CN112031251A - Adjustable arc aluminum square tube design ceiling structure and installation method - Google Patents

Abstract

The invention provides an adjustable arc aluminum square tube designed ceiling structure, which comprises: a base frame including a first vertical link assembly having a first vertical link and a second vertical link assembly having a second vertical link; the aluminum square tube assembly is provided with a plurality of arc-shaped aluminum square tube pieces, one ends of the arc-shaped aluminum square tube pieces are connected with the first vertical connecting frame through the first adjusting assembly, and the other ends of the arc-shaped aluminum square tube pieces are connected with the second vertical connecting frame through the second adjusting assembly; the gypsum board suspended ceiling is provided with an annular groove body, and the aluminum square tube component is positioned in the annular groove body. The invention also provides an installation method of the suspended ceiling. Compared with the prior art, the invention mainly has the following advantages: adopt the regulating part that nut and screw rod are constituteed, can realize the fine setting of arc aluminium square tube spare, do benefit to and adjust the whole roughness of furred ceiling, and can realize the adjustment to difference in height between aluminium square tube subassembly and the gypsum board furred ceiling, the later stage of being convenient for tear open the dimension work.

Description

Adjustable arc aluminum square tube design ceiling structure and installation method

Technical Field

The invention relates to an arc aluminum square tube suspended ceiling, in particular to an adjustable arc aluminum square tube designed suspended ceiling structure and an installation method.

Background

At present, in the architectural decoration construction field, the fixed preparation of superelevation space furred ceiling aluminium square tube circular arc molding structure mainly is with welded fastening, because of the vice face is too big among the installation fixing process, in case crooked then influence the figurative whole roughness of aluminium square tube circular arc, seam crossing is extremely easy, warp, influences whole impression effect.

Simultaneously, the back is installed to aluminium square tube circular arc molding furred ceiling, and aluminium square tube circular arc molding unit piece can't finely tune for in the furred ceiling after accomplishing, can appear difference in height or difference in height not conform to the problem of requirement between aluminium square tube subassembly and the gypsum board furred ceiling, influence the whole molding of furred ceiling, also brought the difficulty for the dismantlement maintenance in later stage.

Disclosure of Invention

In view of the above, the invention provides an adjustable arc aluminum square tube designed ceiling structure and an installation method thereof, and solves the problems that the existing arc aluminum square tube ceiling is poor in overall flatness, seams are easy to stagger and deform, the height difference between an aluminum square tube component and a gypsum board ceiling cannot be adjusted, and later-period maintenance is difficult.

To this end, in one aspect, the present invention provides an adjustable arc aluminum square tube design ceiling structure, comprising:

the base frame is connected to the top surface base layer and at least comprises a first vertical connecting frame assembly and a second vertical connecting frame assembly, the first vertical connecting frame assembly is provided with a plurality of first vertical connecting frames which form a ring in a surrounding mode, the second vertical connecting frame assembly is provided with a plurality of second vertical connecting frames which form a ring in a surrounding mode, and the second vertical connecting frame assembly is located on the periphery of the first vertical connecting frame assembly;

the aluminum square passage assembly is provided with a plurality of arc-shaped aluminum square passage pieces, one end of each arc-shaped aluminum square passage piece is connected with the first vertical connecting frame through the first adjusting assembly, each first adjusting assembly comprises a first screw rod piece and a first nut piece, the first screw rod piece is connected with the arc-shaped aluminum square passage pieces and the first vertical connecting frames and locked through the first nut pieces, the other opposite end of each arc-shaped aluminum square passage piece is connected with the second vertical connecting frames through the second adjusting assembly, each second adjusting assembly comprises a second screw rod piece and a second nut piece, and the second screw rod pieces are connected with the arc-shaped aluminum square passage pieces and the second vertical connecting frames and locked through the second nut pieces;

gypsum board furred ceiling, it is connected on the bed frame, and gypsum board furred ceiling has the annular groove body, and it is internal that first vertical link and the vertical link of second penetrate the ring channel, and it is internal that aluminium square tube subassembly is located the ring channel.

Further, the bottom of the first vertical connecting frame is connected with a first annular aluminum square tube framework through a first adjusting assembly, the bottom of the second vertical connecting frame is connected with a second annular aluminum square tube framework through a second adjusting assembly, and the two opposite ends of the arc-shaped aluminum square tube component are respectively connected with the first annular aluminum square tube framework and the second annular aluminum square tube framework.

