CN115434471A - Light steel keel gypsum board suspended ceiling construction method - Google Patents

Abstract

The application discloses a light steel keel gypsum board suspended ceiling construction method. In the scheme of this application, measure through carrying out the floor size at the scene of building, through after the adjustment is revised after measuring the completion, thereby be convenient for be suitable for the demand of construction, according to the mounted position of confirming, install in proper order required installation furred ceiling part, wherein the setting of stromatolite subassembly can be confirmed according to the design of building floor to the stromatolite subassembly, through using the stromatolite subassembly, can make the furred ceiling more stable pleasing to the eye, after the stack level subassembly is installed, rethread installation main joist is connected with the stromatolite subassembly, after the main joist is accomplished in the installation, after being fixed with the installation of false keel and main joist according to the connecting piece, install the gypsum board in proper order along the horizontal and vertical of floor again, and make the gypsum board laminate with main joist and false joist respectively, through the fix with screw, thereby with the unstable furred ceiling technical problem of gypsum board among the solution prior art.

Description

Light steel keel gypsum board suspended ceiling construction method

Technical Field

The application relates to the technical field of house building suspended ceiling construction, in particular to a light steel keel gypsum board suspended ceiling construction method.

Background

The double-deck paper furred ceiling of light gauge steel is architectural decoration's important component part, the furred ceiling engineering has concentrated engineering acoustics, various knowledge such as aesthetic, the double-deck furred ceiling of light gauge steel has good fire behaviour, light in addition, the sound insulation, antidetonation and excellent deep processing performance, consequently adopted by a large amount at modern architectural decoration in-process, the furred ceiling of light gauge steel thistle board is a very important work, the process is complicated in the furred ceiling work progress of light gauge steel thistle board in the tradition, and the quality of construction can't be guaranteed, often appear droing or becoming flexible, influence the stability of whole furred ceiling, consequently, prior art has the defect, need improve.

Disclosure of Invention

The application mainly aims to provide a light steel keel gypsum board suspended ceiling construction method, and aims to solve the technical problem that the suspended ceiling is unstable due to poor construction quality of the gypsum board suspended ceiling in the prior art.

In order to achieve the purpose, the application provides a light steel keel gypsum board suspended ceiling construction method, which comprises the following steps:

measuring the size of the floor slab, and marking a horizontal elevation datum line and a vertical datum line of the floor slab along a wall body;

determining the installation positions of the suspender and the stacking assembly based on the horizontal elevation datum line and the vertical datum line, and determining the distance between the main keel and the auxiliary keel;

sequentially installing a suspender, a stacking assembly, a main keel and a secondary keel according to the determined installation position;

sequentially installing gypsum boards along the transverse direction and the longitudinal direction of the floor slab, enabling each layer of gypsum boards to be attached to the main keel and the auxiliary keel, and fixing the gypsum boards through bolts;

after the gypsum board is installed, filling caulking materials in gaps of the gypsum board;

and after filling, putty materials are used for putty scraping on the gypsum board seams, the putty is polished to be flat after being dried, and finally, the glue paint is brushed on the outer surface of the putty.

Further, according to the mounted position of confirming, install jib, fold level subassembly, main joist and false keel's step in proper order, include:

when the length of the suspender is more than 1500mm, arranging a counter support piece at the bottom of the floor slab, arranging the stacking assembly at the bottom of the counter support piece, and fixing the suspender and the bottom of the stacking assembly;

after the suspender is installed, the main keel is installed at the bottom of the suspender;

after the main keel is installed, the auxiliary keel is installed at the bottom of the main keel through the connecting piece.

Further, the step of determining the installation positions of the hanger rods and the stacking assemblies and determining the distance between the main keel and the auxiliary keel based on the horizontal elevation datum line and the vertical datum line comprises the following steps:

the main keel and the auxiliary keel close to the wall body are U-shaped keels and are fixed on the wall body through rivet bolts.

Further, the step of determining the installation positions of the hanger rods and the stacked assemblies and determining the distance between the main keel and the auxiliary keel based on the horizontal elevation datum line and the vertical datum line comprises the following steps:

the distance between two adjacent groups of suspenders is less than or equal to 1200mm; the interval between two adjacent sets of false keel is 400mm.

