CN115506547A

CN115506547A - Assembled wall

Info

Publication number: CN115506547A
Application number: CN202211466233.1A
Authority: CN
Inventors: 闫俊杰; 梅能敏; 孙春祥; 邵俊义; 赵静; 贾路
Original assignee: Heneng Home Technology Tianjin Group Co Ltd
Current assignee: Huaneng Renju Technology Group Co ltd
Priority date: 2022-11-22
Filing date: 2022-11-22
Publication date: 2022-12-23
Anticipated expiration: 2042-11-22
Also published as: CN115506547B

Abstract

The invention relates to the technical field of home decoration, in particular to an assembled wall, which comprises: at least two wall panels arranged correspondingly; first mosaic structure and second mosaic structure are established respectively at two adjacent wallboards and are treated the edge of concatenation, first mosaic structure is including being suitable for with the fixed first installation department in the wallboard back and being suitable for the fixed first concatenation portion of concatenation, first concatenation portion sets up with wallboard back clearance, and extends this wallboard edge, second mosaic structure is including being suitable for with the fixed second installation department in the wallboard back and being suitable for the fixed second concatenation portion of concatenation, second concatenation portion sets up with wallboard back clearance, and extends this wallboard edge, the distance between first concatenation portion and the second concatenation portion and the wallboard back is different, so that first concatenation portion and second concatenation portion dislocation are pegged graft and are supported each other and lean on. The invention provides an assembly type wall surface with high installation efficiency and low cost.

Description

Assembled wall

Technical Field

The invention relates to the technical field of home decoration, in particular to an assembled wall.

Background

The current decoration industry is developing towards the direction of industrialized and modularized installation, and the existing assembled bathroom mainly comprises a female corner assembly, a male corner assembly, a butt joint assembly, a leveling member and a ceramic tile wallboard. In order to reduce the carrying cost, the wall boards are usually assembled on site by adopting connecting pieces, and therefore, corresponding groove bodies need to be reserved at the positions where the thickness edges of the wall boards are connected with the connecting pieces, so that the flatness of the wall surface after the wall boards are assembled can be ensured only when the processing precision of the two wall boards to be assembled meets the corresponding higher requirement, and the processing cost of the wall boards is undoubtedly increased; and two adjacent wallboards are spliced with the connecting piece respectively, and the packaging efficiency is lower.

Disclosure of Invention

Therefore, the technical problem to be solved by the invention is to overcome the defects of low installation efficiency and high cost of the assembly wall in the prior art, thereby providing the assembly wall with high installation efficiency and low cost.

In order to solve the above technical problems, the present invention provides an assembled wall surface, comprising:

at least two wall panels arranged correspondingly;

first mosaic structure and second mosaic structure are established respectively at two adjacent wallboards and are treated the edge of concatenation, first mosaic structure is including being suitable for with the fixed first installation department in the wallboard back and being suitable for the fixed first concatenation portion of concatenation, first concatenation portion sets up with wallboard back clearance, and extends this wallboard edge, second mosaic structure is including being suitable for with the fixed second installation department in the wallboard back and being suitable for the fixed second concatenation portion of concatenation, second concatenation portion sets up with wallboard back clearance, and extends this wallboard edge, the distance between first concatenation portion and the second concatenation portion and the wallboard back is different, so that first concatenation portion and second concatenation portion dislocation are pegged graft and are supported each other and lean on.

Optionally, the first splicing structure further includes a first bending portion for connecting the first mounting portion and the first splicing portion, and a first filling cavity is formed between the first bending portion and the back of the wall panel; the second splicing structure further comprises a second bending part used for connecting the second installation part and the second splicing part, a second filling cavity is formed between the second bending part and the back face of the wallboard, and foaming materials are filled in the first filling cavity and the second filling cavity.

Optionally, the first splicing part at least comprises a first connecting plate, a second connecting plate and a third connecting plate which are sequentially connected, the first connecting plate is connected with the first bending part, a first included angle formed by the first connecting plate and the second connecting plate is opposite to an opening direction of a second included angle formed by the second connecting plate and the third connecting plate, and the third connecting plate is bent and extended towards a direction far away from the back face of the wallboard; the second splicing part at least comprises a fourth connecting plate, a fifth connecting plate and a sixth connecting plate which are sequentially connected, the fourth connecting plate is connected with the second bending part, and a third included angle formed by the fourth connecting plate and the fifth connecting plate is opposite to the opening direction of a fourth included angle formed by the fifth connecting plate and the sixth connecting plate; and the second connecting plate and the fourth connecting plate are mutually abutted, and the sixth connecting plate is bent and extended towards the direction close to the back face of the wallboard.

