CN213648027U - A push mechanism for producing light wall material - Google Patents

Abstract

The utility model discloses a push mechanism for producing light wall material, mainly including unloading board platform, propelling movement drive arrangement and the pusher who merges wall material. When the device works, the plate unloading motor drives the dragging plate to move forward on the plate unloading platform through the first chain, when the end of the plate unloading platform is reached, a worker operates the first operating lever to hook the hook plate, then the plate unloading motor drives the dragging plate, the mold bottom plate and the formed wall material to reach the plate unloading platform through the first chain, and the demolding and plate unloading processes of the formed wall material are completed; because the wall materials dragged out have a certain gap, the wall materials are not beneficial to subsequent loading and storage, therefore, the pushing motor needs to be started, the pushing seat and the pushing block are driven by the second chain to move forward, the wall materials on the unloading platform are pushed forward together to be arranged into a block, and the pushing motor is reset to wait for the next pushing operation after pushing is finished. The utility model discloses still have simple structure, convenient operation, easy advantage of implementing.

Description

A push mechanism for producing light wall material

Technical Field

The utility model relates to a light wall material production field especially relates to a push mechanism for producing light wall material.

Background

At present, enterprises for producing light wall materials mostly adopt a manual mode to drag out the molded light wall from a mold, then combine and load the light wall, and when the light wall materials are large in size and size, the worker mode has the defects of high labor intensity, low efficiency, easiness in damaging the mold and the like. Accordingly, further improvements and improvements are needed in the art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's not enough, provide a push mechanism for producing light wall material.

The purpose of the utility model is realized through the following technical scheme:

a pushing mechanism for producing light wall materials mainly comprises a plate unloading platform, a pushing driving device and a pushing device for combining the wall materials. The plate unloading platform is horizontally and fixedly arranged on the plate unloading station, and a plurality of pushing grooves are formed in the plate unloading platform. The pushing grooves are arranged in parallel and are perpendicular to the plate unloading direction. The pushing device is arranged in the pushing groove and can slide back and forth along the pushing groove. The pushing driving device is arranged at the bottom of the plate unloading platform, is connected with the pushing device and drives the pushing device to move.

Specifically, the pushing driving device mainly comprises a pushing motor, a second transmission shaft, a second chain, a second driven shaft, a second driving wheel and a second driven wheel. And the second transmission shaft and the second driven shaft are horizontally arranged at the bottom of the plate unloading platform and are vertical to the pushing slotting direction. The second driving wheels are respectively arranged at two ends of the second transmission shaft. The second driven wheels are respectively arranged at two ends of a second driven shaft; the second chains are respectively arranged at two ends of the second transmission shaft and the second driven shaft and are connected with the second driving wheel and the second driven wheel. The pushing device is fixedly connected with the second chain, the output end of the pushing motor is connected with the second transmission shaft, and the pushing device is driven to move in the pushing groove through the second transmission shaft and the second chain.

Specifically, the pushing device mainly comprises a pushing seat, a pushing guide rail, a baffle, a pushing block, a rotating shaft, a spring and a pushing roller. The two sides of the pushing seat are installed on the pushing idler wheels. The pushing guide rails are arranged on two sides of the pushing groove. The pushing seat is arranged in the pushing groove, and the pushing roller is connected with the pushing guide rail. The bottom of the pushing seat is fixedly connected with the second chain. The pushing block is installed in the pushing seat through a rotating shaft and can rotate around the rotating shaft. One end of the spring is fixed on the pushing seat, and the other end of the spring is connected with the bottom of the pushing block. The baffle is installed at the top of the pushing seat and is located at the rear side of the pushing block.

As the preferred scheme of the utility model, the bottom of propelling movement piece adopts fan-shaped structural design.

Specifically, the pushing mechanism further comprises a drag-and-drop device for dragging the wall material out of the mold and a plate unloading driving device. The plate unloading driving device is installed on the plate unloading platform. The drag-and-drop device is arranged on the plate unloading platform, is connected with the plate unloading driving device and is driven by the plate unloading driving device to reciprocate on the plate unloading platform.

