CN113581774A

CN113581774A - A rail transport device for mud flat photovoltaic construction

Info

Publication number: CN113581774A
Application number: CN202110857611.8A
Authority: CN
Inventors: 陈卢兵; 刘升浩; 范祖勤
Original assignee: Zhongneng Zhongcheng Zhejiang New Energy Technology Co ltd
Current assignee: Zhongneng Zhongcheng Zhejiang New Energy Technology Co ltd
Priority date: 2021-07-28
Filing date: 2021-07-28
Publication date: 2021-11-02

Abstract

The invention provides a rail transportation device for mudflat photovoltaic construction, which comprises a bottom plate, wherein the bottom of the bottom plate is fixedly provided with rail wheels, the bottom plate is symmetrically and fixedly provided with a support plate, two transmission belts are respectively and symmetrically and fixedly provided with a plurality of mounting blocks, and a sucker is fixedly inserted on each support plate, time and labor are saved, and the working efficiency is improved.

Description

A rail transport device for mud flat photovoltaic construction

Technical Field

The invention relates to the technical field of rail transportation, in particular to a rail transportation device for mudflat photovoltaic construction.

Background

In recent years, with increasingly prominent environmental problems, the green development concept is gradually deepened, the development direction of global economy and navigation beacons are turned to low-carbon economy, and the solar photovoltaic industry is emphasized by countries all over the world. Meanwhile, according to the construction planning of the national photovoltaic industry, the construction work of the photovoltaic power station is developed on the wasteland with extremely low utilization rate such as a mudflat by utilizing a large area, and the construction work of the photovoltaic power station is carried out on the mudflat, so that the transportation problem of the photovoltaic module is required to be solved.

The utility model provides a photovoltaic board mobile device of convenient transportation that utility model is CN206691166U, it is through seting up the photovoltaic board recess of equidimension not on photovoltaic board group settles the cell body, make it carry to the photovoltaic board of equidimension not, and install the guide rail on putting the thing board, two tracks can more stably support photovoltaic board group and settle the cell body, and all be provided with two pulleys on every track and can further stabilize photovoltaic board group and settle the cell body and move on the track, the buffer layer has all been laid to the cell wall of every photovoltaic board recess, the buckle and the checkpost that its set up have further stabilized the stability that photovoltaic board group settled the cell body.

However, the above device still has the following obvious defects in the using process:

above-mentioned the device is in the use, and when its less photovoltaic board of transportation, the buckle that its set up then can not be fine with the checkpost firm, it probably can make the photovoltaic board receive vibrations and lead to the damage in the transportation, and buckle and checkpost settle the cell body with photovoltaic board group when fixed for it is loaded down with trivial details operation when carrying or carrying the photovoltaic board down from the device up the device, wastes time and energy, and is inefficient.

Disclosure of Invention

The invention aims to provide a rail transportation device for mudflat photovoltaic construction, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a rail transportation device for mudflat photovoltaic construction comprises a bottom plate, wherein rail wheels are fixedly arranged at the bottom of the bottom plate;

the bottom plate is symmetrically and fixedly provided with a supporting plate, the supporting plate is provided with a first mounting groove and a second mounting groove, rotating shafts are inserted into the inner side walls of the first mounting groove and the second mounting groove in a rotating manner, rotating wheels are fixedly sleeved on the rotating shafts, a first driving motor is fixedly arranged on the inner side wall of the first mounting groove, the output end of the first driving motor is connected with the corresponding rotating shaft, a second driving motor is fixedly arranged on the inner side wall of the second mounting groove, the output end of the second driving motor is connected with the corresponding rotating shaft, a driving belt is meshed with the rotating wheels, and a strip-shaped groove is formed in the driving belt;

an upper cavity and a lower cavity are respectively formed in one side, close to each other, of each of the two supporting plates, an upper baffle is movably inserted into the upper cavity, the upper baffle is connected with the inner wall of the upper cavity through a first extrusion spring, a first starting switch is fixedly arranged on the inner wall of the upper cavity, the first starting switch is movably contacted with the upper baffle, the first starting switch is electrically connected with a first driving motor, a lower baffle is movably inserted into the lower cavity, the lower baffle is connected with the inner wall of the lower cavity through a second extrusion spring, a second starting switch is fixedly arranged on the inner wall of the lower cavity, the second starting switch is movably contacted with the lower baffle, and the second starting switch is electrically connected with a second driving motor;

