阅读说明：本技术 一种混凝土墙板预制生产装置及其生产方法 (Precast concrete wallboard production device and production method thereof ) 是由 常青 于 2021-08-10 设计创作，主要内容包括：本发明公开一种混凝土墙板预制生产装置及其生产方法,一种混凝土墙板预制生产装置,墙板预制生产装置包括取料组件,所述取料组件包括移动架,移动架内设有吊装组件,吊装组件包括吊装架,吊装架下方设有移动组件,移动组件包括调节组件,调节组件包括安装架,安装架内设有两组可移动的调节板,调节板上方设有阵列分布的电动转轴,电动转轴上设有阵列分布的调节轮,调安装架内设有对中组件。发明墙板预制生产装置采用单气缸同步推动结构对向运行,同步性高,避免了由于多个驱动源导致的运行时间、行程的不统一,提高了运行稳定性、准确性,能够根据实际切割的宽度自行调节调节轮的间距,有效避免切割后的预制混凝土墙板掉落,提高生产安全性。(The invention discloses a precast concrete wallboard production device and a production method thereof. The wallboard prefabrication production device provided by the invention adopts a single-cylinder synchronous pushing structure to run oppositely, the synchronism is high, the non-uniformity of running time and stroke caused by a plurality of driving sources is avoided, the running stability and the running accuracy are improved, the distance between the adjusting wheels can be automatically adjusted according to the actual cutting width, the cut precast concrete wallboard is effectively prevented from falling, and the production safety is improved.)

1. A precast production device of a concrete wallboard comprises a material taking component (1), the material taking assembly is characterized in that the material taking assembly (1) comprises a moving frame (2), a hoisting assembly (3) is arranged in the moving frame (2), the hoisting assembly (3) comprises a hoisting frame (31), second slide rails (34) which are symmetrically distributed are arranged at two outer ends of the hoisting frame (31), second slide blocks (341) which are distributed in an array mode are arranged above the second slide rails (34), a first moving plate (342) is arranged on each second slide block (341), moving rods (343) are arranged on each first moving plate (342), a first connecting frame (344) is arranged on one group of moving rods (343), a second connecting frame (345) is arranged on the other group of moving rods (343), first idler wheels (36) which are distributed in an array mode are further arranged at one outer end of the hoisting frame (31), and first synchronous belts (361) which are in rotating fit are arranged on the first idler wheels (36);

hoist and mount frame (31) below is equipped with removal subassembly (4), removal subassembly (4) are including adjusting part (5), adjusting part (5) are including mounting bracket (51), be equipped with two sets of mobilizable regulating plate (52) in mounting bracket (51), regulating plate (52) top is equipped with electronic pivot (53) of array distribution, be equipped with regulating wheel (54) of array distribution on electronic pivot (53), be equipped with centering subassembly (6) in mounting bracket (51), centering subassembly (6) are including first centering subassembly (7), first centering subassembly (7) are including first erection column (71), first erection column (71) top is equipped with first centering (74), second centering (75), first erection column (71) below is equipped with second centering subassembly (8), second centering subassembly (8) are including second erection column (81), second erection column (81) top is equipped with third centering (84), A fourth centering rack (85).

2. The precast concrete wall panel production device according to claim 1, characterized in that the moving frame (2) is provided with moving wheels (21) thereunder, the moving frame (2) is provided with first slide rails (22) which are symmetrically distributed, the upper end of the moving frame (2) is provided with a first motor (23), the first motor (23) is connected with a speed reducer, two sides of the speed reducer are provided with rotating shafts (25), one end of each rotating shaft (25) is provided with a bearing seat (24), each rotating shaft (25) is provided with a wire wheel (26), and each wire wheel (26) is provided with a lifting rope (27).

3. The precast production device of concrete wall panels according to claim 1, wherein the hoisting frame (31) is provided with symmetrically distributed hoisting blocks (311), one end of the lifting rope (27) is fixed on the hoisting blocks (311), the hoisting frame (31) is internally provided with first mounting frames (32) distributed in an array manner, the first mounting frames (32) are provided with symmetrically distributed first sliding blocks (33), the first sliding blocks (33) are in sliding fit with the first sliding rails (22), the hoisting frame (31) is linearly lifted in the moving frame (2), the first connecting frame (344) and the second connecting frame (345) are fixedly connected with a first synchronous belt (361), the symmetrically distributed moving rods (343) are provided with grabbing rods (35) therebetween, the lower portions of the grabbing rods (35) are provided with extracting plates (351), a first air cylinder (37) is arranged between the second sliding rails (34), and the telescopic end of the first air cylinder (37) is provided with a first connecting block (371), the other group of moving rods (343) is also provided with a second connecting block (346), the first connecting block (371) is connected with the second connecting block (346), and the telescopic end of the first air cylinder (37) pushes the second connecting block (346) to move.

