CN109184060B - Thistle board tower-shaped suspended ceiling structure and construction method - Google Patents

Abstract

The invention relates to the technical field of gypsum board suspended ceiling construction, and discloses a paper-surface gypsum board tower-shaped suspended ceiling structure and a construction method thereof. The tower-shaped suspended ceiling structure of the gypsum plasterboard provided by the invention is simple in structure and convenient to install, and can effectively prevent cracking and deformation of the gypsum plasterboard.

Description

Thistle board tower-shaped suspended ceiling structure and construction method

Technical Field

The invention relates to the technical field of gypsum board suspended ceiling construction, in particular to a paper-surface gypsum board tower-shaped suspended ceiling structure and a construction method.

Background

The paper-surface gypsum board is a board made up by using building gypsum as main raw material, adding proper quantity of additive and fibre as core and using specially-made board paper as protective face through a certain preparation process. The paper-surface gypsum board has the characteristics of light weight, sound insulation, heat insulation, strong processability and simple and convenient construction method.

Chinese patent application publication No. CN103437475A discloses a construction method of a gypsum plaster board ceiling of a building structure, which includes the steps:

firstly, mounting a light steel keel;

secondly, mounting a cover gypsum board: mounting a cover gypsum board on the mounted light steel keel; side spacing seams are reserved between the peripheral side walls of the top-facing gypsum board and the wall body; the light steel keel is divided into a plurality of light steel keel frames by taking the plurality of transverse deformation joints as boundaries, and two adjacent light steel keel frames are mutually disconnected;

thirdly, constructing side spacing joints and deformation joints: and closing up the transverse deformation joint by adopting a first aluminum alloy closing-up strip, and closing up the side spacing joint by adopting a second aluminum alloy closing-up strip.

The construction method of the suspended ceiling of the gypsum plasterboard disclosed by the invention is only suitable for a common suspended ceiling structure, and is not suitable for a suspended ceiling with a special shape, such as a tower-shaped suspended ceiling, and meanwhile, no standardized construction scheme suitable for the tower-shaped suspended ceiling exists at present.

Disclosure of Invention

In order to solve the above problems, a first object of the present invention is to provide a thistle board tower-shaped suspended ceiling structure, which is suitable for installation of a tower-shaped suspended ceiling, has a simple structure, is convenient to install, and can effectively prevent the thistle board from cracking and deforming.

The invention provides a thistle board tower-shaped suspended ceiling structure which is realized by the following technical scheme:

thistle board tower shape furred ceiling structure includes:

including turriform furred ceiling body, the fossil fragments subassembly that is used for installing turriform furred ceiling body to and the jib of being connected fossil fragments subassembly and house top surface, turriform furred ceiling body includes central gypsum panel, is located the peripheral hanger plate of at least one deck of central gypsum panel below periphery, and be located peripheral hanger plate with between the central gypsum panel, adjacent layer gypsum inclined plane board between the peripheral hanger plate, central gypsum panel reaches peripheral hanger plate all inlays between fossil fragments subassembly, gypsum inclined plane board set up in peripheral hanger plate with between the central gypsum panel, adjacent layer between the peripheral hanger plate.

Through adopting above-mentioned technical scheme, peripheral hanger plate, central gypsum panel and gypsum inclined plane board are all installed through inlay card or lapped mode, do not have any containment to peripheral hanger plate, central gypsum panel and gypsum inclined plane board to can realize freely stretching out and drawing back, thereby effectively prevent it and cause fracture or deformation because of expend with heat and contract with cold.

In some embodiments, the keel assembly includes a hanger plate keel for mounting the peripheral hanger plate, the hanger plate keel including a "C" shaped first hanger plate fastener secured to a vertical wall surface and a "C" shaped second hanger plate fastener opposite the first hanger plate fastener, the second hanger plate fastener being connected to the ceiling surface of the house via the hanger rod, the peripheral hanger plate being embedded between the first hanger plate fastener and the second hanger plate fastener, the second hanger plate fastener being enclosed in a geometric figure.

Through adopting above-mentioned technical scheme, first hanger plate fastener and second hanger plate fastener adopt the relative "C" shape channel-section steel that sets up, and first hanger plate fastener and second hanger plate fastener are located same height, consequently form a plane cavity between first hanger plate fastener and the second hanger plate fastener, and peripheral hanger plate card is located in this cavity to realize the installation of peripheral hanger plate, need not to add and establish the mounting, thereby effectively prevent that peripheral hanger plate from causing fracture or deformation because of expend with heat and contract with cold.