Further, install the gypsum board in proper order along the horizontal and vertical of floor, make every layer of gypsum board and main joist and the laminating of false keel to after carrying out the step of fixing through the bolt, include:

the corner end of the floor slab adopts an L-shaped gypsum board.

Further, the step of filling the joints of the gypsum boards with a caulking material after the gypsum boards are installed comprises:

the first time uses a cutter to fill the caulking material in the gypsum board seams as a base layer, the thickness of the caulking seams is 50mm, and after the caulking material is dried, the second time uses the cutter to fill the caulking paper tape on the base layer.

Further, after the completion of filling, use putty material to carry out puttying on the gypsum board seam, the putty is polished after the drying and is leveled, and the step of the last glue lacquer of brushing on the putty surface includes:

after filling, putty materials are used for scraping putty for the first time on gypsum board seams, the putty is polished to be smooth after being dried, the first-time glue coating is brushed, sand paper is used for polishing after the first-time glue coating is dried, putty is scraped for the second time after polishing is finished, the putty is polished to be smooth after being dried, and the glue coating is brushed for the second time.

In the light steel keel gypsum board suspended ceiling construction method, the size of a floor board is measured on the site of a building, the measured position can comprise the actual building length, the width and the height, after the measurement is completed and the adjustment and modification are performed, relevant construction drawings are made, and the construction requirements are convenient to apply.

Drawings

FIG. 1 is a schematic flow diagram of a method for constructing a light steel joist gypsum board suspended ceiling according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of a light steel keel gypsum board suspended ceiling construction method according to an embodiment of the application.

The implementation, functional features and advantages of the object of the present application will be further explained with reference to the embodiments, and with reference to the accompanying drawings.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

Referring to fig. 1, an embodiment of the present application provides a light steel keel gypsum board suspended ceiling construction method, including the steps of:

s1, measuring the size of a floor slab, and marking a horizontal elevation datum line and a vertical datum line of the floor slab along a wall body;

s2, determining the installation positions of the suspender 1 and the stacking assembly 3 based on a horizontal elevation datum line and a vertical datum line, and determining the distance between the main keel 4 and the auxiliary keel 5;

s3, sequentially installing the suspender 1, the stacking assembly 3, the main keel 4 and the auxiliary keel 5 according to the determined installation position;

s4, sequentially installing gypsum boards along the transverse direction and the longitudinal direction of the floor slab, enabling each layer of gypsum boards to be attached to the main keel 4 and the auxiliary keel 5, and fixing the gypsum boards through bolts;

s5, after the gypsum board is installed, filling caulking materials in gaps of the gypsum board;

and S6, after filling, putty is applied to the gypsum board seams by using a putty material, the putty is polished and flattened after being dried, and finally, glue paint is brushed on the outer surfaces of the putty.

As described in the above steps S1-S2, the size of the floor slab is measured on the site of the building, where the measured position may include the actual building length, width and height, and after the measurement is completed and adjusted and modified, relevant construction drawings are made, so as to be suitable for the requirements of construction, according to the measured building length, width and height, a horizontal reference line and a vertical reference line are marked, where the horizontal reference line is used as a reference for the top of the floor slab, and a horizontal balance line is measured by a horizontal ruler or other tools, where the vertical reference line is a line set upwards from the ground position to the floor slab, the height of the vertical reference line from the ground is 1 meter, and the vertical reference line and the horizontal reference line are perpendicular to each other, so that a user can perform construction according to the marked horizontal reference line and vertical reference line, and it is possible to prevent the ceiling process from being unbalanced and affecting the construction quality; based on the horizontal elevation datum line and the vertical datum line, the installation positions of the suspender 1, the stacked assembly 3, the main keel 4 and the auxiliary keel 5 can be determined.