4. The precast concrete wall panel production device according to claim 1, wherein third slide rails (511) are symmetrically arranged in the mounting frame (51), third slide blocks (521) are arranged at both ends of the adjusting plate (52), the third slide blocks (521) are in sliding fit with the third slide rails (511), a slot (522) is arranged in the adjusting plate (52), guide blocks (523) are symmetrically distributed in an array manner in the slot (522), the electric rotating shaft (53) is rotatably connected with the mounting frame (51), axially distributed limit grooves (531) are arranged on the electric rotating shaft (53), a circular groove (541) is arranged in the adjusting wheel (54), axially distributed limit blocks (542) are arranged in the circular groove (541), the limit blocks (542) slide in the limit grooves (531), and an auxiliary wheel (543) is arranged outside the adjusting wheel (54).

5. The precast concrete wall panel production device according to claim 1, characterized in that one set of the adjusting plates (52) is provided with a first connecting plate (55) at one end, the other set of the adjusting plates (52) is also provided with a first connecting plate (55) at the other end, second cylinders (56) are respectively arranged at two ends of the mounting frame (51), the two ends of the mounting frame (51) are provided with telescopic ends of the second cylinders (56) which move in opposite directions, the telescopic ends of the second cylinders (56) are fixedly connected with the first connecting plate (55), the second cylinders (56) push the first connecting plate (55) to move, the first connecting plate (55) drives the adjusting plates (52) to move, and guide blocks (523) arranged in the adjusting plates (52) drive the adjusting wheels (54) to move to adjust the distance.

6. The precast production device of a concrete wall panel according to claim 1, characterized in that the first mounting column (71) is fixed in the mounting frame (51), the first mounting column (71) is provided with symmetrically distributed fourth sliding rails (72), the fourth sliding rails (72) are provided with fourth sliding blocks (721) in sliding connection, both ends of the first mounting column (71) are provided with first mounting plates (73), the first mounting plates (73) are provided with second rollers (731), the second rollers (731) are provided with second synchronous belts (732) in rotating connection, one group of the fourth sliding blocks (721) is provided with first centering frames (74), the other group of the fourth sliding blocks (721) is provided with second centering frames (75), one side of the first centering frames (74) is provided with third connecting frames (741), the third connecting frames (741) are fixedly connected with the second synchronous belts (732), the first centering frames (742) are provided on the first centering frames (74), second centering frame (75) one side is equipped with fourth link (751), fourth link (751) and second hold-in range (732) fixed connection, is equipped with second centering board (752) on second centering frame (75), and second centering frame (75) have second connecting plate (753), and first erection column (71) one side is equipped with third cylinder (76), and the flexible end of third cylinder (76) and second connecting plate (753) fixed connection.

7. The precast concrete wall panel production device according to claim 1, characterized in that the second mounting column (81) is fixed at the bottom in the mounting frame (51), the second mounting column (81) is provided with symmetrically distributed fifth slide rails (83), the fifth slide rails (83) are provided with fifth sliding blocks (831) in sliding fit, the two ends of the second mounting column (81) are provided with second mounting plates (82), the lower part of the second mounting plates (82) is provided with third rollers (821), the third rollers (821) are provided with third synchronous belts (822) in rotating connection, one group of the fifth sliding blocks (831) are provided with third centering frames (84), and the other group of the fifth sliding blocks (831) are provided with fourth centering frames (85).

8. A concrete wall panel prefabrication production apparatus as claimed in claim 1, third centering frame (84) one side is equipped with fourth cylinder (841), the flexible end in fourth cylinder (841) top is equipped with third centering plate (842), third centering frame (84) has third connecting plate (843) down, third centering frame (84) one end is equipped with fifth link (844), fourth centering frame (85) one side is equipped with fifth cylinder (851), the flexible end in fifth cylinder (851) side is equipped with fourth centering plate (852), fourth centering frame (85) one end is equipped with sixth link (853), fifth link (844), sixth link (853) and third hold-in range (822) fixed connection, second erection column (81) one side is equipped with sixth cylinder (86), the flexible end of sixth cylinder (86) and third connecting plate (843) fixed connection.

