CN115162723A

CN115162723A - Concatenation formula building templates structure

Info

Publication number: CN115162723A
Application number: CN202210933363.5A
Authority: CN
Inventors: 吕凯; ***; 刘文立; 吴峥斌; 周伟东; 陈竖鸿; 钟正勇; 刘茜茜; 聂清念; 徐文兵; 张继琛; 潘贤
Original assignee: Guangdong No 3 Water Conservancy and Hydro Electric Engineering Board Co Ltd
Current assignee: Guangdong No 3 Water Conservancy and Hydro Electric Engineering Board Co Ltd
Priority date: 2022-08-04
Filing date: 2022-08-04
Publication date: 2022-10-11
Anticipated expiration: 2042-08-04
Also published as: CN115162723B

Abstract

The invention relates to a spliced building template structure which at least comprises connecting fillets and planar templates, wherein adjacent planar templates are connected through at least one connecting fillet, each connecting fillet comprises an inner-layer connecting piece and an outer-layer connecting piece, the side edges of the planar templates are fixedly connected with the outer-layer connecting pieces of the connecting fillets, the structure realizes concrete construction of a building plane and a corner structure by combining a plurality of planar templates with a corner template, and the planar templates are connected with the planar templates and the corner templates through the connecting fillets.

Description

Concatenation formula building templates structure

Technical Field

The invention belongs to the technical field of building construction, and relates to a spliced building template structure.

Background

In the building construction process, a plane template needs to be erected to support the poured concrete, so that the deformation of the concrete in the solidification process is avoided; the existing splicing templates are mostly directly connected through bolts; and the traditional splicing template easily causes the phenomenon of slurry leakage at the splicing position, influences the pouring quality of concrete and causes the waste of the concrete. In the concrete pouring process, the existing template assembling and disassembling processes are complicated, because in order to ensure the stable connection between the templates, the existing templates mostly adopt a connection mode of more bolts to fix the splicing positions, but the bolts are required to be more conveniently assembled and disassembled, otherwise, the bolts are excessive, so that the time and cost are spent in the assembling and disassembling processes; in addition adopt direct concatenation more between the current template, specific connection structure is reserved at this mode needs the template edge, otherwise the bolt can't be installed, nevertheless to the concrete placement in-process, the concatenation template is spliced by a plurality of unit templates usually, and the unit template is mostly fixed dimension when manufacturing, and the unit template can not cut wantonly in the in-service use process, uses inconveniently.

Disclosure of Invention

Aiming at the problems in the prior art, the invention discloses a splicing type building template structure, which is characterized in that connecting fillets are adopted in the template structure to realize template splicing, edges of templates are fixed by the edge strips, templates with any size can be spliced, the universality of the templates is improved, and the template structure is convenient to disassemble and assemble.

The invention discloses a splicing type building template structure, which comprises connecting fillets and plane templates, wherein adjacent plane templates are connected through at least one connecting fillet,

the plane template comprises a main board, a first edge strip and a first connecting nut, wherein the first edge strip is arranged at the side edge position of the main board relatively, a first nut clamping groove is formed in the first edge strip, the first connecting nut is arranged in the first nut clamping groove, and a first through hole is formed in the bottom of the first nut clamping groove corresponding to the position of the first connecting nut;

the connecting fillet comprises an inner connecting piece and an outer connecting piece, the inner connecting piece comprises a first fixing surface, two sides of the first fixing surface are respectively provided with a group of accommodating grooves, and the cross section of the inner connecting piece is of a structure shaped like a Chinese character 'ji'; the outer-layer connecting piece comprises a second fixing surface, a group of connecting pieces are respectively arranged at the edge positions of two sides of the second fixing surface, the cross section of the outer-layer connecting piece is of an inverted U-shaped structure, and the connecting pieces are embedded into the accommodating grooves on the same side; the first fixing surface and the second fixing surface are kept parallel; the inner-layer connecting piece and the outer-layer connecting piece are connected by a buckle;

the side edge of the plane template is fixedly connected with the outer connecting piece of the connecting fillet.

Furthermore, when the plane formworks are connected on the same plane, a group of connecting fillets are arranged at the connecting positions between the adjacent plane formworks, and two sides of the same connecting fillet are fixedly connected with the side edges of the plane formworks respectively.

