CN212001847U - Integrated assembled gypsum board suspended ceiling system - Google Patents

Abstract

The utility model provides an integrated assembled gypsum board furred ceiling system, include: the first unit plate is hung at the bottom of the structural floor slab, and grooves are oppositely formed in the bottom surfaces of the first side and the second side of the first unit plate, which are opposite to each other; the second unit plate is hung below the first side and the second side of the first unit plate, one side of the second unit plate, which is close to the first unit plate, extends to the position below the groove on the near side, and is provided with a vertical plate inserted in the groove; and the third unit plate is hung below the third side and the fourth side of the first unit plate, and two ends of the third unit plate are respectively clamped on the second unit plates at two sides through buckling strips. The utility model has the advantages of industrial engineering preprocessing, on-site assembly type assembling, no-wet operation, green and environmental protection, etc.

Description

Integrated assembled gypsum board suspended ceiling system

Technical Field

The utility model relates to a construction technical field relates to an integrated assembled gypsum board furred ceiling system particularly.

Background

With the vigorous push of national policies, the construction of fabricated structures has become the mainstream technology of structure construction in the building industry at present, and the subsequent construction technology of fabricated decoration becomes the focus of engineering construction gradually. In traditional gypsum board decoration construction, the form that mostly adopts jib, fossil fragments to add the gypsum board is under construction, and the decorative cover adopts on-the-spot wet work, has the on-the-spot process numerous, problem such as construction cycle length.

SUMMERY OF THE UTILITY MODEL

In view of the above situation, the utility model provides an integrated assembled gypsum board furred ceiling system solves the technical problem that current gypsum board decoration construction process is various, construction cycle is long.

In order to achieve the purpose, the utility model adopts the technical proposal that: an integrated fabricated drywall ceiling system is provided, comprising:

the first unit plate is hung at the bottom of the structural floor slab, and grooves are oppositely formed in the bottom surfaces of the first side and the second side of the first unit plate, which are opposite to each other;

the second unit plate is hung below the first side and the second side of the first unit plate, one side of the second unit plate, which is close to the first unit plate, extends to the position below the groove on the near side, and is provided with a vertical plate inserted in the groove;

and the third unit plate is hung below the third side and the fourth side of the first unit plate, and two ends of the third unit plate are respectively clamped on the second unit plates at two sides through buckling strips.

In the embodiment of the utility model provides an in, the bottom surface of structure floor with two liang of being provided with the first upper pulley of multiunit and first bottom pulley relatively of the top surface of first cell board, a first lifting rope cable is around locating the multiunit in succession first upper pulley with on the first bottom pulley.

In an embodiment of the present invention, the first end of the first lifting rope is fixed to the first cell plate, and the second end of the first lifting rope is fixed to the first upper pulley along the winding direction.

In the embodiment of the utility model, the bottom surface of structural floor with two liang of top surfaces of second cell board are provided with multiunit second upper sheave and second lower sheave relatively, and a second lifting rope cable is around locating the multiunit in succession the second upper sheave with on the second lower sheave.

In the embodiment of the utility model, the bottom surface of structural floor with two liang of top surfaces of third cell board are provided with multiunit third upper sheave and third lower sheave relatively, and a third lifting rope cable is around locating the multiunit in succession the third upper sheave with on the third lower sheave.

The embodiment of the utility model provides an in, the second cell board is close to a side edge of first cell board upwards extends and forms first hem, the third cell board is close to a side edge of first cell board upwards extends and forms the second hem, highly being less than of first hem the height of riser, first hem with the height of second hem is the same.

The embodiment of the utility model provides an in, first cell board is including a plurality of first standard boards of mutual concatenation and concatenation in a plurality of two end plates in the two outsides of first standard board, the recess is located the bottom surface of end plate, it is a plurality of between the first standard board and first standard board with connect through the profile between the end plate, first standard board with the concatenation position of end plate be formed with profile complex spout.

In the embodiment of the utility model provides an in, the profile is the I-shaped, the spout is a style of calligraphy or I-shaped.

In the embodiment of the utility model provides an in, offer the confession on the second cell board the access hole that the second lifting rope cable was carried and is drawn.