Further, be provided with first square logical chamber in the above-mentioned first annular aluminium square tube skeleton, the tip of arc aluminium square tube spare is inserted first square logical chamber and is fixed through first fastener.

Further, be provided with the square logical chamber of second in the above-mentioned second annular aluminium square tube skeleton, the tip of arc aluminium square tube spare is inserted the square logical chamber of second and is fixed through the second fastener.

Further, the bottom of the first vertical connecting frame is provided with a first hanging rod, the first hanging rod is connected with a first hanging piece, the cross section of the first hanging piece is in a U shape, and the bottom surface of the first hanging piece is connected with a first annular aluminum square tube framework through a first screw rod piece and a first nut piece.

Furthermore, the bottom of the second vertical connecting frame is provided with a second hanging rod, the second hanging rod is connected with a second hanging piece, the cross section of the second hanging piece is in a U shape, and the bottom surface of the second hanging piece is connected with a second annular aluminum square tube framework through a second screw rod and a second nut piece.

Further, the base frame further comprises a top surface horizontal frame, and the top end of the first vertical connecting frame and the top end of the second vertical connecting frame are both connected with the top surface horizontal frame.

Further, the length of the first vertical connecting frame is shorter than that of the second vertical connecting frame.

Furthermore, the first vertical connecting frame assembly and the second vertical connecting frame assembly are both in a circular ring shape, and are concentrically distributed.

On the other hand, the invention provides an installation method of an adjustable arc aluminum square tube design ceiling structure, which comprises the following steps:

1) connecting the base frame to the top base layer;

2) connecting the gypsum board suspended ceiling to the base frame, and penetrating the first vertical connecting frame and the second vertical connecting frame into an annular groove body of the gypsum board suspended ceiling;

3) an aluminum square tube assembly is arranged in the annular groove body, the top surface of a first hanging piece is connected with a first hanging rod at the bottom of a first vertical connecting frame, a first screw rod piece is connected with the bottom surface of the first hanging piece and a first annular aluminum square tube framework and is locked through a first nut piece, and the end part of the arc-shaped aluminum square tube piece is inserted into a first square tube cavity of the first annular aluminum square tube framework and is fixed through a first fastener;

4) connecting the top surface of a second pendant with a second suspender at the bottom of a second vertical connecting frame, connecting a second screw rod piece with the bottom surface of the second pendant and a second annular aluminum square tube framework and locking the second pendant and the second annular aluminum square tube framework through a second nut piece, inserting the end part of the arc-shaped aluminum square tube piece into a second square tube cavity of the second annular aluminum square tube framework and fixing the end part of the arc-shaped aluminum square tube piece through a second fastener;

5) adjust the difference in height of aluminium square tube subassembly and gypsum board furred ceiling, loosen first nut spare or second nut spare, raise or reduce the mounting height of first annular aluminium square tube skeleton or second annular aluminium square tube skeleton for the difference in height of aluminium square tube subassembly and gypsum board furred ceiling is zero or accords with the difference in height requirement.

In the adjustable arc aluminum square tube designed ceiling structure and the mounting method provided by the invention, one end of an arc aluminum square tube is connected with a first vertical connecting frame through a first adjusting assembly, the first adjusting assembly comprises a first screw rod piece and a first nut piece, the first screw rod piece is connected with the arc aluminum square tube and the first vertical connecting frame and is locked through the first nut piece, the other opposite end of the arc aluminum square tube is connected with a second vertical connecting frame through a second adjusting assembly, the second adjusting assembly comprises a second screw rod piece and a second nut piece, and the second screw rod piece is connected with the arc aluminum square tube and the second vertical connecting frame and is locked through the second nut piece; when the height difference of the aluminum square tube component and the gypsum board suspended ceiling needs to be adjusted, the first nut piece or the second nut piece is loosened, and the mounting heights of the two ends of the arc-shaped aluminum square tube component are raised or reduced, so that the height difference of the aluminum square tube component and the gypsum board suspended ceiling is zero or meets the requirement of the height difference.

