CN113047505A

CN113047505A - Hook-up type curved surface aluminum strip plate ceiling and installation method

Info

Publication number: CN113047505A
Application number: CN202011573309.1A
Authority: CN
Inventors: 陈锐戈
Original assignee: Shenzhen Liangyuan Construction Group Co ltd
Current assignee: Shenzhen Liangyuan Construction Group Co ltd
Priority date: 2020-12-24
Filing date: 2020-12-24
Publication date: 2021-06-29

Abstract

The application relates to a hook-up type curved surface aluminum slat suspended ceiling and an installation method, and the suspended ceiling comprises a suspender component, a keel connected with the suspender component and a ceiling board connected with the keel, wherein a sound insulation board is arranged between a base surface and the ceiling board in a sliding manner, a through hole for the suspender component to pass through is formed in the sound insulation board, and an adjusting mechanism for adjusting the distance between the sound insulation board and the ceiling board is connected to the base surface; the sound insulation board can be adjusted when noise occurs in the house of a user, so that the sound insulation board has the best absorption effect, and the noise transmitted to the upstairs is reduced.

Description

Hook-up type curved surface aluminum strip plate ceiling and installation method

Technical Field

The application relates to the field of curved surface aluminum strip suspended ceilings, in particular to a hook-up type curved surface aluminum strip plate suspended ceiling and an installation method.

Background

The suspended ceiling has the functions of heat preservation, heat insulation, sound insulation and sound absorption, and is also a hidden layer of the projects such as electric, ventilation air-conditioning, communication and fire prevention, alarm pipeline equipment and the like; the suspended ceiling occupies a very important position in the whole room decoration, and the ceiling of the room is properly decorated, so that the indoor environment can be beautified, and a colorful indoor space artistic image can be created.

Chinese patent application No. 202010707653.9 discloses a hook-up curved aluminum strip ceiling design mounting structure and mounting method, including: the ceiling connection piece is provided with a ceiling plate clamping piece and a ceiling plate limiting piece, the ceiling plate clamping piece is provided with a hanging connection end, and the ceiling plate limiting piece is provided with a limiting baffle; the two opposite sides of each ceiling board are respectively provided with a first side edge and a second side edge, the first side edge of one of the two adjacent ceiling boards is hung on the hanging end, the second side edge of the other ceiling board is hung on the first side edge, and the second side edge is clamped by the limiting baffle. The structure can realize the free adjustment of the ceiling shape, improve the installation efficiency, ensure the construction quality and safety and reduce the labor cost.

However, in use, noise emitted upstairs can be transmitted downstairs through the keel, the ceiling connecting piece and the like, so that influence of the noise on the downstairs is caused, and learning and sleeping are seriously influenced especially when old people and children live in homes.

Disclosure of Invention

In order to increase the sound insulation effect of the suspended ceiling, the application provides a hook-up type curved surface aluminum strip plate suspended ceiling and an installation method.

First aspect, this application provides a formula curved surface aluminum strip board furred ceiling colludes, adopts following technical scheme:

the utility model provides a formula of colluding curved surface aluminum strip board furred ceiling, includes jib subassembly, the fossil fragments of being connected with the jib subassembly and the furred ceiling board of being connected with the fossil fragments, the jib subassembly includes first jib, second jib and is located the buffering shock attenuation connecting piece between first jib and the second jib, first jib one end is used for being connected with the basal plane, and the first jib other end is used for being connected with buffering shock attenuation connecting piece, and second jib one end is connected with buffering shock attenuation connecting piece, and the second jib other end is connected with fossil fragments, slides between basal plane and the furred ceiling board and is provided with the acoustic celotex board, be provided with the perforation that supplies the jib subassembly to pass on the acoustic celotex board, be connected with the adjustment mechanism who is used for adjusting the distance between acoustic.

By adopting the technical scheme, in use, the position of the sound insulation board can be adjusted through the adjusting mechanism, so that the distance between the base surface and the sound insulation board and the distance between the sound insulation board and the ceiling board can be adjusted, when noise is transmitted between the base surface and the sound insulation board, back-and-forth reflection can be formed between the sound insulation board and the base surface, the different distances between the base surface and the sound insulation board can absorb the noise with different frequencies, and similarly, the position adjustment between the sound insulation board and the ceiling board can better absorb the noise with different frequencies generated in different time periods, so that the position adjustment of the sound insulation board can be performed according to different articles generating noise at different times on the building, the noise absorption effect is better, and the influence of the noise on the building is reduced; the sound insulation board can be adjusted when noise occurs in the house of a user, so that the sound insulation board has the best absorption effect, and the noise transmitted to the upstairs is reduced.

