CN115787961A - Wallboard connecting assembly and mounting method thereof - Google Patents

Abstract

The disclosure relates to the technical field of architectural decoration, and provides a wallboard connecting assembly and an installation method thereof. This wallboard coupling assembling includes: the connecting female piece can be connected with a wall body of a wallboard to be installed, the connecting female piece comprises a female piece body and at least two first gear clamping groove walls extending from the female piece body, and the two first gear clamping groove walls and the female piece body between the two first gear clamping groove walls form a first gear clamping groove; the connecting sub piece comprises a sub piece body and a second gear clamping groove wall extending from the sub piece body, the connecting sub piece comprises a first connecting sub piece and a second connecting sub piece which can be connected with a wall board installed adjacently respectively, the second gear clamping groove wall of the first connecting sub piece, the second gear clamping groove wall of the second connecting sub piece and the sub piece body between the first gear clamping groove wall and the second gear clamping groove wall of the second connecting sub piece form a second gear clamping groove capable of being clamped with the first gear clamping groove.

Description

Wallboard connecting assembly and mounting method thereof

Technical Field

The disclosure relates to the technical field of architectural decoration, in particular to a wallboard connecting assembly and an installation method thereof.

Background

In the related art, when the wall panels are installed, a groove is formed in the side surface of each wall panel, and a T-shaped connecting strip or an i-shaped strip is installed in side grooves of two adjacent wall panels formed by slotting the side surfaces of the wall panels in an inserting manner, and the T-shaped connecting strip or the i-shaped strip is fixedly connected with the keel or the wall body at the same time, so that the wall panels and the keel or the wall body are fixed.

The wallboard mounting mode is high in construction difficulty, and when a single wallboard needs to be replaced, the difficulty in dismounting the wallboard is high.

Disclosure of Invention

In view of this, the embodiment of the present disclosure provides a wallboard connecting assembly and an installation method thereof, so as to solve the problems that in the prior art, the wallboard is difficult to install and construct and is difficult to disassemble and assemble during later replacement.

In order to achieve the purpose, the technical scheme adopted by the disclosure is as follows:

in one aspect, the disclosed embodiments provide a wallboard connection assembly, which includes: the connecting female piece can be connected with a wall body of a wallboard to be installed, the connecting female piece comprises a female piece body and at least two first gear clamping groove walls extending from the female piece body, and the two first gear clamping groove walls and the female piece body between the two first gear clamping groove walls form a first gear clamping groove; and the connecting sub-piece comprises a sub-piece body and a second gear clamping groove wall extending from the sub-piece body, the connecting sub-piece comprises a first connecting sub-piece and a second connecting sub-piece, the first connecting sub-piece and the second connecting sub-piece can be respectively connected with a wall plate installed adjacently, and a second gear clamping groove wall of the first connecting sub-piece, a second gear clamping groove wall of the second connecting sub-piece and a sub-piece body between the second gear clamping groove wall of the first connecting sub-piece and the second gear clamping groove wall of the second connecting sub-piece form a second gear clamping groove capable of being clamped with the first gear clamping groove.

In one embodiment, a first nail groove is formed in the first side, where the first gear clamping groove wall is located, of the female element body, and the connecting female element can be fixedly connected with a wall body of a wallboard to be installed through nails penetrating through the first nail groove.

In one embodiment, the second side of the female member body except the first side is a plane structure, and the connecting female member can be fixedly connected with a wall body of the wall board to be installed through an adhesive.

In one embodiment, a second nail groove is formed in the first side, where the wall of the second gear clamping groove is located, of the sub-piece body, and the connecting sub-piece can be fixedly connected with the wall board through a nail penetrating through the second nail groove.

In one embodiment, a portion between the connecting female member and the connecting male member, which is located outside the first gear slot, is provided with a filler layer.

In one embodiment, a third nail groove is formed in a second side of the sub-part body except the first side, and the filler layer can be fixedly connected with the connecting sub-part through a nail penetrating through the third nail groove.