The utility model provides a hoist and mount method of integrated assembled gypsum board furred ceiling system in addition, including following step:

providing a first unit plate, wherein grooves are oppositely formed in the bottom surfaces of a first side and a second side of the first unit plate, which are opposite to each other, and the first unit plate is hung at the bottom of a structural floor slab;

providing a third unit plate, and hoisting the third unit plate below the third side of the first unit plate;

providing a second unit plate, hoisting the second unit plate below a first side and a second side opposite to the first unit plate, wherein one side of the second unit plate close to the first unit plate extends to the position below the groove on the near side and is provided with a vertical plate inserted in the groove; connecting the second unit plate with the hoisted third unit plate through a buckle bar;

and providing a third unit plate, hoisting the third unit plate below the fourth side of the first unit plate, and connecting the third unit plate below the fourth side with the second unit plates on two sides through a buckle strip.

The utility model discloses owing to adopted above technical scheme, make it have following beneficial effect:

(1) the utility model discloses integrated assembled gypsum board furred ceiling system successfully solves the technological difficult point of current gypsum board furred ceiling integration construction, has realized the assembly construction of integrated integration furred ceiling, has advantages such as industrial engineering preprocessing, on-the-spot assembled are assembled, are exempted from wet operation, green.

(2) The first unit plate and the second unit plate are clamped with the vertical plate through the grooves, so that the structural stability of the ceiling system is improved; the first unit plate, the second unit plate and the third unit plate are lifted and fixed through the upper pulley, the lower pulley and the lifting rope, the fixing mode is simple, the lifting height can be adjusted, and the flexibility is good.

Drawings

Figure 1 is the plan view schematic diagram of the integrated assembled gypsum board suspended ceiling system of the utility model.

3 fig. 32 3 is 3 a 3 schematic 3 cross 3- 3 sectional 3 view 3 of 3 the 3 cross 3- 3 section 3 line 3 a 3- 3 a 3 of 3 fig. 31 3 according 3 to 3 the 3 present 3 invention 3. 3

Fig. 3 is a schematic enlarged partial view of the upper left corner of fig. 1 according to the present invention.

Fig. 4 is a schematic view of a connection node between the second unit plate and the end plate in fig. 2 according to the present invention.

Fig. 5 is a schematic elevation view of a first standard board according to the present invention.

Fig. 6 is a schematic view of a connection node between adjacent first standard boards according to the present invention.

Fig. 7 is a schematic structural view of the decorative buckle strip of the present invention.

Fig. 8 is a schematic view showing the positional relationship between the second lifting rope and the second upper and lower pulleys of the present invention.

The correspondence of reference numerals to components is as follows:

a first unit panel 1; a groove 11; a first lower pulley 12; a first standard plate 13; a first standard plate body 131; a first reinforcing plate 132; an extension plate 133; a second unit plate 2; a vertical plate 21; a second lower pulley 22; a second reinforcing plate 23; a first plate 231; a second plate 232; a first folded edge 24; an access opening 25; a third unit plate 3; a third lower sheave 31; a second flange 32; a structural floor slab 4; a first upper pulley 41; a second upper pulley 42; a third upper sheave 43; a first lifting cord 51; a second lifting cord 52; a third lifting cord 53; an I-shaped buckling strip 6; an upper wing plate 61; a lower wing plate 62; a web 63; a decorative buckle strip 7; a decorative plate 71; a connecting plate 72; a screw 73; and a limiting rod 8.

Detailed Description

To facilitate understanding of the present invention, the following description is made with reference to the accompanying drawings and examples.

Referring to fig. 1 and 2, the present invention provides an integrated fabricated gypsum board suspended ceiling system, which includes: the first unit plate 1, the second unit plate 2 and the third unit plate 3 are used for forming an integrated assembly type suspended ceiling system at the bottom of a structural floor slab 4.

Specifically, as shown in fig. 2 and 4, the first unit plate 1 is hung at the bottom of the structural floor 4, and the bottom surfaces of the first side and the second side of the first unit plate 1 are oppositely provided with grooves 11; the second unit plate 2 is hung below the first side and the second side of the first unit plate 1, one side of the second unit plate 2 close to the first unit plate 1 extends to the lower part of the groove 11 adjacent to the first unit plate 1, and a vertical plate 21 inserted in the groove 11 is arranged; the third unit plate 3 is hung below the third side and the fourth side of the first unit plate 1, and two ends of the third unit plate 3 are respectively clamped to the second unit plates 2 at two sides through buckling strips.

