CN107053449B

CN107053449B - A upset and die block distributor for composite wall panel makes

Info

Publication number: CN107053449B
Application number: CN201710423211.XA
Authority: CN
Inventors: 孙振锋; 江化民; 刘光瑞; 王中奎; 张素芳; 王艳波; 康艳平
Original assignee: China National United Equipment Group Corp Anyang Machinery Co ltd
Current assignee: China National United Equipment Group Corp Anyang Machinery Co ltd
Priority date: 2017-06-07
Filing date: 2017-06-07
Publication date: 2023-03-24
Anticipated expiration: 2037-06-07
Also published as: CN107053449A

Abstract

A upset and die block distributor for composite wall panel makes, upset and die block distributor include the plywood device, turning device, stretch out separator, die block distributor, the plywood hydro-cylinder promotes the plywood push away the frame left and makes the close connection of polylith composite wall panel accomplish the plywood together, die block closing device drive clamping jaw compresses tightly its corresponding die block, turning device upset 90 degrees, composite wall panel becomes the level by vertical range and stacks, stretch out the composite wall panel that separator moved and make the stack and move on a left side and break away from the die block, move the composite wall panel that the device will stack and move away from, turning device turns back 90 degrees, die block distributor moves and makes each die block draw-in groove according to the interval distribution before not closing the board. The device can adopt mechanized operation, and avoids the problems of high cost, product scratch, non-uniform quality and difficult standardized production caused by the user operation industry.

Description

Turnover and bottom die distribution machine for manufacturing composite wallboard

Technical Field

The invention relates to composite wallboard manufacturing equipment, in particular to a turnover and bottom die distribution machine for manufacturing composite wallboards, and belongs to the technical field of building material manufacturing equipment.

Background

At present, the novel steel bar mesh cage composite wallboard is applied more and more in the building due to simple construction, low cost and high efficiency, the novel composite wallboard is mainly a non-bearing light composite board formed by compounding a thin fiber cement calcium silicate board serving as a panel and a middle filling aggregate at one time, has the advantages of good sound insulation and heat insulation effects, high construction speed and the like, the aggregate can be made of construction waste, environmental protection and energy conservation can be realized, the novel steel bar mesh cage composite wallboard is a promising building material, most of the existing novel steel bar mesh cage composite wallboards are manufactured manually, the automation degree is low, the yield is low, the efficiency is low, the product quality is greatly restricted by operators, the specification and the quality are not easy to standardize, and the existing labor cost is more and more expensive, so that the novel steel bar mesh cage composite wallboard has higher production cost and cannot better participate in market competition, in the batch production, the composite wall boards are finished in a mould cavity when being poured and formed in the automatic batch production, a bottom mould is arranged at the bottom of the mould cavity, a vertical partition plate mould is arranged between the adjacent bottom moulds for separation, after a product is formed, the composite wall boards need to be separated from the bottom mould, and the bottom mould is reset for next pouring, the mode adopted in the production at present is that the bottom mould and the composite wall boards are pushed out from the mould box along the length direction of the partition plate mould, at present, a mechanical device is usually adopted to push all the composite wall boards and the bottom mould out of the mould box together, the pushed composite wall boards with the bottom moulds are arranged on a working surface at intervals, the interval distance between the two adjacent composite wall boards is the thickness of the partition plate mould, and then the composite wall boards are taken out from the bottom mould, the operations in the existing composite wallboard manufacturing process are basically manual operations, the composite wallboard is separated from the bottom die and then the bottom die is installed, and the manual operations obviously cannot meet the requirements of streamlined production and even cannot meet the requirements of production efficiency.

Disclosure of Invention

The invention aims to overcome the problems in the existing composite wallboard manufacturing and provides a turnover and bottom die distribution machine for manufacturing the composite wallboard.

