CN210459661U - Assembled wall body template - Google Patents

Abstract

The utility model discloses an assembled wall template, which comprises an external heat-preservation wall template and an internal wall template; the external heat-insulation wall formwork is used for building an outer wall of a house, and a concrete pouring cavity for pouring concrete and a heat-insulation layer assembling cavity for placing heat-insulation materials are partitioned by an internal cavity of the external heat-insulation wall formwork; the internal wall formwork is used for building an internal wall of a house, and an internal cavity of the internal wall formwork is a concrete pouring cavity; the assembly type wall template provided by the utility model has the advantages that the template assembly speed is high, the disassembly is not needed, and the manpower and material resources are saved; the heat preservation assembly cavity is formed in the template, secondary construction of the heat preservation layer is not needed after the wall body is poured, the construction speed is high, and the service life of the heat preservation layer is long.

Description

Assembled wall body template

Technical Field

The utility model relates to an assembly type structure technical field especially relates to an assembly type wall template.

Background

At present, the existing building wall in China usually adopts a construction method of assembling templates on a construction site and dismantling the templates after pouring concrete, so that the problem of high material and labor cost is easily caused; moreover, wood templates are adopted in China at present, and the templates are assembled and disassembled to cause waste of a large amount of manpower and material resources; the outside heat preservation of wall body mostly carries out the secondary construction after the major structure completion and adds, has heat preservation life weak point, and the construction cycle is long, shortcoming such as cost height.

In conclusion, the existing building wall has the defects of low construction speed and waste of manpower and material resources, and meanwhile, the existing building wall has the defects of short service life, long construction period and high cost.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an assembled wall template to solve the problems existing in the prior art, the template assembling speed is high, the template does not need to be dismantled, and the manpower and material resources are saved; the heat preservation assembly cavity is formed in the template, secondary construction of the heat preservation layer is not needed after the wall body is poured, the construction speed is high, and the service life of the heat preservation layer is long.

In order to achieve the above object, the utility model provides a following scheme:

the utility model provides an assembled wall template, which comprises an external heat-preservation wall template and an internal wall template; the external heat-insulation wall formwork is used for building an outer wall of a house, and a concrete pouring cavity for pouring concrete and a heat-insulation layer assembling cavity for placing heat-insulation materials are partitioned by an internal cavity of the external heat-insulation wall formwork; the interior wall body template is used for building a house interior wall, and the interior cavity of the interior wall body template is a concrete pouring cavity.

Preferably, the heat-insulating straight template comprises a first inner wall panel, a first outer wall panel and a first connecting end plate connected between the first inner wall panel and the first outer wall panel, the heat-insulating right-angle template is used for pouring a corner of a wall body, the heat-insulating right-angle template comprises two second inner wall panels forming the inner corner and two second outer wall panels forming the outer corner, the heat-insulating three-way template comprises a third inner wall panel, a third outer wall panel and a third connecting end plate connected between the third inner wall panel and the third outer wall panel, and a connecting template section connected with the inner wall template is further arranged on the third inner wall panel; one end of the heat-preservation straight template is provided with a first clamping strip, the other end of the heat-preservation straight template is provided with a first inserting port matched with the first clamping strip, and two sides of two second inner wallboards of the heat-preservation right-angle template are respectively provided with a second clamping strip matched with the first inserting port; two ends of the heat-preservation three-way template are provided with second inserting ports matched with the first clamping strips or the second clamping strips, and the connecting template section is provided with third inserting ports;

the internal wall formwork comprises a straight formwork and a four-way formwork, and concrete pouring cavities are formed in the straight formwork and the four-way formwork; the straight template comprises two fourth inner wallboards and a fourth connecting end plate connected between the two fourth inner wallboards, the four-way template is formed by encircling four fifth inner wallboards, and concrete pouring cavities for pouring concrete are arranged inside the straight template and the four-way template; a fourth inserting port is formed in one end of the straight template, and a third clamping strip matched with the third inserting port or the fourth inserting port is arranged at the other end of the straight template; and four-way templates are arranged on two sides of the fifth inner wallboard, and are provided with fourth clamping strips matched with the fourth inserting ports.

