CN216803907U

CN216803907U - Stacking maintenance high-efficiency wallboard production line

Info

Publication number: CN216803907U
Application number: CN202122775398.4U
Authority: CN
Inventors: 刘洪彬; 陈德鹏; 郭川东; 秦宪功; 张�林
Original assignee: Shandong Tianyi Machinery Co ltd
Current assignee: Shandong Tianyi Machinery Co ltd
Priority date: 2021-11-14
Filing date: 2021-11-14
Publication date: 2022-06-24
Anticipated expiration: 2031-11-14

Abstract

A production line for stacking, maintaining and high-efficiency wallboards comprises a die, a conveying line, a ferry vehicle and a maintenance station; a stacking station is arranged in front of the curing station, a first stacker crane for stacking the dies in the vertical direction is arranged in the stacking station, and the dies are stacked into three layers by the first stacker crane and then are fed into a curing kiln for curing; and a lifting and stacking station is arranged behind the maintenance station, a second stacker crane for placing the stacked molds in a single layer in sequence is arranged on the lifting and stacking station, and the molds stacked into three layers sequentially fall down through the second stacker crane. The stacking machine is characterized in that a mold cleaning station, an oil coating station, a mold closing station, a core tube pulling and inserting station, a steel reinforcement cage placing station, a cloth station, a vibration tamping station and a scraping station are further arranged before the stacking station, and a scraping station, a mold opening station and a plate discharging station are further arranged after the lifting stacking station. The curing kiln of the stacked curing high-efficiency wallboard production line occupies small area, and the production efficiency of the wallboard is high.

Description

Stacking maintenance high-efficiency wallboard production line

Technical Field

The utility model relates to the field of wallboard production lines, in particular to a stacking maintenance high-efficiency wallboard production line.

Background

The wallboard is a comparatively general prefabricated wall body that the assembly type structure field used, and installation convenient to use only needs the manual work or stands the wallboard with the help of lifting device, can accomplish the installation through the public female groove on wallboard both sides. The wallboard has the advantages of light structure weight, high strength, good heat insulation performance, quick installation, sound insulation, environmental protection and the like, and becomes the most representative building wall material in the field of assembly type buildings.

Wallboard production mode mainly relies on scale production line production, and current wallboard production line wallboard production efficiency is lower, and area reaches, because current wallboard production line adopts the individual layer mould to go into the kiln, has increased the area of curing kiln by a wide margin, has influenced wallboard curing efficiency, has reduced production line wallboard production efficiency simultaneously.

Disclosure of Invention

The utility model aims to provide a stacking and curing high-efficiency wallboard production line, which solves the problems of low production efficiency, large floor area of curing kilns, low curing efficiency and the like of the existing wallboard production line and greatly improves the production efficiency of wallboards.

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

a stacking maintenance high-efficiency wallboard production line comprises a mould for wallboard forming, a conveying line for mould moving, a ferry conveying line for communicating the mould on different conveying lines, a ferry vehicle arranged on the ferry conveying line and used for ferrying the mould to different conveying lines, and a maintenance station; the maintenance station is provided with a maintenance kiln for maintaining the wallboard in the die to complete the maintenance process of wallboard production, a first conveying line for moving the die is arranged on the ground of the maintenance kiln, and a die pushing device is arranged at the initial end of the first conveying line and used for pushing the die into the maintenance kiln along the first conveying line; a stacking station is arranged in front of the curing station, a first stacker crane for stacking the molds in the vertical direction is arranged at the stacking station, the molds are stacked into three layers by the first stacker crane and then are conveyed into the curing kiln for curing, the occupied area of the curing kiln is effectively reduced, raw materials are saved, and the efficiency of the curing kiln is improved; and a lifting and stacking station is arranged behind the maintenance station, a second stacker crane for placing the stacked molds in a single layer in sequence is arranged on the lifting and stacking station, and the stacked molds in three layers fall down in sequence through the second stacker crane.

