CN114277965A - Building frame adopting heat-insulating wall and construction process thereof - Google Patents

Abstract

The invention relates to the field of buildings, in particular to a building frame adopting a heat-insulating wall body and a construction process thereof. A building frame adopting a heat-insulating wall body comprises a building frame body, wherein the building frame body comprises a heat-insulating wallboard and an installation frame, and the heat-insulating wallboard is arranged on the installation frame; the heat-insulating wall board comprises a first board body and a second board body; the joint of the first plate body and the second plate body is provided with a steel support frame. According to the design, the building frame adopting the heat-insulating wall is provided, the construction is convenient and fast, the installation efficiency is high, the structure adopts the heat-insulating wall, the influence of temperature on a building structure and an indoor environment is reduced, and meanwhile, the connection strength of the prefabricated heat-insulating wall board and the installation frame is improved under the condition that the heat-insulating effect of the heat-insulating wall is ensured.

Description

Building frame adopting heat-insulating wall and construction process thereof

Technical Field

The invention relates to the field of buildings, in particular to a building frame adopting a heat-insulating wall body and a construction process thereof.

Background

The building frame is a structure which consists of beams and columns and can bear vertical and horizontal loads, and is mainly used for a bearing framework of industrial and civil buildings, the building frame bears the load through the beams, the columns and floor slabs, and the wall boards in the building are only used as members for enclosing and separating spaces; or in order to be convenient for install the heat preservation wallboard on the building frame and guarantee its joint strength, constructor is through reducing the thickness of heat preservation wallboard or adopting the relatively poor material of heat preservation effect for the heat preservation effect of heat preservation wallboard reduces, can not satisfy resident's demand.

An effective solution to the problems in the related art has not been proposed yet.

Disclosure of Invention

The invention aims to provide a building frame adopting a heat-insulating wall body and a construction process thereof, so as to solve at least one technical problem.

In order to achieve the purpose, the invention adopts the following technical scheme:

a building frame adopting a heat-insulating wall body comprises a building frame body, and is characterized in that the building frame body comprises a heat-insulating wallboard and an installation frame, wherein the heat-insulating wallboard is arranged on the installation frame;

the mounting frame comprises a first connecting beam, a second connecting beam, a first connecting column and a second connecting column, the first connecting beam is arranged above the second connecting beam, the first connecting column is arranged on the left side of the second connecting column, the upper portion of the first connecting column and the upper portion of the second connecting column are respectively connected with the two side portions of the first connecting beam, and the lower portion of the first connecting column and the lower portion of the second connecting column are respectively connected with the two side portions of the second connecting beam;

the heat-insulation wallboard comprises a first board body and a second board body, wherein the second board body is arranged on the first board body, the first board body is arranged on the outer side of the mounting frame, the second board body is arranged below the first connecting beam, and the upper surface of the second connecting beam props against the lower surface of the second board body;

a steel support frame is arranged at the joint of the first plate body and the second plate body, the support frame comprises a front support frame and a rear support frame connected with the front support frame, the front support frame is embedded in the first plate body, the upper part of the rear support frame extends out of the upper part of the second plate body, and the two side parts of the rear support frame respectively extend out of the two sides of the second plate body;

the utility model discloses a rear support frame, including first spliced pole, back support frame, at least three first connecting rods that are evenly arranged, at least three be equipped with in the below of first spliced pole the first connecting rod with the upper portion of back support frame links to each other, the right side of first spliced pole is equipped with at least three and is evenly arranged's second connecting rod, at least three the second connecting rod with the left side portion of back support frame links to each other, the left side of second spliced pole is equipped with three at least third connecting rods that are evenly arranged, at least three the third connecting rod with the right side portion of back support frame links to each other.

The thickness of the second plate body and the thickness of the first connecting column are the same as the thickness of the second connecting column.

And a concrete layer is filled in a gap between the second plate body and the mounting frame.

The front support frame and the rear support frame are of an integrated structure.

The first connecting rod comprises a first expansion bolt and a first rod section, the first expansion bolt comprises a first sleeve arranged in the second connecting beam and a first screw rod used for screwing in the first sleeve, the lower part of the first screw rod is connected with the first rod section, and the lower part of the first rod section is connected with the upper part of the rear supporting frame through welding;

the second connecting rod comprises a second expansion bolt and a second rod section, the second expansion bolt comprises a second sleeve arranged in the first connecting column and a second screw rod used for screwing in the second sleeve, the right side part of the second screw rod is connected with the second rod section, and the right side part of the second rod section is connected with the left side part of the rear supporting frame through welding;

the third connecting rod comprises a third expansion bolt and a third rod section, the third expansion bolt comprises a third sleeve arranged in the second connecting column and a third screw used for screwing in the third sleeve, the left side of the third screw is connected with the third rod section, and the left side of the third rod section is connected with the right side of the rear supporting frame through welding.