In one embodiment, the second side of the sub-member body, except the first side, is a planar structure, and the connecting sub-member can be fixedly connected with the wall plate through an adhesive.

In one embodiment, the first gear slot wall is provided with serrations facing an inner portion of the first gear slot and the second gear slot wall is provided with serrations facing an outer portion of the second gear slot.

In one embodiment, the first gear groove wall has at least two serrations disposed thereon and the second gear groove wall has at least two serrations disposed thereon.

In another aspect, an embodiment of the present disclosure provides an installation method applied to the aforementioned wallboard connection assembly, including: fixedly connecting the connecting female member to a wall body of a wallboard to be installed; and correspondingly occluding the second gear clamping groove wall of the first connecting sub-part and the second gear clamping groove wall of the second connecting sub-part with two first gear clamping groove walls of the first gear clamping grooves respectively, and installing the first connecting sub-part and the second connecting sub-part on the connecting mother part.

Compared with the prior art, the embodiment of the disclosure has the advantages that: the gear clamping groove of connecting female member and connecting son spare is connected based on structural interlock fixed form, need not to slot on the wallboard and can realize the installation of wallboard and wall body, and the construction is simple, and later stage wallboard damages need to maintain that the replacement, can directly demolish the monolithic board and trade newly to do benefit to later stage maintenance and cost optimization. The connecting female member can realize local point-like mounting and leveling effects on a structural wall or a transverse keel according to construction site conditions, so that the wallboard connecting assembly is high in adaptability.

Furthermore, the wall surface with the standard floor height can be installed in a connection mode of sectional type connecting pieces, so that the cost is saved; super high-rise wall can connect the installation with whole section connecting piece or based on transportation convenience with big section concatenation form connecting piece, with wallboard integral connection at the face of gluing of connecting the son or through the nail fixed connection that passes the second nail groove at connecting the son, prevent the deformation that the super high-rise wallboard in later stage produced, the security is high.

Drawings

To more clearly illustrate the technical solutions in the embodiments of the present disclosure, the drawings needed for the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present disclosure, and other drawings can be obtained by those skilled in the art without inventive efforts.

Figure 1 is a schematic structural view of a wall panel connection assembly provided by an embodiment of the present disclosure;

FIG. 2 is a schematic view of the wall panel connection assembly provided by the disclosed embodiment mounted on a structural wall;

figure 3 is a schematic view of the wall panel connection assembly provided by the disclosed embodiment mounted on a keel;

figure 4 is a schematic structural view of a wall panel connection assembly provided with a filler layer according to an embodiment of the present disclosure;

figure 5 is a schematic view of a wall panel connection assembly in a sectional mounting configuration provided by an embodiment of the present disclosure;

figure 6 is a schematic view of a wall panel connection assembly provided by an embodiment of the present disclosure in the form of a whole or large section splice fixture;

figure 7 is a flow chart schematic diagram of a method of installing a wallboard connection assembly provided by embodiments of the present disclosure.

Wherein, in the figures, the various reference numbers:

10. connecting the female member; 11. a first nail groove; 121. a first gear slot wall; 122. a first gear slot wall; 20. a connecting sub-member; 21. a second nail groove; 221. a second gear groove wall; 222. a second gear groove wall; 23. a third nail groove; 24. a filler layer; 30. a structural wall; 41. a wallboard; 42. a wallboard; 50. nailing; 60. a keel; 61. nailing; 241. nails are provided.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present disclosure more clearly understood, the present disclosure is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the disclosure and are not intended to limit the disclosure.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly or indirectly secured to the other element. When an element is referred to as being "connected to" another element, it can be directly or indirectly connected to the other element. The terms "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positions based on the orientations or positions shown in the drawings, and are for convenience of description only and not to be construed as limiting the technical solution. The terms "first", "second" and "first" are used merely for descriptive purposes and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features. The meaning of "plurality" is two or more unless explicitly defined otherwise.