In order to realize the purpose of the invention, the following technical scheme is adopted: a turnover and bottom die distributing machine for manufacturing composite wallboards comprises a board combining device, a turnover device, a stretching separation device and a bottom die distributing device,

the plate combining device comprises a horizontal support frame, a transverse support roller is arranged on the support frame, a plate combining oil cylinder is arranged at the right end of the support frame, a plate combining push frame is connected to a cylinder rod of the plate combining oil cylinder, the plate combining oil cylinder pushes the plate combining push frame to horizontally move from right to left, a plurality of composite wall plates are erected on a bottom die and press the support roller to enter a turnover and bottom die distributor, a gap equal to the thickness of a partition plate die is formed between every two adjacent composite wall plates, and the plate combining oil cylinder pushes the plate combining push frame leftwards to enable the composite wall plates to be closely combined together to complete plate combining;

the turnover device comprises an L-shaped frame, the bottom of the L-shaped frame is rotatably connected to the left end of the support frame, the rear end of the L-shaped frame is connected with a turnover oil cylinder through a connecting rod, the frame body of the L-shaped frame is positioned in a gap between the supporting rollers, the horizontal side of the L-shaped frame is defined as the horizontal side and the vertical side as the vertical side in a state before turnover, the height of the horizontal side of the L-shaped frame is positioned below the supporting rollers, a bottom die pressing device is arranged on the L-shaped frame and comprises two pressing claw rods rotatably connected to the L-shaped frame, the two pressing claw rods are in the same direction with the horizontal side, the two pressing claw rods are connected with a rotation driving device, a plurality of pressing claws are arranged on the two pressing claw rods, the number of the pressing claws is equal to that of the bottom die, the positions of the plurality of pressing claws correspond to the positions of the bottom die after the composite wallboards on the bottom die are combined together by the plywood device, one pressing claw rod is positioned in front of the bottom die, one pressing claw rod is positioned behind the bottom die, the rotation driving device drives the pressing claw rods to rotate, so that the front and the rear end of the bottom die and the hollow pressing claw is of the hollow structure;

the extension separating device comprises an extension sleeve sleeved on the vertical side of the L-shaped frame, an extension oil cylinder is connected to the vertical side of the L-shaped frame, and a cylinder rod extending out of the oil cylinder is connected to the extension sleeve;

the bottom die distribution device comprises a guide rail, a plurality of bottom die clamping grooves are arranged on the guide rail in a sliding mode, the number of the bottom die clamping grooves is the same as that of the bottom dies, when the bottom die clamping grooves are closely combined together, a plywood oil cylinder pushes a plywood push frame leftwards to enable a plurality of composite wallboards to be closely combined together, bottom dies below the composite wallboards are located above the bottom die clamping grooves, a flexible rope is connected between every two adjacent bottom die clamping grooves, the bottom die clamping groove at the leftmost end is limited on the guide rail 19 in the length direction of the guide rail, a linear driving device is connected to the bottom die clamping groove at the rightmost end, when the linear driving device moves leftwards, the bottom die clamping grooves are closely combined together, when the linear driving device moves rightwards, the bottom die clamping grooves are separately arranged on the guide rail through the flexible rope connected between the bottom die clamping groove at the rightmost end and the bottom die clamping grooves, each bottom die clamping groove is separately arranged on the guide rail, the upper portion of each bottom die clamping groove is vertically arranged on the bottom die and corresponds to a plurality of composite wallboards, a support roller is pressed on the bottom die to enter a non-combined plate after the turnover and bottom die distribution machine, the bottom die is moved upwards and downwards, the support roller moves upwards, the bottom die, the guide rail is connected to the bottom die;

when the device works, after the plate combination is completed, the bottom die clamping grooves are located at the lower position, the bottom die pressing device drives the pressing claws to press the corresponding bottom die, the overturning oil cylinder drives the horizontal edge of the L-shaped frame to overturn upwards by 90 degrees, the composite wall plates are horizontally stacked on the extending sleeve of the vertical edge of the L-shaped member from the horizontal edge of the L-shaped frame vertically arranged, the extending oil cylinder extends leftwards at the moment, the stacked composite wall plates move leftwards to be separated from the bottom die, the transferring device removes the stacked composite wall plates, the L-shaped frame turns back by 90 degrees under the driving of the overturning oil cylinder, the bottom die clamping grooves rise to the high position, each bottom die falls into the corresponding bottom die clamping groove, and the linear driving device moves rightwards to enable each bottom die clamping groove to be distributed according to the distance before the plate combination;

furthermore, the L-shaped frame at least comprises two vertical sides and two horizontal sides;

further, the linear driving device is a horizontal cylinder;

furthermore, the up-down moving device connected on the guide rail is two vertical cylinders, and the two vertical cylinders are distributed and connected below the guide rail from left to right;

furthermore, the body of the turnover oil cylinder is hinged on the support frame, a turnover arm is connected on the L-shaped frame, and a cylinder rod is hinged with the turnover arm;

furthermore, each pressure claw rod is connected with 10 pressure claws;

furthermore, the push plate frame transversely slides and penetrates through the supporting roller, the push plate frame and the supporting roller are in clearance fit in the circumferential direction, and the supporting roller is rotatably arranged on the supporting frame.