Optionally, the sixth connecting plate abuts against the first bent portion.

Optionally, the first splicing structure and the second splicing structure are both provided with a plurality of splicing structures along the height direction of the wall board.

Optionally, the opening directions of the first included angles of two adjacent first splicing structures are opposite, and the opening directions of the second included angles of two adjacent first splicing structures are opposite; the opening directions of the third included angles of the two adjacent second splicing structures are opposite, and the opening directions of the fourth included angles of the two adjacent second splicing structures are opposite.

Optionally, the plurality of first splicing structures are integrally formed, and the plurality of second splicing structures are integrally formed.

Optionally, the first mounting portions and the first bending portions of the plurality of first splicing structures are alternately arranged to form a first concave-convex structure; the second installation parts and the second bending parts of the plurality of second splicing structures are alternately arranged to form a second concave-convex structure.

Optionally, the space between the first splicing part and the wallboard back surface and the space between the second splicing part and the wallboard back surface are filled with a foaming material.

Optionally, the back of the wallboard is further provided with a plurality of groove bodies which are far away from the direction of the wallboard and are sunken, and the groove bodies are filled with heat-insulating and noise-reducing materials.

The technical scheme of the invention has the following advantages:

1. according to the assembled wall surface provided by the invention, two adjacent wall boards are mutually spliced and fixed through the matching of the first splicing part of the first splicing structure and the second splicing part of the second splicing structure, the first splicing structure and the second splicing structure are fixed at the preset positions of the back surfaces of the wall boards in advance, the original structure of the wall boards is not required to be changed, namely, the grooves in the thickness direction of the wall boards are not required to be opened, so that the thickness of the wall boards can be properly reduced, the grooves which are arranged oppositely are not required to be completely aligned, the flatness of the outer decorative surface of the assembled wall boards is ensured, the processing precision of the wall boards is reduced, the cost is lower, meanwhile, the assembly of the two wall boards can be completed only through one-time splicing, and the assembly efficiency is higher; first concatenation portion and second concatenation portion dislocation are pegged graft and are leaned on each other to guarantee the fastness after connecting, had stronger shock resistance.

2. According to the assembled wall surface provided by the invention, the arrangement of the first filling cavity and the second filling cavity improves the buffer performance of the wallboard when the wallboard is impacted, and ensures the noise reduction and heat insulation performance and the stability of the wallboard.

3. According to the assembled wall surface provided by the invention, the second connecting plate is abutted with the fourth connecting plate, and the sixth connecting plate is abutted with the first bending part, so that the first splicing part and the second splicing part are limited mutually, and the integral firmness is increased; and the third connecting plate is bent and extended towards the direction far away from the back surface of the wallboard, so that the second splicing part can be conveniently inserted.

4. According to the assembled wall surface provided by the invention, the back surface of the wall board is also provided with a plurality of groove bodies which are sunken away from the direction of the wall board, and the groove bodies are filled with heat-insulating and noise-reducing materials, so that the noise-reducing and heat-insulating properties of the wall board are further improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic view of an assembled wall provided by the present invention;

fig. 2 is an enlarged schematic view of the connection of the first mosaic structure and the second mosaic structure.

Description of reference numerals:

1. a wallboard; 2. a first mosaic structure; 3. a second mosaic structure; 4. a first mounting portion; 5. a first splice; 6. a first bent portion; 7. A second mounting portion; 8. a second splice; 9. a second bent portion; 10. a second fill cavity; 11. a first connecting plate; 12. a second connecting plate; 13. a third connecting plate; 14. a fourth connecting plate; 15. a fifth connecting plate; 16. a sixth connecting plate; 17. a space; 18. a groove body.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it is to be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Furthermore, the technical features involved in the different embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

One embodiment of the assembled wall panel shown in fig. 1 and 2 can be applied to the installation of wall panels in a toilet, and includes at least two wall panels 1 correspondingly disposed and a first splicing structure 2 and a second splicing structure 3 respectively disposed at the edges to be spliced of two adjacent wall panels 1. The edge of the wall panel 1 to be spliced refers to the edge of the wall panel 1 in the height direction, and the first and

second splicing structures

2 and 3 are fixed at a predetermined distance from the edge to be spliced in advance by an adhesive such as glue or a fastener such as a screw.

