CN212670980U

CN212670980U - Connection structure of hexagon aluminum plate furred ceiling and floor

Info

Publication number: CN212670980U
Application number: CN202020995465.6U
Authority: CN
Inventors: 黄�俊; 漆佳欣; 张鹏; 杨高勇; 马义强; 马可仁; 徐达; 郭斌; 张龙龙; 方彬; 戴君欢
Original assignee: China Construction Second Engineering Bureau Co Ltd; Shenzhen Overseas Decoration Engineering Co Ltd
Current assignee: China Construction Second Engineering Bureau Co Ltd; Shenzhen Overseas Decoration Engineering Co Ltd
Priority date: 2020-06-03
Filing date: 2020-06-03
Publication date: 2021-03-09
Anticipated expiration: 2030-06-03

Abstract

A connection structure of a hexagonal aluminum plate ceiling and a floor slab; the device comprises a main keel, an adapter plate, a hanging keel and a ceiling board; the main keel is transversely hung below the floor slab; the hanging keels are arranged in a group at intervals along the transverse direction; the hanging keel is connected to the bottom of the main keel through an adapter plate; the hanging keel comprises a top plate, a bottom plate and a vertical plate; the vertical plates are arranged in parallel at intervals along the transverse direction; an upper hanging plate is arranged at the top of one side of the bottom plate; the bottom of the other side of the bottom plate is provided with a lower hook; the ceiling board is hexagonal and is arranged between the adjacent hanging keels; the side edge of the ceiling board close to one side of the lower hook is bent upwards to form an upper hook, and the side edge of the ceiling board close to one side of the upper hanging board is bent upwards to form a flanging; the flanging is connected with the upper hanging plate in a hanging manner through a connecting frame, and the top of the connecting frame is pressed with a limiting component; the lower hook is connected with the upper hook. The utility model provides a traditional connected mode have the danger of layer board and can't adjust, dismantle very troublesome technical problem.

Description

Connection structure of hexagon aluminum plate furred ceiling and floor

Technical Field

The utility model belongs to the technical field of the building engineering construction, especially a connection structure of hexagon aluminum plate furred ceiling and floor.

Background

The total building area of a building hall is 294233 square meters, the four floors on the ground and the 3 floors below the ground are used for passing through the hall and matching businesses, and the three floors below the ground are used for passenger stations and parking garages. The hall structure clear height 9m, the furred ceiling design clear height 5-7 meters, the furred ceiling adopts hexagonal aluminum plate curved surface dislocation concatenation, wholly is the wave effect, builds ocean wave's design effect. Because the suspended ceiling space is high, the span is large, the design and modeling is wave, and modeling and typesetting are needed. The connection mounting means general case of traditional aluminum plate furred ceiling divides into three kinds: the first one is in a buckle plate form, the connecting piece is an A-shaped finished product, and the side surface of the aluminum plate is provided with a notch which is connected with the connecting piece in a buckling manner; and the second method comprises the following steps: the aluminum plate surface folding edge opening is in a lapping mode with the connecting piece, and the connecting piece is a Z-shaped finished product; and the third is that: hexagonal screw fixed mounting, connecting piece are L type angle sign indicating number piece, and the aluminum alloy angle sign indicating number that 3mm is thick is fixed to aluminum plate face side is connected through beating the fixed screw with fossil fragments. Because the ceiling of the project is a hexagonal aluminum plate ceiling with the special-shaped curved surface and the aluminum plates are parallelly and staggeredly spliced and installed, the aluminum plates can be assembled and installed and can be disassembled at any time to be convenient to maintain; the above three connection methods have the following disadvantages: firstly, the construction of a plane top can be realized, and the final precision control of the curved surface top is difficult to control; secondly, the above three aluminum plate mounting modes can only be used for small-area light-weight plates; third, the ceiling with large space has upward acting force to the ceiling due to the large space and high ceiling. The first and second connections above run the risk of stripping; the third is a screw fixing connection mode, the installation belongs to one-time installation, and after the screw is fastened, the adjustment cannot be carried out, and the disassembly is very troublesome.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a connection structure of hexagon aluminum plate furred ceiling and floor, there is the danger of layer board and can't adjust, dismantle very troublesome technical problem to solve traditional connected mode.

