CN219365118U - Wall top heightening structure - Google Patents

Abstract

The utility model relates to the technical field of assembled suspended ceilings, in particular to a wall top heightening structure. The high-rise structure of the wall top is arranged between the low-level suspended ceiling plate and the side wall body and comprises a high-level suspended ceiling plate, wherein the horizontal plane of the high-level suspended ceiling plate is higher than that of the low-level suspended ceiling plate, and the high-level suspended ceiling plate is connected with the top wall body through a high-level keel; one end of the high-level ceiling plate is provided with a wall plate heightening plate, and the other end of the high-level ceiling plate is provided with a ceiling heightening plate; the wall plate heightening plate is flush with and connected with the wall plate arranged on the side wall body, and the suspended ceiling heightening plate is connected with one surface of the low suspended ceiling plate, which is close to the top wall body; the ceiling heightening plate, the high-position ceiling plate and the wallboard heightening plate form a light return lamp groove, the low-position ceiling plate comprises a mounting part positioned in the light return lamp groove, and the mounting part is provided with a lamp. The construction of the light return lamp trough structure is completed under the condition that the installation height of the low-position ceiling plate is not reduced.

Description

Wall top heightening structure

Technical Field

The utility model relates to the technical field of assembled suspended ceilings, in particular to a wall top heightening structure.

Background

The ceiling decoration is a decoration method commonly adopted in indoor designs, can increase layering sense of indoor space, and plays a role in beautifying and decorating. The current decoration industry is developing towards industrialization, modularization and assembly type installation, namely, all parts needed for decoration are produced in a factory, and then transported to a decoration site for combined installation, so that the traditional operations of measuring, cutting and the like of the parts in the decoration site are omitted, the construction is simpler and more convenient, the construction efficiency of the decoration site can be greatly improved by adopting the assembly type installation in the suspended ceiling process of a kitchen and a toilet, the construction site is tidier and attractive, excessive decoration material garbage is not generated, and the decoration construction form is more environment-friendly.

In an assembled suspended ceiling with a light return lamp groove structure, in order to achieve a light return effect, a lamp is arranged on the back surface of the end part of the suspended ceiling, and at the moment, in order to help the connection of the suspended ceiling and not to influence the light effect of the lamp, a section bar with the installation height higher than that of the suspended ceiling is generally arranged. For example, patent document with publication number CN215211827U discloses such a furred ceiling multipurpose return light groove, which comprises a section bar main body, one side of the top terminal surface of section bar main body is equipped with first spread groove, one side of section bar main body is equipped with the second spread groove, the below of first spread groove is equipped with decurrent vertical installation department, the below of second spread groove is equipped with first mounting groove, the middle part of section bar main body is equipped with the return light groove, one side of return light groove corresponds the position of first mounting groove is equipped with the lamp groove. Because the installation height of the section bar needs to be higher than the installation height of the suspended ceiling plate, the assembly mode for reducing the installation height of the suspended ceiling plate can be selected in most assembly suspended ceiling structures, and the problems that the suspended ceiling occupies more floor height and the indoor movable height is lower exist.

Disclosure of Invention

The present utility model has been made to solve the above-mentioned problems, and an object of the present utility model is to provide a wall top heightening structure for forming a backlight lamp groove without lowering the installation height of a ceiling plate.

The technical scheme for solving the problems is that the wall top heightening structure is arranged between a low-level suspended ceiling plate and a side wall body and comprises a high-level suspended ceiling plate, wherein the horizontal plane of the high-level suspended ceiling plate is higher than that of the low-level suspended ceiling plate, and the high-level suspended ceiling plate is connected with a top wall body through a high-level keel; one end of the high-level ceiling plate is provided with a wall plate heightening plate, and the other end of the high-level ceiling plate is provided with a ceiling heightening plate; the wall plate heightening plate is flush with and connected with the wall plate arranged on the side wall body, and the suspended ceiling heightening plate is connected with one surface of the low suspended ceiling plate, which is close to the top wall body; the ceiling heightening plate, the high-position ceiling plate and the wallboard heightening plate form a light return lamp groove, the low-position ceiling plate comprises a mounting part positioned in the light return lamp groove, and the mounting part is provided with a lamp.

