CN117090338A - House suspended ceiling stabilizing structure and house suspended ceiling stabilizing method - Google Patents

Abstract

The invention relates to the technical field of interior decoration, and particularly discloses a house suspended ceiling stabilizing structure which comprises a steel structure isolation layer, wherein a wooden keel is movably connected inside the steel structure isolation layer, a light keel frame is connected below the wooden keel frame, a gypsum board is connected below the light keel frame, and embedded hooks are fixedly connected at four corners of the upper end surface of the gypsum board. Through setting up auxiliary assembly, can be in the limited below of convenient effectual crossbeam with light dragon skeleton of workman's quantity, and after the crossbeam installation was accomplished and is put into use, auxiliary assembly can suspend the support to the end of crossbeam, auxiliary assembly can be used to strengthen the structural strength of crossbeam after the installation when the installation effectiveness of this crossbeam, and hoist and mount the setting of subassembly for worker is more laborsaving when installing the longeron, after the longeron installation is accomplished, hoist and mount subassembly can keep hanging the state to longeron and gypsum board, make the structure of whole furred ceiling more firm.

Description

House suspended ceiling stabilizing structure and house suspended ceiling stabilizing method

Technical Field

The invention relates to the technical field of interior decoration, in particular to a house suspended ceiling stabilizing structure and a house suspended ceiling stabilizing method.

Background

The house ornamentation furred ceiling is the common link in the house ornamentation, and the furred ceiling is according to the material difference of decorative board, and categorised also inequality, and furred ceiling finishing material is the main foundation of distinguishing furred ceiling name, mainly has: light gauge steel gypsum board furred ceiling, gypsum board furred ceiling etc. when indoor layer height is higher, like in complex apartment and villa, the circumstances that need separate the higher space of layer height through steel construction separates the layer frequently can appear, consequently, also need carry out the furred ceiling to the bottom surface of steel construction separates the layer in the fitment in-process.

When the existing suspended ceiling is installed, at least two workers are often required to be matched with each other, particularly when the light-weight keel gypsum board suspended ceiling is installed, one worker is required to lift up the cross beam and the longitudinal beam in the keel frame and then support the cross beam and the longitudinal beam, and then the other worker uses a tool to install the keel frame at the corresponding position of the bottom of the steel structure partition layer; because two workers need to mutually cooperate, and the bottom surface of steel construction separates the fault is higher apart from ground, worker's then needs to operate on the ladder for whole installation is comparatively troublesome, when installing the gypsum board, because the quality of gypsum board is heavier, the workman needs to make the support in addition and support the gypsum board, make the installation of gypsum board consuming time and consuming time, after the gypsum board furred ceiling uses for a long time and when steel construction separates the fault upper strata and leak, the gypsum board becomes heavy after absorbing water, if the structure of light dragon skeleton is not firm enough, then this gypsum board furred ceiling can produce the risk of collapsing.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a house suspended ceiling stabilizing structure and a house suspended ceiling stabilizing method.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides a house furred ceiling stable structure, includes steel construction separates the fault, the inside swing joint of steel construction separates the fault has wooden fossil fragments, the below of wooden fossil fragments is connected with light dragon skeleton, the below of light dragon skeleton is connected with the gypsum board, the equal fixedly connected with pre-buried couple in gypsum board up end four corners position, the steel construction separates the layer and includes two fixed channel-section steel, transverse welding has many supporting steels that are parallel to each other between two fixed channel-section steel, all weld between two supporting steels has many reinforcing steels that are parallel with fixed channel-section steel, light fossil fragments include many crossbeams and many longerons, the bottom surface and the terminal corresponding position welding of crossbeam of fixed channel-section steel have auxiliary assembly, the inside of supporting steel corresponds the position with a plurality of longerons and installs hoisting assembly.

Preferably, the auxiliary assembly comprises a connecting seat welded on the bottom surface of the fixed channel steel, two ends of the connecting seat are connected with mounting blocks, the lower ends of the two mounting blocks are connected with U-shaped frames, and two ends of each U-shaped frame are respectively in sliding connection with the lower ends of the mounting blocks.

