CN219690969U - Wallboard staggered floor connecting assembly - Google Patents

Abstract

The utility model discloses a wallboard staggered layer connecting assembly, and relates to the technical field of building decoration. The wall staggered connection assembly comprises a bracket main body, a first fixing piece and a second fixing piece; the first fixing piece is arranged on the bracket main body and is matched with the bracket main body to form a first mounting groove; the second fixing piece is arranged on the bracket main body and is matched with the bracket main body to form a second mounting groove, and the notch of the second mounting groove is opposite to the notch of the first mounting groove; the second fixing piece comprises a connecting piece and a supporting piece which are arranged on one side of the bracket main body, which is opposite to the first fixing piece, and a limiting piece which is arranged on one end of the connecting piece, which is far away from the bracket main body, wherein the bracket main body, the connecting piece and the limiting piece form a second mounting groove; the first mounting groove and the second mounting groove are respectively used for mounting two staggered floor wallboards, and the supporting piece is used for positioning and supporting wallboards positioned in the second mounting groove. The technical scheme of the utility model can solve the problem of complex and complicated working procedures when the staggered layer change decoration construction is carried out on the wall surface.

Description

Wallboard staggered floor connecting assembly

Technical Field

The utility model relates to the technical field of building decoration, in particular to a wallboard staggered layer connecting assembly.

Background

Along with the development progress of society, people are getting higher and higher to self living environment, have new requirements to indoor wall decoration effect, except using the coating of different veneer colours to change the space change, also can make structural change on the wall molding, say background decoration, the wall makes the staggered floor change decoration space. The traditional wallboard staggered layer process is to manufacture a wood substrate or a steel structure frame on the plane of a field wall body, horizontally stagger the wall surface, lay a wall surface decoration facing layer on the substrate, bend the modeling or modeling accessory group through stainless steel, then beat structural adhesive for closing up, and achieve the wall surface staggered layer effect. The construction has a plurality of working procedures, is complex to install and pollutes the environment. In view of this, it is necessary to provide a new panel stagger process connection assembly to change this state.

Disclosure of Invention

The utility model mainly aims to provide a wallboard staggered connection assembly, which aims to solve the problem of complex and complicated working procedures when staggered change decoration construction is performed on a wall surface.

In order to achieve the above object, the wallboard split-level connecting assembly provided by the present utility model comprises:

a holder main body;

the first fixing piece is arranged on the bracket main body and is matched with the bracket main body to form a first mounting groove;

the second fixing piece is arranged on the bracket main body and is matched with the bracket main body to form a second mounting groove, and the notch of the second mounting groove is opposite to the notch of the first mounting groove; and

the second fixing piece comprises a connecting piece and a supporting piece which are arranged on one side of the bracket main body, which is opposite to the first fixing piece, and a limiting piece which is arranged on one end of the connecting piece, which is far away from the bracket main body, wherein the bracket main body, the connecting piece and the limiting piece form a second mounting groove; the first mounting groove and the second mounting groove are respectively used for mounting two staggered floor wallboards, and the supporting piece is used for positioning and supporting wallboards positioned in the second mounting groove.

In an embodiment, the support body includes a first connecting plate and a second connecting plate disposed on the first connecting plate, the first fixing member is disposed on the first connecting plate and is disposed opposite to the second connecting plate, the connecting member is disposed at one end of the second connecting plate away from the first connecting plate, and the supporting member is disposed at one end of the second connecting plate close to the first connecting plate.

In an embodiment, a third mounting groove is formed between the first connecting plate and the second connecting plate, the third mounting groove is located between the first mounting groove and the second mounting groove and faces the same with the notch of the first mounting groove, and the third mounting groove can be used for mounting the lamp.

In an embodiment, the first connecting plate includes a second connecting section disposed between the second connecting plate and the first fixing member, and a first connecting section and a third connecting section disposed on two sides of the second connecting section, respectively, where the second connecting section and the second connecting plate form the third mounting groove.

In an embodiment, the third connecting section connects the second connecting section and the second connecting plate, the second connecting section includes an extending section protruding from the first connecting section in a direction away from the third connecting section, and the extending section, the first connecting section and the first fixing member form the first mounting groove.

In an embodiment, protruding portions are disposed on two opposite sides between the extension section and the second connecting plate, and the wallboard split-level connecting assembly further comprises a lampshade for closing the notch of the third mounting groove, and the lampshade is overlapped with the protruding portions on the extension section and the second connecting plate.

