阅读说明：本技术 建筑定型模板非直角墙体模板的装配方法 (Assembling method of building shaped formwork non-right-angle wall formwork ) 是由 曹海峰 王金城 张灵巧 于 2021-09-29 设计创作，主要内容包括：本发明提供了一种建筑定型模板非直角墙体模板的装配方法,涉及建筑施工技术领域,通过一定数量内板角单元和内桥角单元组拼工况长度和角度的内角模板,并与用于内角的桥板、通用模板、用作穿墙螺栓连接的万能板组成内角模板组件；通过一定数量外板角单元和外桥角单元组拼工况长度和角度的外角模板,并依次拼接用在外角上的桥板、通用模板、用作穿墙螺栓连接的万能板组成外角模板组件；内、外模板体组件系装配就位,用在内角上的万能板与用在外角上的万能板相对于两侧模板垂直对位,形成非直角模板装配技术体系。本发明消除现有定型模板需专项定制的技术缺陷,填补非直角模板体系用标准通用构件装配的技术空白。(The invention provides an assembling method of a non-right-angle wall body template of a building shaping template, which relates to the technical field of building construction, wherein an inner angle template assembly is formed by assembling a certain number of inner plate corner units and inner bridge corner units into an inner angle template with working condition length and angle, and a bridge plate used for inner angles, a universal template and a universal plate used for wall-through bolt connection; the outer corner template assembly is formed by splicing outer corner templates with working condition lengths and angles by a certain number of outer corner units and outer bridge corner units, and sequentially splicing bridge plates used on outer corners, universal templates and universal plates used for wall-through bolt connection; the inner and outer formwork body assembly systems are assembled in place, and the universal plates used on the inner corners and the universal plates used on the outer corners are vertically aligned relative to the formworks on the two sides to form a non-right-angle formwork assembly technology system. The invention eliminates the technical defect that the existing shaping template needs special customization, and fills the technical blank that a non-right-angle template system is assembled by standard universal components.)

1. The method for assembling the non-right-angle wall body formwork of the building shaping formwork is characterized by comprising the following steps of:

assembling inner angle template components: sequentially connecting a standard inner angle template forming component (1000), a bridge plate (11) used on an inner angle, a universal template (12) used on the inner angle and a universal plate (13) used on the inner angle to form the inner angle template component;

the angle adjustment step of the inner angle template: a first inner plate forming surface in the standard inner angle template forming assembly (1000) rotates relative to a second inner plate forming surface to form an angle required by a working condition;

assembling external corner template components: sequentially connecting a standard external corner template forming assembly (2000), a bridge plate (21) used on an external corner, a universal template (22) used on the external corner and a universal plate (23) used on the external corner to form the external corner template assembly;

the outer angle template angle adjusting step: and the first outer plate forming surface in the standard outer angle template forming assembly (2000) rotates relative to the second outer plate forming surface to form an angle required by a working condition.

2. The method of assembling a building sizing form for a non-right angle wall form according to claim 1, wherein:

the inner angle template component assembling steps are as follows: the inner corner template assembly comprises a plurality of inner plate corner units (1110) and inner bridge corner units (1120), the standard universal inner plate corner units (1110) and the standard universal inner bridge corner units (1120) are assembled and connected, hinge pins are placed in corresponding hinge pin holes to form a multi-hinge structure, and the inner corner template series assembly with the required height is assembled.

3. The method of assembling a building sizing form for a non-right angle wall form according to claim 2, wherein:

the inner plate corner unit (1110) and the inner bridge corner unit (1120) are assembled and connected by the following three methods:

any two adjacent inner plate corner units (1110) are connected through a plate buckle assembly (30) along the length direction;

the inner plate corner unit (1110) and the inner bridge corner unit (1120) are connected at one side through a plate buckle assembly (30);

the inner bridge corner unit (1120) is arranged between the two inner plate corner units (1110), and the two inner plate corner units, the inner bridge corner unit and the inner bridge corner unit can be connected through a plate buckle assembly (30).

4. The method of assembling a building sizing form for a non-right angle wall form according to claim 1, wherein:

the outer corner template component assembling steps include: the external corner template assembly comprises a plurality of external plate corner units (2110) and external bridge corner units (2120), and the external corner template series assemblies with the required height are formed by assembling and connecting the standard universal external plate corner units (2110) and the standard universal external bridge corner units (2120) and placing hinge pins in corresponding hinge pin holes to form a multi-hinge structure.

