CN117533381A - Electrical equipment handling device for constructional engineering - Google Patents

Abstract

The invention relates to the technical field of conveying, in particular to an electric equipment conveying device for constructional engineering. The automatic conveying device comprises a placing table plate, wherein a driving groove is formed in the top of the placing table plate, an auxiliary conveying mechanism is arranged in the driving groove and comprises a gathering driving assembly sliding in the driving groove, two azimuth adjusting and controlling assemblies are arranged at the top of the gathering driving assembly, and an attaching and clamping assembly is arranged at the end part of the azimuth adjusting and controlling assembly. According to the invention, the azimuth regulating and controlling assembly extends outwards, and meanwhile, the assembling driving assembly drives the two attaching and clamping assemblies to assemble and clamp the outer wall of the electrical equipment, and then the azimuth regulating and controlling assembly drives the attaching and clamping assemblies to be lifted to be right above the placing table plate, so that the auxiliary electrical equipment is placed on the placing table plate, time and labor are saved, the electrical equipment is limited by the attaching and clamping assemblies again, the safety in the transferring process is improved, meanwhile, the horizontal and vertical states of the attaching and clamping assemblies can be switched, and the size of the electrical equipment is adapted to clamping and fixing.

Description

Electrical equipment handling device for constructional engineering

Technical Field

The invention relates to the technical field of conveying, in particular to an electric equipment conveying device for constructional engineering.

Background

The construction engineering refers to an engineering entity formed by the construction of various house buildings and auxiliary facilities thereof and the installation activities of lines, pipelines and equipment matched with the construction engineering entity, when the construction engineering works, a plurality of electric equipment such as a switch cabinet, a motor and the like are needed, the equipment in actual use is also different according to the type of the construction, the functional requirements and the like, but most of the electric equipment has larger body size and heavier weight and is inconvenient to carry, workers are needed to be assisted by a carrying device, and the existing carrying device is mostly a trolley structure, but has the following defects:

firstly, the existing carrying device has a certain distance from the ground to the placing platform, so that the electric equipment needs to be lifted to the placing platform to move by means of the carrying device, time and labor are wasted, and if other lifting equipment is used, the cost of the building engineering is increased;

secondly, when electrical equipment is placed on a placement platform, jolt and shake are easy to occur in the transfer process along with pushing the carrying device to transfer, if the electrical equipment cannot be limited and fixed, the electrical equipment is easy to shake and fall, and safety is affected

In addition, when clamping electrical equipment or clamping limiting electrical equipment, the prior art is inconvenient to adjust the clamping range according to the size of the electrical equipment, and the auxiliary carrying range is affected.

Disclosure of Invention

The present invention is directed to an electrical equipment handling device for construction engineering, which solves the problems set forth in the background art.

In order to achieve the above object, the invention provides an electrical equipment handling device for construction engineering, comprising a placing bedplate, wherein a driving groove is arranged at the top of the placing bedplate, an auxiliary handling mechanism is arranged in the driving groove, the auxiliary handling mechanism comprises a gathering driving component sliding in the driving groove, two symmetrical azimuth regulating components are arranged at the top of the gathering driving component, a laminating clamping component is arranged at the end part of the azimuth regulating component, the laminating clamping component extends outwards through the azimuth regulating component, and the azimuth regulating component drives the laminating clamping component to be lifted to be right above the placing bedplate after the gathering driving component drives the two laminating clamping components to gather and clamp the outer wall of the electrical equipment, wherein:

the edge of the placing bedplate is provided with a supporting blocking mechanism, and the supporting blocking mechanism is used for keeping the placing bedplate to be supported stably when the attaching clamping assembly is lifted and limiting when auxiliary electrical equipment is transferred.

As a further improvement of the technical scheme, universal wheels are arranged at four corners of the bottom of the placing table plate, and push rods are arranged at the edges of the placing table plate far away from the supporting and blocking mechanism.

As a further improvement of this technical scheme, gather together drive assembly at least including rotating two symmetrical horizontal transmission lead screws inside the drive slot, two horizontal transmission lead screw outer wall screw thread sets up relatively, and both end to end, one of them horizontal transmission lead screw end connection has the motor output shaft, wherein:

the inside slip of drive groove is equipped with two symmetrical splint, splint lower extreme respectively with horizontal transmission lead screw outer wall screw thread fit connection.