In some embodiments, the keel assembly comprises a "C" shaped center panel clip for engaging the center gypsum panel, the center panel clip enclosing a geometric figure, and the center panel clip opening toward the center of the geometric figure enclosed thereby, the geometric figure enclosed by the center panel clip being located within the inner circle of the geometric figure enclosed by the second hanger plate clip, the center panel clip being connected to the ceiling of the building through the hanger rod, the center gypsum panel clip being engaged within the geometric figure enclosed by the center panel clip.

Through adopting above-mentioned technical scheme, the central panel fastener adopts "C" shape to enclose to establish and forms, and its opening towards its center of enclosing the geometric figure, consequently, its middle part forms a planar cavity, and central gypsum panel periphery card is located in this cavity to realize the installation of central gypsum panel, need not to add and establish the mounting, thereby effectively prevent that central gypsum panel from causing fracture or deformation because of expend with heat and contract with cold.

In some embodiments, an "L" shaped catch is fixed above the second hanger plate clip, the "L" shaped catch is arranged in parallel with the second hanger plate clip connected with the "L" shaped catch, and the opening of the "L" shaped catch faces to the center of the geometric figure enclosed by the second hanger plate clip.

Through adopting above-mentioned technical scheme, on the one hand "L" shape card keeps off the hoist and mount that the piece is used for realizing the second hanger plate fastener, and on the other hand "L" shape card keeps off the butt location that the piece is used for gypsum inclined plane board, prevents the vertical slip of gypsum inclined plane board.

In some embodiments, the L-shaped blocking member is uniformly sleeved with a hanging ring, and the hanging rod is fixedly connected with the hanging ring.

By adopting the technical scheme, the lifting ring is sleeved outside the L-shaped clamping piece, so that the lifting rod and the L-shaped clamping piece are in a non-fixed connection state, the lifting position is conveniently adjusted during installation, and the stability is ensured.

In some embodiments, the gypsum ramp panel abuts within the "L" shaped catch opening on one side and overlaps above the center panel catch on the other side.

Through adopting above-mentioned technical scheme, gypsum inclined plane board both sides are through overlapping respectively on "L" shape card keeps off and central panel fastener in order to realize the installation, and "L" shape card keeps off the piece simultaneously and can prevent the vertical slip of gypsum inclined plane board.

In some embodiments, a rib plate is disposed between adjacent gypsum slope boards in the same layer, and two ends of the rib plate are respectively lapped between the second hanger plate fastener and the center panel fastener and between the second hanger plate fasteners in adjacent layers.

Through adopting above-mentioned technical scheme, the rib board realizes accepting the gypsum inclined plane board both sides, has increased the whole molding of furred ceiling structure simultaneously and has felt.

In some embodiments, the rib plate is obliquely arranged, a clamping groove is formed in the bottom of the higher end of the rib plate, the profile of the clamping groove is consistent with the profile of the center panel clamping piece or the second hanging plate clamping piece which is in lap joint with the clamping groove, and the lower end of the rib plate is attached to the second hanging plate clamping piece which is in lap joint with the clamping piece and is fixedly connected with the clamping piece through a bolt.

Through adopting above-mentioned technical scheme, its buckle with the center panel fastener is realized to the draw-in groove of rib board one end tip, prevents its vertical slip, and the other end is connected with the second hanger plate fastener through the mode of rigid coupling, realizes the fixed of its position to guarantee the stability of its self and top gypsum inclined plane board installation.

In some embodiments, the two sides of the rib plate in the length direction are respectively provided with a sunken groove, and the gypsum inclined plane plate is erected on the rib plate and is positioned in the sunken groove.

Through adopting above-mentioned technical scheme, thereby the heavy groove of rib board both sides is used for setting up of gypsum inclined plane board realizes the location of gypsum inclined plane board horizontal direction.

The second purpose of the invention is to provide the construction method of the tower-shaped suspended ceiling of the gypsum plasterboard, which has the advantages of simple operation, high construction efficiency and capability of effectively preventing the cracking and deformation of the gypsum plasterboard.