In order to achieve the above purpose, the utility model adopts the following technical scheme.

A connection structure of a hexagonal aluminum plate ceiling and a floor slab; comprises a main keel, an adapter plate, a hanging keel and a ceiling plate; the main keel is transversely hung below the floor slab, and first connecting holes are formed in the vertical side face of the main keel at intervals along the long axis direction; the hanging keels are arranged in a group at intervals along the transverse direction; each hanging keel is in a strip shape and is connected to the bottom of the main keel through the adapter plate and corresponds to the position of the first connecting hole; the hanging keel comprises a top plate, a bottom plate and a vertical plate connected between the top plate and the bottom plate; the two vertical plates are arranged in parallel at intervals along the transverse direction, and each vertical plate is arranged along the longitudinal direction; an upper hanging plate is arranged at the top of one side of the bottom plate along the longitudinal direction; a lower hook is arranged at the bottom of the other side of the bottom plate along the longitudinal direction; the suspended ceiling plates are provided with one group and are arranged at the bottom of the hanging keel; each ceiling board is hexagonal and is arranged between the adjacent hanging keels; the side edge of the ceiling board close to one side of the lower hook is bent upwards to form an upper hook, and the side edge of the ceiling board close to one side of the upper hanging board is bent upwards to form a flanging; the flanging is connected with the upper hanging plate in a hanging manner through a connecting frame, and the top of the connecting frame is pressed with a limiting assembly; the lower hook is connected with the upper hook in a hanging manner.

Preferably, the distance between every two adjacent ceiling tiles in the transverse direction is 15 mm-25 mm.

Preferably, the longitudinal section of the adapter plate is L-shaped and comprises a vertical edge and a horizontal edge; the vertical edge is tightly attached to the front side or the rear side of the main keel, and a second connecting hole is formed in the position, corresponding to the first connecting hole, of the vertical edge; the second connecting hole is a vertical long hole; the adapter plate is vertically and adjustably connected with the main keel through fastening bolts penetrating through the first connecting hole and the second connecting hole; the horizontal edge of the adapter plate is tightly attached to the top of the hanging keel, and a third connecting hole is formed in the horizontal edge; a fourth connecting hole is formed in the position, corresponding to the third connecting hole, on the top plate of the hanging keel; the hanging keel is connected with the adapter plate through connecting bolts penetrating through the third connecting hole and the fourth connecting hole.

Preferably, the connecting frame comprises a rectangular frame section at the lower part, a horizontal groove section at the upper part and a vertical section connected between the rectangular frame section and the horizontal groove section; the rectangular frame section and the vertical section are tightly attached to the turned edge; the bottom plate is inserted into the horizontal groove section, and the top of the horizontal groove section and the position corresponding to the upper hanging plate are provided with lower hanging plates; the lower hanging plate is connected with the upper hanging plate in a hanging mode.

Preferably, a reinforcing subframe is arranged on the ceiling board and at a position close to the lower hook; the reinforcing auxiliary frame is tightly attached to the vertical edge of the lower hook.

Preferably, the limiting assembly comprises a limiting bolt and a crimping spring; the limiting bolt is connected to the vertical plate; the crimping spring sets up between the top of spacing bolt and connecting frame to the lower extreme crimping of crimping spring is on the connecting frame, and the bottom at the spacing bolt is passed through the scute connection to the upper end of crimping spring.

Compared with the prior art, the utility model has the following characteristics and beneficial effect.

1. After the main keel is installed and leveled, the hanging keel is firstly connected with the main keel by adopting the adapter plate, and then the limiting component is fixed on the hanging keel, and the numbered ceiling tiles are sequentially installed on the main keel from the central axis of the space to the left side and the right side according to the design requirements of drawings; the suspended ceiling plate is connected with the hanging keel in a hanging manner without additional anchoring; the interval of 20mm is reserved between the plates to meet the requirements of angle and disassembly and assembly, and when the tail end of the electromechanical pipeline needs to be installed or overhauled in the later period, the single ceiling plate can be randomly disassembled, so that the later-period maintenance is facilitated.