In an embodiment, the wallboard split-level connecting assembly further comprises a mounting piece, the first fixing piece is provided with a connecting hole matched with the mounting piece, and the first fixing piece is connected with the building wall body through the mounting piece.

In an embodiment, the first fixing member includes a mounting section concavely arranged in a direction away from the second connecting plate, and the connecting hole is formed in the mounting section.

In an embodiment, the first connecting section includes a supporting section protruding from the first fixing member in a direction away from the second connecting section; the support section is kept away from the one end of second linkage segment, with the installation section dorsad the one side of second connecting plate flushes the setting.

In an embodiment, the support part is provided with a support part extending in the same direction as the second connecting plate, and in the extending direction of the second connecting plate, one end of the support part away from the support part is flush with one end of the support part away from the second connecting plate.

In an embodiment, the limiting piece comprises a first limiting portion connected with the connecting piece and a second limiting portion connected with the first limiting portion, the first limiting portion and the second connecting plate are arranged in the same direction, and the second limiting portion extends towards a direction close to the second connecting plate.

In an embodiment, the wallboard staggered floor connecting assembly further comprises a leveling piece, wherein the leveling piece is used for connecting a building wall, the support main body is abutted to the outer side face of the leveling piece, and the leveling piece is used for enabling the support main body to be horizontal or vertical.

According to the technical scheme, a first mounting groove and a second mounting groove for mounting two wallboards are formed through a first fixing piece and a second fixing piece which are arranged on the bracket main body; the second fixing piece is arranged to comprise a connecting piece and a supporting piece which are arranged on one side of the bracket main body, which is away from the first fixing piece, and a limiting piece which is arranged on one end of the connecting piece, which is far away from the bracket main body, wherein the bracket main body, the connecting piece and the limiting piece form a second mounting groove, namely the second mounting groove is positioned on one side of the bracket main body, which is away from the first fixing piece, and the first mounting groove and the second mounting groove are arranged at intervals; simultaneously, the notch orientation of first mounting groove and second mounting groove sets up in opposite directions for two wallboards install respectively in first mounting groove and the second mounting groove, be the staggered floor setting. The split-level installation of the two wallboards on the building wall body can be directly realized, the installation operation is simple and convenient, and the construction time for decorating the split-level wallboard in the assembled building can be saved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of an embodiment of a wallboard split-level connection assembly of the present utility model;

FIG. 2 is a schematic view of an embodiment of a wall panel split-level connection assembly of the present utility model with a wall panel and a wall;

FIG. 3 is a schematic view of an embodiment of a split-level connection assembly of the present utility model with wall panels installed in a manner;

fig. 4 is a schematic view of an embodiment of a wall panel staggered connection assembly according to the present utility model and wall panel installation in another manner.

Reference numerals illustrate:

the achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present utility model are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly.

Furthermore, the description of "first," "second," etc. in this disclosure is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

The utility model provides a wallboard staggered floor connecting assembly 10, by which staggered floor installation of two wallboards 20 on a building wall 30 can be directly realized, the installation operation is simple and convenient, the construction time for staggered floor decoration and fitment of the wallboards 20 in an assembled building can be saved, and the type of the wallboards 20 is not limited.

Referring to fig. 1 to 4, in the present embodiment, the wall split-level connection assembly includes a bracket body, a first fixing member 200 and a second fixing member; the first fixing piece 200 is arranged on the bracket main body and is matched with the bracket main body to form a first mounting groove 500; the second fixing piece is arranged on the bracket main body and is matched with the bracket main body to form a second mounting groove 600, and the second mounting groove 600 faces away from the notch of the first mounting groove 500; the second fixing member includes a connecting member 400 and a supporting member 310 disposed on a side of the bracket main body opposite to the first fixing member 200, and a limiting member 410 disposed on an end of the connecting member 400 away from the bracket main body, where the bracket main body, the connecting member 400 and the limiting member 410 form the second mounting groove 600; the first mounting groove 500 and the second mounting groove 600 are used for mounting two split-level wallboards 20, respectively, and the supporting member 310 is used for positioning and supporting the wallboards 20 positioned in the second mounting groove 600.