The construction method of the thistle board tower-shaped suspended ceiling provided by the invention is realized by the following technical scheme:

the construction method of the thistle board tower-shaped suspended ceiling comprises the following steps:

s1: determining a central point;

s2: fixing a lifting point and carrying out top surface paying off;

s3: paying off the wall surface;

s4: mounting the hanger rod;

s5: installing the first hanger plate clamping piece on a vertical wall surface;

s6: sleeving the lifting ring on the L-shaped blocking piece;

s7: fixedly connecting the second hanging plate clamping piece and the L-shaped clamping piece;

s8: fixedly connecting the hanging rod with the hanging ring, and hoisting the second hanging plate clamping piece;

s9: fixedly connecting the suspender with the central panel clamping piece, and hoisting the central panel clamping piece;

s10: embedding the peripheral hanger plate card between the first hanger plate clamping piece and the second hanger plate clamping piece;

s11: mounting the ribbed plates to enable the clamping grooves of the ribbed plates to be clamped on the center panel clamping pieces or the second hanging plate clamping pieces in lap joint with the ribbed plates, and fixedly connecting one ends of the ribbed plates, far away from the clamping grooves, with the second hanging plate clamping pieces in lap joint with the ribbed plates;

s12: embedding the central gypsum panel card into the central panel card;

s13: and installing the gypsum inclined plane board to ensure that the edge of the gypsum inclined plane board is respectively abutted against the opening of the L-shaped blocking piece and the sinking groove on the rib plate.

By adopting the technical scheme, the suspended ceiling is suitable for installation of tower-shaped hanging points, simple in structure, convenient to install and high in construction efficiency, and meanwhile, the suspended ceiling installed by the construction method can effectively prevent the gypsum plasterboard from cracking and deforming.

In summary, compared with the prior art, the thistle board tower-shaped suspended ceiling structure and the construction method disclosed by the invention have the following advantages:

1. the construction method of the tower-shaped suspended ceiling made of the thistle board disclosed by the invention is a special construction method of the tower-shaped suspended ceiling, the installation is convenient, the construction efficiency is high, and meanwhile, the suspended ceiling installed by adopting the construction method can effectively prevent the thistle board from cracking and deforming;

2. through all adopting inlay card or lapped mode installation with peripheral hanger plate, central gypsum panel and gypsum inclined plane board, do not have any containment to peripheral hanger plate, central gypsum panel and gypsum inclined plane board to can realize freely stretching out and drawing back, thereby effectively prevent it and cause fracture or deformation because of expend with heat and contract with cold.

Drawings

FIG. 1 is a schematic overall structure diagram of a thistle board tower-shaped suspended ceiling structure provided by the invention;

FIG. 2 is a schematic structural view of a keel assembly in a thistle board tower-type suspended ceiling structure provided by the invention;

FIG. 3 is an exploded view of the thistle board tower ceiling construction of FIG. 1;

FIG. 4 is an enlarged view of portion A of FIG. 3;

fig. 5 is a schematic structural diagram of a rib plate in the thistle board tower-shaped suspended ceiling structure provided by the invention.

In the figure: 1. a ceiling body; 11. a central gypsum panel; 12. a peripheral hanger plate; 13. gypsum inclined plane board; 131. a right-angle clamping groove; 14. a bar plate; 141. a card slot; 142. sinking a groove; 2. a keel assembly; 20. a central panel keel; 21. a hanger plate keel; 211. a first hanger plate fastener; 212. a second hanger plate fastener; 221. a center panel fastener; 23. an "L" shaped catch; 24. an "L" shaped force-bearing member; 3. a boom; 31. a lifting ring.

Detailed Description

The gypsum plasterboard tower-shaped suspended ceiling structure and the construction method provided by the invention are further described in detail below with reference to the accompanying drawings and the specific embodiments.

As shown in fig. 1, the thistle board tower-shaped suspended ceiling structure disclosed by the invention comprises a tower-shaped suspended ceiling body 1, wherein the suspended ceiling body 1 is mounted on a keel assembly 2 and is hung on the top surface of a house through a hanging rod 3.