As a further improvement of the technical scheme, the azimuth regulating and controlling assembly at least comprises a movable plate rotating at the end part of the clamping plate, a rotating shaft of the movable plate is connected with an output shaft of a movable motor, a shell of the movable motor is fixed on the surface of the clamping plate, and a connecting block is arranged at the end part of the movable plate, which is far away from the movable motor, in a rotating way.

As the further improvement of this technical scheme, laminating centre gripping subassembly includes laminating frame at least, laminating frame surface is seted up flutedly, the connecting block slides inside the recess, just inside being equipped with of recess is used for driving the gliding power component of connecting block, just laminating frame internal surface is equipped with a plurality of laminating sucking discs.

As a further improvement of the technical scheme, the power assembly comprises a longitudinal transmission screw rod rotating in the groove, the outer wall of the longitudinal transmission screw rod is in threaded fit connection with the surface of the connecting block, and the end part of the longitudinal transmission screw rod is connected with a driving motor output shaft.

As a further improvement of the technical scheme, the supporting and blocking mechanism at least comprises a rotating fork arranged on the front side of the placing bedplate, the end part of the rotating fork is movably connected with a rotating rod, the end part of the rotating rod is connected with a telescopic supporting component, and the telescopic supporting component is used for being vertically arranged at the front side edge of the placing bedplate along with the rotating rod.

As a further improvement of the technical scheme, the bottom of the rotary fork is rotationally provided with a threaded inserted link, the end threads of the threaded inserted link penetrate through the edge of the placing platen, and the lower end of the threaded inserted link is sharp.

As a further improvement of the technical scheme, the telescopic supporting component comprises an outer shell body fixed at the end part of the rotating rod, the inner cavities at the two ends of the outer shell body are respectively provided with a movable rod in a sliding mode, the movable rods are L-shaped, and one end of each movable rod extends out of the inner portion of the outer shell body and is fixedly connected with a base plate.

Compared with the prior art, the invention has the beneficial effects that:

1. in this electrical equipment handling device that building engineering used, drive laminating clamping assembly through azimuth regulation and control subassembly and extend to placing the platen outside to drive laminating clamping assembly downward movement, make the electrical equipment that waits to carry be located between two laminating clamping assemblies, under the drive of gathering together drive assembly, make two laminating clamping assemblies gather together centre gripping electrical equipment, then, drive electrical equipment through azimuth regulation and control subassembly again and remove to placing the platen directly over along with laminating clamping assembly, auxiliary electrical equipment is placed on placing the platen, is favorable to follow-up to place the platen and transports, labour saving and time saving, convenient transport electrical equipment.

2. In the electrical equipment carrying device for the construction engineering, after the electrical equipment is placed at the top of the placing bedplate, the attaching clamping assembly is used as a clamping limiting mechanism to move on the placing bedplate, so that the electrical equipment is clamped and limited in the transferring process, meanwhile, the supporting blocking mechanism is blocked at the front side of the placing bedplate, the electrical equipment is limited again, and the safety in the transferring process is improved;

and when not needing centre gripping electrical equipment, can drive laminating clamping assembly through the position regulation and control subassembly and fold at placing the platen top, save occupation space.

3. In this electrical equipment handling device that building engineering used, not only can change laminating clamping assembly's position, height through the position regulation and control subassembly, make its position that adapts to electrical equipment carry out the lifting, and can also switch laminating clamping assembly level, vertical state, when the horizontality, can the thicker electrical equipment of centre gripping, when vertical state, can the higher electrical equipment of centre gripping, improve the application range of centre gripping.

4. In the electrical equipment carrying device for the construction engineering, the end parts of the movable rods slide in the outer shell, so that the distance between the two movable rods is changed, the width of electrical equipment is favorably adapted, the limiting range is changed, and the application range is improved;

meanwhile, when the electric equipment is clamped by the laminating frame through the setting of the base plate, the base plate is just located under the laminating frame, the laminating frame can be supported, the stability of the laminating frame in a horizontal clamping state is improved, in addition, when the movable rod inclines to guide the electric equipment, the base plate contacts the ground or the platform to increase friction resistance, and the inclined stability is improved.

Drawings

FIG. 1 is a schematic elevation view of the overall structure of the present invention;

FIG. 2 is a schematic illustration of the overall structure of the present invention;

FIG. 3 is a schematic diagram illustrating overall structure limitation of the present invention;

FIG. 4 is a schematic view of the assembly of the placement platen and support blocking mechanism of the present invention;

FIG. 5 is a schematic view of an auxiliary carrying mechanism according to the present invention;

FIG. 6 is a schematic view of a conformable clamp assembly according to the present invention;

FIG. 7 is a schematic view of a support blocking mechanism according to the present invention;

fig. 8 is a schematic diagram of the structure of fig. 4 a according to the present invention.

