阅读说明：本技术 一种插装组件、装饰板组件及其安装方法 (Plug-in component, decorative plate component and mounting method thereof ) 是由 赵永生 于 2021-06-21 设计创作，主要内容包括：本申请公开了一种插装组件、装饰板组件及其安装方法,涉及装修工程技术领域,用于解决现有技术中需要在装饰板上开设凹槽而导致对装饰板的材质要求较高和加工难度较高的问题。该插装组件包括安装龙骨和插入件。安装龙骨包括第一连接板和安装板。第一连接板用于与墙面固定连接。安装板与第一连接板垂直,且与第一连接板相连接为一体结构。安装板上设有卡接结构。插入件的一部分插装固定于卡接结构内,另一部分用于与装饰板固定连接。该插装组件用于安装装饰板。(The application discloses plug-in mounting assembly, decorative plate assembly and installation method thereof, relates to the technical field of decoration engineering, and is used for solving the problems that in the prior art, the decorative plate needs to be provided with a groove, so that the requirement on the material of the decorative plate is high and the processing difficulty is high. The insertion assembly includes a mounting keel and an insert. The installation fossil fragments include first connecting plate and mounting panel. The first connecting plate is used for being fixedly connected with a wall surface. The mounting plate is perpendicular to the first connecting plate and is connected with the first connecting plate into an integral structure. The mounting plate is provided with a clamping structure. One part of the insert is inserted and fixed in the clamping structure, and the other part of the insert is used for being fixedly connected with the decorative plate. The plug-in mounting component is used for mounting a decorative plate.)

1. A cartridge assembly, comprising:

the mounting keel comprises a first connecting plate and a mounting plate; the first connecting plate is used for being fixedly connected with a wall surface; the mounting plate is perpendicular to the first connecting plate and is connected with the first connecting plate into an integral structure; the mounting plate is provided with a clamping structure;

and one part of the insert is inserted and fixed in the clamping structure, and the other part of the insert is used for being fixedly connected with the decorative plate.

2. The cartridge assembly of claim 1, wherein the clamping structure comprises a first clamping cantilever and a second clamping cantilever, and a fixed end of the first clamping cantilever and a fixed end of the second clamping cantilever are both connected to the mounting plate;

and a part of the inserting piece is inserted and fixed between the first clamping cantilever and the second clamping cantilever.

3. The cartridge assembly of claim 2, wherein the free end of the first clamping cantilever and the free end of the second clamping cantilever are proximate to each other, and the insert is cartridge-mounted between the free end of the first clamping cantilever and the free end of the second clamping cantilever; the free end of first joint cantilever with the free end of second joint cantilever is at the perpendicular to interval in the direction of first connecting plate is H1, the stiff end of first joint cantilever with the stiff end of second joint cantilever is at the perpendicular to interval in the direction of first connecting plate is H2, and wherein, H1 < H2.

4. The cartridge assembly of claim 3, wherein the mounting plate has a first surface for being adjacent a wall surface and a second surface for being adjacent the trim panel, the snap-fit structure being provided on the first surface of the mounting plate; be equipped with the card hole on the mounting panel, first joint cantilever with the second joint cantilever connect in on the hole edge that the card hole is relative.

5. The cartridge assembly of any of claims 2-4, wherein the snap-fit structure further comprises a first snap and a second snap;

the first clamping hook is formed at the free end of the first clamping cantilever and is bent in a direction deviating from the second clamping cantilever;

the second clamping hook is formed at the free end of the second clamping cantilever and is bent away from the direction of the first clamping cantilever.

6. The cartridge assembly of claim 5, wherein the insert comprises:

the second connecting plate is fixedly connected with the decorative plate;

the inserting plate is perpendicular to the second connecting plate and connected with the second connecting plate into an integral structure; the inserting plate is used for being fixedly inserted between the first clamping cantilever and the second clamping cantilever;

the arched structure is arranged at one end of the inserting plate far away from the second connecting plate and is connected with the inserting plate into an integral structure; the arch structure is used for abutting against the first clamping hook or the second clamping hook.

7. The cartridge assembly of claim 6, wherein the second connecting plate abuts the mounting plate with the raised structure abutting the first or second catches.

8. The cartridge assembly of any of claims 2-4 wherein there are two of the first snap arms, two of the first snap arms having a space therebetween in a direction parallel to the first connector plate, the second snap arms opposing the space in a direction perpendicular to the first connector plate.

9. The cartridge assembly of claim 6, wherein the second connecting plate has a decorative plate securing hole for passing a decorative plate connecting member fixedly connected to the decorative plate and the second connecting plate.

10. The cartridge assembly of any of claims 1-4, further comprising a securing member, the securing member comprising:

the third connecting plate is used for being attached to and fixedly connected with the first connecting plate;

the fourth connecting plate, with the third connecting plate is perpendicular, and is connected structure as an organic whole, the fourth connecting plate is used for laminating and fixed connection with the wall.

11. The cartridge assembly of claim 10, wherein the first connecting plate is provided with a keel connecting hole and the third connecting plate is provided with a fixing connecting hole;

the plug-in mounting assembly further comprises a threaded connector which penetrates through the keel connecting hole and the fixing connecting hole so as to fix the mounting keel and the fixing piece;

the shape of the trompil of fossil fragments connecting hole is rectangular form, the trompil of fossil fragments connecting hole is along the perpendicular to the direction of mounting panel extends, perhaps, the shape of the trompil of fixed connection hole is rectangular form, the trompil of fixed connection hole is along the perpendicular to the direction of fourth connecting plate extends.

12. The cartridge assembly of claim 10, wherein the fourth connecting plate is provided with wall fixing holes for passing through wall connectors, and the wall connectors are fixedly connected with the fourth connecting plate and the wall.

13. A trim panel assembly comprising a trim panel and at least two cartridge assemblies according to any one of claims 1 to 12, the trim panel being fixedly connected to the insert.

