage board transportation and assembly quality passes through the cooperation of high-voltage board conveyer and high-voltage board assembly quality, solves the high-voltage board transportation and can not indoor outer general and dangerous high-efficient stable technical problem of haulage equipment in the assembling process. Because the high-voltage cabinet transportation device adopts the assembly mode of split assembly, the construction danger is reduced, the damage to the high-voltage cabinet caused by the use of construction machines is reduced, the high-voltage cabinet transportation device is kept flat and erected simply, conveniently and laborsavingly, the labor cost is saved, the number of the original common operations of more than 10 persons is reduced to 1 person, and the labor intensity of the personnel during construction is reduced; the mounting position precision and accuracy are high, and the damage of collision generated in the mounting process to the internal electric structure of the high-voltage cabinet is reduced. To sum up, the utility model discloses suitable as can be used by the general and safe high-voltage board transportation and the assembly quality that high efficiency is stable of indoor outer during electric power engineering operation.

Description

High-voltage board transportation and assembly quality

Technical Field

The utility model provides a delivery vehicle in electric power field mainly is applied to the transportation of electric power high-voltage board and takes one's place, and specifically speaking is high-voltage board transportation and assembly quality.

Background

In the operation of the power industry, the transportation and the assembly of the high-voltage cabinet are one of very important operation links. An electric power 10 kV high-voltage cabinet is an armored all-metal cabinet body, and the conventional structure data is as follows: height depth width =2.3m 1.500m 0.8m (1 m), weight about 1.2 tons. At present, when a cabinet body is installed or replaced, the cabinet body needs to be lifted by an outdoor crane, flatly placed on a ground cattle carrying vehicle, carried to an indoor with the door height not lower than 2m through a ramp, erected by manpower, installed on the end face of a groove which takes a channel steel as a base and takes the channel steel as the base, with the width of the groove being about 1.5m and the depth of the groove being about 1.5m by using a rolling rod or a sliding rod, and the adjacent cabinet bodies need to be moved out of the installation base, so that at least more than ten persons are needed to simultaneously operate.

Because the existing carrying equipment can not meet the indoor in-place requirement, after the cabinet enters the room, the cabinet body needs to stand indoors by manpower, and the rolling bars are arranged in place on the end faces of the long grooves with the channel steel as the base. Because the high-voltage board has a basis weight, transport indoor needs replacement equipment many times from outdoor, can't satisfy indoor outer general requirement, and the high-voltage board cabinet body will be in slot one end, lean on to dial, the sled slides to the mounted position, it is very easily out of hand to rely on the manpower transport, personnel or the cabinet body fall into the slot the inside very easily, when equipment falls, also cause the injury to personnel or equipment easily, this kind of method not only wastes time and energy, it is high to place and equipment parameter requirement, at the in-process of carrying repeatedly, then cause the surperficial fish tail of high-voltage board lightly, then lead to like the internal electrical structure of this kind of precision instrument equipment of high-voltage board is not hard up, influence power consumption safety, operating personnel's intensity of labour and safe risk have also been increased simultaneously. Therefore, a safe, efficient and stable high-voltage cabinet transportation and positioning device which can meet indoor and outdoor universality is urgently needed.

Disclosure of Invention

In order to solve the technical problem of inconvenience in carrying of high-voltage board, the utility model provides a can be indoor outer general and safe, high-efficient, stable high-voltage board transportation and assembly quality. This high-voltage board transportation and assembly quality passes through the cooperation of high-voltage board conveyer and high-voltage board assembly quality, solves the high-voltage board transportation and can not indoor outer general and dangerous high-efficient stable technical problem of haulage equipment in the assembling process.

The utility model provides a scheme that technical problem adopted is:

the high-voltage cabinet transporting and assembling device consists of a high-voltage cabinet transporting device and a high-voltage cabinet assembling device. The high-voltage cabinet transportation device comprises a carrier vehicle chassis, a lifting device, a clamping device and a steering device; the high-voltage board assembling device pulls the high-voltage board out of the high-voltage board conveying device through the top hook by matching the channel steel guide rail with the conveying device, and the high-voltage board is installed.