Preferably, buffering shock attenuation connecting piece includes the rubber snubber block, first jib is connected in rubber snubber block one end, the second jib is connected at the rubber snubber block other end, just the central axis coaxial arrangement of first jib and second jib.

Through adopting above-mentioned technical scheme, can reduce upstairs noise through the rubber snubber block and directly transmit to the furred ceiling board on, after having had the rubber snubber block, upstairs noise through first jib transmission can be absorbed the majority by the rubber snubber block, on remaining some noise rethread second connecting rod transmits to the furred ceiling board, noise abatement is to downstairs influence.

Preferably, a hollow buffer cavity is formed in the inner portion of the rubber shock absorption block, a first embedded plate is arranged at one end, located in the hollow buffer cavity, of the rubber shock absorption block, a second embedded plate is arranged at the other end, located in the hollow buffer cavity, of the rubber shock absorption block, the first suspender is connected with the first embedded plate through a bolt, and the second suspender is connected with the second embedded plate through a bolt.

Through adopting above-mentioned technical scheme, the design of cavity cushion chamber can increase the absorptive capacity of rubber snubber block to the noise, and the design of first pre-buried board and second pre-buried board can improve the joint strength of rubber snubber block and first jib and second jib.

Preferably, the adjusting mechanism comprises a pulley fixed on the base surface and a flexible pull rope wound on the pulley, one end of the flexible pull rope is fixed on the sound insulation board, and the other end of the flexible pull rope is fixed with the tensioning system.

Through adopting above-mentioned technical scheme, the direction of force that the pulley can change flexible stay cord can let the user upwards pull the acoustic celotex board subaerial, can change the height of acoustic celotex board through tension system, and is simple and convenient during the regulation.

Preferably, the acoustic celotex board includes the mount and sets up the abatvoix that punches a hole on the mount, flexible stay cord is connected with the mount, it is located the abatvoix that punches a hole to punch a hole, the projected area of rubber snubber block on the abatvoix that punches a hole is the same with the perforation area size.

Through adopting above-mentioned technical scheme, the fixed strength of the abatvoix that punches a hole can be guaranteed to the mount, avoids the abatvoix that punches a hole to appear dropping or great deformation in the long-term use, also conveniently adjusts the position of the abatvoix that punches a hole simultaneously through the mount, and the power on the flexible stay cord transmits earlier to the mount, then evenly transmits to the abatvoix that punches a hole through the mount on.

Preferably, the tensioning system is including connecting the balancing weight of keeping away from acoustic celotex board one end at flexible stay cord and connecting the regulation rope on the balancing weight, the weight of balancing weight is less than the weight of acoustic celotex board, the free end of adjusting the rope is provided with the auto-lock hand wheel device that is used for the winding to adjust the rope.

Through adopting above-mentioned technical scheme, can offset some gravity of acoustic celotex board through the balancing weight, it is more laborsaving when adjusting the acoustic celotex board.

Preferably, auto-lock hand wheel device includes the casing, rotates the turbine that sets up in the casing and with turbine meshing's worm, with worm coaxial coupling has the axis of rotation, axis of rotation one end stretches out outside the casing, with turbine coaxial coupling has the wind-up wheel that is used for the winding to adjust the rope, the end connection of adjusting the rope takes turns to on the wind-up.

Through adopting above-mentioned technical scheme, rotate through axis of rotation drive worm, the worm will drive the turbine rotation, the rolling wheel with turbine coaxial coupling this moment will be rolled up or loosen the regulation rope, the acoustic celotex board will rise or descend this moment, stop rotating the rolling wheel after adjusting the acoustic celotex board position, because the turbine worm device only can pass through worm drive turbine, and can't rotate through turbine drive worm, consequently, stop rotating the rolling wheel back worm also can not be pulled under the acoustic celotex board action of gravity, consequently, the height of acoustic celotex board will no longer change, the position of adjusting back acoustic celotex board is stable.

Preferably, a soundproof cotton layer is arranged on the surface of the ceiling board facing the soundproof board.

Through adopting above-mentioned technical scheme, through soundproof cotton layer, can increase the absorptive capacity to the noise.