Furthermore, when the plane templates are vertically connected, two groups of connecting fillets and a group of corner template are arranged at the connecting positions of the adjacent templates, one side edge of each plane template is connected with one group of connecting fillets respectively, and the connecting fillets are fixedly connected through the corner template.

Furthermore, adjacent two side surfaces in the corner template are respectively provided with a second edge strip and a second connecting nut, a second nut clamping groove is formed in the second edge strip, the second connecting nut is arranged in the second nut clamping groove, and a second through hole is formed in the bottom of the second nut clamping groove and corresponds to the position of the second connecting nut.

Furthermore, the accommodating groove comprises a first bending surface, a second bending surface and a third bending surface, wherein the first bending surface and the second bending surface are arranged in parallel relatively in the vertical direction, the upper edge of the first bending surface is vertically connected with the side edge of the first fixing surface, and the lower edges of the first bending surface and the third bending surface are horizontally connected with the side edge of the second bending surface; the last border of third plane of inflection extends towards first plane of inflection direction and has joint portion, the side that corresponds the third plane of inflection on the outer connector is equipped with the joint groove, joint portion gomphosis to joint inslot.

Furthermore, the cross sections of the outer layer connecting pieces are of three groups of vertically arranged frame-shaped structures, first through holes are arranged in the horizontal direction of the frame-shaped structures in the middle of the outer layer connecting pieces, and the first through holes are axially perpendicular to the length direction of the connecting pieces.

Furthermore, second through holes are respectively formed in the positions, corresponding to the first through holes, of the first bending surface of the inner layer connecting piece.

Further, the first edge strip and the second edge strip both comprise splicing surfaces, and fixing surfaces perpendicular to the splicing surfaces are respectively arranged on two sides of the splicing surfaces; the nut clamping groove is positioned between the two fixing surfaces and comprises two clamping parts, and the clamping parts are oppositely arranged and fixed on the splicing surfaces; a connecting surface is arranged between the clamping part and the fixing surface at the same side.

Furthermore, the first edge strip is fixed at the side position of the main board in an adhesion or fusion mode; the second edge strip is fixed at the side position of the corner template in an adhesion or fusion mode.

Furthermore, the first connecting nut and the second connecting nut are square nuts, the square nuts are made of carbon steel materials, and the square nuts are arranged in the first nut clamping groove/the second nut clamping groove at equal intervals.

1) The spliced building template structure realizes the concrete construction of building planes and corner structures by combining the plurality of plane templates with the corner template, and the plane templates, the plane templates and the corner template are connected by adopting the connecting fillets.

2) The side edges of the templates in the splicing type building template structure are connected by the edgings, the edgings can be fixed on the templates in a welding or bonding mode or integrally processed and formed during manufacturing, when the templates are spliced, due to the limitation of different actual fields, the templates with fixed sizes cannot be spliced frequently, the templates need to be cut according to the structural sizes of the templates, the edgings can be bonded at the cutting positions of the cut templates, template splicing with any size is further realized, and the universality of the templates is improved

Drawings

Fig. 1 is a schematic structural diagram of a spliced building formwork structure of a planar formwork in the embodiment 1;

fig. 2 is a schematic structural diagram of a spliced building template structure of an external corner template in this embodiment 2;

fig. 3 is a schematic structural diagram of a spliced building template structure of a female corner template in the embodiment 2;

FIG. 4 is a schematic structural diagram of a planar template in this embodiment;

fig. 5 is a schematic view of an installation structure of a main board and an edge strip in the planar template of the present embodiment;

fig. 6 is a schematic structural view of the first edge strip or the second edge strip in this embodiment;

FIG. 7 is a side cross-sectional view of the square nut of this embodiment;

fig. 8 is a schematic structural view of the corner template in this embodiment 2;

fig. 9 is a schematic structural view of a connecting fillet in the present embodiment;

fig. 10 is a schematic structural view of an outer connecting member for connecting fillets according to the embodiment;

fig. 11 is a schematic structural view of the inner layer connecting member for connecting the fillets of the embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

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 obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Example 1:

referring to fig. 1, this embodiment 1 specifically discloses a splicing type building formwork structure, which includes connecting fillets and planar formworks 1, wherein adjacent planar formworks 1 are connected by at least one connecting fillet. Specifically, in this embodiment 1, the planar formworks 1 are connected on the same plane, a group of connecting fillets is disposed at a connection position between adjacent planar formworks 1, and two sides of the same connecting fillet are respectively fixedly connected to the side edges of the planar formworks 1.

