CN116853739A - Circulating material device for bridge construction and transfer method thereof - Google Patents

Abstract

The application relates to the technical field of bridge construction, in particular to a circulating material device for bridge construction and a transmission method thereof, comprising a bottom plate and a supporting plate, wherein the four corners of the top end of the bottom plate are fixedly connected with struts, the four corners of the bottom end of the supporting plate are respectively fixedly connected with the top ends of four struts, the top end of the supporting plate is fixedly connected with two supporting plates, the four corners of the opposite ends of the two supporting plates are respectively and rotatably connected with a first gear through a first rotating shaft, the four first gears on the left supporting plate are in transmission connection through a first chain, the four first gears on the right supporting plate are in transmission connection through a second chain, the top end of the bottom plate is fixedly connected with two fixing seats, the inner parts of the two fixing seats are rotatably connected with a second rotating shaft, and the left end and the right end of the second rotating shaft are respectively and fixedly connected with a third gear; the material conveying device can circularly convey materials, so that the material conveying time is reduced, and the conveying efficiency is improved.

Description

Circulating material device for bridge construction and transfer method thereof

Technical Field

The application relates to the technical field of bridge construction, in particular to a circulating material device for bridge construction and a transfer method thereof.

Background

In bridge construction, often need carry the material to the bridge above, need carry down unnecessary material on the bridge simultaneously, the material conveyor who adopts now mostly adopts the hoist engine, and the lifting rope carries the material to the bridge above, then falls down the lifting rope and come the handling other materials again, is inconvenient for carrying out the handling of continuity to the material, has increased the time to the handling of material, has reduced the efficiency of material transportation.

In other prior art solutions, for example, a plurality of bearing hoppers capable of circularly rotating are adopted, and the circulating conveying in the vertical direction is carried out through a belt and a chain wheel, but the real-time checking and controlling still need to be carried out by manpower in the conveying process, special people are needed to take care of when the material is discharged at a high position and the material is charged at a low position, and misoperation is easy to occur if the height is higher.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the application provides a circulating material device for bridge construction and a transmission method thereof.

(II) technical scheme

In order to achieve the above purpose, the present application provides the following technical solutions: the utility model provides a bridge construction is with circulation material device and transmission method thereof, including bottom plate and backup pad, the position of the four corners on top of bottom plate all fixedly connected with pillar, the position of the four corners of bottom of backup pad respectively with the top fixedly connected with second gear of four pillars, the top fixedly connected with two backup pads of the top of backup pad, the position of the four corners of the relative one end of two backup pads all is connected with first gear through first pivot rotation, four first gears on the left side backup pad are connected through first chain drive, four first gears on the right side backup pad are connected through second chain drive, two first pivot that are located two backup pads front downside respectively run through two backup pads and extend to the opposite side of two backup pads, the one end that is located the front downside and is kept away from first gear is all fixedly connected with the second gear, the top fixedly connected with fixing base of two, the inside rotation of two backup pads is connected with second gear through first chain drive, the first end of two first motor is connected with the right side and the first end of a third motor, the first end of a left side and a right side is connected with the third end of a third motor are connected with the first end of a third motor, the first end of a left side and a right side is connected with the third end of a third motor, a right side is connected with the third end of a third motor is connected with the third end of a third motor, a third end of a third motor is connected with the third end of a third gear is provided with a second through a third gear, a third end of a vertical through a groove, the one end that first fixed plate was kept away from to two fixed axles is kept away from with first chain and second chain respectively and is kept away from the one end fixed connection of extension board, the left end downside and the right-hand member downside of first fixed plate all are provided with protruding type groove, the inside slip of protruding type groove is provided with protruding type piece, two protruding type pieces are close to two one end that the extension board was all rotated and are connected with two second fixed axles, two one ends that first fixed plate was kept away from to two second fixed axles are kept away from with first chain and second chain respectively and are kept away from two one end fixed connection of extension board, the intermediate position of the front end of first fixed plate is provided with the layer board, the front end fixedly connected with second fixed plate of layer board, the skip car has been placed on the top of layer board, the equal fixedly connected with baffle in front end upside rear side upside that is located the left side extension board, pressure switch is installed in the right-hand member embedding of the baffle that is located the front side, pressure switch and motor electric connection, the left end fixedly connected with briquetting of layer board matches with pressure switch.

