CN117905216A - Assembled fast-assembled suspended ceiling system and installation method - Google Patents

Abstract

The application discloses an assembled quick-mounting suspended ceiling system and an installing method, wherein the assembled quick-mounting suspended ceiling system comprises a fixed module, a first suspended ceiling plate, a second suspended ceiling plate and a buckle assembly, the buckle assembly comprises a male buckle piece and a female buckle piece, the male buckle piece is connected with the second suspended ceiling plate to form a second installing module, the female buckle piece is connected with the first suspended ceiling plate and a vertical keel to form a first installing module, and the male buckle piece is buckled and connected with the female buckle piece to realize the splicing of the first installing module and the second installing module. The application realizes the splicing of the first suspended ceiling plate and the second suspended ceiling plate by means of the buckling connection of the buckling component, avoids the occurrence of cracks in the splicing of the first suspended ceiling plate and the second suspended ceiling plate, is convenient to install, can realize the rapid splicing and installation of the first suspended ceiling plate and the second suspended ceiling plate, reduces the construction difficulty and improves the installation efficiency.

Description

Assembled fast-assembled suspended ceiling system and installation method

Technical Field

The application relates to the technical field of ceiling decoration, in particular to an assembled fast-assembled ceiling system and an installation method.

Background

Suspended ceiling refers to a decoration of the top of the living environment of a house. Simply, it is the decoration of the ceiling, which is one of the important parts of the interior decoration. The suspended ceiling has the functions of heat preservation, heat insulation, sound insulation and sound absorption, and is also a concealed layer of engineering such as electric, ventilation and air conditioning, communication, fireproof, alarm pipeline equipment and the like.

At present, a plurality of suspended ceilings are spliced together, the suspended ceilings are square, and the suspended ceilings are hoisted by adopting keels and hanging ribs during installation, so that the edges of two adjacent suspended ceilings are attached as much as possible. But install the furred ceiling like this, the great clearance can appear between furred ceiling and the furred ceiling, influences the aesthetic property of furred ceiling.

Accordingly, the prior art is in need of improvement.

Disclosure of Invention

The application aims to provide an assembled quick-mounted suspended ceiling system and an installation method, and aims to solve the technical problem of how to realize quick installation of the assembled suspended ceiling system in the prior art.

In order to achieve the above purpose, the application adopts the following technical scheme:

in a first aspect, the present application provides a fabricated and ready-to-install ceiling system, comprising:

the fixing module comprises a top keel and a vertical keel, and the vertical keel is used for being connected with the top keel;

The first suspended ceiling plate is fixed on the vertical keel so as to realize that the first suspended ceiling plate is fixed on the wall top;

the second suspended ceiling plate is used for being spliced with the first suspended ceiling plate;

The buckle assembly comprises a male buckle piece and a female buckle piece, the male buckle piece is connected to the second ceiling plate to form a second installation module, the female buckle piece is connected to the first ceiling plate and the vertical keel to form a first installation module, and the male buckle piece is connected with the female buckle piece in a buckled mode to achieve the splicing of the first installation module and the second installation module.

Through above-mentioned scheme, public buckle spare is fixed in the second furred ceiling board, and female buckle spare is fixed in first furred ceiling board, is connected through the lock of public buckle spare and female buckle spare to realize that first furred ceiling board and second furred ceiling board lock are connected, avoid first furred ceiling board and second furred ceiling board concatenation to appear the crack, it is convenient to install, can realize the quick concatenation installation of first furred ceiling board and second furred ceiling board, reduces the construction degree of difficulty, improves installation effectiveness.

In one embodiment, a male clasp comprises:

the first bottom edge is used for being connected with the second ceiling plate;

The first insertion part extends upwards from the first bottom edge;

The first high vertical edge extends upwards from one side of the first bottom edge away from the first insertion part.

Through above-mentioned scheme, first base inserts female fastener through first insert portion to realize being connected with female fastener's lock, and first insert portion is upwards extended by first base and is formed, is equivalent to first insert portion and first base integrated into one piece's section bar, its structural strength is high, and first base opposite side is provided with first high perpendicular limit, and first high perpendicular limit can strengthen the cross-section moment of inertia effect of public fastener, reinforcing public fastener's structural strength, prevent to warp.

In one embodiment, a female clasp comprises:

the second bottom edge is used for being connected with the first ceiling plate;

The second slot is arranged at the second bottom edge;

the second fixing vertical edge is formed by extending upwards from one side, far away from the second slot, of the second bottom edge, and the second fixing vertical edge is used for being connected with the fixing module.

Through above-mentioned scheme, the second base passes through the second slot and is connected with public buckle spare lock, and the fixed perpendicular limit of second is used for being connected with fixed module, and fixed module is along the fixed perpendicular limit slip of second and with the looks butt of second base, can be convenient for female buckle spare and fixed module's connection, the installation of the first furred ceiling board of being convenient for, simultaneously, the cross-section moment of inertia effect of female buckle spare can be strengthened to the fixed perpendicular limit of second, reinforcing female buckle spare's structural strength, prevent to warp.

In one embodiment, the second slot includes:

the second groove wall extends upwards from the second bottom edge to form a second groove wall;

The second groove bottom is connected to one end of the second groove wall, which is far away from the second bottom edge;

The second elastic structure body is connected to one end of the second groove bottom far away from the second groove wall, and the second elastic structure body, the second groove bottom and the second groove wall are sequentially connected to form a groove structure with an opening.

Through above-mentioned scheme, the second slot forms through the second elastic structure body and has open-ended groove structure to realize being connected with public buckle spare lock, when public buckle spare inserts in the second slot, the second elastic structure body is through self elasticity and with public buckle spare looks butt, makes public buckle spare be difficult for becoming flexible to drop, has effectively improved the stability that this buckle subassembly is connected, in order to realize the convenience of the quick concatenation of first furred ceiling board and second furred ceiling board.