The invention has the positive and beneficial technical effects that: through the combined action of the plate combining device, the turnover device, the extension separating device and the bottom die distributing device, composite wallboards which are arranged on a working surface at intervals and are provided with bottom dies are pushed to the left transversely to complete plate combining, all the composite wallboards are erected on a supporting roller closely, then the L-shaped frame is overturned by 90 degrees after a pressing claw in the turnover device presses each bottom die, all the composite wallboards are stacked on the extension sleeve, the extension sleeve extends to the left to complete separation of each composite wallboard and the bottom die, each bottom die falls in a bottom die clamping groove of the corresponding bottom die distributing device after the L-shaped frame is overturned back, then each bottom die moves to the right through a horizontal cylinder to realize distribution of each bottom die according to the original distance, automatic distribution of the bottom dies is realized, and preparation work is prepared for each bottom die to automatically return to each partition plate die between each partition plate die of the die box. The device completely adopts mechanical operation, and avoids the problems of high cost, product scratching, non-uniform quality and difficult standardized production caused by the user operation industry.

Drawings

Fig. 1 is a schematic view of a bottom form and a bottom form used in the present invention and a composite wall panel thereon.

FIG. 2 is a schematic view of 10 composite wall panels with bottom molds after being simultaneously ejected from the mold cavities and the corresponding bottom mold profiles and their corresponding spacer mold and bottom mold profiles in the mold box; wherein the upper part is a distribution diagram of a corresponding clapboard mold and a bottom mold in the mold box; the middle part is a schematic diagram of the composite wallboard with the bottom die after being pushed out from the die cavity at the same time; the bottom is a corresponding bottom die distribution diagram.

Fig. 3 is a schematic diagram of 10 composite wallboard panels with bottom molds and the corresponding bottom mold distribution diagram.

FIG. 4 is a schematic view of the apparatus without the bottom mold.

FIG. 5 is a schematic view of the entire apparatus with a bottom mold.

Fig. 6 is a schematic bottom view of the device.

Fig. 7 is a schematic top view of the apparatus.

FIG. 8 is a schematic view of a bottom die distribution apparatus.

Fig. 9 is a schematic view of the bottom die pressing means.

Detailed Description

In order to more fully explain the implementation of the present invention, examples of the implementation of the present invention are provided. These examples are merely illustrative of the present invention and do not limit the scope of the present invention.

For a further detailed explanation of the invention with reference to the drawings, the directions in the device are defined as follows: the end of the plate combining oil cylinder is the right end, the vertical edge end of the L-shaped frame is the left end, and the position of the overturning oil cylinder is the rear. The various references in the drawings are: 1: bottom die; 2: a separator plate mold; 3: a composite wallboard; 4: a support frame; 5: a support roller; 6: a plywood cylinder; 7: a plywood pushing frame; 8, horizontal edge; 9: a vertical side; 10: extending the sleeve; 11: extending out of the oil cylinder; 12: a front pressure claw rod; 13: front pressing claws; 14: a rear pressing claw rod; 15, pressing the claw backwards; 16: an L-shaped frame; 17: a turning arm; 18: turning over the oil cylinder; 19: a guide rail; 20: a bottom die clamping groove; 21: a vertical cylinder; 22: the rear pressing claw rod drives the cylinder; 23: the front pressing claw rod drives the cylinder; 24: a flexible cord; 25: the bottom die is distributed with driving cylinders. First, 10 pieces of composite wall panels are taken as an example to describe the state of the composite wall panels entering the device from the mold box. Fig. 1 is a bottom die related to the device, 3 is a composite wallboard positioned on the bottom die after molding, 2 is a partition plate die, the distribution of the bottom die and the partition plate die is shown in the upper part of fig. 2 during pouring, after pouring is completed, 10 pieces of composite wallboard are erected on the bottom die and press a support roller to enter a turnover and bottom die distribution machine, as shown in the middle part of fig. 2, and the lower part of fig. 2 is a distribution schematic diagram of each bottom die when the device is pushed out. As shown in the attached drawings, the turnover and bottom die distributing machine for manufacturing the composite wallboard comprises a plywood device, a turnover device, a stretching separation device and a bottom die distributing device,

