CN114164981A

CN114164981A - Integrated ceiling structure and installation method thereof

Info

Publication number: CN114164981A
Application number: CN202111640581.1A
Authority: CN
Inventors: 常亮; 文琳峻; 张树燕; 范登云; 邹佑学; 王登辉; 宋庆磊; 王超; 张升智; 郭双全; 荣志娟; 吴梦婕; 王桂军
Original assignee: Central Research Institute of Building and Construction Co Ltd MCC Group; China Jingye Engineering Corp Ltd
Current assignee: Central Research Institute of Building and Construction Co Ltd MCC Group; China Jingye Engineering Corp Ltd
Priority date: 2021-12-29
Filing date: 2021-12-29
Publication date: 2022-03-11
Anticipated expiration: 2041-12-29
Also published as: CN114164981B

Abstract

The invention provides an integrated ceiling structure and an installation method thereof, wherein the integrated ceiling structure comprises a plurality of supporting beams, a plurality of first connecting rods, a keel assembly and a panel; a plurality of support beams are arranged in parallel; a first end of each of the plurality of first links is connected to one of the plurality of support beams; a keel assembly connected to the second end of each of the plurality of first links; the panel is connected with the keel component. According to the integrated ceiling structure provided by the invention, the keel components are connected with the supporting beams through the first connecting rods, and the panel is arranged on the keel components, so that a worker can assemble the keel components on the ground firstly when assembling the integrated ceiling structure, and then the keel components are hung on the supporting beams through the first connecting rods, the too high installation difficulty caused by the too high hanging height is avoided, the integrated ceiling structure can be assembled in a wider bottom space, and the installation difficulty of the integrated ceiling structure is reduced.

Description

Integrated ceiling structure and installation method thereof

Technical Field

The invention relates to the technical field of interior decoration, in particular to an integrated ceiling structure and an installation method of the integrated ceiling structure.

Background

Currently, in the related art, in order to improve the aesthetic feeling of the indoor environment, an integrated ceiling structure is made at the top of the indoor space to beautify the indoor environment. The honeycomb aluminum plate is a composite plate, has small deformation, good surface flatness and good decorative effect, and is applied to more decoration projects; but to the honeycomb aluminum plate suspended ceiling system of this kind of tall and big space of indoor paradise of similar, its ground space is built the structure more, can't adopt traditional furred ceiling construction measure, and contained numerous complicacies such as customization pattern, lamps and lanterns, screen and be located the not element of co-altitude, and the whole construction degree of difficulty is big, and vertical construction cross interface is many.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art or the related art.

To this end, a first aspect of the present invention proposes an integrated ceiling structure.

A second aspect of the invention provides a method of installing an integrated ceiling structure.

In view of the above, a first aspect of the present invention provides an integrated ceiling structure comprising a plurality of support beams, a plurality of first links, a keel assembly and a panel; a plurality of support beams are arranged in parallel; a first end of each of the plurality of first links is connected to one of the plurality of support beams; a keel assembly connected to the second end of each of the plurality of first links; the panel is connected with the keel component.

The integrated ceiling structure provided by the invention comprises a plurality of supporting beams, wherein the supporting beams are fixedly connected with the top of a building and can bear the gravity of other parts of the integrated ceiling structure. The keel component is connected with the supporting beams through the first connecting rod, the panel is installed on the keel component, workers can assemble the keel component on the ground firstly when the integrated ceiling structure is assembled, then the keel component is hoisted on the supporting beams through the first connecting rod, the situation that the installation difficulty is too large due to too high hoisting height is avoided, the integrated ceiling structure can be assembled in a relatively wide bottom surface space, the installation difficulty of the integrated ceiling structure is reduced, and the installation of the integrated ceiling structure is simpler and more convenient.

And, the fossil fragments subassembly is connected with a plurality of supporting beam through first connecting rod, panel mounting is on the fossil fragments subassembly, make the workman assemble the fossil fragments subassembly earlier on ground when assembling integrated furred ceiling structure, then hoist the fossil fragments subassembly on a supporting beam through first connecting rod, even the installation angle of panel in different positions is different, also can promote the position precision of panel, reduce the construction degree of difficulty of integrated furred ceiling structure, even the pattern of panel quantity is more or panel is complicated, also can guarantee the roughness of one side towards the interior space after panel mounting is accomplished, and then make integrated furred ceiling structure more pleasing to the eye decoration effect who promotes integrated furred ceiling structure. The keel assembly can also be used for positioning a plurality of complex elements such as customized patterns, lamps and screens and the like and elements located at different heights, so that the overall construction difficulty of the integrated ceiling structure is further reduced.