A first mounting groove 500 and a second mounting groove 600 for mounting the two wall plates 20 are formed by the first fixing member 200 and the second fixing member provided on the bracket body, respectively; the second fixing member is configured to include a connecting member 400 and a supporting member 310 disposed on a side of the bracket main body facing away from the first fixing member 200, and a limiting member 410 disposed on an end of the connecting member 400 away from the bracket main body, where the bracket main body, the connecting member 400, and the limiting member 410 form the second mounting groove 600, that is, the second mounting groove 600 is located on a side of the bracket main body facing away from the first fixing member 200, and the first mounting groove 500 and the second mounting groove 600 are disposed at intervals; meanwhile, the notches of the first mounting groove 500 and the second mounting groove 600 are disposed opposite to each other, so that the two wallboards 20 are disposed in staggered layers when being respectively mounted in the first mounting groove 500 and the second mounting groove 600. The supporting member 310 is disposed on a side of the bracket main body opposite to the first fixing member 200, and is used for positioning and supporting the wall board 20 located in the second mounting groove 600, and the spacing between the wall board 20 and the bracket main body is positioned by the supporting member 310, when the wall boards 20 with different thicknesses are mounted in the second mounting groove 600, the wall board 20 can be supported by the limiting member 410 and the supporting member 310, and meanwhile, the wall board 20 is limited.

When the wallboard split-level connecting assembly 10 is installed close to the building wall 30 or is directly and fixedly installed on the building wall 30, the wallboards 20 respectively installed in the first installation groove 500 and the second installation groove 600 realize the split-level installation on one side of the building wall 30, and the wallboard split-level connecting assembly 10 can realize the limit installation of the two split-level wallboards 20. The direction of the first installation groove 500 and the second installation groove 600 determines the extending direction of the wall boards 20 after the wall board split-level connection assembly 10 is installed, and when the notches of the first installation groove 500 and the second installation groove 600 are oppositely arranged in the transverse direction, the two wall boards 20 are arranged along the transverse direction; when the notches of the first and second mounting grooves 500 and 600 are disposed opposite to each other in the vertical direction, the two wall plates 20 are disposed to extend in the vertical direction.

Specifically, in an embodiment, the bracket body includes a first connecting plate 100 and a second connecting plate 300 disposed on the first connecting plate 100, the first fixing member 200 is disposed on the first connecting plate 100 and opposite to the second connecting plate 300, the connecting member 400 is disposed at an end of the second connecting plate 300 away from the first connecting plate 100, and the supporting member 310 is disposed at an end of the second connecting plate 300 close to the first connecting plate 100.

The bracket body comprises a first connecting plate 100 and a second connecting plate 300 arranged on the first connecting plate 100, the first fixing piece 200 is arranged on the first connecting plate 100 and is opposite to the second connecting plate 300, the connecting piece 400 is arranged at one end of the second connecting plate 300 away from the first connecting plate 100 and is positioned at one side of the second connecting plate 300 opposite to the first fixing piece 200, the limiting piece 410 is arranged at one end of the connecting piece 400 away from the bracket body, obviously, the second connecting plate 300, the connecting piece 400 and the limiting piece 410 form the second mounting groove 600, and the integral structure formed by the first fixing piece 200, the first connecting plate 100, the second connecting plate 300, the connecting piece 400 and the limiting piece 410 is approximately S-shaped. The setting direction of the limiting member 410 is the same as the setting direction of the second connecting plate 300, when the wall board 20 is mounted in the second mounting groove 600, the connecting member 400 and the limiting member 410 respectively abut against two adjacent end surfaces of the wall board 20, and the supporting member 310 is disposed on the second connecting plate 300, i.e. the supporting member 310 and the limiting member 410 respectively abut against two opposite end surfaces of the wall board 20. The connecting piece 400 is disposed at an end of the second connecting plate 300 away from the first connecting plate 100, and the limiting piece 410 is disposed on the connecting piece 400, if the supporting piece 310 is also disposed at an end of the second connecting plate 300 away from the first connecting plate 100, the contact between the supporting piece 310 and the limiting piece 410 and the wallboard 20 is concentrated at an end of the wallboard 20, which is not beneficial to the overall stability of the wallboard 20 in the second mounting groove 600. Therefore, by disposing the supporting member 310 at the end of the second connecting plate 300 near the first connecting plate 100, a certain distance is maintained between the portion where the wall plate 20 abuts against the supporting member 310 and the portion where the wall plate 20 abuts against the limiting member 410.