Preferably, the wall plate heightening plate is connected with the wall plate through a connecting piece, the connecting piece comprises a flush plate, and the wall plate heightening plate are both abutted with the flush plate; the connecting piece also comprises a fixing plate connected with the flush plate, and the fixing plate is connected with the top surface of the wallboard.

Preferably, the connecting piece further comprises a limiting plate arranged on the fixing plate, wherein one surface of the wallboard heightening plate is abutted against the flush plate, and the other surface of the wallboard heightening plate is abutted against the limiting plate.

Preferably, the connecting piece further comprises a reinforcing plate arranged on the fixing plate, wherein one surface of the wallboard is abutted against the flush plate, and the other surface of the wallboard is abutted against the reinforcing plate.

Preferably, the low-level ceiling plate and the suspended ceiling heightening plate are connected through an integrally formed reinforcement, and the reinforcement comprises a first connecting part parallel to and connected with the low-level ceiling plate and a second connecting part parallel to and connected with the suspended ceiling heightening plate.

Preferably, the low-level suspended ceiling plate is connected with the top wall body through a low-level keel, the low-level keel comprises a folded edge part connected with the low-level suspended ceiling plate, and the suspended ceiling heightening plate is abutted on the folded edge part.

As the preferable mode of the utility model, the low-level keel is in a shape of a Chinese character 'ji', and comprises two folded edge parts, wherein the two folded edge parts are respectively connected with a vertical part, and the two vertical parts are connected through a connecting part.

Preferably, the ceiling hanging bracket further comprises a reinforcing screw, wherein the reinforcing screw sequentially penetrates through the second connecting part, the ceiling heightening plate and the vertical part of the low-position keel.

Preferably, the wallboard heightening plate is provided with a half groove into which the end of the high-position ceiling plate is inserted.

Preferably, the end of the low-level suspended ceiling plate is provided with a protective sleeve.

The utility model has the beneficial effects that:

1. in this application, heightening of high-order furred ceiling board is realized through wallboard heightening plate and furred ceiling heightening plate, forms the light-back light trough between wallboard heightening plate, high-order furred ceiling board, the furred ceiling heightening plate, has accomplished the construction of light-back light trough structure under the condition that does not reduce low-order furred ceiling board mounting height.

2. In this application, the wall top heightening structure is got rid of heightening, is formed the effect of return light lamp groove outside, still forms the receipts limit structure between low-order furred ceiling board and the side wall body naturally, and the furred ceiling need not further to install and receives the limit piece, has improved the simplicity of furred ceiling installation to the cost is reduced.

3. In this application, wallboard heightening plate is connected through the connecting piece with the wallboard, has guaranteed the flush degree and the connection stability between wallboard heightening plate and the wallboard.

Drawings

FIG. 1 is a front view of a wall crown elevation structure;

FIG. 2 is a schematic view of a wall crown elevation structure;

FIG. 3 is an enlarged view at A in FIG. 2;

FIG. 4 is a schematic view of the structure of a connector in a raised construction of a wall roof;

in the figure: the ceiling comprises a low-level ceiling plate 1, a lamp 13, a low-level keel 2, a flanging part 21, a wallboard 3, a high-level ceiling plate 51, a ceiling heightening plate 52, a wallboard heightening plate 53, a reinforcing screw 54, a high-level keel 6, a flush plate 71, a fixing plate 72, a limiting plate 73 and a reinforcing plate 74.

Detailed Description

The following is a specific embodiment of the present utility model, and the technical solution of the present utility model is further described with reference to the accompanying drawings, but the present utility model is not limited to these examples.