Preferably, the hoisting assembly comprises a mounting seat, a fixing bolt is arranged on the mounting seat, the mounting seat is connected with the supporting steel through the fixing bolt, a winding rod is installed in one end of the mounting seat in an internal rotation mode, the outer wall of the winding rod is fixedly connected with a hoisting steel wire, a retaining ring is fixedly installed in the other end of the mounting seat, the other end of the hoisting steel wire is connected with a fastener matched with the retaining ring, a driven wheel is fixedly installed on the outer wall of the lower end of the winding rod, a driving wheel meshed with the driven wheel is installed in the internal rotation mode of the mounting seat, a driving rod is fixedly installed at the center of the bottom surface of the driving wheel, and a limiting block matched with the driving wheel is arranged on the outer wall of the lower end of the mounting seat.

Preferably, the fastener specifically comprises a magnetic rod, the two sides of the tail end of the magnetic rod are both rotatably provided with an opening rod, the tail end of the magnetic rod is fixedly provided with a resistance block, and the resistance block is arranged on the outer side of the opening rod.

Preferably, a baffle is fixedly arranged on the outer wall of the lower end of the mounting seat, and the inside of the baffle is arranged between the hoisting steel wire and the driving wheel.

Preferably, the auxiliary assembly further comprises a sliding groove formed in the installation block, pressing blocks matched with the sliding groove are fixedly installed on the outer walls of the two ends of the U-shaped frame, and an elastic piece is arranged below the pressing blocks in the sliding groove.

Preferably, the U-shaped frame is provided with a mounting groove, an adjusting block is slidably arranged in the mounting groove, and a roller is rotatably arranged on the adjusting block.

Preferably, a plurality of rollers are rotatably arranged at the bottom of the mounting groove, and the rollers are uniformly distributed in the mounting groove at equal intervals.

A method of installing a suspended ceiling stabilizing structure of a building, the method comprising the steps of:

step one: according to the distribution of the cross beams in the light keel frame, the auxiliary components are equidistantly fixed on the bottom surface of the fixed channel steel through welding, and then according to the distribution of the longitudinal beams in the light keel frame, the hoisting components are installed in the supporting steel through fixing bolts;

step two: fixing a steel structure isolation layer formed by welding fixed channel steel, supporting steel and reinforcing steel with a wall surface, isolating and separating an indoor space by the steel structure isolation layer, and then installing a plurality of wooden keels inside the steel structure isolation layer;

step three: one end of the cross beam can be arranged in the auxiliary assembly in a penetrating way by workers between the cross beams, the tail end of the cross beam passes through a space formed by two mounting blocks and the U-shaped frame, the tail end of the cross beam can be lapped at the upper end of the U-shaped frame, the other end of the cross beam can be lifted to be close to the wooden keel by the workers, and then the cross beam is connected with the wooden keel by using a screw rod and a nut;

step four: in the process of installing the cross beam, if the positions of the holes which are preset on the cross beam and matched with the screw rods are not matched with each other, a worker can push the cross beam, and the tail end of the cross beam can slide in the U-shaped frame under the action of the adjusting block until the positions of the holes on the cross beam, where the screw rods are installed, correspond to the positions of the screw rods;

step five: after the left and right cross beams are installed, a user can adjust the lengths of the hoisting steel wires on the hoisting assemblies according to the installation positions of the longitudinal beams, when a worker rotates the driving rod to drive the driven wheel to rotate through the driving wheel, the winding rod can retract the hoisting steel wires to a proper length, then the tail ends of the hoisting steel wires are matched with the retaining rings through fasteners at the tail ends of the hoisting steel wires to be fixed, and when the hoisting steel wires are adjusted to the proper length, the worker can limit and fix the driving wheel through limiting blocks;

step six: the tail end of the longitudinal beam passes through the inside of a plurality of hoisting steel wires at one time, the plurality of hoisting steel wires can support the longitudinal beam, and workers can connect the longitudinal beam with the cross beam through bolts and the like;

step seven, a step of performing a step of; when the cross beam and the longitudinal beam are erected, a worker can lift the gypsum board with the embedded hooks, the embedded hooks are hung on the hoisting steel wires, the gypsum board can be preinstalled, the distance between the upper surface of the gypsum board and the bottom surface of the light-weight keel frame is 10-20 cm, finally, the worker can use an external tool to install the gypsum board on the light-weight keel frame, and the hoisting steel wires are always in a hoisting state for the gypsum board.

