CN112814213A

CN112814213A - Assembly type wall with wire box and installation method thereof

Info

Publication number: CN112814213A
Application number: CN202011622673.2A
Authority: CN
Inventors: 许树栋; 刘长柏; 武发德; 滕伟广
Original assignee: Beijing New Building Material Group Co Ltd
Current assignee: Beijing New Building Material Group Co Ltd
Priority date: 2020-12-31
Filing date: 2020-12-31
Publication date: 2021-05-18

Abstract

The invention discloses an assembly type wall with a wire box and an installation method thereof. The assembled wall body with the wire box comprises a ceiling keel, a first module and a second module, wherein the ceiling keel is fixed on an upper floor slab and a lower floor slab; the first module and the second module are both composed of a plurality of module units arranged along the length direction of the first module and the second module, a wire box assembly is arranged between the first module and the second module, and the wire box assembly is fixed with the first module or the second module. The installation method comprises the following steps: preparing a module unit, installing a ceiling keel, fixing a first module, fixing a wire box assembly and installing a second module. The invention relates to the field of buildings, and provides an assembly type wall with a wire box and an installation method thereof.

Description

Assembly type wall with wire box and installation method thereof

Technical Field

The invention relates to the field of buildings, in particular to an assembly type wall with a wire box and an installation method thereof.

Background

Traditional wall body is formed by on-the-spot preparation such as fossil fragments skeleton, gypsum board and rock wool board, and the line box in it just can install after needing to install the fossil fragments skeleton, and on-the-spot process time is long, and the staff is on-the-spot to be cut moreover, install, can produce a large amount of wastes materials, can cause the staff to be in dust environment in addition inevitable.

Some fabricated walls are subjected to wire box installation in factory processing, but the installation of the fabricated walls is limited, the fabricated walls can only be installed at specified positions and cannot be flexibly installed, if pipelines are changed, the walls can only be damaged for refitting, and unnecessary troubles are brought to workers inevitably.

Disclosure of Invention

The embodiment of the invention provides an assembly type wall body with a wire box, which comprises a top and bottom keel fixed on an upper floor slab and a lower floor slab, and a first module and a second module which are vertically arranged between the upper floor slab and the lower floor slab, wherein the first module and the second module are arranged in the thickness direction of the assembly type wall body, the first module and the second module are fixed to form a partition wall, and the upper end and the lower end of the partition wall are respectively connected with the top and bottom keel;

the first module and the second module are both composed of a plurality of module units arranged along the length direction of the first module and the second module, a wire box assembly is arranged between the first module and the second module, and the wire box assembly is fixed with the first module or the second module.

A possible design, the line box subassembly includes line box, support and spool, the line box is fixed on the support, the spool is drawn forth by the line box, the support is fixed first module or on the second module, first module or the second module corresponds the line box is equipped with the breach.

The utility model provides a possible design, arbitrary modular unit includes the shingle nail and sets up heat preservation layer and the fossil fragments subassembly in its one side, the heat preservation is laid on the shingle nail and separate fossil fragments subassembly and shingle nail, the support is fixed on the fossil fragments subassembly, the breach sets up on the shingle nail.

The utility model provides a possible design, the fossil fragments subassembly includes vertical setting at many vertical keels, the support is fixed in two between the vertical keel, the support includes horizontally support main part and sets up the rigging board at support main part both ends, the rigging board with vertical keel offsets and fixes.

In one possible design, a horizontal subframe is provided between the two vertical keels, through which the conduit runs for the arrangement of the conduit.

One possible design, the bracket body is a U-shaped keel, a C-shaped keel, an L-shaped keel or a square tube.

In one possible design, the support is provided with a plurality of wire boxes, and the openings of the plurality of wire boxes are arranged in the same direction or in the opposite direction.

In one possible embodiment, the gaps between adjacent module units of the first module are staggered with respect to the gaps between adjacent module units of the second module.

The embodiment of the invention provides an installation method of the assembled wall with the line box, which comprises the following steps:

(1) preparing a plurality of module units in a factory and transporting the module units to a construction site after the module units are finished;

(2) fixing a top keel and a bottom keel on the upper floor slab and the lower floor slab respectively, wherein the top keel is arranged along the length direction of the assembled wall body;

(3) installing a first module, wherein the upper end and the lower end of the first module are respectively fixed with the ceiling keel;

(4) the wire box assembly is integrated and fixed on the first module;

(5) and installing a second module, wherein the second module is fixed with the ceiling keel and the first module.

A possible design, the line box assembly comprises a line box, a support and a line tube, in step (4), firstly a notch is opened on the first module, then the line box and the support are fixed as a whole, the support is fixed on the first module and the line box corresponds to the notch, and then the line box and the line tube are connected.

The assembled wall body provided by the embodiment of the invention is assembled by being divided into two parts in the thickness direction, so that the installation of the wire box assembly is facilitated, the tenon and mortise structures of the existing assembled wall body are avoided, the heat preservation layer is not damaged during installation, and the good heat insulation and sound insulation performance of the whole wall body is ensured.

The partition wall provided by the embodiment of the invention is divided into two parts in the thickness direction, namely the first module and the second module, and compared with the existing assembly type wall module, the weight of the module unit forming the first module and the second module is greatly reduced, the labor intensity in manual carrying and installation is greatly reduced, and the installation is more convenient.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and drawings.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

FIG. 1 is a schematic view of a fabricated wall with a wire box according to an embodiment of the present invention;

FIG. 2 is a schematic view of an assembled wall according to an embodiment of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2;

FIG. 4 is a schematic view of a first wall panel;

FIG. 5 is a schematic view of a second wall panel;

FIG. 6 is a schematic view of the top and bottom keel on the lower floor;

FIG. 7 is a schematic view of the installation of the wiring assembly;

FIG. 8 is an enlarged view of a portion of FIG. 7 at B;

FIG. 9 is an enlarged view of a portion of FIG. 7 at C;

FIG. 10 is a schematic view of the integration of the thread cassette with the holder;

FIG. 11 is a schematic view of a secondary support;

FIG. 12 is a schematic view of the wiring assembly mounted to the first module;

FIG. 13 is a schematic view of an installation method according to an embodiment of the invention;

FIG. 14 is a schematic view of a wiring assembly according to another embodiment of the present invention.

Reference numerals: 1-top and bottom keel, 2-keel assembly, 3-first module, 4-second module, 5-first wallboard, 6-second wallboard, 7-first self-tapping screw, 8-second self-tapping screw, 9-third self-tapping screw, 10-first vertical keel, 11-second vertical keel, 12-wall panel, 13-heat insulation layer, 14-expansion screw, 15-lower floor, 16-module unit, 17-upper floor, 20-wire box assembly, 21-wire box, 22-bracket, 23-wire pipe, 24-auxiliary bracket, 25-bracket main body, 26-attaching plate, 27-fourth self-tapping screw and 28-perforation.

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 below with reference to the accompanying drawings. It should be noted that the embodiments and features of the embodiments in the present application may be arbitrarily combined with each other without conflict.

Please refer to fig. 1 to 13, which show the assembled wall with the wire box of the present invention. The assembled wall body comprises a ceiling keel 1 fixed on an upper floor slab and a lower floor slab respectively, and a partition wall erected between the upper floor slab and the lower floor slab, wherein the partition wall is composed of a first module 3 and a second module 4, the first module 3 and the second module 4 are parallel, the upper end and the lower end of the first module 3 and the upper end and the lower end of the second module 4 are connected with the ceiling keel 1 respectively, the first module 3 and the second module 4 are fixed into a whole to form the partition wall, and the first module 3 and the second module 4 are arranged in an overlapped mode in the thickness direction of the partition wall. In particular, the first module 3 and the second module 4 are each formed of a plurality of module units 16 arranged along the length thereof, and a wire cassette assembly 20 is provided between the first module 3 and the second module 4, which is fixed to the first module 3. From this, this assembled wall body falls into two parts with the partition wall in the thickness direction, and first module 3 and second module 4 assemble promptly, have avoided the tenon and the mortise structure of current assembled wall body, do not destroy the heat preservation during the installation, and can guarantee the good thermal-insulated sound insulation performance of whole wall body. Meanwhile, compared with the existing assembled wall module, the module unit 16 forming the partition wall has the advantages that the weight is greatly reduced, the labor intensity during manual carrying and installation is greatly reduced, and the installation is more convenient.

Specifically, the gaps between the adjacent module units 16 of the first module 3 and the gaps between the adjacent module units 16 of the second module 4 are staggered, so that the heat preservation and insulation performance can be further improved. The plurality of module units 16 are divided into a first wall plate 5 and a second wall plate 6 according to their lengths, wherein the first wall plate 5 and the second wall plate 6 have the same height, and the length of the second wall plate 6 is half of the length of the first wall plate 5. Meanwhile, the first wall panel 5 and the second wall panel 6 are both composed of a wall panel 12, an insulation layer 13 and a mullion 2. Therefore, the first wall plate 5 and the second wall plate 6 are arranged in a mixed mode, and gap staggering can be achieved.

In the case of the first wall panel 5, as shown in fig. 3 and 4, the wall panel 12 of the first wall panel 5 is a gypsum board; the heat preservation 14 is laid on shingle nail 12 and is separated vertical keel 2 and shingle nail 12, and the one side of whole shingle nail 12 is covered in the bonding of heat preservation 14, and it is cotton for glass, and it is also not limited to glass cotton, also can be the rock wool, and heat preservation 14 is installed between vertical keel 2 and shingle nail 12, has reduced the acoustic bridge and the heat bridge between vertical keel 2 and the shingle nail 12, and is of value to the thermal-insulated sound insulation that keeps warm. The mullions 2 thereon include first mullions 10 vertically disposed at both ends of the first wall panel 5 in the length direction, and second mullions 11 disposed at the center of the wall panel 12 of the first wall panel 5. Further, the first and

second studs

10 and 11 are light steel studs, and have C-shaped cross sections, and an opening is formed at one side thereof. The first and

second studs

10 and 11 have the same length and height, but the width of the first stud 10 is half of the width of the second stud 11, the opening of the first stud 10 faces away from the insulation layer 14 adjacent thereto, and the opening of the second stud 11 faces toward the insulation layer 14 adjacent thereto. Meanwhile, the first vertical keel 10 and the second vertical keel 11 are fixed on the wall panel 12 through the third self-tapping screw 9, wherein the third self-tapping screw 9 is driven into the wall panel 12 from one side of the wall panel and penetrates through the wall panel 12 and the heat insulation layer 14, the first vertical keel 10 or the second vertical keel 11 is driven into the wall panel, and the heat insulation layer 14 is extruded by the first vertical keel 10 or the second vertical keel 11, so that the thickness of the heat insulation layer 14 at the vertical keel 2 is smaller than that of the heat insulation layer 14 at other positions. Notably, first keel 10 sets up at 5 length direction both ends of first wallboard, and protect gypsum board limit portion, can promote gypsum board limit portion intensity, be convenient for transport, reduce the damage of shingle nail limit portion.

In the case of the second wall panel 6, as shown in fig. 3 and 5, the wall panel 12 of the second wall panel 6 is a gypsum board, the thickness of the wall panel 12 of the second wall panel 6 is the same as the thickness of the wall panel 12 of the first wall panel 5, and the length of the wall panel 12 of the second wall panel 6 is one-half of the length of the wall panel 12 of the first wall panel 5. The heat preservation layer 14 is laid on shingle nail 12 and is separated vertical keel 2 and shingle nail 12, and the heat preservation layer 14 bonds and covers one side of whole shingle nail 12, and it is cotton for glass, and it is also not limited to glass cotton, also can be rock wool, and the heat preservation layer 14 is installed between vertical keel 2 and shingle nail 12, has reduced sound bridge and heat bridge between vertical keel 2 and shingle nail 12, and is good to the thermal-insulated sound insulation that keeps warm. The vertical keel 2 comprises a first vertical keel 10 vertically arranged at two ends of the first wall plate 5 in the length direction, wherein the first vertical keel 10 and the second vertical keel 11 are light steel keels, the cross sections of the first vertical keel 10 and the second vertical keel 11 are C-shaped, openings are formed in one sides of the first vertical keel 10 and the second vertical keel 11, and the first vertical keel 10 and the second vertical keel 11 can also be rectangular fully-closed keels. The first stud 10 is the same size, shape and length as the first stud 10 of the first wall panel 5, and the opening of the first stud 10 faces away from the insulation layer 14 attached thereto. Meanwhile, the first stud 10 is fixed on the wall panel 12 through a third self-tapping screw 9, wherein the third self-tapping screw 9 is driven into and penetrates through the wall panel 12 and the heat insulation layer 14 from one side of the wall panel 12, the first stud 10 is driven into the first stud 10, and the heat insulation layer 14 is extruded by the first stud 10, so that the thickness of the heat insulation layer 14 at the vertical keel 2 is smaller than that of the heat insulation layers 14 at other positions.

In addition, the vertical keel 2 on the first module 3 corresponds with the vertical keel 2 on the second module 4 and offsets, and the shingle nail on the first module 3 and the shingle nail on the second module 4 are in both sides, as the wall, and simultaneously, first module 3 and second module 4 are fixed through first self-tapping screw 7, and first self-tapping screw 7 runs through first module 3 or second module 4 to squeeze into the vertical keel 2 of relative modular unit 16, guarantee that the wall wholly has very high intensity.

As shown in fig. 1, 2 and 6, the ceiling keel 1 is L-shaped, or U-shaped, wherein two L-shaped ceiling keels may be disposed on the upper floor 17 or the lower floor 15, and the L-shaped ceiling keel 1 on the upper floor 17 and the lower floor 15 is fixed in the same manner as the module unit 16. Taking the following floor slab 15 as an example, two L-shaped top and bottom keels 1 are respectively fixed to the lower floor slab 15 through expansion screws 14, the two L-shaped top and bottom keels 1 are arranged in parallel and along the length direction of the partition wall, the two L-shaped top and bottom keels 1 form a 'er' shape, and an installation space of the partition wall is formed between the two L-shaped top and bottom keels 1. The ceiling keel 1 is fixed with the module unit 16 through the second self-tapping screw 8, and the second self-tapping screw 8 is driven into the outside of the L-shaped ceiling keel 1, penetrates through the wall panel 12 and the heat insulation layer 13 and is driven into the vertical keel 2. In addition, the upper and lower both ends of partition wall do not have horizontal fossil fragments, do not form the fossil fragments frame with erector fossil fragments 2, only can just be in the same place with upper floor 17 or lower floor 15 through L type world fossil fragments 1.

As shown in fig. 1, 7, 8 and 10, the wire box assembly 20 includes a wire box 21, a bracket 22 and a wire tube 23, wherein the wire box 21 is fixed on the bracket 22, the wire tube is led out from the wire box 23, the bracket 22 is fixed on the keel 2 of the first module 3, and the first module 3 is provided with a notch (not shown) corresponding to the wire box 21, and the wire box 21 is exposed out of the wall panel 12 for wiring. The support 22 is fixed between the two vertical keels 2 and comprises a horizontal support main body 25 and attachment plates 26 arranged at two ends of the support main body 25, the support main body 25 is perpendicular to the attachment plates 26, the support main body 25 is a U-shaped keel, but is not limited to a U-shaped keel, and the support can also be a C-shaped keel, an L-shaped keel or a square tube; the attachment plate 26 abuts against the stud and is fixed by a fourth self-tapping screw 27. The conduits 23 connecting the boxes 21 may be arranged horizontally or vertically, and a plurality of conduits 23 may be connected to a single box 21 according to the number of cables. As shown in fig. 9 and 11, in order to keep the conduit 23 vertical, a horizontal sub-bracket 24 is also arranged between the two vertical keels 2, which has the same structure as the bracket 22 and is composed of a bracket main body 25 and an abutting plate 26, and the main difference is that the bracket main body 25 is provided with a through hole 28, so that the conduit 23 can pass through the sub-bracket to arrange the conduit 23.

In installing the assembled wall body, as shown in fig. 13, first, the first wall panel 5 and the second wall panel 6 need to be manufactured and assembled at a factory and then transported to an installation site. And then, fixing the one-day keel 1 on the upper floor slab 17 and the lower floor slab 15 respectively according to preset positions, marking on the upper floor slab and the lower floor slab by using a horizontal and vertical laser instrument when the two-day keel is installed, and popping up marks by using ink lines so that the one-day keel 1 can be fixed correspondingly. Then, the installation of the first module 3 is completed, i.e., the respective module units 16 of the first module 3 are sequentially fixed on the ceiling keel 1. After that, the wire box assembly 20 is installed, the wire box 21 and the bracket 22 are integrated, the bracket 22 and the sub-bracket 24 are fixed on the vertical keel 2, and the wall panel 12 of the first module 3 is notched corresponding to the wire box 21, and then the respective wire pipes 23 are arranged, as shown in fig. 7 and 12. And finally, completing the installation of the second module 4, fixing the module units 16 of the second module 4 on the first module 3 one by one, and installing another ceiling keel 1 after the completion, thereby realizing the installation of the whole assembly type wall body.

In another embodiment, as shown in fig. 14, two wire boxes 21 are fixed on the bracket 22, the two wire boxes 21 have different opening directions, i.e. one faces the first module 3, and the other faces the second module 4, and when the bracket is installed, the first module 3 and the second module 4 need to be notched corresponding to the different wire boxes 21, so that the wire boxes 21 are exposed out of the wall.

By combining the embodiment, the assembled wall body provided by the embodiment of the invention is divided into two parts in the thickness direction for assembly, so that the installation of the wire box assembly is facilitated, the tenon and mortise structures of the existing assembled wall body are also avoided, the heat-insulating layer is not damaged during installation, and the good heat-insulating and sound-insulating properties of the whole wall body are ensured. The partition wall provided by the embodiment of the invention is divided into two parts in the thickness direction, namely the first module and the second module, and compared with the existing assembly type wall module, the weight of the module unit forming the first module and the second module is greatly reduced, the labor intensity in manual carrying and installation is greatly reduced, and the installation is more convenient.

In the description of the present invention, it should be noted that the terms "upper", "lower", "one side", "the other side", "one end", "the other end", "side", "opposite", "four corners", "periphery", "mouth" structure ", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the structures referred to have a specific orientation, are configured and operated in a specific orientation, and thus, are not to be construed as limiting the present invention.

In the description of the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "connected," "directly connected," "indirectly connected," "fixedly connected," "mounted," and "assembled" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; the terms "mounted," "connected," and "fixedly connected" may be directly connected or indirectly connected through an intermediate member, or may be a connection between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Although the embodiments of the present invention have been described above, the above description is only for the convenience of understanding the present invention, and is not intended to limit the present invention. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. An assembly type wall body with a wire box comprises a ceiling keel fixed on an upper floor slab and a lower floor slab, and is characterized by comprising a first module and a second module which are vertically arranged between the upper floor slab and the lower floor slab, wherein the first module and the second module are arranged in the thickness direction of the assembly type wall body, the first module and the second module are fixed to form a partition wall, and the upper end and the lower end of the partition wall are respectively connected with the ceiling keel;

2. The assembly wall with a junction box of claim 1, wherein the junction box assembly comprises a junction box, a bracket and a conduit, the junction box is fixed on the bracket, the conduit is led out from the junction box, the bracket is fixed on the first module or the second module, and the first module or the second module is provided with a notch corresponding to the junction box.

3. The assembly wall with a junction box as claimed in claim 2, wherein any one of the module units comprises a wall panel, and an insulating layer and a keel assembly provided at one side thereof, the insulating layer being laid on the wall panel and separating the keel assembly and the wall panel, the bracket being fixed to the keel assembly, the notch being provided on the wall panel.

4. The assembly wall with the wire box as claimed in claim 3, wherein the keel assembly comprises a plurality of vertical keels vertically arranged, the bracket is fixed between two vertical keels, the bracket comprises a horizontal bracket body and abutting plates arranged at two ends of the bracket body, and the abutting plates abut against and are fixed to the vertical keels.

5. The assembly wall with a junction box of claim 4, wherein a horizontal sub-bracket is provided between the two vertical keels, the conduit passing through the sub-bracket for arranging the conduit.

6. The assembly wall with a junction box according to claim 4, wherein the bracket main body is a U-shaped keel, a C-shaped keel, an L-shaped keel or a square tube.

7. The prefabricated wall body with the wire box as claimed in claim 2, wherein a plurality of wire boxes are provided on said support, and openings of said plurality of wire boxes are arranged in the same direction or in the opposite direction.

8. The prefabricated wall body with a wire cassette according to any one of claims 1 to 7, wherein a gap between adjacent said module units of said first module is staggered from a gap between adjacent said module units of said second module.

9. A method of installing the fitting wall with the line cassette as set forth in any one of claims 1 to 8, comprising:

(4) the wire box assembly is integrated and fixed on the first module;

10. The method of installing an assembly wall with a wire box according to claim 9, wherein the wire box assembly comprises a wire box, a bracket and a wire pipe, and in the step (4), a notch is formed on the first block, the wire box and the bracket are fixed as a single body, the bracket is fixed on the first block with the wire box corresponding to the notch, and the wire box and the wire pipe are connected.