a plurality of mounting blocks are symmetrically and fixedly arranged on the two transmission belts respectively, a first sealing groove and a second sealing groove are formed in each mounting block, a U-shaped switch is movably inserted in the first sealing groove, an extrusion switch is movably inserted in the second sealing groove, a vent pipe is arranged in each mounting block, one end of each vent pipe is communicated with the first sealing groove and the second sealing groove respectively, a step groove is formed in each mounting block, a supporting plate is movably arranged in each step groove, a folding air bag is fixedly connected between each supporting plate and the bottom wall of each step groove, one end, far away from the first sealing groove or the second sealing groove, of each vent pipe is communicated with the corresponding folding air bag, and each supporting plate is connected with the bottom wall of each step groove through a compression spring;

the improved vacuum pump is characterized in that a sucker is fixedly inserted on the supporting plate, a diaphragm is arranged in the sucker, the space in the sucker is divided into an inner cavity and an outer cavity by the diaphragm, a sliding block is movably arranged in the inner cavity, the diaphragm is connected with the sliding block through a pull rod, the sliding block is connected with the bottom wall of the inner cavity through a third extrusion spring, a pull rope is fixedly connected to the bottom of the sliding block, one end, far away from the sliding block, of the pull rope movably penetrates through the bottom of the sucker and extends outwards, and one end, far away from the sliding block, of the pull rope penetrates through an air duct to be connected with an extrusion switch.

Preferably, two limiting grooves are formed in the mounting block and are communicated with the first sealing groove and the second sealing groove respectively, limiting blocks are fixedly arranged on the U-shaped switch and the extrusion switch respectively, and the limiting blocks are movably arranged in the limiting grooves.

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

when the device is used, a plurality of mounting blocks are arranged on the transmission belt at equal intervals, the mounting blocks are provided with the supporting plate, a compression spring and a folding air bag are arranged between the supporting plate and the mounting blocks, the photovoltaic assembly is placed on the supporting plate, so that the outer cavity on the suction disc is contacted with the photovoltaic assembly to form a closed space, when the suction disc and the supporting plate move downwards together, the supporting plate downwards presses the folding air bag, gas in the folding air bag enters the first sealing groove and the second sealing groove through the vent pipeline, the air pressure in the first sealing groove and the second sealing groove is increased, so that the U-shaped switch and the pressing switch move outwards under the extrusion of the air pressure, when the pressing switch moves close to the lower baffle plate, the pressing switch moves through pulling the pull rope, so that the slide block is pulled downwards by the pull rope, the slide block protrudes towards one side of the inner cavity through pulling the pull rod diaphragm, so that the space of the outer cavity is increased, pressure diminishes, the sucking disc can adsorb fixed photovoltaic module, make photovoltaic module can not break away from the transport vechicle in the transportation, and placed a photovoltaic module on each layer board, make photovoltaic module place in layers, can avoid wearing and tearing between the photovoltaic module, it can play the cushioning effect to be provided with compression spring between layer board and the installation piece, and place photovoltaic module on the layer board after the installation piece can follow the drive belt and descend, can rotate another installation piece to baffle top down simultaneously, place photovoltaic module again, this process only needs to place photovoltaic module in same position, time saving and labor saving, and the work efficiency is improved.

Drawings

FIG. 1 is a schematic front sectional view of the overall structure (mounting block moved downward) of the present invention;

FIG. 2 is an enlarged view of the area B of FIG. 1 according to the present invention;

FIG. 3 is an enlarged view of area C of FIG. 2 according to the present invention;

FIG. 4 is an enlarged view of the area D of FIG. 3 according to the present invention;

FIG. 5 is a schematic front sectional view of the overall structure (mounting block moved up) of the present invention;

FIG. 6 is an enlarged view of area E of FIG. 5 according to the present invention;

fig. 7 is a side view of the overall structure of the present invention.