14. The trim panel assembly of claim 13, wherein, where the insert includes the second connecting plate and the insert plate, the insert is L-shaped;

the insert comprises a first insert fixedly connected to one side of the decorative plate in the horizontal direction and a second insert fixedly connected to the other side of the decorative plate in the horizontal direction;

the insert plate of the first insert has a first side that is distal and perpendicular to the second connecting plate of the first insert; the insert plate of the second insert has a second side surface that is remote from and perpendicular to the second connecting plate of the second insert, the first and second side surfaces being coplanar with respective side surfaces of horizontally corresponding sides of the trim panel.

15. The trim panel assembly of claim 13 or 14, wherein the trim panel assembly comprises at least two of the trim panels, opposing sides of adjacent trim panels abutting one another.

16. A method for installing the trim panel assembly of any of claims 13-15, wherein the method comprises:

fixing the mounting keel on the wall surface;

mounting the insert to the trim panel;

and enabling the decorative plate to be close to the mounting keel, and inserting and fixing the decorative plate on the mounting keel through the inserting piece.

17. The method of claim 16, wherein said securing said mounting grid to a wall surface comprises:

adjusting the mounting plates of each mounting keel to be coplanar;

and fixing the first connecting plate of each mounting keel with the wall surface.

Technical Field

The application relates to the technical field of decoration engineering, in particular to a plug-in mounting assembly, a decoration plate assembly and an installation method of the decoration plate assembly.

Background

In the field of finishing work technology, the decorative board can be used to decorate the wall under many circumstances, the decorative board is generally installed through the I-shaped layering, and the I-shaped layering comprises a bottom plate used for being fixed with the wall, a clamping plate parallel to the bottom plate and a connecting plate for connecting the bottom plate and the clamping plate. Correspondingly, a groove needs to be formed in the middle of the side face in the thickness direction of the decorative plate, and when the decorative plate is installed, the clamping plate of the I-shaped pressing strip extends into the groove in the decorative plate so as to fix the decorative plate.

However, in the above method for installing the decorative plate, since the groove needs to be formed on the side surface of the decorative plate in the thickness direction, and the thickness of the decorative plate is generally small, the requirement for the accuracy of forming the groove on the decorative plate is high, and the processing difficulty of the decorative plate is high; in addition, in order to ensure that the groove wall of the groove on the decorative plate has enough strength, the requirement on the material of the decorative plate is higher under the condition that the groove wall of the groove is thinner.

Disclosure of Invention

An object of the application is to provide a plug-in mounting assembly, a decorative plate assembly and an installation method thereof, which are used for solving the problems that in the prior art, a groove needs to be formed in a decorative plate, so that the requirement on the material of the decorative plate is high and the processing difficulty is high.

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

in a first aspect, some embodiments of the present application provide a cartridge assembly that includes a mounting keel and an insert. The installation fossil fragments include first connecting plate and mounting panel. The first connecting plate is used for being fixedly connected with a wall surface. The mounting plate is perpendicular to the first connecting plate and is connected with the first connecting plate into an integral structure. The mounting plate is provided with a clamping structure. One part of the insert is inserted and fixed in the clamping structure, and the other part of the insert is used for being fixedly connected with the decorative plate.

When using this cartridge subassembly installation decorative board, can be fixed in the wall with the installation fossil fragments on to be fixed in the decorative board with the insert, then make the decorative board be close to the installation fossil fragments, be fixed in the joint structure of installation fossil fragments through the insert cartridge in, and realize installing the decorative board on the wall. The mode of this kind of installation decorative board can be fixed in the inserts on the decorative board is close to the back of wall, need not set up the recess on the side of decorative board perpendicular to wall, so reduced the processing degree of difficulty of decorative board. In addition, the decorative plate is made of a material with high strength so as to ensure the structural strength of the groove wall, so that the requirement of the decorative plate on the material is reduced, and the cost of the decorative plate is also reduced.

In one possible implementation manner of the first aspect, the clamping structure includes a first clamping cantilever and a second clamping cantilever. The stiff end of first joint cantilever and the stiff end of second joint cantilever all are connected with the mounting panel. And a part of the inserting piece is inserted and fixed between the first clamping cantilever and the second clamping cantilever. The clamping structure is simple and easy to realize. And, the inserts can be relatively easy to insert for the decorative board is very convenient when installing.

In a possible implementation manner of the first aspect, the free end of the first clamping cantilever and the free end of the second clamping cantilever are close to each other, and the insert is fixed between the free end of the first clamping cantilever and the free end of the second clamping cantilever in an inserted manner. The distance between the free end of the first clamping cantilever and the free end of the second clamping cantilever in the direction perpendicular to the first connecting plate is H1, the distance between the fixed end of the first clamping cantilever and the fixed end of the second clamping cantilever in the direction perpendicular to the first connecting plate is H2, and H1 is less than H2. Like this, when the insert inserts between first joint cantilever and the second joint cantilever, only the free end of first joint cantilever and the free end and the insert chucking cooperation of second joint cantilever have reduced the area of first joint cantilever and second joint cantilever and insert contact, and then have reduced the frictional force of the in-process that the insert inserted the joint structure for the installation of decorative board is comparatively convenient.

In a possible implementation manner of the first aspect, the mounting plate has a first surface used for being close to a wall surface and a second surface used for being close to the decorative plate, and the clamping structure is arranged on the first surface of the mounting plate. The mounting plate is provided with a clamping hole, and the first clamping cantilever and the second clamping cantilever are connected to the edge of the hole opposite to the clamping hole. Therefore, the clamping structure is positioned in the interval between the mounting plate and the wall surface, and the clamping structure is prevented from occupying the space of one side of the mounting plate back to the wall surface.