Preferably, the base surface is connected with a sliding rail for the fixed frame to slide, the sliding rail is provided with a sliding groove, the fixed frame is provided with a sliding block matched with the sliding groove, and the length of the sliding groove is smaller than the distance from the first embedded plate to the second embedded plate.

Through adopting above-mentioned technical scheme, through the home range of slide rail restriction acoustic celotex board, avoid the acoustic celotex board accommodation range too big the time and the roof emergence circumstances such as striking, simultaneously because the size of rubber snubber block is great, consequently fenestrate opening size is greater than the cross sectional area of first jib or second jib, restrict the acoustic celotex board home range between first pre-buried board and second pre-buried board, can let the rubber snubber block be located the perforation all the time, and the rubber snubber block can be with most space filling of perforation, so can the area that noise reduction in use passes through, reduce the noise that transmits downstairs.

In a second aspect, the application provides a hook-up type curved aluminum strip plate ceiling installation method, which adopts the following technical scheme:

a method for installing a hook-up type curved surface aluminum strip plate suspended ceiling comprises the following steps:

the method comprises the following steps: a first suspender is fixed on the base surface through an expansion screw, a buffering and damping connecting piece is fixed at the end part of the first suspender, and then the other end of the buffering and damping connecting piece is connected with a second suspender;

step two: installing a sound insulation board on the foundation surface, facing the through hole on the sound insulation board to the suspender component, then enabling the sound insulation board to gradually approach the foundation surface until the buffering and damping connecting piece passes through the through hole and then fixing the sliding rail on the foundation surface, and installing the sliding block in the sliding rail;

step three: fixing a pulley on the base surface, and connecting a flexible stay cord on the fixing frame, so that the free end of the flexible stay cord is connected with a balancing weight after bypassing the pulley, and the weight of the balancing weight is adjusted to be smaller than that of the sound insulation board;

step four: connect the regulation rope on the balancing weight, connect auto-lock hand wheel device at the free end of adjusting the rope, later installation furred ceiling board can, be in the one side that the furred ceiling board deviates from the basal surface after the installation of auto-lock hand wheel device.

Through adopting above-mentioned technical scheme, can easily adjust the position of acoustic celotex board after the installation, and more laborsaving when adjusting, can let the furred ceiling absorb the noise of different frequencies through the position of adjusting the acoustic celotex board, the noise reduction is to resident's influence.

In summary, the present application includes at least one of the following beneficial technical effects:

the position of the sound insulation board can be adjusted according to different frequencies of noise generated upstairs at different times, so that the noise absorption effect is better, and the influence of the noise on downstairs is reduced; the sound insulation board can be adjusted when noise occurs in the user home, so that the sound insulation board has the best absorption effect, and the noise transmitted to the building is reduced;

the position of the sound insulation board can be adjusted through the self-locking hand wheel device, and the self-locking is realized after the adjustment, so that the situation that the sound insulation board slides after the adjustment cannot occur.

Drawings

FIG. 1 is a front view of an embodiment of the present application.

FIG. 2 is a sectional view of a rubber damper block according to an embodiment of the present application.

Fig. 3 is a schematic structural diagram of an embodiment of the present application.

Fig. 4 is an enlarged view at a in fig. 3.

Description of reference numerals: 1. a boom assembly; 11. a first boom; 12. a second boom; 13. a damping connecting piece; 131. a rubber damper block; 132. a buffer chamber; 133. a first pre-buried plate; 134. a second pre-buried plate; 2. a keel; 3. a ceiling plate; 4. a sound insulating board; 41. a fixed mount; 42. punching a sound-absorbing board; 5. an adjustment mechanism; 51. a pulley; 52. a flexible pull cord; 6. a self-locking hand wheel device; 61. a housing; 62. a turbine; 63. a worm; 64. a rotating shaft; 65. a winding wheel; 7. sound insulation cotton; 8. a tensioning system; 81. a balancing weight; 82. adjusting the rope; 9. a slide rail; 91. a chute 92, a slider; 10. and (6) perforating.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses formula curved surface aluminium bar board furred ceiling colludes.

Referring to fig. 1, the hook-up type curved aluminum strip ceiling comprises a suspender assembly 1, a keel 2 and a ceiling board 3, wherein the suspender assembly 1 connects the keel 2 to a foundation surface, the ceiling board 3 is connected to the keel 2, and 7 layers of soundproof cotton are arranged on the surface of the ceiling board 3 facing a soundproof board 4 in order to increase the soundproof effect of the ceiling board 3; the suspender component 1 comprises a first suspender 11, a second suspender 12 and a buffering and damping connecting piece 13, one end of the first suspender 11 is connected with a base surface through an expansion screw, the other end of the first suspender 11 is connected on the buffering and damping connecting piece 13, one end of the second suspender 12 is connected with the buffering and damping connecting piece 13, and the other end of the second suspender 12 is connected with the keel 2.