The meaning of each reference sign in the figure is:

100. placing a bedplate;

110. a driving groove; 120. a universal wheel; 130. a push rod;

200. an auxiliary carrying mechanism;

210. gathering the driving component; 211. a clamping plate; 212. a screw rod is transversely driven;

220. an azimuth control assembly; 221. a movable plate; 222. a movable motor; 223. a connecting block;

230. attaching the clamping assembly; 231. a laminating frame; 232. attaching a sucker; 233. longitudinally driving a screw rod; 2330. a driving motor;

300. a support blocking mechanism;

310. a rotating fork; 311. a rotating rod;

320. a telescoping support assembly; 321. an outer housing; 322. a movable rod; 323. a backing plate;

330. a threaded spigot.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

Referring to fig. 1-8, the embodiment provides an electrical equipment handling device for construction engineering, including a placing platen 100, a driving slot 110 is provided at the top of the placing platen 100, an auxiliary handling mechanism 200 is provided in the driving slot 110, the auxiliary handling mechanism 200 includes a gathering driving component 210 sliding in the driving slot 110, two symmetrical azimuth adjusting components 220 are provided at the top of the gathering driving component 210, an attaching clamping component 230 is provided at the end of the azimuth adjusting component 220, the attaching clamping component 230 extends outwards through the azimuth adjusting component 220, and after the gathering driving component 210 drives the two attaching clamping components 230 to gather and clamp the outer wall of the electrical equipment, the azimuth adjusting component 220 drives the attaching clamping component 230 to be lifted right above the placing platen 100, wherein:

the edge of the placing platen 100 is provided with a supporting blocking mechanism 300, and the supporting blocking mechanism 300 is used for keeping the placing platen 100 stably supported when the fitting clamping assembly 230 is lifted and limiting when auxiliary electrical equipment is transferred.

As shown in fig. 1-3, in consideration of the fact that a distance is kept between a placement platform of the existing handling device and the ground, electric equipment needs to be lifted to the placement platform to move by means of the handling device, time and labor are wasted, if other lifting equipment is used, the cost of construction engineering is increased, therefore, the attaching clamping assembly 230 is driven by the azimuth adjusting assembly 220 to extend to the outer side of the placement platen 100, the attaching clamping assembly 230 is driven to move downwards, the electric equipment to be handled is located between the two attaching clamping assemblies 230, the two attaching clamping assemblies 230 are gathered to clamp the electric equipment under the driving of the gathering driving assembly 210, then the electric equipment is driven by the azimuth adjusting assembly 220 again to move to the position right above the placement platen 100 along with the attaching clamping assembly 230, the auxiliary electric equipment is placed on the placement platen 100, so that the following transportation of the placement platen 100 is facilitated, time and labor are saved, and the electric equipment is convenient to handle;

when the electrical equipment is placed on the placing platform, jolt and shake are easy to occur in the transferring process along with pushing the carrying device to transfer, if the electrical equipment cannot be limited and fixed, the electrical equipment is easy to shake and drop, and safety is affected, therefore, after the electrical equipment is placed on the top of the placing platen 100, the attaching clamping assembly 230 is enabled to serve as a clamping limiting mechanism to move on the placing platen 100, clamping and limiting are performed in the transferring process of the electrical equipment, meanwhile, the supporting blocking mechanism 300 is blocked on the front side of the placing platen 100, limiting is performed on the electrical equipment again, and safety in the transferring process is improved;

in addition, when the electric equipment is not required to be clamped, the attaching and clamping assembly 230 can be driven to be folded at the top of the placing platen 100 through the azimuth adjusting and controlling assembly 220, so that the occupied space is saved;

when holding electrical equipment or the spacing electrical equipment of centre gripping, prior art is inconvenient according to the scope of electrical equipment's size adjustment centre gripping, influences the scope of supplementary transport, consequently, not only can change laminating clamping assembly 230's position, height through position regulation and control subassembly 220, make its position that adapts to electrical equipment carry out the lifting, and can also switch laminating clamping assembly 230 level, vertical state, when the horizontal state, can the thicker electrical equipment of centre gripping, when vertical state, can the higher electrical equipment of centre gripping, improve the application range of centre gripping.