As shown in fig. 1, the tower-shaped suspended ceiling body 1 comprises a geometric-shaped central gypsum panel 11 located at the central position of an installation space and at least one layer of peripheral hanging board 12 located at the periphery below the central gypsum panel 11, in this embodiment of the invention, the central gypsum panel 11 is provided in a square shape, and only one layer of peripheral hanging board 12 is taken as an example, however, the shape of the central gypsum panel 11 is not limited to the square shape, and the number of layers of the peripheral hanging boards 12 is not limited to one layer; in addition, as shown in fig. 1, in this embodiment of the present invention, the shape of the cavity surrounded by the peripheral hanging plates 12 is also square, the center of the square cavity surrounded by the peripheral hanging plates 12 and the center of the square central gypsum panel 11 are located on the same vertical line, and the four sides of the square cavity surrounded by the peripheral hanging plates 12 and the four sides of the square central gypsum panel 11 are parallel to each other. As shown in fig. 1, the tower-shaped suspended ceiling body 1 further includes a gypsum inclined plane board 13 located between the peripheral hanging board 12 and the central gypsum panel 11, and the gypsum inclined plane board 13 is obliquely arranged to shield and close the cavity between the inner peripheral wall of the peripheral hanging board 12 and the outer peripheral wall of the central gypsum panel 11, so as to form the complete tower-shaped suspended ceiling body 1.

As shown in fig. 2, the keel assembly 2 includes a hanger plate keel 21 for mounting the peripheral hanger plates 12, and a center panel keel 20 for mounting the center gypsum panel 11.

As shown in fig. 2, the hanging plate keel 21 comprises a "C" -shaped first hanging plate fastener 211 fixed on a vertical wall surface, the first hanging plate fastener 211 is horizontally fixed on the vertical wall surface through self-tapping screws, the first hanging plate fasteners 211 are positioned at the same horizontal height and are sequentially connected in an head position, in this embodiment of the invention, the first hanging plate fasteners 211 on each wall surface are sequentially connected in an head position to form a square, and the "C" -shape of the first hanging plate fastener 211 faces to the central position of the square space surrounded by the first hanging plate fasteners; the hanging plate keel 21 further comprises a C-shaped second hanging plate clamping piece 212 which is located at the same horizontal height as the first hanging plate clamping piece 211 and is opposite to the first hanging plate clamping piece 211, the second hanging plate clamping piece 212 is hung on the inner ring of a square ring enclosed by the first hanging plate clamping piece 211 through a hanging rod 3, the second hanging plate clamping piece 212 is also in end-to-end connection and is enclosed into a square, and four sides of the square enclosed by the second hanging plate clamping piece are respectively parallel to four sides of the square enclosed by the first hanging plate clamping piece 211.

The hoisting structure of the second hanger plate clamping piece 212 is as follows: as shown in fig. 3, an "L" -shaped blocking piece 23 is fixed above each side of the second hanging plate clamping piece 212 through a bolt, the "L" -shaped blocking piece 23 is arranged in parallel with the second hanging plate clamping piece 212 connected with the "L" -shaped blocking piece 23, and the opening of the "L" -shaped blocking piece 23 faces to the center direction of the geometric figure enclosed by the second hanging plate clamping piece 212, as shown in fig. 2 and 3, each "L" -shaped blocking piece 23 is uniformly sleeved with a hanging ring 31, in this embodiment of the present invention, the hanging ring 31 is in a "G" shape, the upper end of the "G" shape is fixedly connected with the bottom end of the hanging rod 3 through a bolt, and the top end of the hanging rod 3 is fixed on the top surface of the house through an expansion bolt.

In order to realize the stability of the hanging plate keel 21, as shown in fig. 2, an "L" -shaped stress element 24 is fixed above the intersection angle of the adjacent edges of the second hanging plate clamping piece 212, the opening of each "L" -shaped stress element 24 faces the center direction of the geometric figure enclosed by the second hanging plate clamping piece 212, the two ends of each "L" -shaped stress element 24 are respectively sleeved with the hanging ring 31, and the hanging ring 31 is fixed on the top surface of the house through the hanging rod 3. Therefore, the hanger plate keel 21 is hoisted by the hanger rods 31 at four corners except for four sides, and is hoisted by the hanger rods 3 at four corners, so that the integral strength and the stability of the suspended ceiling are improved.

