CN220353266U

CN220353266U - Elastic coating wall

Info

Publication number: CN220353266U
Application number: CN202321805733.3U
Authority: CN
Inventors: 薛亚波; 陈斌; 许红涛; 缪丽锋
Original assignee: JIANGSU CHENGUANG PAINT CO Ltd
Current assignee: JIANGSU CHENGUANG PAINT CO Ltd
Priority date: 2023-07-10
Filing date: 2023-07-10
Publication date: 2024-01-16
Anticipated expiration: 2033-07-10

Abstract

The utility model relates to the technical field of building construction, in particular to an elastic coating wall body, which comprises a wall body, elastic coating coated on the outer surface of the wall body, and a grid frame, wherein the grid frame is arranged on the outer surface of the wall body, so that the outer surface of the wall body forms a plurality of coating areas capable of containing the elastic coating, the grid frame comprises a plurality of spliced X-shaped frames, each X-shaped frame is provided with four triangular cavities, the triangular cavities of the adjacent X-shaped frames form the coating areas, each X-shaped frame comprises two main boards which are arranged in a crossing way, elastic plates are arranged on two sides of each main board, filling materials are arranged between the elastic plates on two sides, and the filling materials are heat insulation cotton or light foam. According to the elastic coating wall, the grid frames are arranged to form a plurality of independent coating areas on the surface of the wall, and the influence on other coating areas can be reduced when a certain coating area is repaired, so that the overall effect of the elastic coating is ensured.

Description

Elastic coating wall

Technical Field

The utility model relates to the technical field of building construction, in particular to an elastic coating wall body.

Background

In modern buildings, the requirements for the inner wall are not just sound insulation and heat preservation, but the aesthetic property and the overall texture of the wall are more emphasized, so that part of the wall can use elastic paint as surface layer paint.

However, due to the poor weather resistance of the elastic coating, certain damage can occur in the use process, when the damaged part is repaired, a region with larger area needs to be determined as a repair region outside the damaged region, and the coating of the repair region needs to be removed and then re-paved in the repair process, so that the coating at other positions can be influenced in a larger area when the damaged region of the elastic coating layer is repaired.

Disclosure of Invention

In order to solve the problem that the existing elastic coating layer can cause larger area influence in the repairing process, the utility model provides the elastic coating wall body, and a plurality of independent coating areas are formed on the surface of the wall body through arranging the grid, so that the influence on other coating areas can be reduced when a certain coating area is repaired.

The utility model provides an elastic coating wall body, which comprises a wall body, elastic coating coated on the outer surface of the wall body, and a grid frame, wherein the grid frame is arranged on the outer surface of the wall body, so that a plurality of coating areas capable of containing the elastic coating are formed on the outer surface of the wall body. The outer surface of the wall body is divided into a plurality of independent coating areas through the grid, so that the wall body is convenient to repair, and the influence on other coating areas during repair is reduced.

Further, the grid frame comprises a plurality of split X-shaped frames, each X-shaped frame is provided with four triangular cavities, and the triangular cavities of adjacent X-shaped frames form a coating area. The coating is convenient to be carried out in a partitioned mode.

Further, the X-shaped frame comprises two main boards which are arranged in a crossing way, elastic boards are arranged on two sides of the main boards, and filling materials are arranged between the elastic boards on two sides. The performance of the X-shaped frame is enhanced by the filler.

Further, the filling material is heat insulation cotton or light foam. Ensure the heat preservation effect of the X-shaped frame.

Further, metal wires are uniformly paved in the triangular cavity of the X-shaped frame, and two ends of each metal wire are respectively connected with the elastic plates. The arrangement of the elastic plate matched with the metal wires can adapt to the weak deformation of the elastic coating layer.

Further, the elastic plate comprises a plurality of elastic side pieces, and two ends of the metal wire are respectively connected with the elastic side pieces. The elastic side pieces are arranged, so that a plurality of metal wires are independently arranged, and the deformation of the elastic coating layer is better adapted.

Further, the two ends of the main board are provided with the plug-in sockets, and the adjacent X-shaped frames are spliced and connected through the plug-in sockets. The X-shaped frame is convenient and quick to mount and dismount through the plug-in seat.

Further, the socket is divided into a male socket and a female socket which are matched in a plugging manner, and the male socket and the female socket are respectively arranged at two ends of the main board. The convex of the male seat is matched with the concave groove of the female seat in a plugging manner, so that the plugging stability of the X-shaped frame is ensured.

The utility model has the beneficial effects that:

the utility model provides an elastic coating wall body, which is characterized in that a plurality of independent elastic coating areas are formed on the outer surface of the wall body by arranging a grid, and when a coating layer of a certain elastic coating area needs to be repaired, the influence on other coating areas can be reduced, the operation is performed in a partitioning mode, and the overall effect of the elastic coating is ensured.

Drawings

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

FIG. 1 is a schematic view of the structure of an elastomeric paint wall;

FIG. 2 is a schematic view of the structure of the grid;

FIG. 3 is a first angular schematic view of an X-shaped gantry;

FIG. 4 is a second angular schematic view of the X-shaped gantry;

in the figure, 1, wall, 2, elastic paint, 3, grid, 4, paint area, 5, X-shaped frame, 51, triangular cavity, 52, main board, 53, elastic board, 531, elastic side piece, 54, filler, 55, wire, 56, plug-in seat, 561, male seat, 562, female seat.

Detailed Description

The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown.

