CN109235805B

CN109235805B - Autoclaved aerated concrete heat-insulation wallboard and production process

Info

Publication number: CN109235805B
Application number: CN201811089184.8A
Authority: CN
Inventors: 王亚飞
Original assignee: Shandong Lianhai Construction Technology Co ltd
Current assignee: Shandong Lianhai Construction Technology Co ltd
Priority date: 2018-09-18
Filing date: 2018-09-18
Publication date: 2020-08-21
Anticipated expiration: 2038-09-18
Also published as: CN109235805A

Abstract

The invention is suitable for production and assembly of wallboards, and provides an autoclaved aerated concrete thermal insulation wallboard and a production process thereof. The autoclaved aerated concrete heat-insulating wallboard and the production process provided by the invention are convenient to produce due to the fact that the autoclaved aerated concrete heat-insulating wallboard is formed by pouring through a die; the main wallboard is embedded with the left positioning wallboard and is fixed through the pipe rib A, the right positioning wallboard is attached to the right side of the main wallboard and is connected with the wall body through the pipe rib B, and the buckling rod of the buckling plate is directly buckled in the buckling piece to complete the assembly of the buckling plate, so that the assembly is convenient and the whole body is stable; the whole equipment is convenient, and labour saving and time saving has saved the labour cost among the in-process of equipment, and the deviation can not appear among the in-process of equipment, also does not have the danger of damaging.

Description

Autoclaved aerated concrete heat-insulation wallboard and production process

Technical Field

The invention belongs to the technical field of wallboards, and particularly relates to an autoclaved aerated concrete heat-insulating wallboard and a production process thereof.

Background

The external wall panel is also called an external wall insulation board, an external wall decorative board and an external wall stripe decorative board, is a large-amplitude external wall panel produced in an industrialized way, is installed and constructed by a dry method, has good durability and low maintenance cost, integrates the functions of external wall insulation and decoration, and is an advanced technology widely popularized in the technical field of external wall insulation of modern building industry in China at present, and the external wall panel integrating the functions of insulation and decoration is a novel building material capable of replacing ceramic tiles, marbles, aluminum-plastic panels and external wall paint, and is widely applied.

However, the existing wallboard is a whole board, so that the installation is very inconvenient, the quality is difficult to ensure in the installation process, and under the current mode that the labor cost is increased, the installation based on the traditional wallboard is troublesome and laborious, so that a large amount of installation cost is required; because construction environment is not good, the deviation appears easily in the in-process of installation, and the wallboard also has the risk of damaging in the in-process of installation, consequently provides an autoclaved aerated concrete thermal-insulation wallboard and production technology based on above-mentioned problem.

Disclosure of Invention

The embodiment of the invention provides an autoclaved aerated concrete heat-insulating wallboard and a production process thereof, and aims to solve the problems that installation is troublesome and labor-consuming, a large amount of installation cost is required, and the risk of damage exists in the installation process.

The embodiment of the invention is realized in such a way that the autoclaved aerated concrete heat-insulating wallboard comprises a main wallboard, a left positioning wallboard, a right positioning wallboard and a buckling plate, wherein the left positioning wallboard and the right positioning wallboard are respectively clamped at the left side and the right side of the main wallboard, and the buckling plate is buckled on the right positioning wallboard;

a rectangular strip is integrally cast on the left side of the main wallboard, a square convex column is cast on the outer side of the rectangular strip, a pipe rib A is fixedly arranged in the center of the front end of the square convex column, a positioning hole A is formed in the right side of the main wallboard, a spring is fixedly arranged on the inner side of the positioning hole A, and a pipe rib B is arranged at the front end of the spring; a slat positioning groove is formed in the main wall plate at the front end of the tube rib B, a limiting slat is installed in the slat positioning groove in a contact mode, the tube rib B compression spring is located in the positioning hole A, the front end of the tube rib B is connected with the side end of the limiting slat in a contact mode, and a pull ring is fixedly installed at the side end of the limiting slat; a buckling rod through hole is formed in the right side of the main wallboard;

the left positioning wallboard is concave, the thickness of the left positioning wallboard is equal to that of the main wallboard, the length of a groove in the left positioning wallboard is equal to that of a rectangular strip at the side end of the main wallboard, a positioning hole B is formed in the groove of the left positioning wallboard in a protruding mode corresponding to the square shape of the main wallboard, and an auxiliary positioning groove A is formed in the inner wall of the positioning hole B in the groove of the left positioning wallboard and is opposite to the pipe rib A;

