CN113530028A

CN113530028A - Structural system design of assembled fireproof sound insulation wall

Info

Publication number: CN113530028A
Application number: CN202110916959.XA
Authority: CN
Inventors: 刘思言; 刘旭
Original assignee: Qianjunding Jilin Construction Assembly Technology Co ltd
Current assignee: Qianjunding Jilin Construction Assembly Technology Co ltd
Priority date: 2021-08-11
Filing date: 2021-08-11
Publication date: 2021-10-22

Abstract

The invention discloses a structural system design of an assembled fireproof sound-insulation wall, which comprises a first partition wall, a second partition wall, a ceiling keel arranged at the top ends of the first partition wall and the second partition wall and used for being fixedly connected with a first building structure, and a ground keel arranged at the bottom ends of the first partition wall and the second partition wall and used for being fixedly connected with a second building structure, wherein the first partition wall comprises a first metal plate layer, a first decorative panel layer and a first fireproof sound-insulation material layer filled between the first metal plate layer and the first decorative panel layer, this second partition wall includes second metal sheet layer, second decorative panel layer and fills the second fire prevention sound insulating material layer between second metal sheet layer and second decorative panel layer, and the longumulomb bone is including the first connecting piece that can supply first partition wall top embedding to connect, the second connecting piece that can supply second partition wall top embedding to connect and the first connecting portion of the first connecting piece of fixed connection and second connecting piece.

Description

Structural system design of assembled fireproof sound insulation wall

Technical Field

The invention relates to the field of buildings, in particular to a design of an assembled fireproof sound insulation wall structure system.

Background

In recent years, with the strategic popularization of assembly type buildings, assembly type decoration is gradually becoming the development direction of decoration engineering. The assembly decoration is a concept matched with an assembly building, and is generally defined as a decoration mode of constructing parts produced in a factory on site by a dry construction method through a standardized design, and specifically comprises ceiling, partition walls and ground systems, wherein when the traditional partition walls are load-bearing walls, the traditional partition walls cannot be subjected to structural change, and the problems of hollowing, water seepage and the like are frequently caused in wet operation. The construction period is long, the labor cost is high, and the requirement of assembly type decoration development cannot be met.

Disclosure of Invention

The present invention addresses the above-identified deficiencies of the prior art by providing a modular fire and sound insulating wall structural system design.

The technical scheme adopted by the invention for solving the technical problems is as follows: the assembled fireproof sound insulation wall structure system design is constructed, the sound insulation wall comprises a first partition wall, a second partition wall, a ceiling keel arranged at the top end of the first partition wall and the top end of the second partition wall and used for being fixedly connected with a first building structure, and a ground keel arranged at the bottom end of the first partition wall and the bottom end of the second partition wall and used for being fixedly connected with a second building structure, the first partition wall comprises a first metal plate layer, a first decorative panel layer and a first fireproof sound insulation material layer filled between the first metal plate layer and the first decorative panel layer, the second partition wall comprises a second metal plate layer, a second decorative panel layer and a second fireproof sound insulation material layer filled between the second metal plate layer and the second decorative panel layer, the ceiling keel comprises a first connecting piece for enabling the first partition wall to be connected in an embedded mode, a second connecting piece for enabling the top end of the second partition wall to be connected in an embedded mode, a second partition wall to be connected in a second partition wall, and a second partition wall, The first connecting portion is fixedly connected with the first connecting piece and the second connecting piece, a first connecting hole through which a bolt can penetrate is formed in the first connecting portion, the ground keel comprises a third connecting piece, a fourth connecting piece and a second connecting portion, the third connecting piece can be used for enabling the bottom end of the first partition wall to be connected in an embedded mode, the fourth connecting piece can be used for enabling the top end of the second partition wall to be connected in an embedded mode, the second connecting portion is fixedly connected with the third connecting piece and the fourth connecting piece, and a second connecting hole through which the bolt can penetrate is formed in the second connecting portion.