9. The production method of the concrete wall panel prefabrication production device according to any one of claims 1 to 8, characterized in that the production method comprises the following steps:

the method comprises the following steps: the moving wheel (21) drives the moving frame (2) to move to the position of the stacked precast concrete wall panel, the first motor (23) drives the rotating shaft (25) to rotate, and the rotating shaft (25) drives the lifting rope (27) to extend, so that the lifting frame (31) descends to the position of the precast concrete wall panel;

step two: the telescopic end of the first cylinder (37) pushes the second connecting block (346) to move, the second connecting block (346) drives the other group of moving rods (343) to move, the other group of moving rods (343) drives the second connecting frame (345) to move, the second connecting frame (345) drives the first synchronous belt (361) to rotate, the first synchronous belt (361) drives the first connecting frame (344) to move, so that the two groups of first moving plates (342) move oppositely, the extracting plate (351) is driven to clamp the precast concrete wallboard, the first motor (23) drives the hoisting frame (31) to ascend, the moving wheel (21) drives the moving frame (2) to move to the position above the moving assembly (4), the hoisting frame (31) descends to place the precast concrete wallboard on the adjusting wheel (54), and the extracting plate (351) leaves after loosening the precast concrete wallboard;

step three: an electric rotating shaft (53) drives an adjusting wheel (54) to rotate, the adjusting wheel (54) drives a precast concrete wallboard to move to a specified position, a third air cylinder (76) drives a second connecting plate (753) to move, the second connecting plate (753) drives a second centering frame (75) to move, the second centering frame (75) drives a fourth connecting frame (751) to move, the fourth connecting frame (751) drives a second synchronous belt (732) to rotate, the second synchronous belt (732) drives a third connecting frame (741) to move, so that the first centering frame (74) and the second centering frame (75) oppositely synchronously move, the first centering frame (742) and the second centering frame (752) synchronously move relatively, the fourth air cylinder (841) jacks up a third centering plate (842), the fifth air cylinder (851) jacks up the fourth centering plate (852), the sixth air cylinder (86) drives a third connecting plate (843) to move, and the third connecting plate (843) drives a third centering frame (84) to move, the third centering frame (84) drives the fifth connecting frame (844) to move, the fifth connecting frame (844) drives the third synchronous belt (822) to rotate, the third synchronous belt (822) drives the sixth connecting frame (853) to move, so that the third centering frame (84) and the fourth centering frame (85) synchronously move in opposite directions, and the third centering plate (842) and the fourth centering plate (852) synchronously move in relative directions;

step four: first centering plate (742), second centering plate (752), third centering plate (842) and fourth centering plate (852) are with precast concrete wallboard centering location, according to the cutting width, second cylinder (56) promote first connecting plate (55) and remove, first connecting plate (55) drive regulating plate (52) and remove, guide block (523) that are equipped with in regulating plate (52) drive regulating wheel (54) and remove the regulation interval, auxiliary wheel (543) rotate during the removal, prevent precast concrete wallboard hard removal, then cutting device cuts precast concrete wallboard, after the cutting is accomplished, regulating wheel (54) rotate and drive the precast concrete wallboard removal after the cutting and leave.

Technical Field

The invention relates to the technical field of concrete product production, in particular to a precast concrete wallboard production device and a production method thereof.

Background

The reinforced concrete plate-shaped member for building assembly, referred to as a wallboard or a wall plate, is processed and manufactured in a prefabrication plant (field) or a building site. The prefabricated concrete wallboard is adopted to build the assembled large-plate building, so that the factory and mechanical construction degree can be improved, the field wet operation is reduced, the field labor is saved, the seasonal influence is overcome, and the building construction period is shortened. Divide into interior wallboard and side fascia two major types according to service function, interior wallboard has horizontal wallboard, indulges wallboard and partition wall board three kinds, and the side fascia has positive side fascia, gable board and eaves wallboard three kinds. The production of precast concrete wallboard mostly adopts same mould production, build the in-process assembling, part special part needs to cut the processing to batch production's precast concrete wallboard, conventional cutting is handled mostly and is cut the processing through the staff by oneself at the job site, the accuracy is not high, need cut the processing in batches to highly higher building, the cost of labor is high, it is efficient slow, and cut the cutting of precast concrete wallboard and adopt the blade cutting mostly, the precast concrete wallboard need be surely gone out to the blade, consequently, need carry out some supports to precast concrete wallboard, precast concrete wallboard can the slope that drops after the cutting is accomplished, need artifical the rightting just can transport the transport, whole cutting processing operation is complicated difficult, produce engineering accident easily. In order to solve the problem, a concrete wallboard prefabricating production device and a production method thereof are provided.