5. The method of assembling a building sizing form non-rectangular wall form according to claim 4, wherein:

the outer plate corner unit (2110) and the outer bridge corner unit (2120) are assembled and connected in the following three methods:

any two adjacent outer plate angle units (2110) are connected in the length direction through a plate buckle assembly (30);

the outer plate corner unit (2110) is connected with the outer bridge corner unit (2120) through a plate buckle assembly (30);

the outer bridge corner unit (2120) is placed between the two outer plate corner units (2110), and the two outer plate corner units can be connected through a plate buckle assembly (30).

6. The method of assembling a building sizing form non-rectangular wall form according to claim 3, wherein:

two inner plates (1111) are assembled oppositely, and a hinge pin (1112) used on the inner plates is arranged between the two inner plates (1111) so that the two inner plates (1111) rotate along the axle center of the hinge pin (1112) used on the inner plates to form an inner plate corner unit (1110);

the two inner bridges (1121) are assembled in opposite directions, and an inner bridge hinge pin (1122) is installed between the two inner bridges (1121) so that the two inner bridges (1121) rotate along the axial center of the inner bridge hinge pin (1122) to form an inner bridge corner unit (1120).

7. The method of assembling a building sizing form non-rectangular wall form according to claim 5, wherein:

two outer plates (2111) are assembled oppositely, and a hinge pin (2112) used on the outer plates is installed between the two outer plates (2111) so that the two outer plates (2111) rotate along the axle center of the hinge pin (2112) used on the outer plates to form an outer plate angle unit (2110);

two outer bridges (2121) are oppositely assembled, and an outer bridge hinge pin (2122) is installed between the two outer bridges (2121) so that the two outer bridges (2121) rotate along the axial center of the outer bridge hinge pin (2122) to form an outer bridge corner unit (2120).

8. The method of assembling a building sizing form for a non-right angle wall form according to claim 1, wherein:

according to the transverse length and the angle required by the working condition, a standard inner corner template forming component (1000), a universal template (12) used on an inner corner and a universal plate (13) used on the inner corner are sequentially connected through a plate buckle component (30) to form the inner corner template component.

9. The method of assembling a building sizing form for a non-right angle wall form according to claim 1, wherein:

and according to the transverse length and angle required by the working condition, sequentially connecting a standard external corner template forming assembly (2000), a universal template (22) used on the external corner and a universal plate (23) used on the external corner through a plate buckle assembly (30) to form the external corner template assembly.

10. The method of assembling a building sizing form for a non-right angle wall form according to claim 1, further comprising the step of vertical adjustment:

the universal plate (13) used on the inner corner and the universal plate (23) used on the outer corner are vertically aligned and connected through a wall-through bolt (40).

Technical Field

The invention relates to the technical field of building construction, in particular to an assembling method of a building shaping template non-right-angle wall template.

Background

Aiming at the field of building templates, in the existing products and technical systems at home and abroad, two technical paths are basically adopted for solving the problem of splicing the non-right-angle concrete member templates, one technical path is to cut and splice a wood template on site according to the actual angle and length, and the splicing work of the non-right-angle concrete member is completed by matching with a reinforcing system; the other type is that a special shaping template is specially customized according to the angle and the length of the engineering design, the non-right-angle member is spliced with the existing general shaping template, the template splicing of the non-right-angle concrete member of the engineering is completed, the customized non-right-angle template used in the engineering is scrapped unless the non-right-angle concrete member with the same angle and length is produced.

Therefore, in the field of building templates, standard and universal template products do not exist, and the concrete member forming system can adapt to various complicated angles and lengths unless specially customized.

The standard general product can be used for matching with two auxiliary accessories to complete a forming system of a concrete member with an actually required angle and length, can be repeatedly disassembled and assembled according to different actual engineering requirements, can be recycled within the service life, and fills the blank of products in domestic and foreign industries.

Disclosure of Invention

The invention aims to provide an assembling method of a non-right-angle wall body template of a building shaping template, which solves the technical problems that the shaping template in the prior art can only be suitable for the working condition of a specific angle and a specific length, can not be realized by a standard and universal component through a corresponding process technical system, and can only be customized specially.