Wherein each supporting plate body is internally embedded with a pressure sensor, each pressure sensor is provided with an identity ID, a plurality of pressure sensors are wirelessly connected with a controller, the controller is connected with the motor, the controller starts the motor when the wireless signals of the same pressure sensor are in jump twice, and the controller is triggered to close the motor when the wireless signals of the same pressure sensor are in contact with the pressure switch.

Preferably, the bottom of the material conveying vehicle is connected with four rollers with self-locking function.

Preferably, the top and bottom of the supporting plate are provided with clamping grooves matched with the four rollers.

Preferably, the bottom ends of the two guide plates are fixedly connected with the side ends of the support plates positioned on the left side through two rib plates.

Preferably, the right side fixedly connected with supporting seat on the top of backup pad, the left end of supporting seat sets up vertically runs through the recess, and the outside at the extension board that is located the right side is established to the recess cover.

Preferably, the top ends of the two support plates are fixedly connected with a protective net.

A transmission method of a circulating material device for bridge construction comprises the following steps:

step one, placing a material to be conveyed on a conveying vehicle;

step two, driving a rotating shaft third rotating shaft to rotate through a motor, driving a second rotating shaft and two third gears to rotate through a third chain, driving two second gears to rotate through a third chain, driving a first gear, a first chain and a second chain to rotate through the two second gears, enabling a first fixing plate to rotate along with the first chain and the second chain, enabling a supporting plate positioned at the front lower sides of two supporting plates to move to the position of a guide plate when the top ends of the supporting plates positioned at the front upper sides of the two supporting plates are level with the top ends of a supporting seat, enabling a pressing block to be in contact with a pressure switch, triggering a controller to close the motor in response to a contact signal of the pressure switch, enabling the motor to stop working, enabling the top ends of the supporting plates positioned at the front lower sides of the two supporting plates to be level with the top ends of the supporting seat, pushing a conveying vehicle filled with materials to the supporting plate, enabling four rollers to be respectively pushed into four clamping grooves, and locking the rollers;

step three, the controller starts the motor and starts the motor in response to the wireless signal of the same pressure sensor to drive the supporting plate to rise, when the supporting plate with the material conveying trolley rises to the position of the guide plate, the motor stops working under the action of the pressure switch, then the material conveying trolley is pushed onto the guide plate and onto the bridge, and meanwhile the material conveying trolley filled with materials is pushed onto the supporting plate positioned on the front lower side, and meanwhile the material conveying trolley above the bridge or the material conveying trolley filled with redundant materials is pushed onto the supporting plate positioned on the rear upper side;

and step four, starting the motor to enable the first chain and the second chain to rotate, driving the supporting plate and the conveying trolley to rotate, and pushing the conveying trolley onto the supporting plate or down from the supporting plate after the motor stops working, so that materials can be circularly conveyed.

(III) beneficial effects

Compared with the prior art, the application provides the circulating material device for bridge construction and the transmission method thereof, which have the following beneficial effects:

1. according to the circulating material device for bridge construction and the transmission method thereof, a conveying vehicle filled with materials is pushed onto a supporting plate, four rollers are respectively pushed into four clamping grooves and locked, then a motor is started, the supporting plate is driven to ascend by the motor, when the supporting plate with the conveying vehicle ascends to the position of a guide plate, the motor stops working under the action of a pressure switch, then the conveying vehicle is pushed onto the guide plate and onto a bridge, meanwhile, the conveying vehicle filled with the materials is pushed onto the supporting plate positioned at the front lower side, meanwhile, the conveying vehicle above the bridge or the conveying vehicle filled with the redundant materials is pushed onto the supporting plate positioned at the rear upper side, then the motor is started to enable the first chain and the second chain to rotate, the supporting plate and the conveying vehicle are driven to rotate, and after the motor stops working, the conveying vehicle is pushed onto the supporting plate or pushed down from the supporting plate, so that materials can be conveyed circularly, the conveying time of the materials is shortened, and the conveying efficiency is improved.

2. According to the application, through the sensor signal identification method with the pressure sensor, the pressure switch and the special design thereof, automatic control can be realized during loading and unloading and in-place movement, and manual intervention is not needed in the whole process.

Drawings

FIG. 1 is a schematic diagram of the structure of the present application;

FIG. 2 is a schematic top view of the present application;

FIG. 3 is a schematic diagram of a front view of a structural connection of two support plates and a support plate according to the present application;

FIG. 4 is a schematic view of the structure of the present application shown in FIG. 1A in a partially enlarged form;

FIG. 5 is a schematic view of a partially enlarged structure of the present application at B in FIG. 1;

fig. 6 is a schematic top sectional view of the first fixing plate of the present application.