As mentioned in the above step S3, the main joist 4 is a joist bearing the weight of the suspended ceiling, and is required to be stable and flat, otherwise it is not convenient for bearing installation, the cross joist 5 is a part of a visible joist and a hidden joist, and it is mainly used for hanging gypsum boards, and according to the determined installation position, the suspended ceiling components to be installed are sequentially installed, firstly the hanger rod 1 is installed and fixed at the bottom of the floor slab, after the hanger rod 1 is fixed, the laminated assembly is installed, wherein the laminated assembly can determine the setting of the laminated assembly according to the design of the building floor slab, by using the laminated assembly, the suspended ceiling can be more stable and beautiful, after the laminated assembly 3 is installed, the main joist 4 is installed and fixed with the main joist 4 according to the connecting piece, thereby completing the installation of the keel components.

As described in the above steps S4 to S5, after the installation of the false keel 5 is completed, the gypsum boards are sequentially installed along the transverse direction and the longitudinal direction of the floor slab, and are respectively attached to the main keel 4 and the false keel 5, and the wooden support is used as a temporary support to attach the gypsum boards to the main keel 4 and the false keel 5, and the support can be removed after the screws are fixed. The strength performance and the deformation of the gypsum board are determined according to directions, and the longitudinal performance of the board is superior to the transverse performance of the board, so that the transverse joints of the ceiling gypsum board cannot be in the same straight line, which is an important measure for preventing deformation and joint cracking.

Like step S6 above, after the caulking material is filled in the gypsum board seam and is accomplished, can use putty material to carry out puttying at the gypsum board seam, through selecting dedicated caulking material, concentrate the caulking in the stress department of board seam, can prevent the fracture, rethread puttying can make the board seam more pleasing to the eye reliable, after puttying is accomplished, brush the rubberizing lacquer and can prevent that putty material from appearing discolouring and influencing the aesthetic property of gypsum board.

In this embodiment, the size of the floor slab is measured on site of the building, wherein the measured position may include actual building length, width and height, after the measurement is completed and the adjustment and modification are performed, relevant construction drawings are made, thereby being convenient for application of construction requirements, the ceiling components to be installed are sequentially installed according to the determined installation position, firstly, the hanger rod 1 is installed and fixed at the bottom of the floor slab, after the hanger rod 1 is fixed, the laminated assembly is installed, wherein the laminated assembly can determine the arrangement of the laminated assembly according to the design of the building floor slab, by using the laminated assembly, the ceiling is more stable and beautiful, after the laminated assembly 3 is installed, the main keel 4 is installed and connected with the laminated assembly, after the main keel 4 is installed, the auxiliary keel 5 is installed and fixed with the main keel 4 according to the connecting piece, then the gypsum boards are sequentially installed along the transverse direction and the longitudinal direction of the floor slab, and the gypsum boards are respectively attached to the main keel 4 and the auxiliary keel 5, the wooden support is used as a temporary support, the gypsum boards are attached to the main keel 4 and fixed, thereby solving the technical problem of the unstable ceiling in the prior art.

Referring to fig. 2, further, the step of sequentially installing the boom 1, the stacked assembly 3, the main runner 4 and the cross runners 5 according to the determined installation position includes:

s201, when the length of the suspender 1 is larger than 1500mm, arranging a counter support member 2 at the bottom of a floor slab, arranging a stacked assembly 3 at the bottom of the counter support member 2, and fixing the suspender 1 and the bottom of the stacked assembly 3;

s202, after the suspender 1 is installed, the main keel 4 is installed at the bottom of the suspender 1;

and S203, after the main keel 4 is installed, installing the auxiliary keel 5 at the bottom of the main keel 4 through a connecting piece.

In this embodiment, when jib 1 length is greater than 1500mm, then it is longer to show the fossil fragments that need the installation apart from the floor, for jib 1's stability, need set up one earlier before jib 1 and floor installation and return support piece, wherein anti-support piece 2 can adopt the explosion bolt to fix the built-in fitting in the floor bottom, installs jib 1 on the built-in fitting again, and is more stable when can making fossil fragments be connected with jib 1 to ensure the security of furred ceiling.

Further, the step of determining the installation positions of the suspender 1 and the stacking assembly 3 and determining the distance between the main keel 4 and the auxiliary keel 5 based on the horizontal elevation datum line and the vertical datum line comprises the following steps:

s301, the main keel 4 and the auxiliary keel 5 which are close to the wall body are U-shaped keels and are fixed on the wall body through rivet bolts.