plywood device include horizontally support frame 4, be provided with horizontal backing roll 5 on the support frame 4, backing roll 5 rotates and sets up on the support frame 4, and the right-hand member portion of support frame 4 is provided with plywood hydro-cylinder 6, is connected with plywood push frame 7 on the jar pole of plywood hydro-cylinder, plywood push frame 7 lateral sliding wear to establish on backing roll 5,

plywood push frame

7 and 5 circumference of backup roll between be clearance fit, plywood hydro-cylinder 6 promotes plywood push frame 7 horizontal migration from the right side left side, polylith composite wall board is erect and is being pressed the backing roll on the die block and get into upset and die block distributor, have the clearance that equals with baffle mould thickness between two adjacent composite wall board, this state sees the figure in the middle part of figure 2, plywood hydro-cylinder promotes plywood push frame left and makes polylith composite wall board be close to accomplish the plywood together next to, figure 3 is that 10 composite wall boards that are located in the die block accomplish the schematic diagram behind the plywood.

The turning device comprises an L-shaped frame 16, the bottom of the L-shaped frame 16 is rotatably connected to the left end of the support frame 4, the rear end of the L-shaped frame 16 is connected with a turning oil cylinder through a turning arm, the frame body of the L-shaped frame is positioned in a gap between the support rollers, the horizontal side of the L-shaped frame is defined as the horizontal side in a state before turning, 8 is shown as the horizontal side, the vertical side is the vertical side, 9 is shown as the vertical side, before turning, the height of the horizontal side of the L-shaped frame 16 is positioned below the support rollers, a bottom die pressing device is arranged on the L-shaped frame 16 and comprises two pressing claw rods rotatably connected to the L-shaped frame, and 12 is a front pressing claw rod in the figure; in the embodiment, the rotation driving device adopts a cylinder, in the figure, 22 is a rear pressing claw rod driving cylinder, 23 is a front pressing claw rod driving cylinder, a plurality of pressing claws are arranged on the two pressing claw rods, and in the embodiment, each pressing claw rod is connected with 10 pressing claws; FIG. 13 shows a front pressing claw; is arranged on the front pressure claw rod; 15 is a rear press claw, set up on the rear press claw pole, the quantity of the press claw on each press claw pole is equal to quantity of the bottom die, the position that the left and right direction distributes corresponds to position after the plywood device combines the composite wall board on each bottom die together, two press claw poles are located before the bottom die, one is located behind the bottom die, rotate the drive unit and drive the press claw pole to rotate, make the press claw on two press claw poles before and after pressing the front end and rear end of its correspondent bottom die separately, the bottom die bottom is a double-deck hollow structure, the double-deck hollow structure is shown in figure 1, the press claw presses on the lower surface of the hollow structure;

the extension separating device comprises an extension sleeve 10 sleeved on the vertical side of the L-shaped frame 16, an extension oil cylinder 11 is connected to the left side of the vertical side of the L-shaped frame 16, and a cylinder rod extending out of the oil cylinder 11 is connected to the extension sleeve 10; the L-shaped frame is at least provided with two vertical sides and two horizontal sides; the L-shaped frame in the figure is provided with two vertical edges which are connected with an extending cylinder and an output sleeve;