In a possible implementation manner of the first aspect, the clamping structure further includes a first clamping hook and a second clamping hook. The first clamping hook is formed at the free end of the first clamping cantilever, and bends away from the direction of the second clamping cantilever. The second clamping hook is formed at the free end of the second clamping cantilever and is bent in the direction deviating from the first clamping cantilever. The free end of first joint cantilever forms first trip, and the free end of second joint cantilever forms the second trip for the part that first joint cantilever and second joint cantilever are used for pressing from both sides tight insert is more smooth and easy, and then makes the process in the insert card structure more smooth and easy, convenience when having improved the decorative board installation.

In one possible implementation of the first aspect, the insert comprises a second connecting plate, an insert plate and a dome structure. The second connecting plate is used for being fixedly connected with the decorative plate. Insert the board and be perpendicular with the second connecting plate, and be connected structure as an organic whole with the second connecting plate, insert the board and be used for the cartridge to be fixed in between first joint cantilever and the second joint cantilever. The arch structure is arranged at one end of the inserting plate far away from the second connecting plate and is connected with the inserting plate into an integral structure. The arch structure is used for abutting against the first clamping hook or the second clamping hook. So set up, the plug-in components are fixed in between first joint cantilever and the second joint cantilever through inserting the board cartridge. And, insert and set up the arch structure on the board, the arch structure inserts the board and inserts back and first trip or second trip looks butt between first joint cantilever and the second joint cantilever, can block that the insert deviates from the installation fossil fragments, unless provide enough big power of installation fossil fragments dorsad to the insert, the insert can't deviate from the installation fossil fragments, and then has avoided the decorative board to drop from the installation fossil fragments.

In a possible implementation manner of the first aspect, the second connecting plate is attached to the mounting plate when the arch structure abuts against the first hook or the second hook. Therefore, after the insert is inserted in place, the insert cannot move close to the wall surface or move away from the wall surface, and the stability of the decorative plate is improved.

In a possible implementation manner of the first aspect, two first clamping cantilevers are provided, a space is provided between the two first clamping cantilevers along a direction parallel to the first connecting plate, and the second clamping cantilever is opposite to the space in a direction perpendicular to the first connecting plate. Thus, two first joint cantilevers and a second joint cantilever mutually support and press from both sides tight insert for the insert cartridge is more stable after on the installation fossil fragments, and then has improved the stability of decorative board.

In a possible implementation manner of the first aspect, the second connecting plate is provided with a decorative plate fixing hole, the decorative plate fixing hole is used for penetrating through a decorative plate connecting piece, and the decorative plate connecting piece is fixedly connected with the decorative plate and the second connecting plate. The manner of fixing the insert to the trim panel is relatively simple and easy to implement.

In one possible implementation manner of the first aspect, the insertion assembly further includes a fixing member, and the fixing member includes a third connecting plate and a fourth connecting plate. The third connecting plate is used for being attached to the first connecting plate and fixedly connected with the first connecting plate. The fourth connecting plate is perpendicular to the third connecting plate and connected into an integral structure, and the fourth connecting plate is used for being attached to and fixedly connected with the wall surface. Thus, the installation keel can be fixedly connected with the wall surface through the fixing piece, the installation keel does not need to be provided with a structure for being directly fixed with the wall surface, and the structural complexity of the installation keel is reduced. And the mounting can set up alone, compares in installation fossil fragments that the mounting size can set up less, and it is comparatively easy to process.

In a possible implementation manner of the first aspect, the first connecting plate is provided with a keel connecting hole, and the third connecting plate is provided with a fixing connecting hole. The cartridge subassembly still includes threaded connection spare, and threaded connection spare passes fossil fragments connecting hole and fixed connection hole to it is fixed with the mounting fossil fragments. The shape of the opening of the keel connecting hole is in a long strip shape, the opening of the keel connecting hole extends along the direction perpendicular to the mounting plate, or the shape of the opening of the fixing connecting hole is in a long strip shape, and the opening of the fixing connecting hole extends along the direction perpendicular to the fourth connecting plate. Thus, when the installation keel is installed, the relative position of the installation keel and the fixing part can be adjusted, and the coplanarity of the installation plates of the installation keels is further realized, so that the front coplanarity of the wall surface is far away from the decoration plates after the decoration plates are installed on the installation keel.

In a possible implementation manner of the first aspect, a wall surface fixing hole is formed in the fourth connecting plate, and the wall surface fixing hole is used for penetrating through a wall surface connecting piece which is fixedly connected with the fourth connecting plate and the wall surface. The mode of fixing the fixing piece on the wall surface is simple and easy to realize.

In a second aspect, some embodiments of the present application provide a trim panel assembly that includes a trim panel and at least two insert assemblies as described above, the trim panel being fixedly connected to an insert in the insert assemblies.

Because the decorative board assembly provided by the embodiment of the application comprises the plug-in mounting assembly in any technical scheme, the two can solve the same technical problem and achieve the same technical effect.

In one possible implementation of the second aspect, in a case where the insert includes the second connecting plate and the insert plate, the insert has an L-shape. The insert includes a first insert fixedly attached to one side of the decorative panel in a horizontal direction and a second insert fixedly attached to the other side of the decorative panel in the horizontal direction. The insert plate of the first insert has a first side surface, the first side surface being remote from and perpendicular to the second connecting plate of the first insert; the insert plate of the second insert has a second side surface that is distal and perpendicular to the second connecting plate of the second insert. The first side face and the second side face are coplanar with the side faces of the corresponding sides of the decorative plate in the horizontal direction respectively. So, the inserts that are close to each other on the adjacent decorative board can the cartridge be fixed in the joint structure of same installation fossil fragments, and when the side laminating that adjacent decorative board is relative, the board of inserting of two inserts of cartridge in same joint structure laminates each other, then the width of joint structure need not to set up too big (be promptly the interval of first joint cantilever and second joint cantilever need not set up too big), as long as guarantee two insert the board can insert, it can to correspond, the size of mounting panel on the interval direction of first joint cantilever and second joint cantilever also need not set up too big, can save the consumptive material of installation fossil fragments.