As shown in fig. 2 and 3, the peripheral hanging plate 12 is embedded between the C-shaped slots of the first hanging plate fastener 211 and the second hanging plate fastener 212, an expansion joint with a width of 5mm to 8mm is left between adjacent peripheral hanging plates 12, the width of the peripheral hanging plate 12 along the direction of the linear distance between the first hanging plate fastener 211 and the second hanging plate fastener 212 is smaller than the linear distance between the bottoms of the C-shaped slots of the first hanging plate fastener 211 and the second hanging plate fastener 212, and the length difference is 5mm to 8 mm. Therefore, an expansion joint for the extension and contraction of the peripheral hanging plate 12 is reserved between the peripheral hanging plate 12 and the first hanging plate clamping piece 211 and the second hanging plate clamping piece 212, and meanwhile, no fixed connection relation exists between the peripheral hanging plate 12 and the first hanging plate clamping piece 211 and the second hanging plate clamping piece 212, so that the cracking or deformation of the peripheral hanging plate 12 caused by expansion with heat and contraction with cold can be effectively prevented.

As shown in fig. 2, the center panel runner 20 includes a "C" shaped center panel clip 221, the "C" shaped center panel clip 221 is enclosed in a geometric figure, and the center panel clip 221 is open towards the center of the geometric figure enclosed, in this embodiment of the invention, the center panel clip 221 is enclosed in a square frame. As shown in fig. 2, the central panel clamping member 221 is hoisted on the top surface of the house through the boom 3, hoisting points of the boom 3 are uniformly distributed at the four edges of the central panel clamping member 221 and the corners of the four edges of the central panel clamping member 221, as shown in fig. 2, the boom 3 directly penetrates through the central panel clamping member 221 and is fixedly connected with the central panel clamping member by nuts.

As shown in fig. 2 and 3, the central gypsum panel 11 is embedded in the geometric figure enclosed by the central panel fastener 221, an expansion joint for the central gypsum panel 11 to expand and contract is left between the central gypsum panel 11 and the central panel fastener 221, and the width of the expansion joint is controlled to be between 5mm and 8 mm. Therefore, an expansion joint for the expansion and contraction of the center gypsum panel 11 is reserved between the center gypsum panel 11 and the center panel clamping piece 221, and meanwhile, no fixed connection relation exists between the center gypsum panel 11 and the center panel clamping piece 221, so that the center gypsum panel 11 can be effectively prevented from cracking or deforming due to expansion caused by heat and contraction caused by cold.

As shown in FIG. 3, the gypsum ramp 13 is positioned between the second hanger panel fastener 212 and the center panel fastener 221, and in this embodiment of the invention, the gypsum ramp 13 on each side is a one-piece panel, and the lower side of the gypsum ramp 13 is a one-piece panel

Abutting the opening of the "L" shaped catch 23 above the second hanger plate catch 212 and the other side overlapping the center panel catch 221. In order to make the lap joint of the gypsum inclined plane plate 13 more stable, as shown in fig. 4, a right-angle slot 131 with the outline identical to that of the central panel fastener 221 is arranged on the lap joint side of the upper part of the gypsum inclined plane plate 13 and the central panel fastener 221, so that the right-angle slot 131 is hooked on the central panel fastener 221, the positioning of the gypsum inclined plane plate 13 is realized, and the gypsum inclined plane plate 13 is prevented from vertically sliding; in addition, in order to prevent the gypsum inclined plane board 13 from cracking or deforming due to thermal expansion and cold contraction, an expansion joint is left between the abutting end of the lower side of the gypsum inclined plane board 13 and the L-shaped blocking piece 23 and the inner intersection angle of the L-shaped blocking piece 23.

As shown in fig. 3 and 5, a ribbed plate 14 is provided between adjacent gypsum ramp panels 13 in the direction of the seam, and both ends of the ribbed plate 14 are respectively overlapped between the second hanger plate clip 212 and the center panel clip 221. In order to make the bar strip plate 14 more stably installed, a triangular clamping groove 141 is formed at the bottom of the higher end of the bar strip plate 14, and the outline of the clamping groove 141 is consistent with the outline of the corner of the center panel clamping piece 221 lapped with the clamping groove 141, so that the clamping groove 141 is clamped on the center panel clamping piece 221, the positioning of the bar strip plate 14 is realized, and the bar strip plate 14 is prevented from vertically sliding; the lower end of the ribbed plate 14 abuts against the opening of the L-shaped stress piece 24 at the corresponding position, is attached to the surface of the L-shaped stress piece 24 overlapped with the lower end of the ribbed plate, and is fixedly connected with the lower end of the ribbed plate through a bolt.