A wall top heightening structure is used in an installation space with a pair of opposite first side walls, a pair of opposite second side walls and the first side walls and the second side walls being basically vertical as shown in figure 2. The first side wall body and the second side wall body are collectively called a side wall body, and wallboards 3 are arranged on the side wall bodies. In this embodiment, the first side wall and the second side wall are not shown in the drawings, and for convenience of explanation, the right wall plate 3 in fig. 1 is denoted as a wall plate provided on the second side wall. The wall panel 3 may be attached to the side wall body in any manner, such as by gluing, dry hanging, screw attachment, etc. In this embodiment, the wall board 3 is a composite board, which includes an inner board with a certain supporting hardness, such as a gypsum board, a thickened ceramic tile, etc., and an outer board with a decorative effect, such as a foam board, etc., and the inner board and the outer board are combined together by a detachable connection, such as gluing, buckling, etc., to form the wall board 3. The wallboard 3 is mounted on the side wall body in a screw and adhesive auxiliary dry hanging mode, for example, firstly, a section bar with a groove structure is nailed into the side wall body through screws, a section bar with an insert block structure is nailed into the back surface of the wallboard 3 through screws, the mounting is realized through the matching of the grooves and the insert blocks, and meanwhile, an adhesive can be coated between the grooves and the insert blocks to further improve the strength; furthermore, a profile for fixing the bottom end of the wall plate 3, such as a U-shaped profile, can be provided on the floor of the installation space, the bottom plate of which is screwed into the floor, and the bottom end of the wall plate 3 is inserted into the U-shaped groove. The height of the wall plate 3 does not exceed the height of the side wall body, and the specific height of the wall plate 3 is correspondingly set according to the installation height of the follow-up suspended ceiling and the heightened structure.

The furred ceiling is mainly by a monolithic structure that a plurality of furred ceiling boards splice forms, install at the top of this installation space, set up the heightening structure between furred ceiling monolithic structure and the side wall body. The ceiling tiles used to construct the suspended ceiling in this embodiment are referred to as low-level ceiling tiles 1 and the ceiling tiles in the raised configuration are referred to as high-level ceiling tiles 51, depending on the relative heights. The length of the high end ceiling tile 51 is greater than the distance between the end of the low end ceiling tile 1 and the wall panel 3.

The low-level suspended ceiling plates 1 are connected with the top wall body by adopting low-level keels 2, as shown in fig. 2, the length direction of the low-level keels 2 is parallel to the length direction of the low-level suspended ceiling plates 1, and the number of the low-level keels 2 arranged on the back surface of each suspended ceiling plate is not limited, and one to two low-level keels can be adopted. The low-level keel 2 is not limited in structure, square-tube-shaped, I-shaped and I-shaped, and the I-shaped keels are all adopted in the embodiment, as shown in fig. 1, namely, the low-level keel 2 comprises two folded edge parts 21 which are respectively parallel to the low-level ceiling plate 1 and are connected or welded through screws, the two folded edge parts 21 are respectively connected with vertical parts, the two vertical parts are connected through tops, and the folded edge parts, the vertical parts and the tops are formed integrally. The several keels are generally hooked and connected with a square pipe installed on the top wall body through a hooking member, for example, an S-shaped hooking member can be adopted, one end of the S-shaped hooking member is inserted between the edge folding portion 21 and the low-level ceiling plate 1, then the edge folding portion 21, the hooking member and the low-level ceiling plate 1 are fixedly connected, and the other end of the S-shaped hooking member is lapped on the square pipe. The splicing mode between the adjacent low-level suspended ceilings 1 is not limited, so that the side surfaces of the low-level suspended ceilings 1 can be directly abutted; the splicing structure can also be connected by adopting a splicing structure, such as a groove is formed in the side surface of the low-position suspended ceiling plate 1, the splicing structure can be an inverted T-shaped section, two ends of the splicing structure in the horizontal direction are respectively inserted into the grooves of the two adjacent low-position suspended ceiling plates 1, and a lapping plate and the like are further arranged at one end of the splicing structure in the vertical direction so as to be connected with square pipes arranged on a top wall body.