Based on the above, specific structures need to be disclosed in detail:

firstly, when the electrical equipment is placed on the placing table 100, the electrical equipment can be assisted to be transferred from one position to another position more conveniently, the carrying effect is improved, as shown in fig. 4, universal wheels 120 are arranged at four corners of the bottom of the placing table 100, push rods 130 are arranged at the edges of the placing table 100 far away from the supporting and blocking mechanism 300, workers can hold the push rods 130 to push, the universal wheels 120 roll on the ground, so that the placing table 100 is moved, the electrical equipment for assisting the construction engineering is transferred more conveniently, and the structural integrity is ensured.

Then, to achieve that the gathering driving assembly 210 can drive the azimuth adjusting assembly 220 and the attaching and clamping assembly 230 to gather inwards, so as to meet the stability of clamping the electrical equipment, please refer to fig. 5, further disclose the structure of the gathering driving assembly 210 is needed, so that the gathering driving assembly 210 at least comprises two symmetrical transverse transmission screw rods 212 rotating inside the driving groove 110, the outer wall threads of the two transverse transmission screw rods 212 are oppositely arranged, and the two transverse transmission screw rods are connected end to end, wherein the end part of one transverse transmission screw rod 212 is connected with a motor output shaft, and the two transverse transmission screw rods are connected with each other through screws, wherein:

the driving groove 110 is internally provided with two symmetrical clamping plates 211 in a sliding manner, the lower ends of the clamping plates 211 are respectively connected with the outer walls of the transverse transmission screw rods 212 in a threaded fit manner, in addition, the motor housing is embedded in the driving groove 110, and the motor output shaft drives the two transverse transmission screw rods 212 to coaxially rotate, so that the lower ends of the clamping plates 211 relatively move along the threads of the outer walls of the two transverse transmission screw rods 212, and gathering and diffusion between the two clamping plates 211 are realized.

It should be noted that, to realize that the azimuth adjusting and controlling component 220 can drive the attaching and clamping component 230 to change the clamping position and height, referring to fig. 5 again, the structure of the azimuth adjusting and controlling component 220 is further disclosed, such that the azimuth adjusting and controlling component 220 at least includes a movable plate 221 rotating at the end of the clamping plate 211, an output shaft of the movable motor 222 is connected to a rotating shaft of the movable plate 221, a housing of the movable motor 222 is fixed on the surface of the clamping plate 211, and an end of the movable plate 221 far away from the movable motor 222 is rotationally provided with a connecting block 223, so that the movable motor 222 is powered on to work, and the output shaft of the movable motor 222 drives the movable plate 221 to rotate, thereby driving the connecting block 223 at the end of the movable plate 221 to change the height and position, so as to realize the attaching and clamping component 230 to change the height and position.

Specifically, as shown in fig. 6, the attaching and clamping assembly 230 is further disclosed, so that the attaching and clamping assembly 230 at least includes an attaching frame 231, a groove is formed on an outer surface of the attaching frame 231, the connecting block 223 slides in the groove, a power assembly for driving the connecting block 223 to slide is arranged in the groove, and a plurality of attaching suckers 232 are arranged on an inner surface of the attaching frame 231;

when the clamping position and the clamping height are changed, the movable plate 221 rotates to enable the movable plate 221 to drive the laminating frame 231 to rotate to the front side of the placing table plate 100, so that the laminating frame 231 is separated from the place table plate 100, meanwhile, the connecting blocks 223 can slide in the grooves to enable the laminating frame 231 to be far away from the place table plate 100, and the electric equipment can be more accurately ensured to be positioned between the two laminating frames 231, in the rotating process of the movable plate 221, the height of the laminating frame 231 can be changed, the electric equipment is convenient to adapt to the height of the electric equipment, then the two opposite laminating frames 231 are inwards gathered along with the clamping plates 211, the two opposite laminating frames 231 are driven to be inwards gathered until the laminating sucking discs 232 are pressed on the surface of the electric equipment under the force, and air in the laminating sucking discs 232 is extruded, so that the laminating sucking discs 232 are adsorbed on the outer walls of the electric equipment, and the fixing effect is improved; finally, the movable plate 221 reversely rotates again to drive the laminating frame 231 to rotate above the placing platen 100, so that when the bottom of the electrical equipment is level with the placing platen 100, the rotation of the movable plate 221 is stopped, if the whole electrical equipment is not completely located right above the placing platen 100, the power assembly is required to drive the connecting block 223 to slide in the groove, and the opposite driving laminating frame 231 moves towards the inner cavity of the placing platen 100 until the electrical equipment is supported at the top of the placing platen 100, and the lifting task is completed;