As shown in fig. 3 and 5, the rib plate 14 is located at the lower side of the gypsum inclined plane plate 13, so that the two sides of the rib plate 14 in the length direction are respectively provided with a sunk groove 142, when the gypsum inclined plane plate 13 is installed, the gypsum inclined plane plate 13 is erected on the rib plate 14 and is located in the sunk groove 142, and after the installation, an expansion joint with the width of 5mm-8mm is left between the gypsum inclined plane plate 13 and the side wall of the sunk groove 142.

The invention also discloses a construction method of the thistle board tower-shaped suspended ceiling, which comprises the following specific steps:

s1: centering: determining the center point of the tower-shaped suspended ceiling in a mode that the diagonal intersection point forms the center point of a geometric figure, and marking the center point on the top surface of the house;

s2: fixing a lifting point and carrying out top surface paying-off: paying off by taking a central point as a center according to the measurement of a design drawing of the tower-shaped suspended ceiling, drawing the projection positions of a central panel fastener 221 and a second hanging plate fastener 212 on the top surface of the house, and marking the hanging point position of the hanging rod 3;

s3: wall surface line laying: according to a design drawing of the tower-shaped suspended ceiling, a horizontal line is arranged on the wall surface, and the installation height of the first hanging plate fastener 211 is determined;

s4: the hanger rod 3 is arranged on the top surface of the house through an expansion bolt;

s5: the first hanger plate fastener 211 is mounted on a vertical wall surface through a self-tapping screw;

s6: sleeving the hanging ring 31 on the L-shaped blocking piece 23;

s7: a self-tapping screw is adopted to fixedly connect the second hanger plate fastener 212 and the L-shaped blocking piece 23;

s8: adjusting the position of the hanging ring 31 on the L-shaped blocking piece 23, and fixedly connecting the hanging rod 3 with the hanging ring 31 to realize the hoisting of the second hanging plate clamping piece 212;

s9: fixedly connecting the suspender 3 with the central panel clamping piece 221, and hoisting the central panel clamping piece 221;

s10: the peripheral hanger plate 12 is clamped between the first hanger plate clamping piece 211 and the second hanger plate clamping piece 212;

s11: mounting the bar plate 14, so that the clamping groove 141 of the bar plate 14 is clamped on the central panel clamping piece 221, and one end of the bar plate, which is far away from the clamping groove 141, is fixedly connected with the L-shaped stress piece 24 lapped with the bar plate;

s12: the central gypsum panel 11 is embedded in the central panel clamping piece 221;

s13: the gypsum inclined plane board 13 is installed to make the edge of the gypsum inclined plane board 13 abut against the opening of the L-shaped blocking piece 23 and the sinking groove 142 on the ribbed plate 14 respectively.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims (9)

1. The thistle board tower-shaped suspended ceiling structure comprises a tower-shaped suspended ceiling body (1), a keel component (2) for mounting the tower-shaped suspended ceiling body (1), and a suspender (3) for connecting the keel component (2) with the top surface of a house, it is characterized in that the tower-shaped suspended ceiling body (1) comprises a central gypsum panel (11) and at least one layer of peripheral hanging plate (12) positioned on the periphery below the central gypsum panel (11), and gypsum bevel boards (13) between the peripheral hanging boards (12) and the central gypsum panel (11) and between the peripheral hanging boards (12) of adjacent layers, the central gypsum panel (11) and the peripheral hanging plate (12) are clamped and embedded between the keel components (2), the gypsum inclined plane plates (13) are erected between the peripheral hanging plates (12) and the central gypsum panel (11) and between the peripheral hanging plates (12) on the adjacent layers;

the keel assembly (2) comprises a hanging plate keel (21) used for installing the peripheral hanging plate (12), the hanging plate keel (21) comprises a C-shaped first hanging plate clamping piece (211) fixed on a vertical wall surface and a C-shaped second hanging plate clamping piece (212) opposite to the first hanging plate clamping piece (211), the second hanging plate clamping piece (212) is connected with the top surface of a house through the hanging rod (3), the second hanging plate clamping piece (212) is enclosed into a geometric figure, an L-shaped clamping piece (23) is fixed above the second hanging plate clamping piece (212), the L-shaped clamping piece (23) is arranged in parallel with the second hanging plate clamping piece (212) connected with the L-shaped clamping piece, and the opening of the L-shaped clamping piece (23) faces to the center of the geometric figure enclosed by the second hanging plate clamping piece (212).

