CN116588662B

CN116588662B - Marble plate loading device for electric power infrastructure construction

Info

Publication number: CN116588662B
Application number: CN202310871999.6A
Authority: CN
Inventors: 马先秋; 王凡; 杨伟
Original assignee: SEPCO Electric Power Construction Co Ltd
Current assignee: SEPCO Electric Power Construction Co Ltd
Priority date: 2023-07-17
Filing date: 2023-07-17
Publication date: 2023-11-07
Anticipated expiration: 2043-07-17
Also published as: CN116588662A

Abstract

The invention discloses a marble plate loading device for electric power infrastructure construction, which comprises a transfer frame for bearing marble plate stacks, a pushing mechanism for pushing the marble plate stacks into the transfer frame which is horizontally arranged, a rotating mechanism for supporting the transfer frame and driving the transfer frame to rotate by 90 degrees, and a conveying mechanism for conveying the transferred transfer frame into a carriage; when the marble slab stacks are loaded, the marble slab stacks are pushed into the horizontal transfer frame through the pushing mechanism, then the transfer frame is driven by the rotating mechanism to rotate 90 degrees, the transfer frame is in a vertical state, and then the transfer frame is conveyed into the carriage through the conveying mechanism. The automatic lifting loading of the marble plates is realized, lifting is not needed, the safety is good, the automatic lifting of the marble plate stack is realized, the labor intensity is reduced, and the marble plates are prevented from being broken.

Description

Marble plate loading device for electric power infrastructure construction

Technical Field

The invention relates to the technical field of electric power infrastructure construction, in particular to a marble plate loading device for electric power infrastructure construction.

Background

Electric power is an important condition for national economy and social development, and the electrification degree is an important sign for measuring the modernization level of a region. The transformer substation is a place for converting voltage and current, receiving electric energy and distributing electric energy in the electric power system. The substation within the power plant is a step-up substation, which functions to step up the electrical energy generated by the generator and feed it into the high voltage grid. In the construction of substations, a large number of marble slabs are required to be used for paving the ground.

However, the handling of marble is made more difficult due to the brittle nature of marble. The existing marble carrying is to place a bracket in a carriage, and hoist and mount marble slabs on the bracket in a way of hoisting by a carrier. However, this method requires that the marble plates are stacked up and then bound by binding ropes before the marble plates can be lifted by a crane. However, the marble is easy to fall off during hoisting in the mode, the danger is high, meanwhile, the marble plates are stacked and erected manually, the labor intensity is high, and the marble plates are easy to break due to improper operation.

Disclosure of Invention

The invention aims to solve the problems and provide the marble plate loading device for the electric power infrastructure construction, which can realize automatic lifting loading of marble plates, does not need lifting, has good safety, simultaneously realizes automatic lifting of marble plate stacks, reduces labor intensity and prevents marble plates from being broken.

The technical scheme adopted for solving the technical problems is as follows:

the marble plate loading device for the electric power infrastructure construction comprises a transfer frame for carrying marble plate stacks, a pushing mechanism for pushing the marble plate stacks into the transfer frame which is horizontally arranged, a rotating mechanism for supporting the transfer frame and driving the transfer frame to rotate by 90 degrees, and a conveying mechanism for conveying the transferred transfer frame into a carriage;

the transfer frame comprises a frame, wherein a lifting plate which is lifted in the frame is arranged at the bottom of the frame, a plurality of first rollers are arranged on one side of the frame, a pressing rod for pressing the side face of the marble plate stack is arranged on the other side of the frame, pressing swing of the pressing rod is linked with lifting of the lifting plate, a fixed plate for positioning the end part of the marble plate stack is arranged at one end of the frame, a movable plate which is rotationally connected with the bottom of the frame is arranged at the other end of the frame, and rotation of the movable plate is linked with lifting of the lifting plate;

the rotary mechanism comprises a rotary plate, a driving mechanism for driving the rotary plate to rotate and a clamping mechanism arranged on the rotary plate and used for clamping the transport frame, a conveying belt used for outputting the transport frame is arranged between the clamping mechanisms on the rotary plate, round side plates are arranged on two sides of the rotary plate, openings are arranged at positions, corresponding to the transport frame, of the round side plates, and a transition mechanism used for completely pushing the transport frame to the conveying mechanism is arranged on the round side plates.