Therefore, compared with the prior art, the invention mainly has the following advantages:

1) the adjusting piece consisting of the nut and the screw rod can realize fine adjustment of the arc-shaped aluminum square tube piece, is beneficial to adjusting the integral flatness of the suspended ceiling, can realize adjustment of the height difference between the aluminum square tube component and the gypsum board suspended ceiling, and is convenient for later maintenance removal work;

2) the assembly type connecting structure consisting of the vertical connecting frame, the arc-shaped aluminum square tube piece and the adjusting assembly is adopted, welding is not needed, the problem that seams are prone to misjoint and deformation is effectively solved, meanwhile, the efficiency of manufacturing and installing arc shapes of the ceiling aluminum square tube is improved, a large amount of manpower and material resources are saved, later-period adjustment and maintenance of aluminum square tube unit bodies are facilitated, and the maintenance cost is reduced;

3) the basic layer frame and the accessories are low in price and simple and convenient to install, and the requirement on the professional technical level of a manufacturer is lowered.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

fig. 1 is a schematic structural diagram of an outer surface of an adjustable arc aluminum square tube designed ceiling structure provided by an embodiment of the invention:

fig. 2 is a schematic internal structural diagram of an adjustable arc aluminum square tube design ceiling structure provided by an embodiment of the invention;

fig. 3 is a schematic connection diagram of a first vertical connection frame assembly and a first annular aluminum square tube framework in an adjustable arc aluminum square tube designed ceiling structure according to an embodiment of the present invention;

fig. 4 is a schematic connection diagram of a second vertical connection frame assembly and a second annular aluminum square tube framework in an adjustable arc aluminum square tube design ceiling structure provided by an embodiment of the invention.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

The first embodiment is as follows:

referring to fig. 1 to 4, an adjustable arc aluminum square tube design suspended ceiling structure provided by an embodiment of the invention is shown, wherein a base frame 1, an aluminum square tube component 2 and a plasterboard suspended ceiling 3 are mainly arranged.

Referring to fig. 1 to 3, the base frame 1 mainly includes a top horizontal frame 19, a first vertical connection frame assembly 11, a second vertical connection frame assembly 12 and a third vertical connection frame assembly 20, wherein the first vertical connection frame assembly 11, the second vertical connection frame assembly 12 and the third vertical connection frame assembly 20 are all arranged in a circular ring shape and concentrically distributed, and the first vertical connection frame assembly 11, the second vertical connection frame assembly 12 and the third vertical connection frame assembly 20 are arranged from inside to outside.

Alternatively, only the first vertical link assembly 11 and the second vertical link assembly 12 may be provided, or more vertical link assemblies may be provided.

Referring to fig. 1 to 4, the first vertical connection frame assembly 11 has a plurality of first vertical connection frames 111, the second vertical connection frame assembly 12 has a plurality of second vertical connection frames 121, and the top ends of the first vertical connection frames 111 and the top ends of the second vertical connection frames 121 are connected to the top horizontal frame 19.

Referring to fig. 1 to 4, the aluminum square tube assembly 2 has a plurality of arc-shaped aluminum square tubes 21, one end of each arc-shaped aluminum square tube 21 is connected to the first vertical connecting frame 111 through the first adjusting assembly 13, the first adjusting assembly 13 includes a first screw member 131 and a first nut member 132, the first screw member 131 is connected to the arc-shaped aluminum square tube 21 and the first vertical connecting frame 111 and is locked by the first nut member 132, the opposite end of the arc-shaped aluminum square tube 21 is connected to the second vertical connecting frame 121 through the second adjusting assembly 14, the second adjusting assembly 14 includes a second screw member 141 and a second nut member 142, and the second screw member 141 is connected to the arc-shaped aluminum square tube 21 and the second vertical connecting frame 121 and is locked by the second nut member 142.

The specific structure of the third vertical connection frame assembly 20 is the same as the first vertical connection frame assembly 11 and the second vertical connection frame assembly 12, and will not be described again.

Referring to fig. 1 to 4, the length of the first vertical connecting frame 111 is shorter than that of the second vertical connecting frame 121, and the length of the vertical connecting frame of the third vertical connecting frame assembly 20 is longer than that of the second vertical connecting frame 121, so that the arc-shaped aluminum square tube ceiling model with the cascade effect is formed.

Referring to fig. 1 to 4, the suspended ceiling 3 made of gypsum is connected to the base frame 1, the suspended ceiling 3 made of gypsum has an annular groove 31, the first vertical connecting frame 111 and the second vertical connecting frame 121 penetrate into the annular groove 31, the suspended ceiling 3 made of gypsum can be specifically fixed to the vertical connecting frames, and the aluminum square tube component 2 is located in the annular groove 31.