In the design of the assembled fireproof sound-insulating wall structure system, the top end of the first metal plate layer vertically extends to the top ends of the first fireproof sound-insulating material layer and the first decorative panel layer to form a first top end metal plate wrapping the top ends of the first fireproof sound-insulating material layer and the first decorative panel layer, and a first mortise and tenon groove is formed in the first top end metal plate;

the bottom end of the first metal plate layer vertically extends to the bottom ends of the first fireproof sound insulation material layer and the first decorative panel layer and forms a first bottom end metal plate wrapping the bottom ends of the first fireproof sound insulation material layer and the first decorative panel layer, and a second mortise and tenon groove is formed in the first bottom end metal plate.

In the design of the assembled fireproof sound-insulating wall structure system, the top end of the second metal plate layer vertically extends to the top ends of the second fireproof sound-insulating material layer and the second decorative panel layer to form a second top end metal plate wrapping the top ends of the second fireproof sound-insulating material layer and the second decorative panel layer, and a third mortise and tenon groove is formed in the second top end metal plate;

the bottom end of the second metal plate layer vertically extends to the bottom ends of the second fireproof sound insulation material layer and the second decorative panel layer and forms a second bottom end metal plate wrapping the bottom ends of the second fireproof sound insulation material layer and the second decorative panel layer, and a fourth mortise and tenon groove is formed in the second bottom end metal plate.

In the structural design of the assembled fireproof sound insulation wall, the sound insulation wall further comprises a stand column, a first riveting block which can be clamped into the first mortise and tenon groove, the second mortise and tenon groove, the third mortise and tenon groove or the fourth mortise and tenon groove is arranged on the side wall of the stand column, and a second riveting block which can be clamped between the first partition wall and the second partition wall is further arranged on the side wall of the stand column.

In the design of the assembled fireproof and sound insulation wall structure system, the first metal plate layer and the second metal plate layer are both concave-convex plate-shaped metal plates.

In the design of the assembled fireproof and soundproof wall structure system, a hollow interlayer for a pipeline to pass through is arranged between the first wall plate and the second wall plate.

In the design of the assembled fireproof and soundproof wall structure system, the first connecting piece is a first U-shaped connecting piece, the second connecting piece is a second U-shaped connecting piece, and the first connecting part is a first connecting plate which is arranged between the first U-shaped connecting piece and the second U-shaped connecting piece and is used for fixedly connecting the first U-shaped connecting piece and the second U-shaped connecting piece.

In the design of the assembled fireproof and soundproof wall structure system, the first connecting plate is fixedly connected with the first building structure through a hanging rib or an expansion bolt.

In the design of the assembled fireproof and sound insulation wall structure system, the third connecting piece is a third U-shaped connecting piece, the fourth connecting piece is a fourth U-shaped connecting piece, and the second connecting part is a second connecting plate which is arranged between the third U-shaped connecting piece and the fourth U-shaped connecting piece and is used for fixedly connecting the third U-shaped connecting piece and the fourth U-shaped connecting piece.

In the design of the assembled fireproof and sound insulation wall structure system, the second connecting plate is fixedly connected with the second building structure through expansion bolts.

The design of the assembled fireproof sound insulation wall structure system has the following beneficial effects: when the assembled fireproof and sound insulation wall structure system is designed, the skyrockets are fixedly connected with the first building structure (building floor slab) through the hanging ribs and the like, the floor keels are fixedly connected with the second building structure (building floor slab) through the expansion bolts, then the top ends of the first partition walls and the top ends of the second partition walls are respectively clamped into the first connecting piece and the second connecting piece of the skyrockets, and the bottom ends of the first partition walls and the bottom ends of the second partition walls are respectively clamped into the third connecting piece and the fourth connecting piece of the floor keels, so that the dry assembly of the first partition walls and the second partition walls is realized. Compare with traditional partition wall, the sound insulation wall of this application has that the dead weight is light, practice thrift space, engineering time shorten advantage such as greatly. And through setting up first fire prevention sound insulation material layer and second fire prevention sound insulation material layer, play better fire prevention sound insulation effect.

