CN220414590U

CN220414590U - Composite keel wall system

Info

Publication number: CN220414590U
Application number: CN202321151168.3U
Authority: CN
Inventors: 陈永毅; 王强; 杨润滨
Original assignee: China Construction Technology Beijing Co ltd
Current assignee: China Construction Technology Beijing Co ltd
Priority date: 2023-05-12
Filing date: 2023-05-12
Publication date: 2024-01-30
Anticipated expiration: 2033-05-12

Abstract

The utility model discloses a composite keel wall system, which comprises a vertical keel and ceramic tile splice blocks, wherein a plurality of vertical keels are correspondingly arranged at intervals to form a keel frame, the ceramic tile splice blocks are hung and clamped on one side face of the keel frame, namely a plurality of ceramic tile splice blocks which are vertically distributed from top to bottom are hung and clamped between the side ends of two adjacent vertical keels, the vertical keels are composite keels, each vertical keel comprises a partition part and a clamping part, each partition part comprises a partition body, mounting grooves are respectively arranged on two opposite side walls of each partition body, the clamping parts are connected to the mounting grooves, each clamping part comprises a C-shaped steel plate, vertical alternate baffle plates and sockets are formed on the opening side plates of the C-shaped steel plates, and Cheng Kacao is arranged behind each baffle plate; the back of the tile splicing block is provided with a reinforcing rib, the upper part and the lower part of the vertical reinforcing ribs at the two ends are respectively adhered with a hanging piece, the height of the hanging piece is smaller than that of the socket, the hanging piece is hung and clamped with the clamping part of the vertical keel, and a sealing strip is arranged between the vertical tile splicing blocks.

Description

Composite keel wall system

Technical Field

The utility model relates to a composite keel wall system.

Background

The existing assembled wall body is installed in a dry-method-based mode, but the existing assembled wall body cannot be locally detached. Although the traditional wet operation is replaced in the early construction stage and conditions are provided for pipeline separation, the maintenance, renovation, upgrading and transformation links in the later stage are not convenient, so that the advantages of the assembly type construction method are not fully reflected. Furthermore, so-called part recycling is also actually low in proportion.

The existing assembled wall or the traditional wall is added after the facing, so that the facing of the wall is different in thickness of paint, wallpaper or ceramic tile, wall hanging board and the like, and the splicing of different facing materials brings trouble.

Disclosure of Invention

The utility model aims to provide a composite keel wall system which is detachable and high in recycling rate, and the wall finishing layers are positioned on the same plane no matter what materials are adopted.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

a composite joist wall system, characterized in that: the vertical keel comprises a partition part and clamping parts, wherein the partition part comprises a partition body, mounting grooves are respectively formed in the two opposite side walls of the partition body, the clamping parts are connected to the mounting grooves, the clamping parts comprise C-shaped steel plates, vertical alternate baffle plates and sockets are formed on the opening side plates of the C-shaped steel plates, and Cheng Kacao are arranged behind the baffle plates; the back of the tile splicing block is provided with a reinforcing rib, the upper part and the lower part of the vertical reinforcing ribs at the two ends are respectively adhered with a hanging piece, the height of the hanging piece is smaller than that of the socket, the hanging piece is hung and clamped with the clamping part of the vertical keel, and a sealing strip is arranged between the vertical tile splicing blocks.

The pendant comprises an adhesive part and a clamping part, a connecting part is arranged between the adhesive part and the clamping part, the switching part corresponds to the clamping groove part on the edge reinforcing rib of the tile splice, and the connecting part corresponds to the clamping groove.

The free end of the baffle plate of the clamping part is provided with a fin plate, the baffle plate and the fin plate are L-shaped, and the baffle plate inclines towards the direction of the T-shaped groove.

The partition part is made of a material with a partition function and a fireproof function according to requirements, the top of the partition part is convex, and the bottom of the partition part is inverted convex.

The gypsum splicing block is hung on the other side face of the keel frame, the gypsum splicing block comprises a gypsum plate block and convex supporting plates which are convexly arranged on the back faces of two ends of the gypsum plate block, clamping parts are convexly arranged on the inner side wall intervals of the convex supporting plates, the height of each clamping part is smaller than that of each inserting opening, an inserting space for a baffle to enter is formed between each clamping part and the gypsum plate block, each clamping part is inserted into each inserting opening and pushed into each clamping groove, the back face of each convex supporting plate is supported on the bottom plate of the corresponding C-shaped steel plate, and the free ends of the corresponding baffle are supported on the corresponding clamping parts to form a clamping structure of the gypsum splicing block and the corresponding vertical keel.