Referring to fig. 1, in an embodiment, a third mounting groove 700 is formed between the first connecting plate 100 and the second connecting plate 300, the third mounting groove 700 is located between the first mounting groove 500 and the second mounting groove 600, and is oriented the same as the notch of the first mounting groove 500, and the third mounting groove 700 can be used for mounting the lamp 40.

When two wall boards 20 are arranged in a staggered manner on the building wall 30, the decoration effect of the two staggered wall boards 20 is generally increased, the lamp 40 is installed between the two staggered wall boards 20, and meanwhile, the wall boards 20 arranged in a staggered manner can also have a hiding effect on the lamp 40. By forming the third mounting groove 700 between the first and second connection plates 100 and 300, the lamp 40 can be mounted in the third mounting groove 700; the third mounting groove 700 is located between the first mounting groove 500 and the second mounting groove 600, and the notch orientations of the third mounting groove 700 and the first mounting groove 500 are the same, so that when the lamp 40 is mounted in the third mounting groove 700, the light of the lamp 40 can be emitted from between the two baffles, and the intensity of the light of the lamp 40 is not affected. The lamp 40 may be a plurality of bulbs, and the bulbs are spaced apart along the length direction of the third mounting groove 700; the lamp 40 may be a lamp strip, and the lamp strip may be disposed to extend along the length direction of the third mounting groove 700.

In an embodiment, the first connection plate 100 may be configured to include a connection section connecting the first fixing member 200 and the second connection plate 300, and a stop section provided on the connection section, the stop section being oppositely provided between the first fixing member 200 and the second connection plate 300; the first fixing member 200, the connection section, and the stopper section form the first mounting groove 500, and the stopper section, the connection section, and the second connection plate 300 form the third mounting groove 700. The first and third mounting grooves 500 and 700 are formed separately between the first and second fixing members 200 and 300 by the stopper section, which serves as bottom walls of the first and third mounting grooves 500 and 700.

Referring to fig. 1 and 3, in another embodiment, the first connecting plate 100 includes a second connecting section 120 disposed between the second connecting plate 300 and the first fixing member 200, and a first connecting section 110 and a third connecting section 130 disposed on two sides of the second connecting section 120, respectively, wherein the second connecting section 120 and the second connecting plate 300 form the third mounting groove 700.

Further, the third connecting section 130 connects the second connecting section 120 and the second connecting plate 300, the second connecting section 120 includes an extension section 121 protruding from the first connecting section 110 in a direction away from the third connecting section 130, and the extension section 121, the first connecting section 110 and the first fixing member 200 form the first mounting groove 500. The first connection section 110, the second connection section 120 and the third connection section 130 are arranged in a stepped manner, the first connection section 110 is used as the bottom wall of the first installation groove 500, and the third connection section 130 is used as the bottom wall of the third installation groove 700.

Considering that when the lamp 40 is installed in the third installation groove 700, the interval between the wall board 20 and the second connection board 300 is set to be convenient for the light to radiate, and meanwhile, external dust can enter the third installation groove 700, and the dust is accumulated in the third installation groove 700 and is difficult to clean, and the illumination intensity of the lamp 40 can be affected.

In view of this, on the basis of the above embodiment, the protrusions 320 are provided on opposite sides between the extension 121 and the second connection plate 300, and the wallboard split-level connection assembly 10 further includes a lamp housing 800 for closing the notch of the third installation groove 700, and the lamp housing 800 is overlapped with the protrusions 320 on the extension 121 and the second connection plate 300. When the first mounting groove 500 is formed between the first connecting section 110 and the first fixing plate, the extending section 121 and the second connecting plate 300 form a notch of the third mounting groove 700, and the protruding portions 320 are disposed on two opposite sides between the extending section 121 and the second connecting plate 300, so that the lampshade 800 can be lapped on the protruding portions 320 in a supporting manner, the notch of the third mounting groove 700 is closed, and external dust is prevented from entering the third mounting groove 700. It will be appreciated that the lamp housing 800 is made of a transparent material to avoid affecting the light illumination of the lamp 40 positioned in the third mounting groove 700.