The first splicing structure 2 comprises a first mounting part 4 suitable for being fixed with the back of the wallboard 1, a first splicing part 5 suitable for being spliced and fixed, and a first bending part 6 used for connecting the first mounting part 4 and the first splicing part 5, wherein the first bending part 6 is a square cavity, and when the wallboard 1 is impacted, the elastic buffering of four right-angle sides is better and more stable; first installation department 4, first kink 6 and first concatenation portion 5 are manganese steel integrated into one piece of 0.6mm thickness, have better elasticity, and wherein two first installation departments 4 and a first kink 6 form "nearly" style of calligraphy structure, first kink 6 with form first filling chamber between the wallboard 1 back, first concatenation portion 5 sets up with 1 back clearance of wallboard, and extends this wallboard 1 edge, and until the second kink 9 of the second mosaic structure 3 that is close to corresponding, promptly, the extension length of first concatenation portion 5 is first kink 6 and treats the twice of the predetermined distance at concatenation edge. Of course, the first mounting portion 4 and the first splicing portion 5 can also be directly integrally formed as required, and the space between the first splicing portion 5 and the back surface of the wall board 1 is smaller.

The second splicing structure 3 comprises a second mounting part 7 suitable for being fixed with the back surface of the wallboard 1, a second splicing part 8 suitable for being spliced and fixed, and a second bending part 9 used for connecting the second mounting part 7 and the second splicing part 8, wherein the second bending part 9 is a square cavity, and when the wallboard 1 is impacted, the elastic buffering of four right-angle sides is better and more stable; the second installation portion 7, the second kink 9 and the second concatenation portion 8 are manganese steel integrated into one piece of 0.6mm thickness, have better elasticity, and wherein two second installation portions 7 and a second kink 9 form "nearly" style of calligraphy structure, the second kink 9 with form the second between the wallboard 1 back and fill the chamber 10, the second concatenation portion 8 sets up with 1 back clearance of wallboard, and extends this wallboard 1 edge, and up to the first kink 6 butt with the first mosaic structure 2 that corresponds, promptly, the extension length of second concatenation portion 8 is the second kink 9 and treats the twice of the predetermined distance at concatenation edge. The first splicing part 5 and the second splicing part 8 are different from the back surface of the wallboard 1, and the distance difference is the thickness of the second splicing part 8, so that the first splicing part 5 and the second splicing part 8 are inserted in a staggered mode and abut against each other. Of course, the second mounting portion 7 and the second splicing portion 8 can also be directly integrally formed as required, and the space between the second splicing portion 8 and the back of the wall panel 1 is smaller. In order to ensure smooth splicing, the first installation part 4 and the second installation part 7 have certain thickness difference, so that the first splicing part 5 and the second splicing part 8 can be in staggered butt splicing.

As shown in fig. 2, the first splicing portion 5 at least includes a first connecting plate 11, a second connecting plate 12 and a third connecting plate 13 which are connected in sequence, the first connecting plate 11 is connected with the first bending portion 6, a first included angle formed by the first connecting plate 11 and the second connecting plate 12 is opposite to an opening direction of a second included angle formed by the second connecting plate 12 and the third connecting plate 13, and the third connecting plate 13 is bent and extended towards a direction far away from the back of the wall plate 1, so that a guiding effect can be achieved when the second splicing portion 8 is spliced, that is, the first connecting plate 11, the second connecting plate 12 and the third connecting plate 13 are all inclined plates to form a wave shape. The second splicing part 8 at least comprises a fourth connecting plate 14, a fifth connecting plate 15 and a sixth connecting plate 16 which are sequentially connected, the fourth connecting plate 14 is connected with the second bending part 9, a third included angle formed by the fourth connecting plate 14 and the fifth connecting plate 15 is opposite to the opening direction of a fourth included angle formed by the fifth connecting plate 15 and the sixth connecting plate 16, and the fourth connecting plate 14, the fifth connecting plate 15 and the sixth connecting plate 16 are all inclined plates so as to form a wave shape; and second connecting plate 12 with fourth connecting plate 14 mutually supports the dependence of butt, and second connecting plate 12 sets up in the outside of keeping away from the wallboard 1 back, and fourth connecting plate 14 sets up in the inboard that is close to the wallboard 1 back, and sixth connecting plate 16 orientation is close to the direction of the wallboard 1 back is buckled and is extended, and with first kink 6 butt. The quantity of connecting plates in the first splicing part 5 and the second splicing part 8 can be increased according to the requirements of splicing, the quantity of the connecting plates depending on mutual butt is increased, the quantity of the connecting plates depending on mutual butt is more, and the resistance of the wallboard 1 in the separation direction is larger when stressed, so that the splicing reliability is improved.