A die cleaning station, an oil coating station, a die closing station, a core tube pulling and inserting station, a steel reinforcement cage placing station, a material distributing station, a vibration tamping station and a strickling station are arranged before the stacking and stacking station, and a shoveling station, a die opening station and a plate discharging station are arranged after the lifting and stacking station;

the mould cleaning station is provided with a mould cleaning machine for cleaning the mould and completing the mould cleaning process of wallboard production; the oil coating station is provided with a separant spraying machine for spraying separant to the die to complete the oil coating process in the production process of the wallboard, so that the phenomenon that the wallboard is difficult to discharge due to adhesion of slurry and the die is avoided; the die closing station is provided with die closing equipment for closing a die to complete a die closing process in the production process of the wallboard; the die cleaning station, the oiling station and the die closing station are provided with second conveying lines which are transversely arranged, and the die cleaning station, the oiling station and the die closing station are sequentially communicated through the second conveying lines;

a first ferry conveying line is vertically arranged at the starting end of the second conveying line, a second ferry conveying line is vertically arranged at the tail end of the second conveying line, and a first ferry vehicle and a second ferry vehicle are respectively arranged on the first ferry conveying line and the second ferry conveying line; a third conveying line is vertically arranged on the other side of the first ferry conveying line; the steel reinforcement cage placing station is arranged on the third conveying line, and the steel reinforcement cage placing process of the wallboard production is completed through the steel reinforcement cage placing station to the steel reinforcement mesh cage placed in the mold; a third ferry conveyor line is vertically arranged at the end part of the third conveyor line, and a third ferry vehicle is arranged on the third ferry conveyor line;

a fourth conveying line is vertically arranged on one side of the third ferry conveying line, and the third conveying line and the fourth conveying line are communicated through a third ferry vehicle on the third ferry conveying line; a material distribution station, a vibration tamping station and a strickling station are sequentially arranged on the fourth conveying line; the material distribution station is provided with a material distribution machine, and the material distribution machine is used for distributing materials for the die to complete the material distribution process of the wallboard production; the vibrating and tamping station is provided with vibrating and tamping equipment, the mixture in the die is vibrated and tamped through the vibrating and tamping equipment, air bubbles in the mixture are removed, and the tamping process of wallboard production is completed; the scraping station is provided with a scraping machine which is used for shaping the upper surface of the mixture in the mould, removing surface burrs and completing the mould scraping process of wallboard production;

the scraping station is communicated with the stacking station through a fourth conveying line, a fourth ferry conveying line is vertically arranged at the tail end of the fourth conveying line, and a fourth ferry vehicle is arranged on the fourth ferry conveying line; the first stacker crane on the stacking and stacking station can stack the three moulds on the fourth conveying line after the scraping process in a group to the fourth ferry vehicle to complete the stacking process of the wallboard production;

the starting end of the first conveying line is vertically arranged on one side of a fourth ferry conveying line, and the first conveying line and the fourth conveying line are communicated through a fourth ferry vehicle on the fourth ferry conveying line; a fourth ferry vehicle on the fourth ferry conveyor line moves the stacked dies to the initial end of the first conveyor line, and a die pushing device arranged at the initial end of the first conveyor line pushes the stacked dies into a curing kiln of a curing station for curing, so that the curing process of wallboard production is completed;

a fifth ferry conveyor line is vertically arranged at the tail end of the first conveyor line, and a fifth ferry vehicle is arranged on the fifth ferry conveyor line; the lifting and stacking station is arranged above the fifth ferry conveying line, and the stacked molds which finish the maintenance process move to a fifth ferry vehicle;

a fifth conveying line is vertically arranged on one side of the fifth ferry conveying line, the first conveying line is communicated with the fifth conveying line through a fifth ferry vehicle on the fifth ferry conveying line, a second stacker crane on a lifting and stacking station sequentially places stacked molds on the fifth ferry vehicle on the fifth conveying line in a grading and single mode, and the mold stacking process in the wallboard production process is completed;

a core tube pulling and inserting station is arranged at the tail end of the fifth conveying line, a die core pulling and inserting machine for pulling and inserting a core tube of the die is arranged at the core tube pulling and inserting station, the die is transferred to the fifth conveying line through a fifth ferry vehicle, the die is moved to the core tube pulling and inserting station through the fifth conveying line, and the core tube pulling process of the die in the production process of the wallboard is completed through the core pulling and inserting machine;