In this embodiment 1, the planar template 1 includes a main board, a first edge strip 104 and a first connection nut 61, wherein the first edge strip 104 is disposed at a side position of the main board, the first edge strip 104 is provided with a first nut slot 1045, the first connection nut 61 is disposed in the first nut slot 1045, and a first through hole is disposed at a position corresponding to the first connection nut 61 at the bottom of the first nut slot 1045. As shown in fig. 4, the main plate in this embodiment 1 includes an upper flat plate 101, a lower flat plate 102, and a plurality of inclined webs 103, where the upper flat plate 101 and the lower flat plate 102 are arranged in parallel, the inclined webs 103 are located in a gap between the upper flat plate 101 and the lower flat plate 102, and the plurality of inclined webs 103 are sequentially fixed in a corrugated manner at the gap between the upper flat plate 101 and the lower flat plate 102. By adopting the structure, the main body of the plane template 11 can greatly enhance the self-supporting strength of the template, and avoid the deformation of the surface of the plane template 11 in the pouring process to cause the deformation of a poured concrete structure.

Specifically, as shown in fig. 9, the connecting fillet includes an inner layer connecting piece 3 and an outer layer connecting piece 2, the inner layer connecting piece 3 includes a first fixing surface 301, two sides of the first fixing surface 301 are respectively provided with a group of accommodating grooves, and a cross section of the inner layer connecting piece 3 has a zigzag structure; the outer layer connecting piece 2 comprises a second fixing surface 201, a group of connecting pieces 202 are respectively arranged at the edge positions of two sides of the second fixing surface 201, the cross section of the outer layer connecting piece 2 is of an inverted U-shaped structure, and the connecting pieces 202 are embedded into the accommodating grooves on the same side; the first fixing surface 301 and the second fixing surface 201 are kept parallel; the inner layer connecting piece 3 and the outer layer connecting piece 2 are connected by a buckle. The side edge of the plane template 1 is fixedly connected with an outer layer connecting piece 2 of the connecting fillet.

Furthermore, as shown in fig. 11, in the present embodiment, the accommodating groove includes a first bending surface 302, a second bending surface 303, and a third bending surface 304, wherein the first bending surface 302 and the second bending surface 303 are relatively arranged in parallel in a vertical direction, an upper edge of the first bending surface 302 is vertically connected to a side of the first fixing surface 301, and lower edges of the first bending surface 302 and the third bending surface 304 are horizontally connected to a side of the second bending surface 303; the last border of third plane of inflection 304 extends towards first plane of inflection 302 and has joint portion 305, the side that corresponds third plane of inflection 304 on the outer connector is equipped with joint groove 2022, joint portion 305 gomphosis is to in the joint groove 2022, as shown in fig. 9.

As shown in fig. 9, through holes 2011 are formed in the second fixing surface 201 of the outer connecting piece 2 in the connecting fillet, through holes 3011 are formed in the first fixing surface 301 of the corresponding inner connecting piece 3, a plurality of groups of reinforcing connecting plates 4 are arranged between the first bending surfaces 302 on the two sides in the inner connecting piece 3, the reinforcing connecting plates 4 are arranged at equal intervals along the length direction of the inner connecting piece 3, through holes are formed in each reinforcing connecting plate 4, and the through holes 2011 and the through holes 3011 are arranged in a manner of being overlapped with the central axis of the through holes in the reinforcing connecting plates, so that a brace can be fixed at the position for supporting.

As shown in fig. 10, the cross section of the outer layer connecting piece 2 is a three-group frame structure arranged vertically, a first through hole 2021 is provided in the horizontal direction of the frame structure located at the middle position, and the axial direction of the first through hole 2021 is perpendicular to the length direction of the connecting piece 202. The outer joint member 2 can be constructed in such a manner that the weight of the parts can be reduced while maintaining the structural strength. Furthermore, the first bending surface 302 of the inner layer connector 3 is provided with second through holes 3021 at positions corresponding to the first through holes 2021, and the inner layer connector 3 and the outer layer connector 2 can be tightly attached together by bolts 51 sequentially passing through the first through holes 2021 and the second through holes 3021.

