CN219158140U - Assembled mounting structure of GRG dysmorphism furred ceiling - Google Patents

Abstract

The utility model relates to the technical field of indoor decoration installation, in particular to an assembled installation structure of a GRG special-shaped suspended ceiling, which comprises a plurality of embedded plates, wherein the embedded plates are arranged on a concrete floor, and each embedded plate is provided with a plurality of expansion bolts for fixing the embedded plates with the concrete floor; the hot dip galvanized angle steel is welded and fixed on the bottom side wall of the embedded plate, and the bottom ends of the hot dip galvanized angle steel are fixedly connected with transverse keels together; the suspension assembly is arranged on the transverse keel; the utility model can smoothly solve the problems of irregular modeling processing production and irregular modeling splicing construction difficulty, greatly reduces the number of workers, improves the construction efficiency, effectively ensures the construction quality and has good popularization and application values.

Description

Assembled mounting structure of GRG dysmorphism furred ceiling

Technical Field

The utility model relates to the technical field of indoor decoration installation, in particular to an assembled installation structure of a GRG special-shaped suspended ceiling.

Background

GRG is a pre-cast glass fiber reinforced gypsum board, which is a special decorative modified fiber gypsum decorative material, and the randomness of the shape makes it the first choice for architects who require individualization.

In the decoration and fitment engineering, the GRG facing is increasingly applied to public spaces with special requirements for sound effects, such as large conference centers, concert halls, reporting halls, and the like.

In the prior art, the following problems exist:

for the installation process of installing the large-area irregular-shaped GRG in a high and large space, the process method is also to determine the process according to different engineering characteristics, and because the GRG plate unit plate is irregular in shape, the construction difficulty is increased by using a common process, the labor cost is increased intangibly, the staggered joint is easily caused by improper positioning during installation, and the final effect is influenced; this does not have good control over the quality of the project and is detrimental to the construction progress being completed on time.

Disclosure of Invention

The utility model aims to provide an assembled mounting structure of a GRG special-shaped suspended ceiling, which aims to solve the problems in the background technology.

The technical scheme of the utility model is as follows: the assembly type mounting structure of the GRG special-shaped suspended ceiling comprises a plurality of embedded plates, wherein the embedded plates are arranged on a concrete floor, and each embedded plate is provided with a plurality of expansion bolts for fixing the embedded plates with the concrete floor;

the hot dip galvanized angle steel is welded and fixed on the bottom side wall of the embedded plate, and the bottom ends of the hot dip galvanized angle steel are fixedly connected with transverse keels together;

the suspension assembly is arranged on the transverse keel;

the connecting mechanism is arranged below the transverse keels.

Preferably, the suspension assembly comprises a plurality of eyelets arranged on the transverse keels, and each eyelet is fixedly provided with a spring gasket.

Preferably, the eyelet and the spring washer are bolted with a through wire suspender.

Preferably, the connecting mechanism comprises a GRG decorative plate arranged below the harness boom, a fixing member is fixedly arranged on the GRG decorative plate, and a movable member is rotatably arranged at the tail end of the harness boom.

Preferably, the movable member and the fixed member are both in an L-shaped structure, the fixed member is fixed on the GRG decorative plate in a preset mode, and the movable member is connected with the fixed member through a bolt and nut structure.

Preferably, cushion blocks are arranged between every two adjacent GRG decorative plates, and grid belts are arranged below the cushion blocks.

Preferably, connecting bolts are fixed between two adjacent GRG decorative plates and the cushion block through threads, and caulking agents are arranged at positions, close to the grid belt, of the two adjacent GRG decorative plates.

Compared with the prior art, the assembly type mounting structure of the GRG special-shaped suspended ceiling provided by the utility model has the following improvements and advantages:

the utility model can smoothly solve the problems of irregular modeling processing production and irregular modeling splicing construction difficulty, greatly reduces the number of workers, improves the construction efficiency, effectively ensures the construction quality and has good popularization and application values.

Drawings

The utility model is further explained below with reference to the drawings and examples:

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a schematic view of the structure of the connecting mechanism of the present utility model;

fig. 3 is an enlarged schematic view of the structure of fig. 2 a according to the present utility model.