Drawings

The invention will be further described with reference to the accompanying drawings and examples, in which:

FIG. 1 is a schematic structural view of a fabricated fire and sound protection wall according to the present invention;

FIG. 2 is a schematic structural view of a ceiling keel and a floor keel of the fabricated fireproof and sound-proof wall of the invention;

FIG. 3 is a schematic structural view of a first partition wall of the fabricated fire and sound insulation wall according to the present invention;

FIG. 4 is a schematic view of the splicing structure of the first partition wall and the second partition wall in the fabricated fireproof and sound insulation wall according to the present invention;

fig. 5 is another structural schematic view of the fabricated fire and sound insulation wall of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 1 to 4, in a first embodiment of the present invention, the prefabricated fire and sound insulation wall structure system comprises a first partition wall 2, a second partition wall 3, a keel 4 disposed at the top end of the first partition wall 2 and the second partition wall 3 and adapted to be fixedly connected to a first building structure 23, a keel 5 disposed at the bottom end of the first partition wall 2 and the second partition wall 3 and adapted to be fixedly connected to a second building structure 24, the first partition wall 2 comprising a first metal sheet layer 6, a first decorative panel layer 7, and a first fire and sound insulation material layer 8 filled between the first metal sheet layer 6 and the first decorative panel layer 7, the second partition wall 3 comprising a second metal sheet layer, a second decorative layer, and a second fire and sound insulation material layer filled between the second metal sheet layer and the second decorative panel layer, the keel 4 comprising a first connecting member 9 for inserting and connecting the top end of the first partition wall 2, The second connecting piece 10 that can supply this second partition wall 3 top embedding to connect, and the first connecting portion 11 of fixed connection this first connecting piece 9 and second connecting piece 10, be equipped with the first connecting hole that can supply the bolt to pass on this first connecting portion 11, this keel 5 is including the third connecting piece 12 that can supply this first partition wall 2 bottom embedding to connect, the fourth connecting piece 13 that can supply this second partition wall 3 top bottom embedding to connect, and the second connecting portion 14 of fixed connection this third connecting piece 12 and fourth connecting piece 13, be equipped with the second connecting hole that can supply the bolt to pass on this second connecting portion 14.

When the assembled fireproof and sound insulation wall structure system 1 is used, the ceiling keel 4 is fixedly connected with a first building structure 23 (building floor) through a hanging rib 25 and the like, the floor keel 5 is fixedly connected with a second building structure 24 (building floor) through an expansion bolt 26, then the top end of the first partition wall 2 and the top end of the second partition wall 3 are respectively clamped into the first connecting piece 9 and the second connecting piece 10 of the ceiling keel 4, and the bottom end of the first partition wall 2 and the bottom end of the second partition wall 3 are respectively clamped into the third connecting piece 12 and the fourth connecting piece 13 of the floor keel 5, so that the dry assembly of the first partition wall 2 and the second partition wall 3 is realized. Compare with traditional partition wall, the sound insulation wall 1 of this application has the dead weight light, practices thrift space, engineering time shortens advantages such as greatly. And through setting up first fire prevention sound insulation material layer 8 and second fire prevention sound insulation material layer, play better fire prevention sound insulation effect.

Preferably, the first fireproof sound insulation material layer 8 and the second fireproof sound insulation material layer are both fireproof sound insulation cotton.

As shown in fig. 3, in order to facilitate splicing of two adjacent first wall panels or second wall panels, the top end of the first metal plate layer 6 extends vertically to the top ends of the first fireproof and sound insulation material layer 8 and the first decorative panel layer 7 and forms a first top end metal plate 15 wrapping the top ends of the first fireproof and sound insulation material layer 8 and the first decorative panel layer 7, and a first mortise and tenon joint groove 17 is formed in the first top end metal plate 15. The bottom end of the first metal plate layer 6 vertically extends to the bottom ends of the first fireproof sound insulation material layer 8 and the first decorative panel layer 7, a first bottom end metal plate 16 wrapping the bottom ends of the first fireproof sound insulation material layer 8 and the first decorative panel layer 7 is formed, and a second mortise and tenon joint groove 18 is formed in the first bottom end metal plate 16.