As can be seen from the above description, the two split-level wallboards 20 are usually installed close to the building wall 30 or directly and fixedly installed on the building wall 30, i.e. the wallboard split-level connecting assembly 10 and the building wall 30 need to be connected and fixed to maintain the position of the two split-level wallboards 20 relative to the building wall 30. Therefore, the wallboard split-level connecting assembly 10 further includes a mounting member 900, the first fixing member 200 is provided with a connecting hole 220 adapted to the mounting member 900, and the first fixing member 200 is connected to the building wall 30 through the mounting member 900.

Further, considering that the first fixing member 200 is used for being fixedly connected to the building wall 30 and also serves as a side wall of the first installation groove 500, when the wall board 20 is installed in the first installation groove 500, the wall board 20 abuts against the first fixing member 200, and if the installation member 900 is fixedly connected to the building wall 30 and the first fixing plate, the remaining portion is left between the first fixing member 200 and the wall board 20, and therefore, the fitting installation between the wall board 20 and the first fixing member 200 cannot be maintained, that is, the wall board 20 is inclined with respect to the first fixing member 200. Thus, in an embodiment, the first fixing member 200 includes a mounting section 210 recessed away from the second connecting plate 300, and the connecting hole 220 is formed in the mounting section 210.

The mounting section 210 is concavely arranged in a direction away from the second connecting plate 300, and a side surface of the first fixing member 200 facing the second connecting plate 300 is used as an inner side surface, so that a height difference exists between the inner side surface of the mounting section 210 and the inner side surface of other parts of the first fixing member 200 except the mounting section 210. Because the connecting hole 220 is formed in the mounting section 210, after the mounting member 900 is connected to the first fixing member 200 and the building wall 30 through the connecting hole 220, the portion remaining in the first mounting groove 500 only needs to ensure that the portion does not protrude from the inner side surface of the other portion of the first fixing member 200 except the mounting section 210, so that the influence of the mounting member 900 on the mounting of the wallboard 20 in the first mounting groove 500 can be avoided, and the wallboard 20 can still be mounted in a fitting manner with the inner side surface of the other portion of the first fixing member 200 except the mounting section 210. Specifically, the mounting member 900 may be an expansion screw, where after the expansion screw passes through the connection hole 220, the screw head is disposed in a recess formed in the mounting section 210, and the top surface of the screw head does not protrude from the inner side surface of the other portion of the first fixing member 200 except the mounting section 210.

It will be appreciated that in order to ensure the connection strength between the first fixing member 200 and the building wall 30, it is necessary to ensure the thickness of the mounting section 210 so as to avoid breakage or the like of the mounting section 210 during the connection process. Therefore, without reducing the thickness of the mounting section 210, after the mounting section 210 is recessed in a direction away from the second connection plate 300, a side surface of the mounting section 210 facing away from the second connection plate 300 is taken as an outer side surface, and a height difference exists between the outer side surface of the mounting section 210 and the outer side surface of the other portion of the first fixing member 200 except for the mounting section 210, so that after the outer side surface of the mounting section 210 is in contact with the building wall 30, the outer side surface of the portion of the first fixing member 200 adjacent to the mounting section 210 cannot be in contact with the building wall 30, that is, after the first fixing member 200 is connected with the building wall 30, the outer side surface is inclined with respect to the building wall 30. It will be apparent that this results in the wall panel 20 being mounted in the first mounting channel 500 also being disposed at an incline, and even in the wall panel split joint assembly 10 being disposed at an incline relative to the building wall 30 as a whole.

To solve the above problem, in one embodiment, the first connecting section 110 includes a supporting section 111 protruding from the first fixing member 200 in a direction away from the second connecting section 120; the end of the support section 111 away from the second connecting section 120 is flush with the side of the mounting section 210 facing away from the second connecting plate 300.

By arranging the supporting section 111 to compensate for the height difference between the outer side surface of the mounting section 210 and the outer side surface of the other parts of the first fixing member 200 except the mounting section 210, when the mounting section 210 and the supporting section 111 are simultaneously abutted to the building wall 30, the whole first fixing member 200 is vertically arranged relative to the building wall 30, that is, the whole wallboard split-level connecting assembly 10 and the two split-level wallboards 20 are vertically arranged relative to the building wall 30. The mounting section 210 and the supporting section 111 are simultaneously abutted against the building wall 30, and a cavity gap exists between the building wall 30 and other parts of the first fixing member 200 except the mounting section 210, so that in order to further strengthen the connection strength between the first fixing member 200 and the building wall 30, an adhesive can be filled in the cavity gap, and after the filling of the cavity gap is completed, the strength of the first fixing member 200 can be improved.