In one possible implementation of the second aspect, the decorative panel assembly includes at least two decorative panels, and opposite sides of adjacent decorative panels are attached to each other. Therefore, after the decorative plate is installed, the plug-in assembly is completely shielded by the decorative plate, and the attractiveness of the wall surface is improved.

In a third aspect, some embodiments of the present application provide a method for installing a trim panel assembly according to any of the above-described aspects. The method comprises the following steps: fixing the mounting keel on the wall surface; mounting the insert to the trim panel; the decorative plate is close to the mounting keel and is fixed on the mounting keel through the insertion of the insertion piece.

The method for installing the decorative plate can fix the insert on the back surface of the decorative plate close to the wall surface, and does not need to arrange a groove on the side surface of the decorative plate vertical to the wall surface, so that the processing difficulty of the decorative plate is reduced. In addition, the decorative plate is made of a material with high strength so as to ensure the structural strength of the groove wall, so that the requirement of the decorative plate on the material is reduced, and the cost of the decorative plate is also reduced.

In one possible implementation manner of the third aspect, the fixing the mounting keel to the wall surface includes: adjusting the coplanarity of the mounting plates of the mounting keels; and fixing the first connecting plate of each mounting keel with the wall surface. Thus, after the decorative plates are installed on the installation keels, the front coplanarity of the wall surfaces far away from the decorative plates can be guaranteed.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic view of a trim panel assembly of some embodiments provided herein mounted to a wall surface;

FIG. 2 is a schematic illustration of an arrangement of cartridge assemblies in a trim panel assembly in some embodiments provided herein;

FIG. 3 is a schematic illustration of an arrangement of cartridge assemblies in a trim panel assembly in further embodiments provided herein;

figure 4 is a perspective view of a portion of the structure of the mounting keel in some embodiments provided herein;

figure 5 is a top view of a mounting keel in some embodiments provided herein;

figure 6 is a schematic view of the mating of the insert with the mounting runner in some embodiments provided herein;

FIG. 7 is a schematic structural view of an insert in some embodiments provided herein;

figure 8 is a schematic view of the mounting grid in some embodiments provided herein secured to a wall surface by fasteners;

figure 9 is a schematic view of the mounting keel, fastener and threaded connector of some embodiments provided herein;

FIG. 10 is a schematic assembly view of a first insert, a second insert, and a trim panel in some embodiments provided herein;

FIG. 11 is a schematic view of another embodiment of a trim panel assembly provided herein mounted to a wall surface;

FIG. 12 is a flow chart of a method of installing a trim panel assembly according to some embodiments provided herein;

FIG. 13 is a flow chart of a method of installing a trim panel assembly according to further embodiments provided herein;

FIG. 14 is a flow chart of a method of installing a trim panel assembly according to still further embodiments provided herein.

Reference numerals:

1-a decorative panel assembly; 11-a decorative plate; 12-a cartridge assembly; 121-installing keels; 1211 — a first connecting plate; 12111-keel connection holes; 1212-a mounting plate; 12121-snap fit construction; 121211-first clamping cantilever; 121212-second clamping cantilever; 121213-first hook; 121214-a second hook; 121215-space; 12122-first surface; 12123-a second surface; 12124-card hole; 122 — an insert; 1221-a second connecting plate; 12211-decorative panel fixing holes; 1222-an insert plate; 12221-stop face; 1223-arching structure; 1224 — a first insert; 12241-first side; 1225-a second insert; 12251-second side; 123-a fixing piece; 1231-a third web; 12311-fixed attachment holes; 1232-a fourth web; 12321-wall fixation holes; 124-threaded connection; 2, a wall surface; 3-wall surface connecting piece.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

In the description of the present application, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the referred device or element must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present application.

The terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless otherwise specified.

It should be noted that in practical applications, due to the limitation of the precision of the device or the installation error, the absolute parallel or perpendicular effect is difficult to achieve. In the present application, the vertical, parallel or equidirectional description is not an absolute limitation condition, but means that the vertical or parallel structural arrangement can be realized within a preset error range, and a corresponding preset effect is achieved, so that the technical effect of limiting the features can be realized to the maximum extent, and the corresponding technical scheme is convenient to implement and has high feasibility.

In the description of the present application, it is to be noted that the terms "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected unless otherwise explicitly stated or limited. They may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

As shown in fig. 1, the present application provides a trim panel assembly 1, the trim panel assembly 1 including a trim panel 11 and two insert assemblies 12. The cartridge assembly 12 includes a mounting keel 121 and an insert 122. As shown in fig. 2, the mounting keel 121 includes a first connector plate 1211 and a mounting plate 1212. The first connecting plate 1211 is used for fixedly connecting to the wall surface 2. The mounting plate 1212 is perpendicular to the first connection plate 1211, and the mounting plate 1212 is connected to the first connection plate 1211 as an integral structure. The mounting plate 1212 is provided with a snap-fit structure 12121. The mounting keel 121 is elongated as a whole, and the mounting keel 121 has an L-shaped cross section taken along a plane perpendicular to the longitudinal direction thereof. A portion of the insert 122 is inserted into the snap structure 12121 and another portion is used to fixedly connect with the trim panel 11.

The above description is given by way of example in which the trim panel assembly 1 includes two insert assemblies 12. The number of insert assemblies 12 in the trim panel assembly 1 is not limited in this application. In other embodiments, three, four or more corresponding insert assemblies 12 in the trim panel assembly 1 may be used.

It should also be noted that each of the insert members 12 includes a mounting keel 121 and an insert 122, and the insert 122 of one of the insert members 12 shown in fig. 1 is only concealed by the trim panel 11 and is not absent from the insert 122.