2. The connection structure of the hexagonal aluminum plate ceiling and the floor adopts the hexagonal curved surface aluminum plate ceiling, the ceiling adopts the adapter plate, the hanging keel and the connecting frame to be connected with the main keel, and the ceiling plate is connected with the hanging keel in a hanging way, so that the connection mode is simple and easy to operate; the non-firing operation is realized in the whole construction process, and the operation can be finished by standing on a high-altitude vehicle without a scaffold moving platform; the utility model discloses a construction method can reduce the construction operation face, can improve work efficiency again, reduce the potential safety hazard and do not influence each other with other professional cross constructions.

Drawings

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

Fig. 1 is a schematic plan view of the ceiling plate arrangement of the present invention.

Fig. 2 is a schematic front view of the connection structure of the present invention.

Fig. 3 is a schematic structural view of the middle hanging keel of the utility model.

Fig. 4 is a schematic structural diagram of the middle connection frame of the present invention.

Fig. 5 is a schematic side view of the transfer board of the present invention.

Fig. 6 is a schematic front view of the transfer board of the present invention.

Fig. 7 is a schematic structural view of the ceiling plate of the present invention.

Fig. 8 is the structure schematic diagram of the middle main keel hanging at the bottom of the floor slab.

Reference numerals: 1-main keel, 2-adapter plate, 2.1-vertical edge, 2.2-horizontal edge, 3-hanging keel, 3.1-top plate, 3.2-bottom plate, 3.3-vertical plate, 4-ceiling plate, 5-floor, 6-first connecting hole, 7-upper hanging plate, 8-lower hanging hook, 9-upper hanging hook, 10-flanging, 11-connecting frame, 11.1-rectangular frame section, 11.2-horizontal groove section, 11.3-vertical section, 12-second connecting hole, 13-third connecting hole, 14-fourth connecting hole, 15-fastening bolt, 16-connecting bolt, 17-reinforcing auxiliary frame, 18-limiting bolt, 19-crimping spring, 20-angle plate, 21-lower hanging plate and 22-horizontal limiting plate.

Detailed Description

As shown in fig. 1-8, the connection structure of the hexagonal aluminum plate ceiling and the floor slab comprises a main keel 1, an adapter plate 2, a hanging keel 3 and a ceiling plate 4; the main keel 1 is transversely hung below the floor slab 5, and first connecting holes 6 are formed in the vertical side face of the main keel 1 at intervals along the long axis direction; the hanging keels 3 are arranged in a group at intervals along the transverse direction; each hanging keel 3 is in a long strip shape and is connected to the bottom of the main keel 1 through the adapter plate 2 and at a position corresponding to the first connecting hole 6; the hanging keel 3 comprises a top plate 3.1, a bottom plate 3.2 and a vertical plate 3.3 connected between the top plate 3.1 and the bottom plate 3.2; two vertical plates 3.3 are arranged in parallel at intervals along the transverse direction, and each vertical plate 3.3 is arranged along the longitudinal direction; an upper hanging plate 7 is arranged at the top of one side of the bottom plate 3.2 along the longitudinal direction; a lower hook 8 is arranged at the bottom of the other side of the bottom plate 3.2 along the longitudinal direction; the ceiling plates 4 are arranged in a group and are arranged at the bottom of the hanging keels 3; each ceiling board 4 is hexagonal and is arranged between the adjacent hanging keels 3; the side edge of the ceiling board 4 close to one side of the lower hook 8 is bent upwards to form an upper hook 9, and the side edge of the ceiling board 4 close to one side of the upper hanging board 7 is bent upwards to form a flanging 10; the flanging 10 is connected with the upper hanging plate 7 in a hanging manner through a connecting frame 11, and the top of the connecting frame 11 is pressed with a limiting component; the lower hook 8 is connected with the upper hook 9 in a hanging manner.

In this embodiment, the distance between the ceiling boards 4 adjacent in the transverse direction is 15mm to 25 mm.