The clamping part on the back of the gypsum plate is L-shaped, the clamping part is thin and thick at the upper part and is spaced from the gypsum plate, the lower part of the clamping part is integrated with the gypsum plate, the upper part of the clamping part is inserted into a corresponding clamping groove, the bottom surface of the lowest L-shaped clamping part of the gypsum plate is flush with the bottom surface of the gypsum plate, the lowest L-shaped clamping part of the gypsum plate is shorter than other L-shaped clamping parts, the top side wall of the convex plate of the gypsum plate is extended, the top surface of the square plate is flush with the top surface of the gypsum plate, and after two adjacent vertical gypsum blocks are spliced, the lowest L-shaped clamping part of the gypsum block is attached to the square block of the lower gypsum block to form the same structure with other clamping parts.

The side walls at two ends of the gypsum blocks are provided with diagonally opposite obtuse-angle-shaped trimming edges, a gap between the trimming edges of two laterally adjacent gypsum blocks is filled with a side plugging structure, the top wall of each gypsum block is in a front concave-convex shape, and the bottom wall of each gypsum block is in a rear concave-convex shape.

The utility model has the beneficial effects that: on the basis of keeping the original characteristics of dry construction, pipeline separation and the like, the wall body can be subjected to non-destructive local disassembly and repeated assembly according to the rows, so that the later-stage reconstruction, maintenance and renovation are very convenient, and the operation cost is greatly reduced. In addition, the installation and the disassembly of the splice blocks can not cause surface damage, so that the construction period and the cost for manufacturing the finishing layer after the wall body is built are reduced. The tile veneer does not increase the wall thickness.

Drawings

In order to more clearly illustrate the embodiments of the present utility model, the present embodiments will be described below with reference to the accompanying drawings.

Fig. 1 is a perspective view of the present utility model.

Fig. 2 is a schematic perspective view of another view of the present utility model.

Fig. 3 is a schematic perspective view of a vertical keel.

Fig. 4 is a schematic view of a partial enlarged structure of an upper portion of the vertical keel.

Fig. 5 is a schematic view of a partial enlarged structure of the lower portion of the vertical keel.

Figure 6 is a schematic plan view of a vertical keel.

Fig. 7 is a schematic view showing the back structure of the tile.

Fig. 8 is a schematic diagram showing the construction of the front face of a tile.

Fig. 9 is a schematic view of two specifications of the pendant.

Fig. 10 is a schematic structural view of the weather strip.

Fig. 11 is a schematic plan view showing the clamping of tile segments and vertical runners.

Fig. 12 is a partially enlarged perspective view showing the tile splice and vertical keel clamping.

FIG. 13 is a schematic view of the construction of a gypsum tile.

Fig. 14 is a schematic view showing a partially enlarged construction of gypsum blocks and vertical keel clamps.

Detailed Description

The following examples are given to illustrate possible embodiments of the present utility model, but are not intended to limit the scope of the utility model.

As shown in fig. 1 to 12, the composite keel wall system of the utility model comprises a vertical keel 1 and ceramic tile blocks 2, wherein a plurality of vertical keels 1 are correspondingly arranged at intervals to form a keel frame of the wall, and one side of the keel frame is hung and clamped with the ceramic tile blocks to form a ceramic tile decorative wall; the vertical ceramic tile splice 2 that lays is inserted to the card between the side of two adjacent vertical keels, this vertical keel 1 is compound fossil fragments, this vertical keel 1 includes partition portion 11 and dress card portion 12, this partition portion is made by the material that has the partition function and have the fire prevention function as required, such as fire-retardant timber, stone plastic material or pearlite etc. this partition portion 11 includes cuts off body 111 and location protruding, this partition body is the cuboid form, the protruding location protruding 112A of establishing in this partition body's roof, the protruding location protruding 112B of establishing down in its diapire, look the top of this partition portion from the side and be the convex form, its bottom is the protruding shape of falling, be equipped with mounting groove respectively at the opposite both sides wall of this partition body, the concave middle part in diapire of this mounting groove is protruding. The mounting groove is connected with a clamping part 12, the clamping part 12 comprises a C-shaped steel plate, concave middle parts of two sides of a bottom plate of the C-shaped steel plate are convex and are attached to the bottom wall of the mounting groove, the partition part is adhered or nailed with the clamping part, vertical alternate baffles 121 and sockets 122 are formed on the opening side plate of the C-shaped steel plate, the back surface of each baffle Cheng Kacao is inclined towards the groove direction, and the installed tile splicing blocks are tightly enough to ensure that the wall surface after installation is flat. The free end of the baffle plate 121 of the clamping portion 12 is provided with a fin plate 124, the baffle plate 121 and the fin plate 124 are bent in an approximately L-shape, and in order to increase rigidity and accuracy, since the steel plate is elastic, on one hand, the bending strength is increased, and on the other hand, the bending point is not easy to deform, and the matching accuracy is not affected.