Compared with the prior art, the invention has the beneficial effects that:

according to the invention, by arranging the auxiliary assembly, the cross beam in the light keel frame can be conveniently and effectively installed below the wooden keel by assisting workers with limited workers, two workers are not required to mutually cooperate to lift the cross beam, and after the cross beam is installed and put into use, the auxiliary assembly can suspend and support the tail end of the cross beam, and the auxiliary assembly can be used for enhancing the installation efficiency of the cross beam and enhancing the structural strength of the cross beam after installation.

According to the invention, by arranging the hoisting assembly, when a worker installs the longitudinal beam, the longitudinal beam can be preinstalled at the position 10-20 cm below the cross beam, the worker does not need to lift and support the cross beam all the time, so that labor is saved when the worker installs the longitudinal beam, after the installation of the longitudinal beam is completed, the hoisting assembly can assist the gypsum board with the embedded hooks to be installed on the light-weight keel frame after being hoisted, and after the installation of the whole suspended ceiling is completed, the hoisting assembly can keep the suspended state of the longitudinal beam and the gypsum board, so that the structure of the whole suspended ceiling is more stable.

Drawings

FIG. 1 is a schematic diagram showing the structural disassembly of a house ceiling stabilizing structure according to the present invention;

FIG. 2 is a schematic view of a combined structure of a steel structure insulating layer and a light keel frame of a stable structure of a suspended ceiling of a house;

FIG. 3 is a front view of a steel structure insulation layer and a lightweight keel frame of a stable structure of a suspended ceiling of a house according to the invention;

FIG. 4 is a side view of a steel structure insulation layer and a lightweight keel frame of a suspended ceiling stabilizing structure of a house according to the invention;

FIG. 5 is a schematic diagram of an auxiliary assembly of a ceiling stabilizing structure of a building according to the present invention;

FIG. 6 is a schematic view illustrating the installation of a lifting assembly of a stable structure of a suspended ceiling of a building according to the present invention;

fig. 7 is a schematic structural diagram of a hoisting assembly of a house suspended ceiling stabilizing structure according to the present invention;

FIG. 8 is a schematic diagram illustrating the disassembly of the auxiliary components of a ceiling stabilizing structure of a building according to the present invention;

FIG. 9 is an enlarged schematic view of a portion of the ceiling stabilizing structure of FIG. 1;

FIG. 10 is an enlarged schematic view of a portion of the ceiling stabilizing structure of FIG. 1;

FIG. 11 is an enlarged schematic view of a portion of the ceiling stabilizing structure of FIG. 1;

fig. 12 is an enlarged schematic view of a portion D of fig. 10 of a house ceiling stabilizing structure according to the present invention.