The first plate body comprises a waterproof coating layer, a putty layer, a first mortar layer, a grid cloth layer, a second mortar layer, a polystyrene board, a third mortar layer, a mortar layer and a base layer, wherein the waterproof coating layer, the putty layer, the first mortar layer, the grid cloth layer, the second mortar layer, the polystyrene board, the third mortar layer, the mortar layer and the base layer are sequentially arranged from outside to inside, and the base layer is connected with the second plate body.

At least three fourth expansion bolts which are evenly distributed are arranged in the first plate body and comprise a fourth sleeve arranged in the base body layer, a fourth screw used for screwing in the fourth sleeve and a bolt head arranged on the fourth screw, the bolt head is arranged on the outer side of the grid cloth layer, and the fourth screw sequentially penetrates through the grid cloth layer, the second mortar layer, the polystyrene board and the third mortar layer and is screwed in the fourth sleeve.

A construction process of a building frame adopting a heat-insulating wall body is characterized by comprising the following steps:

the method comprises the following steps of firstly, building an installation frame, wherein the installation frame is formed by a first connecting beam, a second connecting beam, a first connecting column and a second connecting column, so that the first connecting beam is arranged above the second connecting beam, and the first connecting column is arranged on the left side of the second connecting column;

placing the heat-insulation wallboard, arranging the prefabricated heat-insulation wallboard on an installation frame, enabling a first plate body of the heat-insulation wallboard to be located on the outer side of the installation frame, arranging a second plate body of the heat-insulation wallboard below a first connecting beam, and bearing the second plate body through the second connecting beam;

step three, arranging a connecting rod, punching the first connecting beam, placing a first sleeve of a first expansion bolt, screwing a first screw into the first sleeve, and finishing the arrangement of the first connecting rod; punching the first connecting column, placing a second sleeve of a second expansion bolt, and screwing a second screw into the second sleeve to complete the arrangement of a second connecting rod; punching the second connecting column, placing a third sleeve of a third expansion bolt, and screwing a third screw into the third sleeve to complete the setting of a third connecting rod;

welding and fixing, namely welding and connecting the lower part of the first rod section connected with the first screw rod with the upper part of the rear support frame extending out of the second plate body; welding and connecting the right side part of a second rod section connected with the second screw rod with the left side part of a rear support frame extending out of the second plate body; welding and connecting the left side of a third rod section connected with the third screw rod with the right side of a rear support frame extending out of the second plate body;

step five, filling concrete, arranging a template outside a gap between a second plate body of the heat-insulation wallboard and the mounting frame, and pouring the concrete to fill the gap between the second plate body and the mounting frame with the concrete;

and step six, completing construction, and removing the template after the concrete is hardened.

In the third step, a first rod section is selected according to the distance between the upper part of the rear support frame extending out of the second plate body and the first screw rod, and the upper side part of the first rod section is connected with the lower side part of the first screw rod in a welding manner; selecting a second rod section according to the distance between the left side part of the rear support frame extending out of the second plate body and the second screw rod, and welding and connecting the left side part of the second rod section and the right side part of the second screw rod; and selecting a third rod section according to the distance between the right side part of the rear support frame extending out of the second plate body and the third screw rod, and welding and connecting the right side part of the third rod section and the left side part of the third screw rod.

And in the sixth step, after the template is removed, the gap filled with the concrete is ground by a grinding tool. So that the concrete layer filled in the gap is flush with the surfaces of the first connecting column, the second connecting column and the second plate body respectively.

Through the design, the invention provides the building frame adopting the heat-insulating wall and the construction process thereof, the construction is convenient and fast, the installation efficiency is high, the structure adopts the heat-insulating wall, the influence of the temperature on the building structure and the indoor environment is reduced, and meanwhile, the connection strength of the prefabricated heat-insulating wall board and the installation frame is improved under the condition of ensuring the heat-insulating effect of the heat-insulating wall.