the right positioning wallboard is L-shaped, the thickness of the right positioning wallboard is equal to that of the main wallboard, the length of the transverse edge in the right positioning wallboard is equal to the sum of the thickness of the rectangular square block and the buckling plate at the side end of the main wallboard, and the auxiliary positioning groove B is formed in the right pipe rib B at the inner edge of the right positioning wallboard; fixing grooves are formed in two sides of the inner wall of the vertical edge of the right positioning wallboard, and buckling pieces are installed in the fixing grooves;

the inner side end of the buckling plate is fixedly provided with a buckling rod, the front end of the buckling rod is in a pointed shape, and the through hole of the buckling rod is buckled in the buckling piece.

Preferably, the square convex columns are poured on the left side of the main wallboard at equal intervals in two rows and multiple columns; the positioning holes B are arranged in the grooves of the left positioning wall plate in two rows and a plurality of columns corresponding to the square convex columns.

Preferably, the length of the pipe rib A is larger than the thickness of the bottom end of the groove of the left positioning wallboard to the left positioning wallboard and the wall surface, and the length of the pipe rib B is larger than the length of the inner transverse edge of the right positioning wallboard to the bottom end.

Preferably, the positioning holes A are arranged on the right side of the main wall plate in two rows and multiple columns, and the auxiliary positioning grooves B are arranged on the right positioning wall plate in two rows and multiple columns corresponding to the positioning holes A.

Preferably, the fastening rod through holes are arranged between the adjacent positioning holes A at equal intervals.

Preferably, the tube rib A and the tube rib B are both stainless steel components.

Preferably, the limiting strip plate is a hard plastic component, the pull ring is a stainless steel component, and the pull ring is movably hinged with the limiting strip plate.

Preferably, the buckling piece is a member formed by connecting a spring and a baffle, one end of the spring is fixedly connected with the inside of the fixing groove, the other end of the spring is connected with the baffle, the front end of the buckling rod extrudes the baffle and penetrates through the baffle, and the baffle returns to the original position under the action of the spring to fix the buckling rod.

A production process of an autoclaved aerated concrete heat-insulating wall comprises the following steps:

s1: selecting a main wallboard die, a left positioning wallboard die, a right positioning wallboard die and a buckling board die,

s2: the pipe ribs A are inserted in the left side of the main wallboard mould at equal intervals in a straight line, autoclaved aerated concrete is poured into the main wallboard mould, a spring is placed in a positioning hole A at the right end after the autoclaved aerated concrete is cooled, then the pipe ribs B compress the spring, the pipe ribs B are placed in the positioning hole A, and the pipe ribs B are limited through the limiting strip plates;

s3: pouring autoclaved aerated concrete into the left positioning wallboard die, and taking out the formed left positioning wallboard after cooling and forming;

s4: pouring autoclaved aerated concrete into the rightward positioning wallboard die, and after cooling and forming, additionally installing a buckling piece in the fixed groove;

s5: and inserting the buckling rods at the side ends of the buckling plate molds, pouring autoclaved aerated concrete into the buckling plate molds, and taking out the buckling plates after cooling and forming.

According to the autoclaved aerated concrete heat-insulating wallboard and the production process, the main wallboard, the left positioning wallboard, the right positioning wallboard and the buckling plate are respectively poured by the main wallboard die, the left positioning wallboard die, the right positioning wallboard die and the buckling plate die, so that the production is convenient; the main wallboard is embedded with the left positioning wallboard and is fixed through the pipe rib A, so that the main wallboard and the left positioning wallboard are convenient to assemble; the right positioning wallboard is attached to the right side of the main wallboard and connected with the wall body through the pipe rib B, so that the main wallboard and the right positioning wallboard are convenient to assemble; the buckling rod of the buckling plate is directly buckled in the buckling piece to complete the assembly of the buckling plate, and the connection between the main wallboard and the right positioning wallboard is further fixed, so that the buckling plate is convenient to assemble, and the whole structure is reinforced; the whole equipment is convenient, and labour saving and time saving has saved the labour cost among the in-process of equipment, and the deviation can not appear among the in-process of equipment, also does not have the danger of damaging.