2. The thistle board tower ceiling structure of claim 1, wherein the peripheral hanger plate (12) is snap-fit between the first hanger plate snap (211) and the second hanger plate snap (212).

3. A gypsum plasterboard tower suspended ceiling structure according to claim 2, wherein the keel assembly (2) comprises a "C" shaped centre panel clip (221) for clipping the centre gypsum panel (11), the centre panel clip (221) is enclosed in a geometrical figure, and the centre panel clip (221) is open towards the centre of the geometrical figure enclosed by it, the geometrical figure enclosed by the centre panel clip (221) is located at the inner ring of the geometrical figure enclosed by the second hanger plate clip (212), the centre panel clip (221) is connected with the ceiling of the house through the hanger bar (3), and the centre gypsum panel (11) is clipped in the geometrical figure enclosed by the centre panel clip (221).

4. A gypsum plasterboard tower-shaped suspended ceiling structure as claimed in claim 3, wherein the L-shaped blocking member (23) is uniformly sleeved with a hanging ring (31), and the hanging rod (3) is fixedly connected with the hanging ring (31).

5. The gypsum plasterboard tower ceiling structure of claim 4, wherein the gypsum ramp board (13) abuts on one side in the opening of the "L" shaped catch (23) and on the other side overlaps above the centre panel catch (221).

6. The gypsum plaster board tower ceiling structure of claim 5, wherein a ribbed plate (14) is provided between adjacent gypsum ramp boards (13) in the same layer, and both ends of the ribbed plate (14) are respectively overlapped between the second hanger plate fastener (212) and the center panel fastener (221) and between the second hanger plate fasteners (212) of adjacent layers.

7. The tower-shaped suspended ceiling structure of gypsum plasterboard according to claim 6, wherein the ribbed plate (14) is obliquely arranged, a clamping groove (141) is arranged at the bottom of the higher end of the ribbed plate, the profile of the clamping groove (141) is consistent with the profile of the center panel clamping piece (221) or the second hanging plate clamping piece (212) overlapped with the clamping groove, and the lower end of the ribbed plate (14) is in surface fit with the second hanging plate clamping piece (212) overlapped with the ribbed plate and is fixedly connected with the ribbed plate by a bolt.

8. The tower-shaped suspended ceiling structure of claim 7, characterized in that the two longitudinal sides of the rib plate (14) are respectively provided with a sunk groove (142), and the gypsum inclined plane board (13) is arranged on the rib plate (14) and is positioned in the sunk groove (142).

9. The method of constructing a gypsum plasterboard tower suspended ceiling structure of claim 8, comprising the steps of:

s1: determining a central point;

s2: fixing a lifting point and carrying out top surface paying off;

s3: paying off the wall surface;

s4: -mounting the boom (3);

s5: mounting the first hanger plate fastener (211) on a vertical wall surface;

s6: sleeving the lifting ring (31) on the L-shaped blocking piece (23);

s7: the second hanging plate clamping piece (212) and the L-shaped clamping piece (23) are fixedly connected;

s8: fixedly connecting the hanger rod (3) with the hanging ring (31), and hoisting the second hanger plate clamping piece (212);

s9: fixedly connecting the suspender (3) with the central panel clamping piece (221), and hoisting the central panel clamping piece (221);

s10: clamping and embedding the peripheral hanging plate (12) between the first hanging plate clamping piece (211) and the second hanging plate clamping piece (212);

s11: mounting the ribbed plate (14), so that a clamping groove (141) of the ribbed plate (14) is clamped on the center panel clamping piece (221) or the second hanging plate clamping piece (212) in lap joint with the ribbed plate, and one end of the ribbed plate (14) far away from the clamping groove (141) is fixedly connected with the second hanging plate clamping piece (212) in lap joint with the clamped end;

s12: the central gypsum panel (11) is embedded in the central panel clamping piece (221);

s13: and installing the gypsum inclined plane board (13) to ensure that the edge of the gypsum inclined plane board (13) is respectively abutted against the opening of the L-shaped blocking piece (23) and the sunk groove (142) on the ribbed plate (14).

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