as the electric equipment is supported by the placing platen 100 for transferring, the attaching frame 231 can be kept in an inward gathering state, and the electric equipment is always clamped and limited, so that the stability in the transferring process is improved;

meanwhile, when higher electrical equipment is clamped, if the laminating frame 231 can only contact the shorter range of the electrical equipment, the clamping stability is poor, therefore, the laminating frame 231 can be rotated to rotate at the end part of the movable plate 221 through the movable connection between the connecting block 223 and the end part of the movable plate 221, the laminating frame 231 is switched to be in a vertical state, the clamping operation on the higher electrical equipment is facilitated, the clamping range is enlarged, and the clamping stability is improved.

And, to realize that connecting block 223 slides more stably convenient in the recess, be favorable to driving electrical equipment and change the position, need further disclose power pack, make power pack including rotating at the inside vertical transmission lead screw 233 of recess, vertical transmission lead screw 233 outer wall and connecting block 223 surface screw thread fit are connected, and vertical transmission lead screw 233 end connection has driving motor 2330 output shaft, put through driving motor 2330 power, make its work, it rotates to drive vertical transmission lead screw 233 by driving motor 2330 output shaft, make connecting block 223 slide along the outer wall of vertical transmission lead screw 233, thereby make the position change between position regulation and control subassembly 220 and the laminating centre gripping subassembly 230 more stable.

Example 2:

to realize that the supporting and blocking mechanism 300 can limit the front side of the electrical equipment when the electrical equipment is placed on the top of the placing platen 100, so as to avoid horizontal sliding in the transferring process, and stabilize the placing platen 100 when the electrical equipment is lifted to the top of the placing platen 100, please refer to fig. 7-8, the structure of the supporting and blocking mechanism 300 needs to be further disclosed, so that the supporting and blocking mechanism 300 at least comprises a rotating fork 310 arranged on the front side of the placing platen 100, the end part of the rotating fork 310 is movably connected with a rotating rod 311, the end part of the rotating rod 311 is connected with a telescopic supporting component 320, the telescopic supporting component 320 is used for vertically arranging at the front side edge of the placing platen 100 along with the rotating rod 311, so that the rotating rod 311 rotates inside the rotating fork 310, and can block the front side edge of the placing platen 100 when the telescopic supporting component 320 is driven to rotate to a vertical state, so as to avoid sliding of the electrical equipment;

the telescopic supporting assembly 320 can be driven to rotate to incline outwards, an inclined supporting structure is formed, so that electrical equipment can slide into the top of the electrical equipment along the telescopic supporting assembly 320, the situation that the placing bedplate 100 is relatively high from the ground is avoided, the electrical equipment is not convenient to carry, and when manual carrying is realized, the electrical equipment can slide into the top of the placing bedplate 100 along the telescopic supporting assembly 320, so that the labor intensity is saved.

Then, when lifting electrical equipment, the front end of the placing platen 100 is subjected to downward gravity force to be larger, so that the placing platen 100 is easy to topple over, therefore, the threaded insert rod 330 is rotationally arranged at the bottom of the rotating fork 310, the end threads of the threaded insert rod 330 penetrate through the edge of the placing platen 100, the lower end of the threaded insert rod 330 is in a sharp shape, the threaded insert rod 330 moves up and down along the surface of the placing platen 100 by screwing the rotating fork 310, and the threaded insert rod 330 can be inserted into the ground to be fixed, so that the fixing strength of the placing platen 100 is improved.

Specifically, the telescopic support assembly 320 includes a casing 321 fixed at the end of the rotating rod 311, the inner cavities at two ends of the casing 321 are both slidably provided with movable rods 322, the movable rods 322 are L-shaped, one end of each movable rod extends out of the casing 321 and is fixedly connected with a pad 323, the end of each movable rod 322 slides in the casing 321, the distance between the two movable rods 322 is changed, the width of the electrical equipment is favorably adapted, the limiting range is changed, and the application range is improved;