Drawings

FIG. 1 is a schematic view of a portion of the structure of the present invention;

FIG. 2 is a schematic view of a portion of the structure of the thermal wall panel of the present invention;

FIG. 3 is a side view of a portion of the structure at the insulating wall panel of the present invention;

FIG. 4 is a cross-sectional view of a portion of the structure of the present invention;

fig. 5 is a schematic view of a partial structure construction state of the present invention.

Detailed Description

The following further describes embodiments of the present invention with reference to the drawings.

As shown in fig. 1 to 5, a building frame using a thermal insulation wall includes a building frame body, the building frame body includes a thermal insulation wallboard and an installation frame, the thermal insulation wallboard is arranged on the installation frame; the mounting frame comprises a first connecting beam 1, a second connecting beam 2, a first connecting column 3 and a second connecting column 4, wherein the first connecting beam 1 is arranged above the second connecting beam 2, the first connecting column 3 is arranged on the left side of the second connecting column 4, the upper part of the first connecting column 3 and the upper part of the second connecting column 4 are respectively connected with two side parts of the first connecting beam 1, and the lower part of the first connecting column 3 and the lower part of the second connecting column 4 are respectively connected with two side parts of the second connecting beam 2; the heat-insulation wallboard comprises a first board body 10 and a second board body 5, wherein the second board body 5 is arranged on the first board body 10, the first board body 10 is arranged on the outer side of the mounting frame, the second board body 5 is arranged below the first connecting beam 1, and the upper surface of the second connecting beam 2 props against the lower surface of the second board body 5; a steel support frame 6 is arranged at the joint of the first plate body 10 and the second plate body 5, the support frame 6 comprises a front support frame and a rear support frame connected with the front support frame, the front support frame is embedded in the first plate body 10, the upper part of the rear support frame extends out from the upper part of the second plate body 5, and the two side parts of the rear support frame respectively extend out from the two sides of the second plate body 5; the below of primary beam 2 is equipped with three at least head rods 7 that are evenly arranged, three at least head rods 7 link to each other with the upper portion of back support frame, the right side of primary beam 3 is equipped with three at least second connecting rods 8 that are evenly arranged, three at least second connecting rods 8 link to each other with the left side portion of back support frame, the left side of secondary beam 4 is equipped with three at least third connecting rods 9 that are evenly arranged, three at least third connecting rods 9 link to each other with the right side portion of back support frame. According to the design, the building frame adopting the heat-insulating wall is provided, the construction is convenient and fast, the installation efficiency is high, the structure adopts the heat-insulating wall, the influence of temperature on a building structure and an indoor environment is reduced, and meanwhile, the connection strength of the prefabricated heat-insulating wall board and the installation frame is improved under the condition that the heat-insulating effect of the heat-insulating wall is ensured.

The thickness of the second plate body 5 and the thickness of the first connecting column 3 are the same as the thickness of the second connecting column 4. The rear side surfaces of the second plate body 5, the first connecting column 3 and the second connecting column 4 are positioned in the same plane, so that subsequent painting or decoration operation is facilitated.

The gap between the second plate body 5 and the mounting frame is filled with a concrete layer. That is, will expose through the concrete and cover at partial back support frame, first spliced pole 3, second spliced pole 4 and the third spliced pole between second plate body 5 and installation frame gap, further increased the joint strength between heat preservation wallboard and installation frame.

In order to ensure the structural strength of the heat-insulating wall board, the front support frame and the rear support frame adopt an integrated structure. The support frame 6 can be a steel support frame made of steel bars.

The first connecting rod 7 comprises a first expansion bolt and a first rod section, the first expansion bolt comprises a first sleeve arranged in the second connecting beam 2 and a first screw rod used for screwing in the first sleeve, the lower part of the first screw rod is connected with the first rod section, and the lower part of the first rod section is connected with the upper part of the rear supporting frame through welding; the second connecting rod 8 comprises a second expansion bolt and a second rod section, the second expansion bolt comprises a second sleeve arranged in the first connecting column 3 and a second screw rod used for screwing in the second sleeve, the right side part of the second screw rod is connected with the second rod section, and the right side part of the second rod section is connected with the left side part of the rear supporting frame through welding; the third connecting rod 9 comprises a third expansion bolt and a third rod section, the third expansion bolt comprises a third sleeve arranged in the second connecting column 4 and a third screw rod used for screwing into the third sleeve, the left side part of the third screw rod is connected with the third rod section, and the left side part of the third rod section is connected with the right side part of the rear supporting frame in a welding manner. So that link to each other heat preservation wallboard and installation frame, through the welded connection of head rod 7, second connecting rod 8 and third connecting rod 9 respectively with back support frame for heat preservation wallboard and installation frame firm in connection.