Disclosure of Invention

The invention aims to provide a precast concrete wallboard production device and a production method thereof, which can effectively overcome the defects in the background technology, and the precast concrete wallboard production device has the advantages of stable structure and practical function, adopts a single cylinder to synchronously push a structure to oppositely run, has high synchronism, avoids the non-uniformity of running time and stroke caused by a plurality of driving sources, improves the running stability and accuracy, can automatically adjust the distance of adjusting wheels according to the actual cutting width, effectively avoids the precast concrete wallboard after cutting from falling, improves the production safety, is also provided with auxiliary wheels with vertical angles, can prevent the precast concrete wallboard from generating hard movement during centering, improves the smoothness of centering movement, and reduces the damage probability of parts.

The purpose of the invention can be realized by the following technical scheme:

a prefabricated apparatus for producing concrete wall panels comprises a material taking assembly, wherein the material taking assembly comprises a moving frame, a hoisting assembly is arranged in the moving frame, the hoisting assembly comprises a hoisting frame, two ends of the outside of the hoisting frame are respectively provided with a second slide rail which is symmetrically distributed, second slide blocks which are distributed in an array manner are arranged above the second slide rails, a first moving plate is arranged on each second slide block, moving rods are arranged on each first moving plate, a first connecting frame is arranged on one moving rod group, a second connecting frame is arranged on the other moving rod group, first idler wheels which are distributed in an array manner are further arranged at one end of the outside of the hoisting frame, and a first synchronous belt which is in rotating fit with the first idler wheels is arranged on the first idler wheels;

the lifting frame is equipped with the removal subassembly below, the removal subassembly includes adjusting part, adjusting part includes the mounting bracket, be equipped with two sets of mobilizable regulating plates in the mounting bracket, the regulating plate top is equipped with the electronic pivot of array distribution, be equipped with the regulating wheel of array distribution in the electronic pivot, be equipped with centering subassembly in the mounting bracket, centering subassembly includes first centering subassembly, first centering subassembly includes first erection column, first erection column top is equipped with first centering frame, second centering frame, first erection column below is equipped with the second centering subassembly, the second centering subassembly includes the second erection column, second erection column top is equipped with the third centering frame, the fourth centering frame.

Further, remove the frame and have the removal wheel, remove the first slide rail that is equipped with symmetric distribution in the frame, remove the frame upper end and be equipped with first motor, first motor is connected with the speed reducer, and the speed reducer both sides all are equipped with the axis of rotation, and axis of rotation one end is equipped with the bearing frame, all is equipped with the line wheel in the axis of rotation, takes turns to and is equipped with the lifting rope.

Further, be equipped with the hoist and mount piece of symmetric distribution on the hoist and mount frame, lifting rope one end is fixed on the hoist and mount piece, be equipped with the first mounting bracket of array distribution in the hoist and mount frame, be equipped with the first slider of symmetric distribution on the first mounting bracket, first slider and first slide rail sliding fit, the hoist and mount frame carries out sharp lift in the carriage release, first link, second link and first synchronous belt fixed connection, be equipped with between the carriage release lever of symmetric distribution and snatch the pole, it all is equipped with the extraction board to snatch under the pole, be equipped with first cylinder between the second slide rail, the flexible end of first cylinder is equipped with first connecting block, still be equipped with the second connecting block on another group's carriage release lever, first connecting block is connected with the second connecting block, the flexible end of first cylinder promotes the second connecting block and removes.

Further, be equipped with the third slide rail of symmetric distribution in the mounting bracket, the regulating plate both ends all are equipped with the third slider, third slider and third slide rail sliding fit are equipped with the fluting in the regulating plate, are equipped with the guide block of symmetric array distribution in the fluting, and electronic pivot is rotated with the mounting bracket and is connected, is equipped with the spacing groove of axial distribution in the electronic pivot, is equipped with the circular recess in the regulating wheel, is equipped with the stopper of axial distribution in the circular recess, and the stopper slides in the spacing groove, and the regulating wheel outside is equipped with the auxiliary wheel.

Further, it is a set of regulating plate one end is equipped with first connecting plate, and another group's regulating plate other end also is equipped with first connecting plate, and the mounting bracket both ends all are equipped with the second cylinder, and the mounting bracket both ends are equipped with the flexible end motion opposite direction of second cylinder, the flexible end of second cylinder and first connecting plate fixed connection, and the first connecting plate of second cylinder promotion removes, and first connecting plate drives the regulating plate and removes, and the guide block that is equipped with in the regulating plate drives regulating wheel removal adjustment interval.