the bottom die distribution device comprises a guide rail 19, a plurality of bottom die clamping grooves are arranged on the guide rail 19 in a sliding mode, 20 bottom die clamping grooves are shown, the number of the bottom die clamping grooves is the same as that of the bottom dies, in the embodiment, 10 bottom dies and 10 bottom die clamping grooves are arranged, when a plurality of bottom die clamping grooves are closely combined together, a plywood oil cylinder pushes a plywood push frame leftwards to enable bottom dies below each composite wallboard to be located right above each bottom die clamping groove when a plurality of composite wallboards are closely combined together, a flexible rope is connected between every two adjacent bottom die clamping grooves, 24 is a flexible rope, the length of the flexible rope is required to ensure that after each bottom die clamping groove is completely and separately arranged on the guide rail, namely when the flexible rope is in a linear state, a plurality of composite wallboards are vertically arranged above each bottom die clamping groove and press a supporting roller to enter the bottom die to be arranged before the overturning and the bottom die distributor is not combined, namely the bottom die position distribution in figure 2 is realized, the flexible rope can be a steel wire rope, the bottom die clamping groove at the leftmost end is limited on the guide rail 19 in the length direction of the guide rail and can be fixedly connected between the bottom die clamping groove at the leftmost end and the guide rail or can be realized by arranging a limiting block on the guide rail, and can also be realized by arranging a locking device between the bottom die clamping groove at the leftmost end and the guide rail, if a screw hole can be formed in the bottom die clamping groove, a locking bolt is arranged in the screw hole, the bottom die clamping groove at the leftmost end can be fixed on the guide rail by screwing the locking bolt, a linear driving device is connected on the bottom die clamping groove at the rightmost end and adopts a cylinder, a bottom die distribution driving cylinder shown by 25 is a linear driving device connected on the bottom die clamping groove, and the bottom die distribution driving cylinder is a horizontal cylinder in the application, when the linear driving device moves leftwards, the bottom die clamping grooves are tightly combined together, when the linear driving device moves rightwards, the bottom die clamping grooves are separately arranged on the guide rail 19 by pulling the bottom die clamping groove at the rightmost end and the flexible rope connected between the bottom die clamping grooves, after the bottom die clamping grooves are separately arranged on the guide rail, a plurality of composite wall boards are vertically arranged above each bottom die clamping groove and press a bottom die on the bottom die before a support roller enters a turnover and bottom die distributor and before the support roller is not combined, the guide rail is connected to an up-down moving device, the up-down moving device connected to the guide rail is two vertical cylinders, the two vertical cylinders are distributed and connected below the guide rail in a left-right mode, the two vertical cylinders are shown as 21 and are also used as the up-down moving device in the application, after the up-down moving device moves downwards, the bottom die clamping groove is located at the lower position and is lower than the horizontal edge of the L-shaped frame, and after the up-down moving device moves upwards, the bottom die clamping groove is located at the higher position and higher than the support roller;

when the device works, after the plywood is completed, the bottom die clamping grooves are located at the lower position together, the bottom die pressing device drives the pressing claws to press the corresponding bottom die, the overturning oil cylinder drives the horizontal edge of the L-shaped frame to overturn upwards by 90 degrees, the composite wall boards are horizontally stacked on the extending sleeve of the vertical edge of the L-shaped frame from the horizontal edge vertically arranged on the L-shaped frame, at the moment, the extending oil cylinder extends leftwards to enable the stacked composite wall boards to move leftwards to be separated from the bottom die, the transferring device moves the stacked composite wall boards away, the L-shaped frame overturns for 90 degrees under the driving of the overturning oil cylinder, the bottom die clamping grooves ascend to the high position, each bottom die falls into the corresponding bottom die clamping groove, the linear driving device moves rightwards to enable each bottom die clamping groove to be distributed at the position before the plywood is not combined, and the bottom die distribution is completed.

According to the combined action of the plate combining device, the turnover device, the extension separating device and the bottom die distributing device, firstly, composite wallboards with bottom dies are transversely pushed leftwards to complete plate combining on a working face (namely a supporting roller in the device) at intervals, all the composite wallboards are enabled to be tightly erected on the supporting roller, then pressing claws in the turnover device press all the bottom dies and then turn over for 90 degrees, all the composite wallboards are enabled to be stacked on the extension sleeve, the extension sleeve extends leftwards to complete separation of all the composite wallboards and the bottom dies, after L-shaped frame is turned backwards, all the bottom dies fall into bottom die clamping grooves of the corresponding bottom die distributing device, pressing claw rods rotate to enable all the pressing claws not to press the corresponding bottom dies, then, horizontal air cylinders move rightwards to achieve distribution of all the bottom dies according to the original intervals, automatic distribution of the bottom dies is achieved, and preparation work is well done for all the bottom dies to automatically return to between partition dies of a die box.

After the embodiments of the present invention have been described in detail, it will be apparent to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the appended claims, and any simple modifications, equivalent changes and modifications made to the above embodiments based on the technical essence of the present invention are within the scope of the technical solution of the present invention, and the present invention is not limited to the embodiments exemplified in the description.