The wall panel connection assembly and the installation method according to the embodiments of the present disclosure will be described in detail below with reference to the accompanying drawings.

Fig. 1 is a schematic structural view of a wall panel connection assembly provided in an embodiment of the present disclosure. Figure 2 is a schematic view of the wall panel connection assembly provided by the embodiments of the present disclosure installed on a structural wall surface. Figure 3 is a schematic view of the structure of the wall panel connection assembly provided by the embodiment of the disclosure installed on the keel. Figure 4 is a schematic view of a wall panel connection assembly provided with a filler layer according to an embodiment of the present disclosure. The wallboard connection assembly provided by embodiments of the present disclosure is described below in conjunction with fig. 1-4.

As shown in fig. 1, the disclosed embodiment provides a wall panel connection assembly including a connection female member 10 and a connection male member 20. The connecting female member 10 can be connected to a wall body of a wall panel to be installed, which herein includes the structural wall 30 shown in fig. 2 and the keel 60 shown in fig. 3, but is not limited thereto, and it is within the scope of the wall body of the present application as long as it can be an entity capable of installing a wall panel such as a decorative panel. The connecting female member 10 includes a female member body and at least two first gear pocket walls extending from the female member body, for example, the first gear pocket wall 121 and the first gear pocket wall 122 as shown in fig. 1, the first gear pocket wall 121 and the first gear pocket wall 122 form a first gear pocket with the female member body between the first gear pocket wall 121 and the first gear pocket wall 122. At least two first gear groove walls extend from the female connection member 10 in the same direction (e.g., to the right of the female connection member 10). For example, the female body 10 extends in a first direction (e.g., a vertical direction), and the first gear pocket wall 121 extends from the female body 10 in a second direction (e.g., a horizontal direction) perpendicular to the first direction. The female body 10 and the first gear pocket wall may be integral, but the disclosure is not limited thereto, e.g., the female body 10 and the first gear pocket wall may be fixedly connected. The first gear pocket has a substantially U-shape with an opening toward the right side, or a rectangular shape with one side of the right side open. The first gear pocket wall 121 and the first gear pocket wall 122 forming the first gear pocket are parallel to each other and substantially perpendicular to the female body 10.

The connecting sub-member 20 is provided in plurality. Each connecting sub 20 includes a sub body and a second gear pocket wall extending from the sub body. Each second gear pocket wall extends from each connector sub 20 in the same direction (e.g., to the left of the connector sub 20). The plurality of connection sub-pieces includes a first connection sub-piece and a second connection sub-piece. The first and second connector sub-members are each capable of being connected to an adjacently mounted wall panel, as shown in fig. 2 and 3, the first connector sub-member being connected to wall panel 41 and the second connector sub-member being connected to wall panel 42. The second gear slot wall 221 of the first connection sub-part, the second gear slot wall 222 of the second connection sub-part 20, and the sub-part body between the second gear slot wall 221 of the first connection sub-part and the second gear slot wall 222 of the second connection sub-part form a second gear slot capable of being clamped with the first gear slot. For example, the sub body 20 extends in a first direction (e.g., a vertical direction), and the second gear groove wall 221 extends from the sub body in a second direction (e.g., a horizontal direction) perpendicular to the first direction. The sub body and the second gear groove wall 221 may be integrated, but the disclosure is not limited thereto, for example, the sub body and the second gear groove wall 221 may be fixedly connected. The second gear pocket wall 221 of the first connection sub and the second gear pocket wall 222 of the second connection sub may form a second gear pocket with the portion of the sub body between the second gear pocket wall 221 of the first connection sub and the second gear pocket wall 222 of the second connection sub. The second gear groove has a substantially U-shape with an opening toward the left side, or a rectangular shape with a left side open. The second gear pocket wall 221 of the first connection sub and the second gear pocket wall 222 of the second connection sub forming the second gear pocket are parallel to each other and substantially perpendicular to the sub body.