The high-level suspended ceiling plate 51 is connected with the top wall body by adopting a high-level keel 6, the structure and the mounting mode of the high-level keel 6 are consistent with those of the low-level keel 2, and the difference is that the height of the adopted hooking piece is smaller than that of the hooking piece adopted by the low-level keel 2 in the connection of the high-level keel 6 and the top wall body so as to ensure the flatness of the whole suspended ceiling structure.

In order to form a backlight lamp groove, as shown in fig. 1, a suspended ceiling heightening plate 52 is arranged between the high suspended ceiling plate 51 and the low suspended ceiling plate 1, and a wallboard heightening plate 53 is arranged between the high suspended ceiling plate 51 and the wallboard 3 of the second side wall body. The inverted U-shaped light-returning lamp groove is formed among the suspended ceiling heightening plate 52, the high-position suspended ceiling plate 51 and the wall heightening plate 53. In order to improve the return light effect, the suspended ceiling heightening plate 52, the high-level suspended ceiling plate 51 and the wall plate heightening plate 53 are provided with reflecting films on the surfaces close to the return light lamp groove.

The suspended ceiling heightening plate 52, the high-level suspended ceiling plate 51 and the wall heightening plate 53 can be integrally formed, or can be formed in a splicing manner as in the present embodiment. For example, as shown in fig. 2 and fig. 3, after the suspended ceiling heightening plate 52 is vertically spliced with the high-level suspended ceiling plate 51, a plurality of L-shaped corner brackets are arranged at the connection positions of the suspended ceiling heightening plate 52 and the high-level suspended ceiling plate 51, the horizontal plates of the corner brackets are tightly attached to the high-level suspended ceiling plate 51 and welded or screwed, the vertical plates are tightly attached to the suspended ceiling heightening plate 52 and welded or screwed, and the corner brackets can be arranged at external corners or/and internal corners of the vertical structure of the suspended ceiling heightening plate 52 and the high-level suspended ceiling plate 51 so as to avoid influencing the appearance of the backlight lamp groove.

The connection between the wall panel raised plate 53 and the high-level ceiling plate 51 is the same, and the corner brace structure can be adopted. Further, in order to improve the connection strength between the two, as shown in fig. 1, a thicker wall plate heightening plate 53 is adopted, a half groove is formed at the upper end of the wall plate heightening plate 53, and the end of the high-position ceiling plate 51 is fixed by a corner bracket after being inserted into the half groove. The thickened wall panel raised plate 53 with half grooves can be formed by directly splicing two plates with inconsistent heights.

In the above structure, the two ends of the width direction of the high-level ceiling plate 51 are respectively supported and sealed by the ceiling heightening plate 52 and the wall plate heightening plate 53, further, as shown in fig. 2, a sealing plate is further arranged between the two ends of the length direction of the high-level ceiling plate 51 and the wall plate 3 arranged on the first side wall body, so that the heightening structure forms a surrounding structure with better integrity through the sealing plate. The structure of the closure panel and its mounting with the wall panel 3 and ceiling raised panel 52 are identical to the wall panel raised panel 53. As also shown in fig. 3, the closure panel is also connected to the ceiling and wall panel raised panels 52 and 53, respectively, by means of a gusset.

When the heightening structure is installed, firstly, the assembly of a suspended ceiling heightening plate 52, a high-level suspended ceiling plate 51, a wallboard heightening plate 53 and a sealing plate is completed on the ground, a high-level keel 6 is installed on the back surface of the high-level suspended ceiling plate 51, then the whole is lifted up, the bottom ends of the two sealing plates are lapped on the top end of a wallboard 3 of a first side wall body, then the whole is moved rightwards, the high-level keel 6 is connected with a top wall body, and the bottom end of the wallboard heightening plate 53 is lapped on the top of a wallboard 3 of a second side wall body; the position is further adjusted so that the wall panel raised plate 53 is flush with the wall panel 3.