The chassis of the carrier loader comprises a cross beam and a traction ring, the cross beam is provided with a front chassis cross beam in the advancing direction of the high-voltage board transporting device, a rear chassis cross beam is arranged in the opposite direction of the front chassis cross beam, the two ends of the front chassis cross beam and the rear chassis cross beam are respectively connected in a limiting way through a left chassis cross beam and a right chassis cross beam through width adjusting holes, the middle part of the front chassis cross beam is provided with the traction ring to be connected with an external power device,

the bottom of the chassis of the carrying vehicle is also provided with universal wheels for free movement of the high-voltage cabinet conveying device.

The lifting device consists of a hydraulic oil cylinder, a hydraulic oil cylinder tripod and a fixing ring; the hydraulic cylinder tripod extends towards two sides by taking the hydraulic cylinder as an axis to form a triangular structure to support the hydraulic cylinder, and two pipelines which are extended by the hydraulic pump are respectively connected to the two hydraulic cylinders to realize synchronous lifting of the cylinders. The hydraulic cylinder tripod both ends are fixed through solid fixed ring and carrier vehicle chassis left and right crossbeam respectively, and the symmetry sets up on the upper portion of chassis left side crossbeam and chassis right side crossbeam, and hydraulic cylinder tripod top links to each other with clamping device through the rotation axis to hug closely the rotation axis and be provided with the rising indicator scale on the top of hydraulic cylinder tripod, whether the high-voltage board can overturn and keep flat is confirmed to the height of being convenient for the acknowledgement control cabinet body rising.

The annular structure on the upper part of the fixing ring provides a tying point for a rope for fixing the high-voltage cabinet, and the high-voltage cabinet is limited to shake in the carrying process.

The clamping device consists of a left clamping beam, a right clamping beam, a left inclined tension beam, a right-angle short beam, a fastening joint and a right-angle long beam; the left inclined pull beam is symmetrical by taking a rotating shaft in the middle of the left clamping beam as a center to form a triangular structure, and the right inclined pull beam is symmetrical by taking a rotating shaft in the middle of the right clamping beam as a center to form a triangular structure; the long roof beam in right angle and the short roof beam in right angle one end fixed connection are terminal at the centre gripping roof beam, and the other end forms U type activity opening, through fastening festival locking connection, when carrying out the high-voltage board transportation, unscrew the fastening festival, lift the long roof beam in right angle and the long roof beam in right angle off, will the utility model discloses remove near high-voltage board and centre gripping high-voltage board, installation short roof beam in right angle and the long roof beam in right angle and the fastening festival of screwing makes the high-voltage board centre gripping fastening.

The right-angle short beam and the right-angle long beam are prefabricated right-angle beams with different lengths so as to be suitable for transportation of high-voltage cabinets with different sizes.

The steering device is arranged on a rear cross beam of the chassis and comprises a steering shaft, a steering outer sleeve, a steering crank arm and a steering connecting rod. The steering outer sleeve is sleeved outside the steering shaft to provide a movable space for the rotation of the steering shaft, the upper part of the steering shaft extends upwards to form a steering outer sleeve to form a handle, the lower part of the steering shaft extends downwards to be linked with the steering connecting lever, one end of the steering connecting lever is connected with the right cross beam of the chassis, the other end of the steering connecting lever is connected with the left cross beam of the chassis through a steering connecting rod, and the steering connecting lever drives the left cross beam of the chassis and the right cross beam of the chassis to synchronously steer by controlling the handle on the steering shaft; the steering connecting rod is movably connected with the left cross beam of the chassis through a steering connecting rod extension positioning pin and a pin hole which is correspondingly arranged on the steering connecting rod;

and a tool hanging point is further arranged on the steering outer sleeve of the steering device and used for hanging and placing temporary tools.

After the high-voltage cabinet body is arranged at the designated position, the channel steel guide rail with one end provided with a limit buckle and the other end provided with an in-orbit slope is matched with the roller of the high-voltage cabinet transportation device to move out or move into the mounting base, the fixing clamp is welded on the channel steel guide rail surface close to the limit buckle, and the movable clamp is fixed on the guide rail surface close to the in-orbit slope through the set screw, so that the high-voltage cabinet body is suitable for width adjustment of different high-voltage cabinet bodies.