In the embodiment of the present disclosure, as shown in fig. 2, a first nail groove 11 is provided on a first side of the female member body where the first gear groove wall 121 is located, and the connecting female member 10 can be fixedly connected with the structural wall 30 of the wall panel to be installed by a nail 50 penetrating through the first nail groove 11. As shown in fig. 1, the first nail groove 11 is provided on the female body on the right side on the same side as the first gear groove wall 121, and the number of the first nail grooves 11 is not limited. Further, the first nail groove may be provided to the female body at the same position from the first gear groove wall 121 and the first gear groove wall 122, but the present application is not limited thereto. Further, the nails herein include screws, bolts, etc., as long as they function to fix the coupling female member 10 to the wall body through the first nail groove 11, and thus are within the scope of the present application.

In the embodiment of the present disclosure, the second side of the female member body, except the first side, is a planar structure, so that the female member 10 can be fixedly connected to the wall body of the wall panel to be installed through the adhesive. For example, the first side may be the side of the female body where the first gear pocket wall 121 is disposed, and the second side may be the side of the female body opposite the first side. As shown in fig. 1, the first side may be a right side of the female body and the second side may be a left side of the female body. The face on the second side of female member body is the plane, can be so that connect female member can laminate better with the wall body of waiting to install the wallboard. The adhesive is arranged between the female member body and the wall body of the wallboard to be installed, so that the female member 10 can be fixedly connected with the wall body of the wallboard to be installed. In the present application, the fixed connection between the coupling female member 10 and the wall body of the wall panel to be installed may be achieved by nails passing through nail grooves, by using an adhesive between the coupling female member 10 and the wall body of the wall panel to be installed, or by a combination of the two, but the present application is not limited thereto, and may also be fixedly connected by welding or other means, for example, according to the conditions of the construction site.

In the embodiment of the present disclosure, a second nail groove 21 is disposed on the first side of the sub body where the second gear groove wall 221 is located, and the connecting sub can be fixedly connected with the wall board by a nail penetrating through the second nail groove. As shown in fig. 1, a second nail groove 21 is provided on the sub body on the left side which is the same side as the second gear chuck wall, and the number of the second nail grooves 21 is not limited. In addition, the sub body may be divided into a first portion and a second portion according to a position where the second gear groove wall 221 is disposed, the length of the first portion may be greater than that of the second portion, and the second nail groove 21 may be disposed to the second portion of the sub body, but the present application is not limited thereto. Furthermore, the second nail groove 21 may also be provided on a portion of the sub body constituting the second gear catching groove. Further, it is within the scope of the present application that the nails herein include screws, bolts, etc., as long as they function to secure the connecting sub 20 to the wall through the second nail groove 21.

In the embodiment of the present disclosure, a portion between the female connection member 10 and the male connection member 20, which is located outside the first gear slot, is provided with a filler layer. As shown in fig. 1 and 4, after the first gear slot and the second gear slot are engaged, a portion between the female member body of the connecting female member 10 and the female member body of the connecting male member 20, which is outside the first gear slot, may be referred to as a female-male structure notch, and a filler layer 24 may be disposed in the female-male structure notch, and different fillers may be filled in the filler layer according to purposes. Rock wool and the like can be filled in the filler layer to realize the sound insulation and noise reduction effects; in order to realize the effect of structural reinforcement, gypsum boards, structural boards and the like can be filled in the filler layer; in order to be suitable for the background wall product, a weight such as a rock plate can be installed, but the application is not limited thereto.