To improve the installation stability, an adhesive may be generally applied to the bottom end of the wall panel raised plate 53 or/and the top of the wall panel 3 before lifting, and a connecting member may be added between the two as in the present embodiment. As shown in fig. 1 and 4, the connector first includes a flush plate 71, the flush plate 71 is vertically disposed, and both the front surface of the wall plate 3 and the front surface of the wall plate heightening plate 53 are abutted against the flush plate 71, so that the flush of the wall plate 3 and the wall plate heightening plate 53 is ensured by the flush plate 71. The connecting piece further comprises a fixing plate 72 for fixing the flush plate 71, the fixing plate 72 is vertically connected with the flush plate 71, the fixing plate 72 is inserted between the wall plate heightening plate 53 and the wall plate 3 and is connected with the top surface of the wall plate 3, and the connecting mode is not limited, and can be glued, connected by screws and the like. Further, in order to improve the connection strength and balance the stress of the connecting piece, the connecting piece further comprises a limiting plate 73 arranged on the fixing plate 72, one surface of the wall plate heightening plate 53 is abutted against the flush plate 71, the other surface of the wall plate heightening plate is abutted against the limiting plate 73, an adhesive can be added between the wall plate heightening plate 53 and the limiting plate 73, and the wall plate heightening plate and the limiting plate can be fixedly connected through screws. The connecting piece is still including setting up the gusset plate 74 on the fixed plate 72, and gusset plate 74 is connected with the wallboard 3 one side that is close to the second side wall body, and the connected mode is also unrestricted, can be slightly greater than the distance between flush plate 71 and gusset plate 74 through the thickness of control wallboard 3 for wallboard 3 inserts behind flush plate 71 and the gusset plate 74 rather than interference combination, also can connect through the sticky mode. The flush plate 71, the fixing plate 72, the limiting plate 73, and the reinforcing plate 74 are preferably integrally formed.

After the installation of the heightened structure is completed, the low-level ceiling tile 1 is installed. Firstly, the installation of the low-level suspended ceiling plate 1 and the low-level keel 2 is completed on the ground, the installation position of the low-level keel 2 is controlled, and as shown in fig. 1, a blank part close to a second side wall body is reserved on the back surface of the low-level suspended ceiling plate 1. After the assembly, the low-level suspended ceiling plate 1 is directly lifted up, so that the low-level keel 2 is connected with the top wall body. Then, an integrally formed L-shaped reinforcement is added between the low-level ceiling plate 1 and the ceiling heightening plate 52, and the reinforcement comprises a first connecting part parallel to and connected with the low-level ceiling plate 1 and a second connecting part parallel to and connected with the ceiling heightening plate 52. Further, in order to improve the connection strength, the length of the high-level suspended ceiling plate 51 and the height of the suspended ceiling heightening plate 52 can be controlled, so that after the low-level suspended ceiling plate 1 is installed, the bottom end of the suspended ceiling heightening plate 52 is just abutted against the flanging part 21 of the low-level keel 2, and the suspended ceiling heightening plate is pressed on the low-level keel 2 to improve the installation strength between the low-level suspended ceiling plate 1 and the low-level keel 2. Further, a plurality of reinforcing screws 54 are additionally arranged, so that the reinforcing screws 54 sequentially penetrate through the second connecting portion of the reinforcing member, the suspended ceiling heightening plate 52 and the two vertical portions of the low-level keel 2, and the connecting strength is improved.

After the installation, a part of the low-level ceiling board 1 is positioned in the light returning lamp groove, which is called an installation part, and the lamp 13 is installed on the back of the installation part, so that the light returning can be realized. The lamp 13 is preferably detachably mounted by gluing, etc., so that the lamp is convenient for subsequent maintenance and replacement. Meanwhile, in order to avoid the rough edge of the low-level ceiling plate 1 from injuring operators, a layer of protective sleeve is arranged on the low-level ceiling plate 1 so as to wrap the edge of the low-level ceiling plate 1.