In the figure: 1. a steel structure isolating layer; 101. fixing channel steel; 102. supporting steel; 103. reinforcing steel; 2. a lightweight keel frame; 201. a cross beam; 202. a longitudinal beam; 3. an auxiliary component; 301. a connecting seat; 302. a mounting block; 303. a U-shaped frame; 304. adjusting the block; 305. a roller; 306. a chute; 307. a spring plate; 308. briquetting; 309. a roller; 4. hoisting the assembly; 401. a mounting base; 402. a winding rod; 403. driven wheel; 404. a driving wheel; 405. a driving rod; 406. a baffle; 407. hoisting the steel wire; 408. a clasp ring; 409. a magnetic rod; 410. an opening rod; 411. a resistance block; 5. a fixing bolt; 6. pre-burying a hook; 7. gypsum board.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1-12, a house furred ceiling stable structure, including steel construction separation layer 1, steel construction separation layer 1's inside swing joint has wooden fossil fragments, wooden fossil fragments's below is connected with light fossil fragments 2, light fossil fragments 2's below is connected with gypsum board 7, the equal fixedly connected with pre-buried couple 6 in gypsum board 7 up end four corners position, steel construction separation layer 1 includes two fixed channel-section steel 101, transversely weld between two fixed channel-section steel 101 has many supporting steels 102 that are parallel to each other, all weld between two supporting steels 102 has many reinforcing steels 103 parallel with fixed channel-section steel 101, light fossil fragments 2 includes many crossbeams 201 and many longerons 202, the bottom surface and the terminal corresponding position welding of crossbeam 201 of fixed channel-section steel 101 have auxiliary assembly 3, the inside of supporting steel 102 corresponds the position with a plurality of longerons 202 and installs hoisting assembly 4, when the layer height of room space is higher, the accessible steel construction separation layer 1 separates room space and is two-layer from top to-bottom surface, then, the workman accessible installs light fossil fragments 2's bottom surface to install light fossil fragments 1's bottom surface to steel construction separation layer 2's mode, it makes the light fossil fragments 2 install light fossil fragments 2 and install at the auxiliary assembly 3 in advance and can make the auxiliary assembly 2, the position is more stable with the auxiliary assembly 3 to install at the position of the auxiliary assembly 2, the auxiliary assembly is more than the auxiliary assembly is 3, the auxiliary assembly is installed at the position is 3, the auxiliary assembly is convenient, the auxiliary assembly is 2 is convenient, the auxiliary assembly is installed at the position 2 is easy to the auxiliary assembly is easy to the jack assembly is easy to install 2, and has the jack assembly is easy to install the jack assembly is easy to the jack assembly has.

As a technical optimization scheme of the invention, the auxiliary assembly 3 comprises the connecting seat 301 welded on the bottom surface of the fixed channel steel 101, the two ends of the connecting seat 301 are connected with the mounting blocks 302, the lower ends of the two mounting blocks 302 are connected with the U-shaped frames 303, the two ends of the U-shaped frames 303 are respectively in sliding connection with the lower ends of the mounting blocks 302, when the auxiliary assembly 3 is used, a user wears one end of the beam 201 to be mounted in the auxiliary assembly 3, the tail end of the beam 201 passes through the space formed by the two mounting blocks 302 and the U-shaped frames 303, the tail end of the beam 201 can be lapped on the upper end of the U-shaped frames 303, a worker can lift the other end of the beam 201 to be close to a wooden keel, then the beam 201 and the wooden keel are connected by using screws and nuts, at the moment, one end of the beam 201 is positioned on the U-shaped frames 303, one end of the beam 201 is positioned in a mounting state of the worker for mounting the beam 201 by using tools, when the number of the auxiliary assembly 3 is limited, the auxiliary assembly 3 is used for assisting the worker to conveniently and effectively mount the beam 201 in the lower part of the wooden keel, the beam 201 is mutually matched with each other, after the two auxiliary assembly 201 are lifted, and the auxiliary assembly 201 can be mounted by the auxiliary assembly 3 can be used for improving the mounting efficiency after the mounting assembly 201.