In this embodiment, when main keel and the false keel 5 installation near the wall body, need adopt U type fossil fragments and wall body fixed to appear rocking the installation unstability phenomenon after preventing the fossil fragments installation from accomplishing, get into from the middle part of U type fossil fragments through using the rivet bolt, the bottom surface of U type fossil fragments is fixed on the wall body during, thereby realizes stable installation.

Further, the step of determining the installation positions of the boom 1 and the cascade assembly 3 and determining the distance between the main keel 4 and the auxiliary keel 5 based on the horizontal elevation datum line and the vertical datum line includes:

s401, enabling the distance between two adjacent groups of hanging rods 1 to be smaller than or equal to 1200mm; the distance between two adjacent groups of the auxiliary keels 5 is 400mm.

In the embodiment, the distance between two adjacent groups of the suspension rods 1 cannot exceed 1200mm, so that the condition that the distance between the suspension rods 1 and the suspension rods 1 is too large, the hollowed-out positions are too wide, and the stability of the suspended ceiling is affected due to the fact that excessive stress is generated when the keel and the laminated assembly are installed; the distance between the two adjacent groups of the auxiliary keels 5 is 400mm, so that the gypsum boards can be kept at a fixed interval when being installed, and the attractiveness of the installation of the gypsum boards can be ensured.

Further, install the gypsum board along the horizontal and vertical of floor in proper order, make every layer of gypsum board and the laminating of main joist 4 and false keel 5 to after carrying out fixed step through the bolt, include:

s501, adopting an L-shaped gypsum board at the corner end of the floor slab.

Adopt L type gypsum board in the corner end of floor in this embodiment, the accessible supports with the outside and the corner of L type gypsum board and closes, because the outside angle of L type gypsum board is 90 degrees, the angle of corner also is 90 degrees usually, then the accessible adopts the outside and the corner of L type gypsum board to support and close, the inboard and the fossil fragments laminating of L type gypsum board, the rethread bolt is fixed, thereby make the wholeness of furred ceiling more pleasing to the eye, and can prevent surface course fracture and the great deformation that corner stress concentration produced.

Further, after the gypsum board is installed, the step of filling the joints of the gypsum board with a caulking material includes:

s601, filling the caulking materials in the gypsum board seams to serve as a base layer by using a cutter for the first time, wherein the thickness of the caulking seams is 50mm, and filling the caulking paper tape on the base layer by using the cutter for the second time after the caulking materials are dried.

In this embodiment, when filling in the board seam of gypsum board, at first need use little spatula to fill caulking material as the bottom, prevent that the board seam from appearing the fracture, fill the caulking paper tape on the bottom again, wherein the caulking paper tape has a face as the matte, fills the matte to the bottom direction.

Further, after the completion of filling, use putty material to carry out puttying on the gypsum board seam, the putty is polished after the drying and is leveled, and the step of the adhesive tape paint on the putty surface brush at last includes:

and S701, after filling is completed, putty is scraped on a gypsum board seam for the first time by using a putty material, the putty is polished and leveled after being dried, glue paint for the first time is brushed, sand paper is used for polishing after the glue paint for the first time is dried, putty is scraped for the second time after polishing is completed, the putty is polished and leveled after being dried, and glue paint for the second time is brushed.

In this embodiment, after the completion of caulking paper tape, need scrape first layer putty on the caulking paper tape, make the caulking paper tape press from both sides between bottom and first layer putty, because first layer putty generally all can have unevenness's place, then need polish to level and smooth to first layer putty, brush first time adhesive tape after polishing the completion and prevent inside oxidation mouldy, the rethread uses abrasive paper to polish the adhesive tape, scrape putty the second time after polishing the completion again, polish again after the second layer putty is dry and level, brush the surface of one deck adhesive tape at second layer putty again, in order to prevent oxidation discoloration and influence the aesthetic property of gypsum board seam.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, apparatus, article, or method that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, apparatus, article, or method. Without further limitation, an element defined by the phrases "comprising a," "8230," "8230," or "comprising" does not exclude the presence of another identical element in a process, apparatus, article, or method comprising the element.