In a first aspect, the invention provides an assembly method of a building shaping template non-right-angle wall template, which comprises the following steps:

assembling inner angle template components: sequentially connecting a standard inner angle template forming component, a bridge plate used on an inner angle, a universal template used on the inner angle and a universal plate used on the inner angle to form the inner angle template component;

the angle adjustment step of the inner angle template: a first inner plate forming surface in the standard inner angle template forming assembly rotates relative to a second inner plate forming surface to form an angle required by a working condition;

assembling external corner template components: sequentially connecting a standard external corner template forming assembly, a bridge plate used on an external corner, a universal template used on the external corner and a universal plate used on the external corner to form the external corner template assembly;

the outer angle template angle adjusting step: and a first outer plate forming surface in the standard outer angle template forming assembly rotates relative to a second outer plate forming surface to form an angle required by working conditions.

Further, the inner corner template component assembling steps are as follows: the inner corner template assembly comprises a plurality of inner plate corner units and inner bridge corner units, the standard universal inner plate corner units and the standard universal inner bridge corner units are assembled and connected, and hinge pins are placed in corresponding hinge pin holes to form a multi-hinge structure and splice the inner corner template series assemblies with required heights.

Further, the inner plate corner unit and the inner bridge corner unit are assembled and connected by the following three methods:

any two adjacent inner plate corner units are connected through a plate buckle component along the length direction;

the inner plate corner unit and the inner bridge corner unit are connected at one side through a plate buckle assembly;

the inner bridge corner unit is arranged between the two inner plate corner units, and the inner bridge corner unit, the inner bridge corner unit and the inner plate corner unit can be connected through a plate buckle assembly.

Further, the assembling steps of the outer corner template components comprise the following steps: the outer corner template assembly comprises a plurality of outer plate corner units and outer bridge corner units, and the outer plate corner units which are universal in standard and the outer bridge corner units which are universal in standard are assembled and connected, and hinge pins are placed in corresponding hinge pin holes to form a multi-hinge structure and splice the outer corner template series assemblies with required heights.

Further, the outer plate corner units and the outer bridge corner units are assembled and connected by the following three methods:

any two adjacent outer plate angle units are connected through a plate buckle component along the length direction;

the outer plate corner unit is connected with the outer bridge corner unit through a plate buckle assembly;

the outer bridge corner unit is arranged between the two outer plate corner units, and the two outer plate corner units can be connected through the plate buckle assembly.

Further, two inner plates are assembled in opposite directions, and a hinge pin used on the inner plates is arranged between the two inner plates, so that the two inner plates rotate along the axis of the hinge pin used on the inner plates to form an inner plate corner unit;

the two inner bridges are assembled in opposite directions, and the inner bridge hinge pin is installed between the two inner bridges, so that the two inner bridges rotate along the axis of the inner bridge hinge pin to form an inner bridge angle unit.

Further, two outer plates are assembled in an opposite mode, and hinge pins used on the outer plates are installed between the two outer plates, so that the two outer plates rotate along the axis centers of the hinge pins used on the outer plates to form an outer plate angle unit;

the two outer axles are assembled in opposite directions, and the outer axle hinge pin is installed between the two outer axles, so that the two outer axles rotate along the axle center of the outer axle hinge pin to form an outer axle angle unit.

And further, according to the transverse length and the angle required by the working condition, the standard inner angle template forming component, the universal template used on the inner angle and the universal plate used on the inner angle are sequentially connected through the plate buckle component to form the inner angle template component.

And further, according to the transverse length and the angle required by the working condition, the standard outer corner template forming assembly, the universal template used on the outer corner and the universal plate used on the outer corner are sequentially connected through the plate buckle assembly to form the outer corner template assembly.

Further, the method also comprises a vertical adjusting step:

the universal plates used on the inner corners and the universal plates used on the outer corners are vertically aligned and connected through wall-penetrating bolts.

According to the assembling method of the non-right-angle wall body formwork of the building shaping formwork, the first inner plate forming surface and the second inner plate forming surface can rotate relatively, the forming angle of the standard inner angle formwork forming component can be adjusted freely, and similarly, the first outer plate forming surface and the second outer plate forming surface can rotate relatively, the forming angle of the standard outer angle formwork forming component can be adjusted freely, so that the inner angle formwork component and the outer angle formwork component can be suitable for different forming angles.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic view of an installation structure of a method for assembling a non-right-angle wall form of a building setting form according to an embodiment of the invention;

fig. 2 is a schematic view of an installation structure of a standard inner corner template forming assembly and a standard outer corner template forming assembly in the method for assembling a non-right-angle wall template of a building sizing template according to the embodiment of the invention;

fig. 3 is a schematic view of an installation structure of an inner plate corner unit in the assembling method of the building sizing formwork non-right-angle wall formwork according to the embodiment of the invention;