The top hook of the top pull-in and pull-out device is hooked on the lower edge of the high-voltage cabinet body, so that the cabinet body is pulled out.

The high-voltage cabinet transportation device has the advantages that the high-voltage cabinet transportation device adopts a split assembly mode, so that a crane is not needed to be used for hoisting the high-voltage cabinet to a transport vehicle when the high-voltage cabinet is transported outdoors, construction danger is reduced, and damage to the high-voltage cabinet caused by the use of construction machines is reduced; when the high-voltage cabinet is in place, the rotating shaft is utilized to rotate, so that the high-voltage cabinet is simple, convenient and labor-saving to lay and stand, the labor cost is saved, the original common operation of more than 10 persons is reduced to the operation which can be completed by 1 person, and the labor intensity of the personnel during construction is reduced; because the high-voltage board is assembled and installed finally by the in-place device, the accuracy and the precision of the installation position are high, and the damage of the collision generated in the installation process to the internal electric structure of the high-voltage board is reduced. To sum up, the utility model discloses suitable as can be used by the general and safe high-voltage board transportation and the assembly quality that high efficiency is stable of indoor outer during electric power engineering operation.

Drawings

FIG. 1 is a schematic structural view of the high-voltage cabinet transportation device of the present invention;

FIG. 2 is a front view of the structure of the transportation device for high-voltage cabinets of the present invention;

FIG. 3 is a schematic view of the structure of the suspension beam guide rail of the high-voltage cabinet in-place device of the present invention;

FIG. 4 is a schematic structural view of the top-in and top-out device of the high-voltage cabinet in-place device of the present invention;

figure 5 position the utility model discloses high-voltage board transportation schematic diagram.

In the drawing, 1, a chassis front beam, 2, a chassis rear beam, 3, a chassis left beam, 4, a chassis right beam, 5, a width adjusting hole, 6, a traction ring, 7, a fixing ring, 8, a hydraulic oil cylinder, 9, a hydraulic oil cylinder tripod, 10, a rotating shaft, 11, a lifting indicating scale, 12, a left clamping beam, 13, a right clamping beam, 14, a left inclined pulling beam, 15, a right inclined pulling beam, 16, a right-angle short beam, 17, a fastening joint, 18, a right-angle long beam, 19, a steering shaft, 20, a steering jacket, 21, a steering crank arm, 22, a steering connecting rod, 23, a tool hanging point, 24, a limit buckle, 25, a fixing clamp, 26, a movable clamp, 27, an in-track slope and 28 a top hook.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate the position or positional relationship based on the position or positional relationship shown in the drawings, or the position or positional relationship which is usually placed when the product of the present invention is used, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device or element referred to must have a specific position, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

In the present invention, all the embodiments, implementations and features of the present invention can be combined with each other without contradiction or conflict. In the utility model, conventional equipment, devices, parts, etc. can be purchased commercially or can be self-made according to the present invention. In the present invention, in order to highlight the emphasis of the present invention, some conventional operations and devices, apparatuses, and components are omitted or only described briefly.

Referring to fig. 1 to 2, the high-voltage board transporting and assembling device is composed of a high-voltage board transporting device and a high-voltage board assembling device. The high-voltage cabinet transportation device comprises a carrier vehicle chassis, a lifting device, a clamping device and a steering device; the high-voltage board assembling device pulls the high-voltage board out of the high-voltage board conveying device through the matching of the channel steel guide rail and the conveying device and the top hook 28, and the high-voltage board is installed.

The chassis of the carrier loader comprises a cross beam and a traction ring, the cross beam is provided with a front chassis cross beam 1 in the advancing direction of the high-voltage board conveying device, a rear chassis cross beam 2 is arranged in the opposite direction of the front chassis cross beam 1, the two ends of the front chassis cross beam 1 and the rear chassis cross beam 2 are respectively in limit connection through a left chassis cross beam 3 and a right chassis cross beam 4 through a width adjusting hole 5, the middle part of the front chassis cross beam 1 is provided with the traction ring 6 to be connected with an external power device,

the bottom of the chassis of the carrying vehicle is also provided with universal wheels for free movement of the high-voltage cabinet conveying device.

