CN210369508U

CN210369508U - Gypsum board suspended ceiling structure

Info

Publication number: CN210369508U
Application number: CN201921029605.8U
Authority: CN
Inventors: 袁振球; 翟洪恩; 张雪峰; 刘永璞; 任平华; 李盛平
Original assignee: Dongguan Jianan Group Co ltd
Current assignee: Dongguan Jianan Group Co ltd
Priority date: 2019-07-02
Filing date: 2019-07-02
Publication date: 2020-04-21
Anticipated expiration: 2029-07-02

Abstract

The utility model relates to a gypsum board suspended ceiling structure, which comprises a suspended ceiling component and a gypsum board component, wherein the suspended ceiling component comprises a hanging rod fixed on a roof and a fixed keel connected on the hanging rod through a hanging piece; the gypsum board component comprises a bearing keel, a cladding keel fixed on the bearing keel and a gypsum board fixed on the cladding keel, and is connected to the ceiling component through a plurality of connecting components; coupling assembling includes vertical fixing the connecting rod on bearing the weight of fossil fragments and fixes the installation body in order to supply the connecting rod to peg graft on fixed fossil fragments, and it has the insection to distribute along its length direction on the connecting rod, installs the gear through the axis of rotation in the installation body, and the insection meshing of gear and connecting rod is provided with the one-way spacing portion that is used for restricting the one-way pivoted of axis of rotation on the installation body. The utility model discloses the effect that improves the installation effectiveness has.

Description

Gypsum board suspended ceiling structure

Technical Field

The utility model belongs to the technical field of the technique of furred ceiling structure and specifically relates to a gypsum board furred ceiling structure is related to.

Background

The suspended ceiling, to the decoration of ceiling promptly, is one of the important component parts of interior decoration, according to the difference of selecting for use the decorative board material, divide into multiple furred ceiling structure. Wherein, the furred ceiling structure of gypsum board is the furred ceiling structure of chooseing for use most often when interior decoration. The gypsum board made of building gypsum is a decorative board with light weight, high strength, moderate thickness, sound and heat insulation, convenient processing, fire resistance and moisture resistance. The suspended ceiling structure composed of the gypsum board and the light steel keel suspended ceiling component is low in processing cost and good in flatness.

Because the gypsum board is a finished board, a large amount of splicing covers the whole roof during construction, and the gypsum board suspended ceiling structure is a suspended ceiling process combining a keel and a gypsum board. Firstly, a keel is installed on a roof, and then gypsum boards are spliced and fixed on the keel to finish the closed ceiling decoration.

Wherein, when the construction, the staff need stand on the good fossil fragments of installation on the indoor scaffolding installs the gypsum board on the fossil fragments one by one, causes workman site operation installation inefficiency from this, consequently has certain improvement part.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a gypsum board furred ceiling structure can improve the installation effectiveness to a certain extent.

The above technical purpose of the present invention can be achieved by the following technical solutions:

a gypsum board suspended ceiling structure comprises a suspended ceiling assembly and a gypsum board assembly, wherein the suspended ceiling assembly comprises a suspension rod fixed on a roof and a fixed keel connected to the suspension rod through a suspension piece;

the gypsum board component comprises a bearing keel, a cladding keel fixed on the bearing keel and a gypsum board fixed on the cladding keel, and the gypsum board component is connected to the ceiling component through a plurality of connecting components;

coupling assembling includes vertical fixing the connecting rod on bearing the weight of fossil fragments and fixes the installation body in order to supply the connecting rod to peg graft on fixed fossil fragments, it has the insection to distribute along its length direction on the connecting rod, install the gear through the axis of rotation in the installation body, the insection meshing of gear and connecting rod, be provided with the one-way spacing portion that is used for restricting the one-way pivoted of axis of rotation on the installation body.

According to the technical scheme, during construction, the ceiling component is installed on the roof and leveled, and then the gypsum board is installed on the cladding keel by a worker firstly, so that the whole gypsum board component is installed on the ceiling component through the connecting component;

when the installation gypsum board subassembly, with the whole furred ceiling subassembly of aiming at of gypsum board subassembly, and then peg graft the connecting rod in the installation body, this moment the internal gear of installation will with the insection meshing on the connecting rod, and limit gear revolve under the effect of one-way spacing portion, realize from this that the connecting rod can only upwards the lifting and can not fall, consequently, the staff only need be according to the water flat line that sets for in advance, the whole installation on the furred ceiling subassembly of gypsum board subassembly can be realized to the level to the lifting gypsum board subassembly adjustment gradually, thereby installation effectiveness has been improved to a certain extent.

Preferably, the one-way limiting part comprises a ratchet wheel coaxially arranged at the end part of the rotating shaft and a pawl hinged on the mounting body and matched with the ratchet wheel at the end part.