As a technical optimization scheme of the invention, the hoisting assembly 4 comprises a mounting seat 401, a fixing bolt 5 is arranged on the mounting seat 401, the mounting seat 401 is connected with a supporting steel 102 through the fixing bolt 5, a winding rod 402 is rotatably arranged in one end of the mounting seat 401, a hoisting steel wire 407 is fixedly connected to the outer wall of the winding rod 402, a retaining ring 408 is fixedly arranged in the other end of the mounting seat 401, a fastener matched with the retaining ring 408 is connected to the other end of the hoisting steel wire 407, a driven wheel 403 is fixedly arranged on the outer wall of the lower end of the winding rod 402, a driving wheel 404 meshed with the driven wheel 403 is rotatably arranged in the mounting seat 401, a driving rod 405 is fixedly arranged in the center of the bottom surface of the driving wheel 404, a limiting block matched with the driving wheel 404 is arranged on the outer wall of the lower end of the mounting seat 401, and when the hoisting steel wire 407 is in use, the tail end of the hoisting steel wire 407 is detachably connected with the retaining ring 408, when a user installs the auxiliary longitudinal beam 202 by the hoisting assembly 4, the driving rod 405 can be rotated in advance to enable the driving wheel 404 to drive the driven wheel 403 to rotate, at this time, the winding rod 402 can rotate synchronously with the driven wheel 403, the winding rod 402 can release or wind the hoisting steel wire 407 when rotating, when the lowest point of the hoisting steel wire 407 is adjusted to be 10 cm to 20 cm away from the cross beam, the driving wheel 404 can be limited by a limiting block, wherein the limiting block is formed by combining a threaded rod and a rectangular block, the user rotates the threaded rod to clamp the rectangular block between two tooth blocks on the outer wall of the driving wheel 404, further limit the driving wheel 404 to prevent the driving wheel from rotating, so that the hoisting steel wire 407 can stably keep the adjusted length, after the left and right hoisting steel wires are adjusted, a worker can pre-install the longitudinal beam 202 by the hoisting steel wire 407, the distance between longeron 202 and the crossbeam 201 after the preinstallation is very near, be convenient for the workman independently through screw etc. with longeron 202 and crossbeam 201 be connected, need not extra personnel cooperation and carry out the lifting to longeron 202, and after the installation of many longerons 202 of hoist and mount subassembly 4 is accomplished, two workman's cooperation is hung the pre-buried couple 6 on the gypsum board 7 on hoist and mount steel wire 407, can realize equally preinstallation to the gypsum board through hoist and mount steel wire 407, and after gypsum board 7 and installation are accomplished, the workman can stretch into the top of gypsum board 7 with the hand and adjust the length that is located gypsum board 7 four corners position department hoist and mount steel wire 407 through rotating actuating lever 405, and then make the up end of gypsum board 7 and the bottom surface of light fossil fragments frame 2 press close to more, need not the workman to erect the support frame between the bottom surface and the indoor ground of gypsum board 7 and support to gypsum board 7, convenience when can improve this gypsum board 7 installation.

As a technical optimization scheme of the invention, the fastener specifically comprises a magnetic rod 409, two ends of the magnetic rod 409 are rotatably provided with an opening rod 410, the ends of the magnetic rod 409 are fixedly provided with a resistance block 411, the resistance block 411 is arranged on the outer side of the opening rod 410, the magnetic rod 409 is magnetic, the opening rod 401 is also magnetic, and the outer walls of the two sides of the opening rod 401 and the magnetic rod 409 are homopolar, so that the opening rod 410 is always in an opening state under the effect of mutual repulsion of magnetism, a user can turn over the two opening rods 410 by applying external force to the two opening rods 410 to form a conical mechanism, so that the user can conveniently pass the whole fastener through the inside of the buckle 408, after the opening rods 410 on the two sides of the magnetic rod 409 are opened, the hanging steel wire 407 can be blocked on the buckle 408, the hanging steel wire 407 can stably hang the longitudinal beam 202 and the gypsum board 7, and the setting of the resistance block 411 can form blocking effect on the two opening rods 401, so that the maximum opening angle of the two opening rods 401 is ninety degrees, and the fixing effect of the hanging steel wire 407 can be used for guaranteeing.

As a technical optimization scheme of the invention, a baffle 406 is fixedly arranged on the outer wall of the lower end of the mounting seat 401, the inside of the baffle 406 is arranged between the hoisting steel wire 407 and the driving wheel 404, and the arrangement of the baffle 406 can separate the hoisting steel wire 407 from the driving wheel 404, so that the hoisting steel wire 407 is prevented from being wound in the driving wheel 404 when in use, and the normal use of the hoisting assembly 4 is further affected.