In the figure: 1. a bottom plate; 2. a support plate; 3. a support post; 4. a support plate; 5. a first rotating shaft; 6. a first gear; 7. a first chain; 8. a second chain; 9. a second gear; 10. a fixing seat; 11. a second rotating shaft; 12. a third gear; 13. a third chain; 14. a motor; 15. a third rotating shaft; 16. a first fixing plate; 17. a first fixed shaft; 18. a convex block; 19. a second fixed shaft; 20. a supporting plate; 21. a second fixing plate; 22. a material conveying vehicle; 23. a guide plate; 24. a pressure switch; 25. briquetting; 26. a roller; 27. a clamping groove; 28. rib plates; 29. a support base; 30. and a protective net.

Detailed Description

The following description of the embodiments of the present application 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 application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Examples

Referring to fig. 1-6, a circulating material device for bridge construction and a transferring method thereof, the circulating material device comprises a bottom plate 1 and a supporting plate 2, wherein the four corners of the top end of the bottom plate 1 are fixedly connected with supporting columns 3, the four corners of the bottom end of the supporting plate 2 are respectively and fixedly connected with the top ends of four supporting columns 3, the top end of the supporting plate 2 is fixedly connected with two supporting plates 4, the four corners of the opposite ends of the two supporting plates 4 are respectively and rotatably connected with a first gear 6 through a first rotating shaft 5, the four first gears 6 on the left supporting plate 4 are in transmission connection through a first chain 7, the four first gears 6 on the right supporting plate 4 are in transmission connection through a second chain 8, the two first rotating shafts 5 on the front lower sides of the two supporting plates 4 respectively penetrate through the two supporting plates 4 and extend to the other sides of the two supporting plates 4, the two first rotating shafts 5 positioned at the front lower side are fixedly connected with the second gears 9 at one ends far away from the first gears 6, the top end of the supporting plate 2 is provided with two through grooves which longitudinally penetrate, the two through grooves are respectively positioned below the two second gears 9, the top end of the bottom plate 1 is fixedly connected with two fixing seats 10, the second rotating shafts 11 are rotatably connected inside the two fixing seats 10, the left ends and the right ends of the second rotating shafts 11 are fixedly connected with third gears 12, the two third gears 12 are respectively connected with the two second gears 9 in a transmission way through third chains 13, the two third chains 13 are respectively positioned inside the two through grooves, the right side of the top end of the bottom plate 1 is fixedly connected with a motor 14, the model of the motor 14 is YE2-100, the motor 14 is a well-known device which is directly purchased in the market for a person in the field, only the motor is used here, the motor is not improved in structure and function, the motor 14 is provided with a control switch matched with the motor 14, the mounting position of the control switch is selected according to the actual use requirement, the operation and control of operators are facilitated, the output end of the motor 14 is fixedly connected with a third rotating shaft 15, the left end of the third rotating shaft 15 is fixedly connected with the right end of a third gear 12 positioned on the right side, a plurality of first fixing plates 16 are uniformly arranged between the first chain 7 and the second chain 8, the upper left end side and the upper right end side of the first fixing plates 16 are respectively and rotatably connected with a first fixing shaft 17, one ends of the two fixing shafts far away from the first fixing plates 16 are respectively and fixedly connected with one ends of the first chain 7 and the second chain 8 far away from the support plate 4, convex grooves are respectively arranged on the bottom side of the left end and the bottom side of the right end of the first fixing plates 16, convex blocks 18 are slidably arranged in the convex grooves, two second fixing shafts 19 are rotatably connected to one ends of the two convex blocks 18 close to the two support plates 4, one ends of the two second fixing shafts 19 far away from the first fixing plates 16 are fixedly connected with one ends of the first chain 7 and the second chain 8 far away from the two support plates 4 respectively, the first fixing plates 16 are convenient to rotate at the position of the first gear 6 by sliding the two convex blocks 18 in the convex grooves, a supporting plate 20 is arranged at the middle position of the front end of the first fixing plates 16, a second fixing plate 21 is fixedly connected to the front end of the supporting plate 20, a feeding trolley 22 is arranged at the top end of the supporting plate 20, a guide plate 23 is fixedly connected to the upper side of the rear end of the front end of the left support plate 4, a pressure switch 24 is embedded and arranged at the right end of the guide plate 23 at the front side, the pressure switch 24 is electrically connected with the motor 14, a pressing block 25 is fixedly connected with the left end of the supporting plate 20 and matched with the pressure switch 24, the pressure switch 24 is pressed by the pressing block 25, the pressure switch 24 is turned off to deactivate the motor 14 to facilitate pushing material from the pallet 20 and pushing the material carriage onto the pallet 20.