Based on this, when this decorative board subassembly 1 is installed, earlier two installation keels 121 are fixed in on wall 2, then can be with insert 122 fixed connection on decorative board 11 towards the back of wall 2 (the face of decorative board 11 towards wall 2 is the back defined, the face of wall 2 is the front dorsad, the remaining face is the side), next approach decorative board 11 to wall 2 to in inserting the clamping structure 12121 of fixing in the mounting panel 1212 with insert 122, and then realize that decorative board 11 installs on two installation keels 121. Thus, the decorative plate 11 can be mounted without forming a groove in the side surface of the decorative plate 11. The processing difficulty of the decorative plate 11 is reduced, and the decorative plate 11 is made of a material with higher strength in order to ensure the strength of the groove wall, so that the manufacturing cost of the decorative plate 11 can be reduced.

The material of the installation keel 121 and the insert 122 is not limited in this application, and any metal material, plastic or wood-plastic material can be used.

Illustratively, as shown in fig. 2, in some embodiments, two mounting studs 121 in the trim panel assembly 1 are spaced apart in a horizontal direction (i.e., the X-direction in fig. 2), and the length of the mounting studs 121 extends in a vertical direction (i.e., the Y-direction in fig. 2). The first connecting plate 1211 of the mounting keel 121 is perpendicular to the wall surface 2 and is fixedly connected to the wall surface 2, and the mounting plate 1212 of the mounting keel 121 is parallel to the wall surface 2. Wherein the wall surface 2 extends in the X-direction and the Y-direction.

It should be noted that the above description is made by taking an example in which the two mounting keels 121 are arranged at intervals in the horizontal direction and extend in the vertical direction. The present application is not limited to the arrangement of the mounting keels 121. In other embodiments, as shown in fig. 3, two mounting keels 121 may also extend horizontally and be spaced vertically, and may also be used.

The following describes a specific structure of the engagement structure 12121. As shown in FIG. 4, clamping structure 12121 includes a first clamping arm 121211 and a second clamping arm 121212, where the fixed end of first clamping arm 121211 and the fixed end of second clamping arm 121212 are attached to mounting plate 1212. A portion of insert 122 is captured and secured between first snap cantilever 121211 and second snap cantilever 121212.

Illustratively, as shown in fig. 4, the first catching cantilever 121211 and the second catching cantilever 121212 are arranged in the X direction as a whole, and the second catching cantilever 121212 is located at a side of the first catching cantilever 121211 close to the first connecting plate 1211 in the X direction. An insertion space for inserting a portion of the insert 122 is formed between the first clamping cantilever 121211 and the second clamping cantilever 121212, and when a portion of the insert 122 is inserted into the insertion space, the first clamping cantilever 121211 and the second clamping cantilever 121212 can clamp the insert 122, so that the insert 122 can be inserted and fixed in the clamping structure 12121.

The above-mentioned clamping structure 12121 is formed by the first clamping cantilever 121211 and the second clamping cantilever 121212, so that the clamping structure 12121 is very simple, and when in use, it is very convenient to directly insert the insert 122 into the above-mentioned insertion space.

To reduce friction during insertion of the insert 122 into the catch structure 12121. As shown in FIG. 5, the free ends of first snap cantilever 121211 and second snap cantilever 121212 are adjacent to each other. The free end of the first catching cantilever 121211 and the free end of the second catching cantilever 121212 are spaced apart by H1 in a direction perpendicular to the first connector 1211 (i.e., X direction in fig. 5), and the fixed end of the first catching cantilever 121211 and the fixed end of the second catching cantilever 121212 are spaced apart by H2 in a direction perpendicular to the first connector 1211, wherein H1 < H2. As shown in FIG. 6, insert 122 is captured and secured between the free ends of first snap cantilever 121211 and second snap cantilever 121212.

Based on this, when a portion of the insert 122 is inserted between the first catching cantilever 121211 and the second catching cantilever 121212, only the free end of the first catching cantilever 121211 and the free end of the second catching cantilever 121212 are in clamping fit with the insert 122, so that the contact area between the first catching cantilever 121211 and the second catching cantilever 121212 and the insert 122 is small, and friction force during the insertion of the insert 122 into the insertion space is reduced, and the insertion of the insert 122 is facilitated.

To reduce the amount of space occupied by the cartridge assembly 12. As shown in fig. 5, the mounting plate 1212 has a first surface 12122 for adjacent the wall surface 2 and a second surface 12123 for adjacent the trim panel 11, with the snap structure 12121 provided on the first surface 12122 of the mounting plate 1212. As shown in FIG. 4, mounting plate 1212 has a latch opening 12124, and first and second latch arms 121211, 121212 are attached to opposite edges of latch opening 12124. Specifically, first snap arm 121211 and second snap arm 121212 are attached to opposing edges of snap opening 12124 in the X-direction.

Due to the arrangement of the first connecting plate 1211, a gap is formed between the mounting plate 1212 and the wall surface 2, and the gap is inevitably present and cannot be eliminated even if not used. The clamping structure 12121 is disposed on a side of the mounting plate 1212 close to the wall surface 2, so that the clamping structure 12121 is located in the gap, and the clamping structure 12121 does not occupy the space at other positions, thereby reducing the space occupied by the entire insertion assembly 12. In use, the insert 122 is inserted into the insertion space of the clamping structure 12121 after passing through the clamping hole 12124.

Of course, in other embodiments, the snap structure 12121 may be disposed on the side of the mounting plate 1212 facing away from the wall surface 2, and may be used as well.

To facilitate insertion of insert 122 between first clamping arm 121211 and second clamping arm 121212. As shown in fig. 5, the clamping structure 12121 further comprises a first clamping hook 121213 and a second clamping hook 121214. The first hook 121213 is formed at the free end of the first clamping cantilever 121211 and bent away from the second clamping cantilever 121212. The second hook 121214 is formed at the free end of the second clamping cantilever 121212 and bent away from the first clamping cantilever 121211. Note that the first hook 121213 and the second hook 121214 are both bent in the X direction.

The free end of first joint cantilever 121211 forms first trip 121213, and the free end of second joint cantilever 121212 forms second trip 121214 for first joint cantilever 121211 and second joint cantilever 121212 are used for pressing from both sides the part of tight insert 122 and are more smooth and easy, and then make the process that insert 122 inserted in the joint structure 12121 more smooth and easy, have improved the convenience when decorative board 11 installs.