In the disclosed embodiment, as shown in fig. 4, a third nail groove 23 is provided on a second side of the sub-member body except the first side, and the filler layer can be fixedly connected with the connecting sub-member 20 by a nail penetrating through the third nail groove 23. For example, the first side may be the side of the sub body where the second gear pocket wall 221 is located, and the second side may be the side of the sub body opposite the first side. As shown in fig. 1, the first side may be a left side of the sub body and the second side may be a right side of the sub body. As shown in fig. 1, a third nail groove 23 is provided on the right side of the sub body opposite to the second gear groove wall 221, and the number of the third nail grooves 23 is not limited. In addition, the sub body may be divided into a first portion and a second portion according to a position where the second gear groove wall 221 is disposed, the length of the first portion is greater than that of the second portion, and the third nail groove 23 may be disposed to the first portion of the sub body, but the present application is not limited thereto. Further, a third nail groove 23 may be provided on a portion of the sub body not constituting the second gear catching groove. Further, it is within the scope of the present application that nails herein include screws, threaded rods, etc., so long as they function to secure the filler layer to the connector sub 20 through the third nail groove 23. In addition, the filler layer can be fixedly connected with the connecting mother element 10 and the connecting daughter element 20 by nails 241 penetrating through the third nail grooves 24.

In the embodiment of the present disclosure, the second side of the sub-member body except the first side is a plane structure, and the connecting sub-member 20 can be fixedly connected to the wall panel by an adhesive through the plane structure. For example, the first side may be the side of the sub body where the second gear pocket wall 221 is located, and the second side may be the side of the sub body opposite the first side. As shown in fig. 1, the first side may be a left side of the sub body and the second side may be a right side of the sub body. The face on the second side of the sub body is planar, which may enable the connector sub 20 to better conform to the wall panel to be installed. Set up the adhesive between the son's spare body and the wallboard of waiting to install, can carry out fixed connection with connecting son 20 and the wallboard of waiting to install. In the present application, the fixed connection between the connection sub 20 and the wall panel to be installed may be achieved by nails passing through the second nail grooves 21, by using an adhesive between the connection sub 20 and the wall panel to be installed, or by a combination of the two.

As described above, the connecting sub-members 20 can be directly adhered to the adhesive-applying surface 23 on one side thereof or connected to the wall panel through the second nail groove 21, and then the two connecting sub-members 20 are aligned and closely spliced to realize the non-grooving close splicing effect of the wall panel. By adopting the technical scheme, the connecting sub-piece 20 can be arranged on the wallboard with the standard specification in a factory in advance, so that the misoperation rate of nailing workers during field gluing is solved; if the connecting sub-member 20 is fixed by gluing, it can be dried, smell-dispersed, and deformed in advance in a factory.

In the embodiment of the present disclosure, as shown in fig. 1, the first gear groove wall 121 and the first gear groove wall 122 are provided with serrations facing the inside of the first gear groove, and the second gear groove wall 221 and the second gear groove wall 222 are provided with serrations facing the outside of the second gear groove. In another embodiment of the present disclosure, it may also be designed that the first gear slot wall is provided with saw teeth facing the outside of the first gear slot, and the second gear slot wall is provided with saw teeth facing the inside of the second gear slot.

Wallboard coupling assembling is connected through the fixed form of gear draw-in groove interlock for connecting female member 10 and connecting child member 20, wherein connect female member 10 and connect on the structure wall, connect child member 20 and connect on the wallboard, the workman beats the pressure form through draw-in groove alignment back gravity, can extrude the interlock with the inside sawtooth of the first gear draw-in groove of orientation that sets up on first gear draw-in groove wall 121 and the first gear draw-in groove wall 122 and the outside sawtooth of the second gear draw-in groove of orientation that sets up on second gear draw-in groove wall 221 and the second gear draw-in groove wall 222 and connect, thereby realize the fixed connection who connects female member 10 and connect child member 20. The gear clamping groove structure of the wallboard connecting assembly enables the installation to be simple and rapid, the operation is easy, and time and labor are saved.

In the embodiment of the present disclosure, the first gear groove wall is provided with at least two saw teeth, and the second gear groove wall is provided with at least two saw teeth.