In the figure: the photovoltaic module comprises a base plate 1, a track wheel 2, a support plate 3, a first mounting groove 4, a second mounting groove 5, a rotating shaft 6, a rotating wheel 7, a first driving motor 8, a second driving motor 9, a driving belt 10, a strip-shaped groove 11, an upper cavity 12, a lower cavity 13, an upper baffle 14, a first extrusion spring 15, a first starting switch 16, a lower baffle 17, a second extrusion spring 18, a second starting switch 19, a mounting block 20, a first sealing groove 21, a second sealing groove 22, a U-shaped switch 23, an extrusion switch 24, a vent pipeline 25, a step groove 26, a supporting plate 27, a folding airbag 28, a compression spring 29, a suction cup 30, a diaphragm 31, an inner cavity 32, an outer cavity 33, a sliding block 34, a pull rod 35, a third extrusion spring 36, a pull rope 37, a limiting groove 38, a limiting block 39 and a photovoltaic module A.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 7, the present invention provides a technical solution:

the utility model provides a rail transport device for mud flat photovoltaic construction, includes bottom plate 1, and bottom plate 1 is the bearing plate, and 1 bottom of bottom plate is fixed and is provided with

rail wheel

2, and 4 rail wheels are installed to 1 bottom of bottom plate for supporting baseplate 1 moves on the track.

The bottom plate 1 is symmetrically and fixedly provided with a supporting plate 3, the supporting plate 3 is provided with a first mounting groove 4 and a second mounting groove 5, the first mounting groove 4 and the second mounting groove 5 are arranged at the upper end and the lower end of the supporting plate 3, the inner side walls of the first mounting groove 4 and the second mounting groove 5 are both rotatably inserted with a rotating shaft 6, the rotating shaft 6 is fixedly sleeved with a rotating wheel 7, the rotating wheel 7 is driven to rotate in the same direction when the rotating shaft 6 rotates, the inner side wall of the first mounting groove 4 is fixedly provided with a first driving motor 8, the output end of the first driving motor 8 is connected with the corresponding rotating shaft 6, after the first driving motor 8 is started, the output end of the first driving motor drives the corresponding rotating shaft 6 to rotate together, the inner side wall of the second mounting groove 5 is fixedly provided with a second driving motor 9, the output end of the second driving motor 9 is connected with the corresponding rotating shaft 6, after the second driving motor 9 is started, the output end of the corresponding rotating shaft 6 rotates together, and when first driving motor 8 during operation, second driving motor 9 is out of work, when second driving motor 9 during operation, first driving motor 8 is out of work, when first driving motor 8 or second driving motor 9 during operation, its pivot 6 that drives is because of being blockked when not rotating, then first driving motor 8 or second driving motor 9 then stop work, the meshing is provided with drive belt 10 on the runner 7, drive belt 10 when runner 7 rotates together, and runner 7 needs the more than two just can drive belt 10 and normally work, strip groove 11 has been seted up on drive belt 10, strip groove 11 is used for avoiding installing the structure on backup pad 3, and when drive belt 10 rotates, the structure of installation can not blockked by drive belt 10 on the backup pad 3.

An upper cavity 12 and a lower cavity 13 are respectively arranged on one side, close to each other, of each of the two support plates 3, the upper cavity 12 and the lower cavity 13 are arranged close to the top of each support plate 3, an upper baffle plate 14 is movably inserted in each upper cavity 12, each upper baffle plate 14 can reciprocate in each upper cavity 12, each upper baffle plate 14 is connected with the inner side wall of each upper cavity 12 through a first extrusion spring 15, each first extrusion spring 15 is arranged, each first extrusion spring 15 starts to store energy when each upper baffle plate 14 approaches to the direction close to the corresponding first extrusion spring 15, each upper baffle plate 14 can reset, a first starting switch 16 is fixedly arranged on the inner side wall of each upper cavity 12, each first starting switch 16 is movably contacted with each upper baffle plate 14, each first starting switch 16 is electrically connected with each first driving motor 8, when each upper baffle plate 14 moves to contact with each first starting switch 16, each first starting switch 16 is opened and controls each first driving motor 8 to be electrified and started, lower baffle 17 is movably inserted in lower cavity 13, lower baffle 17 can be in cavity 13 reciprocating motion down, lower baffle 17 passes through second extrusion spring 18 with lower cavity 13 inside wall and is connected, the setting of second extrusion spring 18, make lower baffle 17 when moving to being close to second extrusion spring 18 direction, second extrusion spring 18 begins the energy storage, make lower baffle 17 can reset, lower cavity 13 inside wall is fixed and is provided with second starting switch 19, second starting switch 19 and lower baffle 17 swing joint, second starting switch 19 and second driving motor 9 electric connection, when lower baffle 17 moved to contact second starting switch 19, second starting switch 19 opened and control second driving motor 9 circular telegram and start at this moment.