Preferably, the first socket is formed in a concave manner on the first inner wall plate and the first outer wall plate of the heat-insulating straight template, the second socket is formed in a concave manner on the third inner wall plate and the third outer wall plate of the heat-insulating three-way template, the third socket is formed in a concave manner on two side plates of the connecting template section, and the fourth socket is formed in a concave manner on the two fourth inner wall plates.

Preferably, a plurality of first reinforcing rib plates are further connected between the first inner wall plate and the first outer wall plate, and a plurality of holes communicated with each other are formed in the first reinforcing rib plates and the first connecting end plate; two ends of the first reinforcing rib plate are provided with first triangular reinforcing strips, and the first reinforcing rib plate is connected with the first inner wall plate and the first outer wall plate through the first triangular reinforcing strips; the partition part is a first partition strip which is arranged between two adjacent first reinforcing rib plates or between the first reinforcing rib plate and the first connecting end plate oppositely, and the first partition strip is used for limiting and fixing heat insulation materials in the heat insulation layer assembly cavity.

Preferably, a plurality of second reinforcing rib plates are further connected between the third inner wall plate and the third outer wall plate, and a plurality of holes communicated with each other are formed in the second reinforcing rib plates and the third connecting end plate; the partition part is a second partition strip which is arranged between two adjacent second reinforcing rib plates or between the second reinforcing rib plate and the third connecting end plate oppositely, and the second partition strip is used for limiting and fixing the heat insulation material in the heat insulation layer assembly cavity.

Preferably, the partition is a partition plate which integrally partitions the concrete pouring cavity and the heat insulation layer assembling cavity, a plurality of third reinforcing rib plates are connected between the partition plate and the first inner wall plate or the third inner wall plate, and a plurality of holes which are communicated with each other are formed in the third reinforcing rib plates and the first connecting end plate or the third connecting end plate; and second triangular reinforcing strips are arranged at two ends of the third reinforcing rib plate between the partition plate and the first inner wall plate, and the third reinforcing rib plate is connected with the partition plate and the first inner wall plate through the second triangular reinforcing strips.

Preferably, a plurality of holes communicated with the holes in the first connecting end plate are formed in the two second inner wall plates of the heat-insulating right-angle formwork, and a plurality of communicated holes are formed in the connecting end plate between the two side plates of the connecting formwork section and the third inner wall plate.

Preferably, a plurality of fourth reinforcing rib plates are further arranged between the two fourth inner wall plates, and a plurality of holes communicated with each other are formed in the fourth reinforcing rib plates and the fourth connecting end plate; third triangular reinforcing strips are arranged at two ends of the fourth reinforcing rib plate, and the fourth reinforcing rib plate is connected with the two fourth inner wall plates through the third triangular reinforcing strips; and a plurality of holes communicated with the holes arranged on the fourth connecting end plate are formed in the fifth inner wall plate.

Preferably, the connector further comprises an end sealing plate, and a fifth clamping strip matched with the first inserting interface is arranged on the end sealing plate.

Preferably, the external heat-insulation wall formwork, the internal wall formwork and the end sealing plate are made of high polymer plastics; the wallboard in the first wallboard in with the third wallboard with be provided with one deck decoration layer on the indoor lateral wall of orientation of wallboard in the fourth, first side fascia the second wallboard with be provided with one deck decoration layer on the outdoor lateral wall of orientation of third side fascia.

The utility model discloses following beneficial technological effect has been gained for prior art:

the utility model provides an assembled wall template need not to dismantle after concrete placement accomplishes, and the heat preservation assembly intracavity of outside heat preservation wall form can be equipped with insulation material in advance, can obtain the outside cavity that has the heat preservation after concreting, need not the secondary construction of heat preservation, has a face decorative layer in addition on the template, also need not to plaster, whitewash processes such as, realizes keeping warm, decorates and structure integration, and construction speed is fast, and structural stability is high.