meanwhile, when the electric equipment is clamped by the laminating frame 231 through the setting of the base plate 323, the base plate 323 is just located under the laminating frame 231, the laminating frame 231 can be supported, the stability of the horizontal clamping state of the laminating frame 231 is improved, in addition, when the movable rod 322 inclines to guide the electric equipment, the base plate 323 contacts the ground or a platform to increase friction resistance, and the inclined stability is improved.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. An electrical equipment handling device for construction engineering, comprising a placement platen (100), characterized in that: the utility model provides a place platen (100) top has seted up drive slot (110), drive slot (110) inside is equipped with supplementary transport mechanism (200), supplementary transport mechanism (200) are including sliding gathering together drive assembly (210) in drive slot (110), gather together drive assembly (210) top and be equipped with two symmetrical position regulation and control assemblies (220), position regulation and control assembly (220) tip is equipped with laminating clamping assembly (230), outwards extends through position regulation and control assembly (220), gathers together drive assembly (210) simultaneously and drive two laminating clamping assembly (230) and gather together behind the clamping electrical equipment outer wall, position regulation and control assembly (220) drive laminating clamping assembly (230) and raise to place platen (100), wherein:

the edge of the placing bedplate (100) is provided with a supporting blocking mechanism (300), and the supporting blocking mechanism (300) is used for keeping the placing bedplate (100) stably supported when the attaching clamping assembly (230) is lifted and limiting when auxiliary electrical equipment is transferred.

2. The electrical equipment handling apparatus for construction work according to claim 1, wherein: the four corners of the bottom of the placing bedplate (100) are respectively provided with universal wheels (120), and the edge of the placing bedplate (100) far away from the supporting and blocking mechanism (300) is provided with a push rod (130).

3. The electrical equipment handling apparatus for construction work according to claim 2, wherein: the gathering driving assembly (210) at least comprises two symmetrical transverse transmission screw rods (212) rotating in the driving groove (110), the two transverse transmission screw rods (212) are oppositely arranged through outer wall threads, and are connected end to end, one end part of each transverse transmission screw rod (212) is connected with a motor output shaft, and the motor output shaft is formed by connecting the two ends of each transverse transmission screw rod with each other, wherein:

two symmetrical clamping plates (211) are slidably arranged in the driving groove (110), and the lower ends of the clamping plates (211) are respectively connected with the outer wall of the transverse transmission screw rod (212) in a threaded fit manner.

4. The electrical equipment handling apparatus for construction work according to claim 3, wherein: the azimuth regulating assembly (220) at least comprises a movable plate (221) rotating at the end part of the clamping plate (211), an output shaft of a movable motor (222) is connected to a rotating shaft of the movable plate (221), a shell of the movable motor (222) is fixed on the surface of the clamping plate (211), and a connecting block (223) is arranged at the end part of the movable plate (221) far away from the movable motor (222) in a rotating mode.

5. The electrical equipment handling apparatus for construction work according to claim 4, wherein: laminating centre gripping subassembly (230) is at least including laminating frame (231), laminating frame (231) surface is seted up flutedly, connecting block (223) are slided inside the recess, just inside being equipped with of recess is used for driving connecting block (223) gliding power pack, just laminating frame (231) internal surface is equipped with a plurality of laminating sucking discs (232).

6. The electrical equipment handling apparatus for construction work according to claim 5, wherein: the power assembly comprises a longitudinal transmission screw rod (233) rotating in the groove, the outer wall of the longitudinal transmission screw rod (233) is in threaded fit connection with the surface of the connecting block (223), and the end part of the longitudinal transmission screw rod (233) is connected with a driving motor (2330) output shaft.

7. The electrical equipment handling apparatus for construction work according to claim 5, wherein: the supporting blocking mechanism (300) at least comprises a rotating fork (310) arranged on the front side of the placing bedplate (100) in a protruding mode, a rotating rod (311) is movably connected to the end portion of the rotating fork (310), a telescopic supporting component (320) is connected to the end portion of the rotating rod (311), and the telescopic supporting component (320) is used for being vertically arranged at the front side edge of the placing bedplate (100) along with the rotating rod (311).

8. The electrical equipment handling apparatus for construction work according to claim 7, wherein: the bottom of the rotating fork (310) is rotatably provided with a threaded inserted rod (330), the end threads of the threaded inserted rod (330) penetrate through the edge of the placing bedplate (100), and the lower end of the threaded inserted rod (330) is sharp.

9. The electrical equipment handling apparatus for construction work according to claim 8, wherein: the telescopic support assembly (320) comprises an outer shell (321) fixed at the end part of the rotating rod (311), movable rods (322) are slidably arranged in inner cavities at two ends of the outer shell (321), the movable rods (322) are L-shaped, and one ends of the movable rods extend out of the inner parts of the outer shell (321) and are fixedly connected with backing plates (323).