In one embodiment, the second elastic structure includes:

The second elastic side wall is connected to one end of the second groove bottom far away from the second groove wall;

And the second inclined wall extends outwards from the second elastic side wall to form the groove structure with a large opening and a small groove bottom.

Through above-mentioned scheme, the second elastic structure body is by second elasticity lateral wall and second slope wall, and wherein, second elasticity lateral wall can be through self elasticity and public buckle spare looks butt for public buckle spare is difficult for not hard up droing, and the second slope wall can be convenient for public buckle spare insert, the quick concatenation of first furred ceiling board and second furred ceiling board of being convenient for.

In one embodiment, the first bottom edge of the male fastener is mounted to the top of the second ceiling plate, and the first insertion portion of the male fastener extends upwardly away from the top of the second ceiling plate;

The second bottom edge of the female buckle piece is arranged at the top of the first ceiling plate, and the notch of the second slot of the female buckle piece is exposed out of the first ceiling plate and faces to one side of the first inserting part.

Through the scheme, the bottom of the second ceiling board is used for connecting the facing layer, and the top of the second ceiling board is hidden at the back of the second ceiling board, so that the male buckle piece and the female buckle piece are both positioned at the back of the ceiling board, when the male buckle piece is inserted into the female buckle piece, the male buckle piece and the female buckle piece are hidden at the back of the ceiling board, and the male buckle piece or the female buckle piece cannot interfere with the splicing of the second ceiling board and the first ceiling board.

In one embodiment, a first ceiling tile includes:

One end of the first base layer plate is provided with a first splicing end, and the other end of the first base layer plate is provided with a second splicing end;

The first split joint end and the second split joint end are connected to form a first staggered layer structure body.

Through above-mentioned scheme, first basic strandboard is connected with the second basic strandboard and is formed the first lamination body that has first split layer structure body, and first lamination body can splice with the second furred ceiling board through first split layer structure body, simple to operate, and stability is good, can avoid second furred ceiling board and first furred ceiling board concatenation to appear the crack.

In one embodiment, the second ceiling tile includes:

One end of the third base layer plate is provided with a fifth splicing end, and the other end of the third base layer plate is provided with a sixth splicing end;

And one end of the fourth base layer plate is provided with a seventh splicing end, the other end of the fourth base layer plate is provided with an eighth splicing end, the fourth base layer plate is connected with the third base layer plate to form a second laminated body, the fifth splicing end is connected with the seventh splicing end to form a second staggered layer structure body, and the sixth splicing end is connected with the eighth splicing end to form a third staggered layer structure body.

Through above-mentioned scheme, third basic unit board and fourth basic unit board are connected and are formed the second lamination body that has second split layer structure body, and second lamination body can splice with first furred ceiling board through second split layer structure body, simple to operate, and stability is good, can avoid second furred ceiling board and first furred ceiling board concatenation to appear the crack.

In one embodiment, the method further comprises:

A third ceiling tile, the third ceiling tile comprising: a fifth base layer plate and a sixth base layer plate, wherein one end of the fifth base layer plate is provided with a ninth splicing end, and the other end of the fifth base layer plate is provided with a tenth splicing end; one end of the sixth base layer board is provided with an eleventh splicing end, the other end of the sixth base layer board is provided with a twelfth splicing end, the sixth base layer board is connected with the fifth base layer board to form a third laminated body, the ninth splicing end is connected with the eleventh splicing end in a flush manner, and the tenth splicing end is connected with the twelfth splicing end to form a fourth staggered layer structure;

The fourth staggered layer structure is used for being spliced with the third staggered layer structure;

one side of the fifth base layer board, which is close to the ninth splicing end, is provided with another male buckle piece;

One side of the third base layer board, which is close to the sixth splicing end, is provided with another female buckle piece, and the other female buckle piece is connected with the vertical keel;

the male buckle piece on the fifth base plate is used for being buckled and connected with the female buckle piece on the third base plate so as to realize the buckled and connected between the third ceiling plate and the second ceiling plate;

the fixing module also comprises an edge keel which is used for being connected with the side wall,

One end of the third ceiling plate, which is far away from the male buckle piece, is connected with the side keel so as to fix the third ceiling plate on the side wall;

one end of the first suspended ceiling plate, which is far away from the female buckle piece, is provided with another side keel, and the first suspended ceiling plate is connected with another side wall through the another side keel.

Through above-mentioned scheme, connect through split-level structure body between the furred ceiling to strengthen the stability of connecting between the furred ceiling, in order to prevent to appear the crack between the furred ceiling, simultaneously, connect through buckle subassembly buckle between the furred ceiling, on the one hand, it is convenient to install, can realize the pre-positioning between the furred ceiling through buckle subassembly, make things convenient for the fixed mounting of furred ceiling, on the other hand, insert in the female buckle spare through public buckle spare, in order to realize the quick installation of furred ceiling, make the connection stability between the furred ceiling strengthen, further prevent to appear the crack between the furred ceiling.

In a second aspect, the present application further provides a method for installing an assembled fast-assembled suspended ceiling system, including the following steps:

fixing the side keels on the side walls and fixing the top keels on the tops of the walls;

the first ceiling plate, a female buckle piece and a vertical keel are assembled in advance to form a first installation module, so that the vertical keel is connected with the first ceiling plate through the female buckle piece; assembling the second ceiling plate and a male buckle piece to form a second installation module, so that the second ceiling plate is fixedly connected with the male buckle piece;

The first installation module is fixed on the wall top, so that one side of the first ceiling plate, which is far away from the vertical keels, is connected with the side wall through the side keels, and the vertical keels on the first ceiling plate are fixed on the wall top;

And splicing the second installation module with the first installation module, so that the male buckle piece on the second ceiling plate is buckled and connected with the female buckle piece on the first ceiling plate, and the second ceiling plate is spliced with the first ceiling plate.