Drawings

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

Fig. 1 is a schematic perspective view of a heat-insulating straight formwork according to a first embodiment of the present invention;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a schematic view of a three-dimensional structure of a heat-insulating right-angle template in the present invention;

FIG. 4 is a top view of FIG. 3;

fig. 5 is a schematic perspective view of a three-way heat-insulating template according to a first embodiment of the present invention;

FIG. 6 is a top view of FIG. 5;

fig. 7 is a schematic view of a three-dimensional structure of a straight template in the present invention;

FIG. 8 is a top view of FIG. 7;

fig. 9 is a schematic view of a three-dimensional structure of a four-way template in the present invention;

FIG. 10 is a top view of FIG. 9;

fig. 11 is a schematic structural view of the end-capping plate of the present invention;

fig. 12 is a schematic perspective view of a heat-insulating straight template in the second embodiment of the present invention;

FIG. 13 is a top view of FIG. 12;

fig. 14 is a schematic perspective view of a thermal insulation three-way template in the second embodiment of the present invention;

FIG. 15 is a top view of FIG. 14;

fig. 16 is a schematic structural view of the thermal insulation right-angle formwork of the present invention and the thermal insulation right-angle formwork of the first embodiment of the present invention spliced at the corner;

fig. 17 is a schematic structural view of the splicing of the heat-insulating right-angle formwork and the heat-insulating right-angle formwork in the second embodiment of the present invention at the corner;

fig. 18 is a schematic structural view of the splicing of the heat-insulating three-way formwork, the heat-insulating straight formwork and the internal wall formwork in the first embodiment of the present invention;

fig. 19 is a schematic structural view of the splicing of the heat-insulating three-way formwork, the heat-insulating straight formwork and the internal wall formwork in the second embodiment of the present invention;

fig. 20 is a schematic structural view of the four-way form of the present invention spliced with the straight form to form the internal wall form;

fig. 21 is a schematic structural view of the connection between the heat-insulating straight mold plate and the end-sealing plate in the first embodiment of the present invention;

fig. 22 is a schematic view of an assembly structure of an external thermal insulation wall form and an internal wall form in the first embodiment of the present invention;

fig. 23 is a schematic view of an assembly structure of an external thermal insulation wall form and an internal wall form in the second embodiment of the present invention;

in the figure: 1. a concrete pouring cavity and a 2-insulating layer assembling cavity;

11-a heat preservation straight template, 111-a first inner wallboard, 112-a first outer wallboard, 113-a first connecting end plate, 114-a first clamping strip, 115-a first inserting port, 116-a first reinforcing rib plate, 117-a first triangular reinforcing strip and 118-a first separating strip;

12-a heat-preservation right-angle template, 121-a second inner wallboard, 122-a second outer wallboard and 123-a second clamping strip;

13-a heat-preservation three-way template, 131-a third inner wallboard, 132-a third outer wallboard, 133-a third connecting end plate, 134-a connecting template section, 135-a second inserting port, 136-a third inserting port, 137-a second reinforcing rib plate and 138-a second separating strip;

14-straight template, 141-fourth inner wall board, 142-fourth connecting end board, 143-fourth interface, 144-third clamping strip, 145-fourth reinforcing rib plate and 146-third triangular reinforcing strip;

15-four-way template, 151-fifth inner wall plate and 152-fourth clamping strip;

16-end sealing plate, 161-fifth clamping strip;

211-a spacer plate; 212-a third reinforcing floor; 213-second triangular reinforcing bar.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model aims at providing an assembled wall template to solve the problem that prior art exists.

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

The first embodiment is as follows:

the embodiment provides an assembled wall formwork, which comprises an external heat-insulation wall formwork and an internal wall formwork; the external heat-insulation wall formwork is used for building an outer wall of a house, and a concrete pouring cavity 1 for pouring concrete and a heat-insulation layer assembling cavity 2 for placing heat-insulation materials are partitioned from an internal cavity of the external heat-insulation wall formwork; the interior wall form is used for building the interior wall of the house, and the interior cavity of the interior wall form is a concrete pouring cavity 1.

The external heat-insulation wall formwork comprises a heat-insulation straight formwork 11, a heat-insulation right-angle formwork 12 and a heat-insulation three-way formwork 13, and internal cavities of the heat-insulation straight formwork 11, the heat-insulation right-angle formwork 12 and the heat-insulation three-way formwork 13 are divided into a concrete pouring cavity 1 and a heat-insulation layer assembling cavity 2 by separating parts.