Especially to large-scale interior space, for example market, recreation ground etc. because the higher ground of interior space assembles the fossil fragments subassembly now, again with fossil fragments subassembly integral hoisting to a supporting beam, can reduce integrated suspended ceiling structure's the installation degree of difficulty better for integrated suspended ceiling structure is more pleasing to the eye.

Specifically, the supporting beam is a main body steel beam, and all the main body steel beams are located on the same horizontal plane.

In addition, the integrated ceiling structure in the technical scheme provided by the invention can also have the following additional technical characteristics:

in one aspect of the present invention, the keel assembly includes a plurality of first keels, a plurality of second links, and a plurality of second keels; the first keels are arranged in parallel, and each first keel in the first keels is connected with the second end in the first connecting rods; a first end of each of the plurality of second links is connected to one of the plurality of first keels; each second keel of the plurality of second keels is connected to the second end of at least one second link of the plurality of second links; the panel is connected with a plurality of second fossil fragments.

In this technical scheme, the fossil fragments subassembly includes a plurality of first fossil fragments, a plurality of second connecting rod and a plurality of second fossil fragments, and a plurality of second fossil fragments are connected with a plurality of first fossil fragments through a plurality of second connecting rods respectively for the assembly of fossil fragments subassembly is simpler, further reduces the assembly degree of difficulty of integrated furred ceiling structure.

Specifically, first fossil fragments are the main joist, and a plurality of main joists are parallel to each other to form the conversion layer, the conversion layer top surface is laid the sound absorption centrifugal glass cotton. Preferably, the paved area is greater than or equal to 60%. Each main keel is positioned on the same horizontal plane and is vertical to the main steel beam.

In one technical scheme of the invention, in the projection of a plurality of supporting beams, a plurality of first keels and a plurality of second keels in the vertical direction, the plurality of supporting beams are crossed with the plurality of first keels, and the plurality of first keels are crossed with the plurality of second keels.

In this technical scheme, a plurality of supporting beam and a plurality of first fossil fragments are alternately, and a plurality of first fossil fragments and a plurality of second fossil fragments are alternately for a plurality of supporting beam, a plurality of first fossil fragments and a plurality of second fossil fragments form a netted frame, further promote the intensity of fossil fragments subassembly, and then promote the stability of fossil fragments subassembly.

The first keel and the second keel are vertically arranged.

In one embodiment of the present invention, the integrated ceiling structure further includes a first connecting assembly and a second connecting assembly; the first connecting component is sleeved on one of the supporting beams and connected with the first end of one of the first connecting rods; the second connecting component is sleeved on one of the first keels and connected with the second end of one of the first connecting rods.

In this technical scheme, on a supporting beam was located to first connecting elements cover to the first end of first connecting rod is connected, is convenient for assemble first connecting rod and supporting beam, reduces the assembly degree of difficulty between first connecting rod and the supporting beam. Especially when the keel assembly is hoisted and assembled to the supporting beam, the first connecting rod and the supporting beam can be assembled more quickly, and then the keel assembly is assembled to the supporting beam more conveniently. The second connecting assembly is sleeved on the first keel, and the second end of the first connecting rod is connected with the second connecting assembly, so that the first connecting rod and the first keel are assembled, and the supporting beam can hoist the keel assembly through the first connecting rod.

Specifically, first connecting element includes first staple bolt and third screw rod, and a supporting beam is equipped with first staple bolt corresponding to the position cover on first connecting rod top, and this first staple bolt longitudinal section is the U type, and the opening dorsad this first connecting rod, through vertical third screw rod fixed connection between two ends of this first staple bolt, this first staple bolt side passes through bolt fixed connection with this first connecting rod top. The number of the third screws is preferably two to increase safety.

Specifically, second coupling assembling includes the connecting plate, and first connecting rod bottom is equipped with "nearly" style of calligraphy connecting plate, and this connecting plate includes that longitudinal section is the body of U type, and two ends of this body all outwards extend and are equipped with the fixed plate, and two fixed plates pass through the bolt fastening in this first connecting rod bottom, and the cladding of first fossil fragments that will correspond is in this body.

In one technical scheme of the invention, the plurality of second connecting rods are first screw rods, the integrated ceiling structure further comprises a third connecting assembly, a fourth connecting assembly, a first nut and a second nut; the third connecting assembly is sleeved on one of the first keels; the fourth connecting assembly is sleeved on one of the second keels; the first end of the first screw rod penetrates through the third connecting component, and the second end of the first screw rod penetrates through the fourth connecting component; the first nut is in threaded connection with the first end of the first screw rod and abuts against the third connecting component; the second nut is in threaded connection with the second end of the first screw rod and abuts against the fourth connecting component.