Correspondingly, after the first fixing member 200 is connected with the building wall 30, since the connecting member 400 is disposed on the side of the bracket main body opposite to the first fixing member 200, the limiting member 410 is disposed on the end of the connecting member 400 away from the bracket main body, that is, the end of the limiting member 410 away from the connecting member 400 is exposed on the outermost side of the wallboard staggered layer connecting assembly 10, which indicates that the limiting member 410 in the wallboard staggered layer connecting assembly 10 is farthest from the building wall 30. In order to ensure the self strength of the wallboard staggered connection assembly 10, the selected manufacturing material needs to have a certain hardness, and in order to ensure that the wallboard staggered connection assembly 10 is manufactured into a required shape, the material needs to have a certain ductility, and preferably, the wallboard staggered connection assembly 10 is made of an aluminum alloy material. When the wallboard 20 is installed, if a human body collides with one end of the limiting member 410 away from the connecting member 400, the human body is easily damaged. Therefore, in an embodiment, the limiting member 410 includes a first limiting portion connected to the connecting member 400 and a second limiting portion connected to the first limiting portion, where the first limiting portion is disposed in the same direction as the second connecting plate 300, and the second limiting portion extends toward a direction approaching the second connecting plate 300. That is, the limiting member 410 is in an L-shaped configuration, when the wall board 20 is installed in the second installation groove 600, one end of the second limiting portion, which is far away from the first limiting portion, abuts against the wall board 20, and one end of the second limiting portion, which is far away from the first limiting portion, is located between the first limiting portion and the second connecting plate 300, so that collision with a human body is not easy to occur, and safety of the wall board staggered layer connecting assembly 10 during installation is improved.

Referring to fig. 1 and 2, in particular, in an embodiment, the support member 310 is provided with a support portion 311 extending in the same direction as the second connecting plate 300, and in the extending direction of the second connecting plate 300, an end of the support portion 311 away from the support member 310 is flush with an end of the support member 310 away from the second connecting plate 300.

The support portion 311 is away from the end of the support 310 and the end of the support 310 away from the second connecting plate 300 are flush with each other in the extending direction of the second connecting plate 300, that is, when the wallboard 20 is installed in the second installation groove 600, the end of the support portion 311 away from the second connecting plate 300 and the end of the support portion 311 away from the support portion 310 are abutted against the wallboard 20 together, so as to promote the stability of the wallboard 20 installed in the second installation groove 600. The supporting portion 311 may be directly disposed at an end of the supporting member 310 away from the second connecting plate 300, where the supporting portion 311 may extend toward or away from the connecting member 400, and preferably, the supporting portion 311 extends toward a direction away from the connecting member 400 to abut against a portion of the wallboard 20 relatively away from the connecting member 400. The supporting member 310 may also be disposed between two ends of the extending direction of the supporting member 310, where an end of the supporting portion 311 away from the supporting member 310 needs to be disposed along a direction inclined relative to the second connecting plate 300, so that an end of the supporting portion 311 away from the supporting member 310 and an end of the supporting member 310 away from the second connecting plate 300 are disposed flush in the extending direction of the second connecting plate 300.

Referring to fig. 1 and 4, in an embodiment, to facilitate positioning and installation of the wallboard split-level connection assembly 10, the wallboard split-level connection assembly 10 further includes a leveling member 11, the leveling member 11 is used for connecting the building wall 30, the bracket body abuts against an outer side surface of the leveling member 11, and the leveling member 11 is used for keeping the bracket body horizontal or vertical. Taking the vertical staggered installation of two wallboards 20 as an example, when the wallboard staggered connection assembly 10 is installed, the leveling piece 11 and the building wall 30 can be fixedly connected through the installation piece 900, then the bracket body is placed at the top of the leveling piece 11, so that the bracket body keeps horizontal, at the moment, the notch of the first installation groove 500 faces upwards, the notch of the second installation groove 600 faces downwards, and then the first fixing piece 200 is fixedly connected to the building wall 30; when the wall board 20 is placed in the second installation groove 600, the leveling member 11 is located between the building wall 30 and the wall board 20, and the leveling member 11 can also support and position the wall board 20. Similarly, the two wallboards 20 may be installed in a staggered manner in the transverse direction, when the wallboard staggered connection assembly 10 is installed, the leveling member 11 may be fixedly connected with the building wall 30 through the installation member 900, and then the bracket body is abutted against the left side surface or the right side surface of the leveling member 11, so that the bracket body is kept vertical, at this time, the notch of the first installation groove 500 faces left or right, and then the first fixing member 200 is fixedly connected with the building wall 30.