Further, guide rods are arranged at four corners of the bottom of the lifting plate, guide sleeves matched with the guide rods are arranged at the bottom of the frame, and compression springs are arranged between the middle position of the lifting plate and the bottom of the frame.

Further, the movable plate bottom is equipped with the horizontal pole, rotate between horizontal pole intermediate position and the frame and be connected, horizontal pole inboard one end is equipped with the second gyro wheel, the lifter plate bottom is equipped with second gyro wheel complex slide.

Further, the lower end of the pressure bar is provided with a swing bar, the lower end of the swing bar is rotationally connected with the frame, the lower end of the swing bar is provided with a diagonal bar which inclines upwards from outside to inside, the upper end of the diagonal bar is matched with the bottom of the lifting plate, and a first tension spring is arranged between the pressure bar and the frame.

Further, the clamping mechanism comprises clamping frames symmetrically arranged on two sides of the transfer frame, the clamping frames are in sliding connection with the rotating plate, and a first hydraulic cylinder for driving the clamping frames to move is arranged on the rotating plate.

Further, the transition mechanism comprises a transition cylinder arranged on the circular side plate, the transition cylinder is arranged below the opening, a first push plate is arranged at the piston rod end of the transition cylinder, a second push plate rotationally connected with the first push plate is arranged at the upper end of the first push plate, the inner side surface of the first push plate is connected with the inner side surface of the second push plate through a second extension spring, and a push rod matched with the second push plate is arranged at the bottom of the frame.

Further, pushing mechanism includes first supporting platform and sets up the propelling movement cylinder on first supporting platform, and propelling movement cylinder piston rod end is equipped with the third push pedal.

Further, the conveying mechanism comprises a fixed frame fixed on the ground and a movable frame arranged in the fixed frame and moving in the fixed frame, a second supporting platform sliding in the movable frame and used for supporting the transportation frame is arranged at the front end of the movable frame, a second hydraulic cylinder driving the second supporting platform to move back and forth is arranged in the movable frame, and a baffle is arranged at the front end of the movable frame.

Further, the device also comprises supporting mechanisms for supporting the front end of the movable frame in an auxiliary mode, and the supporting mechanisms are symmetrically arranged on two sides of the movable frame.

Further, the supporting mechanism comprises a base for fixing the ground, a vertical rod fixed on the base, and a supporting rod arranged in front of the vertical rod and connected with the base in a rotating mode, wherein the supporting rod inclines forwards, a third extension spring is arranged between the supporting rod and the vertical rod, and a supporting wheel in contact with the bottom of the movable frame is arranged at the upper end of the supporting rod.

The beneficial effects of the invention are as follows:

1. the invention comprises a transfer frame for bearing marble plate stacks, a pushing mechanism for pushing the marble plate stacks into the transfer frame which is horizontally arranged, a rotating mechanism for supporting the transfer frame and driving the transfer frame to rotate by 90 degrees, and a conveying mechanism for conveying the transferred transfer frame into a carriage; when the marble slab stacks are loaded, the marble slab stacks are pushed into the horizontal transfer frame through the pushing mechanism, then the transfer frame is driven by the rotating mechanism to rotate 90 degrees, the transfer frame is in a vertical state, and then the transfer frame is conveyed into the carriage through the conveying mechanism. The automatic lifting loading of the marble plates is realized, lifting is not needed, the safety is good, the automatic lifting of the marble plate stack is realized, the labor intensity is reduced, and the marble plates are prevented from being broken.