Through above-mentioned technical scheme, the tip of pawl is contradicted on the ratchet, and the ratchet can be restricted to one side rotation to the pawl, and from this, the ratchet has unidirectional rotation's characteristic under the effect of pawl, through the setting of ratchet pawl for the whole every upwards lifting of gypsum board subassembly is a section distance all can be restricted, and then makes things convenient for the gypsum board subassembly to adjust to the level, and the operation convenience is high.

Preferably, the mounting body is fixed with a mounting sleeve surrounding the ratchet wheel, a poking groove is formed in the outer circular surface of the mounting sleeve, and the end part of the pawl is connected with a poking rod penetrating through the poking groove.

Through above-mentioned technical scheme, the staff can make the tip and the ratchet of pawl break away from through the poker rod to loosen the restriction to the ratchet, when the range of moving on the gypsum board subassembly was too big, can move down the gypsum board subassembly through above-mentioned mode.

Preferably, the poke rod is sleeved with an elastic spring, one end of the elastic spring abuts against the inner wall of the installation sleeve, and the other end of the elastic spring abuts against the pawl.

Through above-mentioned technical scheme, the setting of elastic spring has improved the conflict dynamics of pawl on the ratchet, has improved the installation stability of gypsum board subassembly from this.

Preferably, a pulling rope is connected to the poke rod.

Through above-mentioned technical scheme, when gypsum board subassembly need descend because of the installation error, the setting of haulage rope makes things convenient for the staff to pull the haulage rope poker rod, realizes that the pawl loosens the restriction to the ratchet.

Preferably, the suspender equipartition just is provided with the multirow parallel to each other, and every row of jib lower extreme all is fixed with fixed fossil fragments.

Through above-mentioned technical scheme, jib equipartition and set up the multirow parallel to each other, have improved the fixed effect of fixed fossil fragments to gypsum board subassembly.

Preferably, the cladding keel and the fixed keel are arranged in parallel, and the bearing keel and the fixed keel are arranged in a perpendicular mode.

Through above-mentioned technical scheme, the cladding keel is parallel to each other with fixed fossil fragments, bears fossil fragments and fixed fossil fragments mutually perpendicular, has improved the stability of installation from this.

To sum up, the utility model discloses a beneficial technological effect does:

Drawings

FIG. 1 is a schematic view of the overall structure of the embodiment;

FIG. 2 is a schematic view of the assembly of the connection assembly of the embodiment;

FIG. 3 is a schematic structural view of the unidirectional stopper in the embodiment;

fig. 4 is a sectional view of the mounting body in the embodiment.

Reference numerals: 1. a boom; 2. hoisting a piece; 3. fixing the keel; 4. a load bearing keel; 5. covering a keel; 6. a gypsum board; 7. a connecting member; 8. a connecting assembly; 81. a connecting rod; 82. an installation body; 83. a mounting cavity; 84. insection; 86. a gear; 87. a one-way limiting part; 871. a ratchet wheel; 872. a pawl; 873. installing a sleeve; 874. a poking groove; 875. a poke rod; 876. an elastic spring; 877. and (6) pulling the rope.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Combine fig. 1 and fig. 2 to show, a gypsum board suspended ceiling structure, including furred ceiling subassembly and gypsum board subassembly, the furred ceiling subassembly includes jib 1, hoist and mount piece 2 and fixed fossil fragments 3, and the one end of jib 1 is fixed on the roof, and hoist and mount piece 2 is fixed at the other end of jib 1, and fixed fossil fragments 3 are fixed on hoist and mount piece 2. The 1 even arrangement of jib is on the roof and be provided with the multirow mutually in parallel, and 1 lower extreme of every row of jib all passes through hoist and mount 2 is fixed with fixed fossil fragments 3, the multirow fixed fossil fragments 3 parallel arrangement each other from this.

The gypsum board subassembly is including bearing fossil fragments 4, clad can fossil fragments 5 and gypsum board 6, bear fossil fragments 4, clad can fossil fragments 5 and gypsum board 6 all are provided with a plurality ofly, a plurality ofly bear 4 intervals of fossil fragments and mutual parallel arrangement, a plurality of 5 intervals of clad can fossil fragments and mutual parallel arrangement, clad can fossil fragments 5 pass through connecting piece 7 to be fixed on bearing fossil fragments 4, wherein, clad can fossil fragments 5 and fixed fossil fragments 3 mutual parallel arrangement, bear fossil fragments 4 and fixed fossil fragments 3 mutually perpendicular setting, gypsum board 6 is fixed on clad can fossil fragments 5.