the first ferry conveying line is vertically arranged at the end of a fifth conveying line, a sixth conveying line is also vertically arranged on one side, containing the second conveying line, of the first ferry conveying line, the fifth conveying line, the sixth conveying line, the second conveying line and the third conveying line are communicated through a first ferry vehicle on the first ferry conveying line, and a die subjected to a core pulling process at a core pulling and inserting tube station is moved to the sixth conveying line through the first ferry vehicle; the leveling station, the die opening station and the plate discharging station are sequentially arranged on the sixth conveying line and communicated through the sixth conveying line; the die on the sixth conveying line sequentially moves to a leveling station, a die opening station and a plate discharging station; the leveling station is provided with a leveling machine for performing burr leveling operation on the wallboard on the die to complete the leveling process of wallboard production; the die opening station is provided with a die opening device, and the die opening process in the production of the wallboard is realized through the die opening device; the plate discharging station is provided with a plate discharging machine used for taking the wallboard out of the die, and the plate discharging process of wallboard production is completed through the plate discharging station; and the sixth conveying line and the second conveying line are communicated through a second ferry vehicle on the second ferry conveying line.

In order to improve the production efficiency of the stacking maintenance high-efficiency wallboard production line, a seventh conveying line is arranged on one side of the second conveying line in parallel, and the station arrangement and connection relation of the seventh conveying line are the same as those of the second conveying line; an eighth conveying line, a ninth conveying line and a tenth conveying line are arranged on one side of the fourth conveying line in parallel, and the station arrangement and connection relation of the eighth conveying line is the same as that of the fourth conveying line; the material distributor of the material distribution station is a double-station material distributor, and the eighth conveying line and the fourth conveying line share one material distributor; the station setting and connection relation of the ninth conveying line and the tenth conveying line is the same as that of the fourth conveying line and the eighth conveying line; an eleventh conveying line, a twelfth conveying line and a thirteenth conveying line are arranged on one side of the first conveying line in parallel, curing kilns are arranged on the eleventh conveying line, the twelfth conveying line and the thirteenth conveying line, and the connection relation of the eleventh conveying line, the twelfth conveying line and the thirteenth conveying line is the same as that of the first conveying line; a fourteenth conveying line is arranged on one side of the sixth conveying line in parallel, and the station arrangement and connection relation on the fourteenth conveying line are the same as those of the sixth conveying line; and a fifteenth conveying line is arranged on one side of the fifth conveying line in parallel, and the station arrangement and connection relation on the fifteenth conveying line are the same as those of the fifth conveying line. This kind stacks high-effect wallboard production line of maintenance and passes through the design that parallels, parallels of transfer chain and station, has improved wallboard production efficiency by a wide margin, has improved wallboard production efficiency.

Compared with the prior art, the utility model has the beneficial effects that:

(1) the curing kiln for the stacked curing high-efficiency wallboard production line has the advantages that the floor area is small, the curing efficiency is high, the stacking station is arranged in front of the curing station, the molds are stacked into three layers and then are conveyed into the curing kiln for curing, the floor area of the curing kiln is effectively reduced, raw materials are saved, and the efficiency of the curing kiln is improved.

(2) The production line for stacking and maintaining the high-efficiency wallboard has high production efficiency, and greatly improves the production efficiency of the wallboard and the production efficiency of the wallboard through the parallel and parallel design of the conveying line and the stations.

Drawings

FIG. 1 is a schematic view of a complete production line for high efficiency of ceramsite wall boards according to 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 fig. 1 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 embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, a stack maintenance high-performance wallboard production line comprises a mould 1 for wallboard molding, a conveying line for moving the mould 1, a ferry conveying line for communicating the mould 1 at different conveying lines, a ferry vehicle arranged on the ferry conveying line and used for ferrying the mould 1 to different conveying lines, and a maintenance station 2.

Referring to fig. 1, the curing station 2 is provided with a curing kiln for curing the wallboard in the mold 1 to complete the curing process of wallboard production, the curing kiln is provided with a first conveying line 3 for moving the mold 1 on the ground, and the top end of the first conveying line 3 is provided with a mold 1 pushing device 4 for pushing the mold 1 into the curing kiln along the first conveying line 3; a stacking and stacking station 5 is arranged in front of the curing station 2, a first stacker crane 6 for stacking the molds 1 in the vertical direction is arranged on the stacking and stacking station 5, the molds 1 are stacked in three layers by the first stacker crane 6 and then are conveyed into the curing kiln for curing, the floor area of the curing kiln is effectively reduced, raw materials are saved, and the efficiency of the curing kiln is improved; and a lifting and stacking station 7 is arranged behind the maintenance station 2, the lifting and stacking station 7 is provided with a second stacker crane 8 for placing the stacked molds 1 in a single layer in sequence, and the molds 1 stacked into three layers are sequentially dropped down through the second stacker crane 8.