As shown in fig. 1 and 2, the heat-insulating straight formwork 11 includes a first inner wall panel 111, a first outer wall panel 112 and a first connecting end panel 113 connected between the first inner wall panel 111 and the first outer wall panel 112, one end of the heat-insulating straight formwork 11 is provided with a first clamping strip 114, the other end is provided with a first socket 115 matched with the first clamping strip 114, the first socket 115 is formed in the first inner wall panel 111 and the first outer wall panel 112 of the heat-insulating straight formwork 11 in a concave manner, when two adjacent heat-insulating straight formworks 111 are connected, the first clamping strip 114 of one heat-insulating straight formwork 111 is inserted into the first socket 115 of the other heat-insulating straight formwork 111, and splicing can be achieved;

a plurality of first reinforcing ribs 116 are connected between the first inner wall panel 111 and the first outer wall panel 112, and the first reinforcing ribs 116 are used for pulling and connecting the first inner wall panel 111 and the first outer wall panel 112, so that deformation is prevented, and strength is ensured; a plurality of intercommunicated holes are formed in the first reinforcing rib plate 116 and the first connecting end plate 113, and the holes are arranged to facilitate the penetration of wall reinforcing steel bars and ensure the mutual circulation of the templates during the concrete pouring;

in this embodiment, the first reinforcing rib 116 is provided with first triangular reinforcing bars 117 at both ends thereof, and the first reinforcing rib 116 is connected to the first inner wall panel 111 and the first outer wall panel 112 via the first triangular reinforcing bars 117; in this embodiment, the partition is a first partition 118 disposed between two adjacent first reinforcing ribs 116 or between the first reinforcing ribs 116 and the first connection end plate 113, the first partition 118 is used for limiting and fixing the heat insulating material in the heat insulating layer assembly cavity 2, and the first partition 118 is a strip-shaped partition that realizes limitation of the heat insulating material and can also save the device cost.

As shown in fig. 3 and 4, the heat-insulating right-angle formwork 12 is used for pouring a corner of a wall body, the heat-insulating right-angle formwork 12 includes two second inner wall boards 121 forming an inner corner and two second outer wall boards 122 forming an outer corner, the two sides of the two second inner wall boards 121 of the heat-insulating right-angle formwork 12 are respectively provided with a second clamping strip 123 which is matched with the first inserting port 115, when the formworks are mutually spliced, the heat-insulating right-angle formwork 12 is used as the corner, the second clamping strip 123 which protrudes from the second inner wall boards 121 is inserted into the first inserting port 115 of the heat-insulating straight formwork 11, and then the splicing of the whole wall body at the corner is realized; the partition part in the heat-preservation right-angle template 12 is two right-angle partition plates, and the interior of the heat-preservation right-angle template is divided into a concrete pouring cavity 1 and a heat-preservation layer assembling cavity 2; fig. 16 is a schematic structural view illustrating the splicing of the heat-insulating right-angle formwork 12 and the heat-insulating straight formwork 11 in the embodiment at the corner of the wall.

As shown in fig. 5 and 6, the thermal insulation three-way formwork 13 includes a third inner wall panel 131, a third outer wall panel 132 and a third connecting end plate 133 connected between the third inner wall panel 131 and the third outer wall panel 132, and the third inner wall panel 131 is further provided with a connecting formwork section 134 connected with the inner wall formwork; two ends of the heat-preservation three-way template 13 are provided with second inserting ports 135 which are matched with the first clamping strips 114 or the second clamping strips 123, and a third inserting port 136 is arranged on the connecting template section 134; the second inserting port 135 is formed in a concave manner on the third inner wall plate 131 and the third outer wall plate 132 of the heat-preservation three-way template 13, and the third inserting port 136 is formed in a concave manner on the two side plates of the connecting template section 134; the purpose of the arrangement of the heat-insulating three-way template 13 is to splice the external heat-insulating wall template and the internal wall template, both ends of the heat-insulating three-way template are connected with the heat-insulating straight template 11, and a connecting template section 134 arranged on the third inner wall plate 131 of the heat-insulating three-way template is connected with the internal wall template; fig. 18 is a schematic structural diagram of the splicing of the heat-insulating three-way formwork 13 with the heat-insulating straight formwork 11 and the internal wall formwork (straight formwork 14) in this embodiment.