With reference to fig. 4-6, in this embodiment 1, the first edge strip 104 is made of PVC plastic, the first edge strip 104 includes a splicing surface 1041, and fixing surfaces 1042 perpendicular to the splicing surface 1041 are respectively disposed on two sides of the splicing surface 1041; the first nut clamping groove 1045 is located between the two fixing surfaces 1042, the nut clamping groove includes two clamping portions 1043, and the clamping portions 1043 are oppositely arranged and fixed on the splicing surface 1041; a connecting surface 1044 is arranged between the clamping part 1043 and the fixing surface 1042 at the same side. Further, the first edge strip 104 is fixed to a side position of the main board by bonding or welding. Set up the strake at the side of template in this embodiment 1, the template concatenation mosaic optional dimension's of can being convenient for mosaic structure, because plane template 1 generally produces according to standard fixed dimension, when adopting 1 concatenation of plane template, because the restriction in different actual places, adopt fixed dimension's plane template 1 often can't accomplish the concatenation, need tailor to plane template 1's structural dimension, and template after tailorring then need be in the strake of tailorring position bonding, just can realize the template and connect, consequently, through setting up the strake structure in this embodiment 1, can realize plane template 1 and tailor the back connection, realize arbitrary dimension's template concatenation, the improvement template commonality.

Further, as shown in fig. 7, in this embodiment 1, the first connection nut 61 is a square nut 6, the square nut 6 is made of a carbon steel material, and the plurality of square nuts 6 are installed in the first nut slot 1045 at equal intervals, so as to function as a connection template.

Example 2

With reference to fig. 2-3, this embodiment 2 specifically discloses a splicing type building formwork structure, which includes connecting fillets and planar formworks 1, wherein adjacent planar formworks 1 are connected by at least one connecting fillet. Specifically, in this embodiment, the planar formworks 1 are connected vertically, two groups of connecting fillets and one group of corner formworks 7 are arranged at the connecting positions of the adjacent planar formworks, one group of connecting fillets is connected to one side of each planar formwork 1, and the connecting fillets are fixedly connected through the corner formworks 7.

As shown in fig. 4, the planar template 1 in this embodiment includes a main board, a first edge strip 104 and a first connection nut 61, wherein the first edge strip 104 is disposed at a side position of the main board, and the first edge strip 104 is provided with a first nut slot 1045, the first connection nut 61 is disposed in the first nut slot 1045, and a first through hole is disposed at a position corresponding to the first connection nut 61 at the bottom of the first nut slot 1045. As shown in fig. 4, the main plate in this embodiment 1 includes an upper flat plate 101, a lower flat plate 102, and a plurality of inclined webs 103, where the upper flat plate 101 and the lower flat plate 102 are arranged in parallel, the inclined webs 103 are located in a gap between the upper flat plate 101 and the lower flat plate 102, and the plurality of inclined webs 103 are sequentially fixed in a corrugated manner at the gap between the upper flat plate 101 and the lower flat plate 102. By adopting the structure, the main body of the plane template 11 can greatly enhance the self-supporting strength of the template, and avoid the deformation of the surface of the plane template 11 in the pouring process to cause the deformation of the poured concrete structure.

Specifically, as shown in fig. 9, the connecting fillet includes an inner layer connecting piece 3 and an outer layer connecting piece 2, the inner layer connecting piece 3 includes a first fixing surface 301, two sides of the first fixing surface 301 are respectively provided with a group of accommodating grooves, and the cross section of the inner layer connecting piece 3 is in a zigzag structure; the outer layer connecting piece 2 comprises a second fixing surface 201, a group of connecting pieces 202 are respectively arranged at the edge positions of two sides of the second fixing surface 201, the cross section of the outer layer connecting piece 2 is of an inverted U-shaped structure, and the connecting pieces 202 are embedded into the accommodating grooves at the same side; the first fixing surface 301 and the second fixing surface 201 are kept parallel; the inner layer connecting piece 3 and the outer layer connecting piece 2 are connected by a buckle. The side edge of the plane template 1 is fixedly connected with an outer layer connecting piece 2 of the connecting fillet.