The lifting device consists of a hydraulic oil cylinder 8, a hydraulic oil cylinder tripod 9 and a fixing ring 7; the hydraulic cylinder tripod 9 extends towards two sides by taking the hydraulic cylinder 8 as an axis to form a triangular structure to support the hydraulic cylinder 8, and two pipelines which are extended by the hydraulic pump are respectively connected to the two hydraulic cylinders 8 to realize synchronous lifting of the cylinders. The two ends of a hydraulic cylinder tripod 9 are fixed with a left and a right cross beams of a carrier chassis through fixing rings 7 respectively, the two ends are symmetrically arranged on the upper parts of a left cross beam 3 of the chassis and a right cross beam 4 of the chassis, the top of the hydraulic cylinder tripod 9 is connected with a clamping device through a rotating shaft 10, a lifting indicating scale 11 is arranged on the top end of the hydraulic cylinder tripod 9 in a manner of being tightly attached to the rotating shaft 10, and whether the high-voltage cabinet can be overturned and laid flat or not can be confirmed by the height for confirming the lifting of the control cabinet body.

The annular structure on the upper part of the fixing ring 7 provides a tying point for a rope for fixing the high-voltage cabinet, and the high-voltage cabinet is limited to shake in the carrying process.

The clamping device consists of a left clamping beam 12, a right clamping beam 13, a left inclined pull beam 14, a right inclined pull beam 15, a right-angle short beam 16, a fastening joint 17 and a right-angle long beam 18; the left inclined pull beam 14 is symmetrical by taking the rotating shaft 10 in the middle of the left clamping beam 12 as a center to form a triangular structure, and the right inclined pull beam 15 is symmetrical by taking the rotating shaft 10 in the middle of the right clamping beam 13 as a center to form a triangular structure; rectangular long beam 18 and rectangular short beam 16 one end fixed connection are terminal at the centre gripping roof beam, and the other end forms U type activity opening, through fastening festival 17 locking connection, when carrying out the high-voltage board transportation, unscrew fastening festival 17, lift off rectangular short beam 16 and rectangular long beam 18, will the utility model discloses remove near high-voltage board and centre gripping high-voltage board, install rectangular short beam 16 and rectangular long beam 18 and screw fastening festival 17, make the high-voltage board centre gripping fastening.

The right-angle short beam 16 and the right-angle long beam 18 are prefabricated right-angle beams with different lengths so as to be suitable for transportation of high-voltage cabinets with different sizes.

The steering device is arranged on the chassis rear cross beam 2 and comprises a steering shaft 19, a steering outer sleeve 20, a steering crank arm 21 and a steering connecting rod 22. The steering outer sleeve 20 is sleeved outside the steering shaft 19 and provides a moving space for the rotation of the steering shaft 19, the upper part of the steering shaft 19 extends upwards to form a handle, the lower part of the steering shaft 19 extends downwards to be linked with a steering crank arm 21, one end of the steering crank arm 21 is connected with the chassis right cross beam 4, the other end of the steering crank arm 21 is connected with the chassis left cross beam 3 through a steering connecting rod 22, and the steering crank arm 21 drives the chassis left cross beam 3 and the chassis right cross beam 4 to synchronously steer by controlling the handle on the steering shaft 19; the steering connecting rod 22 is movably connected with the chassis left cross beam 3 through a steering connecting rod extension positioning pin and a pin hole correspondingly arranged on the steering connecting rod 21.

The steering outer sleeve 20 of the steering device is also provided with a tool hanging point 23 for hanging and placing a temporary tool.

After the high-voltage cabinet body is arranged at the designated position, the roller of the channel steel guide rail matched high-voltage cabinet conveying device with one end provided with the limit buckle 24 and the other end provided with the in-orbit slope 27 can move out or move into the mounting base, the fixing clamp 25 is welded on the channel steel guide surface close to the limit buckle 24, and the movable clamp 26 is fixed on the guide surface close to the in-orbit slope 27 through the fastening screw, so that the width adjustment of different high-voltage cabinet bodies is adapted.

The top hook 28 of the top pull-in device is hooked on the lower edge of the high-voltage cabinet body, so that the cabinet body is pulled out.