In this technical scheme, the second connecting rod is first screw rod to with third coupling assembling or fourth coupling assembling threaded connection, make the distance between first fossil fragments and the second fossil fragments adjust according to actual demand, and then make the height of each panel adjust, make the surface of panel more level and more smooth. And can adjust the height of panel as design needs to richen integrated furred ceiling structure's structure nature of making, make integrated furred ceiling structure more pleasing to the eye.

Specifically, the third coupling assembling includes the second staple bolt, and the position cover that first fossil fragments correspond first screw rod top is equipped with the second staple bolt, and this second staple bolt longitudinal section is the U type, and the opening is towards this first screw rod, and two end covers of this second staple bolt are on this first screw rod to it is fixed through adjusting first nut.

The fourth connecting assembly comprises a third hoop, the position, corresponding to the bottom end of the first screw, of the second keel is sleeved with the third hoop, the longitudinal section of the third hoop is U-shaped, the opening faces the first screw, and two tail ends of the third hoop are sleeved on the first screw and fixed through a second nut.

In one technical scheme of the invention, the integrated ceiling structure further comprises a fifth connecting assembly, a sixth connecting assembly and a second screw rod; the fifth connecting assembly is sleeved on one of the second keels; the sixth connecting assembly is connected with the panel; the first end and the fifth coupling assembling threaded connection of second screw rod, the second end and the sixth coupling assembling threaded connection of second screw rod.

In this technical scheme, on the second fossil fragments was located to the fifth coupling assembling cover, sixth coupling assembling passed through the second screw rod and is connected with fifth coupling assembling, and the panel is installed on sixth coupling assembling for the installation of panel is more convenient. And the sixth connecting assembly is connected with the fifth connecting assembly through the second screw rod, so that the height of the counter panel is more convenient to adjust, and the installation difficulty of the integrated ceiling structure is further reduced.

Specifically, the fifth connecting assembly comprises a fourth hoop, the second keel is sleeved with the fourth hoop between the adjacent third hoops, the longitudinal section of the fourth hoop is U-shaped, the opening faces the second screw, and the two tail ends of the fourth hoop are sleeved on the top end of the second screw and fixed through a third nut.

In one aspect of the present invention, the sixth connecting assembly includes a first corner brace and a second corner brace; the second end of the second screw rod penetrates through the transverse plate of the first corner connector; the riser of second angle sign indicating number is connected with the riser of first angle sign indicating number.

In this technical scheme, sixth coupling assembling includes first angle sign indicating number and second angle sign indicating number, and the diaphragm middle part of the first angle sign indicating number of L type is worn to locate by second screw rod bottom, and the riser of this first angle sign indicating number passes through bolt fixed connection with the riser of second angle sign indicating number, and the diaphragm of this second angle sign indicating number is equipped with the first bolt of grafting that the cross-section is the type of falling T.

Specifically, the panel is a honeycomb aluminum plate, and the bottom surface of the honeycomb aluminum plate is provided with colored drawing patterns; the honeycomb aluminum plate is provided with first through grooves with inverted T-shaped sections corresponding to the top surfaces of the two side edges of the second screw rod, and the inserting bolts are inserted into the corresponding first through grooves.

In one aspect of the present invention, a face plate includes a first moldboard and a second moldboard arranged in a circumferential direction of the first moldboard.

In this technical scheme, the panel includes first modelling board and second modelling board for possess abundanter modelling after the panel installation is accomplished, make integrated furred ceiling structure more pleasing to the eye.

Specifically, integrated furred ceiling structure middle part has and is circular or oval-shaped first molding portion, and the position of first molding portion periphery is the second molding portion. The first modeling plate is located in the first modeling section, and the second modeling plate is located in the second modeling section.

Specifically, the first and second moldboards are both aluminum honeycomb plates.

In one aspect of the present invention, a first link corresponding to a first mold plate among the plurality of first links is a first sub-link; the first connecting rod corresponding to the second modeling plate in the plurality of first connecting rods is a second sub-connecting rod; the length of the first sub-connecting rod is smaller than that of the second sub-connecting rod.

In this technical scheme, the length of first sub-link is less than the length of second sub-link for after first molding board and the installation of second molding board are accomplished, the height of first molding board is higher than second molding board, makes the surface of furred ceiling form the structure that the middle part is sunken, and then richenes the molding of integrated furred ceiling structure, promotes the aesthetic property of integrated furred ceiling structure.