Similarly, the top end of the second metal plate layer vertically extends to the top ends of the second fireproof and sound insulation material layer and the second decorative panel layer to form a second top end metal plate wrapping the top ends of the second fireproof and sound insulation material layer and the second decorative panel layer, and a third mortise and tenon groove is formed in the second top end metal plate. The bottom end of the second metal plate layer vertically extends to the bottom ends of the second fireproof sound insulation material layer and the second decorative panel layer and forms a second bottom end metal plate wrapping the bottom ends of the second fireproof sound insulation material layer and the second decorative panel layer, and a fourth mortise and tenon groove is formed in the second bottom end metal plate.

As shown in fig. 4, when the first wall panel is assembled, the first mortise and tenon groove 17 and the second mortise and tenon groove 18 between two adjacent first wall panels can be aligned, and then the riveting block 19 is clamped into the first mortise and tenon groove 17 and the second mortise and tenon groove 18 between two adjacent first wall panels, so that the two adjacent first wall panels are spliced. It can be understood that the splicing mode of the second wall board is the same as that of the first wall board when the second wall board is spliced, and the details are not repeated.

As shown in fig. 5, the sound insulation wall 1 further includes a vertical column 22, a first rivet block 20 capable of being snapped into the first mortise and tenon groove 17, the second mortise and tenon groove 18, the third mortise and tenon groove or the fourth mortise and tenon groove is disposed on a side wall of the vertical column 22, and a second rivet block 21 capable of being snapped into a space between the first partition wall 2 and the second partition wall 3 is further disposed on a side wall of the vertical column 22.

Preferably, the pillar 22 is a metal pillar 22, and the metal pillar 22 is filled with a fireproof and sound insulation material.

In order to increase the strength of the first metal sheet layer 6 and the second metal sheet layer, the first metal sheet layer 6 and the second metal sheet layer are both concavo-convex plate-like metal plates.

For better fire-proof and sound-proof effects and for facilitating the laying of the pipeline 28, a hollow partition 27 is provided between the first wall panel and the second wall panel for the pipeline 28 to pass through.

Specifically, the first connecting member 9 is a first "U" shaped connecting member, the second connecting member 10 is a second "U" shaped connecting member, and the first connecting portion 11 is a first connecting plate disposed between the first "U" shaped connecting member and the second "U" shaped connecting member for fixedly connecting the first "U" shaped connecting member and the second "U" shaped connecting member. The first connector plate is fixedly connected to the first building structure 23 by means of suspension bars 25 or expansion bolts 26.

Specifically, the third connecting member 12 is a third U-shaped connecting member, the fourth connecting member 13 is a fourth U-shaped connecting member, and the second connecting portion 14 is a second connecting plate disposed between the third U-shaped connecting member and the fourth U-shaped connecting member for fixedly connecting the third U-shaped connecting member and the fourth U-shaped connecting member. The second connecting plate is fixedly connected to the second building structure 24 by means of expansion bolts 26.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. The utility model provides an assembled fire prevention sound insulation wall structural system design, its characterized in that, the sound insulation wall includes first partition wall, second partition wall, set up in first partition wall and second partition wall top are used for with first building structure fixed connection's ceiling keel, set up in first partition wall and second partition wall bottom are used for with second building structure fixed connection's keel, first partition wall includes first metal sheet layer, first decorative panel layer, and packs in first fire prevention sound insulation material layer between first metal sheet layer and the first decorative panel layer, the second partition wall includes second metal sheet layer, second decorative panel layer, and packs in second fire prevention sound insulation material layer between second metal sheet layer and the second decorative panel layer, the ceiling keel includes the first connecting piece that can supply first partition wall top embedding is connected, can supply second partition wall top embedding second connecting piece, second partition wall top embedding is connected, And fixed connection the first connecting portion of first connecting piece and second connecting piece, be equipped with the first connecting hole that can supply the bolt to pass on the first connecting portion, the keel is including supplying third connecting piece, the confession that first partition wall bottom embedding is connected the fourth connecting piece and the fixed connection that second partition wall top bottom embedding is connected the second connecting portion of third connecting piece and fourth connecting piece, be equipped with the second connecting hole that can supply the bolt to pass on the second connecting portion.