For the fastness that improves 1 concatenation of two wallboards, first mosaic structure 2 and second mosaic structure 3 all are equipped with a plurality ofly along wallboard 1's direction of height, a plurality of 2 integrated into one piece of first mosaic structure, a plurality of 3 integrated into one piece of second mosaic structure. Specifically, the first installation parts 4 and the first bending parts 6 of the plurality of first splicing structures 2 are alternately arranged to form a first concave-convex structure, namely, a protrusion, a depression and a protrusion (8230); 8230; and are alternately arranged; the second installation parts 7 and the second bending parts 9 of the plurality of second splicing structures 3 are alternately arranged to form a second concave-convex structure, namely, a protrusion, a recess, a protrusion 8230, a protrusion 8230are alternately arranged. Correspond the setting to two archs of same level, be in two sunken correspondences of same level and set up to guarantee that first mosaic structure 2 and second mosaic structure 3 can splice smoothly, a plurality of sunken glue or screw and 1 back of wallboard are fixed simultaneously, have increased the connection area at first mosaic structure 2 and second mosaic structure 3 and the 1 back of wallboard, connect more firmly, play certain additional strengthening to wallboard 1.

In order to further improve the splicing firmness of the two wall panels 1, the opening directions of the first included angles of the two adjacent first splicing structures 2 are opposite, and the opening directions of the second included angles of the two adjacent first splicing structures 2 are opposite; the opening directions of the third included angles of the two adjacent second splicing structures 3 are opposite, and the opening directions of the fourth included angles of the two adjacent second splicing structures 3 are opposite. Namely, the second splicing part 8 of the first group of splicing structures is inserted into the inner side of the first splicing part 5, and the first splicing part 5 of the adjacent second group of splicing structures is inserted into the inner side of the second splicing part 8, so that a crossed splicing structure is formed, and the first splicing structure is prevented from being separated from the other wallboard 1 when one wallboard 1 is stressed on one side.

In order to improve the heat and sound insulation performance of the wallboard 1, the spaces 17 in the first filling cavity and the second filling cavity 10 and between the first splicing part 5 and the second splicing part 8 and the back surface of the wallboard 1 are filled with foam materials. In addition, the back of the wallboard 1 is also provided with a plurality of groove bodies 18 which are far away from the direction of the wallboard 1 and are sunken, the groove bodies 18 are independent respectively so as to avoid the deformation caused by the expansion and contraction of the wallboard 1, and the groove bodies 18 are filled with heat-insulating and noise-reducing materials. The foaming material is specifically a polyurethane foaming material so as to play a role in noise reduction and shock absorption; the heat-insulating noise-reducing material is ceramsite sand with the particle size of 3-5mm, and the like.

When a plurality of wallboards 1 need to be spliced, two edges of the height direction of the wallboard 1 are respectively provided with the first splicing structure 2 and the second splicing structure 3, so that the splicing directions of the splicing structures at the same horizontal height on the two edges of the same wallboard 1 are different, and the splicing reliability is further ensured.

When the wall boards 1 are installed, the first splicing structure 2 and the second splicing structure 3 are installed and fixed at preset positions of the edges of the two wall boards 1 to be spliced through glue, screws and the like, and the plurality of groove bodies 18 are filled with ceramsite sand and then fixed with the back sides of the wall boards 1; then hoisting the two wallboards 1 to be spliced to an indoor preset position, and pushing one of the wallboards 1 from left to right or from right to left along the horizontal direction, so that the first splicing part 5 of the first splicing structure 2 and the second splicing part 8 of the second splicing structure 3 are mutually crossed and spliced until the third connecting plate 13 is abutted against the second bent part 9, and the sixth connecting plate 16 is abutted against the first bent part 6; and then filling polyurethane foam materials into the spaces between the first splicing part 5 and the second splicing part 8 and the back surface of the wallboard 1, filling a first filling cavity between the first splicing structure 2 and the back surface of the wallboard 1 and a second filling cavity 10 between the second splicing structure 3 and the back surface of the wallboard 1, thereby completing the splicing of the wallboard 1, and splicing the rest of the wallboards 1 according to the step.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.