Furthermore, as shown in fig. 11, in the present embodiment, the accommodating groove includes a first bending surface 302, a second bending surface 303, and a third bending surface 304, wherein the first bending surface 302 and the second bending surface 303 are relatively parallel to each other in the vertical direction, an upper edge of the first bending surface 302 is vertically connected to a side of the first fixing surface 301, and lower edges of the first bending surface 302 and the third bending surface 304 are horizontally connected to a side of the second bending surface 303; the last border of third plane of inflection 304 extends towards first plane of inflection 302 direction and has joint portion 305, the side that corresponds third plane of inflection 304 on the outer connector is equipped with joint groove 2022, joint portion 305 gomphosis is to in the joint groove 2022.

As shown in fig. 9, through holes 2011 are formed in the second fixing surface 201 of the outer-layer connecting piece 2 in the connecting fillet, through holes 3011 are formed in the first fixing surface 301 of the corresponding inner-layer connecting piece 3, a plurality of groups of reinforcing connecting plates 4 are arranged between the first bending surfaces 302 on the two sides in the inner-layer connecting piece 3, the reinforcing connecting plates 4 are arranged at equal intervals along the length direction of the inner-layer connecting piece 3, through holes are formed in each reinforcing connecting plate 4, and the through holes 2011, the through holes 3011 and the central axes of the through holes in the reinforcing connecting plates are arranged in a coincident mode, so that a brace can be fixed at the position to support the reinforcing connecting plates.

Further, as shown in fig. 8, in this embodiment 2, the cross section of the corner template 7 is a square structure, two adjacent side surfaces of the corner template 7 are respectively provided with a second edge strip 701 and a second connection nut 62, the second edge strip 701 is provided with a second nut slot, the second connection nut 62 is installed in the second nut slot, and a second through hole is formed at a position of the bottom of the second nut slot corresponding to the second connection nut 62.

As shown in fig. 10, in the embodiment 2, the cross sections of the outer layer connecting pieces 2 are three groups of vertically arranged frame-shaped structures, a first through hole 2021 is arranged in the horizontal direction of the frame-shaped structure located at the middle position, and the axial direction of the first through hole 2021 is perpendicular to the length direction of the connecting piece, so that the outer layer connecting pieces 2 can reduce the weight of parts and maintain the structural strength. Furthermore, the first bending surface 302 of the inner layer connector 3 is provided with second through holes 3021 at positions corresponding to the first through holes 2021, and the inner layer connector 3 and the outer layer connector 2 can be tightly attached together by sequentially passing through the first through holes 2021 and the second through holes 3021 through

bolts

51 or 52.

Referring to fig. 5, 6 and 8, in this embodiment 2, the first edge strip 104 and the second edge strip 701 are both made of PVC plastic, where the first edge strip 104 includes a splicing surface 1041, and two sides of the splicing surface 1041 are respectively provided with a fixing surface 1042 perpendicular to the splicing surface 1041; the nut clamping groove is positioned between the two fixing surfaces 1042 and comprises two clamping parts which are oppositely arranged and fixed on the splicing surfaces 1041; a connecting surface is arranged between the clamping portion and the fixing surface 1042 at the same side, and similarly, the second edge strip 701 has the same structure as the first edge strip 104. Further, the first edge strip 104 is fixed at the side position of the main board by adopting an adhesion or welding mode; the second edge strip 701 is fixed at the side position of the corner template 7 in an adhesion or welding mode, and the first edge strip 104 can be integrally connected with the side of the main board; the second edge strips 701 are integrally connected with the side face of the corner template 7. Set up the strake at the side of template in this embodiment 2, the template concatenation mosaic structure of arbitrary size of can being convenient for, because plane template 1 generally produces according to standard fixed dimension, when adopting 1 concatenation of plane template, because the restriction in different actual places, adopt fixed dimension's plane template 1 often can't accomplish the concatenation, need tailor to plane template 1's structural dimension, and template after tailorring then need be in the strake of tailorring position bonding, just can realize the template and connect, consequently, through setting up the strake structure in this embodiment, can realize 1 tailorring back connection of plane template, realize arbitrary size's template concatenation, improve the template commonality.