In order to ensure the heat insulation effect of the heat insulation wallboard, the first board body 10 comprises a waterproof coating layer, a putty layer, a first mortar layer, a grid cloth layer, a second mortar layer, a polystyrene board, a third mortar layer, a mortar layer and a base body layer, wherein the waterproof coating layer, the putty layer, the first mortar layer, the grid cloth layer, the second mortar layer, the polystyrene board, the third mortar layer, the mortar layer and the base body layer are sequentially arranged from outside to inside, and the base body layer is connected with the second board body 5. The base body layer and the second plate body 5 are both made of concrete.

At least three fourth expansion bolts 11 which are uniformly distributed are arranged in the first plate body 10, each fourth expansion bolt 11 comprises a fourth sleeve arranged in the base body layer, a fourth screw used for screwing in the fourth sleeve and a bolt head arranged on the fourth screw, the bolt head is arranged on the outer side of the grid cloth layer, and the fourth screw sequentially penetrates through the grid cloth layer, the second mortar layer, the polystyrene board, the third mortar layer and the mortar layer and is screwed into the fourth sleeve. And then further fixed first plate body through fourth expansion bolts, increased the structural strength of first plate body.

A construction process of a building frame adopting a heat-insulating wall body comprises the following steps: step one, constructing an installation frame, wherein the installation frame is composed of a first connecting beam 1, a second connecting beam 2, a first connecting column 3 and a second connecting column 4, so that the first connecting beam 1 is arranged above the second connecting beam 2, and the first connecting column 3 is arranged on the left side of the second connecting column 4; placing the heat-insulation wall board, arranging the prefabricated heat-insulation wall board on the installation frame, enabling the first board body 10 of the heat-insulation wall board to be positioned on the outer side of the installation frame, arranging the second board body 5 of the heat-insulation wall board below the first connecting beam 1, and bearing the second board body 5 through the second connecting beam 2; step three, arranging a connecting rod, punching the first connecting beam 1, placing a first sleeve of a first expansion bolt, screwing a first screw into the first sleeve, and finishing the arrangement of the first connecting rod 7; punching the first connecting column 3, placing a second sleeve of a second expansion bolt, screwing a second screw into the second sleeve, and finishing the arrangement of the second connecting rod 8; punching the second connecting column 4, placing a third sleeve of a third expansion bolt, and screwing a third screw into the third sleeve to complete the setting of the third connecting rod 9; welding and fixing, namely welding and connecting the lower part of the first rod section connected with the first screw rod with the upper part of the rear support frame extending out of the second plate body 5; welding and connecting the right side part of the second rod section connected with the second screw rod with the left side part of the rear support frame extending out of the second plate body 5; welding and connecting the left side part of a third rod section connected with the third screw rod with the right side part of a rear support frame extending out of the second plate body 5; step five, filling concrete, arranging a template 12 outside a gap between the second plate body 5 of the heat-insulating wall plate and the mounting frame, and pouring concrete to fill the gap between the second plate body 5 and the mounting frame with the concrete; and step six, completing construction, and removing the template after the concrete is hardened. This design has realized the firm connection of heat preservation wallboard and installation frame through building the installation frame, placing heat preservation wallboard, setting up connecting rod, welded fastening, step such as filling concrete, has strengthened the joint strength of heat preservation wallboard and installation frame for the wallboard can adopt the heat preservation wallboard of heat preservation effect preferred.

In the second step, the prefabricated thermal insulation wallboard comprises a first board body 10 and a second board body 5, wherein the second board body 5 is arranged on the first board body 10, the length of the second board body 5 is smaller than that of the first board body 10, the width of the second board body 5 is smaller than that of the first board body 10, the first board body 10 comprises a waterproof coating layer, a putty layer, a first mortar layer, a grid cloth layer, a second mortar layer, a polystyrene board, a third mortar layer, a mortar layer and a base body layer which are sequentially arranged from outside to inside, and the base body layer is connected with the second board body 5. The junction of first plate body 10 and second plate body 5 is equipped with support frame 6 that the reinforcing bar was made, and support frame 6 includes preceding support frame, the back support frame that links to each other with preceding support frame, and preceding support frame buries underground in first plate body 10, and the upper portion of back support frame stretches out from the top of second plate body 5, and the both sides portion of back support frame stretches out from the both sides of second plate body 5 respectively. So as to guarantee the heat preservation effect of heat preservation wallboard, simultaneously, be convenient for the fixed connection of second plate body 5 and installation frame.