Drawings

FIG. 1 is a schematic diagram of an overall structure provided by an embodiment of the present invention;

FIG. 2 is a front view of a main wall panel provided by an embodiment of the present invention;

FIG. 3 is a main sectional view of a main wall panel provided by an embodiment of the present invention;

FIG. 4 is a left side view of a main panel provided by an embodiment of the present invention;

FIG. 5 is a right side view of a main wall panel provided by an embodiment of the present invention;

FIG. 6 is a right side view of a left positioning wall panel provided by an embodiment of the present invention;

FIG. 7 is a front view of a right positioning wall panel provided by an embodiment of the present invention;

FIG. 8 is a left side view of a right positioning wall panel provided by an embodiment of the present invention;

FIG. 9 is a drawing of the connection between the right positioning wall panel and the fastening panel according to the embodiment of the present invention;

FIG. 10 is a front view of a main panel mold provided by an embodiment of the present invention;

FIG. 11 is a top view of a master wallboard mold provided in accordance with embodiments of the present invention;

FIG. 12 is a side view of a left positioning wallboard mold provided in accordance with an embodiment of the present invention;

FIG. 13 is a top view of a left positioning wallboard mold provided in accordance with an embodiment of the present invention;

FIG. 14 is a top view of a right positioning wall form provided by an embodiment of the present invention;

FIG. 15 is a top view of a closure panel mold provided in accordance with an embodiment of the present invention.

In the figure: 1. a main wall panel; 2. a left positioning wall plate; 3. a right positioning wall plate; 4. buckling the plate; 5. a square convex column; 6. a pipe rib A; 7. positioning holes A; 8. a spring; 9. a pipe rib B; 10. a slat positioning groove; 11. a limiting batten; 12. a pull ring; 13. a fastening rod through hole; 14. a positioning hole B; 15. an auxiliary positioning groove A; 16. an auxiliary positioning groove B; 17. fixing grooves; 18. a fastener; 19. a buckling rod.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to the embodiments of the autoclaved aerated concrete thermal insulation wall boards shown in fig. 1 to 9, the autoclaved aerated concrete thermal insulation wall board provided by the present application comprises a main wall board 1, a left positioning wall board 2, a right positioning wall board 3 and a buckling board 4, wherein the left positioning wall board 2 and the right positioning wall board 3 are respectively clamped on the left side and the right side of the main wall board 1, and the buckling board 4 is buckled on the right positioning wall board 3; a rectangular strip is integrally cast on the left side of the main wallboard 1, a square convex column 5 is cast on the outer side of the rectangular strip, a pipe rib A6 is fixedly and additionally arranged in the center of the front end of the square convex column 5, a positioning hole A7 is formed in the right side of the main wallboard 1, a spring 8 is fixedly installed on the inner side of a positioning hole A7, and a pipe rib B9 is installed at the front end of the spring 8; a main wall plate 1 at the front end of a pipe rib B9 is provided with a slat positioning groove 10, a limiting slat 11 is installed in the slat positioning groove 10 in a contact manner, a pipe rib B9 compression spring 8 is positioned in a positioning hole A7, the front end of a pipe rib B9 is connected with the side end of the limiting slat 11 in a contact manner, and the side end of the limiting slat 11 is fixedly provided with a pull ring 12; the right side of the main wallboard 1 is provided with a buckling rod through hole 13; left side location wallboard 2 is concave type, and the thickness of left side location wallboard 2 equals with the thickness of main wall board 1 for left side location wallboard 2 is connected the back with main wall board 1, and the contact jaw is a plane, makes whole wallboard surfacing, and 2 indent lengths in the wallboard of left side location are equal with the thickness of 1 side rectangle strip of main wall board, makes main wall board 1 can stabilize to cup joint in the recess of left side location wallboard 2, connects firmly.

A positioning hole B14 is formed in the groove of the left positioning wallboard 2 corresponding to the square convex shape of the main wallboard 1, and an auxiliary positioning groove A15 is formed in the inner wall of the positioning hole B14 in the groove of the left positioning wallboard 2 opposite to the pipe rib A6, so that the pipe rib A6 can be aligned to and inserted in the auxiliary positioning groove A15; right side location wallboard 3 is the L type, and the thickness of right side location wallboard 3 equals with the thickness of main wall board 1 for right side location wallboard 3 is connected the back with main wall board 1, and the contact jaw is a plane, makes whole wallboard surfacing.