As shown in fig. 7 to 10, the back of the tile splicing block 2 is provided with reinforcing ribs 21, the reinforcing ribs are in a grid shape, the upper part and the lower part of the vertical reinforcing ribs at the two ends are respectively adhered with hanging pieces 22, the hanging pieces are metal casting pieces or injection molding pieces, the height of each hanging piece 22 is smaller than that of the corresponding jack 122, when the tile splicing block is installed, the hanging pieces are inserted into the jack and pushed into the clamping groove to be positioned, the hanging pieces are clamped with the clamping parts of the vertical keels, and a transverse T-shaped sealing strip 20 is arranged between the vertical tile splicing blocks, so that the sealing strip 20 has a sealing effect and a supporting effect. The hanger 22 includes a bonding portion 221 and a locking portion 222, a connecting portion 223 is disposed between the bonding portion 221 and the locking portion 222, the adapting portion corresponds to a clamping groove portion on a side reinforcing rib of the tile assembly and is bonded by a structural adhesive, and the locking portion 222 corresponds to the clamping groove 123. The top plate and the bottom plate of the bonding part are in an outward expansion shape and are matched with the clamping groove parts of the reinforcing ribs, the clamping part 222 is a U-shaped plate, and the connecting part is a vertical plate. Specifically, the hanging piece is of two specifications, one is adhered to the left end of the tile splicing block, the connecting part is positioned at the right end of the adhering part, and the other is adhered to the right end of the tile splicing block, and the connecting part is positioned at the left end of the adhering part. When the ceramic tile splice blocks are installed, the clamping and matching part of each ceramic tile splice block from top to bottom is inserted into the socket of the clamping and matching keel part and is clamped by pushing upwards; when the tile is disassembled, the wall paper knife is used for cutting off the pointing agent, the tile blocks are moved downwards, and the tile blocks are removed through the insertion opening, so that the disassembly and assembly time is greatly saved. Each column is independently detachable.

The gypsum splice 3 is clamped on the other side of the keel frame, as shown in fig. 13 and 14, the gypsum splice 3 comprises a gypsum plate 31 and a convex abutting plate 32 which is convexly arranged on the back surfaces of two ends of the gypsum plate, a clamping part 33 is convexly arranged on the inner side wall of the convex abutting plate 32 at intervals, the height of the clamping part 33 is smaller than that of a jack 122, an inserting space 34 for a baffle plate to enter is formed between the clamping part 33 and the gypsum plate 31, when the gypsum splice is installed, the clamping part 33 is inserted into the jack 122 and pushed into a clamping groove 123, the back surface of the convex abutting plate 22 correspondingly abuts against one side of a bottom plate of a C-shaped steel plate, the free end of the baffle plate 121 abuts against the clamping part 33 to form a clamping structure of the gypsum splice and a vertical keel, and the clamping structure realizes the independent dismounting of the gypsum splice arranged in any vertical column on the vertical keel; when dismantling, pull down the supporting legs, the downward movement gypsum piece, remove through the socket, saved the dismouting time greatly. Each row can be independently disassembled and assembled, and each row does not interfere with each other.

Further, the back clamping part of the gypsum splice is L-shaped, the clamping part is thin at the upper part and thick at the lower part, the upper part of the clamping part is spaced from the gypsum block, a slope is arranged at the top of the upper part of the clamping part, so that the gypsum splice can be effectively installed under the condition of errors, the lower part of the clamping part is integrated with the gypsum block, the upper part of the clamping part is inserted into a corresponding clamping groove, the bottom surface of the lowest L-shaped clamping part of the gypsum block is flush with the bottom surface of the gypsum block, the lowest L-shaped clamping part of the gypsum block is shorter than the other standard L-shaped clamping parts, the top side wall of the convex abutting plate of the gypsum block is provided with a square plate in an extending manner, the top surface of the square plate is flush with the top surface of the gypsum block, and after the adjacent two vertical gypsum splices are overlapped, the lowest L-shaped clamping part of the gypsum splice is identical with the standard clamping part after being attached to the square block of the lower gypsum splice.