Claims

1. An assembled wall, comprising:

at least two wall panels (1) arranged correspondingly;

first mosaic structure (2) and second mosaic structure (3), establish respectively at two adjacent wallboard (1) the edge of treating the concatenation, first mosaic structure (2) including be suitable for with wallboard (1) back fixed first installation department (4) and be suitable for the fixed first concatenation portion (5) of concatenation, first concatenation portion (5) and wallboard (1) back clearance setting, and extend this wallboard (1) edge, second mosaic structure (3) including be suitable for with wallboard (1) back fixed second installation department (7) and be suitable for the fixed second concatenation portion (8) of concatenation, second concatenation portion (8) and wallboard (1) back clearance setting, and extend this wallboard (1) edge, the distance between the first concatenation portion (5) and second concatenation portion (8) and wallboard (1) back is different, so that first concatenation portion (5) and second concatenation portion (8) dislocation are pegged graft and are supported each other.

2. The assembled wall according to claim 1, wherein the first jointing structure (2) further comprises a first bent part (6) for connecting the first mounting part (4) and the first jointed part (5), wherein a first filling cavity is formed between the first bent part (6) and the back surface of the wall panel (1); the second splicing structure (3) further comprises a second bending part (9) used for being connected with the second mounting part (7) and the second splicing part (8), a second filling cavity (10) is formed between the second bending part (9) and the back of the wallboard (1), and foaming materials are filled in the first filling cavity and the second filling cavity (10).

3. The assembled wall according to claim 2, wherein the first splicing part (5) comprises at least a first connecting plate (11), a second connecting plate (12) and a third connecting plate (13) which are connected in sequence, the first connecting plate (11) is connected with the first bending part (6), a first included angle formed by the first connecting plate (11) and the second connecting plate (12) is opposite to an opening direction of a second included angle formed by the second connecting plate (12) and the third connecting plate (13), and the third connecting plate (13) is bent and extended towards a direction away from the back surface of the wall panel (1); the second splicing part (8) at least comprises a fourth connecting plate (14), a fifth connecting plate (15) and a sixth connecting plate (16) which are sequentially connected, the fourth connecting plate (14) is connected with the second bending part (9), and a third included angle formed by the fourth connecting plate (14) and the fifth connecting plate (15) is opposite to the opening direction of a fourth included angle formed by the fifth connecting plate (15) and the sixth connecting plate (16); and the second connecting plate (12) and the fourth connecting plate (14) are mutually abutted, and the sixth connecting plate (16) is bent and extended towards the direction close to the back surface of the wallboard (1).

4. Assembled wall according to claim 3, characterized in that the sixth connecting plate (16) abuts against the first bend (6).

5. Assembled wall according to claim 4, wherein the first and second splicing structures (2, 3) are each provided in plurality in the height direction of the wall panel (1).

6. The assembly type wall surface according to claim 5, wherein the opening directions of the first included angles of two adjacent first splicing structures (2) are opposite, and the opening directions of the second included angles of two adjacent first splicing structures (2) are opposite; the opening directions of the third included angles of the two adjacent second splicing structures (3) are opposite, and the opening directions of the fourth included angles of the two adjacent second splicing structures (3) are opposite.

7. Assembly type wall according to claim 5, wherein the first plurality of tiles (2) is integrally formed and the second plurality of tiles (3) is integrally formed.

8. The assembled wall according to claim 5, wherein the first mounting portions (4) and the first bent portions (6) of the plurality of first splicing structures (2) are alternately arranged to form a first concavo-convex structure; the second mounting parts (7) and the second bending parts (9) of the plurality of second splicing structures (3) are alternately arranged to form a second concave-convex structure.

9. Assembled wall according to any of claims 1 to 8, wherein the space (17) between the first and second splices (5, 8) and the back of the wall panel (1) is filled with a foamed material.

10. The assembled wall surface according to any one of claims 1 to 8, wherein a plurality of grooves (18) which are recessed far away from the wall plate (1) are further arranged on the back surface of the wall plate (1), and heat-insulating and noise-reducing materials are filled in the grooves (18).