A plurality of second reinforcing ribs 137 are also connected between the third inner wall panel 131 and the third outer wall panel 132, the second reinforcing ribs 137 have the same functions as the first reinforcing ribs 116, and a plurality of communicated holes are formed in the second reinforcing ribs 137 and the third connecting end plate 133; the partition part is a second partition strip 138 which is arranged between two adjacent second reinforcing ribs 137 or between the second reinforcing ribs 137 and the third connecting end plate 133 oppositely, and the second partition strip 138 is used for limiting and fixing the heat insulating material in the heat insulating layer assembly cavity 2.

In the embodiment, the internal wall formwork comprises a straight formwork 14 and a four-way formwork 15, and concrete pouring cavities 1 are arranged inside the straight formwork 14 and the four-way formwork 15;

as shown in fig. 7 and 8, the straight formwork 14 includes two fourth inner wall panels 141 and a fourth connecting end plate 142 connected between the two fourth inner wall panels 141, the four-way formwork 15 is surrounded by four fifth inner wall panels 151, and concrete pouring cavities 1 for pouring concrete are formed inside the straight formwork 14 and the four-way formwork 15; one end of the straight template 14 is provided with a fourth interface 143, and the other end of the straight template 14 is provided with a third clamping strip 144 matched with the third interface 136 or the fourth interface 143; during splicing, the straight template 14 is connected with the connecting template section 134 on the heat-preservation three-way template 13 through the third clamping strip 144.

As shown in fig. 9 and 10, both sides of the fourth fifth inner wall panel 151 of the four-way template 15 are provided with fourth clamping strips 152 which are matched with the fourth sockets 143, and the inner wall body is extended and spliced in four directions through the four-way template 15; FIG. 20 is a schematic structural view of the four-way form 15 and the straight form 14 being assembled together to form an interior wall form; a plurality of fourth reinforcing ribs 145 are arranged between the two fourth inner wall boards 141, and a plurality of communicated holes are formed in the fourth reinforcing ribs 145 and the fourth connecting end plate 142; the third triangular reinforcing bars 146 are disposed at two ends of the fourth reinforcing rib 145, the fourth reinforcing rib 145 is connected to the two fourth inner wall panels 141 through the third triangular reinforcing bars 146, and the functions of the fourth reinforcing rib 145 and the third triangular reinforcing bar 146 are the same as those of the other reinforcing ribs and the triangular reinforcing bars, which are not described again here.

In this embodiment, in order to realize the penetration of the steel bars in the concrete and the circulation of the concrete pouring, a plurality of holes communicated with the holes on the first connecting end plate 113 are formed in the two second inner wall plates 121 of the heat-insulating right-angle formwork 12, and a plurality of communicated holes are formed in the connecting end plate between the two side plates of the connecting formwork section 134 and the third inner wall plate 131; a plurality of holes communicated with the holes arranged on the fourth connecting end plate 142 are formed in the fourth fifth inner wall plate 151; the holes formed in the formworks realize the intercommunication of the concrete pouring cavities 1 in the formworks.

As shown in fig. 11, the present embodiment further includes an end plate 16, the end plate 16 has a fifth clamping strip 161 disposed in cooperation with the first inserting port 115, and the end plate 16 is sleeved on the outermost end of the whole external thermal insulation wall formwork to complete the end of the thermal insulation straight formwork 11; fig. 21 is a schematic structural diagram of the insulating straight formwork 11 in this embodiment with the end sealing plate 16 connected thereto.

In this embodiment, the external thermal insulation wall form, the internal wall form, and the end plate 16 are made of polymer plastics, and may specifically be made of PE (polyethylene), PP (polypropylene), PVC (polyvinyl chloride), or the like; the side walls, facing the indoor, of the first inner wall board 111, the third inner wall board 131 and the fourth inner wall board 141 are provided with a surface decorative layer, the side walls, facing the outdoor, of the first outer wall board 112, the second outer wall board 122 and the third outer wall board 132 are provided with a surface decorative layer, and the surface decorative layers are arranged to enable the whole wall body to be free of working procedures such as plastering and painting after pouring is completed.