The length of the transverse edge in the right positioning wallboard 3 is equal to the thickness sum of the rectangular square block at the side end of the main wallboard 1 and the buckling plate 4; the length of the transverse edge in the right positioning wallboard 3 is equal to the thickness of the strip square block and the buckling plate 4 at the side end of the main wallboard 1, and an auxiliary positioning groove B16 is arranged on the right-side edge of the right positioning wallboard 3 relative to the rib B9; fixing grooves 17 are formed in two sides of the inner wall of the vertical edge of the right positioning wallboard 3, and buckling pieces 18 are installed in the fixing grooves 17; the inner side end of the buckling plate 4 is fixedly provided with a buckling rod 19, the front end of the buckling rod 19 is in a pointed shape, and a through hole of the buckling rod 19 is buckled in a buckling piece.

The length of muscle A6 is greater than the thickness apart from left location wallboard 2 and wall face at left location wallboard 2 recess bottom for muscle A6 can pass left location wallboard 2 and insert in the wall, and the length of muscle B9 is greater than the length apart from the bottom in the wallboard 3 of right location, makes muscle B9 can pass right location wallboard 3 and insert in the wall.

The square convex columns 5 are poured on the left side of the main wallboard 1 at equal intervals in two rows and multiple columns, and the pipe ribs A6 at the front ends of the square convex columns 5 are also arranged in two rows and multiple columns; locating hole B14 is two rows of multiseriate and corresponds square protruding column 5 and sets up in the recess of left side location wallboard 2, pipe muscle A6 is two rows of multiseriums and pegs graft in supplementary constant head tank A15, the steadiness of main wallboard 1 and left location wallboard 2 and wall connection has been strengthened, the supplementary constant head tank B16 of the same reason is two rows of multiseriate and corresponds locating hole A7 and open on right side location wallboard 3, locating hole A7 is two rows of multiseriums and sets up on the right side of main wallboard, pipe muscle B9 is two rows of multiseriums and pegs graft in supplementary constant head tank B16, main wallboard 1 and right location wallboard 3 and wall connection's steadiness have been strengthened.

Buckling rod through holes 13 are equidistantly formed in the adjacent positioning holes A7, buckling rods 19 are installed in each buckling rod through hole 13, the buckling plates 4 are fixed through the buckling rods 19, and the installation stability of the buckling plates 4 is enhanced.

The tube rib A6 and the tube rib B9 are stainless steel components, are not easy to rust and can ensure the connection stability for a long time.

Spacing slat 11 is a rigid plastic material component, and pull ring 12 is stainless steel material component, and pull ring 12 and spacing slat 11 activity hinge joint, and spacing slat 11 material is light, and intensity is high, is convenient for extract, and with low costs.

Buckling piece 18 is a component that spring and baffle were connected and are formed, and spring one end and the inside fixed connection of fixed slot 17, the other end and the baffle of spring are connected, and behind buckling rod 19 front end extrusion baffle passed the baffle, the baffle restores to the original position under the spring action, fixes buckling rod 19, connects conveniently firmly.

Referring to fig. 10 to 15, a production process of an autoclaved aerated concrete thermal insulation wall provided in the embodiment of the present application is provided.

The production process of the autoclaved aerated concrete heat-insulating wall provided by the embodiment of the application comprises the following steps:

the first step is as follows: selecting a main wallboard die, a left positioning wallboard die, a right positioning wallboard die and a buckling board die,

the second step is that: the pipe ribs A6 are inserted in the left side of the main wallboard mould at equal intervals in a straight line, autoclaved aerated concrete is poured into the main wallboard mould, after cooling, the spring 8 is placed in the positioning hole A7 at the right end, the pipe rib B9 compresses the spring 8, the pipe rib B9 is placed in the positioning hole A7, and the pipe rib B9 is limited through the limiting strip plate 11;

the third step: pouring autoclaved aerated concrete into the left positioning wallboard die, and taking out the formed left positioning wallboard 2 after cooling and forming;

the fourth step: pouring autoclaved aerated concrete into the rightward positioning wallboard die, and after cooling and forming, additionally installing a buckling piece 18 in the fixing groove 17;

the fifth step: and inserting the buckling rod 19 at the side end of the buckling plate mold, pouring autoclaved aerated concrete into the buckling plate mold, and taking out the buckling plate 4 after cooling and forming.