2. According to the invention, the cross rod is arranged at the bottom of the movable plate, the middle position of the cross rod is rotationally connected with the frame, the roller is arranged at one end of the inner side of the cross rod, the slideway matched with the roller is arranged at the bottom of the lifting plate, when the lifting plate is lifted, the movable plate swings under the action of the roller and the slideway, when the lifting plate is lifted, the movable plate is opened, when the lifting plate is lowered, the movable plate swings inwards to be matched with the fixed plate, the marble plate stack is clamped, the marble plate stack is prevented from falling off, and meanwhile, the cost is low and the reliability is good in a mechanical linkage mode.

3. The transition mechanism comprises a transition cylinder arranged on a circular side plate, the transition cylinder is arranged below an opening, a first push plate is arranged at the piston rod end of the transition cylinder, a second push plate which is rotationally connected with the first push plate is arranged at the upper end of the first push plate, the inner side surface of the first push plate is connected with the inner side surface of the second push plate through a second extension spring, and a push rod matched with the second push plate is arranged at the bottom of the frame. When the conveyer belt will transport the frame and carry conveying mechanism department, transport the frame and have part in the clearance department between conveyer belt and the conveying mechanism, transition cylinder piston rod stretches out this moment, continues forward propelling movement transport frame through the second push pedal, guarantees to transport the frame and enters into conveying mechanism completely on, and when transition cylinder piston rod was retrieved, the second push pedal can rotate can not produce the interference with transporting between the frame.

4. The support mechanism comprises a base for fixing the ground, a vertical rod fixed on the base, and a support rod arranged in front of the vertical rod and with the bottom rotationally connected with the base, wherein the support rod is inclined forwards, a third extension spring is arranged between the support rod and the vertical rod, and the upper end of the support rod is provided with a support wheel contacted with the bottom of the movable frame. When the movable frame moves forward, the movable frame can be contacted with the supporting wheels, and under the action of the third tension spring, the supporting wheels provide upward supporting force for the movable frame, so that the movable frame is supported in an auxiliary manner, the stress of the fixed frame is reduced, and the bearing capacity is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required to be used in the description of the embodiments or the prior art will be briefly described below, and it will be obvious to those skilled in the art that other drawings can be obtained from these drawings without inventive effort.

FIG. 1 is a schematic diagram of a first embodiment of the present invention;

FIG. 2 is a second schematic diagram of the structure of the present invention;

FIG. 3 is a schematic view of the structure of the rotating mechanism and the pushing mechanism of the present invention;

FIG. 4 is a schematic view of a rotary mechanism according to the present invention;

FIG. 5 is a top view of the rotary mechanism of the present invention;

FIG. 6 is a schematic view of a first embodiment of a transport frame according to the present invention;

FIG. 7 is a front view of the present invention;

fig. 8 is a schematic diagram of a second embodiment of a transport frame according to the present invention.

In the figure: the device comprises a transportation frame 1, a frame 2, a first roller 3, a compression rod 4, a fixed plate 5, a movable plate 6, a rotating plate 7, a conveying belt 8, an opening 9, a guide rod 10, a guide sleeve 11, a compression spring 12, a second roller 13, a slideway 14, a swinging rod 15, an inclined rod 16, a first tension spring 17, a clamping frame 18, a first hydraulic cylinder 19, a transition cylinder 20, a first push plate 21, a second push plate 22, a second tension spring 23, a push rod 24, a first support platform 25, a push cylinder 26, a third push plate 27, a fixed frame 28, a movable frame 29, a second support platform 30, a second hydraulic cylinder 31, a baffle 32, a base 33, a vertical rod 34, a support rod 35, a third tension spring 36, a support wheel 37 and a lifting plate 38.

Detailed Description

In order to make the technical solution of the present invention better understood by those skilled in the art, the technical solution 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 apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present invention without making any inventive effort, shall fall within the scope of the present invention.