Further, as shown in fig. 7, the first connecting nut 61 and the second connecting nut 62 both adopt square nuts 6, the square nuts 6 are made of carbon steel material, and the square nuts 6 are installed in the first nut clamping grooves 1045/the second nut clamping grooves at equal intervals, so that the connection and fixation of the planar template 1 and the corner template 7 are realized.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims

1. A splicing type building template structure is characterized by comprising connecting fillets and plane templates, wherein adjacent plane templates are connected through at least one connecting fillet,

the connecting fillet comprises an inner connecting piece and an outer connecting piece, the inner connecting piece comprises a first fixing surface, two sides of the first fixing surface are respectively provided with a group of accommodating grooves, and the cross section of the inner connecting piece is of a structure shaped like a Chinese character 'ji'; the outer-layer connecting piece comprises a second fixing surface, a group of connecting pieces are respectively arranged at the edge positions of two sides of the second fixing surface, the cross section of the outer-layer connecting piece is of an inverted U-shaped structure, and the connecting pieces are embedded into the accommodating grooves at the same side; the first fixing surface and the second fixing surface are kept parallel; the inner-layer connecting piece and the outer-layer connecting piece are connected by a buckle;

2. The spliced building template structure of claim 1, wherein: when the plane templates are connected on the same plane, a group of connecting fillets are arranged at the connecting positions between the adjacent plane templates, and two sides of each connecting fillet are fixedly connected with the side edges of the plane templates respectively.

3. The spliced building template structure according to claim 1, wherein: when the plane templates are perpendicularly connected, the connecting positions of the adjacent templates are provided with two groups of connecting fillets and a group of corner templates, one side edge of each plane template is connected with one group of connecting fillets respectively, and the connecting fillets are fixedly connected through the corner templates.

4. The spliced building template structure of claim 3, wherein: the corner template is characterized in that a second edge strip and a second connecting nut are respectively arranged on two adjacent side faces in the corner template, a second nut clamping groove is formed in the second edge strip, the second connecting nut is arranged in the second nut clamping groove, and a second through hole is formed in the bottom of the second nut clamping groove and corresponds to the position of the second connecting nut.

5. The spliced building template structure of claim 1, wherein: the accommodating groove comprises a first bending surface, a second bending surface and a third bending surface, wherein the first bending surface and the second bending surface are arranged in parallel relatively in the vertical direction, the upper edge of the first bending surface is vertically connected with the side edge of the first fixing surface, and the lower edges of the first bending surface and the third bending surface are horizontally connected with the side edge of the second bending surface; the last border of third plane of inflection extends towards first plane of inflection direction and has joint portion, the side that corresponds the third plane of inflection on the outer connector is equipped with the joint groove, joint portion gomphosis to joint inslot.

6. The spliced building template structure of claim 4, wherein: the cross sections of the outer layer connecting pieces are of three groups of vertically arranged frame-shaped structures, first through holes are arranged in the horizontal direction of the frame-shaped structures in the middle, and the first through holes are axially perpendicular to the length direction of the connecting pieces.

7. The spliced building template structure of claim 1, wherein: and second through holes are respectively formed in the positions, corresponding to the first through holes, of the first bending surface of the inner-layer connecting piece.

8. The spliced building template structure of claim 4, wherein: the first edge strip and the second edge strip both comprise splicing surfaces, and fixing surfaces perpendicular to the splicing surfaces are respectively arranged on two sides of each splicing surface; the nut clamping groove is positioned between the two fixing surfaces and comprises two clamping parts, and the clamping parts are oppositely arranged and fixed on the splicing surfaces; a connecting surface is arranged between the clamping part and the fixing surface at the same side.

9. The spliced building template structure of claim 8, wherein: the first edge strip is fixed at the side position of the main board in a bonding or welding mode; the second edge strip is fixed at the side position of the corner template in an adhesion or fusion mode.

10. The spliced building template structure according to claim 4, wherein: the first connecting nut and the second connecting nut are square nuts, the square nuts are made of carbon steel materials, and the square nuts are arranged in the first nut clamping groove/the second nut clamping groove at equal intervals.