The structure of the insert 122 is explained below. As shown in fig. 7, insert 122 includes a second web 1221, an insert plate 1222, and a raised structure 1223. The second connecting plate 1221 is used to be fixedly connected to the decorative panel 11. The insertion plate 1222 is perpendicular to the second connection plate 1221, and is connected to the second connection plate 1221 as an integral structure. Wherein the insert plate 1222 and the second connecting plate 1221 together form an L-shaped structure.

The insert plate 1222 is adapted to be inserted and secured between the first snap arm 121211 and the second snap arm 121212. The arching structure 1223 is disposed at an end of the insert plate 1222 far from the second connecting plate 1221, and is connected with the insert plate 1222 as a unitary structure. Meanwhile, the arching structure 1223 is also disposed on a stop surface 12221 of the insertion plate 1222, and the stop surface 12221 is perpendicular to the second connection plate 1221 and is located on a side of the insertion plate 1222 close to the second connection plate 1221 in the X direction. The stopper face 12221 extends in the Y direction and the Z direction in fig. 7, where the Z direction is perpendicular to both the Y direction and the X direction. As shown in fig. 6, the raised structure 1223 is adapted to abut the first hook 121213.

During the use, decorative board 11 is fixed in on the second connecting plate 1221 to insert between first joint cantilever 121211 and the second joint cantilever 121212 through inserting plate 1222, thereby realize that decorative board 11 installs on installation fossil fragments 121. Moreover, the insert 122 is further provided with an arch structure 1223, and the arch structure 1223 abuts against the first hook 121213, so that after the insert 122 is inserted between the first clamping cantilever 121211 and the second clamping cantilever 121212, unless a sufficient force deviating from the wall surface 2 is applied to the insert 122, the insert 122 cannot be separated from the mounting keel 121, thereby ensuring that the decorative plate 11 cannot be easily separated after being mounted on the mounting keel 121.

The above description is made by taking the example where the arch structure 1223 is in contact with the first hook 121213. In other embodiments, the raised structure 1223 may abut against the second hook 121214, in which case the raised structure 1223 may also be disposed on a stop surface, in this case, the stop surface is perpendicular to the second connecting plate 1221 and is located on the side of the insertion plate 1222 away from the second connecting plate 1221 in the X direction, and the stop surface also extends in the Y direction and the Z direction in fig. 7.

To improve the stability of the decorative panel 11 after installation. As shown in fig. 6, the second connecting plate 1221 abuts the mounting plate 1212 when the raised structure 1223 abuts the first hook 121213. In this way, after the insert 122 is inserted in place, the insert 122 is locked in the Z direction, and cannot move either closer to the wall surface 2 in the Z direction or further away from the wall surface 2 in the Z direction, thereby improving the stability of the decorative panel 11 mounted on the mounting keel 121 through the insert 122.

Of course, in other embodiments, the second connection plate 1221 may be spaced from the mounting plate 1212 after the insert 122 is inserted into position, and may be used as well.

To increase the clamping force of the snap structure 12121 to clamp the insert 122. As shown in fig. 4, the first catching cantilever 121211 is provided with two, two first catching cantilevers 121211 have a space 121215 therebetween in a direction parallel to the first connector 1211 (i.e., Y direction in fig. 4), and the second catching cantilever 121212 is opposite to the space 121215 in a direction perpendicular to the first connector 1211 (i.e., X direction in fig. 4). In this way, the two first clamping cantilever arms 121211 and the second clamping cantilever arm 121212 cooperate to clamp the insert 122, so that the insert 122 is more stable after being inserted on the mounting keel 121, thereby improving the stability of the decorative plate 11.

The fixed connection of the second connecting plate 1221 to the decorative panel 11 will be explained below. As shown in fig. 7, in some embodiments, the second connecting plate 1221 is provided with a decorative plate fixing hole 12211, and the decorative plate fixing hole 12211 is used to pass through a decorative plate connector (not shown), and the decorative plate connector is fixedly connected to the decorative plate 11 and the second connecting plate 1221.

Specifically, the decorative board connecting piece can be a screw, and during the use, the second connecting plate 1221 of the insert 122 is attached to the set position on the back of the decorative board 11, and then the decorative board connecting piece is screwed into the decorative board 11 after passing through the decorative board fixing hole 12211, and the second connecting plate 1221 is pressed on the back of the decorative board 11, so that the insert 122 is fixedly connected with the decorative board 11.

The above description is made by taking an example in which the insert 122 is fixedly connected to the decorative panel 11 by a decorative panel connector. However, the present application is not limited to the form of the fixed connection between the insert 122 and the trim panel 11. In other embodiments, the insert 122 may be adhesively secured to the back of the trim panel 11, i.e., glue may be applied between the second connecting plate 1221 and the opposite side of the trim panel 11, so as to adhesively secure the second connecting plate 1221 to the trim panel 11, which may also be used, in which case the trim panel securing holes 12211 need not be provided in the second connecting plate 1221.

As shown in fig. 2, in some embodiments, two inserts 122 are provided corresponding to the same mounting keel 121, and the two inserts 122 are spaced apart along the length of the mounting keel 121. In other embodiments, three, four or more inserts 122 may be provided corresponding to the same mounting keel 121, with each insert 122 being spaced along the length of the mounting keel 121, and the same may be used.

The following describes how the mounting studs 121 are fixedly connected to the wall surface 2. As shown in FIG. 8, in some embodiments, the cartridge assembly 12 further includes a retaining member 123, and the retaining member 123 includes a third web 1231 and a fourth web 1232. The third connecting plate 1231 is attached to and fixedly connected with the first connecting plate 1211. Fourth connecting plate 1232 is perpendicular with third connecting plate 1231 to, fourth connecting plate 1232 is connected structure as an organic whole with third connecting plate 1231, and fourth connecting plate 1232 is used for laminating and fixed connection with wall 2. Wherein third web 1231 and fourth web 1232 together form an L-shaped structure.