In the embodiment of the present invention, as shown in fig. 1 to 3 and 8, two sets of first upper pulleys 41 and first lower pulleys 12 are oppositely disposed on the bottom surface of the structural floor slab 4 and the top surface of the first unit slab 1, and a first lifting rope 51 is continuously wound around the sets of first upper pulleys 41 and first lower pulleys 12; a first end of the first lifting rope 51 is fixed to the first unit plate 1, and a second end of the first lifting rope 51 is fixed to the first upper pulley 41 at the end in the winding direction; a plurality of groups of second upper pulleys 42 and second lower pulleys 21 are oppositely arranged on the bottom surface of the structural floor slab 4 and the top surface of the second unit plate 2 in pairs, and a second lifting rope 52 is continuously wound on the plurality of groups of second upper pulleys 42 and second lower pulleys 21; a first end of the second lifting rope 52 is fixed to the second unit plate 2, and a second end of the second lifting rope 52 is fixed to the second upper pulley 42 at the end in the winding direction; a plurality of groups of third upper pulleys 43 and third lower pulleys 31 are oppositely arranged on the bottom surface of the structural floor slab 4 and the top surface of the third unit plate 3 in pairs, and a third lifting rope 53 is continuously wound on the plurality of groups of third upper pulleys 43 and third lower pulleys 31; a first end of the third lifting rope 53 is fixed to the third unit plate 3, and a second end of the third lifting rope 53 is fixed to the third upper pulley 43 at the end in the winding direction. The first upper pulley 41 and the first lower pulley 12 may be arranged in a staggered manner; the second upper pulley 42 and the second lower pulley 21 may be arranged in a staggered manner; the third upper sheave 43 and the third lower sheave 31 may be offset from each other.

In the embodiment of the present invention, 5 rows of first lifting ropes 51 are provided on the first cell plate 1 for lifting, a plurality of rows of the first lifting ropes 52 and a plurality of rows of the first upper pulleys 41 and a plurality of rows of the first lower pulleys 12 may be provided according to the length or width direction of the first cell plate 1, each row of the first lifting ropes 51 is continuously wound between a plurality of the first upper pulleys 41 and the first lower pulleys 12, preferably, each row of the first upper pulleys 41 is aligned, each row of the first lower pulleys 12 is aligned, and the plurality of rows of the first upper pulleys 41 and the first lower pulleys 12 are provided to improve the lifting stability of the first cell plate 1; 2 rows of second lifting ropes 52 are arranged on the second unit plate 2, 2 rows of third lifting ropes 53 are arranged on the third unit plate 2, the extending direction of the third lifting ropes 53 is perpendicular to the extending direction of the first lifting ropes 51 and the second lifting ropes 52, and the extending direction of the first lifting ropes 51 and the second lifting ropes 52 is parallel; the first end of each row of the lifting rope is fixed with the lower pulley, passes through the upper pulley after being wound with the upper pulley, the lower pulley and the upper pulley for multiple times, penetrates out of the upper pulley for workers to lift and is finally locked and fixed with the upper pulley.

In the embodiment of the present invention, as shown in fig. 1, fig. 2 and fig. 4, the first cell plate 1 includes a plurality of first standard plates 13 spliced with each other and splices in a plurality of two end plates 14 outside two sides of the first standard plates 13, the groove 11 is located the bottom surface of the end plate 14, as shown in fig. 5 and fig. 6, a plurality of between the first standard plates 13 and the first standard plates 13 with connect through the fastening strip between the end plates 14, the first standard plates 13 with the splicing position of the end plates 14 is formed with the sliding groove matched with the fastening strip. Preferably, the buckling strip is an I-shaped buckling strip 6, and the sliding groove is in a straight shape or an I-shaped shape; the buckling strips connected between the second unit plate 2 and the third unit plate 3 are I-shaped buckling strips.