As shown in fig. 2, the damping connecting member 13 includes a rubber damping block 131, a hollow damping cavity 132 is provided inside the rubber damping block 131, a first pre-embedded plate 133 is provided at one end of the hollow damping cavity 132 inside the rubber damping block 131, a second pre-embedded plate 134 is provided at the other end of the hollow damping cavity 132 inside the rubber damping block 131, the first pre-embedded plate 133 and the second pre-embedded plate 134 are both injection-molded inside the rubber damping block 131 and penetrate through the rubber damping block 131, the first pre-embedded plate 133 and the second pre-embedded plate 134 to provide threaded holes, in use, the first suspender 11 is connected to the first pre-embedded plate 133 through bolts, the second suspender 12 is connected to the second pre-embedded plate 134 through bolts, and the central axis of the first suspender 11 and the second suspender 12 after connection is coaxial.

As shown in fig. 1 and 3, a baffle plate 4 is slidably provided between the base surface and the ceiling plate 3, a through hole 10 through which the boom assembly 1 passes is provided in the baffle plate 4, and an adjusting mechanism 5 for adjusting the distance between the baffle plate 4 and the ceiling plate 3 is connected to the base surface.

As shown in fig. 3, the acoustic panel 4 includes a fixing frame 41 and a punched acoustic panel 42, in this embodiment, the punched acoustic panel 42 is an aluminum punched panel, the punched acoustic panel 42 is fixed on the fixing frame 41 by rivets, a slide rail 9 is connected to a base surface by expansion screws, a slide groove 91 is provided on the slide rail 9 along a vertical direction, a slide block 92 in sliding fit with the slide groove 91 is provided on the fixing frame 41, a plurality of slide rails 9 are provided around the fixing frame 41, the fixing frame 41 can be limited at a predetermined position by the plurality of slide rails 9, thereby effectively preventing the fixing frame 41 from shaking in the up-and-down sliding process, the flexible pull rope 52 is connected to the fixing frame 41, the punched hole 10 is located on the punched acoustic panel 42, and the projection area of the rubber damper block 131 on the punched acoustic panel. In order to limit the movement range of the baffle 4, the length of the sliding groove 91 is set to be smaller than the distance between the first pre-embedded plate 133 and the second pre-embedded plate 134, so that the rubber shock absorption block 131 is always in the through hole 10 during the adjustment process of the baffle 4, the through hole 10 can be filled as much as possible, and the noise is reduced to be transmitted to the indoor through the through hole 10.

The adjusting mechanism 5 comprises a pulley 51 and a flexible pull rope 52, the pulley 51 is fixed on the base surface, one end of the flexible pull rope 52 is connected to the fixing frame 41, the other end of the flexible pull rope 52 is connected with the tensioning system 8 after passing around the pulley 51, and the flexible pull rope 52 can be pulled by the tensioning system 8 in use, so that the position of the sound insulation board 4 can be changed.

Wherein, stretch-draw system 8 includes the counter weight and adjusts rope 82, the counter weight is connected and is deviated from mount 41 end at flexible stay cord 52, the weight of counter weight is less than acoustic celotex board 4's whole weight in this application, and the difference of the two weight is 1.5 kg, so only need overcome 1.5 kg's weight in pulling acoustic celotex board 4 motion process and can adjust acoustic celotex board 4, it is more convenient during the regulation, and simultaneously, 1.5 kg's weight also can offset the frictional force that acoustic celotex board 4 received in accommodation process, when avoiding downwards adjusting acoustic celotex board 4, counter weight and the frictional force size that acoustic celotex board 4 received are greater than or equal to the unable condition of adjusting when 4 gravity. In order to facilitate pulling of the adjusting rope 82, a self-locking hand wheel device 6 for winding the adjusting rope 82 is arranged at the free end of the adjusting rope 82.