The two transmission belts 10 are respectively and symmetrically and fixedly provided with a plurality of mounting blocks 20, the distance between every two adjacent mounting blocks 20 is the same, the mounting blocks 20 are provided with a first sealing groove 21 and a second sealing groove 22, the first sealing groove 21 and the second sealing groove 22 are used for mounting subsequent structures, a U-shaped switch 23 is movably inserted in the first sealing groove 21, the U-shaped switch 23 can reciprocate in the first sealing groove 21, a sealing gasket can be mounted on the U-shaped switch 23, when gas is flushed into the first sealing groove 21, the gas cannot leak, when the U-shaped switch 23 moves, the upper baffle 14 can be pressed to move, an extrusion switch 24 is movably inserted in the second sealing groove 22, the extrusion switch 24 can reciprocate in the second sealing groove 22, and a sealing gasket can be mounted on the extrusion switch 24, when gas is flushed into the second sealing groove 22, the gas cannot leak, when the extrusion switch 24 moves, the lower baffle 17 can be pressed to move, an air duct 25 is arranged in the mounting block 20, the air duct 25 is used for allowing air flow to pass, one end of the air duct 25 is respectively communicated with the first sealing groove 21 and the second sealing groove 22, a step groove 26 is arranged on the mounting block 20, the step groove 26 is used for mounting a subsequent structure, a support plate 27 is movably arranged in the step groove 26, articles to be transported are placed on the support plate 27, a folding airbag 28 is fixedly connected between the support plate 27 and the bottom wall of the step groove 26, one end, far away from the first sealing groove 21 or the second sealing groove 22, of the air duct 25 is communicated with the folding airbag 28, when a heavy object is placed on the support plate 27 to descend, the support plate 27 downwardly extrudes the folding airbag 28, so that the air in the folding airbag 28 enters the first sealing groove 21 and the second sealing groove 22 through the air duct 25, the air pressure in the first sealing groove 21 and the second sealing groove 22 is increased, and the U-shaped switch 23 and the extrusion switch 24 are extruded by the air pressure to move outwards, when the supporting plate 27 rises, at this time, the folding air bag 28 sucks back the gas in the first sealing groove 21 and the second sealing groove 22, the air pressure in the first sealing groove 21 and the second sealing groove 22 becomes small, so that the U-shaped switch 23 and the extrusion switch 24 are extruded by the air pressure to return to the initial positions, the supporting plate 27 is connected with the bottom wall of the step groove 26 through the compression spring 29, and the compression spring 29 is arranged, so that when the supporting plate 27 moves towards the direction close to the folding air bag 28, the compression spring 29 starts to store energy, so that the supporting plate 27 can be reset.

A suction cup 30 is fixedly inserted on the supporting plate 27, the suction cup 30 is used for adsorbing and fixing a photovoltaic module A to be transported, a diaphragm 31 is arranged in the suction cup 30, the space in the suction cup 30 is divided into an inner cavity 32 and an outer cavity 33 by the diaphragm 31, the diaphragm 31 is airtight, when the diaphragm 31 protrudes upwards, the volume of the outer cavity 33 is reduced, when the diaphragm 31 protrudes downwards, the volume of the inner cavity 32 is reduced, a slide block 34 is movably arranged in the inner cavity 32, the slide block 34 can move back and forth in the inner cavity 32, the diaphragm 31 is connected with the slide block 34 through a pull rod 35, when the slide block 34 descends, the pull rod 35 is pulled, the pull rod 35 pulls the diaphragm 31 to protrude towards one side of the inner cavity 32, the space of the outer cavity 33 is enlarged, the pressure intensity is reduced, the suction cup 30 can adsorb the photovoltaic module A, when the slide block 34 ascends, the slide block 34 pulls the diaphragm 31 to protrude towards one side of the outer cavity 33 through the pull rod 35, the space of the outer cavity 33 is reduced, the pressure intensity is increased, make sucking disc 30 no longer adsorb photovoltaic module A, photovoltaic module A can easily take off, slider 34 passes through third extrusion spring 36 with the 32 diapire of inner chamber and is connected, third extrusion spring 36's setting, make slider 34 when being close to the removal of installation piece 20 direction, third extrusion spring 36 begins the energy storage, make slider 34 reset, slider 34 bottom fixedly connected with stay cord 37, stay cord 37 can stimulate slider 34 downstream, stay cord 37 is kept away from 34 one end activity of slider and is run through sucking disc 30 bottom and outside extension, and stay cord 37 is kept away from 34 one end of slider and is passed vent pipe 25 and be connected with extrusion switch 24, extrusion switch 24 is to being close to 3 direction movements of backup pad, can stimulate stay cord 37 and remove.