As a technical optimization scheme of the invention, the auxiliary assembly 3 further comprises a chute 306 arranged in the installation block 302, pressing blocks 308 matched with the chute 306 are fixedly arranged on the outer walls of the two ends of the U-shaped frame 303, a spring piece 307 is arranged below the pressing blocks 308 in the chute 306, the spring pieces 307 are in arc-shaped arrangement, the two arc-shaped spring pieces 307 are arranged in opposite directions, when the pressing blocks 308 slide downwards, the spring pieces 307 deform, the gap between the U-shaped frame 303 and the connecting seat 301 can be enlarged, the auxiliary assembly 3 can be used for different cross beams 201 with smaller size and specification differences, and the tail ends of the cross beams 201 can be extruded and fixed between the connecting seat 301 and the U-shaped frame 303 under the action of the spring pieces 307.

As a technical optimization scheme of the invention, the U-shaped frame 303 is provided with the mounting groove, the inside of the mounting groove is slidably provided with the adjusting block 304, the adjusting block 304 is rotatably provided with the roller 305, when a worker places the tail end of the cross beam 201 on the U-shaped frame 303, the bottom surface of the cross beam 201 is contacted with the roller 305, and when the adjusting block 304 slides, the adjusting block 304 can be used for adjusting the position of the cross beam 201, so that the hole formed in advance on the cross beam 201 corresponds to the screw on the wooden keel, the two ends of the adjusting block 304 can be additionally provided with the springs, the springs are also arranged in the mounting groove, and the adjusting block 304 can be automatically centered under the elastic force of the springs, so that the corresponding process of the hole on the cross beam 201 and the screw is more convenient.

As a technical optimization scheme of the invention, the bottom of the installation groove is rotatably provided with a plurality of rollers 309, the rollers 309 are uniformly distributed in the installation groove at equal intervals, the rollers 309 are arranged at the bottom of the installation groove, two ends of each roller 309 are respectively in rotary connection with the inner wall of the lower end of the installation groove, the bottom surface of the adjusting block 304 can be in contact with the outer wall of the roller 309, when the adjusting block 304 moves, the friction force between the bottom surface of the adjusting block 304 and the outer wall of the roller 309 can enable the roller 309 to rotate, and further the sliding friction force between the adjusting block 304 and the bottom surface of the installation groove is converted into rolling friction force, so that the sliding of the adjusting block 304 in the installation groove is more flexible.

The method for installing the house suspended ceiling stabilizing structure comprises the following steps:

step one: the auxiliary components 3 are equidistantly fixed on the bottom surface of the fixed channel steel 101 through welding according to the distribution of the cross beams 201 in the light-weight keel frame 2, and then the hoisting components 4 are installed inside the supporting steel 102 through the fixed bolts 5 according to the distribution of the longitudinal beams 202 in the light-weight keel frame 2;

step two: fixing a steel structure isolation layer 1 formed by welding a fixed channel steel 101, a supporting steel 102 and a reinforcing steel 103 with a wall surface, isolating and separating an indoor space by the steel structure isolation layer 1, and then installing a plurality of wooden keels in the steel structure isolation layer 1;

step three: one end of the cross beam 201 can be installed in the auxiliary assembly 3 in a penetrating way by a worker between the cross beams 201, the tail end of the cross beam 201 passes through the space formed by the two installation blocks 302 and the U-shaped frame 303, then the tail end of the cross beam 201 can be lapped on the upper end of the U-shaped frame 303, the other end of the cross beam 201 can be lifted to be close to the wooden keel by the worker, and then the cross beam 201 and the wooden keel are connected by using a screw and a nut;

step four: in the process of installing the cross beam 201, if the preset hole matched with the screw rod on the cross beam 201 is not matched with the position of the screw rod, a worker can push the cross beam 201, and the tail end of the cross beam 201 can slide in the U-shaped frame 303 under the action of the adjusting block 304 until the hole of the screw rod on the cross beam 201 corresponds to the position of the screw rod;