In this application, combine fig. 2 and 4 to show, the gypsum board subassembly passes through a plurality of coupling assembling 8 and connects on the furred ceiling subassembly, and a plurality of coupling assembling 8 distribute around the gypsum board subassembly. Specifically, coupling assembling 8 includes vertical fixing the connecting rod 81 on bearing the weight of fossil fragments 4, and fix the installation body 82 on fixed fossil fragments 3, be provided with installation cavity 83 in the installation body 82, the connecting rod 81 is worn to locate in the installation body 82, wherein, it has insection 84 to distribute along its length direction on the connecting rod 81, gear 86 is installed through the axis of rotation in installation cavity 83 to the installation body 82, gear 86 is installed in the axis of rotation through parallel key or spline, coaxial setting between axis of rotation and the gear 86, gear 86 meshes with insection 84 of connecting rod 81 in installation cavity 83, be provided with the one-way spacing portion 87 that is used for restricting the one-way pivoted of axis of rotation on the installation body 82.

One end of the rotating shaft penetrates out of the mounting body 82, as shown in fig. 2 and fig. 3, the one-way limiting portion 87 comprises a ratchet 871 coaxially arranged at the end portion of the rotating shaft, the ratchet 871 is mounted on the rotating shaft through a flat key or a spline, a pawl 872 with an end portion matched with the ratchet 871 is hinged on the mounting body 82, wherein a mounting sleeve 873 surrounding the ratchet 871 is fixed on the mounting body 82, a shifting groove 874 is formed in the outer circumferential surface of the mounting sleeve 873, and a shifting rod 875 penetrating through the shifting groove 874 is connected to the end portion of the pawl 872. An elastic spring 876 is sleeved on the poke rod 875, one end of the elastic spring 876 abuts against the inner wall of the mounting sleeve 873, and the other end abuts against the pawl 872.

It is noted that a pulling rope 877 is attached to the poke rod 875. The setting of haulage rope 877 makes things convenient for the staff to pull haulage rope 877 poker rod 875, realizes that pawl 872 loosens the restriction to ratchet 871.

In this application, when the installation gypsum board subassembly, with the whole furred ceiling subassembly of aiming at of gypsum board 6 template, and then peg graft connecting rod 81 in installation body 82, gear 86 in installation body 82 this moment will with the insection 84 meshing on the connecting rod 81, and restrict gear 86 and rotate under the effect of one-way spacing portion 87, realize from this that connecting rod 81 can only make progress the lifting and can not fall, consequently, the staff only need be according to preset's water flat line, the whole installation on the furred ceiling subassembly of gypsum board subassembly can be realized to the level to the lifting gypsum board subassembly adjustment gradually, thereby installation effectiveness has been improved to a certain extent.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims

1. A gypsum board suspended ceiling structure comprises a suspended ceiling component and a gypsum board component, wherein the suspended ceiling component comprises a suspension rod (1) fixed on a roof and a fixed keel (3) connected to the suspension rod (1) through a suspension piece (2);

the gypsum board component comprises a bearing keel (4), a cladding keel (5) fixed on the bearing keel (4) and a gypsum board (6) fixed on the cladding keel (5), and is characterized in that the gypsum board component is connected to the ceiling component through a plurality of connecting components (8);

coupling assembling (8) including vertical fixing connecting rod (81) on bearing fossil fragments (4) and fix installation body (82) in order to supply connecting rod (81) to peg graft on fixed fossil fragments (3), it has insection (84) to distribute along its length direction on connecting rod (81), install gear (86) through the axis of rotation in the installation body (82), insection (84) meshing of gear (86) and connecting rod (81), be provided with on the installation body (82) and be used for restricting one-way spacing portion (87) of axis of rotation one-way pivoted.

2. A plasterboard suspended ceiling structure according to claim 1, characterised in that the one-way limiting portion (87) comprises a ratchet (871) coaxially arranged at an end of the rotation shaft, and a pawl (872) hinged to the mounting body (82) and having an end cooperating with the ratchet (871).

3. The suspended ceiling structure of the gypsum board as claimed in claim 2, wherein the mounting body (82) is fixed with a mounting sleeve (873) surrounding the ratchet wheel (871), a toggle groove (874) is formed in the outer circumferential surface of the mounting sleeve (873), and a toggle rod (875) penetrating through the toggle groove (874) is connected to the end of the pawl (872).

4. A suspended ceiling structure of gypsum board according to claim 3, characterized in that the pulling rod (875) is sleeved with a spring (876), one end of the spring (876) abuts against the inner wall of the mounting sleeve (873) and the other end abuts against the pawl (872).

5. A plasterboard ceiling structure according to claim 4, characterised in that a pulling rope (877) is connected to the poker bar (875).

6. A plasterboard suspended ceiling structure according to claim 1, wherein the suspending rods (1) are uniformly distributed and arranged in a plurality of rows in parallel, and the fixing keel (3) is fixed to the lower end of each row of the suspending rods (1).

7. A plasterboard ceiling structure according to claim 1, characterised in that the cladding runners (5) and the fixing runners (3) are arranged parallel to each other, and the load bearing runners (4) and the fixing runners (3) are arranged perpendicular to each other.