As shown in fig. 1, a marble plate loading device for electric power infrastructure construction comprises a transfer frame 1 for carrying a marble plate stack, a pushing mechanism for pushing the marble plate stack into the horizontally arranged transfer frame 1, a rotating mechanism for supporting the transfer frame 1 and driving the transfer frame 1 to rotate by 90 degrees, and a conveying mechanism for conveying the transfer frame 1 in the positive direction into a carriage; when the marble slab stacks are loaded, the marble slab stacks are pushed into the horizontal transfer frame 1 through the pushing mechanism, then the transfer frame 1 is driven by the rotating mechanism to rotate 90 degrees, the transfer frame 1 is in a vertical state, and then the transfer frame 1 is conveyed into a carriage through the conveying mechanism. The automatic lifting loading of the marble plates is realized, lifting is not needed, the safety is good, the automatic lifting of the marble plate stack is realized, the labor intensity is reduced, and the marble plates are prevented from being broken.

As shown in fig. 6 to 8, the transferring rack 1 includes a frame 2, a lifting plate 38 lifting in the frame 2 is disposed at the bottom of the frame 2, a plurality of first rollers 3 are disposed at one side of the frame 2, a compression bar 4 for compressing the sides of the marble slab stack is disposed at the other side of the frame 2, the compression swing of the compression bar 4 is linked with the lifting of the lifting plate 38, a fixing plate 5 for positioning the end of the marble slab stack is disposed at one end of the frame 2, a cross bar is disposed at one end of the frame 2, the fixing plate 5 is fixed at the end of the cross bar, a movable plate 6 rotatably connected with the bottom of the frame 2 is disposed at the other end of the frame 2, and the rotation of the movable plate 6 is linked with the lifting of the lifting plate 38; after the marble plate stack is pushed to the frame 2, the frame 2 rotates to the vertical position, the lifting plate 38 moves downwards under the action of gravity of the marble plate stack, meanwhile, the pressing rod 4 swings inwards to press the side face of the marble plate stack, the movable plate 6 presses the end part of the marble plate stack, positioning of the marble plate stack is achieved, the marble plate stack is prevented from scattering in the transferring process, and the reliability is good. The first roller 3 can reduce friction between the marble slab stack and the frame 2.

As shown in fig. 3 to 5, the rotating mechanism comprises a rotating plate 7, a driving mechanism for driving the rotating plate 7 to rotate, and a clamping mechanism arranged on the rotating plate 7 and used for clamping the transport frame 1, a conveying belt 8 used for outputting the transport frame 1 is arranged between the clamping mechanisms on the rotating plate 7, grooves are arranged on the rotating plate 7, the conveying belt 8 is arranged in the grooves, round side plates are arranged on two sides of the rotating plate 7, openings 9 are arranged at positions, corresponding to the transport frame 1, on the round side plates, and a transition mechanism used for completely pushing the transport frame 1 to the conveying mechanism is arranged on the round side plates. The driving mechanism comprises a driving shaft arranged at the bottom, the driving shaft is distributed in a front-back symmetrical mode, supporting wheels matched with the round side plates are arranged on the driving shaft, clamping grooves matched with the round side plates are formed in the cylindrical surfaces of the supporting wheels, and the driving shaft is driven by a motor, so that rotation of the rotating plate 7 is achieved. The transfer frame 1 is clamped by the clamping mechanism, the marble slab stack is pushed into the transfer frame 1, then the rotating plate 7 rotates, the transfer frame 1 rotates to the vertical position, the clamping mechanism loosens the transfer frame 1, and the conveying belt 8 outputs the transfer frame 1.

As shown in fig. 7, guide rods 10 are arranged at four corners of the bottom of the lifting plate 38, guide sleeves 11 matched with the guide rods 10 are arranged at the bottom of the frame 2, and compression springs 12 are arranged between the middle position of the lifting plate 38 and the bottom of the frame 2. After the marble plate stack is placed in the frame 2, under the action of self gravity, the lifting plate 38 overcomes the elasticity of the compression spring and moves downwards, and after the marble plate stack is taken out, under the action of the elasticity of the compression spring, the lifting plate 38 is lifted, so that the next loading is facilitated.