Further, as shown in fig. 4, the end plate 14 includes a first standard plate body 141 and a first reinforcing plate 142, two opposite sides of the first reinforcing plate 142 respectively extend downward to form extending plates 143 parallel to the vertical plate 21, the first standard plate body 141 is fixed at the bottom of the first reinforcing plate 142 and is located between the extending plates 143 on two opposite sides of the first reinforcing plate 142, and the grooves 11 are defined between the two opposite sides of the first standard plate body 141 and the extending plates 143.

In the embodiment of the present invention, the first standard plate 13 and the end plate 14 are fixed with the first bottom pulley 12.

Preferably, as shown in fig. 5, the first standard plate 13 is a double-layer plate structure, one layer is a stiffening plate, and the sliding groove is formed at the splicing end face of the first standard plate 13.

In the embodiment of the present invention, as shown in fig. 4, the second unit board 2 further includes a second reinforcing board 23, the second reinforcing board 23 includes a first board 231 and a second board 232 connected perpendicularly, the first board 231 and the vertical board 21 are attached and fixed, the second board 232 is attached and fixed to the second unit board 2, which is far away from one side of the first unit board 1. Preferably, the height of the first plate 231 is lower than that of the vertical plate 21, and the top edge of the first plate 231 forms a supporting surface for the extension plate 133 to support.

In the embodiment of the present invention, as shown in fig. 2, one side edge of the second unit board 2 close to the first unit board 1 extends upward to form a first folded edge 24, one side edge of the third unit board 3 close to the first unit board 1 extends upward to form a second folded edge 32, the first folded edge 24 and the second unit board 2 define to form a light trough, and the second folded edge 32 and the third unit board 3 define to form a light trough; the height of the first folded edge 24 is lower than that of the upright plate 11, and the height of the first folded edge 24 is the same as that of the second folded edge 32. Preferably, the second unit panel 2 is provided with an access opening 25 through which the second lifting rope 52 is lifted, so that after the first unit panel 1, the second unit panel 2 and the third unit panel 3 on the third side of the first unit panel 1 are lifted to a proper position, the empty space is reduced, and a constructor can lift the second lifting rope 52 which ties the structural wall 4 and the second unit panel 2 through the access opening 25.

As a preferred embodiment of the present invention, as shown in fig. 7, the present invention further includes a decorative buckle strip 7, the decorative buckle strip 7 includes a decorative plate 71 and a connecting plate 72, the decorative plate 71 is sandwiched between the second unit plate 2 and the wall side wall or between the third unit plate 3 and the wall side wall, the decorative plate 71 is fixed to the wall side wall, preferably, the decorative plate 71 is fixed to the strong side wall by a screw 73, and the connecting plate 72 is vertically fixed to one side of the decorative plate 71 away from the wall and is overlapped on the second unit plate 2 or the third unit plate 3; preferably, the bottom surfaces of the decorative buckling strips 7 are flush with the bottom surfaces of the second unit plate 2 and the third unit plate 3 respectively, so that the attractiveness of the ceiling system is guaranteed.

In the embodiment of the present invention, the first cell plate 1, the second cell plate 2 and the third cell plate 3 are gypsum boards.

The structure of the integrated fabricated gypsum board suspended ceiling system of the present invention is described above specifically, and its construction method is described below.

The method comprises the following steps of prefabricating a first unit board 1, a second unit board 2 and a third unit board 3 according to drawing deepening typesetting in a factory, arranging decorative buckle strips 7 in a room in a circle after the unit boards are transported to a site, and then lifting and assembling the first unit board 1, the second unit board 2 and the third unit board 3, specifically, the lifting and assembling method of the first unit board 1, the second unit board 2 and the third unit board 3 comprises the following steps:

1) firstly, the end plate 14 and the first standard plate 13 are lifted from left to right through the first upper pulley 41, the first lower pulley 12 and the first lifting rope 51, after the lifting is in place, the second end of the first lifting rope 51 is firmly fixed with the first upper pulley 12 at the tail end in the winding direction of the first lifting rope 51, and the adjacent first standard plate 13 and the end plate 14 are connected through the I-shaped buckle strip 6;