The utility model discloses a working process:

and (3) installing the left cross beam and the right cross beam of the chassis on the width adjusting hole of the rear cross beam of the appropriate chassis according to the width difference of the high-voltage cabinet, and temporarily not installing the front cross beam of the chassis. In a similar way, the right-angle short beam, the right-angle long beam and the fastening section on the same side are not installed for the moment. The high-voltage board transporting and positioning device is integrally inserted to the outer side of the high-voltage board in a U shape, and then a front cross beam of the chassis is assembled, and a right-angle short beam, a right-angle long beam and a fastening joint which are arranged on the same side are installed. After the high-voltage cabinet is clamped on the device, the wrench is used for adjusting the fastening joint on the clamping device to clamp and fix the high-voltage cabinet. After the high-voltage board is clamped and fixed, the lowest point of the oil cylinder is not the initial height, the two sides of the oil cylinder are lifted to a certain height to clamp the cabinet body, then the cabinet body is lifted to a certain height, the cabinet body can be overturned and fall back to the end face of the carrier, the hydraulic oil cylinders on the two sides are pressed by the pressing handle, the lifting indicating scale is observed, when the lifting height is enough to enable the high-voltage board to be overturned and horizontally placed, the pressing is stopped, and the high-voltage board is horizontally placed by taking the top of the tripod of the hydraulic oil cylinder as an axis to rotate and start transportation of the high-voltage board. And a steering device is used for steering operation during transportation. After the cabinet body is conveyed to the installation position, the high-voltage cabinet is erected, the suspension beam rail is laid on the installation base of the cabinet body of the high-voltage cabinet, the cabinet body basically reaches the installation position, and the cabinet body is adjusted by the jacking and pulling-out device to be moved to the position where the cabinet body is actually needed to be in place.

The utility model has the characteristics that:

according to the high-voltage cabinet transportation and assembly device, due to the adoption of a split assembly mode, when the high-voltage cabinet is transported outdoors, a crane is not needed to be used for hoisting the high-voltage cabinet, so that the construction risk is reduced, and the construction machines are reduced; when the high-voltage cabinet is assembled indoors, the high-voltage cabinet rotates along the shaft by utilizing the rotating shaft, so that the high-voltage cabinet is simple, convenient and labor-saving to lay and erect, the manpower is saved, and the labor intensity of personnel during construction is reduced. Because the cantilever beam guide rail and the jacking and pulling-out device are used for carrying out final in-place installation, the installation position precision is high, the accuracy is good, and the damage to the internal electrical structure of the high-voltage cabinet in the installation process is reduced.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (8)

1. High-voltage board transportation and assembly quality, characterized by: the high-voltage cabinet transporting and assembling device consists of a high-voltage cabinet transporting device and a high-voltage cabinet in-place device; the high-voltage cabinet transportation device comprises a carrier vehicle chassis, a lifting device, a clamping device and a steering device;

the chassis of the carrier loader comprises a cross beam and a traction ring, the cross beam is provided with a front chassis cross beam (1) in the advancing direction of the high-voltage board conveying device, a rear chassis cross beam (2) is arranged in the opposite direction of the front chassis cross beam (1), the two ends of the front chassis cross beam (1) and the rear chassis cross beam (2) are respectively in limited connection through a left chassis cross beam (3) and a right chassis cross beam (4) through width adjusting holes (5), and the middle part of the front chassis cross beam (1) is provided with the traction ring (6) which is connected with an external power device;

the steering device is arranged on a chassis rear cross beam (2) and comprises a steering shaft (19), a steering outer sleeve (20), a steering crank arm (21) and a steering connecting rod (22); the steering outer sleeve (20) is sleeved outside the steering shaft (19) to provide a moving space for the rotation of the steering shaft (19), the upper part of the steering shaft (19) upwards extends out of the steering outer sleeve (20) to form a handle, the lower part of the steering shaft downwards extends to be linked with the steering crank arm (21), one end of the steering crank arm (21) is connected with the chassis right cross beam (4), the other end of the steering crank arm is connected with the chassis left cross beam (3) through a steering connecting rod (22), and the steering crank arm (21) drives the chassis left cross beam (3) and the chassis right cross beam (4) to synchronously steer by controlling the handle on the steering shaft (19); the steering connecting rod (22) is movably connected with the left cross beam (3) of the chassis through a steering connecting rod extension positioning pin and a pin hole correspondingly arranged on the steering connecting rod (21).