When the autoclaved aerated concrete thermal insulation wallboard is used, firstly, the installation positions of a left positioning wallboard 2 and a right positioning wallboard 3 are determined, drilling is carried out according to the position of an auxiliary positioning groove A15, a drilled hole penetrates through the left positioning wallboard 2 and is drilled into a wall body, drilling is carried out according to the position of an auxiliary positioning groove B16, the drilled hole penetrates through the right positioning wallboard 3 and is drilled into the wall body, then, the left end of a main wallboard 1 is embedded into a groove of the left positioning wallboard 2, a pipe rib A6 is inserted into the drilled holes in the left positioning wallboard 2 and the wall body, the right side of the main wallboard 1 is attached to the inner side of an L-shaped right positioning wallboard 3, the pipe rib B9 is aligned with the auxiliary positioning groove B16, after a limit lath 11 is pulled out through a pull ring 12, a pipe rib B9 is arranged in through holes drilled on the right positioning wallboard 3 and the wall body under the action of the elasticity of a spring 8, then, a buckling plate 4 is attached to the side of the L-shaped right positioning wallboard 3, a buckling rod 19, the installation of the autoclaved aerated concrete heat-insulating wall board can be completed at the moment; the whole production is convenient, the equipment is convenient, labour saving and time saving has saved the labour cost, and the deviation can not appear in the in-process of equipment, also does not have the danger of damaging.

In summary, the following steps: according to the autoclaved aerated concrete heat-insulating wallboard and the production process, the main wallboard 1, the left positioning wallboard 2, the right positioning wallboard 3 and the buckling plate 4 are respectively poured by the main wallboard mould, the left positioning wallboard mould, the right positioning wallboard mould and the buckling plate mould, so that the production is convenient; the main wall plate 1 is embedded in the groove of the left positioning wall plate 2, the length of the pipe rib A6 is larger than the thickness of the bottom end of the groove of the left positioning wall plate 2 from the bottom end, the pipe rib A6 is connected with a wall body, and the square convex columns 5 are poured on the left side of the main wall plate 1 in two rows and multiple columns at equal intervals; the positioning holes B14 are arranged in the grooves of the left positioning wall plate 2 in two rows and multiple columns corresponding to the square convex columns 5, so that the main wall plate 1 and the left positioning wall plate 2 are connected and fastened with the wall body, and the side collapse can be prevented; after the main wall body and the left positioning wall plate 2 are installed, the L-shaped right positioning wall plate 3 is attached to the right side of the main wall plate 1, holes drilled in the pipe ribs B9 and the right positioning wall plate 3 are aligned, the right side of the main wall plate 1 is in contact connection with the inner end of the right positioning wall plate 3, the main wall plate 1 can be connected with the right positioning wall plate 3 by pulling out the limiting strip plate 11, the main wall plate 1 is connected with the right positioning wall plate 3 through the left positioning wall plate 2 and the right positioning wall plate 3, the whole assembly can be completed by buckling the buckling plate 4 on the right positioning wall plate 3, the main wall plate 1, the left positioning wall plate 2, the right positioning wall plate 3 and the buckling plate 4 form a whole heat-insulation wall plate, the assembly is convenient, the time and labor are saved in the assembly process, the labor cost is saved, deviation can not occur in the.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. An autoclaved aerated concrete heat preservation wallboard is characterized in that: the wallboard fixing device comprises a main wallboard (1), a left positioning wallboard (2), a right positioning wallboard (3) and a buckling plate (4), wherein the left positioning wallboard (2) and the right positioning wallboard (3) are respectively clamped on the left side and the right side of the main wallboard (1), and the buckling plate (4) is buckled on the right positioning wallboard (3);

a rectangular strip is integrally poured on the left side of the main wallboard (1), a square convex column (5) is poured on the outer side of the rectangular strip, a pipe rib A (6) is fixedly additionally arranged in the center of the front end of the square convex column (5), a positioning hole A (7) is formed in the right side of the main wallboard (1), a spring (8) is fixedly installed on the inner side of the positioning hole A (7), and a pipe rib B (9) is installed at the front end of the spring (8); a slat positioning groove (10) is formed in the main wall plate (1) at the front end of the tube rib B (9), a limiting slat (11) is installed in the slat positioning groove (10) in a contact mode, a compression spring (8) of the tube rib B (9) is located in the positioning hole A (7), the front end of the tube rib B (9) is connected with the side end of the limiting slat (11) in a contact mode, and a pull ring (12) is fixedly installed at the side end of the limiting slat (11); a buckling rod through hole (13) is formed in the right side of the main wallboard (1);