Through above-mentioned scheme, second furred ceiling board passes through buckle subassembly with first furred ceiling board to be connected, and buckle subassembly can strengthen the stability that second furred ceiling board and first furred ceiling board are connected, for the installation of second furred ceiling board provide stable, convenient installation environment, can prevent that second furred ceiling board and first furred ceiling board concatenation from appearing cracked phenomenon, and the installation is convenient, can reduce the construction degree of difficulty to realize the purpose of quick installation furred ceiling board.

The assembled fast-assembled suspended ceiling system and the installation method provided by the application have the beneficial effects that:

The application discloses an assembled quick-assembly suspended ceiling system and an installation method, wherein the assembled quick-assembly suspended ceiling system comprises a fixing module, a first suspended ceiling plate, a second suspended ceiling plate and a buckle assembly, wherein the fixing module comprises a top keel and a vertical keel, the vertical keel is used for being connected with the top keel, the first suspended ceiling plate is fixed on the vertical keel so as to realize that the first suspended ceiling plate is fixed on a wall top, the second suspended ceiling plate is used for being spliced with the first suspended ceiling plate, the buckle assembly comprises a male buckle piece and a female buckle piece, the male buckle piece is connected with the second suspended ceiling plate so as to form a second installation module, the female buckle piece is connected with the first suspended ceiling plate and the vertical keel so as to form a first installation module, and the male buckle piece is buckled and connected with the female buckle piece so as to realize that the first installation module is spliced with the second installation module. The application realizes the splicing of the first suspended ceiling plate and the second suspended ceiling plate by means of the buckling connection of the buckling component, avoids the occurrence of cracks in the splicing of the first suspended ceiling plate and the second suspended ceiling plate, is convenient to install, can realize the rapid splicing and installation of the first suspended ceiling plate and the second suspended ceiling plate, reduces the construction difficulty and improves the installation efficiency.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments or the description of the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic structural diagram of an assembled fast-assembled ceiling system according to an embodiment of the present application;

Fig. 2 is a schematic diagram of an assembly structure of an assembled fast-assembled ceiling system according to an embodiment of the present application;

fig. 3 is a schematic structural diagram of a buckle assembly according to an embodiment of the present application;

Fig. 4 is a schematic structural diagram of a specific embodiment of a female buckle element according to an embodiment of the present application;

fig. 5 is a schematic diagram of an assembly structure of a female buckle and a male buckle according to an embodiment of the present application;

Fig. 6 is a schematic structural view of a top keel and wall top connection according to an embodiment of the present application;

fig. 7 is a schematic view of a mounting structure of a first mounting module according to an embodiment of the present application;

Fig. 8 is a schematic structural diagram of a first installation module and a second installation module according to an embodiment of the present application.

Wherein, each reference sign in the figure:

100. A fixed module; 200. a first ceiling plate; 300. a second ceiling plate; 400. a clasp assembly; 500. a third ceiling plate; 200a, a first installation module; 300a, a second installation module; 500a, a third installation module; 610. a wall top; 620. a side wall; 700. a facing layer; 710. a putty layer; 720. a latex paint layer; 110. a top keel; 120. a vertical keel; 130. edge keels; 210. a first base plate; 220. a second base layer plate; 230. a first split-layer structure; 211. a first splicing end; 212. a second splicing end; 221. a third splicing end; 222. a fourth splicing end; 310. a third base layer plate; 320. a fourth base layer plate; 330. a second split-layer structure; 340. a third split-layer structure; 311. a fifth splicing end; 312. a sixth splicing end; 321. a seventh splice end; 322. an eighth splicing end; 410. a male buckle; 420. a female buckle piece; 411. a first bottom edge; 412. a first insertion portion; 413. a first tall vertical edge; 421. a second bottom edge; 422. a second slot; 423. a second fixed vertical edge; 424. a second groove wall; 425. a second groove bottom; 426. a second elastic structure; 427. a second elastic sidewall; 428. a second sloped wall; 510. a fifth base layer plate; 520. a sixth base layer plate; 530. a fourth split-layer structure; 511. a ninth splicing end; 512. a tenth splicing end; 521. an eleventh splice end; 522. and a twelfth splicing end.

Detailed Description

In order to make the technical problems, technical schemes and beneficial effects to be solved more clear, the application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the application.

It will be understood that when an element is referred to as being "mounted" or "disposed" on another element, it can be directly or indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly or indirectly connected to the other element. The directions or positions indicated by the terms "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. are directions or positions based on the drawings, and are merely for convenience of description and are not to be construed as limiting the present technical solution. The terms "first," "second," and "second" 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. The meaning of "a plurality of" is two or more, unless specifically defined otherwise.

Example 1:

Referring to fig. 1 and 2, the present embodiment provides an assembled fast-assembled ceiling system, which includes: the fixing module 100, the first suspended ceiling plate 200, the second suspended ceiling plate 300 and the buckle assembly 400, the fixing module 100 comprises a top keel 110 and a vertical keel 120, the vertical keel 120 is used for being connected with the top keel 110, the first suspended ceiling plate 200 is fixed on the vertical keel 120 to enable the first suspended ceiling plate 200 to be fixed on a wall top 610, the second suspended ceiling plate 300 is used for being spliced with the first suspended ceiling plate 200, the buckle assembly 400 comprises a male buckle piece 410 and a female buckle piece 420, the male buckle piece 410 is connected with the second suspended ceiling plate 300 to form a second installation module 300a, the female buckle piece 420 is connected with the first suspended ceiling plate 200 and the vertical keel 120 to form a first installation module 200a, and the male buckle piece 410 is buckled and connected with the female buckle piece 420 to enable the first installation module 200a to be spliced with the second installation module 300 a.