Specifically, through set up two sawtooth at least on first gear draw-in groove wall and second gear draw-in groove wall, when installing second gear draw-in groove in first gear draw-in groove, connect female member and can realize local punctiform leveling effect on structure wall, horizontal fossil fragments, simultaneously, connect the son through the meshing state of the sawtooth on the draw-in groove wall that the adjustment contains two sawtooth at least, the notch ladder of adjustment gear draw-in groove promptly, can be in order to realize secondary leveling effect.

Fig. 2 shows the installation of the wall panel on the structural wall 30 using the wall panel connection assembly, wherein the female connection member is fixedly connected to the structural wall by a nail passing through the first nail groove, the male connection member and the female connection member are fixedly connected by the engagement of the first gear groove and the second gear groove, and then the male connection member is fixedly connected to the wall panel by the adhesive, thereby realizing the fixed connection of the wall panel to the structural wall surface.

Fig. 3 shows the installation of the wall panel on the keel 60 using the wall panel connection assembly, wherein the connection female member is fixedly connected to the keel 60 by passing a nail 61 through the first nail groove, the connection male member and the connection female member are fixedly connected by the engagement of the first gear groove and the second gear groove, and then the connection male member fixedly connects the wall panel by the adhesive, thereby realizing the fixed connection of the wall panel to the structural wall surface.

Fig. 4 shows the installation of the wall panel on the structural wall using the wall panel connection assembly, wherein the female connection member is fixedly connected to the structural wall 30 by a nail passing through the first nail groove, the male connection member and the female connection member are fixedly connected by the engagement of the first gear groove and the second gear groove, however, the male connection member is fixedly connected to the wall panel by the adhesive, thereby realizing the fixed connection of the wall panel to the structural wall. In addition, a filler layer is arranged in the notch of the female and male structures, and the filler layer is fixed on the connecting sub-piece through a nail 241 penetrating through the third nail groove.

Fig. 5 shows that in the case of a wall surface with a standard floor height, the wall plate connecting assembly fixes the wall plate by adopting the connecting form of the sectional type connecting piece, and the connecting sub-piece 20 can be connected with the wall plate by the adhesive, compared with the connecting form of the integral type connecting piece, the connecting sub-piece has smaller gluing area and can bear the wall plate with smaller area, and under the condition that the area of the wall plate is smaller, the cost can be saved by adopting the connecting form of the sectional type connecting piece.

Fig. 6 shows that in the case of a super high-rise wall surface, the wallboard connecting component adopts the connection form of the integral connecting piece in the whole or large-section splicing fixing form to fix the wallboard, and the two sides of the wallboard are integrally fixed on the gluing surface of the connecting sub-piece 20 or fixed on the connecting sub-piece through the second nail groove, so that the deformation of the super high-rise wallboard in the later period can be prevented, and the safety is higher.

According to the wallboard coupling assembling that this disclosed embodiment provided, the gear draw-in groove of connecting female member and connecting son is connected based on structural interlock fixed form, need not to slot on the wallboard and can realize the installation of wallboard and wall body, and the construction is simple, and later stage wallboard damages and need maintain the replacement, can directly demolish the monolithic board and renew to do benefit to later stage maintenance and cost optimization. The connecting female member can realize local point-like mounting and leveling effects on a structural wall or a transverse keel according to construction site conditions, so that the wallboard connecting assembly is high in adaptability.

Furthermore, the wall surface with the standard floor height can be installed in a connection mode of sectional type connecting pieces, so that the cost is saved; super high-rise wall can connect the installation with whole section connecting piece or based on transportation convenience with big section concatenation form connecting piece, with wallboard integral connection at the face of gluing of connecting the son or through the nail fixed connection that passes the second nail groove at connecting the son, prevent the deformation that the super high-rise wallboard in later stage produced, the security is high.

Figure 7 is a flow chart schematic diagram of a method of installing a wallboard connection assembly provided by embodiments of the present disclosure.