Reference numerals illustrate:

1. embedding a plate; 2. an expansion bolt; 3. hot dip galvanizing angle steel; 4. a harness boom; 5. a connecting mechanism; 51. a movable member; 52. GRG decorative board; 53. a cushion block; 54. a connecting bolt; 55. a caulking agent; 56. a mesh belt; 6. a spring washer; 7. and a transverse keel.

Detailed Description

The following detailed description of the present utility model clearly and fully describes the technical solutions of the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model provides an assembled mounting structure of a GRG special-shaped suspended ceiling by improving the structure, and the technical scheme of the utility model is as follows:

as shown in fig. 1-3, an assembled installation structure of a GRG special-shaped suspended ceiling comprises a plurality of embedded plates 1, wherein the embedded plates 1 are arranged on a concrete floor, and each embedded plate 1 is provided with a plurality of expansion bolts 2 for fixing the embedded plates with the concrete floor, and the assembled installation structure further comprises;

the hot dip galvanized angle steels 3 are welded and fixed on the bottom side wall of the embedded plate 1, and the bottom ends of the hot dip galvanized angle steels 3 are fixedly connected with transverse keels 7 together; the specification of the hot dip galvanized angle steel 3 is preferably 50x50x5mm; through the structure, the foundation stability of the installation structure can be guaranteed, convenience is brought to follow-up special-shaped suspended ceiling operation, and the construction difficulty of irregular modeling processing production and irregular modeling splicing can be successfully solved.

The suspension component is arranged on the transverse keel 7;

and the connecting mechanism 5 is arranged below the transverse keel 7.

As a further aspect of the utility model, the suspension assembly comprises a plurality of eyelets formed in the cross runners 7, and a spring washer 6 is fixedly mounted on each eyelet.

Further, the eyelet and the spring washer 6 are bolted with the through-wire suspender 4, and the diameter specification of the through-wire suspender 4 is preferably 8mm; the length of the harness boom 4 can be flexibly adjusted according to the structural shape of the GRG decorative board 52.

As a further scheme of the utility model, the connecting mechanism 5 comprises a GRG decorative plate 52 arranged below the harness cord boom 4, a fixed member is fixedly arranged on the GRG decorative plate 52, and a movable member 51 is rotatably arranged at the tail end position of the harness cord boom 4; through the structure, before and after construction, the perpendicularity of the hanging plate and the flatness of the joint between the adjacent plates are checked by using the guiding rule, so that the hanging plate meets the standard.

Further, the movable member 51 and the fixed member are both in an L-shaped structure, the fixed member is fixed on the GRG decorative board 52 in a preset manner, and the movable member 51 is connected with the fixed member through a bolt and nut structure; with the above configuration, two adjacent GRG decorative boards 52 can be connected and fixed to each other.

As a further scheme of the utility model, a cushion block 53 is arranged between two adjacent GRG decorative plates 52, and a grid belt 56 is arranged below the cushion block 53; through the structure, the structure of the subsequent caulking agent 55 after drying can be more stable, and the situation that the caulking agent 55 is cracked is effectively reduced by utilizing the grid belt 56.

Further, connecting bolts 54 are fixed between two adjacent GRG decorative plates 52 and the cushion block 53 through threads, and caulking agents 55 are arranged at positions of the two adjacent GRG decorative plates 52 close to the grid belt 56; through the structure, gaps among the GRG decorative plates 52 can be smoothed through the caulking agent 55, so that the wall top is finally formed into a whole; the number of workers in operation is greatly reduced, the construction efficiency is improved, the construction quality is effectively ensured, and the method has good popularization and application values.

The specific working method is as follows: when the method is used, in order to effectively control the special-shaped modeling of the GRG board, starting from the drawing and layout, dividing unit numbers according to the typesetting sequence of unit boards, and according to the actual size measured on site, utilizing BIM technology, integrally modeling through Rhino software, three-dimensionally restoring the modeling, performing collision test, arranging manufacturers to accurately open the modeling by using a final BIM model, particularly, customizing the die independently according to the BIM model for the arc board and four corner hyperbolic special-shaped boards in a hall when the top board and the wallboard are connected, and effectively controlling the special-shaped modeling;

during specific installation, the foundation stability of the installation structure is guaranteed through the cooperation of the embedded plate 1, the hot dip galvanized angle steel 3 and the transverse keel 7, convenience is provided for subsequent special-shaped suspended ceiling operation, and the construction difficulty of irregular modeling processing production and irregular modeling splicing can be successfully solved; the corresponding position is provided with an eye hole on the transverse keel 7 for