Referring to fig. 1, a die cleaning station 9, an oiling station 10, a die closing station 11, a core tube pulling and inserting station 12, a reinforcement cage placing station 13, a distributing station 14, a vibration tamping station 15 and a strickling station 16 are further arranged before the stacking and stacking station 5, and a strickling station 17, a die opening station 18 and a plate discharging station 19 are further arranged after the hoisting and stacking station 7.

Referring to fig. 1, the mold cleaning station 9 is provided with a mold cleaning machine for cleaning the mold 1 to complete the mold 1 cleaning process for wallboard production; the oiling station 10 is provided with a separant spraying machine for spraying separant to the die 1 to complete an oiling process in the production process of the wallboard, so that the phenomenon that the wallboard is difficult to discharge due to adhesion of slurry and the die 1 is avoided; the die closing station 11 is provided with die closing equipment for closing the die 1 to complete the die closing process in the production process of the wallboard; the die cleaning station 9, the oiling station 10 and the die closing station 11 are provided with a second conveying line 20, the second conveying line 20 is transversely arranged, and the die cleaning station 9, the oiling station 10 and the die closing station 11 are sequentially communicated through the second conveying line 20.

Referring to fig. 1, a first ferry conveyor line 21 is vertically arranged at the start end of the second conveyor line 20, a second ferry conveyor line 22 is vertically arranged at the tail end of the second conveyor line 20, and a first ferry vehicle 23 and a second ferry vehicle 24 are respectively arranged on the first ferry conveyor line 21 and the second ferry conveyor line 22; a third conveying line 25 is vertically arranged on the other side of the first ferry conveying line 21; the steel reinforcement cage placing station 13 is arranged on the third conveying line 25, and a steel reinforcement cage is placed into the die 1 through the steel reinforcement cage placing station 13, so that a steel reinforcement cage placing process of wallboard production is completed; a third ferry conveying line 26 is vertically arranged at the end part of the third conveying line 25, and a third ferry vehicle 27 is arranged on the third ferry conveying line 26.

Referring to fig. 1, a fourth conveying line 28 is vertically arranged on one side of the third ferry conveying line 26, and the third conveying line 25 and the fourth conveying line 28 are communicated through a third ferry vehicle 27 on the third ferry conveying line 26; the fourth conveying line 28 is sequentially provided with a material distribution station 14, a vibration tamping station 15 and a strickling station 16; the material distribution station 14 is provided with a material distributor 29, and the material distributor 29 is used for distributing materials for the die 1 to complete the material distribution process of wallboard production; the vibrating and tamping station 15 is provided with vibrating and tamping equipment, and the vibrating and tamping equipment is used for vibrating and tamping the mixture in the mould 1 to remove air bubbles in the mixture and finish the tamping process of wallboard production; and the strickling station 16 is provided with a strickling machine which is used for shaping the upper surface of the mixture in the die 1, removing surface burrs and completing the die strickling process of wallboard production.

The scraping station 16 is communicated with the stacking station 5 through a fourth conveying line 28, a fourth ferry conveying line 30 is vertically arranged at the tail end of the fourth conveying line 28, and a fourth ferry vehicle 31 is arranged on the fourth ferry conveying line 30; the first stacker crane 6 on the stacking and stacking station 5 can stack the three moulds 1 which are subjected to the scraping procedure on the fourth conveying line 28 onto the fourth ferry vehicle 31 in a group, so that the stacking procedure of wallboard production is completed.

Referring to fig. 1, the starting end of the first conveying line 3 is vertically arranged on one side of a fourth ferry conveying line 30, and the first conveying line 3 and the fourth conveying line 28 are communicated through a fourth ferry vehicle 31 on the fourth ferry conveying line 30; the fourth ferry vehicle 31 on the fourth ferry conveyor line 30 moves the stacked dies to the beginning end of the first conveyor line 3, and the die pushing device 4 arranged at the beginning end of the first conveyor line 3 pushes the stacked dies into the curing kiln of the curing station 2 for curing, so that the curing process of wallboard production is completed.