Wherein a pressure sensor is embedded in each plate body of the pallet 20, each pressure sensor having an identity ID, wherein a plurality of pressure sensors are wirelessly connected to a controller connected to the motor 14, wherein the controller activates the motor 14 in response to two hops occurring in response to the wireless signal of the same pressure sensor, and activates the controller to deactivate the motor 14 in response to the contact signal of the pressure switch 24.

In this embodiment, specific: the bottom of the conveying trolley 22 is connected with four rollers 26 with self-locking function, so that the rollers 26 can be locked, and the stability of the conveying trolley 22 in the conveying process is improved.

In this embodiment, specific: the top and the bottom of layer board 20 all are provided with the draw-in groove 27 with four gyro wheel 26 assorted, block the gyro wheel 26 through draw-in groove 27 and improve, improve the stability of material car on layer board 20.

In this embodiment, specific: the bottom ends of the two guide plates 23 are fixedly connected with the side ends of the support plates 4 positioned on the left side through the two rib plates 28, so that the stability of the connection of the guide plates 23 and the support plates 4 is improved.

In this embodiment, specific: the right side fixedly connected with supporting seat 29 on the top of backup pad 2, the left end of supporting seat 29 sets up vertically runs through the recess, and the outside at the extension board 4 that is located the right side is established to the recess cover, is convenient for push up the material car to the layer board 20 or push down from layer board 20 through supporting seat 29.

In this embodiment, specific: the top ends of the two support plates 4 are fixedly connected with a protective net 30, which plays a protective role.

The application also provides a transmission method of the circulating material device for bridge construction, which comprises the following steps:

step one, placing a material to be conveyed on a conveying vehicle 22;

step two, the motor 14 drives the rotating shaft third rotating shaft 15 to rotate, the third rotating shaft 15 drives the second rotating shaft 11 and the two third gears 12 to rotate, the two third gears 12 drive the two second gears 9 to rotate through the third chain 13, the two second gears 9 drive the first gears 6, the first chain 7 and the second chain 8 to rotate, the first fixing plate 16 rotates along with the first chain 7 and the second chain 8, when the top ends of the supporting plates 20 positioned at the front lower sides of the two supporting plates 4 are level with the top ends of the supporting seats 29, the supporting plates 20 positioned at the front upper sides of the two supporting plates 4 move to the position of the guide plates 23, meanwhile, the pressing blocks 25 are contacted with the pressure switches 24, the controller is triggered to switch off the motor 14 in response to the contact signals of the pressure switches 24, the motor 14 is stopped to enable the top ends of the supporting plates 20 positioned at the front lower sides of the two supporting plates 4 to be level with the top ends of the supporting seats 29, then the conveying vehicle filled with materials is pushed onto the supporting plates 20, the four rolling wheels 26 are pushed into the four clamping grooves 27 respectively, and the rolling wheels 26 are locked;

step three, the controller starts the motor 14 and starts the motor 14 in response to the wireless signal of the same pressure sensor, when the motor 14 drives the supporting plate 20 to ascend and the supporting plate 20 with the transporting carriage 22 ascends to the position of the guide plate 23, the motor 14 stops working under the action of the pressure switch 24, then the transporting carriage 22 is pushed onto the guide plate 23 and onto the bridge, the transporting carriage 22 filled with materials is pushed onto the supporting plate 20 positioned at the front lower side, and the transporting carriage 22 above the bridge or the transporting carriage 22 filled with redundant materials is pushed onto the supporting plate 20 positioned at the rear upper side;

and fourthly, starting the motor 14 to enable the first chain 7 and the second chain 8 to rotate so as to drive the supporting plate 20 and the material conveying trolley 22 to rotate, and pushing the material conveying trolley onto the supporting plate 20 or pushing the material conveying trolley from the supporting plate 20 after the motor 14 stops working so as to circularly convey the materials.

In the above process, the skip 22 is pushed out for unloading after reaching the target height, so that the output signal of the pressure sensor in the pallet 20 is subjected to a descending jump, the idle skip 22 at the original height is loaded into the pallet 20, the skip 22 is subjected to a rising jump, and the pallet 20 at the bottom is subjected to a change of the skip 22 based on a similar principle.