The above description is only a preferred embodiment of the present application, and not intended to limit the scope of the present application, and all the equivalent structures or equivalent processes that can be directly or indirectly applied to other related technical fields by using the contents of the specification and the drawings of the present application are also included in the scope of the present application.

Claims (7)

1. A light steel keel gypsum board suspended ceiling construction method is characterized by comprising the following steps:

measuring the size of the floor slab, and marking a horizontal elevation datum line and a vertical datum line of the floor slab along a wall body;

determining the installation positions of the suspender and the stacking assembly based on the horizontal elevation datum line and the vertical datum line, and determining the distance between the main keel and the auxiliary keel;

sequentially installing a suspender, a stacking assembly, a main keel and an auxiliary keel according to the determined installation position;

sequentially installing gypsum boards along the transverse direction and the longitudinal direction of the floor slab, enabling each layer of gypsum boards to be attached to the main keel and the auxiliary keel, and fixing the gypsum boards through bolts;

after the gypsum board is installed, filling caulking materials in the gaps of the gypsum board;

and after filling, putty materials are used for putty scraping on the gypsum board seams, the putty is polished to be smooth after being dried, and finally, the outer surface of the putty is brushed with glue paint.

2. The light gauge steel gypsum board suspended ceiling construction method of claim 1, wherein the step of sequentially installing the hanger rods, the stacked assemblies, the main runners and the auxiliary runners according to the determined installation positions comprises:

when the length of the suspender is more than 1500mm, arranging a reverse support piece at the bottom of the floor slab, arranging a stacking assembly at the bottom of the reverse support piece, and fixing the suspender and the bottom of the stacking assembly;

after the suspender is installed, the main keel is installed at the bottom of the suspender;

after the main keel is installed, the auxiliary keel is installed at the bottom of the main keel through the connecting piece.

3. The light gauge steel gypsum board suspended ceiling construction method of claim 1, wherein the step of determining the installation positions of the hanger rods and the stacked assemblies and the distance between the main keel and the auxiliary keel based on the horizontal elevation reference line and the vertical reference line comprises the steps of:

the main keel and the auxiliary keel close to the wall body are U-shaped keels and are fixed on the wall body through rivet bolts.

4. The light gauge steel gypsum board suspended ceiling construction method of claim 1, wherein the step of determining the installation positions of the hanger rods and the stacked assemblies and the distance between the main keel and the auxiliary keel based on the horizontal elevation reference line and the vertical reference line comprises the steps of:

the distance between two adjacent groups of suspenders is less than or equal to 1200mm; the interval between two adjacent groups of false keels is 400mm.

5. The light gauge steel gypsum board suspended ceiling construction method of claim 1, wherein the step of sequentially installing gypsum boards along the transverse direction and the longitudinal direction of the floor slab so that each layer of gypsum boards is attached to the main runners and the cross runners and fixed by bolts comprises:

and the corner end of the floor slab adopts an L-shaped gypsum board.

6. The method of constructing a light gauge steel gypsum board ceiling according to claim 1, wherein the step of filling the joints of the gypsum boards with caulking material after the installation of the gypsum boards is completed comprises:

the first time uses a cutter to fill the caulking material in the gypsum board seams as a base layer, the thickness of the caulking seams is 50mm, and after the caulking material is dried, the second time uses the cutter to fill the caulking paper tape on the base layer.

7. The light gauge steel gypsum board suspended ceiling construction method of claim 1, wherein after the filling, puttying is performed on the gypsum board seams by using putty materials, the putty is polished to be smooth after being dried, and finally, the step of brushing glue paint on the outer surface of the putty comprises the following steps:

and after filling, putty material is used for scraping putty for the first time on the gypsum board seams, the putty is polished and leveled after being dried, the glue paint for the first time is brushed, the glue paint for the first time is polished by using abrasive paper after being dried, putty is scraped for the second time after polishing, the putty is polished and leveled after being dried, and the glue paint is brushed for the second time.

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