Example two:

the present embodiment differs from the assembled wall formwork provided by the embodiment only in that: the arrangement positions of the partition parts and the reinforcing rib plates in the heat-preservation straight template 11 and the heat-preservation three-way template 13 are different; specifically, as shown in fig. 12 to 15, the partition of the heat-insulating straight formwork 11 and the heat-insulating three-way formwork 13 is a partition board 211 that integrally partitions the concrete pouring cavity 1 and the heat-insulating layer assembling cavity 2, a plurality of third reinforcing ribs 212 are connected between the partition board 211 and the first inner wall board 111 or the third inner wall board 131, and a plurality of holes communicated with each other are also formed in the third reinforcing ribs 212 and the first connecting end board 113 or the third connecting end board 133; second triangular reinforcing strips 213 are arranged at two ends of a third reinforcing rib 212 between the partition plate 211 and the first inner wall plate 111, and the third reinforcing rib 212 is connected with the partition plate 211 and the first inner wall plate 111 through the second triangular reinforcing strips 213; fig. 17 is a schematic structural view illustrating the splicing of the heat-insulating right-angle formwork 12 and the heat-insulating straight formwork 11 in the embodiment at a corner; fig. 19 is a schematic structural diagram of the splicing of the heat-insulating three-way formwork 13, the heat-insulating straight formwork 11 and the internal wall formwork in this embodiment.

Fig. 22 and 23 are schematic diagrams showing the assembly structure of the external thermal insulation wall form and the internal wall form in the first and second embodiments of the present invention, respectively.

The utility model provides an assembled wall template can be according to the construction drawing, after the ground is built, according to each template of drawing concatenation, vertical grafting vertical reinforcing bar in the template, after the wall body concatenation is accomplished, places horizontal reinforcing bar to concreting has both constituted the shear force wall structure wall body of heat preservation decorative structure integration. The utility model provides an assembled wall template need not to dismantle after concrete placement accomplishes, and the heat preservation assembly intracavity of outside heat preservation wall form is equipped with insulation material in advance, can obtain the outside cavity that has the heat preservation after concreting, need not the secondary construction of heat preservation, has a face decorative layer in addition on the template, also need not to plaster, whitewash processes such as, realizes keeping warm, decorates and structure integration, and construction speed is fast, and structural stability is high.

The utility model discloses the principle and the implementation mode of the utility model are explained by applying the concrete examples, and the explanation of the above examples is only used for helping to understand the method and the core idea of the utility model; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the concrete implementation and the application scope. In summary, the content of the present description should not be construed as a limitation of the present invention.

Claims (10)

1. The utility model provides an assembled wall template which characterized in that: comprises an external heat-insulation wall template and an internal wall template; the external heat-insulation wall formwork is used for building an outer wall of a house, and a concrete pouring cavity for pouring concrete and a heat-insulation layer assembling cavity for placing heat-insulation materials are partitioned by an internal cavity of the external heat-insulation wall formwork; the interior wall body template is used for building a house interior wall, and the interior cavity of the interior wall body template is a concrete pouring cavity.

2. The assembled wall formwork panel of claim 1, wherein: the external heat-insulation wall template comprises a heat-insulation straight template, a heat-insulation right-angle template and a heat-insulation three-way template; the internal cavities of the heat-preservation straight template, the heat-preservation right-angle template and the heat-preservation three-way template are divided into the concrete pouring cavity and the heat-preservation assembling cavity by separating parts; the heat-insulation straight template comprises a first inner wallboard, a first outer wallboard and a first connecting end plate connected between the first inner wallboard and the first outer wallboard; the heat-insulation right-angle template is used for pouring a corner of a wall body and comprises two second inner wall plates forming the inner corner and two second outer wall plates forming the outer corner; the heat-insulation three-way template comprises a third inner wallboard, a third outer wallboard and a third connecting end plate connected between the third inner wallboard and the third outer wallboard, and a connecting template section connected with the inner wall template is further arranged on the third inner wallboard; one end of the heat-preservation straight template is provided with a first clamping strip, the other end of the heat-preservation straight template is provided with a first inserting port matched with the first clamping strip, and two sides of two second inner wallboards of the heat-preservation right-angle template are respectively provided with a second clamping strip matched with the first inserting port; two ends of the heat-preservation three-way template are provided with second inserting ports matched with the first clamping strips or the second clamping strips, and a third inserting port is arranged on the connecting template section;

the internal wall formwork comprises a straight formwork and a four-way formwork, and concrete pouring cavities are formed in the straight formwork and the four-way formwork; the straight template comprises two fourth inner wall plates and a fourth connecting end plate connected between the two fourth inner wall plates, and the four-way template is formed by encircling four fifth inner wall plates; a fourth inserting port is formed in one end of the straight template, and a third clamping strip matched with the third inserting port or the fourth inserting port is arranged at the other end of the straight template; and four-way templates are arranged on two sides of the fifth inner wallboard, and are provided with fourth clamping strips matched with the fourth inserting ports.