In one technical scheme of the invention, a first keel corresponding to a first modeling plate in a plurality of first keels is a first sub keel; the first keel corresponding to the second modeling plate in the plurality of first keels is a second sub keel; the integrated ceiling structure further comprises a third connecting rod, the first end of the third connecting rod is connected with the first sub-keel, and the second end of the third connecting rod is connected with the second sub-keel.

In this technical scheme, first sub-fossil fragments are connected with the second sub-fossil fragments through the third connecting rod, and then promote the stability of first sub-fossil fragments and second sub-fossil fragments.

In one technical scheme of the invention, the integrated ceiling structure further comprises a first mounting plate and a first electric device; the first mounting plate is connected with the third connecting rod and arranged between the first modeling plate and the second modeling plate; the first electric device is arranged on the first mounting plate.

In this technical scheme, through setting up first electrical part between first style board and second style board, be convenient for hide first electrical part and first mounting panel to the shaping and the pattern of integrated furred ceiling structure are richened to the first electrical part of accessible, make integrated furred ceiling structure more pleasing to the eye.

Specifically, first electrical part is for washing the pinup, is provided with first backplate between first mounting panel and the first sub-fossil fragments.

In one embodiment of the invention, the integrated ceiling structure further comprises a third modeling plate and a fourth connecting rod; the third modeling plate is arranged in the middle of the first modeling plate; the first end of the fourth connecting rod is connected with one of the first keels, and the second end of the fourth connecting rod is connected with the third modeling plate.

In this technical scheme, integrated furred ceiling structure still includes third molding board and fourth connecting rod, and the third molding board is installed on first fossil fragments through the fourth connecting rod, when promoting the stability of third molding board, further richenes the molding and the pattern of integrated furred ceiling structure for integrated furred ceiling structure is more pleasing to the eye.

Specifically, an annular third modeling part is arranged in the first modeling part, and a third modeling plate is arranged in the third modeling part.

Specifically, the fourth connecting rod is a supporting steel pipe, and the third modeling plate is a modeling iron sheet. The top of the supporting steel pipe is fixedly connected with the first keel, and the top surface of the modeling iron sheet is welded with the bottom of the supporting steel pipe.

In one embodiment of the present invention, a distance between the first moldboard and a first keel connected to the first moldboard among the plurality of first keels is a first distance; the distance between the third modeling plate and the first keel connected with the third modeling plate in the plurality of first keels is a second distance; the first distance is less than the second distance.

In this technical scheme, first distance is less than the second distance for the height of third modelling board is less than first modelling board, and then makes protruding region on inside sunken first modelling board, has further richened integrated furred ceiling structure's molding.

In one technical scheme of the invention, the integrated ceiling structure further comprises a second mounting plate and a second electric device; the second mounting plate is connected with the fourth connecting rod and is positioned between the first modeling plate and the third modeling plate; the second electric device is arranged on the second mounting plate.

In this technical scheme, through setting up the second electrical part between first style board and third style board, be convenient for hide second mounting panel and second electrical part to the shaping and the pattern of integrated furred ceiling structure are richened to accessible second electrical part, make integrated furred ceiling structure more pleasing to the eye.

In particular, the second electrical device is a LED luminaire, such as a LED strip.

In one embodiment of the invention, the integrated ceiling structure further includes a second back plate, a first end of the second back plate is connected to the first modeling plate, and a second end of the second back plate is connected to the second mounting plate.

In this technical scheme, first mo (u) lding board passes through the second backplate and is connected with the second mounting panel, and then has promoted the stability of second mounting panel.

In one technical scheme of the invention, the integrated ceiling structure further comprises a mounting beam, a fifth connecting rod and a screen; the first end of the fifth connecting rod is connected with the mounting beam; the screen is connected with the second end of the second connecting rod, and the third modeling plate is wound on the screen; and the distance between the screen and the plurality of supporting beams in the vertical direction is smaller than the distance between the third modeling plate and the plurality of supporting beams in the vertical direction.

In this solution, the mounting beam can be mounted on the support beam, but also on the roof of the building. The screen is installed on the installation roof beam through the fifth connecting rod, has further enriched the function of integrated furred ceiling structure.

In one technical scheme of the invention, the panel is provided with a through hole, and the integrated ceiling structure further comprises a down lamp, wherein the down lamp is connected with the keel assembly and faces the through hole.

In this technical scheme, be provided with the through-hole on the panel, the light that the down lamp of being convenient for sent shines to indoor.

A second aspect of the present invention provides an installation method of an integrated ceiling structure, where the installation method of the integrated ceiling structure is used for the integrated ceiling structure according to any one of the above technical solutions, and the installation method of the integrated ceiling structure includes: assembling a keel component; mounting second ends of the plurality of first links to a keel assembly; first ends of the first plurality of links are mounted to the plurality of support beams.