Referring to fig. 1 to 4, the top horizontal bracket 19 may be made of channel steel, and the first vertical link assembly 11, the second vertical link assembly 12, and the third vertical link assembly 20 may be made of galvanized square pipes.

In the ceiling structure and the installation method of the adjustable arc aluminum square tube design provided by the embodiment, one end of an arc aluminum square tube piece is connected with a first vertical connecting frame through a first adjusting assembly, the first adjusting assembly comprises a first screw rod piece and a first nut piece, the first screw rod piece is connected with the arc aluminum square tube piece and the first vertical connecting frame and is locked through the first nut piece, the other opposite end of the arc aluminum square tube piece is connected with a second vertical connecting frame through a second adjusting assembly, the second adjusting assembly comprises a second screw rod piece and a second nut piece, and the second screw rod piece is connected with the arc aluminum square tube piece and the second vertical connecting frame and is locked through the second nut piece; when the height difference of the aluminum square tube component and the gypsum board suspended ceiling needs to be adjusted, the first nut piece or the second nut piece is loosened, and the mounting heights of the two ends of the arc-shaped aluminum square tube component are raised or reduced, so that the height difference of the aluminum square tube component and the gypsum board suspended ceiling is zero or meets the requirement of the height difference.

Therefore, the present embodiment has the following advantages compared to the prior art:

1) the adjusting piece consisting of the nut and the screw rod can realize fine adjustment of the arc-shaped aluminum square tube piece, is beneficial to adjusting the integral flatness of the suspended ceiling, can realize adjustment of the height difference between the aluminum square tube component and the gypsum board suspended ceiling, and is convenient for later maintenance removal work;

2) the assembly type connecting structure consisting of the vertical connecting frame, the arc-shaped aluminum square tube piece and the adjusting assembly is adopted, welding is not needed, the problem that seams are prone to misjoint and deformation is effectively solved, meanwhile, the efficiency of manufacturing and installing arc shapes of the ceiling aluminum square tube is improved, a large amount of manpower and material resources are saved, later-period adjustment and maintenance of aluminum square tube unit bodies are facilitated, and the maintenance cost is reduced;

3) the basic layer frame and the accessories are low in price and simple and convenient to install, and the requirement on the professional technical level of a manufacturer is lowered.

Example two:

referring to fig. 1 to fig. 3, an adjustable arc aluminum square tube design ceiling structure provided by a second embodiment of the present invention is shown in the drawings, and on the basis of the above embodiments, the present embodiment further provides the following technical solutions as improvements: the bottom of first vertical link 111 has first jib 15, first jib 15 connects first pendant 16, the cross-section of first pendant 16 is the U-shaped, the bottom surface of first pendant 16 passes through first screw member 131 and first nut piece 132 connects first annular aluminium square tube skeleton 22, and is provided with the logical chamber 221 of first square in the first annular aluminium square tube skeleton 22, the tip of the logical piece 21 of arc aluminium square tube inserts the logical chamber 221 of first square and fixes through first fastener 222 (specifically can be screw and nut). Through the setting of above-mentioned structure, on the one hand, the receipts mouth department of arc aluminium square tube spare adopts annular aluminium square tube skeleton binding off, and whole decoration is pleasing to the eye, and no abrupt sense, on the other hand, the combination of jib and pendant can be convenient for adjust the height of annular aluminium square tube skeleton, can accomplish the regulation to the screw nut from the inboard of pendant, and the jib is convenient for the pendant and the connection of vertical link simultaneously.

Example three:

referring to fig. 1, fig. 2 and fig. 4, an adjustable arc aluminum square tube design ceiling structure provided by a third embodiment of the present invention is shown in the drawings, and on the basis of the above embodiments, the present embodiment further provides the following improved technical solutions: the bottom of the second vertical connecting frame 121 is provided with a second suspender 17, the second suspender 17 is connected with a second suspender 18, the cross section of the second suspender 18 is in a U shape, the bottom surface of the second suspender 18 is connected with a second annular aluminum square tube framework 23 through a second screw rod member 141 and a second nut member 142, a second square through cavity 231 is arranged in the second annular aluminum square tube framework 23, and the end part of the arc-shaped aluminum square tube member 21 is inserted into the second square through cavity 231 and is fixed through a second fastener 232 (specifically, a screw and a nut). The setting of above-mentioned structure, on the one hand, the receipts mouth department of arc aluminium square tube spare adopts annular aluminium square tube skeleton binding off, and whole decoration is pleasing to the eye, and no abrupt sense, on the other hand, the combination of jib and pendant can be convenient for adjust the height of annular aluminium square tube skeleton, can accomplish the regulation to the screw nut from the inboard of pendant, and the jib is convenient for the pendant and the connection of vertical link simultaneously.