In this embodiment, the male fastener 410 is fixed on the second suspended ceiling plate 300 to form the second installation module 300a, the vertical keel 120 and the female fastener 420 are fixed on the first suspended ceiling plate 200 to form the first installation module 200a, and the male fastener 410 is connected with the female fastener 420 in a buckled manner, so that the first suspended ceiling plate 200 is buckled with the second suspended ceiling plate 300, cracks are avoided in the splicing of the first suspended ceiling plate 200 and the second suspended ceiling plate 300, the installation is convenient, the quick splicing installation of the first suspended ceiling plate 200 and the second suspended ceiling plate 300 can be realized, the construction difficulty is reduced, and the installation efficiency is improved.

For example, referring to fig. 2, in installing the first 200 and second 300 ceiling tiles, the vertical keel 120, the female buckle 420, and the first ceiling tile 200 may be assembled to form a first installation module 200a; the vertical keel 120 may then be secured to the top keel 110 on the wall top 610 such that the first installation module 200a is secured to the wall top 610; the second ceiling tile 300 and male clasp 410 may then be assembled to form a second mounting module 300a; the second installation module 300a and the first installation module 200a may be spliced, and when the second installation module 300a and the first installation module 200a are installed, the first ceiling board 200 is fixed to the vertical keel 120 through the female buckle piece 420, which is equivalent to the fixed first ceiling board 200, and the second ceiling board 300 is provided with the male buckle piece 410, so that the first ceiling board 200 and the second ceiling board 300 are pre-fixed by means of the buckling connection of the male buckle piece 410 and the female buckle piece 420, the installation is convenient, and then the second ceiling board 300 is fixed to the wall top 610, at this time, the male buckle piece 410 and the female buckle piece 420 are buckled and connected, and the connection strength of the second ceiling board 300 and the first ceiling board 200 can be enhanced, so that the connection position of the second ceiling board 300 and the first ceiling board 200 is prevented from cracking.

Specifically, referring to fig. 3, the male buckle 410 includes: the first bottom edge 411, the first insertion portion 412, and the first high vertical edge 413, where the first bottom edge 411 is used to connect with the second ceiling board 300, the first insertion portion 412 extends upward from the first bottom edge 411, and the first high vertical edge 413 extends upward from a side of the first bottom edge 411 away from the first insertion portion 412.

In this embodiment, the first bottom edge 411 is inserted into the female buckle 420 through the first insertion portion 412 to achieve the snap-fit connection with the female buckle 420, and the first insertion portion 412 is formed by extending the first bottom edge 411 upwards, which is equivalent to a profile formed by integrating the first insertion portion 412 and the first bottom edge 411, the structural strength is high, and the first vertical edge 413 is disposed on the other side of the first bottom edge 411, so that the first vertical edge 413 can strengthen the cross-sectional moment of inertia of the male buckle 410, strengthen the structural strength of the male buckle 410, and prevent deformation. For example, the male buckle element 410 can be made of metal profiles, has a simple structure and high strength, can meet the connection strength of the first ceiling plate 200 and the second ceiling plate 300, and is easy to manufacture and low in cost.

Specifically, referring to fig. 3, the female buckle element 420 includes: the second bottom edge 421, the second slot 422 and the second fixed vertical edge 423, the second bottom edge 421 is used for being connected with the first ceiling board 200, the second slot 422 is arranged at the second bottom edge 421, the second fixed vertical edge 423 extends upwards from one side of the second bottom edge 421 away from the second slot 422, and the second fixed vertical edge 423 is used for being connected with the fixed module 100.

In this embodiment, the second bottom edge 421 is fastened and connected with the male fastener 410 through the second slot 422, the second fixed vertical edge 423 is used for being connected with the fixed module 100, the fixed module 100 slides along the second fixed vertical edge 423 and is abutted against the second bottom edge 421, so that the connection between the female fastener 420 and the fixed module 100 can be facilitated, the installation of the first suspended ceiling plate 200 is facilitated, and meanwhile, the second fixed vertical edge 423 can strengthen the cross-section moment of inertia effect of the female fastener 420, strengthen the structural strength of the female fastener 420 and prevent deformation. For example, when the female fastener 420 is installed, the second bottom edge 421 may be attached to the first ceiling board 200, and the second bottom edge 421 may be fixedly connected to the first ceiling board 200 by a screw, the vertical keel 120 may extend toward the second bottom edge 421 along the second fixed vertical edge 423, and the vertical keel 120 may be connected to the second fixed vertical edge 423 by a screw.

Specifically, referring to fig. 4, the second slot 422 includes: the second groove wall 424, the second groove bottom 425 and the second elastic structure body 426, wherein the second groove wall 424 extends upwards from the second bottom edge 421, the second groove bottom 425 is connected to one end of the second groove wall 424 away from the second bottom edge 421, the second elastic structure body 426 is connected to one end of the second groove bottom 425 away from the second groove wall 424, and the second elastic structure body 426, the second groove bottom 425 and the second groove wall 424 are sequentially connected to form a groove structure with an opening.