As shown in fig. 7, the installation method of the wall panel connection assembly in the embodiment of the present disclosure is used for installing the wall panel connection assembly in the above technical solution on a wall body of a wall panel to be installed, and the installation method of the wall panel connection assembly includes:

and S701, fixedly connecting the connecting female member to a wall body of the wall board to be installed.

Step S702, the second gear clamping groove wall of the first connecting sub-piece and the second gear clamping groove wall of the second connecting sub-piece are respectively engaged with the two first gear clamping groove walls of the first gear clamping groove, and the first connecting sub-piece and the second connecting sub-piece are installed on the connecting mother piece.

In an embodiment of the present disclosure, a first nail groove is disposed on a first side of the female member body where the first gear groove wall is located, and in step S701, a nail passing through the first nail groove may fixedly connect the connection parent body with the wall body of the wallboard to be installed.

In another embodiment of the present disclosure, a second side of the female member body other than the first side is a planar structure, and in step S701, the connection parent body may be fixedly connected to a wall of the wall panel to be installed by using an adhesive.

Before step S702, the wall board may be preassembled on the connector sub-member, specifically, a second nail groove is provided on the first side of the sub-member body where the second gear clamping groove wall is located, and the connector sub-body may be fixedly connected with the wall board by a nail passing through the second nail groove.

In one embodiment of the disclosure, a filler layer is arranged between the female connecting piece and the male connecting piece and outside the first gear clamping groove. Before step S702, a filler layer may be disposed between the connection parent component and the connection child component.

Different fillers can be filled in the filler layer according to different purposes. Rock wool and the like can be filled in the filler layer in order to realize the sound insulation and noise reduction effects; in order to achieve the effect of structural reinforcement, gypsum boards, structural boards, or the like may be filled in the filler layer; in order to be suitable for the background wall product, a weight such as a rock plate can be installed, but the application is not limited thereto.

In another embodiment of the present disclosure, a third nail groove is formed on a second side of the sub body except the first side, the second side of the sub body except the first side is a planar structure, before the wallboard is preassembled on the connecting sub, the filler layer and the connecting sub can be fixedly connected through a nail penetrating through the third nail groove, and then the connecting sub is fixedly connected with the wallboard through an adhesive.

The first gear slot wall is provided with sawteeth facing the inside of the first gear slot, and the second gear slot wall is provided with sawteeth facing the outside of the second gear slot.

Wallboard coupling assembling is connected through the fixed form of gear draw-in groove interlock for connecting female member and connecting the son, wherein connect female member and connect on the structure wall, connect the son and connect on the wallboard, in step S702, the workman beats the pressure form through draw-in groove alignment back gravity, can extrude the interlock with the sawtooth of the inside of setting on first gear draw-in groove wall and the first gear draw-in groove wall towards first gear draw-in groove and the sawtooth of setting on second gear draw-in groove wall and the second gear draw-in groove wall towards the outside of second gear draw-in groove and be connected, thereby realize the fixed connection of connecting female member and connecting the son. The gear clamping groove structure of the wallboard connecting assembly enables the installation to be simple and rapid, the operation is easy, and time and labor are saved.

At least two saw teeth are arranged on the wall of the first gear clamping groove, and at least two saw teeth are arranged on the wall of the second gear clamping groove.

When installing second gear draw-in groove in first gear draw-in groove, connect female member and can realize local punctiform leveling effect on structure wall, horizontal fossil fragments, simultaneously, connect the notch ladder that secondary leveling effect can be realized through adjusting the engaged state that contains the sawtooth on the draw-in groove wall of two sawtooth promptly to the secondary of connecting the son.