In this embodiment, the longitudinal section of the adapter plate 2 is L-shaped, and includes a vertical side 2.1 and a horizontal side 2.2; the vertical edge 2.1 is tightly attached to the front side or the rear side of the main keel 1, and a second connecting hole 12 is formed in the vertical edge 2.1 at a position corresponding to the first connecting hole 6; the second connecting hole 12 is a vertical long hole; the adapter plate 2 is vertically and adjustably connected with the main keel 1 through fastening bolts 15 penetrating through the first connecting hole 6 and the second connecting hole 12; the horizontal edge 2.2 of the adapter plate 2 is tightly attached to the top of the hanging keel 3, and a third connecting hole 13 is formed in the horizontal edge 2.2; a fourth connecting hole 14 is formed in the top plate 3.1 of the hanging keel 3 at a position corresponding to the third connecting hole 13; the hanging keel 3 is connected with the adapter plate 2 through a connecting bolt 16 which is arranged in the third connecting hole 13 and the fourth connecting hole 14 in a penetrating manner.

In this embodiment, the connection frame 11 includes a rectangular frame section 11.1 at the lower part, a horizontal groove section 11.2 at the upper part, and a vertical section 11.3 connected between the rectangular frame section 11.1 and the horizontal groove section 11.2; the rectangular frame section 11.1 and the vertical section 11.3 are tightly attached to the flanging 10; the bottom plate 3.2 is inserted into the horizontal groove section 11.2, and the top of the horizontal groove section 11.2 is provided with a lower hanging plate 21 at a position corresponding to the upper hanging plate 7; the lower hanging plate 21 is connected with the upper hanging plate 7 in a hanging manner.

In this embodiment, a reinforcing subframe 17 is arranged on the ceiling plate 4 and at a position close to the lower hook 8; the reinforcing subframe 17 is tightly attached to the vertical plate section of the lower hook 8.

In this embodiment, the limiting assembly comprises a limiting bolt 18 and a crimping spring 19; the limiting bolt 18 is connected to the vertical plate 3.3; the compression spring 19 is arranged between the limiting bolt 18 and the top of the connecting frame 11, the lower end of the compression spring 19 is compressed on the connecting frame 11, and the upper end of the compression spring 19 is connected to the bottom of the limiting bolt 18 through an angle plate 20.

In this embodiment, the bottom surface of hexagonal aluminum plate furred ceiling is the curved surface.

In this embodiment, the main joists 1 are provided with a group, and are hung below the floor slab 5 along the longitudinal direction in parallel at intervals, and each main joists 1 is in a wave shape and is arranged along the transverse direction.

In the embodiment, a finished product of an arc-shaped main keel 1 is customized, after the main keel 1 is installed and leveled, the hanging keel 3 is connected with the main keel 1 through the adapter plate 2, then the limiting assembly is fixed on the hanging keel 3, and the numbered ceiling boards 4 with special-shaped curved surfaces are installed on the hanging keel 3 from the central axis of the space to the left side and the right side according to the design requirements of drawings; one side of the suspended ceiling plate 4 is hung with the hanging keel 3 through the connecting frame 11 without additional anchoring, and the other side of the suspended ceiling plate 4 is hung with the lower hook 8 of the hanging keel 3. A distance of 20mm is left between the ceiling plate 4 and the ceiling plate 4 to meet the requirements of angle and disassembly and assembly.

In this embodiment, a horizontal limiting plate 22 is connected between the bottom of the hanging keel 3 and the adjacent ceiling boards 4.

The above embodiments are not exhaustive of the specific embodiments, and other embodiments are possible, and the above embodiments are intended to illustrate, but not limit the scope of the present invention, and all applications coming from the simple changes of the present invention fall within the scope of the present invention.