step five: after the left and right cross beams 201 are installed, a user can adjust the lengths of the hoisting steel wires 407 on the hoisting assemblies 4 according to the installation positions of the longitudinal beams 202, when a worker rotates the driving rod 405 to drive the driven wheel 403 to rotate through the driving wheel 404, the winding rod 402 can retract the hoisting steel wires 407 to a proper length, then the tail ends of the hoisting steel wires 407 are matched with the retaining rings 408 through fasteners at the tail ends of the hoisting steel wires 407 to be fixed, and when the hoisting steel wires 407 are adjusted to a proper length, the worker can limit and fix the driving wheel 404 through limiting blocks;

step six: the tail end of the longitudinal beam 202 passes through the inside of a plurality of hoisting steel wires 407 at one time, the plurality of hoisting steel wires 407 can support the longitudinal beam 202, and workers can connect the longitudinal beam 202 and the cross beam 201 through bolts and the like;

step seven: when the transverse beam 201 and the longitudinal beam 202 are erected, a worker can lift the gypsum board 7 with the embedded hooks 6, hang the embedded hooks 6 on the hoisting steel wires 407, pre-install the gypsum board 7, at this time, the distance between the upper surface of the gypsum board 7 and the bottom surface of the light keel frame 2 is 10-20 cm, and finally, the worker can install the gypsum board 7 on the light keel frame 2 by using an external tool, and the hoisting steel wires 407 are always in a hoisting state for the gypsum board 7.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

The foregoing description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical solution of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (9)

1. The utility model provides a house furred ceiling stable structure, includes steel construction separation layer (1), a serial communication port, the inside swing joint of steel construction separation layer (1) has wooden fossil fragments, the below of wooden fossil fragments is connected with light dragon skeleton (2), the below of light dragon skeleton (2) is connected with gypsum board (7), the equal fixedly connected with pre-buried couple (6) in gypsum board (7) up end four corners position, steel construction separation layer (1) include two fixed channel-section steel (101), transverse welding has many supporting steels (102) that are parallel to each other between two fixed channel-section steel (101), all weld between two supporting steels (102) have many reinforcing steel (103) that are parallel with fixed channel-section steel (101), light dragon skeleton (2) include many crossbeams (201) and many longerons (202), the bottom surface of fixed channel-section steel (101) corresponds the position welding with crossbeam (201) end and has auxiliary assembly (3), the inside of supporting steel (102) corresponds position with a plurality of longeron (202) and installs hoist and mount subassembly (4).

2. The house ceiling stabilizing structure according to claim 1, wherein the auxiliary assembly (3) comprises a connecting seat (301) welded on the bottom surface of the fixed channel steel (101), two ends of the connecting seat (301) are connected with mounting blocks (302), the lower ends of the two mounting blocks (302) are connected with a U-shaped frame (303), and two ends of the U-shaped frame (303) are respectively connected with the lower ends of the mounting blocks (302) in a sliding mode.

3. The house suspended ceiling stabilizing structure according to claim 2, wherein the hoisting assembly (4) comprises a mounting seat (401), a fixing bolt (5) is arranged on the mounting seat (401), the mounting seat (401) is connected with the supporting steel (102) through the fixing bolt (5), a winding rod (402) is installed in one end inner rotation of the mounting seat (401), a hoisting steel wire (407) is fixedly connected to the outer wall of the winding rod (402), a retaining ring (408) is fixedly installed in the other end inner portion of the mounting seat (401), a fastener matched with the retaining ring (408) is connected to the other end of the hoisting steel wire (407), a driven wheel (403) is fixedly installed on the outer wall of the lower end of the winding rod (402), a driving wheel (404) meshed with the driven wheel (403) is installed in the inner rotation of the mounting seat (401), a driving rod (405) is fixedly installed in the center position of the bottom surface of the driving wheel (404), and a limiting block matched with the driving wheel (404) is arranged on the outer wall of the lower end of the mounting seat (401).

4. A house ceiling stabilizing structure according to claim 3, wherein the fastener specifically comprises a magnetic rod (409), the two sides of the end of the magnetic rod (409) are rotatably provided with an opening rod (410), the end of the magnetic rod (409) is fixedly provided with a resistance block (411), and the resistance block (411) is arranged outside the opening rod (410).