Further, the first mounting column is fixed in the mounting frame, a fourth sliding rail which is symmetrically distributed is arranged on the first mounting column, a fourth sliding block which is connected in a sliding mode is arranged on the fourth sliding rail, first mounting plates are arranged at two ends of the first mounting column, second idler wheels are arranged below the first mounting plates, a second synchronous belt which is connected in a rotating mode is arranged on the second idler wheels, a first centering frame is arranged on one group of fourth sliding blocks, a second centering frame is arranged on the other group of fourth sliding blocks, a third connecting frame is arranged on one side of the first centering frame, the third connecting frame is fixedly connected with the second synchronous belt, a first centering plate is arranged on the first centering frame, a fourth connecting frame is arranged on one side of the second centering frame, the fourth connecting frame is fixedly connected with the second synchronous belt, a second centering frame is provided with a second centering plate, a second connecting plate is arranged below the second centering frame, a third air cylinder is arranged on one side of the first mounting column, and a telescopic end of the third air cylinder is fixedly connected with the second connecting plate.

Further, the second erection column is fixed at the bottom in the mounting bracket, is equipped with the fifth slide rail of symmetric distribution on the second erection column, all is equipped with sliding fit's fifth slider on the fifth slide rail, and second erection column both ends all are equipped with the second mounting panel, all are equipped with the third gyro wheel under the second mounting panel, are equipped with the third hold-in range of rotation connection on the third gyro wheel, are equipped with the third centering frame on a set of fifth slider, are equipped with the fourth centering frame on another set of fifth slider.

Further, third centering frame one side is equipped with the fourth cylinder, and the flexible end in fourth cylinder top is equipped with the third centering plate, and the third centering frame has the third connecting plate, and third centering frame one end is equipped with the fifth link, and fourth centering frame one side is equipped with the fifth cylinder, and the flexible end in fifth cylinder side is equipped with the fourth centering plate, and fourth centering frame one end is equipped with the sixth link, fifth link, sixth link and third hold-in range fixed connection, and second erection column one side is equipped with the sixth cylinder, the flexible end of sixth cylinder and third connecting plate fixed connection.

A method of manufacturing a precast concrete wall panel production apparatus, the method comprising the steps of:

the method comprises the following steps: the moving wheels drive the moving frame to move to the position of the stacked precast concrete wallboards, the first motor drives the rotating shaft to rotate, and the rotating shaft drives the lifting ropes to extend, so that the lifting frame descends to the position of lifting the precast concrete wallboards;

step two: the telescopic end of the first cylinder pushes the second connecting block to move, the second connecting block drives the other group of moving rods to move, the other group of moving rods drives the second connecting frame to move, the second connecting frame drives the first synchronous belt to rotate, the first synchronous belt drives the first connecting frame to move, so that the two groups of first moving plates move oppositely to drive the extracting plates to clamp the precast concrete wallboard, the first motor drives the hoisting frame to ascend, the moving wheels drive the moving frame to move above the moving assemblies, the hoisting frame descends to place the precast concrete wallboard on the adjusting wheels, and the extracting plates leave after loosening the precast concrete wallboard;

step three: the electric rotating shaft drives the adjusting wheel to rotate, the adjusting wheel drives the precast concrete wall panel to move to a designated position, the third air cylinder drives the second connecting plate to move, the second connecting plate drives the second centering frame to move, the second centering frame drives the fourth connecting frame to move, the fourth connecting frame drives the second synchronous belt to rotate, the second synchronous belt drives the third connecting frame to move, so that the first centering frame and the second centering frame synchronously move in opposite directions, the first centering plate and the second centering frame synchronously move in opposite directions, the fourth air cylinder jacks up the third centering plate, the fifth air cylinder jacks up the fourth centering plate, the sixth air cylinder pushes up the third connecting plate to move, the third connecting plate drives the third centering frame to move, the third centering frame drives the fifth connecting frame to move, the fifth connecting frame drives the third synchronous belt to rotate, the third synchronous belt drives the sixth connecting frame to move, so that the third centering frame and the fourth centering frame synchronously move in opposite directions, the third centering plate and the fourth centering plate synchronously move relatively;

step four: first pair of medium plate, the second is to the medium plate, third centering plate and fourth centering plate are with precast concrete wallboard centering location, according to the cutting width, the first connecting plate of second cylinder promotion removes, first connecting plate drives the regulating plate and removes, the guide block that is equipped with in the regulating plate drives the regulating wheel and removes the spacing, the auxiliary wheel rotates during the removal, prevent that precast concrete wallboard from removing hard, then cutting device cuts precast concrete wallboard, the back is accomplished in the cutting, the regulating wheel rotates the precast concrete wallboard removal of drive after the cutting and leaves.