Specifically, unload board drive arrangement mainly includes and unloads board motor, first transmission shaft, first chain, first driven shaft, first action wheel and first driven wheel. The first transmission shaft and the first driven shaft are respectively arranged on two sides of the plate unloading platform and are perpendicular to the plate unloading direction. The first driving wheels are respectively arranged at two ends of the first transmission shaft; the first driven wheels are respectively arranged at two ends of the first driven shaft. And two ends of the drag-and-drop device are respectively fixedly connected with the first chains at two sides. The plate unloading motor is arranged on one side of the plate unloading platform, is connected with the first transmission shaft and drives the drag-and-drop device to move back and forth through the first chain.

Specifically, the drag-and-drop device mainly comprises a drag-and-drop plate, a first sleeve, a first drag-and-drop rod, a first operating rod, a hook plate and a first connecting rod. One end of the hook plate is arranged on the bottom plate of the mold, and the other end of the hook plate extends outwards. The dragging and dropping plate is horizontally arranged on the plate unloading platform, and two ends of the dragging and dropping plate are respectively fixedly connected with the first chains at two sides and driven by the first chains. One end of the first connecting rod is fixed with the first sleeve, and the other end of the first connecting rod is fixedly connected with the drag-and-drop plate. One end of the first operating rod is inserted into the first sleeve. The first sleeve is further provided with a first operating slot, and the first operating slot penetrates from the outer wall to the inner wall of the first sleeve. The first dragging and dropping rod is positioned outside the first sleeve, is arranged in parallel with the first sleeve and is fixedly connected with the first operating rod in the first sleeve through the operating groove.

Specifically, the drag-and-drop device further comprises a drag-and-drop cylinder, a drag-and-drop guide rod, a second sleeve, a second drag-and-drop rod, a second operating rod and a second connecting rod, wherein the drag-and-drop cylinder, the drag-and-drop guide rod, the second sleeve, the second drag-and-drop rod, the second operating rod and the second connecting rod are. The drag-and-drop cylinder is installed on the drag-and-drop plate, and the output end of the drag-and-drop cylinder is fixedly connected with the second connecting rod. The drag and drop guide rods are arranged on the drag and drop plate side by side and are parallel to the drag and drop direction. The second connecting rod is arranged on the drag-and-drop guide rod and can slide back and forth along the drag-and-drop guide rod under the driving of the drag-and-drop cylinder. The second drag and drop rod is arranged on one side of the second sleeve, and the other side of the second sleeve is fixedly connected with the second connecting rod. The second sleeve is arranged in parallel with the first sleeve, and a second control slot is also arranged on the second sleeve. One end of the second operating rod is inserted into the second sleeve and fixedly connected with the second drag and drop rod through the second operating slot.

As a preferred embodiment of the present invention, the first manipulation groove and the second manipulation groove are designed to have a Z-shaped structure.

Further, the drag and drop device further comprises a drag and drop scroll wheel. The drag and drop roller is arranged on the drag and drop plate, so that the drag and drop plate can move smoothly on the plate unloading platform.

Further, the drag-and-drop device further comprises a handle for facilitating the operation. The handle is fixedly arranged at the tail ends of the first operating rod and the second operating rod.

The utility model discloses a working process and principle are: when the plate unloading machine works, the plate unloading motor drives the dragging and dropping plate to move forwards on the plate unloading platform through the first chain, when the plate unloading platform reaches the end of the plate unloading platform, if the first dragging and dropping rod cannot reach the hook plate, the dragging and dropping cylinder is started to push the second dragging and dropping rod to extend forwards to the position above the hook plate, at the moment, a worker changes the position of the second dragging and dropping rod through operating the second operating rod to stably hook the hook plate, and then after the plate unloading motor drives the dragging and dropping plate to reset for a distance through the first chain, the worker operates the second operating rod to reset the second operating rod and separate the second operating rod from the connection with the hook plate; then the drag and drop cylinder resets, the drag and drop plate advances again to enable the first drag and drop rod to reach the position of the hook plate, a worker operates the first operating rod to enable the first operating rod to hook the hook plate, and then the plate unloading motor drives the drag and drop plate, the die bottom plate and the formed wall material to reach the plate unloading platform through the first chain, so that the processes of demoulding and unloading the formed wall material are completed; because the wall materials dragged out have a certain gap, the wall materials are not beneficial to subsequent loading and storage, therefore, the pushing motor needs to be started, the pushing seat and the pushing block are driven by the second chain to move forward, the wall materials on the unloading platform are pushed forward together to be arranged into a block, and the pushing motor is reset to wait for the next pushing operation after pushing is finished. The utility model discloses still have simple structure, convenient operation, easy advantage of implementing.