5. The house ceiling stabilizing structure according to claim 4, wherein a baffle (406) is fixedly installed on the outer wall of the lower end of the mounting seat (401), and the inside of the baffle (406) is arranged between the hoisting steel wire (407) and the driving wheel (404).

6. The house ceiling stabilizing structure according to claim 5, wherein the auxiliary assembly (3) further comprises a chute (306) formed in the installation block (302), pressing blocks (308) matched with the chute (306) are fixedly installed on the outer walls of the two ends of the U-shaped frame (303), and elastic pieces (307) are arranged below the pressing blocks (308) in the chute (306).

7. The house ceiling stabilizing structure according to claim 6, wherein the U-shaped frame (303) is provided with a mounting groove, an adjusting block (304) is slidably mounted in the mounting groove, and a roller (305) is rotatably mounted on the adjusting block (304).

8. The structure of claim 7, wherein the bottom of the installation groove is rotatably provided with a plurality of rollers (309), and the plurality of rollers (309) are uniformly distributed at equal intervals inside the installation groove.

9. A method of installing a suspended ceiling stabilizing structure in a building based on claim 8, the method comprising the steps of:

step one: according to the distribution of the cross beams (201) in the light keel frame (2), the auxiliary components (3) are equidistantly fixed on the bottom surface of the fixed channel steel (101) through welding, and then according to the distribution of the longitudinal beams (202) in the light keel frame (2), the hoisting components (4) are installed in the support steel (102) through the fixed bolts (5);

step two: fixing a steel structure isolating layer (1) formed by welding a fixed channel steel (101), a supporting steel (102) and a reinforcing steel (103) with a wall surface, isolating and separating an indoor space by the steel structure isolating layer (1), and then installing a plurality of wooden keels in the steel structure isolating layer (1);

step three: one end of the cross beam (201) can be arranged in the auxiliary assembly (3) in a penetrating way by workers between the cross beams (201), the tail end of the cross beam (201) passes through a space formed by two mounting blocks (302) and the U-shaped frame (303), the tail end of the cross beam (201) can be lapped on the upper end of the U-shaped frame (303), the other end of the cross beam (201) can be lifted to be close to a wooden keel by the workers, and then the cross beam (201) is connected with the wooden keel by using a screw and a nut;

step four: in the process of installing the cross beam (201), if the preset hole matched with the screw rod on the cross beam (201) is not matched with the position of the screw rod, a worker can push the cross beam (201), and the tail end of the cross beam (201) can slide in the U-shaped frame (303) under the action of the adjusting block (304) until the hole of the installation screw rod on the cross beam (201) corresponds to the position of the screw rod;

step five: after the left and right cross beams (201) are installed, a user can adjust the lengths of hoisting steel wires (407) on a plurality of hoisting assemblies (4) according to the installation positions of the longitudinal beams (202), when a worker rotates a driving rod (405) to drive a driven wheel (403) to rotate through a driving wheel (404), a winding rod (402) can retract the hoisting steel wires (407) to a proper length, then the tail ends of the hoisting steel wires (407) are matched with a buckle (408) through fasteners at the tail ends of the hoisting steel wires (407) to be fixed, and when the hoisting steel wires (407) are adjusted to the proper length, the worker can limit and fix the driving wheel (404) through limiting blocks;

step six: the tail end of the longitudinal beam (202) passes through the inside of a plurality of hoisting steel wires (407) at one time, the plurality of hoisting steel wires (407) can form a support for the longitudinal beam (202), and workers can connect the longitudinal beam (202) with the cross beam (201) through bolts and the like;

step seven, a step of performing a step of; when the crossbeam (201) and the longitudinal beam (202) are erected, a worker can lift the gypsum board (7) with the embedded hooks (6), hang the embedded hooks (6) on the hoisting steel wires (407), pre-install the gypsum board (7), the distance between the upper surface of the gypsum board (7) and the bottom surface of the light-weight keel frame (2) is 10-20 cm, and finally the worker can install the gypsum board (7) on the light-weight keel frame (2) by using an external tool, and the hoisting steel wires (407) are always in a hoisting state for the gypsum board (7).