Referring to fig. 1, a fifth ferry conveyor line 32 is vertically arranged at the tail end of the first conveyor line 3, and a fifth ferry vehicle 33 is arranged on the fifth ferry conveyor line 32; the lifting and stacking station 7 is arranged above the fifth ferry conveyor line 32, and stacked molds which complete the maintenance process move to the fifth ferry vehicle 33.

Referring to fig. 1, a fifth conveying line 34 is vertically arranged on one side of the fifth ferry conveying line 32, the first conveying line 3 is communicated with the fifth conveying line 34 through a fifth ferry vehicle 33 on the fifth ferry conveying line 32, and the second stacker crane 8 on the lifting and stacking station 7 sequentially places the stacked molds on the fifth ferry vehicle 33 on the fifth conveying line 34 in a time-sharing and single manner, so as to complete the mold stacking process in the wallboard production process.

Referring to fig. 1, a core tube pulling and inserting station 12 is disposed at the tail end of the fifth conveying line 34, a die core pulling and inserting machine for pulling and inserting a core tube of a die is disposed at the core tube pulling and inserting station 12, the die 1 is transferred to the fifth conveying line 34 by the fifth ferry vehicle 33, the die 1 is moved to the core tube pulling and inserting station 12 by the fifth conveying line 34, and the core tube pulling process of the die in the wallboard production process is completed by the core pulling and inserting machine.

Referring to fig. 1, the first ferry-transporting line 21 is vertically arranged at the end of a fifth transporting line 34, a sixth transporting line 35 is also vertically arranged on one side of the first ferry-transporting line 21 containing the second transporting line 20, the fifth transporting line 34, the sixth transporting line 35, the second transporting line 20 and the third transporting line 25 are communicated through a first ferry vehicle 23 on the first ferry-transporting line 21, and the mold 1 which is subjected to the core pulling process at the core pulling and inserting tube station 12 is moved to the sixth transporting line 35 through the first ferry vehicle 23; the sixth conveying line 35 is sequentially provided with a leveling station 17, a die opening station 18 and a plate discharging station 19, and the leveling station 17, the die opening station 18 and the plate discharging station 19 are communicated through the sixth conveying line 35; the die 1 on the sixth conveying line 35 sequentially moves to a leveling station 17, a die opening station 18 and a plate discharging station 19; the leveling station 17 is provided with a leveling machine for performing burr leveling operation on the wallboard on the die 1 to complete the leveling process of wallboard production; the die opening station 18 is provided with a die opening device, and the die opening process in the production of the wallboard is realized through the die opening device; the plate discharging station 19 is provided with a plate discharging machine for taking the wallboard out of the mold 1, and the plate discharging process of wallboard production is completed through the plate discharging station 19; the sixth conveying line 35 and the second conveying line 20 are communicated through a second ferry vehicle 24 on the second ferry conveying line 22.

Referring to fig. 1, a driving wheel is arranged on the X-th conveying line, and the driving wheel drives the mold to move relative to the conveying line.

Referring to fig. 1, the production implementation process of the stacking maintenance high-performance wallboard production line is as follows: the die 1 which finishes the plate discharging process is moved to a second conveying line 20 through a second ferry vehicle 24, the die 1 on the second conveying line 20 sequentially passes through a die cleaning station 9, an oiling station 10 and a die closing station 11, and after the cleaning process, the oiling process and the die closing process of the die 1 are finished, the die 1 is moved to a core tube drawing and inserting station 12 through a first ferry vehicle 23 on a first ferry conveying line 21, so that the core tube inserting process of the die for wallboard production is finished; the die 1 which finishes the core tube inserting process is moved to a third conveying line 25 through a first ferry vehicle 23, after the die 1 finishes the steel bar mesh cage placing process through a steel bar cage placing station 13, the die 1 is moved to a fourth conveying line 28 through a third ferry vehicle 27, sequentially passes through a material distribution station 14, a vibration tamping station 15, a strickling station 16 and a stacking station 5, finishes the material distribution process, the tamping process, the strickling process and the stacking process, is moved to a first conveying line 3 through a fourth ferry vehicle 31, enters a maintenance station 2, finishes the maintenance process, reaches a fifth ferry conveying line 32, finishes the die stacking process through a lifting stacking station 7, enters a core tube drawing and inserting station 12 along the fifth conveying line 34 to finish the core tube drawing process, then the die 1 reaches a sixth conveying line 35 through the first ferry vehicle 23 on the first ferry conveying line 21, sequentially passes through the strickling station 17, And the mould opening station 18 and the plate discharging station 19 are used for completing the leveling process, the mould opening process and the plate discharging process of the wallboard production, and further completing a wallboard production cycle.