In this embodiment, the second slot 422 forms a groove structure with an opening through the second elastic structure 426 to realize snap connection with the male buckle element 410, when the male buckle element 410 is inserted into the second slot 422, the second elastic structure 426 is abutted with the male buckle element 410 through self elasticity, so that the male buckle element 410 is not easy to loose and fall off, the stability of connection of the buckle assembly 400 is effectively improved, and convenience of rapid splicing of the first ceiling tile 200 and the second ceiling tile 300 is realized.

Specifically, referring to fig. 4, the second elastic structure 426 includes: the second elastic side wall 427 and the second inclined wall 428, the second elastic side wall 427 is connected to one end of the second groove bottom 425 far away from the second groove wall 424, and the second inclined wall 428 is formed by extending outwards from the second elastic side wall 427, so that the opening of the groove structure is large and the groove bottom is small.

In this embodiment, the second elastic structure 426 is composed of a second elastic side wall 427 and a second inclined wall 428, wherein the second elastic side wall 427 can be abutted against the male fastener 410 through its own elasticity, so that the male fastener 410 is not easy to loose and drop, and the second inclined wall 428 can facilitate the insertion of the male fastener 410, so as to facilitate the rapid splicing of the first ceiling tile 200 and the second ceiling tile 300.

Specifically, referring to fig. 2 and 5, the first bottom edge 411 of the male buckle element 410 is mounted on the top of the second ceiling plate 300, and the first insertion portion 412 of the male buckle element 410 extends upward away from the top of the second ceiling plate 300; the second bottom edge 421 of the female buckle element 420 is mounted on the top of the first ceiling board 200, and the notch of the second slot 422 of the female buckle element 420 is exposed out of the first ceiling board 200 and faces to the first insertion portion 412.

In this embodiment, the bottom of the second ceiling tile 300 is used to connect the facing layer 700, and the top of the second ceiling tile 300 is hidden at the back of the second ceiling tile 300, so that the male buckle element 410 and the female buckle element 420 are both located at the back of the ceiling tile, when the male buckle element 410 is inserted into the female buckle element 420, i.e. the male buckle element 410 and the female buckle element are hidden at the back of the ceiling tile, and the male buckle element 410 or the female buckle element 420 does not interfere with the splicing of the second ceiling tile 300 and the first ceiling tile 200.

Specifically, referring to fig. 7, the first ceiling tile 200 includes: the first base layer plate 210 and the second base layer plate 220, wherein one end of the first base layer plate 210 is provided with a first splicing end 211, the other end of the first base layer plate 210 is provided with a second splicing end 212, one end of the second base layer plate 220 is provided with a third splicing end 221, the other end of the second base layer plate 220 is provided with a fourth splicing end 222, the second base layer plate 220 is connected with the first base layer plate 210 to form a first laminated body, the first splicing end 211 is connected with the third splicing end 221 in a flush mode, and the second splicing end 212 is connected with the fourth splicing end 222 to form a first staggered layer structure 230.

In this embodiment, the first base layer board 210 and the second base layer board 220 are connected to form a first laminated body with the first split-layer structure body 230, and the first laminated body can be spliced with the second ceiling board 300 through the first split-layer structure body 230, so that the installation is convenient, the stability is good, and the crack generated in the splicing of the second ceiling board 300 and the first ceiling board 200 can be avoided.

Specifically, referring to fig. 2 and 8, the second ceiling tile 300 includes: the third base layer plate 310 and the fourth base layer plate 320, wherein one end of the third base layer plate 310 is provided with a fifth splicing end 311, the other end is provided with a sixth splicing end 312, one end of the fourth base layer plate 320 is provided with a seventh splicing end 321, the other end is provided with an eighth splicing end 322, the fourth base layer plate 320 and the third base layer plate 310 are connected to form a second laminated body, the fifth splicing end 311 and the seventh splicing end 321 are connected to form a second staggered layer structure 330, and the sixth splicing end 312 and the eighth splicing end 322 are connected to form a third staggered layer structure 340.

In this embodiment, the third base plate 310 and the fourth base plate 320 are connected to form a second laminated body with the second staggered structure 330, and the second laminated body can be spliced with the first ceiling plate 200 through the second staggered structure 330, so that the installation is convenient, the stability is good, and the crack generated in the splicing of the second ceiling plate 300 and the first ceiling plate 200 can be avoided.

For example, when the first suspended ceiling plate 200 is spliced with the second suspended ceiling plate 300, the first suspended ceiling plate 200 is in snap connection with the second staggered structure 330 through the first staggered structure 230, wherein the first base plate 210 is overlapped with the fourth base plate 320, that is, the first base plate 210 is overlapped with the fourth base plate 320 from the outward extending part of the second base plate 220, and a female buckle piece 420 is disposed on one side of the first base plate 210 near the second suspended ceiling plate 300, the female buckle piece 420 can be fixedly connected with the first base plate 210 and the second base plate 220 through screws, meanwhile, the female buckle piece 420 can be fixedly connected with the vertical keel 120 through screws, after the female buckle piece 420 is in snap connection with the male buckle piece 410 on the second suspended ceiling plate 300, the fourth base plate 320 can be connected with the first base plate 210 through another screw, for example, a screw is inserted through the second base plate 421 of the first base plate 210 and the female buckle piece 420 from the fourth base plate 320, so as to strengthen the connection of the first suspended ceiling plate 200 with the second suspended ceiling plate 300, and prevent the occurrence of cracking phenomenon of the first suspended ceiling plate 200 and the second suspended ceiling plate 300.