Compared with the prior art, the utility model discloses still have following advantage:

(1) the utility model provides a push mechanism for producing light wall material adopts embedded pusher design, makes the structure of unloading board and propelling movement part more reasonable, compacter, has reduced propelling movement latency simultaneously, improves production efficiency.

(2) The design of the double-layer drag and drop rod is adopted, the size of the plate unloading platform can be reduced, the plate unloading requirement can be met, meanwhile, the plate unloading platform can be used according to different occasions, the practicability of the plate unloading mechanism is greatly enhanced, and the occupied area of a production line is reduced.

(3) The utility model provides a push mechanism for producing light wall material adopts the Z shape to control the fluting design, makes the control rod freely switch under catching on and releasing two states, has simplified the design of drag and drop part structure, makes things convenient for the workman to operate.

Drawings

Fig. 1 is a front view of a pushing mechanism (pushing block erected state) for producing lightweight wall materials provided by the present invention.

Fig. 2 is a left side view of the pushing mechanism for producing lightweight wall material provided by the present invention.

Fig. 3 is a front view of the pushing mechanism (pushing block is pressed down) for producing lightweight wall material provided by the present invention.

Fig. 4 is a partially enlarged schematic view of a left side view of the pushing mechanism for producing lightweight wall materials provided by the present invention.

Fig. 5 is a schematic structural diagram of the pushing device provided by the present invention.

Fig. 6 is a schematic structural diagram of a drag-and-drop device and a plate unloading driving mechanism provided by the present invention.

Fig. 7 is a schematic diagram of a connection relationship between a drag-and-drop apparatus and a production line provided by the present invention.

Fig. 8 is a schematic view of the connection at the hook plate provided by the present invention.

Fig. 9 is a schematic structural diagram of the first dragging and dropping rod provided by the present invention.

Fig. 10 is a top view of a drag and drop device and a board unloading platform provided by the present invention.

Fig. 11 is a top view of a drag-and-drop apparatus provided by the present invention.

Fig. 12 is a top view of a partial assembly of a drag and drop apparatus provided by the present invention.

Fig. 13 is a partially enlarged schematic view of the second sleeve according to the present invention.

Fig. 14 is a schematic structural diagram of the steering slot provided by the present invention.

The reference numerals in the above figures illustrate:

1-a plate unloading motor, 2-a first transmission shaft, 3-a first chain, 4-a first driven shaft, 5-a dragging and dropping plate, 6-a first sleeve, 7-a first dragging and dropping rod, 8-a first operating rod, 9-a hook plate, 10-a second operating slot, 11-a dragging and dropping cylinder, 12-a dragging and dropping guide rod, 13-a second sleeve, 14-a second dragging and dropping rod and 15-a second operating rod; 16-pushing slotting, 17-pushing motor, 18-second transmission shaft, 19-second chain, 20-second driven shaft, 21-pushing seat, 22-pushing guide rail, 23-pushing block, 24-rotating shaft, 25-spring and 26-pushing roller.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer and clearer, the present invention will be further described with reference to the accompanying drawings and examples.

Example 1:

as shown in fig. 1 to 14, the present embodiment discloses a pushing mechanism for producing lightweight wall materials, which mainly includes a plate unloading platform, a pushing driving device, and a pushing device for combining wall materials. The plate unloading platform is horizontally and fixedly arranged on the plate unloading station, and a plurality of pushing grooves 16 are formed in the plate unloading platform. The pushing slots 16 are arranged in parallel and are perpendicular to the plate unloading direction. The pushing device is arranged in the pushing slot 16 and can slide back and forth along the pushing slot 16. The pushing driving device is arranged at the bottom of the plate unloading platform, is connected with the pushing device and drives the pushing device to move.