2. The high voltage cabinet transport and assembly apparatus of claim 1, wherein:

the lifting device consists of a hydraulic oil cylinder (8), a hydraulic oil cylinder tripod (9) and a fixing ring (7); the hydraulic oil cylinder tripod (9) extends towards two sides by taking the hydraulic oil cylinder (8) as an axis to form a triangular structure to support the hydraulic oil cylinder (8), and two pipelines which are extended from the hydraulic oil cylinder are respectively connected to the two hydraulic oil cylinders (8) to realize synchronous lifting of the hydraulic oil cylinders; the left and right beams of the chassis of the carrying vehicle are fixed at the two ends of a hydraulic oil cylinder tripod (9) through fixing rings (7), the symmetry is arranged on the upper portions of the left beam (3) of the chassis and the right beam (4) of the chassis, the top of the hydraulic oil cylinder tripod (9) is connected with a clamping device through a rotating shaft (10), a lifting indicating scale (11) is arranged on the top end of the hydraulic oil cylinder tripod (9) in a manner of being tightly attached to the rotating shaft (10), and whether the high-voltage cabinet can be overturned and flatly placed or not can be confirmed by the height of the lifting of the control cabinet body.

3. The high voltage cabinet transport and assembly apparatus of claim 1, wherein:

the clamping device consists of a left clamping beam (12), a right clamping beam (13), a left inclined tension beam (14), a right inclined tension beam (15), a right-angle short beam (16), a fastening joint (17) and a right-angle long beam (18); the left inclined drawing beam (14) is symmetrical by taking a rotating shaft (10) in the middle of the left clamping beam (12) as a center to form a triangular structure, and the right inclined drawing beam (15) is symmetrical by taking the rotating shaft (10) in the middle of the right clamping beam (13) as a center to form a triangular structure; rectangular long beam (18) and rectangular short beam (16) one end fixed connection are terminal at the centre gripping roof beam, and the other end forms U type activity opening, through fastening festival (17) locking connection, when carrying out the high-voltage board transportation, unscrew fastening festival (17), lift off rectangular short beam (16) and rectangular long beam (18), remove this high-voltage board transportation and assembly quality near to the high-voltage board and centre gripping high-voltage board, installation rectangular short beam (16) and rectangular long beam (18) and fasten fastening festival (17), make the high-voltage board centre gripping fastening.

4. The high voltage cabinet transport and assembly apparatus of claim 1, wherein:

the bottom of the chassis of the carrying vehicle is also provided with universal wheels for free movement of the high-voltage cabinet conveying device.

5. The high voltage cabinet transport and assembly apparatus of claim 2, wherein:

the annular structure on the upper part of the fixing ring (7) provides a tying point for a rope for fixing the high-voltage cabinet, and the high-voltage cabinet is limited to shake in the carrying process.

6. The high voltage cabinet transport and assembly apparatus of claim 3, wherein:

the right-angle short beam (16) and the right-angle long beam (18) are prefabricated right-angle beams with different lengths so as to be suitable for transportation of high-voltage cabinets with different sizes.

7. The high voltage cabinet transport and assembly apparatus of claim 1, wherein:

the steering device is characterized in that a tool hanging point (23) is further arranged on a steering outer sleeve (20) of the steering device and used for hanging and placing a temporary tool.

8. The high voltage cabinet transport and assembly apparatus of claim 1, wherein:

after the high-voltage cabinet body is arranged at a designated position, the roller of a channel steel guide rail matched high-voltage cabinet conveying device with one end provided with a limit buckle (24) and the other end provided with an in-orbit slope (27) moves out or moves into the mounting base, a fixing clamp (25) is welded on the channel steel guide rail surface close to the limit buckle (24), and a movable clamp (26) is fixed on the guide rail surface close to the in-orbit slope (27) through a set screw, so that the high-voltage cabinet body is suitable for width adjustment of different high-voltage cabinet bodies.

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