3. The assembled wall formwork panel of claim 2, wherein: the first socket is formed in the first inner wall plate and the first outer wall plate of the heat-insulation straight template in an inwards concave mode, the second socket is formed in the third inner wall plate and the third outer wall plate of the heat-insulation three-way template in an inwards concave mode, the third socket is formed in the two side plates of the connecting template section in an inwards concave mode, and the fourth socket is formed in the two fourth inner wall plates in an inwards concave mode.

4. The assembled wall formwork panel of claim 2, wherein: a plurality of first reinforcing rib plates are further connected between the first inner wall plate and the first outer wall plate, and a plurality of communicated holes are formed in the first reinforcing rib plates and the first connecting end plate; two ends of the first reinforcing rib plate are provided with first triangular reinforcing strips, and the first reinforcing rib plate is connected with the first inner wall plate and the first outer wall plate through the first triangular reinforcing strips; the partition part is a first partition strip which is arranged between two adjacent first reinforcing rib plates or between the first reinforcing rib plate and the first connecting end plate oppositely, and the first partition strip is used for limiting and fixing heat insulation materials in the heat insulation layer assembly cavity.

5. The assembled wall formwork panel of claim 4, wherein: a plurality of second reinforcing rib plates are also connected between the third inner wall plate and the third outer wall plate, and a plurality of communicated holes are formed in the second reinforcing rib plates and the third connecting end plate; the partition part is a second partition strip which is arranged between two adjacent second reinforcing rib plates or between the second reinforcing rib plate and the third connecting end plate oppositely, and the second partition strip is used for limiting and fixing the heat insulation material in the heat insulation layer assembly cavity.

6. The assembled wall formwork panel of claim 2, wherein: the partition part is a partition plate which integrally partitions the concrete pouring cavity and the heat insulation layer assembling cavity, a plurality of third reinforcing rib plates are connected between the partition plate and the first inner wallboard or the third inner wallboard, and a plurality of communicated holes are formed in the third reinforcing rib plates and the first connecting end plate or the third connecting end plate; and second triangular reinforcing strips are arranged at two ends of the third reinforcing rib plate between the partition plate and the first inner wall plate, and the third reinforcing rib plate is connected with the partition plate and the first inner wall plate through the second triangular reinforcing strips.

7. The assembled wall formwork panel of claim 5 or 6, wherein: a plurality of holes communicated with the holes in the first connecting end plate are formed in the two second inner wall plates of the heat-insulation right-angle formwork, and a plurality of communicated holes are formed in the connecting end plate between the two side plates of the connecting formwork section and the third inner wall plate.

8. The assembled wall formwork panel of claim 2, wherein: a plurality of fourth reinforcing rib plates are further arranged between the two fourth inner wall plates, and a plurality of communicated holes are formed in the fourth reinforcing rib plates and the fourth connecting end plate; third triangular reinforcing strips are arranged at two ends of the fourth reinforcing rib plate, and the fourth reinforcing rib plate is connected with the two fourth inner wall plates through the third triangular reinforcing strips; and a plurality of holes communicated with the holes arranged on the fourth connecting end plate are formed in the fifth inner wall plate.

9. The assembled wall formwork panel of claim 2, wherein: the sealing plate is provided with a fifth clamping strip which is matched with the first inserting port.

10. The assembled wall formwork panel of claim 9, wherein: the external heat-insulation wall template, the internal wall template and the end sealing plate are made of high polymer plastics; the wallboard in the first wallboard in with the third wallboard with be provided with one deck decoration layer on the indoor lateral wall of orientation of wallboard in the fourth, first side fascia the second wallboard with be provided with one deck decoration layer on the outdoor lateral wall of orientation of third side fascia.

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