In summary, when the bridge construction material circulating device and the transferring method thereof are used, materials to be conveyed are placed on a conveying vehicle 22, then a motor 14 is started, a third rotating shaft 15 is driven by the motor 14 to rotate, a second rotating shaft 11 and two third gears 12 are driven by the third rotating shaft 15 to rotate, two second gears 9 are driven by two third gears 12 through a third chain 13 to rotate, a first gear 6, a first chain 7 and a second chain 8 are driven by the two second gears 9 to rotate, a first fixing plate 16 rotates along with the first chain 7 and the second chain 8, when the top ends of supporting plates 20 positioned at the front lower sides of two supporting plates 4 are level with the top ends of supporting seats 29, at the moment, the supporting plates 20 positioned at the front upper sides of the two supporting plates 4 move to the position of a guide plate 23, and meanwhile, a pressing block 25 contacts with a pressure switch 24, so that the motor 14 stops working, at this time, the top ends of the supporting plates 20 positioned at the front lower sides of the two supporting plates 4 are flush with the top ends of the supporting seats 29, then the conveying trolley filled with materials is pushed onto the supporting plates 20, the four rollers 26 are respectively pushed into the four clamping grooves 27, the rollers 26 are locked, then the motor 14 is started, the supporting plates 20 are driven by the motor 14 to ascend, when the supporting plates 20 with the conveying trolleys 22 are lifted to the position of the guide plates 23, the motor 14 stops working under the action of the pressure switch 24, then the conveying trolleys 22 are pushed onto the guide plates 23 and onto the bridge, meanwhile, the conveying trolleys 22 filled with materials are pushed onto the supporting plates 20 positioned at the front lower sides, meanwhile, the conveying trolleys 22 above the bridge or the conveying trolleys 22 filled with redundant materials are pushed onto the supporting plates 20 positioned at the rear upper sides, then the motor 14 is started to rotate the first chain 7 and the second chain 8, the motor 20 and the conveying trolleys 22 are driven to rotate after the motor 14 stops working, the carriage 22 is pushed onto the pallet 20 or pushed off the pallet 20 so that the material can be circularly transported.

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

Claims (7)

1. The utility model provides a bridge construction is with circulation material device and transmission method thereof, includes bottom plate (1) and backup pad (2), its characterized in that: the utility model discloses a bottom plate, including bottom plate (1), support (3) are all fixedly connected with in the position of four corners on top of bottom plate (1), the position of four corners of bottom of backup pad (2) respectively with the top fixed connection of four support (3), two extension boards (4) of fixedly connected with on top of backup pad (2), the position of four corners of the relative one end of two extension boards (4) all rotates through first pivot (5) and is connected with first gear (6), four first gears (6) on left side extension board (4) are connected through first chain (7) transmission, four first gears (6) on right side extension board (4) are connected through second chain (8) transmission, two first pivot (5) that are located two extension boards (4) front downside run through respectively and extend to the opposite side of two extension boards (4), one end that two first pivot (5) that are located front downside kept away from first gear (6) all is fixedly connected with second gear (9), the top of backup pad (2) is provided with vertical through first chain (7) transmission connection, two through first gear (10) that are located two through first pivot (11) of two extension boards (4), two fixed seats (11) are connected with one another through two inside fixed seats (11) that are located at two first rotation grooves (11), two third gears (12) are respectively connected with two second gears (9) in a transmission way through a third chain (13), two third chains (13) are respectively positioned in two through grooves, the right side of the top end of a bottom plate (1) is fixedly connected with a motor (14), the output end of the motor (14) is fixedly connected with a third rotating shaft (15), the left end of the third rotating shaft (15) is fixedly connected with the right end of the third gear (12) positioned on the right side, a plurality of first fixing plates (16) are uniformly arranged between the first chains (7) and the second chains (8), the upper sides of the left ends and the upper sides of the right ends of the first fixing plates (16) are respectively connected with a first fixing shaft (17) in a rotating way, one ends of the two fixing shafts far away from the first fixing plates (16) are respectively connected with one ends of the first chains (7) and the second chains (8) far away from the supporting plates (4), the bottom sides of the left ends and the bottom sides of the right ends of the first fixing plates (16) are respectively provided with convex grooves, the inner sliding blocks (18) of the convex grooves are respectively arranged on the bottom sides of the left ends of the first fixing plates (16) and the right ends of the third rotating plates (12), the two fixing plates (19) are respectively connected with the two fixing shafts (19) far away from the first fixing plates (4) in a rotating way, the middle position of the front end of the first fixed plate (16) is provided with a supporting plate (20), the front end of the supporting plate (20) is fixedly connected with a second fixed plate (21), the top end of the supporting plate (20) is provided with a conveying trolley (22), the upper sides of the rear ends of the front ends of the left side supporting plates (4) are fixedly connected with guide plates (23), the right ends of the guide plates (23) on the front sides are embedded and provided with pressure switches (24), the pressure switches (24) are electrically connected with a motor (14), the left ends of the supporting plates (20) are fixedly connected with pressing blocks (25), and the pressing blocks (25) are matched with the pressure switches (24);