The foregoing description is only of the preferred embodiments of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structural changes made by the description of the present utility model and the accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the utility model.

Claims (12)

1. A wallboard split-level connection assembly, comprising:

a holder main body;

the first fixing piece is arranged on the bracket main body and is matched with the bracket main body to form a first mounting groove;

the second fixing piece is arranged on the bracket main body and is matched with the bracket main body to form a second mounting groove, and the notch of the second mounting groove is opposite to the notch of the first mounting groove; and

the second fixing piece comprises a connecting piece and a supporting piece which are arranged on one side of the bracket main body, which is opposite to the first fixing piece, and a limiting piece which is arranged on one end of the connecting piece, which is far away from the bracket main body, wherein the bracket main body, the connecting piece and the limiting piece form a second mounting groove; the first mounting groove and the second mounting groove are respectively used for mounting two staggered floor wallboards, and the supporting piece is used for positioning and supporting wallboards positioned in the second mounting groove.

2. The wallboard staggered floor connection assembly of claim 1, wherein the bracket body comprises a first connection plate and a second connection plate arranged on the first connection plate, the first fixing piece is arranged on the first connection plate and opposite to the second connection plate, the connection piece is arranged at one end of the second connection plate far away from the first connection plate, and the support piece is arranged at one end of the second connection plate close to the first connection plate.

3. The wall panel split-level connection assembly of claim 2, wherein a third mounting groove is formed between the first and second connection plates, the third mounting groove being located between the first and second mounting grooves and facing the same notch as the first mounting groove, the third mounting groove being usable for mounting a light fixture.

4. The wallboard staggered floor connector assembly of claim 3, wherein the first connector plate includes a second connector section disposed opposite the second connector plate and the first fastener, and a first connector section and a third connector section disposed on opposite sides of the second connector section, respectively, the second connector section and the second connector plate forming the third mounting slot.

5. The wallboard split-level connection assembly of claim 4, wherein the third connection section connects the second connection section and the second connection plate, the second connection section includes an extension section protruding from the first connection section in a direction away from the third connection section, and the extension section, the first connection section, and the first fastener form the first mounting slot.

6. The wall panel split joint assembly of claim 5, wherein the extension and the second web are provided with bosses on opposite sides thereof, the wall panel split joint assembly further comprising a lamp housing for closing the third mounting slot opening, the lamp housing overlapping the bosses on the extension and second web.

7. The wallboard split-level connecting assembly of any one of claims 4 to 6, further comprising a mounting member, wherein the first fixing member is provided with a connecting hole adapted to the mounting member, and wherein the first fixing member is connected to the building wall through the mounting member.

8. The wallboard split joint assembly of claim 7, wherein the first fastener includes a mounting section recessed in a direction away from the second connector plate, the connector hole being provided in the mounting section.

9. The wallboard split-level connection assembly of claim 8, wherein the first connection section includes a support section protruding from the first fastener in a direction away from the second connection section; the support section is kept away from the one end of second linkage segment, with the installation section dorsad the one side of second connecting plate flushes the setting.

10. The wallboard staggered floor connecting assembly according to claim 2, wherein the supporting piece is provided with a supporting part which is arranged in a same direction as the second connecting plate in a extending direction, and one end of the supporting part away from the supporting piece is flush with one end of the supporting piece away from the second connecting plate.

11. The wallboard staggered floor connecting assembly according to claim 2, wherein the limiting piece comprises a first limiting portion connected with the connecting piece and a second limiting portion connected with the first limiting portion, the first limiting portion and the second connecting plate are arranged in the same direction, and the second limiting portion extends towards a direction close to the second connecting plate.

12. The wallboard split joint assembly of claim 1, further comprising a leveling member for connecting to a building wall, the bracket body abutting an outer side of the leveling member, the leveling member for maintaining the bracket body horizontal or vertical.