fig. 4 is a schematic view of an installation structure of a plurality of inner plate corner units in the assembling method of the building sizing formwork non-right-angle wall formwork according to the embodiment of the invention;

fig. 5 is a schematic view of an installation structure of an inner bridge corner unit in the assembling method of the building sizing formwork non-right-angle wall formwork according to the embodiment of the invention;

fig. 6 is a schematic structural diagram of an inner bridge corner unit in the assembling method of the building sizing formwork non-right-angle wall formwork according to the embodiment of the invention;

fig. 7 is a schematic structural diagram of a standard inner corner formwork forming assembly in the method for assembling a non-right-angle wall formwork of a building sizing formwork according to the embodiment of the present invention;

fig. 8 is a schematic view of an installation structure of an external plate corner unit in the method for assembling a non-right-angle wall form of a building sizing form according to an embodiment of the present invention;

fig. 9 is a schematic view of an installation structure of a plurality of external plate corner units in the method for assembling a non-right-angle wall form of a building sizing form according to an embodiment of the present invention;

fig. 10 is a schematic view of an installation structure of an external corner unit in the method for assembling a non-right-angle wall form of a building sizing form according to an embodiment of the present invention;

fig. 11 is a schematic structural diagram of an external bridge corner unit in the assembling method of the building sizing formwork non-right-angle wall formwork according to the embodiment of the invention;

fig. 12 is a schematic overall structural diagram of an assembling method of a building sizing template non-right-angle wall template according to an embodiment of the invention.

Icon: 11-bridge plates used on the inner corners; 12-universal template used on the interior corners; 13-universal plates used on the inner corners; 21-bridge plates for use on the outer corners; 22-universal template for use on the outside corner; 23-universal plates for use on the outer corners; 30-a buckle assembly; 40-through-wall bolts; 1000-standard inner angle template forming component; 1110 — inner corner unit; 1111-inner panel; 1112-a hinge pin for use on the inner plate; 1120-inner bridge corner unit; 1121-inner bridge; 1122-inner bridge hinge pin; 2000-standard outside corner template forming component; 2110-outer plate corner unit; 2111-outer plate; 2112-hinge pins for use on the outer plates; 2120-outer corner bridge unit; 2121-outer bridge; 2122-outer bridge hinge pin.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. 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.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or the orientations or positional relationships that the products of the present invention are conventionally placed in use, and are only used for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

Furthermore, the terms "horizontal", "vertical", "overhang" and the like do not imply that the components are required to be absolutely horizontal or overhang, but may be slightly inclined. For example, "horizontal" merely means that the direction is more horizontal than "vertical" and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Some embodiments of the invention are described in detail below with reference to the accompanying drawings. The embodiments described below and the features of the embodiments can be combined with each other without conflict.

It should be noted that the plate fastener assembly, the bridge plate, the universal plate and the universal plate in this embodiment are all the existing structures, for example, the plate fastener assembly can adopt the locking device in CN104775615A, for example, the bridge plate can adopt the bridge plate with the limiting structure in CN109339442A, for example, the universal plate can adopt the flat plastic plate in CN104763139A, for example, the universal plate can adopt the universal plate for multi-purpose building in CN 109653489A.

As shown in fig. 1 to 12, the method for assembling a non-rectangular wall form of a building form board provided in this embodiment includes the following steps: assembling inner angle template components: sequentially connecting a standard inner angle template forming component 1000, a bridge plate 11 used on an inner angle, a universal template 12 used on the inner angle and a universal plate 13 used on the inner angle to form an inner angle template component; the angle adjustment step of the inner angle template: a first inner plate molding surface in the standard inner angle template molding assembly 1000 rotates relative to a second inner plate molding surface to form an angle required by a working condition; assembling external corner template components: sequentially connecting a standard external corner template forming assembly 2000, a bridge plate 21 used on an external corner, a universal template 22 used on the external corner and a universal plate 23 used on the external corner to form an external corner template assembly; the outer angle template angle adjusting step: the first outer plate forming surface in the standard outer angle template forming assembly 2000 rotates relatively to the second outer plate forming surface to form the angle required by the working condition.