Based on this, the installation fossil fragments 121 can realize the fixed connection with wall 2 through mounting 123, need not set up the structure that directly is used for with wall 2 is fixed on the installation fossil fragments 121, has reduced the structural complexity of installation fossil fragments 121. The size of the fixing member 123 can be set smaller than that of the mounting keel 121, and thus, the fixing member can be easily manufactured.

The following describes how the fixing member 123 is fixedly connected to the wall surface 2. In some embodiments, as shown in FIG. 9, fourth web 1232 is provided with wall mount holes 12321. As shown in fig. 8, the wall surface fixing holes 12321 are used for passing through the wall surface connecting members 3, and the wall surface connecting members 3 are fixedly connected with the fourth connecting plates 1232 and the wall surface 2.

The wall attachment 3 is illustratively an expansion bolt. During the use, fourth connecting plate 1232 is on a parallel with wall 2 and laminates with wall 2, and expansion bolts is fixed in on the wall 2 with fourth connecting plate 1232 after passing wall fixed orifices 12321 on fourth connecting plate 1232. In this case, third coupling plate 1231 is perpendicular to wall surface 2. In addition, as shown in fig. 8, for one mounting keel 121, two fixing members 123 are provided, and the two fixing members 123 are arranged at intervals in the Y direction.

The above description is given by taking as an example that the fixing member 123 is fixed to the wall surface 2 by the wall surface connecting member 3. The application is not limited to how the fixing member 123 is fixed to the wall surface 2. In some embodiments, the fixing member 123 can be embedded directly into the wall surface 2 when the wall surface 2 is formed by casting, and can also be used.

In addition, the above description is given by taking an example in which two fixing members 123 are correspondingly disposed on one mounting keel 121. The present application is not limited to the provision of several fasteners 123 for a mounting keel 121. In other embodiments, three, four or more fasteners 123 may be provided on a single mounting keel 121, and the same may be used.

A description will now be given of how the third coupling plate 1231 of the fixing member 123 is fixedly coupled to the first coupling plate 1211 of the mounting keel 121. As shown in fig. 9, in some embodiments, the first link plate 1211 is provided with keel connection holes 12111 and the third link plate 1231 is provided with fixation connection holes 12311. The cartridge assembly 12 further includes a threaded connector 124, the threaded connector 124 passing through the keel connector aperture 12111 and the fastener connector aperture 12311 to secure the mounting keel 121 and the fastener 123.

Illustratively, the threaded connection member 124 is a bolt, and an internal thread matching the bolt is provided in the fixing connection hole 12311. After the fixing member 123 is fixed to the wall surface 2, the first coupling plates 1211 of the installation keel 121 are attached to the third coupling plates 1231 of the fixing member 123 such that the keel coupling holes 12111 of the first coupling plates 1211 are aligned with the fixing coupling holes 12311 of the third coupling plates 1231. Then, the bolt is screwed into the fixing coupling hole 12311 after passing through the keel coupling hole 12111, thereby fixedly coupling the fixing member 123 and the mounting keel 121.

The above description is given by taking the screw connector 124 as an example of a bolt. The present application is not limited to the structure of the threaded connection 124. In other embodiments, the threaded connection member 124 may include a mating bolt and a mating nut, and when in use, the mating bolt may sequentially pass through the keel connection hole 12111 and the fixing connection hole 12311 and then be screwed on the mating nut, so as to achieve the fixed connection between the fixing member 123 and the installation keel 121, which may also be used, in which case, no internal thread needs to be disposed in the fixing connection hole 12311.

In order to ensure coplanarity of the trim panel 11. As shown in fig. 9, in some embodiments, the openings in which the keel connection holes 12111 are provided are elongated in shape, with the openings of the keel connection holes 12111 extending in a direction perpendicular to the mounting plate 1212 (i.e., the Z direction in fig. 9).

Based on this, the distance of the mounting plate 1212 from the wall surface 2 in the direction perpendicular to the wall surface 2 (i.e., the Z direction in fig. 9) can be adjusted by adjusting the position of the threaded connector 124 within the keel connecting hole 12111. In this way, even if the wall surface 2 has poor flatness, the mounting plates 1212 corresponding to the mounting keels 121 of all the decorative panels 11 can be aligned to be coplanar. Further, all of the trim panels 11 can be coplanar after the trim panels 11 are mounted to the corresponding mounting studs 121 by the inserts 122.

Alternatively, in some other embodiments, the openings of the fixing connection holes 12311 may be elongated, and the openings of the fixing connection holes 12311 extend in a direction perpendicular to the fourth connection plates 1232. It is also possible to adjust the distance of the mounting plate 1212 from the wall surface 2 in a direction perpendicular to the wall surface 2, and in this case, the shape of the opening of the keel connecting hole 12111 does not need to be configured in a long bar shape.

To reduce the dimension of the mounting plate 1212 of the mounting keel 121 in the X direction. As shown in fig. 10, in some embodiments, the insert 122 includes a first insert 1224 fixedly attached to one side of the trim panel 11 in the horizontal direction and a second insert 1225 fixedly attached to the other side of the trim panel 11 in the horizontal direction. Insert plate 1222 of first insert 1224 has a first side 12241, first side 12241 being distal from and perpendicular to second web 1221 of first insert 1224. The insert plate 1222 of the second insert 1225 has a second side surface 12251, the second side surface 12251 being distant from and perpendicular to the second connecting plate 1221 of the second insert 1225, and the first side surface 12241 and the second side surface 12251 being coplanar with the side surfaces of the horizontally corresponding sides of the decorative panel 11, respectively.