In the second step, the thermal insulation wallboard is lifted by a crane and placed on the installation frame, the first board body 10 is supported by the supporting rods installed on the scaffold, after the first connecting rod 7, the second connecting rod 8 and the third connecting rod 9 are welded and fixed with the rear supporting frame respectively, the supporting rods supporting the first board body 10 are removed, and block paving or paint powder decoration operation is performed on the outer side face of the first board body 10. In the third step, a first rod section is selected according to the distance between the upper part of the rear support frame extending out of the second plate body 5 and the first screw rod, and the upper side part of the first rod section is connected with the lower side part of the first screw rod in a welding manner; selecting a second rod section according to the distance between the left side part of the rear support frame extending out of the second plate body 5 and the second screw rod, and welding and connecting the left side part of the second rod section and the right side part of the second screw rod; the third rod section is selected according to the distance between the right side part of the rear support frame extending out of the second plate body 5 and the third screw rod, and the right side part of the third rod section is connected with the left side part of the third screw rod in a welding mode, so that the second plate body 5 is fixedly connected with the mounting frame. Pouring concrete from an opening at the upper part of the template 12; or, concrete is poured from the gap between the template 12 and the first connecting beam 1. The template 12 may be an aluminum template. And step six, after the template is removed, the gap filled with the concrete is ground and flattened by a grinding tool. So that the concrete layers filled in the gap are flush with the surfaces of the first connecting column 3, the second connecting column 4 and the second plate body 5 respectively. After polishing, a putty layer can be further coated on the surfaces of the connecting column, the concrete layer and the second plate body 5, and then whitewashing operation is carried out.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that various changes, modifications and substitutions can be made without departing from the spirit and scope of the invention as defined by the appended claims. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A building frame adopting a heat-insulating wall body comprises a building frame body, and is characterized in that the building frame body comprises a heat-insulating wallboard and an installation frame, wherein the heat-insulating wallboard is arranged on the installation frame;

the mounting frame comprises a first connecting beam, a second connecting beam, a first connecting column and a second connecting column, the first connecting beam is arranged above the second connecting beam, the first connecting column is arranged on the left side of the second connecting column, the upper portion of the first connecting column and the upper portion of the second connecting column are respectively connected with the two side portions of the first connecting beam, and the lower portion of the first connecting column and the lower portion of the second connecting column are respectively connected with the two side portions of the second connecting beam;

the heat-insulation wallboard comprises a first board body and a second board body, wherein the second board body is arranged on the first board body, the first board body is arranged on the outer side of the mounting frame, the second board body is arranged below the first connecting beam, and the upper surface of the second connecting beam props against the lower surface of the second board body;

a steel support frame is arranged at the joint of the first plate body and the second plate body, the support frame comprises a front support frame and a rear support frame connected with the front support frame, the front support frame is embedded in the first plate body, the upper part of the rear support frame extends out of the upper part of the second plate body, and the two side parts of the rear support frame respectively extend out of the two sides of the second plate body;

the utility model discloses a rear support frame, including first spliced pole, back support frame, at least three first connecting rods that are evenly arranged, at least three be equipped with in the below of first spliced pole the first connecting rod with the upper portion of back support frame links to each other, the right side of first spliced pole is equipped with at least three and is evenly arranged's second connecting rod, at least three the second connecting rod with the left side portion of back support frame links to each other, the left side of second spliced pole is equipped with three at least third connecting rods that are evenly arranged, at least three the third connecting rod with the right side portion of back support frame links to each other.

2. The building frame using thermal insulation wall body according to claim 1, wherein the thickness of the second plate body and the thickness of the first connecting column are the same as the thickness of the second connecting column.

3. The building frame using the thermal insulation wall body as claimed in claim 1, wherein a gap between the second plate body and the mounting frame is filled with a concrete layer.

4. The building frame using thermal insulation wall according to claim 1, wherein said front support frame and said rear support frame are of an integrated structure.