Specifically, install respectively in standard interior angle template forming assembly 1000's both sides in proper order and be used in the bridge plate 11 on the interior angle, be used in general template 12 on the interior angle and be used in the universal plate 13 on the interior angle, and in the same way, install respectively in standard exterior angle template forming assembly 2000's both sides in proper order and be used in the bridge plate 21 on the exterior angle, be used in general template 22 on the exterior angle and be used in the universal plate 23 on the exterior angle, adjust the angle between first inner panel profiled surface and the second inner panel profiled surface in standard interior angle template forming assembly 1000, and, adjust the angle between first planking profiled surface and the second planking profiled surface in standard exterior angle template forming assembly 2000, the shaping angle of freely adjusting, be applicable to the pouring operating mode of different angles.

The assembling method of the building shaped formwork non-right-angle wall formwork provided by the embodiment, because the first inner plate forming surface and the second inner plate forming surface can rotate relatively, the forming angle of the standard inner corner formwork forming assembly 1000 can be adjusted freely, and in the same way, the first outer plate forming surface and the second outer plate forming surface can rotate relatively, the forming angle of the standard outer corner formwork forming assembly 2000 can be adjusted freely, and further the inner corner formwork assembly and the outer corner formwork assembly can be applicable to different forming angles, and the length required by the working condition of splicing the plurality of standard outer corner formwork forming assemblies 2000 by splicing the plurality of standard inner corner formwork forming assemblies 1000 is relieved, so that the shaped formwork existing in the prior art can only be applicable to the working condition of a specific angle and a specific length, and the assembly method cannot be generalized and can only specially customize.

On the basis of the above embodiment, further, the inner corner formwork assembly assembling steps are as follows: the inner corner template assembly comprises a plurality of inner plate corner units 1110 and inner bridge corner units 1120, the standard universal inner plate corner units 1110 and the standard universal inner bridge corner units 1120 are assembled and connected, hinge pins are placed in corresponding hinge pin holes to form a multi-hinge structure, and the inner corner template series assembly with the required height is assembled.

Specifically, the inner plate corner unit 1110 and the inner bridge corner unit 1120 are connected through a hinge pin, the inner plate corner unit 1110 and the inner bridge corner unit 1120 are spliced, in addition, the bridge plate 11 used on the inner corner and the universal template 12 used on the inner corner are sequentially arranged along the forming surface of the inner plate corner unit 1110 and in the direction perpendicular to the axis of the hinge pin 1112 used on the inner plate, and the transverse size of the inner corner template system assembly is adjusted by changing the placing number.

Further, the inner corner unit 1110 and the inner bridge corner unit 1120 are assembled and connected by the following three methods: any two adjacent inner plate corner units 1110 are connected in the length direction by the plate buckle assembly 30; the inner plate corner unit 1110 and the inner bridge corner unit 1120 are connected at one side by the plate buckle assembly 30; an inner bridge corner unit 1120 is disposed between the two inner plate corner units 1110, and the three can be connected by the buckle assembly 30.

Specifically, the inner plate corner unit 1110 and the inner bridge corner unit 1120 can be provided with a plurality of corner units, the concrete number of the inner plate corner unit 1110 and the inner bridge corner unit 1120 can be adjusted according to the pouring length required, the inner bridge corner unit 1120 can be installed on one side of the inner plate corner unit 1110, the inner bridge corner unit 1120 can also be installed between any two adjacent inner plate corner units 1110, and the three are connected through the buckle assembly 30.

Further, the outer corner template component assembling steps include: the external corner template assembly comprises a plurality of external plate corner units 2110 and external bridge corner units 2120, and external corner template series assemblies with required heights are formed by assembling and connecting standard universal external plate corner units 2110 and standard universal external bridge corner units 2120 and placing hinge pins in corresponding hinge pin holes to form a multi-hinge structure.

Specifically, the outer panel corner unit 2110 and the outer corner unit 2120 are joined by a hinge pin between the outer panel corner unit 2110 and the outer corner unit 2120, and further, the bridge plate 21 used on the outer corner and the universal template 22 used on the outer corner are sequentially arranged in a direction perpendicular to an axis of the hinge pin 2112 used on the outer panel along a molding surface of the outer panel corner unit 2110, and a transverse dimension of the outer corner template system assembly is adjusted by changing the number of placements.

Further, there are three methods of assembling and connecting the outer plate corner unit 2110 and the outer bridge corner unit 2120: any two adjacent outer plate angle units 2110 are connected in the length direction through the plate buckle assembly 30; the outer plate corner unit 2110 is connected with the outer bridge corner unit 2120 through a plate buckle assembly 30; an outer bridge corner unit 2120 is disposed between the two outer plate corner units 2110, and the three can be connected through the buckle assembly 30.