Preferably, the mounting block 20 is provided with two limiting grooves 38, the two limiting grooves 38 are respectively communicated with the first sealing groove 21 and the second sealing groove 22, the U-shaped switch 23 and the extrusion switch 24 are respectively and fixedly provided with a limiting block 39, the limiting block 39 is movably arranged in the limiting grooves 38, the limiting block 39 is a protruding part on the U-shaped switch 23 and the extrusion switch 24, and the limiting block 39 reciprocates in the limiting grooves 38 to limit the moving distance between the U-shaped switch 23 and the extrusion switch 24 and prevent the U-shaped switch 23 and the extrusion switch 24 from being separated from the first sealing groove 21 and the second sealing groove 22.

The working principle is as follows: when the lower baffle 17 blocks the mounting block 20 and does not fall, the photovoltaic module a to be transported is placed on the supporting plate 27, the photovoltaic module a is pressed on the suction cup 30, a sealed space is formed between the outer cavity 33 on the suction cup 30 and the photovoltaic module a, the suction cup 30 and the supporting plate 27 move downwards together, the supporting plate 27 presses the folded air bag 28 downwards, air in the folded air bag 28 enters the first sealing groove 21 and the second sealing groove 22 through the vent pipe 25, air pressure in the first sealing groove 21 and the second sealing groove 22 is increased, the U-shaped switch 23 and the extrusion switch 24 move outwards under the extrusion of the air pressure, and when the extrusion switch 24 moves towards the lower baffle 17, the extrusion switch 24 moves through pulling the pulling rope 37, the sliding block 34 is pulled downwards by the pulling rope 37, the sliding block 34 pulls the membrane 31 to protrude towards one side of the inner cavity 32 through the pulling rod 35, so that the space of the outer cavity 33 is increased, the pressure intensity is reduced, the suction disc 30 can adsorb and fix the photovoltaic module A, meanwhile, when the extrusion switch 24 is extruded to move outwards, the extrusion switch 24 pushes the lower baffle 17 to move towards the direction close to the second starting switch 19, so that the lower baffle 17 does not block the mounting block 20, the lower baffle 17 moves to be in contact with the second starting switch 19, the second driving motor 9 is started and rotates, the rotating wheel 7 is driven by the rotating shaft 6 to rotate when the second driving motor 9 rotates, the rotating wheel 7 drives the transmission belt 10 to rotate, and the mounting block 20 moves along with the transmission belt 10 until the next mounting block 20 is blocked by the lower baffle 17;

when the photovoltaic module a is taken off from the supporting plate 27, at this time, the upper baffle plate 14 blocks the mounting block 20 from rising, the supporting plate 27 rises under the restoring force of the compression spring 29, the folded air bag 28 sucks back the air in the first sealing groove 21 and the second sealing groove 22, the air pressure in the first sealing groove 21 and the second sealing groove 22 becomes small, so that the U-shaped switch 23 and the pressing switch 24 are pressed by the air pressure to return to the initial positions, at this time, the pull rope 37 no longer pulls the slider 34 downwards, the slider 34 moves upwards under the restoring force of the third pressing spring 36, the diaphragm 31 protrudes to one side of the outer cavity 33 under the air pressure of the pull rod 35, so that the space of the outer cavity 33 becomes small, the air pressure becomes large, the suction cup 30 no longer adsorbs the photovoltaic module a, and at the same time, when the U-shaped switch 23 returns to the initial position, the upper baffle plate 14 is pressed to move towards the direction close to the first starting switch 16, the upper baffle plate 14 moves to contact with the first starting switch 16, the first driving motor 8 is started and rotates, the rotating wheel 7 is driven to rotate through the rotating shaft 6 when the first driving motor 8 rotates, the rotating wheel 7 drives the transmission belt 10 to rotate, and the mounting blocks 20 move together with the transmission belt 10 until the next mounting block 20 is blocked by the upper baffle 14;

when the photovoltaic module a is carried to or from the apparatus of the present invention, the photovoltaic module a loaded on the mounting block 20 between the upper and

lower barriers

14 and 17 is simply carried.