Example 2:

Based on the assembled quick-assembled suspended ceiling system in embodiment 1, referring to fig. 1,2 and 8, the present embodiment provides an assembled quick-assembled suspended ceiling system, wherein the assembled quick-assembled suspended ceiling system further includes a third suspended ceiling plate 500. Wherein the third ceiling tile 500 includes: a fifth base laminate 510 and a sixth base laminate 520, one end of the fifth base laminate 510 having a ninth splice end 511 and the other end having a tenth splice end 512; the sixth base layer board 520 has an eleventh splicing end 521 at one end and a twelfth splicing end 522 at the other end, the sixth base layer board 520 is connected with the fifth base layer board 510 to form a third laminated body, the ninth splicing end 511 is connected with the eleventh splicing end 521 in a flush manner, the tenth splicing end 512 is connected with the twelfth splicing end 522 to form a fourth staggered layer structure 530, and the fourth staggered layer structure 530 is used for being spliced with the third staggered layer structure 340.

The fifth base plate 510 is provided with another male fastener 410 near the ninth splicing end 511; another female fastener 420 is arranged on one side of the third base plate 310 close to the sixth splicing end 312, and the other female fastener 420 is connected with the vertical keel 120; the male buckle element 410 on the fifth base plate 510 is used for being buckled and connected with the female buckle element 420 on the third base plate 310, so as to realize the buckled and connected between the third ceiling plate 500 and the second ceiling plate 300;

The fixing module 100 further includes a side keel 130, the side keel 130 is used for being connected with the side wall 620, and one end of the third ceiling plate 500 away from the male fastener 410 is connected with the side keel 130, so as to fix the third ceiling plate 500 to the side wall 620; the first ceiling tile 200 is provided with another side keel 130 at an end thereof remote from the female buckle element 420, and the first ceiling tile 200 is connected to another side wall 620 via the another side keel 130.

In this embodiment, connect through split-level structure between the furred ceiling to strengthen the stability of connection between the furred ceiling, in order to prevent to appear the crack between the furred ceiling, simultaneously, connect through buckle subassembly 400 buckle between the furred ceiling, on the one hand, it is convenient to install, can realize the pre-positioning between the furred ceiling through buckle subassembly 400, make things convenient for the fixed mounting of furred ceiling, on the other hand, insert in female buckle spare 420 through public buckle spare 410, in order to realize the quick installation of furred ceiling, make the connection stability between the furred ceiling strengthen, further prevent to appear the crack between the furred ceiling.

For example, when installing the third ceiling tile 500, the vertical keel 120, the female buckle 420, and the first ceiling tile 200 may be assembled to form the first installation module 200a; one side of the first ceiling tile 200 may then be secured to the side wall 620 via the side runners 130 and the other side of the first ceiling tile 200 secured to the top runner 110 on the wall top 610 via the vertical runner 120 such that the first installation module 200a is secured to the wall top 610; then, the second suspended ceiling plate 300, the male buckle element 410, the female buckle element 420 and the vertical keel 120 can be assembled to form a second installation module 300a, so that the male buckle element 410 is arranged on one side of the second suspended ceiling plate 300, and the other side of the second suspended ceiling plate 300 is connected with the vertical keel 120 through the female buckle element 420; the second installation module 300a may then be spliced with the first installation module 200a such that the male fastener 410 on the second ceiling tile 300 is snap-fit with the female fastener 420 of the first ceiling tile 200 and such that the first base plate 210 overlaps the fourth base plate 320; the third ceiling tile 500 and the male fastener 410 may then be assembled into a third installation module 500a, and the third installation module 500a is spliced with the second installation module 300a, so that the male fastener 410 on the third ceiling tile 500 is inserted into the female fastener 420 on the second ceiling tile 300, and the third base layer board 310 is overlapped with the sixth base layer board 520, where one side of the third ceiling tile 500 away from the second ceiling tile 300 is fixed to the side wall 620 through the edge keel 130, which is stable in structure and convenient to install.

Example 3:

Based on the assembled fast-assembling suspended ceiling system in the above embodiment, please combine fig. 2, the present embodiment provides an installation method of the assembled fast-assembling suspended ceiling system, which includes the following steps:

S100, fixing the side keels 130 to the side walls 620 and fixing the top keels 110 to the wall top 610 (shown in FIG. 6).

S200, assembling the first ceiling plate 200, a female buckle piece 420 and a vertical keel 120 in advance to form a first installation module 200a, so that the vertical keel 120 is connected with the first ceiling plate 200 through the female buckle piece 420; the second ceiling tile 300 is assembled with a male fastener 410 to form a second mounting module 300a such that the second ceiling tile 300 is fixedly secured to the male fastener 410.

S300, the first installation module 200a is secured to the wall top 610 such that a side of the first ceiling tile 200 remote from the vertical keel 120 is connected to the side wall 620 by the side keel 130 and such that the vertical keel 120 on the first ceiling tile 200 is secured to the wall top 610 (shown in fig. 7).

S400, the second installation module 300a is spliced with the first installation module 200a, such that the male fastener 410 on the second ceiling tile 300 is snap-fit connected with the female fastener 420 on the first ceiling tile 200, and such that the second ceiling tile 300 is spliced with the first ceiling tile 200 (shown in fig. 8).

In this embodiment, the second suspended ceiling plate 300 is connected with the first suspended ceiling plate 200 through the buckle assembly 400, the buckle assembly 400 can enhance the stability of connection between the second suspended ceiling plate 300 and the first suspended ceiling plate 200, provide a stable and convenient installation environment for the installation of the second suspended ceiling plate 300, prevent the phenomenon that the second suspended ceiling plate 300 and the first suspended ceiling plate 200 are spliced to generate cracks, and achieve the purpose of quickly installing the suspended ceiling plates, and the installation is convenient, so that the construction difficulty can be reduced.

Example 4:

Various non-limiting embodiments of the method of installing a fabricated, ready-to-install suspended ceiling system of the present application are described in detail below with reference to the accompanying drawings.