The invention has the beneficial effects that:

1. the wallboard prefabrication production device is stable in structure and practical in function, adopts the single air cylinder to synchronously push the structures to oppositely run, is high in synchronism, avoids the inconsistency of running time and stroke caused by a plurality of driving sources, and improves the running stability and accuracy;

2. the wallboard prefabrication production device can automatically adjust the distance between the adjusting wheels according to the actual cutting width, effectively prevents the cut precast concrete wallboard from falling, improves the production safety, and can prevent the precast concrete wallboard from generating hard movement during centering due to the fact that the adjusting wheels are also provided with the auxiliary wheels with vertical angles, so that the smoothness of centering movement is improved, and the damage probability of parts is reduced.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic structural view of a prefabricated wallboard production apparatus of the present invention;

FIG. 2 is a schematic view of a take-off assembly of the present invention;

FIG. 3 is a schematic view of the structure of the mobile frame of the present invention;

FIG. 4 is a schematic structural view of a lifting assembly of the present invention;

FIG. 5 is a partial structural schematic view of a lifting assembly of the present invention;

FIG. 6 is a schematic view of the moving assembly of the present invention;

FIG. 7 is a schematic view of the adjustment assembly of the present invention;

FIG. 8 is an enlarged view of the structure of FIG. 7 at A in accordance with the present invention;

FIG. 9 is an enlarged view of the structure of FIG. 7 at B in accordance with the present invention;

FIG. 10 is a schematic view of a centering assembly of the present invention;

FIG. 11 is a schematic view of a first centering assembly of the present invention;

FIG. 12 is a schematic view of a first centering assembly of the present invention;

FIG. 13 is a schematic diagram of a second centering assembly of the present invention;

fig. 14 is a partial structural view of a second centering assembly of the present invention.

Detailed Description

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

In the description of the present invention, it is to be understood that the terms "opening," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like are used in an orientation or positional relationship that is merely for convenience in describing and simplifying the description, and do not indicate or imply that the referenced component or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present invention.

Referring to fig. 1-14, the prefabricated production device for the concrete wall panel includes a material taking assembly 1, the material taking assembly 1 includes a moving frame 2, a hoisting assembly 3 is disposed in the moving frame 2, the hoisting assembly 3 includes a hoisting frame 31, second slide rails 34 symmetrically disposed at two ends of the outside of the hoisting frame 31 are disposed, second slide blocks 341 disposed in an array are disposed above the second slide rails 34, a first moving plate 342 is disposed on the second slide blocks 341, moving rods 343 are disposed on the first moving plate 342, a first connecting frame 344 is disposed on one group of moving rods 343, a second connecting frame 345 is disposed on the other group of moving rods 343, first rollers 36 disposed in an array are disposed at one end of the outside of the hoisting frame 31, and first synchronous belts 361 rotatably fitted are disposed on the first rollers 36;

hoisting frame 31 below is equipped with removal subassembly 4, removal subassembly 4 includes adjusting part 5, adjusting part 5 includes mounting bracket 51, be equipped with two sets of mobilizable regulating plates 52 in the mounting bracket 51, regulating plate 52 top is equipped with array distribution's electronic pivot 53, be equipped with array distribution's regulating wheel 54 on the electronic pivot 53, be equipped with centering subassembly 6 in the mounting bracket 51, centering subassembly 6 includes first centering subassembly 7, first centering subassembly 7 includes first erection column 71, first erection column 71 top is equipped with first centering frame 74, second centering frame 75, first erection column 71 below is equipped with second centering subassembly 8, second centering subassembly 8 includes second erection column 81, second erection column 81 top is equipped with third centering frame 84, fourth centering frame 85.

Remove frame 2 and have removal wheel 21, be equipped with the first slide rail 22 of symmetric distribution in the removal frame 2, remove frame 2 upper end and be equipped with first motor 23, first motor 23 is connected with the speed reducer, and the speed reducer both sides all are equipped with axis of rotation 25, and axis of rotation 25 one end is equipped with bearing frame 24, all is equipped with line wheel 26 on the axis of rotation 25, is equipped with lifting rope 27 in the line wheel 26.