2) installing a third unit plate 3 below the third side of the first unit plate 1, wherein the method is the same as the lifting step of the first unit plate 1, after the installation, fixing a third lifting rope 53 and a third upper pulley 43 at the tail end of the winding direction of the third lifting rope 53, then installing a second unit plate 2 below the first side and the second side of the first unit plate 1, after the second unit plate 2 is lifted and positioned, clamping the second unit plate 2 with the first unit plate 1, clamping the second unit plate 2 with the lifted third unit plate 3 through a buckling strip, finally installing a third unit plate 3 below the fourth side of the first unit plate 1, and connecting the third unit plate 3 with the second unit plates 2 at the two sides through buckling strips; the second unit plate 2 and the third unit plate 3 installed last can be lifted through the access opening 25;

3) and (5) installing equipment such as lamps, fire-fighting spray, ventilation openings and the like, and finishing the ceiling construction.

Preferably, in order to control the lifting height of the first unit plate 1, the second unit plate 2 and the third unit plate 3, a vertical limiting rod 8 is arranged between each unit plate and the structural floor slab 4 to control the lifting height, so that the mounting accuracy of the suspended ceiling is ensured.

The present invention has been described in detail with reference to the drawings and the embodiments, and those skilled in the art can make various modifications to the present invention based on the above description. Therefore, certain details of the embodiments should not be construed as limitations of the invention, which are intended to be covered by the following claims.

Claims (9)

1. An integrated fabricated gypsum board suspended ceiling system, comprising:

the first unit plate is hung at the bottom of the structural floor slab, and grooves are oppositely formed in the bottom surfaces of the first side and the second side of the first unit plate, which are opposite to each other;

the second unit plate is hung below the first side and the second side of the first unit plate, one side of the second unit plate, which is close to the first unit plate, extends to the position below the groove on the near side, and is provided with a vertical plate inserted in the groove;

and the third unit plate is hung below the third side and the fourth side of the first unit plate, and two ends of the third unit plate are respectively clamped on the second unit plates at two sides through buckling strips.

2. The integrated fabricated gypsum board ceiling system of claim 1, wherein the bottom surface of the structural floor slab and the top surface of the first unit panel are provided with a plurality of sets of first upper and lower pulleys opposite to each other in pairs, and a first lifting rope is continuously wound around the plurality of sets of first upper and lower pulleys.

3. The integrated fabricated gypsum board ceiling system of claim 2, wherein a first end of the first lifting cord is secured to the first cell plate and a second end of the first lifting cord is secured to the first upper pulley at an end in the direction of winding.

4. The integrated fabricated gypsum board ceiling system according to claim 1, wherein the bottom surface of the structural floor slab and the top surface of the second unit panel are provided with a plurality of sets of second upper and lower pulleys opposite to each other in pairs, and a second lifting rope is continuously wound around the plurality of sets of second upper and lower pulleys.

5. The integrated fabricated gypsum board ceiling system according to claim 1, wherein the bottom surface of the structural floor slab and the top surface of the third unit panel are provided with a plurality of sets of third upper and lower pulleys opposite to each other in pairs, and a third lifting rope is continuously wound around the plurality of sets of third upper and lower pulleys.

6. The integrated fabricated gypsum board ceiling system of claim 1, wherein one side edge of the second unit panel adjacent to the first unit panel extends upward to form a first folded edge, one side edge of the third unit panel adjacent to the first unit panel extends upward to form a second folded edge, the first folded edge has a height lower than that of the upright panel, and the first folded edge and the second folded edge have the same height.

7. The integrated fabricated gypsum board suspended ceiling system of claim 1, wherein the first unit boards comprise a plurality of first standard boards spliced with each other and two end boards spliced with two outer sides of the plurality of first standard boards, the grooves are formed in the bottom surfaces of the end boards, the plurality of first standard boards are connected with each other through fastening strips, and sliding grooves matched with the fastening strips are formed in the splicing positions of the first standard boards and the end boards.

8. The integrated fabricated gypsum board ceiling system of claim 7, wherein the fastening strip is I-shaped and the runner is in the shape of a straight line or I.

9. The integrated fabricated gypsum board suspended ceiling system of claim 4, wherein the second cell plate is provided with an access opening for the second lifting rope to lift.

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