As shown in fig. 3 and 4, the self-locking handwheel device 6 includes a housing 61, a worm wheel 62 rotatably disposed in the housing 61, and a worm 63 meshed with the worm wheel 62, a rotating shaft 64 coaxially connected with the worm 63, one end of the rotating shaft 64 extending out of the housing 61, a winding wheel 65 coaxially connected with the worm wheel 62 for winding an adjusting rope 82, and an end of the adjusting rope 82 connected to the winding wheel 65. In use, the rotating shaft 64 is manually driven to rotate, the worm 63 is driven to rotate at the moment, the worm 63 drives the worm wheel 62 to rotate, the winding wheel 65 coaxially connected with the worm wheel 62 winds or loosens the adjusting rope 82, the baffle 4 ascends or descends at the moment, the winding wheel 65 stops rotating after the position of the baffle 4 is adjusted, the worm 63 of the worm wheel 62 can only drive the worm wheel 62 through the worm 63 and cannot drive the worm 63 to rotate through the worm wheel 62, and therefore the worm 63 cannot be pulled under the gravity action of the baffle 4 after the winding wheel 65 stops rotating, the height of the baffle 4 cannot be changed any more, and the position of the rear baffle 4 is adjusted to be stable.

The embodiment of the application also discloses a hook-up type curved surface aluminum strip plate ceiling installation method.

the method comprises the following steps: a first suspender 11 is fixed on a base surface through an expansion screw, a buffering and damping connecting piece 13 is fixed at the end part of the first suspender 11, and then the other end of the buffering and damping connecting piece 13 is connected with a second suspender 12;

step two: installing a sound insulation board 4 on the foundation surface, facing a through hole 10 on the sound insulation board 4 to the suspender component 1, then enabling the sound insulation board 4 to gradually approach the foundation surface until a buffering and damping connecting piece 13 passes through the through hole 10, fixing a slide rail 9 on the foundation surface, and installing a slide block 92 in the slide rail 9;

step three: fixing a pulley 51 on the base surface, and connecting a flexible rope 52 on the fixing frame 41, so that the free end of the flexible rope 52 bypasses the pulley 51 and then is connected with a balancing weight 81, and adjusting the weight of the balancing weight 81 to ensure that the weight of the balancing weight 81 is less than that of the sound insulation board 4;

step four: connect on balancing weight 81 and adjust rope 82, connect auto-lock hand wheel device 6 at the free end of adjusting rope 82, later installation furred ceiling board 3 can, be in the one side that furred ceiling board 3 deviates from the basal plane after the installation of auto-lock hand wheel device 6.

In the household life, the noise with different frequencies is usually generated in different time periods, for example, the noise is mainly concentrated on the sound of walking and washing and putting things when getting up in the morning, the noise is mainly concentrated on the sound of a chopping board and a wok when cooking at noon and evening, and the noise is mainly concentrated on a television, music talent and art exercises and the like before rest at night, so that the positions of the sound insulation boards 4 can be adjusted at different times, and the noise absorption effect of the sound insulation boards 4 is always better; when the position of the baffle 4 is adjusted, the rotating shaft 64 is manually rotated, at this time, the rotating shaft 64 drives the worm 63 to rotate, the worm 63 drives the worm wheel 62 to rotate, the winding wheel 65 coaxial with the worm wheel 62 winds the adjusting rope 82 on the winding wheel 65 or releases the adjusting rope 82 from the winding wheel 65, and at this time, the baffle 4 slides upwards or downwards in the chute 91.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides a formula curved surface aluminium bar furred ceiling colludes, includes jib subassembly (1), fossil fragments (2) be connected with jib subassembly (1) and furred ceiling board (3) be connected with fossil fragments (2), its characterized in that: boom assembly (1) includes first boom (11), second boom (12) and is located buffering shock attenuation connecting piece (13) between first boom (11) and second boom (12), first boom (11) one end is used for being connected with the basal plane, and first boom (11) other end is used for being connected with buffering shock attenuation connecting piece (13), and second boom (12) one end is connected with buffering shock attenuation connecting piece (13), and second boom (12) other end is connected with fossil fragments (2), slides between basal plane and furred ceiling board (3) and is provided with acoustic celotex board (4), be provided with on acoustic celotex board (4) and supply perforation (10) that boom assembly (1) passed, be connected with on the basal plane and be used for adjusting adjustment mechanism (5) of distance between acoustic celotex board (4) and furred ceiling board (3).

2. The hook-up curved aluminum strip suspended ceiling of claim 1, wherein: buffering shock attenuation connecting piece (13) are including rubber snubber block (131), first jib (11) are connected in rubber snubber block (131) one end, the second jib (12) are connected at the rubber snubber block (131) other end, just first jib (11) and the coaxial setting of the central axis of second jib (12).