Referring to fig. 2, fig. 2 shows a method for installing an assembled fast-assembling ceiling system according to an embodiment of the present invention, where the method includes:

s1, fixing the side keels 130 to the side walls 620 and fixing the top keels 110 to the wall top 610.

S2, assembling the first installation module 200a: the first ceiling tile 200, a female buckle 420, and a vertical keel 120 are assembled to form the first installation module 200a such that the vertical keel 120 is connected to the first ceiling tile 200 by the female buckle 420.

S3, installing the first installation module 200a: one side of the first ceiling tile 200 is secured to the side wall 620 by the side runners 130 and the other side of the first ceiling tile 200 is secured to the wall top 610 by the vertical runners 120 and the top runner 110.

S4, assembling the second installation module 300a: a male fastener 410 is mounted to a side of the second ceiling tile 300 adjacent to the first ceiling tile 200, and a female fastener 420, a vertical keel 120, is secured to a side of the second ceiling tile 300 remote from the first ceiling tile 200 such that the second ceiling tile 300 forms a second mounting module 300a.

S5, splicing the second installation module 300a with the first installation module 200 a: the male buckle element 410 on the second suspended ceiling plate 300 is inserted into the female buckle element 420 of the first suspended ceiling plate 200, so that the male buckle element 410 on the second suspended ceiling plate 300 is buckled and connected with the female buckle element 420 of the first suspended ceiling plate 200, the first base plate 210 is overlapped with the fourth base plate 320, then the vertical keel 120 on the second suspended ceiling plate 300 is fixed on the top keel 110 of the wall top 610, and the screws sequentially penetrate through the fourth base plate 320, the first base plate 210 and the second bottom edge 421 of the female buckle element 420, so that the fourth base plate 320 and the first base plate 210 are further fixed through the screws.

S6, assembling the third installation module 500a: a male fastener 410 is installed on a side of the third ceiling tile 500 adjacent to the second ceiling tile 300 such that the second ceiling tile 300 forms a third installation module 500a.

S7, splicing the third installation module 500a with the second installation module 300 a: the male buckle element 410 on the third suspended ceiling plate 500 is inserted into the female buckle element 420 of the second suspended ceiling plate 300, so that the male buckle element 410 on the third suspended ceiling plate 500 is buckled and connected with the female buckle element 420 of the second suspended ceiling plate 300, and the third base plate 310 is lapped with the sixth base plate 520, then one side of the third suspended ceiling plate 500 far away from the second suspended ceiling plate 300 is fixed on the side wall 620 through the side keel 130, and sequentially penetrates through the sixth base plate 520, the third base plate 310 and the second bottom edge 421 of the female buckle element 420 through screws, so that the sixth base plate 520 and the third base plate 310 are further fixed through the screws.

S8, painting the finishing layer 700 (shown in fig. 5), when the first, second and third mounting modules 200a, 300a and 500a finish the splice, the first, second and third ceiling panels 200, 300 and 500 are spliced to form a ceiling plane layer, the finishing layer 700 may be painted on the ceiling plane layer to decorate the ceiling plane layer, wherein the finishing layer 700 may include a putty layer 710 and a latex paint layer 720, for example, when the third mounting module 500a finish the splice is finished, a putty layer 710 may be painted on the outer surfaces of the first, second and third ceiling panels 200, 300 and 500 to form a leveling layer on the outer surfaces of the first, second and third ceiling panels 200, 300 and 500, and then a latex paint layer 720 may be painted on the putty layer 710 to beautify the outer surfaces of the first, second and third ceiling panels 200, 300 and 500, finally completing the effect.

Therefore, the mounting method of the assembled fast-assembly suspended ceiling system provided by the application can realize the splicing between the two adjacent suspended plates by means of the buckling connection of the buckling component 400, avoid the occurrence of cracks in the splicing of the two adjacent suspended plates, realize the fast splicing and mounting of the two adjacent suspended plates, reduce the construction difficulty and improve the mounting efficiency.

In summary, the application discloses an assembled fast-assembling suspended ceiling system and an installation method, wherein the assembled fast-assembling suspended ceiling system comprises a fixed module, a first suspended ceiling plate, a second suspended ceiling plate and a buckle assembly, the fixed module comprises a top keel and a vertical keel, the vertical keel is used for being connected with the top keel, the first suspended ceiling plate is fixed on the vertical keel to achieve that the first suspended ceiling plate is fixed on a wall top, the second suspended ceiling plate is used for being spliced with the first suspended ceiling plate, the buckle assembly comprises a male buckle piece and a female buckle piece, the male buckle piece is connected with the second suspended ceiling plate to form a second installation module, the female buckle piece is connected with the first suspended ceiling plate and the vertical keel to form a first installation module, and the male buckle piece is buckled and connected with the female buckle piece to achieve that the first installation module is spliced with the second installation module. The application realizes the splicing of the first suspended ceiling plate and the second suspended ceiling plate by means of the buckling connection of the buckling component, avoids the occurrence of cracks in the splicing of the first suspended ceiling plate and the second suspended ceiling plate, is convenient to install, can realize the rapid splicing and installation of the first suspended ceiling plate and the second suspended ceiling plate, reduces the construction difficulty and improves the installation efficiency.

The foregoing description of the preferred embodiments of the application is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the application.

Claims (10)

1. An assembled fast-assembling furred ceiling system, characterized in that includes:

The fixing module comprises a top keel and a vertical keel, and the vertical keel is used for being connected with the top keel;

The first suspended ceiling plate is fixed on the vertical keels so as to be fixed on the wall top;

The second suspended ceiling plate is used for being spliced with the first suspended ceiling plate;

The buckle assembly comprises a male buckle piece and a female buckle piece, wherein the male buckle piece is connected to the second ceiling plate to form a second installation module, the female buckle piece is connected to the first ceiling plate and the vertical keel to form a first installation module, and the male buckle piece is connected with the female buckle piece in a buckled mode to achieve the first installation module and the second installation module.