Based on the structure, the installation mode of the wall top heightening structure comprises the following steps:

s1, installing a connecting piece on a wallboard 3; the suspended ceiling heightening plate 52, the high-level suspended ceiling plate 51, the wallboard heightening plate 53 and the high-level keel 6 are spliced into a whole on the ground and then lifted up, so that the high-level keel 6 is connected with the top wall body, and the bottom end of the wallboard heightening plate 53 is inserted between the flush plate 71 and the limiting plate 73 of the connecting piece;

s2, lifting the low-level suspended ceiling plate 1 to enable the low-level keel 2 to be connected with the top wall body. A stiffener is then provided between the low ceiling tile 1 and the ceiling tile 52.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the utility model. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the spirit of the utility model or exceeding the scope of the utility model as defined in the accompanying claims.

Claims (10)

1. The utility model provides a wall top heightening structure, sets up between low-order furred ceiling board (1) and side wall body, its characterized in that: the high-level suspended ceiling plate (51) is positioned on a horizontal plane higher than the horizontal plane of the low-level suspended ceiling plate (1), and the high-level suspended ceiling plate (51) is connected with a top wall body through a high-level keel (6); one end of the high-level ceiling plate (51) is provided with a wall plate heightening plate (53), and the other end of the high-level ceiling plate is provided with a ceiling heightening plate (52); the wall plate heightening plate (53) is flush with and connected with the wall plate (3) arranged on the side wall body, and the suspended ceiling heightening plate (52) is connected with one surface of the low-level suspended ceiling plate (1) close to the top wall body; the light-returning lamp groove is formed among the suspended ceiling heightening plate (52), the high-position suspended ceiling plate (51) and the wallboard heightening plate (53), the low-position suspended ceiling plate (1) comprises an installation part positioned in the light-returning lamp groove, and the installation part is provided with a lamp (13).

2. A wall crown elevation structure according to claim 1, wherein: the wallboard heightening plate (53) is connected with the wallboard (3) through a connecting piece, the connecting piece comprises a flush plate (71), and the wallboard (3) and the wallboard heightening plate (53) are both abutted with the flush plate (71); the connecting piece further comprises a fixing plate (72) connected with the flush plate (71), and the fixing plate (72) is connected with the top surface of the wallboard (3).

3. A wall crown elevation structure according to claim 2, wherein: the connecting piece further comprises a limiting plate (73) arranged on the fixing plate (72), one surface of the wallboard heightening plate (53) is abutted to the flush plate (71), and the other surface of the wallboard heightening plate is abutted to the limiting plate (73).

4. A wall crown elevation structure according to claim 2, wherein: the connecting piece further comprises a reinforcing plate (74) arranged on the fixing plate (72), one face of the wallboard (3) is abutted with the flush plate (71), and the other face of the wallboard is abutted with the reinforcing plate (74).

5. A wall crown elevation structure according to claim 1, wherein: the low-level suspended ceiling plate (1) is connected with the suspended ceiling heightening plate (52) through an integrally formed reinforcement, and the reinforcement comprises a first connecting part parallel and connected with the low-level suspended ceiling plate (1) and a second connecting part parallel and connected with the suspended ceiling heightening plate (52).

6. The wall crown elevation structure of claim 5, wherein: the low-level suspended ceiling plate (1) is connected with a top wall body through a low-level keel (2), the low-level keel (2) comprises a folded edge portion (21) connected with the low-level suspended ceiling plate (1), and a suspended ceiling heightening plate (52) is abutted to the folded edge portion (21).

7. The wall crown elevation structure of claim 6, wherein: the low-level keel (2) is in a shape like a Chinese character 'ji', and comprises two folded edge parts (21), wherein the two folded edge parts (21) are respectively connected with vertical parts, and the two vertical parts are connected through connecting parts.

8. The wall crown elevation structure of claim 7, wherein: the ceiling lifting device further comprises a reinforcing screw (54), and the reinforcing screw (54) sequentially penetrates through the second connecting portion, the ceiling heightening plate (52) and the vertical portion of the low-position keel (2).

9. A wall crown elevation structure according to claim 1, wherein: the wallboard heightening plate (53) is provided with a half groove into which the end part of the high-position ceiling plate (51) is inserted.

10. A wall crown elevation structure according to claim 1, wherein: the end part of the low-position suspended ceiling plate (1) is provided with a protective sleeve.