Further, the side walls at two ends of the gypsum blocks are provided with the obtuse angle-shaped trimming edges which are diagonally opposite, the outer sides of the bending-shaped gaps between the trimming edges of the two laterally adjacent gypsum blocks are filled with side plugging structures, and the breaking effect of the wall body can be guaranteed by the bending-shaped gaps between the two laterally adjacent gypsum blocks. The top wall of the gypsum block is in front concave-convex shape and the bottom wall of the gypsum block is in back concave-convex shape, so that the top wall and the bottom wall of the upper gypsum block and the lower gypsum block are combined in a staggered way, the partition function of a wall body is increased, and the limiting effect of the adjacent gypsum blocks is enhanced.

The vertical keel adopts a composite structure, and plays four roles of separating a wall body splicing block gap, fastening a splicing block connecting structure, determining wall thickness and positioning the wall body; the wall body can be changed in any thickness and fire grade very conveniently, and the wall body with a smaller thickness can realize a higher sound insulation effect.

Claims

1. A composite joist wall system, characterized in that: the vertical keel comprises a partition part and clamping parts, wherein the partition part comprises a partition body, mounting grooves are respectively formed in the two opposite side walls of the partition body, the clamping parts are connected to the mounting grooves, the clamping parts comprise C-shaped steel plates, vertical alternate baffle plates and sockets are formed on the opening side plates of the C-shaped steel plates, and Cheng Kacao are arranged behind the baffle plates; the back of the tile splicing block is provided with a reinforcing rib, the upper part and the lower part of the vertical reinforcing ribs at the two ends are respectively adhered with a hanging piece, the height of the hanging piece is smaller than that of the socket, the hanging piece is hung and clamped with the clamping part of the vertical keel, and a sealing strip is arranged between the vertical tile splicing blocks.

2. The composite joist wall system of claim 1, wherein: the pendant comprises an adhesive part and a clamping part, a connecting part is arranged between the adhesive part and the clamping part, the connecting part corresponds to a clamping groove part on the edge reinforcing rib of the tile splice, and the connecting part corresponds to the clamping groove.

3. The composite joist wall system of claim 1, wherein: sealing strips are added between the upper tile and the lower tile.

4. The composite joist wall system of claim 1, wherein: the free end of the baffle plate of the clamping part is provided with a fin plate, the baffle plate and the fin plate are L-shaped, and the baffle plate inclines towards the direction of the T-shaped groove.

5. The composite joist wall system of claim 1, wherein: the partition part is made of a material with a partition function and a fireproof function according to requirements, the top of the partition part is convex, and the bottom of the partition part is inverted convex.

6. The composite joist wall system of claim 1, wherein: the gypsum splicing block is hung on the other side face of the keel frame, the gypsum splicing block comprises a gypsum plate block and convex supporting plates which are convexly arranged on the back faces of two ends of the gypsum plate block, clamping parts are convexly arranged on the inner side wall intervals of the convex supporting plates, the height of each clamping part is smaller than that of each inserting opening, an inserting space for a baffle to enter is formed between each clamping part and the gypsum plate block, each clamping part is inserted into each inserting opening and pushed into each clamping groove, the back face of each convex supporting plate is supported on the bottom plate of the corresponding C-shaped steel plate, and the free ends of the corresponding baffle are supported on the corresponding clamping parts to form a clamping structure of the gypsum splicing block and the corresponding vertical keel.

7. The composite joist wall system of claim 6, wherein: the clamping part on the back of the gypsum plate is L-shaped, the clamping part is thin and thick at the upper part and is spaced from the gypsum plate, the lower part of the clamping part is integrated with the gypsum plate, the upper part of the clamping part is inserted into a corresponding clamping groove, the bottom surface of the lowest L-shaped clamping part of the gypsum plate is flush with the bottom surface of the gypsum plate, the lowest L-shaped clamping part of the gypsum plate is shorter than other L-shaped clamping parts, the top side wall of the convex plate of the gypsum plate is extended, the top surface of the square plate is flush with the top surface of the gypsum plate, and after two adjacent vertical gypsum blocks are spliced, the lowest L-shaped clamping part of the gypsum block is attached to the square block of the lower gypsum block to form the same structure with other clamping parts.

8. The composite joist wall system of claim 7, wherein: the side walls at two ends of the gypsum blocks are provided with diagonally opposite obtuse-angle-shaped trimming edges, a gap between the trimming edges of two laterally adjacent gypsum blocks is filled with a side plugging structure, the top wall of each gypsum block is in a front concave-convex shape, and the bottom wall of each gypsum block is in a rear concave-convex shape.