2. The fabricated, ready-to-install ceiling system of claim 1, wherein the male fastener comprises:

the first bottom edge is used for being connected with the second ceiling plate;

A first insertion portion formed to extend upward from the first bottom edge;

the first high vertical edge extends upwards from one side, away from the first insertion portion, of the first bottom edge.

3. The assembled quick-install ceiling system of claim 1, wherein the female snap comprises:

The second bottom edge is used for being connected with the first ceiling plate;

The second slot is arranged at the second bottom edge;

The second fixing vertical edge is formed by extending upwards from one side, far away from the second slot, of the second bottom edge, and the second fixing vertical edge is used for being connected with the fixing module.

4. The fabricated, ready-to-install ceiling system of claim 3, wherein the second slot comprises:

The second groove wall extends upwards from the second bottom edge to form a second groove wall;

The second groove bottom is connected to one end of the second groove wall, which is far away from the second bottom edge;

the second elastic structure body is connected to one end, far away from the second groove wall, of the second groove bottom, and the second elastic structure body, the second groove bottom and the second groove wall are sequentially connected to form a groove structure with an opening.

5. The assembled quick install ceiling system as defined in claim 4, wherein the second resilient structure comprises:

The second elastic side wall is connected to one end of the second groove bottom, which is far away from the second groove wall;

And the second inclined wall extends outwards from the second elastic side wall to form the groove structure, so that the opening of the groove structure is large and the groove bottom is small.

6. The assembled quick install ceiling system of claim 1 wherein the first bottom edge of the male clip member is mounted to the top of the second ceiling panel, the first insertion portion of the male clip member extending upwardly away from the top of the second ceiling panel;

the second bottom edge of the female buckle piece is arranged at the top of the first ceiling plate, and the notch of the second slot of the female buckle piece is exposed out of the first ceiling plate and faces to one side of the first insertion part.

7. The fabricated, ready-to-install ceiling system of claim 1, wherein the first ceiling tile comprises:

one end of the first base layer plate is provided with a first splicing end, and the other end of the first base layer plate is provided with a second splicing end;

The second base layer board, second base layer board one end has the third concatenation end, and the other end has the fourth concatenation end, the second base layer board with first base layer board is connected and is formed first range upon range of body, just first concatenation end with third concatenation end parallel and level is connected, the second concatenation end with the fourth concatenation end is connected and is formed first split layer structure.

8. The fabricated, ready-to-install ceiling system of claim 1, wherein the second ceiling tile comprises:

one end of the third base layer plate is provided with a fifth splicing end, and the other end of the third base layer plate is provided with a sixth splicing end;

and one end of the fourth base layer plate is provided with a seventh splicing end, the other end of the fourth base layer plate is provided with an eighth splicing end, the fourth base layer plate is connected with the third base layer plate to form a second laminated body, the fifth splicing end is connected with the seventh splicing end to form a second staggered layer structure body, and the sixth splicing end is connected with the eighth splicing end to form a third staggered layer structure body.

9. The fabricated, ready-to-install ceiling system of claim 8, further comprising:

A third ceiling tile, the third ceiling tile comprising: the first base layer plate and the second base layer plate are arranged on the same side of the first base layer plate, and the second base layer plate is arranged on the same side of the first base layer plate; one end of the sixth base layer board is provided with an eleventh splicing end, the other end of the sixth base layer board is provided with a twelfth splicing end, the sixth base layer board is connected with the fifth base layer board to form a third laminated body, the ninth splicing end is connected with the eleventh splicing end in a flush manner, and the tenth splicing end is connected with the twelfth splicing end to form a fourth staggered layer structure;

the fourth staggered layer structure body is used for being spliced with the third staggered layer structure body;

one side of the fifth base layer board, which is close to the ninth splicing end, is provided with another male buckle piece;

One side, close to the sixth splicing end, of the third base layer board is provided with another female clamping piece, and the other female clamping piece is connected with the vertical keel;

the male buckle piece on the fifth base plate is used for being buckled and connected with the female buckle piece on the third base plate so as to realize the buckled and connected between the third ceiling plate and the second ceiling plate;

the fixing module also comprises an edge keel which is used for being connected with the side wall,

One end of the third suspended ceiling plate, which is far away from the male buckle piece, is connected with the edge keel so as to fix the third suspended ceiling plate on the side wall;

The side keel is arranged at one end, far away from the female buckle piece, of the first suspended ceiling plate, and the first suspended ceiling plate is connected with the side wall through the other side keel.

10. The installation method of the assembled fast-assembled suspended ceiling system is characterized by comprising the following steps of:

fixing the side keels on the side walls and fixing the top keels on the tops of the walls;

the first ceiling plate, a female buckle piece and a vertical keel are assembled in advance to form a first installation module, so that the vertical keel is connected with the first ceiling plate through the female buckle piece; assembling the second ceiling plate and a male buckle piece to form a second installation module, so that the second ceiling plate is fixedly connected with the male buckle piece;

The first installation module is fixed on the wall top, so that one side of the first ceiling plate, which is far away from the vertical keels, is connected with the side wall through the side keels, and the vertical keels on the first ceiling plate are fixed on the wall top;

And splicing the second installation module with the first installation module, so that the male buckle piece on the second ceiling plate is buckled and connected with the female buckle piece on the first ceiling plate, and the second ceiling plate is spliced with the first ceiling plate.