As shown in fig. 8, the bottom of the movable plate 6 is provided with two cross bars, the two cross bars are symmetrically arranged, the middle position of each cross bar is rotationally connected with the frame 2, one end of the inner side of each cross bar is provided with a second roller 13, the bottom of the lifting plate 38 is provided with a slideway 14 matched with the second roller 13, when the lifting plate 38 is lifted, the movable plate 6 swings under the action of the second roller 13 and the slideway 14, when the lifting plate 38 is lifted, the movable plate 6 is opened, when the lifting plate 38 is lowered, the movable plate 6 swings inwards to be matched with the fixed plate 5, the marble slab stack is clamped, the marble slab stack is prevented from scattering, and meanwhile, the mechanical linkage mode is low in cost and good in reliability.

As shown in fig. 6 and 8, the lower end of the compression bar 4 is provided with a swing bar 15, the lower end of the swing bar 15 is rotationally connected with the frame 2, the lower end of the swing bar 15 is provided with a sleeve, the bottom of the frame 2 is provided with a rotating shaft matched with the sleeve, the lower end of the swing bar 15 is provided with an inclined bar 16 inclining upwards from outside to inside, the upper end of the inclined bar 16 is matched with the bottom of the lifting plate 38, the inclined bar 16 is arranged on the inner side of the sleeve, a first extension spring 17 is arranged between the compression bar 4 and the frame 2, the side surface of the frame 2 is provided with a cross beam, one end of the first extension spring 17 is connected with the cross beam, and the other end of the first extension spring 17 is connected with the compression bar 4.

As shown in fig. 4, the clamping mechanism comprises clamping frames 18 symmetrically arranged at two sides of the transportation frame 1, the clamping frames 18 are in sliding connection with the rotating plate 7, a sliding groove matched with the clamping frames 18 is formed in the rotating plate 7, a first hydraulic cylinder 19 for driving the clamping frames 18 to move is arranged on the rotating plate 7, a groove is formed in the rotating plate 7, and the first hydraulic cylinder 19 is located in the groove and does not interfere with movement of the clamping frames 18.

As shown in fig. 5, the transition mechanism includes a transition cylinder 20 disposed on the circular side plate, the transition cylinder 20 is disposed below the opening 9, a cylinder end of the transition cylinder 20 is fixed on the circular side plate, a piston rod end of the transition cylinder 20 is provided with a first push plate 21, a second push plate 22 rotationally connected with the first push plate 21 is disposed at an upper end of the first push plate 21, and a hinge point of the first push plate 21 and the second push plate 22 is located at an outer side, so that the second push plate 22 can only rotate outwards but cannot rotate inwards, an inner side surface of the first push plate 21 is connected with an inner side surface of the second push plate 22 through a second extension spring 23, and a push rod 24 matched with the second push plate 22 is disposed at a bottom of the frame 2. When the conveyor belt 8 conveys the transfer frame 1 to the conveying mechanism, the transfer frame 1 is partially arranged at a gap between the conveyor belt 8 and the conveying mechanism, at the moment, the piston rod of the transition cylinder 20 extends out, the transfer frame 1 is continuously pushed forward through the second push plate 22, the transfer frame 1 is ensured to be completely put on the conveying mechanism, and when the piston rod of the transition cylinder 20 is retracted, the second push plate 22 can rotate and cannot interfere with the transfer frame 1.

As shown in fig. 3, the pushing mechanism includes a first supporting platform 25 and a pushing cylinder 26 disposed on the first supporting platform 25, a third pushing plate 27 is disposed at a piston rod end of the pushing cylinder 26, firstly, the marble slab stack is placed on the first supporting platform 25, a piston rod of the pushing cylinder 26 extends out, and the marble slab stack is completely pushed into the frame by the third pushing plate 27.