Specifically, the pushing driving device mainly includes a pushing motor 17, a second transmission shaft 18, a second chain 19, a second driven shaft 20, a second driving wheel, and a second driven wheel. The second transmission shaft 18 and the second driven shaft 20 are horizontally arranged at the bottom of the plate unloading platform and are vertical to the direction of the pushing slot 16. The second drive wheels are respectively mounted at both ends of a second drive shaft 18. The second driven wheels are respectively arranged at two ends of a second driven shaft 20; the second chains 19 are respectively arranged at two ends of the second transmission shaft 18 and the second driven shaft 20, and are connected with the second driving wheel and the second driven wheel. The pushing device is fixedly connected with the second chain 19, the output end of the pushing motor 17 is connected with the second transmission shaft 18, and the pushing device is driven to move in the pushing slot 16 through the second transmission shaft 18 and the second chain 19.

Specifically, the pushing device mainly comprises a pushing seat 21, a pushing guide rail 22, a baffle, a pushing block 23, a rotating shaft 24, a spring 25 and a pushing roller 26. The pushing rollers 26 are installed at both sides of the pushing base 21. The push rails 22 are installed at both sides of the push slot 16. The pushing seat 21 is disposed in the pushing slot 16, and connects the pushing roller 26 with the pushing guide rail 22. The bottom of the pushing seat 21 is fixedly connected with the second chain 19. The pushing block 23 is installed in the pushing seat 21 through a rotating shaft 24 and can rotate around the rotating shaft 24. One end of the spring 25 is fixed on the pushing seat 21, and the other end is connected with the bottom of the pushing block 23. The baffle is arranged at the top of the pushing seat 21 and is positioned at the rear position of the pushing block 23.

As the preferred scheme of the utility model, the bottom of propelling movement piece 23 adopts fan-shaped structural design.

Specifically, the pushing mechanism further comprises a drag-and-drop device for dragging the wall material out of the mold and a plate unloading driving device. The plate unloading driving device is installed on the plate unloading platform. The drag-and-drop device is arranged on the plate unloading platform, is connected with the plate unloading driving device and is driven by the plate unloading driving device to reciprocate on the plate unloading platform.

Specifically, unload board drive arrangement mainly includes and unloads board motor 1, first transmission shaft 2, first chain 3, first driven shaft 4, first action wheel and first driven wheel. The first transmission shaft 2 and the first driven shaft 4 are respectively arranged on two sides of the plate unloading platform and are perpendicular to the plate unloading direction. The first driving wheels are respectively arranged at two ends of the first transmission shaft 2; the first driven wheels are respectively arranged at two ends of the first driven shaft 4. And two ends of the drag-and-drop device are respectively fixedly connected with the first chains 3 at two sides. The plate unloading motor 1 is installed on one side of the plate unloading platform, is connected with the first transmission shaft 2 and drives the drag-and-drop device to move back and forth through the first chain 3.

Specifically, the drag and drop device mainly comprises a drag and drop plate 5, a first sleeve 6, a first drag and drop rod 7, a first operating rod 8, a hook plate 9 and a first connecting rod. One end of the hook plate 9 is arranged on the bottom plate of the mould, and the other end extends outwards. The dragging and dropping plate 5 is horizontally arranged on the plate unloading platform, and two ends of the dragging and dropping plate are respectively fixedly connected with the first chains 3 on two sides and driven by the first chains 3. One end of the first connecting rod is fixed with the first sleeve 6, and the other end of the first connecting rod is fixedly connected with the drag-and-drop plate 5. One end of the first operating lever 8 is inserted into the first sleeve 6. The first sleeve 6 is further provided with a first control slot, and the first control slot penetrates from the outer wall to the inner wall of the first sleeve 6. The first dragging and dropping rod 7 is positioned outside the first sleeve 6, is arranged in parallel with the first sleeve 6 and is fixedly connected with a first operating rod 8 in the first sleeve 6 through an operating slot.

Specifically, the drag and drop device further comprises a drag and drop cylinder 11, a drag and drop guide rod 12, a second sleeve 13, a second drag and drop rod 14, a second operating rod 15 and a second connecting rod which are positioned above the first drag and drop rod 7. The drag and drop cylinder 11 is installed on the drag and drop plate 5, and the output end of the drag and drop cylinder is fixedly connected with the second connecting rod. The drag guide bars 12 are installed side by side on the drag plate 5 in parallel with the drag direction. The second connecting rod is arranged on the drag guide rod 12 and can slide back and forth along the drag guide rod 12 under the driving of the drag cylinder 11. The second dragging and dropping rod 14 is arranged on one side of the second sleeve 13, and the other side of the second sleeve 13 is fixedly connected with the second connecting rod. The second sleeve 13 is arranged parallel to the first sleeve 6 and is provided with a second actuation slot 10. One end of the second operating rod 15 is inserted into the second sleeve 13 and is fixedly connected with the second dragging rod 14 through the second operating slot 10.