The hoisting frame 31 is provided with symmetrically distributed hoisting blocks 311, one end of a hoisting rope 27 is fixed on the hoisting blocks 311, the hoisting frame 31 is internally provided with first mounting frames 32 distributed in an array manner, the first mounting frames 32 are provided with symmetrically distributed first sliding blocks 33, the first sliding blocks 33 are in sliding fit with first sliding rails 22, the hoisting frame 31 is linearly lifted in the moving frame 2, the first connecting frame 344 and the second connecting frame 345 are fixedly connected with a first synchronous belt 361, grabbing rods 35 are arranged between the symmetrically distributed moving rods 343, extraction plates 351 are arranged below the grabbing rods 35, a first air cylinder 37 is arranged between the second sliding rails 34, a first connecting block 371 is arranged at the telescopic end of the first air cylinder 37, a second connecting block 346 is also arranged on the other group of moving rods 343, the first connecting block 371 is connected with the second connecting block 346, the telescopic end of the first air cylinder 37 pushes the second connecting block 346 to move, the second connecting block 346 drives the other group of moving rods 343 to move, the other set of moving rods 343 drives the second connecting frame 345 to move, the second connecting frame 345 drives the first synchronous belt 361 to rotate, and the first synchronous belt 361 drives the first connecting frame 344 to move, so that the two sets of first moving plates 342 move oppositely to drive the extracting plates 351 to clamp the precast concrete wallboard.

Third slide rails 511 which are symmetrically distributed are arranged in the mounting frame 51, third slide blocks 521 are arranged at two ends of the adjusting plate 52, the third slide blocks 521 are in sliding fit with the third slide rails 511, a slot 522 is arranged in the adjusting plate 52, guide blocks 523 which are symmetrically distributed in an array are arranged in the slot 522, the electric rotating shaft 53 is rotatably connected with the mounting frame 51, a limit groove 531 which is axially distributed is arranged on the electric rotating shaft 53, a circular groove 541 is arranged in the adjusting wheel 54, limit blocks 542 which are axially distributed are arranged in the circular groove 541, the limit blocks 542 slide in the limit groove 531, an auxiliary wheel 543 is arranged at the outer side of the adjusting wheel 54, a first connecting plate 55 is arranged at one end of one group of the adjusting plates 52, a first connecting plate 55 is also arranged at the other end of the other group of the adjusting plates 52, second air cylinders 56 are arranged at two ends of the mounting frame 51, the moving directions of the telescopic ends of the second air cylinders 56 are opposite, and the telescopic ends of the second air cylinders 56 are fixedly connected with the first connecting plate 55, the second cylinder 56 pushes the first connecting plate 55 to move, the first connecting plate 55 drives the adjusting plate 52 to move, and the guide block 523 arranged in the adjusting plate 52 drives the adjusting wheel 54 to move to adjust the spacing.

The first mounting column 71 is fixed in the mounting frame 51, the first mounting column 71 is provided with fourth sliding rails 72 which are symmetrically distributed, the fourth sliding rails 72 are provided with fourth sliding blocks 721 which are connected in a sliding manner, two ends of the first mounting column 71 are respectively provided with a first mounting plate 73, a second roller 731 is arranged below the first mounting plate 73, a second synchronous belt 732 which is connected in a rotating manner is arranged on the second roller 731, one group of the fourth sliding blocks 721 are provided with a first centering frame 74, the other group of the fourth sliding blocks 721 are provided with a second centering frame 75, one side of the first centering frame 74 is provided with a third connecting frame 741, the third connecting frame 741 is fixedly connected with the second synchronous belt 732, the first centering frame 74 is provided with a first centering plate 742, one side of the second centering frame 75 is provided with a fourth connecting frame 751, the fourth connecting frame 751 is fixedly connected with the second synchronous belt 732, the second centering frame 75 is provided with a second centering frame 752, a second connecting plate 753 is arranged below the second centering frame 75, the third cylinder 76 is arranged on one side of the first mounting column 71, the telescopic end of the third cylinder 76 is fixedly connected with the second connecting plate 753, the third cylinder 76 pushes the second connecting plate 753 to move, the second connecting plate 753 drives the second centering frame 75 to move, the second centering frame 75 drives the fourth connecting frame 751 to move, the fourth connecting frame 751 drives the second synchronous belt 732 to rotate, the second synchronous belt 732 drives the third connecting frame 741 to move, so that the first centering frame 74 and the second centering frame 75 move oppositely and synchronously, and the first centering plate 742 and the second centering plate 752 move synchronously and relatively.