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

Claims

1. The utility model provides a rail transport device for mud flat photovoltaic construction, includes bottom plate (1), bottom plate (1) bottom is fixed to be provided with rail wheel (2), its characterized in that:

the bottom plate (1) is symmetrically and fixedly provided with a supporting plate (3), the supporting plate (3) is provided with a first mounting groove (4) and a second mounting groove (5), the inner side walls of the first mounting groove (4) and the second mounting groove (5) are rotatably inserted with rotating shafts (6), the rotating shafts (6) are fixedly sleeved with rotating wheels (7), the inner side walls of the first mounting groove (4) are fixedly provided with first driving motors (8), the output ends of the first driving motors (8) are connected with the corresponding rotating shafts (6), the inner side walls of the second mounting groove (5) are fixedly provided with second driving motors (9), the output ends of the second driving motors (9) are connected with the corresponding rotating shafts (6), the rotating wheels (7) are meshed with driving belts (10), and the driving belts (10) are provided with strip-shaped grooves (11);

an upper cavity (12) and a lower cavity (13) are respectively formed in one side, close to each other, of each of the two support plates (3), an upper baffle (14) is movably inserted into the upper cavity (12), the inner side wall of each upper baffle (14) and the inner side wall of each upper cavity (12) are connected through a first extrusion spring (15), a first starting switch (16) is fixedly arranged on the inner side wall of each upper cavity (12), the first starting switch (16) is in movable contact with the upper baffle (14), the first starting switch (16) is electrically connected with a first driving motor (8), a lower baffle (17) is movably inserted into the lower cavity (13), the lower baffle (17) is connected with the inner side wall of the lower cavity (13) through a second extrusion spring (18), a second starting switch (19) is fixedly arranged on the inner side wall of the lower cavity (13), and the second starting switch (19) is in movable contact with the lower baffle (17), the second starting switch (19) is electrically connected with the second driving motor (9);

a plurality of mounting blocks (20) are respectively and symmetrically and fixedly arranged on the two driving belts (10), a first sealing groove (21) and a second sealing groove (22) are formed in each mounting block (20), a U-shaped switch (23) is inserted in each first sealing groove (21) in a movable manner, an extrusion switch (24) is inserted in each second sealing groove (22) in a movable manner, a vent pipeline (25) is arranged in each mounting block (20), one end of each vent pipeline (25) is respectively communicated with the first sealing groove (21) and the second sealing groove (22), a step groove (26) is formed in each mounting block (20), a supporting plate (27) is movably arranged in each step groove (26), a folding air bag (28) is fixedly connected between each supporting plate (27) and the bottom wall of each step groove (26), and one end, far away from each first sealing groove (21) or each second sealing groove (22), of each vent pipeline (25) is communicated with the folding air bag (28), the supporting plate (27) is connected with the bottom wall of the stepped groove (26) through a compression spring (29);

the novel vacuum pump is characterized in that a sucker (30) is fixedly inserted into the supporting plate (27), a diaphragm (31) is arranged in the sucker (30), the inner space of the sucker (30) is divided into an inner cavity (32) and an outer cavity (33) by the diaphragm (31), a sliding block (34) is movably arranged in the inner cavity (32), the diaphragm (31) is connected with the sliding block (34) through a pull rod (35), the sliding block (34) is connected with the bottom wall of the inner cavity (32) through a third extrusion spring (36), a pull rope (37) is fixedly connected to the bottom of the sliding block (34), one end, far away from the sliding block (34), of the pull rope (37) movably penetrates through the bottom of the sucker (30) and extends outwards, and one end, far away from the sliding block (34), of the pull rope (37) penetrates through a ventilation pipeline (25) to be connected with an extrusion switch (24).

2. The rail transportation device for mudflat photovoltaic construction according to claim 1, characterized in that: two limiting grooves (38) are formed in the mounting block (20), the two limiting grooves (38) are communicated with the first sealing groove (21) and the second sealing groove (22) respectively, limiting blocks (39) are fixedly arranged on the U-shaped switch (23) and the extrusion switch (24) respectively, and the limiting blocks (39) are movably arranged in the limiting grooves (38).