Referring to fig. 1 to 3, the adjustable arc aluminum square tube design ceiling structure of the embodiment is installed by the following installation method, which includes the following steps:

s1: connecting the base frame 1 to the top surface base layer;

s2: connecting the gypsum board suspended ceiling 3 to the base frame 1, wherein the first vertical connecting frame 111 and the second vertical connecting frame 121 penetrate into the annular groove body 31 of the gypsum board suspended ceiling 3;

s3: the aluminum square tube component 2 is installed in the annular groove body 31, the top surface of the first hanging piece 16 is connected with the first hanging rod 15 at the bottom of the first vertical connecting frame 111, the first screw rod piece 131 is connected with the bottom surface of the first hanging piece 16 and the first annular aluminum square tube framework 22 and is locked through the first nut piece 132, and the end part of the arc-shaped aluminum square tube piece 21 is inserted into the first square tube cavity 221 of the first annular aluminum square tube framework 22 and is fixed through the first fastening piece 222;

s4: the top surface of the second hanger 18 is connected with the second hanger rod 17 at the bottom of the second vertical connecting frame 121, the second screw rod member 141 is connected with the bottom surface of the second hanger 18 and the second annular aluminum square tube framework 23 and is locked by the second nut member 142, and the end part of the arc-shaped aluminum square tube member 21 is inserted into the second square tube cavity 231 of the second annular aluminum square tube framework 23 and is fixed by the second fastener 232;

s5: and adjusting the height difference between the aluminum square tube component 2 and the plasterboard suspended ceiling 3, loosening the first nut member 132 or the second nut member 142, and raising or lowering the installation height of the first annular aluminum square tube framework 22 or the second annular aluminum square tube framework 23 so that the height difference between the aluminum square tube component 2 and the plasterboard suspended ceiling 3 is zero or meets the requirement of the height difference.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (9)

1. The utility model provides an adjustable circular arc aluminium square tube designs furred ceiling structure which characterized in that includes:

the base frame (1) is connected to a top surface base layer, the base frame (1) at least comprises a first vertical connecting frame assembly (11) and a second vertical connecting frame assembly (12), the first vertical connecting frame assembly (11) is provided with a plurality of first vertical connecting frames (111) which form a ring in a surrounding mode, the second vertical connecting frame assembly (12) is provided with a plurality of second vertical connecting frames (121) which form a ring in a surrounding mode, and the second vertical connecting frame assembly (12) is located at the periphery of the first vertical connecting frame assembly (11);

an aluminum square tube component (2) which is provided with a plurality of arc-shaped aluminum square tube pieces (21), one end of each arc-shaped aluminum square tube piece (21) is connected with the first vertical connecting frame (111) through a first adjusting component (13), the first adjustment assembly (13) comprises a first screw member (131) and a first nut member (132), the first screw member (131) connects the arc-shaped aluminum square tube member (21) and the first vertical connecting frame (111) and is locked by the first nut member (132), the other opposite end of the arc-shaped aluminum square through piece (21) is connected with the second vertical connecting frame (121) through a second adjusting component (14), the second adjustment assembly (14) comprises a second screw member (141) and a second nut member (142), the second screw rod piece (141) is connected with the arc-shaped aluminum square tube piece (21) and the second vertical connecting frame (121) and is locked through the second nut piece (142); the bottom of the first vertical connecting frame (111) is further connected with a first annular aluminum square tube framework (22) through the first adjusting assembly (13), the bottom of the second vertical connecting frame (121) is further connected with a second annular aluminum square tube framework (23) through the second adjusting assembly (14), and two opposite ends of the arc-shaped aluminum square tube piece (21) are respectively connected with the first annular aluminum square tube framework (22) and the second annular aluminum square tube framework (23);

the plasterboard suspended ceiling (3) is connected to the base frame (1), the plasterboard suspended ceiling (3) is provided with an annular groove body (31), the first vertical connecting frame (111) and the second vertical connecting frame (121) penetrate into the annular groove body (31), and the aluminum square tube component (2) is located in the annular groove body (31).