The through wire suspender 4 is bolted and fixed, and the length of the through wire suspender 4 is adjusted to ensure that the flatness and the verticality of the GRG decorative plate 52 meet the requirements; checking the verticality of the hanging plate and the flatness of the joint between the adjacent plates by using a guiding rule before and after construction, so that the hanging plate meets the standard;

after the GRG decorative board 52 is installed, the following steps are adopted for the joints:

1. scraping and embedding joint putty: before the caulking putty is scraped, the floating soil in the joint is cleaned, the putty is embedded into the plate joint by a small scraper, and the plate surface is filled and scraped;

2. pasting a mesh tape 56: pasting the grid belt 56 after the caulking putty is solidified, firstly, thin scraping a layer of gel putty with thinner consistency on the joint, wherein the thickness is 1mm, the width is the width of the grid belt 56, pasting the grid belt 56 immediately, scraping and compacting the gel putty from top to bottom by a middle scraper, and removing bubbles between the gel putty and the pull-joint belt;

3. middle layer putty scraping: after the mesh belt 56 is stuck, a layer of middle-layer putty which is about 80mm wider than the mesh belt 56 and about 1mm thick is scraped on the mesh belt, so that the mesh belt 56 is buried in the layer of putty;

4. leveling putty: filling the wedge-shaped groove with putty by using a large scraper and leveling the wedge-shaped groove with the plate surface;

5. and (3) treating joint seams of yin and yang angles: the joint treatment of the internal corners is same as the flat joint, two layers of grid belts 56 are stuck on the external corners, both sides of the corners turn 100mm, and the sticking method is the same as the flat joint treatment, so that the wall top is finally formed into a whole.

Claims (7)

1. The utility model provides an assembled mounting structure of GRG dysmorphism furred ceiling, includes a plurality of pre-buried board (1), a plurality of pre-buried board (1) set up on concrete floor, its characterized in that: a plurality of expansion bolts (2) are arranged on each embedded plate (1) to be fixed with a concrete floor, and the embedded plates also comprise;

the hot dip galvanized angle steel (3) is welded and fixed on the bottom side wall of the embedded plate (1), and the bottom ends of the hot dip galvanized angle steel (3) are fixedly connected with transverse keels (7) together;

the suspension assembly is arranged on the transverse keel (7);

the connecting mechanism (5) is arranged below the transverse keel (7).

2. The assembled mounting structure of a GRG profiled ceiling of claim 1, characterized in that: the suspension assembly comprises a plurality of eyelets arranged on the transverse keels (7), and each eyelet is fixedly provided with a spring gasket (6).

3. The assembled mounting structure of a GRG profiled ceiling of claim 2, characterized in that: and the eyelet and the spring gasket (6) are bolted with a harness boom (4).

4. The assembled mounting structure of a GRG profiled ceiling of claim 1, characterized in that: the connecting mechanism (5) comprises a GRG decorative plate (52) arranged below the harness cord suspender (4), a fixed component is fixedly arranged on the GRG decorative plate (52), and a movable component (51) is rotatably arranged at the tail end position of the harness cord suspender (4).

5. The assembled mounting structure of a GRG profiled ceiling of claim 4, characterized in that: the movable member (51) and the fixed member are of L-shaped structures, the fixed member is fixed on the GRG decorative plate (52) in a preset mode, and the movable member (51) is connected with the fixed member through a bolt and nut structure.

6. The assembled mounting structure of a GRG profiled ceiling of claim 5, characterized in that: cushion blocks (53) are arranged between every two adjacent GRG decorative plates (52), and grid belts (56) are arranged below the cushion blocks (53).

7. The assembled mounting structure of a GRG profiled ceiling of claim 6, characterized in that: connecting bolts (54) are fixed between two adjacent GRG decorative plates (52) and the cushion blocks (53) through threads, and caulking agents (55) are arranged at positions, close to the grid belts (56), of the two adjacent GRG decorative plates (52).

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