the left positioning wallboard (2) is concave, the thickness of the left positioning wallboard (2) is equal to that of the main wallboard (1), the length of an inner groove of the left positioning wallboard (2) is equal to that of a rectangular strip at the side end of the main wallboard (1), a positioning hole B (14) is formed in the groove of the left positioning wallboard (2) corresponding to the square convex shape of the main wallboard (1), and an auxiliary positioning groove A (15) is formed in the inner wall of the positioning hole B (14) in the groove of the left positioning wallboard (2) and is opposite to the pipe rib A (6);

the right positioning wallboard (3) is L-shaped, the thickness of the right positioning wallboard (3) is equal to that of the main wallboard (1), the length of the inner transverse edge of the right positioning wallboard (3) is equal to the sum of the thickness of the long square block and the thickness of the buckling plate (4) at the side end of the main wallboard (1), and an auxiliary positioning groove B (16) is formed in the right-side pair of ribs B (9) of the right positioning wallboard (3); fixing grooves (17) are formed in two sides of the inner wall of the vertical edge of the right positioning wallboard (3), and buckling pieces (18) are installed in the fixing grooves (17);

the inner side end of the buckling plate (4) is fixedly provided with a buckling rod (19), the front end of the buckling rod (19) is in a pointed shape, and the buckling rod (19) penetrates through the buckling rod through hole (13) and is buckled in the buckling piece (18).

2. The autoclaved aerated concrete heat-insulating wallboard as claimed in claim 1, wherein the square convex columns (5) are poured on the left side of the main wallboard (1) in two rows and multiple columns at equal intervals; the positioning holes B (14) are arranged in the grooves of the left positioning wall plate (2) in two rows and a plurality of columns corresponding to the square convex columns (5).

3. The autoclaved aerated concrete heat-insulating wall board as claimed in claim 1, wherein the length of the pipe rib A (6) is greater than the thickness of the bottom end of the groove of the left positioning wall board (2) from the left positioning wall board (2) and the wall surface, and the length of the pipe rib B (9) is greater than the length of the inner transverse edge of the right positioning wall board (3) from the bottom end.

4. The autoclaved aerated concrete thermal insulation wall panel according to claim 1, wherein the positioning holes A (7) are arranged on the right side of the main wall panel (1) in two rows and multiple columns, and the auxiliary positioning grooves B (16) are arranged on the right positioning wall panel (3) in two rows and multiple columns corresponding to the positioning holes A (7).

5. The autoclaved aerated concrete heat-insulating wall panel according to claim 1, wherein the buckling rod through holes (13) are arranged between adjacent positioning holes A (7) at equal intervals.

6. The autoclaved aerated concrete thermal insulation wallboard of claim 1, wherein the pipe rib A (6) and the pipe rib B (9) are stainless steel members.

7. The autoclaved aerated concrete heat-insulating wall panel according to claim 1, wherein the position-limiting slat (11) is a rigid plastic member, the pull ring (12) is a stainless steel member, and the pull ring (12) is movably hinged with the position-limiting slat (11).

8. The autoclaved aerated concrete thermal insulation wallboard as claimed in claim 1, wherein the buckling piece (18) is a member formed by connecting a spring and a baffle, one end of the spring is fixedly connected with the inside of the fixing groove (17), the other end of the spring is connected with the baffle, the front end of the buckling rod (19) extrudes the baffle and penetrates through the baffle, and the baffle is restored to the original position under the action of the spring to fix the buckling rod (19).

9. The production process of the autoclaved aerated concrete heat-insulating wall is characterized by comprising the following steps of:

s2: the method comprises the following steps of inserting pipe ribs A (6) at equal intervals in a straight line on the left side of a main wallboard mould, pouring autoclaved aerated concrete into the main wallboard mould, placing springs (8) in positioning holes A (7) at the right end after cooling, compressing the springs (8) by using pipe ribs B (9), placing the pipe ribs B (9) in the positioning holes A (7), and limiting the pipe ribs B (9) through limiting slats (11);

s3: pouring autoclaved aerated concrete into the left positioning wallboard die, and taking out the formed left positioning wallboard (2) after cooling and forming;

s4: pouring autoclaved aerated concrete into the wall plate die towards the right, and after cooling and forming, additionally installing a buckling piece (18) in the fixed groove (17);

s5: and (3) inserting the buckling rod (19) at the side end of the buckling plate mold, pouring autoclaved aerated concrete into the buckling plate mold, and taking out the buckling plate (4) after cooling and forming.