In order to reduce the influence on the whole coating in the process of repairing the elastic coating layer, an elastic coating wall is designed, as shown in fig. 1, and comprises a wall body 1, an elastic coating 2 coated on the outer surface of the wall body 1, and a grid 3, wherein the grid 3 is arranged on the outer surface of the wall body 1, so that a plurality of coating areas 4 capable of containing the elastic coating 2 are formed on the outer surface of the wall body 1. The outer surface of the wall body 1 is provided with a grid frame 3 through bolts, the grid frame 3 divides the outer surface of the wall body 1 into a plurality of independent coating areas 4, and the coating areas 4 are sequentially coated with two layers of priming paint and two layers of elastic coating 2 from inside to outside.

As shown in fig. 2, the grid 3 comprises a plurality of split X-shaped frames 5, the X-shaped frames 5 having four triangular cavities 51, the triangular cavities 51 of adjacent X-shaped frames 5 constituting the paint region 4. When the surface layer of any coating area 4 is damaged, as a plurality of coating areas 4 are independently arranged, the influence on other coating areas 4 is less when repairing, the elastic coating 2 in the corresponding area can be shoveled, then the repairing can be completed by spreading again, the influence on the other elastic coating 2 in the area can not be reduced, and the influence on the other coating areas 4 when repairing the elastic coating 2 can be reduced, and meanwhile, gaps between the adjacent coating areas 4 are filled by the filling materials 54 on the grid frame 3, so that the integral effect of the elastic coating 2 is ensured.

As shown in fig. 3, the X-shaped frame 5 includes two main boards 52 disposed in a crossing manner, elastic boards 53 are disposed on two sides of the main board 52, and a filler 54 is disposed between the elastic boards 53 on two sides. By combining a plurality of X-shaped frames 5, they are installed on the wall 1 of the corresponding area. Wherein, the filler 54 can be heat-insulating cotton or light foam, and can be used for filling gaps between the adjacent coating areas 4 and guaranteeing the heat-insulating effect of the X-shaped frame 5.

In order to improve the spreading stability of the elastic coating 2, the triangular cavity 51 of the X-shaped frame 5 is uniformly paved with metal wires 55, and two ends of the metal wires 55 are respectively connected with the elastic plates 53. By the connection between the wire 55 and the elastic paint 2, the holding force of the elastic paint 2 can be enhanced, and at the same time, the cooperation of the elastic plate 53 and the wire 55 can be adapted to the weak deformation of the elastic paint 2.

As shown in fig. 4, the elastic plate 53 includes a plurality of elastic side pieces 531, and both ends of the wire 55 are connected to the elastic side pieces 531, respectively. The metal wires 55 can be independently arranged through the arrangement of the elastic side pieces 531, so that the deformation of the elastic coating 2 can be well adapted.

In order to splice a plurality of X-shaped frames 5 together to form an integral structure, two ends of the main board 52 are provided with the plug-in sockets 56, and adjacent X-shaped frames 5 are spliced and connected through the plug-in sockets 56. The socket 56 is divided into a male socket 561 and a female socket 562 which are in socket fit, and the male socket 561 and the female socket 562 are respectively arranged at two ends of the main board 52. The male seat 561 is a protruding block protruding on the socket 56, the female seat 562 is a groove formed on the socket 56, and the protruding block can be clamped in the groove to splice two adjacent X-shaped frames 5 together to form an integral structure.

The above description is illustrative of the utility model and is not to be construed as limiting, and it will be understood by those skilled in the art that many modifications, changes or equivalents may be made without departing from the spirit and scope of the utility model as defined in the appended claims.

Claims

1. The utility model provides an elastic coating wall body, includes wall body (1) and spreads elastic coating (2) at wall body (1) surface, its characterized in that still includes grid (3), grid (3) set up the surface at wall body (1), make the surface of wall body (1) form a plurality of coating district (4) that can hold elastic coating (2).

2. An elastomeric paint wall according to claim 1 wherein: the grid frame (3) comprises a plurality of spliced X-shaped frames (5), the X-shaped frames (5) are provided with four triangular cavities (51), and the triangular cavities (51) adjacent to the X-shaped frames (5) form the coating area (4).

3. An elastomeric paint wall according to claim 2 wherein: the X-shaped frame (5) comprises two main boards (52) which are arranged in a crossing mode, elastic boards (53) are arranged on two sides of the main boards (52), and filling materials (54) are arranged between the elastic boards (53) on two sides.

4. A resilient paint wall according to claim 3, wherein: the filler (54) is heat-insulating cotton or light foam.

5. A resilient paint wall according to claim 3, wherein: wires (55) are uniformly paved in the triangular cavity (51) of the X-shaped frame (5), and two ends of the wires (55) are respectively connected with the elastic plates (53).

6. An elastomeric paint wall according to claim 5 wherein: the elastic plate (53) comprises a plurality of elastic side pieces (531), and two ends of the metal wire (55) are respectively connected with the elastic side pieces (531).

7. A resilient paint wall according to claim 3, wherein: the two ends of the main board (52) are respectively provided with a plug-in socket (56), and the adjacent X-shaped frames (5) are spliced and connected through the plug-in sockets (56).

8. An elastomeric paint wall according to claim 7 wherein: the plug-in socket (56) is divided into a male socket (561) and a female socket (562) which are matched in a plug-in mode, and the male socket (561) and the female socket (562) are respectively arranged at two ends of the main board (52).