Referring to fig. 1, in order to improve the production efficiency of the stacking maintenance high-performance wallboard production line, a seventh conveyor line 36 is arranged in parallel on one side of the second conveyor line 20, and the station arrangement and connection relationship of the seventh conveyor line 36 are the same as those of the second conveyor line 20; an eighth conveying line 37, a ninth conveying line 38 and a tenth conveying line 39 are arranged on one side of the fourth conveying line 28 in parallel, and the station arrangement and connection relationship of the eighth conveying line 37 are the same as those of the fourth conveying line 28; the material distributor 29 of the material distribution station 14 is a double-station material distributor, and the eighth conveying line 37 and the fourth conveying line 28 share one material distributor 29; the station arrangement and connection relationship of the ninth transfer line 38 and the tenth transfer line 39 are the same as those of the fourth transfer line 28 and the eighth transfer line 37; an eleventh conveying line 40, a twelfth conveying line 41 and a thirteenth conveying line 42 are arranged on one side of the first conveying line 3 in parallel, curing kilns are arranged on the eleventh conveying line 40, the twelfth conveying line 41 and the thirteenth conveying line 42, and the connection relation of the eleventh conveying line 40, the twelfth conveying line 41 and the thirteenth conveying line 42 is the same as that of the first conveying line 3; a fourteenth conveying line 43 is arranged on one side of the sixth conveying line 35 in parallel, and the station arrangement and connection relationship on the fourteenth conveying line 43 are the same as those of the sixth conveying line 35; the fifteenth conveying line 44 is arranged on one side of the fifth conveying line 34 in parallel, stations on the fifteenth conveying line 44 are arranged and connected in the same manner as the fifth conveying line 34, and the high-performance wallboard production line for stacking and maintaining greatly improves the production efficiency of wallboards and the production efficiency of wallboards through the parallel and parallel design of the conveying lines and the stations.

Claims

1. A stacking maintenance high-efficiency wallboard production line comprises a mould for wallboard forming, a conveying line for mould moving, a ferry conveying line for communicating the mould on different conveying lines, a ferry vehicle arranged on the ferry conveying line and used for ferrying the mould to different conveying lines, and a maintenance station; the method is characterized in that: the maintenance station is provided with a maintenance kiln, a first conveying line for moving the mold is arranged on the ground of the maintenance kiln, and a mold pushing device is arranged at the initial end of the first conveying line; a stacking station is arranged in front of the maintenance station, and a first stacker crane for stacking the molds in the vertical direction is arranged at the stacking station; and a lifting and stacking station is arranged behind the maintenance station, and a second stacker crane used for placing the stacked molds in a single layer in sequence is arranged on the lifting and stacking station.

2. The stacking maintenance high-performance wallboard production line of claim 1, wherein: a mould cleaning station, an oil coating station, a mould closing station, a core tube drawing and inserting station, a reinforcement cage placing station, a material distributing station, a vibration tamping station and a scraping station are arranged before the stacking and stacking station, and a scraping station, a mould opening station and a plate discharging station are arranged after the lifting and stacking station;

the die cleaning station is provided with a die cleaning machine; the oiling station is provided with a separant spraying machine; the die closing station is provided with die closing equipment; the die cleaning station, the oiling station and the die closing station are provided with second conveying lines which are transversely arranged, and the die cleaning station, the oiling station and the die closing station are sequentially communicated through the second conveying lines.

3. The stacking maintenance high-performance wallboard production line of claim 2, wherein: a first ferry-boat conveying line is vertically arranged at the starting end of the second conveying line, a second ferry-boat conveying line is vertically arranged at the tail end of the second conveying line, and a first ferry-boat vehicle and a second ferry-boat vehicle are respectively arranged on the first ferry-boat conveying line and the second ferry-boat conveying line; a third conveying line is vertically arranged on the other side of the first ferry conveying line; the steel reinforcement cage placing station is arranged on a third conveying line; a third ferry conveyor line is vertically arranged at the end part of the third conveyor line, and a third ferry vehicle is arranged on the third ferry conveyor line;

a fourth conveying line is vertically arranged on one side of the third ferry conveying line, and the third conveying line and the fourth conveying line are communicated through a third ferry vehicle on the third ferry conveying line; a material distribution station, a vibration tamping station and a strickling station are sequentially arranged on the fourth conveying line; the material distribution station is provided with a material distributor; the vibration tamping station is provided with vibration tamping equipment; and the strickling station is provided with a strickling machine.