2. The structural system design of the assembled fireproof and sound-insulation wall according to claim 1, wherein the top end of the first metal plate layer vertically extends to the top ends of the first fireproof and sound-insulation material layer and the first decorative panel layer and forms a first top end metal plate wrapping the top ends of the first fireproof and sound-insulation material layer and the first decorative panel layer, and a first mortise and tenon groove is formed in the first top end metal plate;

the bottom end of the first metal plate layer vertically extends to the bottom ends of the first fireproof sound insulation material layer and the first decorative panel layer and wraps the first bottom end metal plate at the bottom ends of the first fireproof sound insulation material layer and the first decorative panel layer, and a second mortise and tenon groove is formed in the first bottom end metal plate.

3. The structural system design of the assembled fireproof and sound-insulation wall as claimed in claim 2, wherein the top end of the second metal plate layer vertically extends to the top ends of the second fireproof and sound-insulation material layer and the second decorative panel layer and forms a second top end metal plate wrapping the top ends of the second fireproof and sound-insulation material layer and the second decorative panel layer, and a third mortise and tenon groove is formed in the second top end metal plate;

the bottom end of the second metal plate layer vertically extends to the bottom ends of the second fireproof sound insulation material layer and the second decorative panel layer and forms a second bottom metal plate wrapping the bottom ends of the second fireproof sound insulation material layer and the second decorative panel layer, and a fourth mortise and tenon groove is formed in the second bottom metal plate.

4. The structural system design of the assembled fireproof sound-insulation wall according to claim 3, wherein the sound-insulation wall further comprises a stand column, a first riveting block which can be clamped into the first mortise-tenon groove, the second mortise-tenon groove, the third mortise-tenon groove or the fourth mortise-tenon groove is arranged on the side wall of the stand column, and a second riveting block which can be clamped into the space between the first partition wall and the second partition wall is further arranged on the side wall of the stand column.

5. The fabricated fire and sound insulation wall structural system design of claim 1, wherein the first and second sheet metal layers are both concavo-convex sheet metal plates.

6. The fabricated fire and sound insulation wall structural system design of claim 1, wherein a hollow insulation layer through which a pipeline can pass is provided between the first wall panel and the second wall panel.

7. The fabricated fire and sound insulation wall structural system design of claim 1, wherein the first connecting member is a first "U" shaped connecting member, the second connecting member is a second "U" shaped connecting member, and the first connecting portion is a first connecting plate disposed between the first "U" shaped connecting member and the second "U" shaped connecting member for fixedly connecting the first "U" shaped connecting member and the second "U" shaped connecting member.

8. The fabricated fire and sound insulation wall structural system design of claim 7, wherein the first connecting plate is fixedly connected with the first building structure by a hanging bar or an expansion bolt.

9. The fabricated fire and sound insulation wall structural system design of claim 1, wherein the third connecting member is a third "U" shaped connecting member, the fourth connecting member is a fourth "U" shaped connecting member, and the second connecting portion is a second connecting plate disposed between the third "U" shaped connecting member and the fourth "U" shaped connecting member for fixedly connecting the third "U" shaped connecting member and the fourth "U" shaped connecting member.

10. The fabricated fire and sound insulation wall structural system design of claim 9, wherein the second connecting plate is fixedly connected with the second building structure by expansion bolts.