5. The building frame using the thermal insulation wall according to claim 1, wherein the first connection rod comprises a first expansion bolt and a first rod section, the first expansion bolt comprises a first sleeve arranged in the second connection beam and a first screw rod for screwing in the first sleeve, the lower part of the first screw rod is connected with the first rod section, and the lower part of the first rod section is connected with the upper part of the rear support frame by welding;

the second connecting rod comprises a second expansion bolt and a second rod section, the second expansion bolt comprises a second sleeve arranged in the first connecting column and a second screw rod used for screwing in the second sleeve, the right side part of the second screw rod is connected with the second rod section, and the right side part of the second rod section is connected with the left side part of the rear supporting frame through welding;

the third connecting rod comprises a third expansion bolt and a third rod section, the third expansion bolt comprises a third sleeve arranged in the second connecting column and a third screw used for screwing in the third sleeve, the left side of the third screw is connected with the third rod section, and the left side of the third rod section is connected with the right side of the rear supporting frame through welding.

6. The building frame using thermal insulation wall according to claim 1, wherein the first plate comprises a waterproof coating layer, a putty layer, a first mortar layer, a grid cloth layer, a second mortar layer, a polystyrene board, a third mortar layer, a mortar layer and a base layer, the waterproof coating layer, the putty layer, the first mortar layer, the grid cloth layer, the second mortar layer, the polystyrene board, the third mortar layer, the mortar layer and the base layer are sequentially arranged from outside to inside, and the base layer is connected with the second plate.

7. The building frame adopting the thermal insulation wall body as claimed in claim 1, wherein at least three fourth expansion bolts are uniformly arranged in the first plate body, the fourth expansion bolts include a fourth sleeve arranged in the base layer, a fourth screw for screwing in the fourth sleeve, and a bolt head arranged on the fourth screw, the bolt head is arranged on the outer side of the mesh fabric layer, and the fourth screw sequentially penetrates through the mesh fabric layer, the second mortar layer, the polystyrene board, the third mortar layer and the mortar layer and is screwed into the fourth sleeve.

8. A construction process of a building frame adopting a heat-insulating wall body is characterized by comprising the following steps:

the method comprises the following steps of firstly, building an installation frame, wherein the installation frame is formed by a first connecting beam, a second connecting beam, a first connecting column and a second connecting column, so that the first connecting beam is arranged above the second connecting beam, and the first connecting column is arranged on the left side of the second connecting column;

placing the heat-insulation wallboard, arranging the prefabricated heat-insulation wallboard on an installation frame, enabling a first plate body of the heat-insulation wallboard to be located on the outer side of the installation frame, arranging a second plate body of the heat-insulation wallboard below a first connecting beam, and bearing the second plate body through the second connecting beam;

step three, arranging a connecting rod, punching the first connecting beam, placing a first sleeve of a first expansion bolt, screwing a first screw into the first sleeve, and finishing the arrangement of the first connecting rod; punching the first connecting column, placing a second sleeve of a second expansion bolt, and screwing a second screw into the second sleeve to complete the arrangement of a second connecting rod; punching the second connecting column, placing a third sleeve of a third expansion bolt, and screwing a third screw into the third sleeve to complete the setting of a third connecting rod;

welding and fixing, namely welding and connecting the lower part of the first rod section connected with the first screw rod with the upper part of the rear support frame extending out of the second plate body; welding and connecting the right side part of a second rod section connected with the second screw rod with the left side part of a rear support frame extending out of the second plate body; welding and connecting the left side of a third rod section connected with the third screw rod with the right side of a rear support frame extending out of the second plate body;

step five, filling concrete, arranging a template outside a gap between a second plate body of the heat-insulation wallboard and the mounting frame, and pouring the concrete to fill the gap between the second plate body and the mounting frame with the concrete;

and step six, completing construction, and removing the template after the concrete is hardened.

9. The process of claim 8, wherein in step three, the first rod section is selected according to the distance between the upper part of the rear support frame extending from the second plate body and the first screw rod, and the upper side part of the first rod section is welded to the lower side part of the first screw rod; selecting a second rod section according to the distance between the left side part of the rear support frame extending out of the second plate body and the second screw rod, and welding and connecting the left side part of the second rod section and the right side part of the second screw rod; and selecting a third rod section according to the distance between the right side part of the rear support frame extending out of the second plate body and the third screw rod, and welding and connecting the right side part of the third rod section and the left side part of the third screw rod.

10. The construction process of a building frame using an insulation wall according to claim 8, wherein in the sixth step, after the form is removed, the gap filled with concrete is ground by a grinding tool.

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