As shown in fig. 2, the conveying mechanism includes a fixed frame 28 fixed on the ground and a moving frame 29 disposed in the fixed frame 28 and moving in the fixed frame 28, the fixed frame 28 is a rectangular frame, supporting wheels for supporting the moving frame 29 are disposed at four corners of the fixed frame 28, the supporting wheels are driven by motor belts, so as to realize movement of the moving frame 29, a second supporting platform 30 sliding in the moving frame 29 and used for supporting the transferring frame 1 is disposed at the front end of the moving frame 29, an opening is disposed at the front end of the moving frame 29, the second supporting platform 30 passes through the opening, supporting wheels are disposed at the upper and lower sides of the second supporting platform 30 at both sides of the opening, supporting wheels are also disposed in the moving frame 29 and used for supporting the second supporting platform 30, a second hydraulic cylinder 31 for driving the second supporting platform 30 to move back and forth is disposed in the moving frame 29, a cylinder body end of the second hydraulic cylinder 31 is fixed in the moving frame 29, a piston rod end of the second hydraulic cylinder 31 is connected with the second supporting platform 30, and a baffle 32 is disposed at the front end of the moving frame 29. The front end of the movable frame 29 goes deep into the carriage, after the transfer frame is conveyed in place, the second supporting platform 30 moves backwards, and under the action of the baffle 32, the transfer frame 1 falls into the carriage, so that loading of the transfer frame 1 is realized.

As shown in fig. 2, the device further comprises a supporting mechanism for supporting the front end of the movable frame 29 in an auxiliary manner, wherein the supporting mechanisms are symmetrically arranged at two sides of the movable frame 29. The supporting mechanism comprises a base 33 for fixing the ground, a vertical rod 34 fixed on the base 33, and a supporting rod 35 arranged in front of the vertical rod 34 and with the bottom rotationally connected with the base 33, wherein the supporting rod 35 is inclined forwards, a third extension spring 36 is arranged between the supporting rod 35 and the vertical rod 34, and a supporting wheel 37 contacted with the bottom of the movable frame 29 is arranged at the upper end of the supporting rod 35. When the movable frame 29 moves forward, the movable frame 29 will contact with the supporting wheel 37, and under the action of the third tension spring 36, the supporting wheel 37 provides upward supporting force for the movable frame 29, so as to support the movable frame 29 in an auxiliary manner, and reduce the stress of the fixed frame.

In describing the present invention, it should be noted that the azimuth or positional relationship indicated by the terms "left", "right", "upper", "lower", etc. are based on the azimuth or positional relationship shown in the drawings, and are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or element referred to must have a specific azimuth, be constructed and operated in a specific azimuth, and thus should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; the two components can be connected mechanically or electrically, can be connected directly or indirectly through an intermediate medium, and can be communicated inside the two components. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Claims

1. The marble plate loading device for the electric power infrastructure construction is characterized by comprising a transfer frame (1) for carrying marble plate stacks, a pushing mechanism for pushing the marble plate stacks into the transfer frame (1) horizontally arranged, a rotating mechanism for supporting the transfer frame (1) and driving the transfer frame (1) to rotate by 90 degrees, and a conveying mechanism for conveying the transferred transfer frame (1) into a carriage;

the transfer frame (1) comprises a frame (2), a lifting plate (38) which is lifted in the frame (2) is arranged at the bottom of the frame (2), a plurality of first rollers (3) are arranged on one side of the frame (2), a pressing rod (4) for pressing the side face of the marble plate stack is arranged on the other side of the frame (2), pressing swing of the pressing rod (4) is linked with lifting of the lifting plate (38), a fixed plate (5) for positioning the end part of the marble plate stack is arranged at one end of the frame (2), a movable plate (6) which is rotatably connected with the bottom of the frame (2) is arranged at the other end of the frame (2), and rotation of the movable plate (6) is linked with lifting of the lifting plate (38);