As a preferred embodiment of the present invention, the first and second manipulation grooves 10 are designed to have a Z-shaped structure.

Further, the drag and drop device further comprises a drag and drop scroll wheel. The drag and drop roller is arranged on the drag and drop plate 5, so that the drag and drop plate 5 can move smoothly on the plate unloading platform.

Further, the drag-and-drop device further comprises a handle for facilitating the operation. The handles are fixedly arranged at the ends of the first and second operating levers 8 and 15.

The utility model discloses a working process and principle are: when the plate unloading machine works, the plate unloading motor 1 drives the dragging and dropping plate 5 to move forwards on the plate unloading platform through the first chain 3, when the plate unloading platform reaches the end of the plate unloading platform, if the first dragging and dropping rod 7 cannot reach the hook plate 9, the dragging and dropping cylinder 11 is started to push the second dragging and dropping rod 14 to extend forwards to the position above the hook plate 9, at the moment, a worker operates the second operating rod 15 to change the position of the second dragging and dropping rod 14 so that the second dragging and dropping rod can stably hook the hook plate 9, and then after the plate unloading motor 1 drives the dragging and dropping plate 5 to reset for a distance through the first chain 3, the worker operates the second operating rod 15 to reset and separate the second operating rod from the connection with the hook plate 9; then the drag and drop cylinder 11 is reset, the drag and drop plate 5 moves forward again to enable the first drag and drop rod 7 to reach the position of the hook plate 9, a worker operates the first operating lever 8 to enable the first operating lever to hook the hook plate 9, and finally the plate unloading motor 1 drives the drag and drop plate 5, the mold bottom plate and the formed wall material to reach the plate unloading platform through the first chain 3 to complete the demolding and plate unloading processes of the formed wall material; because the wall materials dragged out have a certain gap, the wall materials are not beneficial to subsequent loading and storage, the pushing motor 17 needs to be started, the second chain 19 drives the pushing seat 21 and the pushing block 23 to advance and pushes the wall materials on the unloading platform forward together to enable the wall materials to be arranged in parallel, and the pushing motor 17 resets after pushing is completed to wait for the next pushing operation. The utility model discloses still have simple structure, convenient operation, easy advantage of implementing.

The above embodiments are preferred embodiments of the present invention, but the embodiments of the present invention are not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be equivalent replacement modes, and all are included in the scope of the present invention.

Claims (9)

1. A pushing mechanism for producing light wall materials is characterized by comprising a plate unloading platform, a pushing driving device and a pushing device for combining the wall materials; the plate unloading platform is horizontally and fixedly arranged on the plate unloading station, and a plurality of pushing grooves are formed in the plate unloading platform; the pushing slots are arranged in parallel and are vertical to the plate unloading direction; the pushing device is arranged in the pushing open groove and can slide back and forth along the pushing open groove; the pushing driving device is arranged at the bottom of the plate unloading platform, is connected with the pushing device and drives the pushing device to move;

the pushing driving device comprises a pushing motor, a second transmission shaft, a second chain, a second driven shaft, a second driving wheel and a second driven wheel; the second transmission shaft and the second driven shaft are horizontally arranged at the bottom of the plate unloading platform and are vertical to the pushing slotting direction; the second driving wheels are respectively arranged at two ends of the second transmission shaft; the second driven wheels are respectively arranged at two ends of a second driven shaft; the second chains are respectively arranged at two ends of the second transmission shaft and the second driven shaft and are connected with the second driving wheel and the second driven wheel; the pushing device is fixedly connected with the second chain, the output end of the pushing motor is connected with the second transmission shaft, and the pushing device is driven to move in the pushing groove through the second transmission shaft and the second chain.