Claims

1. The utility model provides a connection structure of hexagon aluminum plate furred ceiling and floor which characterized in that: comprises a main keel (1), an adapter plate (2), a hanging keel (3) and a ceiling board (4); the main keel (1) is transversely hung below the floor slab (5), and first connecting holes (6) are formed in the vertical side face of the main keel (1) at intervals along the long axis direction; the hanging keels (3) are arranged in a group and are arranged at intervals along the transverse direction; each hanging keel (3) is in a long strip shape and is connected to the bottom of the main keel (1) and the position corresponding to the first connecting hole (6) through the adapter plate (2); the hanging keel (3) comprises a top plate (3.1), a bottom plate (3.2) and a vertical plate (3.3) connected between the top plate (3.1) and the bottom plate (3.2); the two vertical plates (3.3) are arranged in parallel at intervals along the transverse direction, and each vertical plate (3.3) is arranged along the longitudinal direction; an upper hanging plate (7) is arranged at the top of one side of the bottom plate (3.2) along the longitudinal direction; a lower hook (8) is arranged at the bottom of the other side of the bottom plate (3.2) along the longitudinal direction; the ceiling plates (4) are provided with one group and are arranged at the bottom of the hanging keels (3); each ceiling plate (4) is hexagonal and is arranged between the adjacent hanging keels (3); the side edge of the ceiling board (4) close to one side of the lower hook (8) is bent upwards to form an upper hook (9), and the side edge of the ceiling board (4) close to one side of the upper hanging board (7) is bent upwards to form a flanging (10); the flanging (10) is connected with the upper hanging plate (7) in a hanging manner through a connecting frame (11), and the top of the connecting frame (11) is pressed with a limiting component; the lower hook (8) is connected with the upper hook (9) in a hanging manner.

2. The structure of connecting a ceiling and a floor slab with hexagonal aluminum plates according to claim 1, wherein: the distance between every two adjacent transverse ceiling boards (4) is 15-25 mm.

3. The structure of connecting a ceiling and a floor slab with hexagonal aluminum plates according to claim 1, wherein: the longitudinal section of the adapter plate (2) is L-shaped and comprises a vertical edge (2.1) and a horizontal edge (2.2); the vertical edge (2.1) is tightly attached to the front side or the rear side of the main keel (1), and a second connecting hole (12) is formed in the position, corresponding to the first connecting hole (6), of the vertical edge (2.1); the second connecting hole (12) is a vertical long hole; the adapter plate (2) is vertically and adjustably connected with the main keel (1) through fastening bolts (15) penetrating through the first connecting hole (6) and the second connecting hole (12); the horizontal edge (2.2) of the adapter plate (2) is tightly attached to the top of the hanging keel (3), and a third connecting hole (13) is formed in the horizontal edge (2.2); a fourth connecting hole (14) is formed in the position, corresponding to the third connecting hole (13), on the top plate (3.1) of the hanging keel (3); the hanging keel (3) is connected with the adapter plate (2) through connecting bolts (16) penetrating through the third connecting hole (13) and the fourth connecting hole (14).

4. The structure of connecting a ceiling and a floor slab with hexagonal aluminum plates according to claim 1, wherein: the connecting frame (11) comprises a rectangular frame section (11.1) at the lower part, a horizontal groove section (11.2) at the upper part and a vertical section (11.3) connected between the rectangular frame section (11.1) and the horizontal groove section (11.2); the rectangular frame section (11.1) and the vertical section (11.3) are tightly attached to the flanging (10); the bottom plate (3.2) is inserted into the horizontal groove section (11.2), and the top of the horizontal groove section (11.2) and the position corresponding to the upper hanging plate (7) are provided with lower hanging plates (21); the lower hanging plate (21) is connected with the upper hanging plate (7) in a hanging manner.

5. The structure of connecting a ceiling and a floor slab with hexagonal aluminum plates according to claim 1, wherein: a reinforcing auxiliary frame (17) is arranged on the ceiling plate (4) and at a position close to the lower hook (8); the reinforcing subframe (17) is tightly attached to the vertical edge of the lower hook (8).

6. The structure of connecting a ceiling and a floor slab with hexagonal aluminum plates according to claim 1, wherein: the limiting assembly comprises a limiting bolt (18) and a crimping spring (19); the limiting bolt (18) is connected to the vertical plate (3.3); the compression joint spring (19) is arranged between the limiting bolt (18) and the top of the connecting frame (11), the lower end of the compression joint spring (19) is compressed on the connecting frame (11), and the upper end of the compression joint spring (19) is connected to the bottom of the limiting bolt (18) through an angle plate (20).