Specifically, a plurality of outer plate angle units 2110 and outer bridge angle units 2120 can be arranged, the specific number of the outer plate angle units 2110 and the outer bridge angle units 2120 can be adjusted according to the casting length required, the outer bridge angle units 2120 can be installed on one side of the outer plate angle units 2110, the outer bridge angle units 2120 can also be installed between any two adjacent outer plate angle units 2110, and the outer plate angle units 2110, the outer bridge angle units 2110 and the outer bridge angle units 2120 are connected through the plate buckle assembly 30.

Further, two inner plates 1111 are assembled to face each other, and a hinge pin 1112 used on the inner plates is installed between the two inner plates 1111, so that the two inner plates 1111 rotate along the hinge pin axis used on the inner plates 1111, forming an inner plate corner unit 1110; the two inner bridges 1121 are oppositely assembled, and the inner bridge hinge pin 1122 is installed between the two inner bridges 1121, so that the two inner bridges 1121 rotate along the axis of the inner bridge hinge pin 1122 to form an inner bridge corner unit 1120;

specifically, the two inner plates 1111 are arranged oppositely, so that the hinge shafts of the two inner plates 1111 are located on the same straight line, the hinge pins respectively extend into the hinge shafts of the two inner plates 1111, and then the two inner plates 1111 rotate along the axis of the hinge shafts, and similarly, the two inner bridges 1121 are arranged oppositely, so that the hinge shafts of the two inner bridges 1121 are located on the same straight line, and the hinge pins respectively extend into the hinge shafts of the two inner bridges 1121, and then the two inner bridges 1121 rotate along the axis of the hinge shafts.

Further, the two outer plates 2111 are assembled to face each other, and a hinge pin 2112 for the outer plates is attached between the two outer plates 2111 so that the two outer plates 2111 are rotated along the axis of the hinge pin 2112 for the outer plates to form an outer plate angle unit 2110; the two outer bridges 2121 are assembled in opposite directions, and an outer bridge hinge pin 2122 is installed between the two outer bridges 2121 so that the two outer bridges 2121 are rotated along the axial center of the outer bridge hinge pin 2122 to form an outer bridge corner unit 2120;

specifically, the two outer plates 2111 are arranged oppositely, so that the hinge shafts of the two outer plates 2111 are positioned on the same straight line, and the hinge pins respectively extend into the hinge shafts of the two outer plates 2111, so that the two outer plates 2111 rotate along the axis of the hinge shafts, and similarly, the two outer bridges 2121 are arranged oppositely, so that the hinge shafts of the two outer bridges 2121 are positioned on the same straight line, and the hinge pins respectively extend out of the hinge shafts of the two outer bridges 2121, so that the two outer bridges 2121 rotate along the axis of the hinge shafts.

Further, according to the required transverse length and angle of the working condition, the standard inner corner template forming assembly 1000, the universal template 12 used on the inner corner and the universal plate 13 used on the inner corner are sequentially connected through the plate buckle assembly 30 to form the inner corner template assembly.

Specifically, the standard inner corner formwork forming assembly 1000 and the bridge plate 11 used on the inner corner, the bridge plate 11 used on the inner corner and the universal formwork 12 used on the inner corner, and the universal formwork 12 used on the inner corner and the universal plate 13 used on the inner corner are connected through the plate buckle assembly 30 to form the inner corner formwork system assembly.

Further, a standard outside corner form forming assembly 2000, a universal form 22 used on the outside corner, and a universal form 23 used on the outside corner are sequentially connected through a plate buckle assembly 30 according to the required transverse length and angle of the working condition to form an outside corner form assembly.

Specifically, the standard outside corner formwork forming assembly 2000 and the bridge plate 21 used on the outside corner, the bridge plate 21 used on the outside corner and the universal formwork 22 used on the outside corner, and the universal formwork 22 used on the outside corner and the universal plate 23 used on the outside corner are connected through the plate buckle assembly 30 to form the outside corner formwork system assembly.

Further, the method also comprises a vertical adjusting step: the universal plate 13 used on the inner corner and the universal plate 23 used on the outer corner are vertically aligned and connected by the through-wall bolt 40.

Specifically, the connected inner corner template system component and the outer corner template system component are vertically and parallelly arranged, the universal plates 13 used on the inner corners and the universal plates 23 used on the outer corners are connected through the wall penetrating bolts 40, and the inner corner template system component and the outer corner template system component are connected and fixed.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.