guide rods (10) are arranged at four corners of the bottom of the lifting plate (38), guide sleeves (11) matched with the guide rods (10) are arranged at the bottom of the frame (2), and compression springs (12) are arranged between the middle position of the lifting plate (38) and the bottom of the frame (2); a cross rod is arranged at the bottom of the movable plate (6), the middle position of the cross rod is rotationally connected with the frame (2), a second roller (13) is arranged at one end of the inner side of the cross rod, and a slideway (14) matched with the second roller (13) is arranged at the bottom of the lifting plate (38); the lower end of the pressing rod (4) is provided with a swinging rod (15), the lower end of the swinging rod (15) is rotationally connected with the frame (2), the lower end of the swinging rod (15) is provided with an inclined rod (16) which is inclined upwards from outside to inside, the upper end of the inclined rod (16) is matched with the bottom of the lifting plate (38), and a first extension spring (17) is arranged between the pressing rod (4) and the frame (2);

the rotary mechanism comprises a rotary plate (7), a driving mechanism for driving the rotary plate (7) to rotate and a clamping mechanism arranged on the rotary plate (7) and used for clamping the transport frame (1), a conveying belt (8) used for outputting the transport frame (1) is arranged between the clamping mechanisms on the rotary plate (7), round side plates are arranged on two sides of the rotary plate (7), openings (9) are arranged at positions, corresponding to the transport frame (1), on the round side plates, and a transition mechanism used for completely pushing the transport frame (1) to the conveying mechanism is arranged on the round side plates;

the clamping mechanism comprises clamping frames (18) symmetrically arranged on two sides of the transfer frame (1), the clamping frames (18) are in sliding connection with the rotating plate (7), and a first hydraulic cylinder (19) for driving the clamping frames (18) to move is arranged on the rotating plate (7); the transition mechanism comprises a transition cylinder (20) arranged on the circular side plate, the transition cylinder (20) is arranged below the opening (9), a first push plate (21) is arranged at the piston rod end of the transition cylinder (20), a second push plate (22) rotationally connected with the first push plate (21) is arranged at the upper end of the first push plate (21), the inner side surface of the first push plate (21) is connected with the inner side surface of the second push plate (22) through a second extension spring (23), and a push rod (24) matched with the second push plate (22) is arranged at the bottom of the frame (2); the pushing mechanism comprises a first supporting platform (25) and a pushing cylinder (26) arranged on the first supporting platform (25), and a third pushing plate (27) is arranged at the piston rod end of the pushing cylinder (26).

2. A marble slab loading device for electric power infrastructure construction as claimed in claim 1, characterized in that the conveying mechanism comprises a fixed frame (28) fixed on the ground and a movable frame (29) arranged in the fixed frame (28) and movable in the fixed frame (28), a second supporting platform (30) sliding in the movable frame (29) and used for supporting the transportation frame (1) is arranged at the front end of the movable frame (29), a second hydraulic cylinder (31) driving the second supporting platform (30) to move back and forth is arranged in the movable frame (29), and a baffle plate (32) is arranged at the front end of the movable frame (29).

3. A marble slab loading device for electric power infrastructure construction as defined in claim 2, further comprising supporting means for supporting the front end of the movable frame (29) in an auxiliary manner, the supporting means being symmetrically disposed on both sides of the movable frame (29).

4. A marble plate loading device for electric power infrastructure construction as defined in claim 3, characterized in that the supporting mechanism comprises a base (33) fixed on the ground, a vertical rod (34) fixed on the base (33), a supporting rod (35) arranged in front of the vertical rod (34) and the bottom of which is rotatably connected with the base (33), the supporting rod (35) is inclined forward, a third tension spring (36) is arranged between the supporting rod (35) and the vertical rod (34), and a supporting wheel (37) contacted with the bottom of the movable frame (29) is arranged at the upper end of the supporting rod (35).