2. The adjustable arc aluminum square tube designed ceiling structure according to claim 1, wherein a first square through cavity (221) is arranged in the first annular aluminum square tube framework (22), and the end of the arc aluminum square tube (21) is inserted into the first square through cavity (221) and fixed through a first fastener (222).

3. The adjustable arc aluminum square tube designed suspended ceiling structure of claim 1, wherein a second square through cavity (231) is arranged in the second annular aluminum square tube framework (23), and the end of the arc aluminum square tube (21) is inserted into the second square through cavity (231) and fixed by a second fastener (232).

4. The adjustable arc aluminum square tube design suspended ceiling structure of claim 1, wherein the bottom of the first vertical connecting frame (111) is provided with a first hanger rod (15), the first hanger rod (15) is connected with a first hanging piece (16), the cross section of the first hanging piece (16) is U-shaped, and the bottom surface of the first hanging piece (16) is connected with the first annular aluminum square tube framework (22) through the first screw rod piece (131) and the first nut piece (132).

5. The adjustable arc aluminum square tube design suspended ceiling structure of claim 1, wherein the bottom of the second vertical connecting frame (121) is provided with a second hanger rod (17), the second hanger rod (17) is connected with a second hanging piece (18), the cross section of the second hanging piece (18) is U-shaped, and the bottom surface of the second hanging piece (18) is connected with the second annular aluminum square tube framework (23) through the second screw rod piece (141) and the second nut piece (142).

6. The adjustable arc aluminum square tube designed ceiling structure according to claim 1, wherein the base frame (1) further comprises a top horizontal frame (19), and the top ends of the first vertical connecting frame (111) and the second vertical connecting frame (121) are connected with the top horizontal frame (19).

7. The adjustable circular arc aluminum square tube design ceiling structure of claim 6, wherein the length of the first vertical connecting frame (111) is shorter than the length of the second vertical connecting frame (121).

8. The adjustable arc aluminum square tube designed ceiling structure of claim 1, wherein the first vertical connecting frame assembly (11) and the second vertical connecting frame assembly (12) are both circular rings, and the first vertical connecting frame assembly (11) and the second vertical connecting frame assembly (12) are concentrically arranged.

9. The method for installing the adjustable arc aluminum square tube design ceiling structure according to any one of claims 1 to 8, characterized by comprising the following steps:

1) connecting the base frame (1) to the top surface base layer;

2) connecting a gypsum board suspended ceiling (3) to the base frame (1), wherein a first vertical connecting frame (111) and a second vertical connecting frame (121) penetrate into an annular groove body (31) of the gypsum board suspended ceiling (3);

3) an aluminum square tube assembly (2) is arranged in the annular groove body (31), the top surface of a first hanging piece (16) is connected with a first hanging rod (15) at the bottom of a first vertical connecting frame (111), a first screw rod piece (131) is connected with the bottom surface of the first hanging piece (16) and the first annular aluminum square tube framework (22) and locked through a first nut piece (132), and the end part of an arc-shaped aluminum square tube piece (21) is inserted into a first square tube cavity (221) of the first annular aluminum square tube framework (22) and fixed through a first fastening piece (222);

4) the top surface of a second hanging piece (18) is connected with a second hanging rod (17) at the bottom of a second vertical connecting frame (121), a second screw rod piece (141) is connected with the bottom surface of the second hanging piece (18) and the second annular aluminum square through framework (23) and is locked through a second nut piece (142), and the end part of the arc-shaped aluminum square through piece (21) is inserted into a second square through cavity (231) of the second annular aluminum square through framework (23) and is fixed through a second fastener (232);

5) adjusting the height difference between the aluminum square tube assembly (2) and the plasterboard suspended ceiling (3), loosening the first nut member (132) or the second nut member (142), and raising or lowering the installation height of the first annular aluminum square tube framework (22) or the second annular aluminum square tube framework (23) so that the height difference between the aluminum square tube assembly (2) and the plasterboard suspended ceiling (3) is zero or meets the height difference requirement.

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