The second mounting column 81 is fixed at the bottom in the mounting frame 51, the second mounting column 81 is provided with symmetrically distributed fifth slide rails 83, the fifth slide rails 83 are respectively provided with a fifth slide block 831 in sliding fit, both ends of the second mounting column 81 are respectively provided with a second mounting plate 82, a third roller 821 is respectively arranged below the second mounting plate 82, the third roller 821 is provided with a third synchronous belt 822 in rotating connection, one group of the fifth slide blocks 831 is provided with a third centering frame 84, the other group of the fifth slide blocks 831 is provided with a fourth centering frame 85, one side of the third centering frame 84 is provided with a fourth air cylinder 841, the telescopic end above the fourth air cylinder 841 is provided with a third centering plate 842, the third centering frame 84 is provided with a third connecting plate 843 below, one end of the third centering frame 84 is provided with a fifth connecting frame 844, one side of the fourth centering frame 85 is provided with a fifth air cylinder 851, the telescopic end of the fifth air cylinder 851 is provided with a fourth centering plate 852, one end of the fourth centering frame 85 is provided with a sixth connecting frame 853, fifth link 844, sixth link 853 and third hold-in range 822 fixed connection, second erection column 81 one side is equipped with sixth cylinder 86, the flexible end of sixth cylinder 86 and third connecting plate 843 fixed connection, sixth cylinder 86 promotes the third connecting plate 843 and removes, third connecting plate 843 drives third centering frame 84 and removes, third centering frame 84 drives fifth link 844 and removes, fifth link 844 drives third hold-in range 822 and rotates, third hold-in range 822 drives sixth link 853 and removes, thereby make third centering frame 84 and fourth centering frame 85 opposite direction synchronous motion, third centering plate 842 and fourth centering plate 852 synchronous relative motion.

A production method of a precast concrete wallboard production device comprises the following steps:

the method comprises the following steps: the moving wheel 21 drives the moving frame 2 to move to the position of the stacked precast concrete wallboards, the first motor 23 drives the rotating shaft 25 to rotate, and the rotating shaft 25 drives the lifting rope 27 to extend, so that the lifting frame 31 descends to the position of hoisting the precast concrete wallboards;

step two: the telescopic end of the first cylinder 37 pushes the second connecting block 346 to move, the second connecting block 346 drives the other group of moving rods 343 to move, the other group of moving rods 343 drives the second connecting frame 345 to move, the second connecting frame 345 drives the first synchronous belt 361 to rotate, the first synchronous belt 361 drives the first connecting frame 344 to move, so that the two groups of first moving plates 342 move oppositely to drive the extracting plates 351 to clamp the precast concrete wallboard, the first motor 23 drives the hoisting frame 31 to ascend, the moving wheel 21 drives the moving frame 2 to move above the moving assembly 4, the hoisting frame 31 descends to place the precast concrete wallboard on the adjusting wheel 54, and the extracting plates 351 leave after loosening the precast concrete wallboard;

step three: the electric rotating shaft 53 drives the adjusting wheel 54 to rotate, the adjusting wheel 54 drives the precast concrete wall panel to move to a designated position, the third air cylinder 76 drives the second connecting plate 753 to move, the second connecting plate 753 drives the second centering frame 75 to move, the second centering frame 75 drives the fourth connecting frame 751 to move, the fourth connecting frame 751 drives the second synchronous belt 732 to rotate, the second synchronous belt 732 drives the third connecting frame 741 to move, so that the first centering frame 74 and the second centering frame 75 move synchronously in opposite directions, the first centering frame 742 and the second centering frame 752 move synchronously in opposite directions, the fourth air cylinder 841 jacks the third centering plate 842, the fifth air cylinder 851 jacks the fourth centering plate 852, the sixth air cylinder 86 pushes the third connecting plate 843 to move, the third connecting plate 843 drives the third centering frame 84 to move, the third centering frame 84 drives the fifth connecting frame 842 to move, the fifth connecting frame 844 drives the third synchronous belt 822 to rotate, the third synchronous belt 822 drives the sixth connecting frame 853 to move, so that the third centering frame 84 and the fourth centering frame 85 move synchronously in opposite directions, and the third centering plate 842 and the fourth centering plate 852 move synchronously and relatively;

step four: first centering plate 742, second centering plate 752, third centering plate 842 and fourth centering plate 852 are with precast concrete wallboard centering location, according to the cutting width, second cylinder 56 promotes first connecting plate 55 and removes, first connecting plate 55 drives regulating plate 52 and removes, guide block 523 that is equipped with in the regulating plate 52 drives regulating wheel 54 and removes the regulation interval, auxiliary wheel 543 rotates during the removal, prevent that precast concrete wallboard from removing hard, then cutting device cuts precast concrete wallboard, after the cutting is accomplished, regulating wheel 54 rotates the precast concrete wallboard removal that drives after the cutting and leaves.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed.