CN108708482B

CN108708482B - Construction method of magnetic-suction type gypsum board partition wall

Info

Publication number: CN108708482B
Application number: CN201810438977.XA
Authority: CN
Inventors: 李先之
Original assignee: Hunan Institute of Technology
Current assignee: Hunan Institute of Technology
Priority date: 2018-05-09
Filing date: 2018-05-09
Publication date: 2020-03-24
Anticipated expiration: 2038-05-09
Also published as: CN108708482A

Abstract

A magnetic suction type gypsum board partition wall construction method relates to the technical field of building walls, and mainly comprises the following steps: firstly, building a framework by using a plurality of through keels and light steel keels; then, mounting the inner gypsum board provided with the square opening on the side surface of the framework; placing the magnets in a wood frame, chamfering the edges of the upper surfaces of all the magnets to form horizontal V-shaped grooves between two adjacent rows of horizontally arranged magnets and vertical V-shaped grooves between two adjacent rows of vertically arranged magnets, placing a plastic strip in each horizontal V-shaped groove or each vertical V-shaped groove, enabling the plastic strip to be tightly attached to the horizontal V-shaped grooves or the vertical V-shaped grooves, fixing two ends of each plastic strip on the wood frame, and nailing cross nails at the intersection positions of the horizontal V-shaped grooves and the vertical V-shaped grooves to fix the magnets in the wood frame; finally, the wood frame is placed in the square opening, and the square frame and the outer gypsum board are fixed. The construction method is simple to operate, low in construction cost, flexible and convenient.

Description

Construction method of magnetic-suction type gypsum board partition wall

Technical Field

The invention relates to the technical field of building walls, in particular to a construction method of a magnetic type gypsum board partition wall.

Background

In the technical field of buildings, the gypsum board partition wall is a light partition wall for separating indoor space, has the effects of sound insulation and fire prevention, and the traditional gypsum board partition wall structure is as shown in figure 1, and mainly comprises a framework and gypsum board wall surfaces, wherein the framework is built by a plurality of light steel keels 1 and through keels 2, the gypsum board wall surfaces are arranged on two sides of the framework, and each gypsum board wall surface comprises an outer gypsum board 3.

With the progress of technology, the diversification of product functions has become a trend in the development of various industries. In the indoor daily life, people need to frequently take and place some small-size iron articles such as keys and bottle openers, and in view of the problem that such articles are easy to find difficultly or lose due to improper placement, people improve the traditional gypsum board partition wall, design the conventional gypsum board partition wall into a magnetic structure, and can suck the small-size iron articles on the partition wall through the suction force of a magnet so as to take the small-size iron articles at any time. The existing gypsum board partition wall structure with the magnets is shown in figure 2, a whole large magnet A is arranged between an outer gypsum board 3 and a light steel keel 1, the large magnet A is in threaded connection with the light steel keel 1 through a countersunk screw 11, and the outer gypsum board 3 is in threaded connection with the light steel keel 1 through the countersunk screw 11.

Although, compare with traditional gypsum board partition wall, the gypsum board partition wall function after the improvement is more diversified, and the structure is also comparatively simple, but this kind of gypsum board partition wall has a great deal of not enoughly in actual work progress: 1. the big magnet A used in the partition wall is a whole block of magnet with large area and high magnetic field intensity, the difficulty of the big magnet A in magnetizing processing (magnetizing) is relatively large, the factory batch production efficiency is low, so the factory does not often produce, generally only produce when customizing, in addition, a plurality of counter bores used for connecting the big magnet A with the light steel keel thread are required to be arranged on the big magnet A, the counter bores cannot be drilled on the construction site (finished magnets are extremely easy to crack when being drilled on the construction site), the factory is required to reserve in advance, the comprehensive above can be known, the big magnet A is not common on the market, the factory special customizing is required to be found, and the construction cost is high. 2. The light steel keel framework is constructed by taking the counter bores reserved on the large magnets A as the reference during construction of the partition wall, and construction flexibility is limited.

Disclosure of Invention

The construction method of the magnetic type gypsum board partition wall provided by the invention is simple to operate, low in construction cost, flexible and convenient.

In order to solve the technical problems, the invention adopts the following technical scheme: a construction method of a magnetic type gypsum board partition wall comprises the following steps:

step one, a plurality of through keels and light steel keels are used for building a framework;

step two, mounting the inner gypsum board provided with the square opening on the side surface of the framework;

thirdly, placing a plurality of magnets in a wood frame with a lining board at the bottom in a matrix arrangement mode, chamfering the edges of the upper surfaces of all the magnets to form horizontal V-shaped grooves between two adjacent rows of horizontally arranged magnets and vertical V-shaped grooves between two adjacent rows of vertically arranged magnets, then placing a plastic strip with a triangular cross section in each horizontal V-shaped groove or each vertical V-shaped groove, enabling the plastic strip to be tightly attached to the horizontal V-shaped grooves or the vertical V-shaped grooves, fixing the two ends of the plastic strip on the wood frame, finally nailing a cross nail at the intersection of the horizontal V-shaped grooves and the vertical V-shaped grooves, wherein the cross nail comprises a cross-block-shaped nail cap and a cross-shaped nail rod, the nail rod penetrates through the plastic strips, is nailed into the lining board of the wood frame through cross gaps among the four magnets, and tightly presses the plastic strips against the bevels of the edges of the magnets, thereby fixing the magnet in the wooden frame;

step four, placing the wood frame in the step three in the square opening in the step two and fixedly connecting the wood frame with the framework through screws;

and step five, mounting the outer gypsum board on the outer side of the inner gypsum board, wherein the outer gypsum board covers the frame opening of the wood frame.

And a sixth step of compounding a wood veneer layer with wood grains on the outer surface of the outer gypsum board.

Further, in step one, adopt the cutting machine to set up square mouth at the middle part of interior gypsum board, the size of this square mouth and the size phase-match of wooden frame, in step four, establish the wooden frame card in square mouth for the welt of wooden frame is hugged closely and is lived light steel keel, and in step five, adopt countersunk screw with outer gypsum board and interior gypsum board and light steel keel fixed connection, outer gypsum board covers the frame mouth of wooden frame and supports and lean on the magnet in the wooden frame.

Furthermore, in the third step, a plurality of strip-shaped grooves with V-shaped cross sections are formed in the wood frame, and two ends of the plastic strip are nailed in the strip-shaped grooves through nails.

Further, the bottom of nail cap be equipped with the oblique angle assorted inclined plane on the magnet for behind the welt of cross nail income wooden frame, the inclined plane of nail cap can with the oblique angle laminating on the magnet, the nail pole includes that four are the nail piece of cross arrangement, and the thickness of every nail piece is 0.3mm, the terminal warp grinding of nail pole forms the nail point.

And furthermore, the plastic strip is a transparent plastic strip, the thickness of the plastic strip is smaller than the depth of the horizontal V-shaped groove and the depth of the vertical V-shaped groove, and after the cross nail is nailed into the lining plate of the wood frame, the upper surface of the nail cap is flush with the upper surface of the magnet.

Still further, the thickness of interior gypsum board is 8mm, the thickness of outer gypsum board is 9.5mm, the thickness of wood frame liner plate is 5mm, the magnet is the iron neodymium boron magnet of 3mm thick.

Preferably, in step three, the number of the magnets is 12, and the 12 magnets are closely arranged in a 4 × 3 matrix structure in a wooden frame.

Above-mentioned cross nail can compress tightly the plastic strip and support the oblique angle that leans on living magnet after nailing into the welt to effectively prevent that magnet from outwards deviating from, guarantee the stability that magnet placed in the wooden frame.

The construction method of the magnetic type gypsum board has fewer processes and is simple to operate, small-specification magnets are adopted to be spliced into large magnets, the difficulty of magnetization processing (magnetizing) of the small-specification magnets is lower, the batch production efficiency of factories is higher, the magnets are common in the market, after the magnets are purchased, only a grinder is used for grinding oblique angles on the edges of the magnets during actual construction, and mounting holes do not need to be reserved on the magnets, so that the factory special customization is not needed, and the construction cost can be reduced; in addition, the magnet is fixed in the wood frame firstly, and then the wood frame is fixedly connected with the light steel keel through the screw, so that the problem that the framework needs to be built by taking the countersunk hole reserved on the magnet as a reference in the background technology is solved, and the construction process is more flexible and convenient.

Drawings

Fig. 1 is a cross-sectional view of a conventional gypsum board partition wall structure;

FIG. 2 is a cross-sectional view of a conventional gypsum board partition wall structure with magnetic attraction;

FIG. 3 is a cross sectional view of the magnetic type light steel keel gypsum board combined partition wall structure of the invention;

FIG. 4 is a front view of the magnet of the present invention mounted in a wooden frame;

FIG. 5 is a cross-sectional view taken along A-A of FIG. 4;

FIG. 6 is a perspective view of a cross pin of the present invention;

FIG. 7 is a top view of a cross pin of the present invention;

FIG. 8 is a bottom view of the cross pin of the present invention;

fig. 9 is a schematic structural view of the plastic strip of the present invention.

The reference signs are:

1-light steel keel 2-piercing keel 3-external plaster slab

4-inner gypsum board 5-wood frame 5 a-strip groove

6-lining board 7-magnet 7 a-bevel angle

7 b-horizontal V-shaped groove 7 c-vertical V-shaped groove 8-plastic strip

9-cross nail 9 a-nail cap 9 b-nail rod

9 c-nail tip 9 d-inclined surface 10-wood facing layer

11-countersunk head screw A-big magnet.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, mechanically or electrically connected, or interconnected between two elements, directly or indirectly through intervening media, and the specific meaning of the terms may be understood by those skilled in the art according to their specific situation.

The construction method of the magnetic type gypsum board partition wall related to the embodiment comprises the following steps:

step one, a plurality of through keels 1 and light steel keels 2 are used for building a framework;

step two, a cutting machine is adopted to open a square opening in the middle of the inner gypsum board 4, and the inner gypsum board 4 is installed on the side face of the light steel keel 1 through a countersunk head screw 11;

step three, as shown in fig. 4, placing 12 magnets 7 in a wood frame 5 with a lining plate 6 at the bottom one by one in a 4 × 3 matrix arrangement mode, wherein the size of the wood frame 5 is matched with the size of the square opening in the step two, before the construction, as shown in fig. 4, 6 and 8, firstly grinding an oblique angle 7a on the edge of the upper surface of all the magnets 7 by using a grinding machine, ensuring that a horizontal V-shaped groove 7b is formed between two adjacent rows of horizontally arranged magnets 7 and a vertical V-shaped groove 7c is formed between two adjacent rows of vertically arranged magnets 7, then placing a plastic strip 8 (as shown in fig. 9) with a triangular cross section in all the horizontal V-shaped grooves 7b or the vertical V-shaped grooves 7c, wherein the plastic strip 8 is a transparent plastic strip, and as shown in fig. 4 and 5, the thickness of the plastic strip is smaller than the depths of the horizontal V-shaped groove 7b and the vertical V-shaped groove 7c, pressing the plastic strip 8 tightly against the horizontal V-shaped groove 7b or the vertical V-shaped groove, and both ends of the plastic strip 8 are nailed in the strip-shaped groove 5a of the wood frame 5 through nails, the strip-shaped groove 5a should be cut by adopting a transverse cutting method in advance before the construction, the cross section thereof is V-shaped, finally, a cross nail 9 is nailed in the intersection of the horizontal V-shaped groove 7b and the vertical V-shaped groove 7c, as shown in figure 6, figure 7 and figure 8, the cross nail 9 comprises a cross-block-shaped nail cap 9a and a cross-shaped nail rod 9b, the bottom of the nail cap 9a is provided with an inclined plane 9d matched with the oblique angle 7a on the magnet 7, the nail rod 9b comprises four nail pieces which are arranged in a cross shape, the thickness of each nail piece is 0.3mm, the tail end of the nail rod 9b is ground to form a nail tip 9c, the nail rod 9b penetrates through the plastic strip 8 and is nailed in the lining board 6 of the wood frame 5 through the cross-shaped gap between the four magnets 7, at the moment, the nail cap 9a compresses the strip 8 and abuts against the oblique angle 7, the inclined surface 9d of the nail cap 9a can be attached to the inclined surface 7a of the magnet 7, and the upper surface of the nail cap 9a is flush with the upper surface of the magnet 7, so that the magnet 7 is fastened in the wooden frame 5;

step four, as shown in fig. 3, the wood frame 5 in the step three is clamped in the square opening in the step two, the lining plate 6 of the wood frame 5 is made to be tightly attached to the light steel keel 1, and then the wood frame 5 is fixedly connected with the light steel keel 1 through a stainless steel flat-head self-tapping screw;

and step five, as shown in fig. 3, fixedly connecting the outer gypsum board 3, the inner gypsum board 4 and the light steel keel 1 by using countersunk head screws 11, wherein the outer gypsum board 3 covers the frame opening of the wood frame 5 and abuts against the magnet 7 in the wood frame 5.

Step six, as shown in fig. 3, a wood facing layer 10 with wood grains is compounded on the outer surface of the outer gypsum board 3 by means of gluing or screwing.

Specifically, the thickness of inner gypsum board 4 is 8mm, the thickness of outer gypsum board 3 is 9.5mm, the thickness of liner 6 of wood frame 5 is 5mm, and magnet 7 is 3mm thick iron neodymium boron magnet.

The above embodiments are preferred implementations of the present invention, and the present invention can be implemented in other ways without departing from the spirit of the present invention.

Some of the drawings and descriptions of the present invention have been simplified to facilitate the understanding of the improvements over the prior art by those skilled in the art, and some other elements have been omitted from this document for the sake of clarity, and it should be appreciated by those skilled in the art that such omitted elements may also constitute the subject matter of the present invention.

Claims

1. The construction method of the magnetic type gypsum board partition wall comprises the following steps:

2. The construction method of the magnetic type gypsum board partition wall according to claim 1, wherein: and step six, compounding a wood veneer layer with wood grains on the outer surface of the outer gypsum board.

3. The construction method of the magnetic type gypsum board partition wall according to claim 2, wherein: in the first step, a square opening is formed in the middle of the inner gypsum board through a cutting machine, the size of the square opening is matched with that of the wood frame, in the fourth step, the wood frame is clamped in the square opening, so that the lining board of the wood frame is tightly attached to the light steel keel, in the fifth step, the outer gypsum board, the inner gypsum board and the light steel keel are fixedly connected through sunk screws, and the outer gypsum board covers the frame opening of the wood frame and is abutted to magnets in the wood frame.

4. The construction method of the magnetic type gypsum board partition wall according to claim 3, wherein: and in the third step, a plurality of strip-shaped grooves with V-shaped cross sections are formed in the wood frame, and two ends of the plastic strip are nailed in the strip-shaped grooves through nails.

5. The construction method of the magnetic type gypsum board partition wall according to claim 4, wherein: the bottom of nail cap is equipped with the oblique angle assorted inclined plane with on the magnet for behind the welt of cross nail income wooden frame, the inclined plane of nail cap can with the oblique angle laminating on the magnet, the nail pole includes four nail pieces that are the cross and arrange, and the thickness of every nail piece is 0.3mm, the terminal warp grinding of nail pole forms the nail point.

6. The construction method of the magnetic type gypsum board partition wall according to claim 5, wherein: the plastic strip is transparent plastic strip, and the thickness of plastic strip is less than the degree of depth in horizontal V-arrangement groove and vertical V-arrangement groove, and behind the welt of wooden frame, the upper surface of nail cap and the upper surface parallel and level of magnet.

7. The construction method of the magnetic type gypsum board partition wall according to claim 6, wherein: the thickness of the inner gypsum plate is 8mm, the thickness of the outer gypsum plate is 9.5mm, the thickness of the wood frame lining plate is 5mm, and the magnet is an iron neodymium boron magnet with the thickness of 3 mm.

8. The construction method of the magnetic type gypsum board partition wall according to claim 7, wherein: in the third step, the number of the magnets is 12, and the 12 magnets are closely arranged in a 4 × 3 matrix structure in a wooden frame.