Claims

1. A upset and die block distributor for composite wall panel makes, its characterized in that: the turnover and bottom die distributing machine comprises a plate combining device, a turnover device, a stretching separation device and a bottom die distributing device,

the turnover device comprises an L-shaped frame, the bottom of the L-shaped frame is rotatably connected to the left end of the support frame, the rear end of the L-shaped frame is connected with a turnover oil cylinder through a connecting rod, the frame body of the L-shaped frame is positioned in a gap between the supporting rollers, the horizontal side and the vertical side of the L-shaped frame are defined in an actual state before turnover, the height of the horizontal side of the L-shaped frame is positioned below the supporting rollers, a bottom die pressing device is arranged on the L-shaped frame and comprises two pressing claw rods rotatably connected to the L-shaped frame, the two pressing claw rods are in the same direction with the horizontal side, the two pressing claw rods are connected with a rotation driving device, a plurality of pressing claws are arranged on the two pressing claw rods, the number of the pressing claws is equal to that of the bottom die, the positions of the plurality of pressing claws correspond to the positions of the bottom die after the composite wallboards on the bottom die are combined together by the plywood device, one pressing claw rod is positioned in front of the bottom die, the hollow driving claw rods rotate after the two pressing claw rods are positioned behind the bottom die, and the pressing claws on the bottom die are of the double-layer structure;

the extension separating device comprises an extension sleeve sleeved on the vertical edge of the L-shaped frame, an extension oil cylinder is connected to the vertical edge of the L-shaped frame, and a cylinder rod extending out of the oil cylinder is connected to the extension sleeve;

the bottom die distribution device comprises a guide rail, a plurality of bottom die clamping grooves are arranged on the guide rail in a sliding mode, the number of the bottom die clamping grooves is the same as that of the bottom dies, when the bottom die clamping grooves are closely combined together, a plywood oil cylinder pushes a plywood push frame leftwards to enable a plurality of composite wallboards to be closely combined together, bottom dies below the composite wallboards are located right above the bottom die clamping grooves, a flexible rope is connected between every two adjacent bottom die clamping grooves, the bottom die clamping groove at the leftmost end is limited on the guide rail in the length direction of the guide rail, a linear driving device is connected to the bottom die clamping groove at the rightmost end, when the linear driving device moves leftwards, the bottom die clamping grooves are closely combined together, when the linear driving device moves rightwards, the bottom die clamping grooves are separately arranged on the guide rail through the flexible rope connected between the bottom die clamping groove at the rightmost end and the bottom die clamping grooves, each bottom die clamping groove is separately arranged on the guide rail, the upper portion of each bottom die clamping groove is vertically arranged on the bottom die and corresponds to a plurality of composite wallboards, a support roller is pressed on the bottom die to enter a non-combined plate after the turnover and bottom die distribution machine, the bottom die is moved upwards and downwards, the support roller moves upwards, the lower side, the lower die moves upwards and higher than the lower die, and the lower side of the lower die, and the lower die distribution device, and the upper die;

when the device works, after the plywood is completed, the bottom die clamping grooves are located at the lower position together, the bottom die pressing device drives the pressing claws to press the corresponding bottom die, the overturning oil cylinder drives the horizontal edge of the L-shaped frame to overturn upwards by 90 degrees, the composite wall boards are horizontally stacked on the extending sleeve of the vertical edge of the L-shaped frame from the horizontal edge vertically arranged on the L-shaped frame, at the moment, the extending oil cylinder extends leftwards to enable the stacked composite wall boards to move leftwards to be separated from the bottom die, the transferring device moves the stacked composite wall boards away, the L-shaped frame overturns for 90 degrees under the driving of the overturning oil cylinder, the bottom die clamping grooves ascend to the high position, each bottom die falls into the corresponding bottom die clamping groove, the linear driving device moves rightwards to enable each bottom die clamping groove to be distributed according to the distance before the plywood is not combined.

2. The turning and bottom die distributor for composite wallboard manufacturing of claim 1, wherein: the L-shaped frame is at least provided with two vertical sides and two horizontal sides.

3. The turning and bottom die distributor for composite wallboard manufacturing of claim 1, wherein: the linear driving device is a horizontal cylinder.

4. The turning and bottom die distributor for composite wallboard manufacturing of claim 1, wherein: the up-down moving device connected on the guide rail is two vertical cylinders which are distributed and connected under the guide rail.

5. The turning and bottom die distributor for composite wallboard manufacturing of claim 1, wherein: the body of the turnover oil cylinder is hinged on the support frame, the L-shaped frame is connected with a turnover arm, and the cylinder rod is hinged with the turnover arm.

6. The turning and bottom die distributor for composite wallboard manufacturing of claim 1, wherein: each pressure claw rod is connected with 10 pressure claws.

7. The turning and bottom die distributor for composite wallboard manufacturing of claim 1, wherein: the plywood pushing frame transversely slides to penetrate through the supporting roller, the plywood pushing frame and the supporting roller are in clearance fit in the circumferential direction, and the supporting roller is rotatably arranged on the supporting frame.