According to the wallboard connecting assembly mounting method provided by the embodiment of the disclosure, the gear clamping groove for connecting the female part and the connecting sub-part is connected based on a structural occlusion fixing form, the wallboard and the wall body can be mounted without grooving on the wallboard, the construction is simple, the wallboard needs to be maintained and replaced in the later period, a single board can be directly detached for replacement, and therefore later-period maintenance and cost optimization are facilitated. The connecting female member can realize local point-like mounting and leveling effects on a structural wall or a transverse keel according to construction site conditions, so that the wallboard connecting assembly is high in adaptability.

Furthermore, the wall surface with the standard floor height can be installed in a connection mode of sectional type connecting pieces, so that the cost is saved; super high-rise wall can connect the installation with whole section connecting piece or based on transportation convenience with big section concatenation form connecting piece, with wallboard integral connection at the face of gluing of connecting the son or through the nail fixed connection that passes the second nail groove at connecting the son, prevent the deformation that the super high-rise wallboard in later stage produced, the security is high.

The above description is only exemplary of the present disclosure and should not be taken as limiting the disclosure, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present disclosure should be included in the scope of the present disclosure.

Claims (10)

1. A wall panel connection assembly, comprising:

the connecting female piece can be connected with a wall body of a wallboard to be installed, the connecting female piece comprises a female piece body and at least two first gear clamping groove walls extending from the female piece body, and a first gear clamping groove is formed by the two first gear clamping groove walls and the female piece body between the two first gear clamping groove walls; and

the connecting sub-piece comprises a sub-piece body and a second gear clamping groove wall extending from the sub-piece body, the connecting sub-piece comprises a first connecting sub-piece and a second connecting sub-piece, the first connecting sub-piece and the second connecting sub-piece can be connected with a wall plate installed adjacently respectively, the second gear clamping groove wall of the first connecting sub-piece and the second gear clamping groove wall of the second connecting sub-piece and the second gear clamping groove wall of the first connecting sub-piece and the second connecting sub-piece are arranged between the second gear clamping groove walls, and the sub-piece body can be clamped with the second gear clamping groove of the first gear clamping groove.

2. The wallboard connecting assembly of claim 1, wherein a first nail groove is formed on a first side of the female member body where the first gear slot wall is located, and the connecting female member can be fixedly connected with the wall body of the wallboard to be installed through a nail penetrating through the first nail groove.

3. The wall panel connection assembly of claim 2, wherein a second side of the female member body, other than the first side, is a planar structure, and the female member can be fixedly connected to the wall of the wall panel to be installed by an adhesive.

4. The wall panel connection assembly of claim 1, wherein a second nail slot is provided on the first side of the sub body where the second gear groove wall is located, the connector sub being capable of being fixedly connected to the wall panel by a nail passing through the second nail slot.

5. The wall panel connection assembly of claim 4, wherein a portion between the female connection member and the male connection member outside the first gear slot is provided with a filler layer.

6. The wallboard connection assembly of claim 5, wherein a third nail slot is provided on a second side of the sub body, other than the first side, and the filler layer is fixedly connectable with the connector sub by a nail passing through the third nail slot.

7. The wall panel connection assembly of claim 4, wherein a second side of the sub body other than the first side is a planar structure, the connection sub being capable of being fixedly attached to the wall panel by an adhesive.

8. The wall plate connection assembly of claim 1, wherein the first gear slot wall is provided with serrations facing an interior of the first gear slot and the second gear slot wall is provided with serrations facing an exterior of the second gear slot.

9. The wall plate connection assembly of claim 8, wherein the first gear groove wall has at least two of said serrations disposed thereon, and the second gear groove wall has at least two of said serrations disposed thereon.

10. A method of installing a wall panel connection assembly as claimed in any one of claims 1 to 9, the method comprising:

fixedly connecting the connecting female member to the wall body of the wallboard to be installed;

and correspondingly occluding the second gear clamping groove wall of the first connecting sub-piece and the second gear clamping groove wall of the second connecting sub-piece with two first gear clamping groove walls of the first gear clamping grooves respectively, and installing the first connecting sub-piece and the second connecting sub-piece on the connecting female piece.

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