wherein a pressure sensor is embedded in each pallet (20) plate body, each pressure sensor has an identity ID, wherein a plurality of pressure sensors are wirelessly connected to a controller which is connected to the motor (14), wherein the controller activates the motor (14) in response to two hops of the wireless signal of the same pressure sensor, and the controller activates the motor (14) to turn off the motor (14) in response to a contact signal of the pressure switch (24).

2. The circulating material device for bridge construction and the transmission method thereof according to claim 1, wherein: the bottom of the material conveying vehicle (22) is connected with four rollers (26) with self-locking function.

3. The circulating material device for bridge construction and the transmission method thereof according to claim 2, wherein: the top and bottom of the supporting plate (20) are provided with clamping grooves (27) matched with the four rollers (26).

4. The circulating material apparatus for bridge construction and the transferring method thereof according to claim 3, wherein: the bottom ends of the two guide plates (23) are fixedly connected with the side ends of the support plates (4) positioned on the left side through two rib plates (28).

5. The circulating material device for bridge construction and the transmission method thereof according to claim 4 are characterized in that: the right side fixedly connected with supporting seat (29) on the top of backup pad (2), the left end of supporting seat (29) sets up vertically runs through the recess, and the outside at extension board (4) that are located the right side is established to the recess cover.

6. The circulating material device for bridge construction and the transmission method thereof according to claim 5 are characterized in that: the top ends of the two support plates (4) are fixedly connected with a protective net (30).

7. The transmission method of the circulating material device for bridge construction is characterized by comprising the following steps of:

step one, placing a material to be conveyed on a conveying vehicle (22);

step two, drive the third spindle of the spindle (15) to rotate through the motor (14), the third spindle (15) drives the second spindle (11) and two third gears (12) to rotate, two third gears (12) drive two second gears (9) to rotate through the third chain (13), two second gears (9) drive the first gear (6), the first chain (7) and the second chain (8) to rotate, make the first fixed plate (16) rotate along with the first chain (7) and the second chain (8), when the top of the supporting plate (20) located in front of lower side of two supporting plates (4) is level with top of the supporting seat (29), at this moment the supporting plate (20) located in front upper side of two supporting plates (4) moves to the position of the guide plate (23), the briquetting (25) contacts with the pressure switch (24) at this moment, the contact signal trigger the controller to turn off the motor (14), make the motor (14) stop working, make the supporting plate (20) located in front lower side of two supporting plates (4) and supporting seat (29) carry on the top of four and push the supporting plate (26) to the top of the four supporting seat (26) to the four, and push the material to the four supporting wheels (27) and the four supporting seats are pushed to the top of the four supporting seats;

step three, the controller starts the motor (14) in response to the wireless signal of the same pressure sensor for two jumps, after the motor (14) is started, the supporting plate (20) is driven to ascend by the motor (14), when the supporting plate (20) with the conveying trolley (22) is ascended to the position of the guide plate (23), the motor (14) is stopped under the action of the pressure switch (24), then the conveying trolley (22) is pushed onto the guide plate (23) and onto a bridge, and meanwhile the conveying trolley (22) filled with materials is pushed onto the supporting plate (20) positioned at the front lower side, and meanwhile the conveying trolley (22) above the bridge or the conveying trolley (22) filled with excessive materials is pushed onto the supporting plate (20) positioned at the rear upper side;

and fourthly, starting the motor (14) to enable the first chain (7) and the second chain (8) to rotate so as to drive the supporting plate 20 to rotate, and pushing the conveying trolley (22) onto the supporting plate (20) or pushing the conveying trolley from the supporting plate (20) down after the motor (14) stops working so as to circularly convey materials.