3. The hook-up curved aluminum strip suspended ceiling of claim 2, wherein: the rubber shock absorption block is characterized in that a hollow buffer cavity (132) is arranged inside the rubber shock absorption block (131), a first embedded plate (133) is arranged at one end, located in the hollow buffer cavity (132), of the rubber shock absorption block (131), a second embedded plate (134) is arranged at the other end, located in the hollow buffer cavity (132), of the rubber shock absorption block (131), the first hanging rod (11) is connected with the first embedded plate (133) through bolts, and the second hanging rod (12) is connected with the second embedded plate (134) through bolts.

4. A hook-up curved aluminum strip suspended ceiling according to claim 3, wherein: the adjusting mechanism (5) comprises a pulley (51) fixed on the base surface and a flexible pull rope (52) wound on the pulley (51), one end of the flexible pull rope (52) is fixed on the sound insulation board (4), and the other end of the flexible pull rope (52) is fixed with a tensioning system (8).

5. The hook-up curved aluminum strip suspended ceiling of claim 4, wherein: the sound insulating board (4) comprises a fixing frame (41) and a punching sound-absorbing board (42) arranged on the fixing frame (41), the flexible pull rope (52) is connected with the fixing frame (41), the punched hole (10) is located on the punching sound-absorbing board (42), and the projection area of the rubber shock-absorbing block (131) on the punching sound-absorbing board (42) is the same as the area of the punched hole (10).

6. The hook-up curved aluminum strip suspended ceiling of claim 4, wherein: tensioning system (8) are including connecting balancing weight (81) and the regulation rope (82) of connecting on balancing weight (81) of keeping away from acoustic celotex board (4) one end in flexible stay cord (52), the weight of balancing weight (81) is less than the weight of acoustic celotex board (4), the free end of adjusting rope (82) is provided with auto-lock hand wheel device (6) that are used for the winding to adjust rope (82).

7. The hook-up curved aluminum strip suspended ceiling of claim 6, wherein: self-locking hand wheel device (6) include casing (61), rotate turbine (62) that sets up in casing (61) and worm (63) with turbine (62) meshing, with worm (63) coaxial coupling has axis of rotation (64), axis of rotation (64) one end is stretched out outside casing (61), with turbine (62) coaxial coupling has wind-up wheel (65) that are used for twining regulation rope (82), the end connection who adjusts rope (82) is on wind-up wheel (65).

8. The hook-up curved aluminum strip suspended ceiling of claim 1, wherein: and a soundproof cotton (7) layer is arranged on the surface of the ceiling board (3) facing the soundproof board (4).

9. The hook-up curved aluminum strip suspended ceiling of claim 5, wherein: the foundation surface is connected with a sliding rail (9) used for enabling the fixing frame (41) to slide, a sliding groove (91) is formed in the sliding rail (9), a sliding block (92) matched with the sliding groove (91) is arranged on the fixing frame (41), and the length of the sliding groove (91) is smaller than the distance between the first embedded plate (133) and the second embedded plate (134).

10. The utility model provides a hook-up formula curved surface aluminum strip board furred ceiling mounting method which characterized in that: a hook and loop style curved aluminum slat ceiling incorporating the method of claim 9, comprising the steps of:

the method comprises the following steps: a first suspender (11) is fixed on a foundation surface through an expansion screw, a buffering and damping connecting piece (13) is fixed at the end part of the first suspender (11), and then the other end of the buffering and damping connecting piece (13) is connected with a second suspender (12);

step two: installing a sound insulation board (4) on a base surface, enabling a through hole (10) in the sound insulation board (4) to be opposite to the suspender component (1), enabling the sound insulation board (4) to gradually approach the base surface until a buffering and damping connecting piece (13) passes through the through hole (10), fixing a sliding rail (9) on the base surface, and installing a sliding block (92) in the sliding rail (9);

step three: a pulley (51) is fixed on the base surface, a flexible pull rope (52) is connected to the fixing frame (41), the free end of the flexible pull rope (52) is connected with a balancing weight (81) after bypassing the pulley (51), and the weight of the balancing weight (81) is adjusted, so that the weight of the balancing weight (81) is smaller than that of the sound insulation board (4);

step four: connect on balancing weight (81) and adjust rope (82), connect auto-lock hand wheel device (6) at the free end of adjusting rope (82), later installation furred ceiling board (3) can, be in one side that furred ceiling board (3) deviate from the basal plane after auto-lock hand wheel device (6) installation.