The decorative panel 11 is defined such that one side is a left side and the other side is a right side in the X direction. The first insert 1224 is mounted to the left side of the trim panel 11 and the second insert 1225 is mounted to the right side of the trim panel 11. As can be seen from the above-mentioned first side surface 12241 and second side surface 12251 being coplanar with the side surfaces of the corresponding sides of the decorative panel 11 in the horizontal direction: in the X direction, the side of the left side of the trim panel 11 is coplanar with the first side 12241 of the insert panel 1222 on the first insert 1224, and the side of the right side of the trim panel 11 is coplanar with the second side 12251 of the insert panel 1222 on the second insert 1225.

Based on this, when the adjacent decorative boards 11 need to share the same mounting keel 121 on the sides close to each other in the horizontal direction (i.e., the X direction), the corresponding inserts 122 on the sides close to each other in the horizontal direction of the adjacent decorative boards 11 can be inserted into the same clamping structure 12121 (the inserts 122 are referred to herein as the inserts 122 with the same height in the Y direction). Thus, compared with the left side of the first side surface 12241 of the insertion plate 1222 on the first insertion piece 1224, which is located on the corresponding side, on the left side of the decoration plate 11, and the right side of the second side surface 12251 of the insertion plate 1222 on the second insertion piece 1225, which is located on the corresponding side, on the right side of the decoration plate 11, when the distance between two adjacent decoration plates 11 in the horizontal direction is set, the distance between two insertion pieces 122 inserted into the same clamping structure 12121 is smaller, the size of the clamping structure 12121 in the horizontal direction can also be set smaller, and furthermore, the size of the mounting plate 1212 of the mounting keel 121 in the horizontal direction can also be set smaller, so that the consumable material of the mounting keel 121 can be reduced.

In order to allow the adjacent decorative panels 11 to be continuously attached to the wall surface 2 after the decorative panels 11 are attached to the wall surface. In some embodiments, as shown in fig. 11, the trim panel assembly 1 is provided to include at least two trim panels 11 (the trim panel assembly 1 of fig. 11 includes two trim panels 11, although in other embodiments, the trim panel assembly 1 may include more than two trim panels 11, and the same may be used), and the opposite sides of adjacent trim panels 11 in the trim panel assembly 1 are attached to each other. Thus, after the decorative plate assembly 1 is installed, the continuity of each decorative plate 11 is good, so that the decorative plate assembly 1 on the whole wall surface 2 looks beautiful.

In the case that at least two trim panels 11 are included in the trim panel assembly 1, each trim panel 11 should be provided with at least two mounting studs 121 to complete the mounting of the trim panel 11. Of course, the adjacent trim panels 11 may share the same mounting rail 121 on their sides adjacent to each other.

The present application also provides a cartridge assembly that is identical to the cartridge assembly 12 of the above-described embodiments of the trim panel assembly 1 and will not be described in detail herein.

The present application also provides a method for installing the above-described decorative panel assembly 1, which includes S101, S102, and S103 as shown in fig. 12:

and S101, fixing the mounting keel 121 on the wall surface 2.

S102, the insert 122 is attached to the decorative panel 11.

And S103, approaching the decorative plate 11 to the mounting keel 121, and inserting and fixing the decorative plate on the mounting keel 121 through the insert 122.

For example, when the step S101 is executed, the mounting keels 121 corresponding to all the decorative boards 11 that need to be mounted on the entire wall surface 2 may be mounted on the wall surface 2, and then the decorative boards 11 may be mounted. Of course, in some other embodiments, the installation keel 121 corresponding to one decorative board 11 may be installed on the wall surface 2, then the decorative board 11 is installed on the installation keel 121, then the installation keel 121 corresponding to another decorative board 11 is installed, and so on, until the installation of the decorative board assembly 1 on the wall surface 2 is completed, the same may be also applied.

The order of step S101 and step S102 may be changed, and this is not limited in the present application.

On this basis, in order to ensure that the individual decorative panels 11 are coplanar. In the case where the mounting keel 121 includes the first connection plate 1211 and the mounting plate 1212, the above step S101 includes S1011 and S1012 as shown in fig. 13:

and S1011, adjusting the mounting plates 1212 of the mounting keels 121 to be coplanar.

S1012, fixing the first connection plate 1211 of each installation keel 121 to the wall 2.

In step S1011, the distance L between the mounting board 1212 and the light emitted from the laser level in the Z direction may be measured by using the laser level. When the L values measured at various places on the same mounting keel 121 are within the tolerance range and the L values measured by the mounting keels 121 are within the tolerance range, it can be determined that the mounting plates 1212 of the mounting keels 121 are coplanar.

Therefore, after the mounting plates 1212 of the mounting keels 121 are coplanar, the decorative plates 11 are mounted on the mounting keels 121, so that the decorative plates 11 are coplanar, and the beauty of the wall surface 2 is improved.

To facilitate adjustment of the coplanar mounting plates 1212 of the mounting keels 121, in the case where the insertion assembly 12 includes the fixing member 123 and the threaded connection member 124, the above step S1011 includes S10111 and S10112 as shown in fig. 14:

s10111, the fourth connecting plate 1232 of the fixing member 123 is fixed to the wall surface 2.

S10112, fixing the first connecting plate 1211 of the installation keel 121 and the third connecting plate 1231 of the fixing member 123 through the threaded connection member 124; in the case that the shape of the opening of the fixing coupling hole 12311 is elongated, the coplanar surfaces of the mounting plates 1212 of the respective mounting keels 121 are adjusted by adjusting the positions of the screw connection members 124 within the fixing coupling hole 12311. In the case where the opening of the keel connection hole 12111 has an elongated shape, the mounting plates 1212 of the respective mounting keels 121 are coplanar by adjusting the positions of the threaded connection members 124 within the keel connection holes 12111.

In step S10112, the shape of the opening of the fixing connection hole 12311 is elongated, and the shape of the opening of the keel connection hole 12111 is elongated, which may be selected according to actual conditions.

In the description herein, particular features, structures, materials, or characteristics may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present application should be covered within the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.