2. The pushing mechanism for producing lightweight wall materials as claimed in claim 1, wherein the pushing device comprises a pushing base, a pushing guide rail, a baffle plate, a pushing block, a rotating shaft, a spring and a pushing roller; the pushing rollers are arranged on two sides of the pushing seat; the pushing guide rails are arranged on two sides of the pushing groove; the pushing seat is arranged in the pushing groove, and the pushing roller is connected with the pushing guide rail; the bottom of the pushing seat is fixedly connected with the second chain; the pushing block is arranged in the pushing seat through a rotating shaft and can rotate around the rotating shaft; one end of the spring is fixed on the pushing seat, and the other end of the spring is connected with the bottom of the pushing block; the baffle is installed at the top of the pushing seat and is located at the rear side of the pushing block.

3. The pushing mechanism for producing lightweight wall materials as claimed in claim 2, wherein the bottom of the pushing block is designed to be a fan-shaped structure.

4. The pushing mechanism for producing lightweight wall material as claimed in claim 1, further comprising a drag and drop device for pulling the wall material out of the mold, and a panel unloading driving device; the plate unloading driving device is arranged on the plate unloading platform; the drag-and-drop device is arranged on the plate unloading platform, is connected with the plate unloading driving device and is driven by the plate unloading driving device to reciprocate on the plate unloading platform;

the plate unloading driving device comprises a plate unloading motor, a first transmission shaft, a first chain, a first driven shaft, a first driving wheel and a first driven wheel; the first transmission shaft and the first driven shaft are respectively arranged on two sides of the plate unloading platform and are vertical to the plate unloading direction; the first driving wheels are respectively arranged at two ends of the first transmission shaft; the first driven wheels are respectively arranged at two ends of the first driven shaft; two ends of the drag-and-drop device are respectively fixedly connected with the first chains at two sides; the plate unloading motor is arranged on one side of the plate unloading platform, is connected with the first transmission shaft and drives the drag-and-drop device to move back and forth through the first chain.

5. The pushing mechanism for producing lightweight wall material as claimed in claim 4, wherein said drag and drop means comprises a drag and drop plate, a first sleeve, a first drag and drop rod, a first operating rod, a hook plate, and a first connecting rod; one end of the hook plate is arranged on a bottom plate of the mold, and the other end of the hook plate extends outwards; the dragging and dropping plate is horizontally arranged on the plate unloading platform, and two ends of the dragging and dropping plate are respectively fixedly connected with the first chains at two sides and driven by the first chains; one end of the first connecting rod is fixed with the first sleeve, and the other end of the first connecting rod is fixedly connected with the drag-drop plate; one end of the first operating rod is inserted into the first sleeve; the first sleeve is also provided with a first control slot, and the first control slot penetrates from the outer wall to the inner wall of the first sleeve; the first dragging and dropping rod is positioned outside the first sleeve, is arranged in parallel with the first sleeve and is fixedly connected with the first operating rod in the first sleeve through the operating groove.

6. The pushing mechanism for producing lightweight wall materials as claimed in claim 5, wherein the dragging and dropping device further comprises a dragging and dropping cylinder, a dragging and dropping guide rod, a second sleeve, a second dragging and dropping rod, a second operating rod and a second connecting rod which are positioned above the first dragging and dropping rod; the drag-and-drop cylinder is arranged on the drag-and-drop plate, and the output end of the drag-and-drop cylinder is fixedly connected with the second connecting rod; the drag-and-drop guide rods are arranged on the drag-and-drop plate side by side and are parallel to the drag-and-drop direction; the second connecting rod is arranged on the drag-and-drop guide rod and can slide back and forth along the drag-and-drop guide rod under the driving of the drag-and-drop cylinder; the second drag-and-drop rod is arranged on one side of the second sleeve, and the other side of the second sleeve is fixedly connected with the second connecting rod; the second sleeve is arranged in parallel with the first sleeve, and a second control slot is also arranged on the second sleeve; one end of the second operating rod is inserted into the second sleeve and fixedly connected with the second drag and drop rod through the second operating slot.

7. The pushing mechanism for producing lightweight wall material as claimed in claim 6, wherein said first and second operating slots are of a Z-shaped configuration.

8. The pushing mechanism for producing lightweight wall materials as claimed in claim 5, wherein the dragging and dropping device further comprises a dragging and dropping roller; the drag and drop roller is arranged on the drag and drop plate, so that the drag and drop plate can move smoothly on the plate unloading platform.

9. The pushing mechanism for producing lightweight wall material as claimed in claim 6, wherein said drag and drop means further comprises a handle for easy manipulation; the handle is fixedly arranged at the tail ends of the first operating rod and the second operating rod.

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