4. The stacking maintenance high performance wallboard production line of claim 3, wherein: the scraping station is communicated with the stacking station through a fourth conveying line, a fourth ferry conveying line is vertically arranged at the tail end of the fourth conveying line, and a fourth ferry vehicle is arranged on the fourth ferry conveying line; the first stacking machine on the stacking and stacking station can stack the three moulds on the fourth conveying line after the scraping process to a fourth ferry vehicle in a group, the initial end of the first conveying line is vertically arranged on one side of the fourth ferry conveying line, and the first conveying line and the fourth conveying line are communicated through the fourth ferry vehicle on the fourth ferry conveying line;

a fifth ferry conveyor line is vertically arranged at the tail end of the first conveyor line, and a fifth ferry vehicle is arranged on the fifth ferry conveyor line; the lifting and stacking station is arranged above the fifth ferry conveying line;

a fifth conveying line is vertically arranged on one side of the fifth ferry conveying line, the first conveying line is communicated with the fifth conveying line through a fifth ferry vehicle on the fifth ferry conveying line, and a second stacking machine on the lifting and stacking station can sequentially place stacked molds on the fifth ferry vehicle on the fifth conveying line in a graded and single mode;

a core tube pulling and inserting station is arranged at the tail end of the fifth conveying line, and a die core pulling and inserting machine for pulling and inserting a die core is arranged at the core tube pulling and inserting station;

the first ferry conveyor line is vertically arranged at the end part of a fifth conveyor line, a sixth conveyor line is also vertically arranged on one side of the first ferry conveyor line, which contains the second conveyor line, and the fifth conveyor line, the sixth conveyor line, the second conveyor line and the third conveyor line are communicated through a first ferry vehicle on the first ferry conveyor line; the leveling station, the die opening station and the plate discharging station are sequentially arranged on the sixth conveying line and are communicated through the sixth conveying line; a leveling machine is arranged at the leveling station; the mold opening station is provided with a mold opening device; the plate discharging station is provided with a plate discharging machine for taking the wallboard out of the die; and the sixth conveying line and the second conveying line are communicated through a second ferry vehicle on the second ferry conveying line.

5. The stacking maintenance high-performance wallboard production line of claim 2, wherein: and a seventh conveying line is arranged on one side of the second conveying line in parallel, and the station setting and connection relation of the seventh conveying line is the same as that of the second conveying line.

6. The stacking maintenance high performance wallboard production line of claim 4, wherein: an eighth conveying line, a ninth conveying line and a tenth conveying line are arranged on one side of the fourth conveying line in parallel, and the station arrangement and connection relation of the eighth conveying line is the same as that of the fourth conveying line; the material distributor of the material distribution station is a double-station material distributor, and the eighth conveying line and the fourth conveying line share one material distributor; and the station arrangement and the connection relation of the ninth conveying line and the tenth conveying line are the same as those of the fourth conveying line and the eighth conveying line.

7. The stacking maintenance high-performance wallboard production line of claim 1, wherein: an eleventh conveying line, a twelfth conveying line and a thirteenth conveying line are arranged on one side of the first conveying line in parallel, curing kilns are arranged on the eleventh conveying line, the twelfth conveying line and the thirteenth conveying line, and the connection relation of the eleventh conveying line, the twelfth conveying line and the thirteenth conveying line is the same as that of the first conveying line.

8. The stacking maintenance high performance wallboard production line of claim 4, wherein: and a fourteenth conveying line is arranged on one side of the sixth conveying line in parallel, and the station arrangement and connection relation on the fourteenth conveying line are the same as those of the sixth conveying line.

9. The stacking maintenance high performance wallboard production line of claim 4, wherein: and a fifteenth conveying line is arranged on one side of the fifth conveying line in parallel, and the station arrangement and connection relation on the fifteenth conveying line are the same as those of the fifth conveying line.