The installation method of the integrated ceiling structure is used for installing the integrated ceiling structure, the integrated ceiling structure comprises a plurality of supporting beams, and the supporting beams are fixedly connected with the top of a building and can bear the gravity of other parts of the integrated ceiling structure. The keel assembly is connected with the supporting beams through the first connecting rod, the panel is installed on the keel assembly, a worker can assemble the keel assembly on the ground firstly when assembling the integrated ceiling structure, then the keel assembly is hoisted on the supporting beams through the first connecting rod, the problem that the installation difficulty is too large due to too high hoisting height is avoided, the integrated ceiling structure can be assembled in a wide bottom surface space, the installation difficulty of the integrated ceiling structure is reduced, and the panel is simpler and more convenient to install.

in one aspect of the present invention, the assembly keel assembly comprises: sleeving the third connecting assembly on the first keel; mounting the first end of the first screw to the third connecting assembly; sleeving the fourth connecting assembly on the second keel; the second end of the first screw is mounted to the fourth connecting assembly.

In this technical scheme, first screw rod and third coupling assembling or fourth coupling assembling threaded connection for the distance between first fossil fragments and the second fossil fragments can be adjusted according to actual demand, and then makes the height of each panel adjust, makes the surface of panel more level and more smooth. And can adjust the height of panel as design needs to richen integrated furred ceiling structure's structure nature of making, make integrated furred ceiling structure more pleasing to the eye.

In one aspect of the present invention, the assembly keel assembly further comprises: sleeving the fifth connecting assembly on the plurality of second keels; mounting a first end of the second screw to a fifth connecting assembly; the second end of the sixth connecting assembly is mounted to the second end of the second screw.

In one aspect of the present invention, the method further includes mounting the first moldboard on the sixth connecting assembly; the second mold plate is attached to the sixth connecting unit in the circumferential direction of the first mold plate.

In one technical scheme of the invention, the mounting method further comprises the steps of mounting the first end of the fourth connecting rod on the first keel; and a third modeling plate is arranged at the second end of the fourth connecting rod in the middle of the first modeling plate.

In one aspect of the present invention, the installation method further includes: mounting the mounting beam to a plurality of support beams; mounting a first end of a fifth connecting rod to the mounting beam; and the screen is arranged at the second end of the fifth connecting rod in the middle of the third modeling plate.

In this technical scheme, the installation roof beam mountable is on a supporting beam, and the screen passes through the fifth connecting rod to be installed on the installation roof beam, has further enriched the function of integrated furred ceiling structure.

In one aspect of the present invention, mounting the first ends of the plurality of first links to the keel assembly comprises: numbering the first connecting rods according to the areas where the first connecting rods are located; sleeving the second connecting assembly on the first keel; according to the serial numbers of the first connecting rods, the first connecting rods are connected with the second connecting assemblies on the first keels respectively.

In this technical scheme, when assembling integrated furred ceiling structure, the accessible numbers the region in order to distinguish first connecting rod place to first connecting rod for work can assemble first connecting rod and fossil fragments on ground, then hangs the fossil fragments subassembly and installs on a supporting beam, and then simplifies integrated furred ceiling structure's the assembly degree of difficulty.

In one technical scheme of the invention, the installation method of the integrated ceiling structure further comprises the steps of designing colored drawing patterns, determining a control axis for installing the honeycomb aluminum plate and the positions of the grid screen and the lamp according to the central point position of the ceiling, and dividing the honeycomb aluminum plate integrated ceiling system into a first construction area and a second construction area according to the control axis, wherein the first construction area and the second construction area are respectively positioned on two sides of the control axis; and performing subsequent construction in the first construction area and the second construction area by taking the control axis as a starting point.

Scanning the installed steel structure by using a laser three-dimensional scanning technology, determining a unified control point, and confirming a unified model; partitioning, dividing the surface and compiling a measurement plan for the whole project; simultaneously measuring each area on the basis of partitioning the whole project, and firstly finding out a key layer during measurement; the factors for the selection of the key layer are: generally in the highest part of the whole area; the upper layer and the lower layer with complex vertical face change; the hierarchy of the surrounding environment may be affected. Then determining a reference measurement axis; then determining that the number of the key points is not less than two in the key layer; when in paying off, firstly paying off a horizontal line from a key point, paying off the horizontal line by using a total station, and then hanging a vertical line; measuring the actually constructed steel structure according to the on-site condition after paying off; sorting and classifying the measurement results; and carrying out BIM (building information modeling) modeling on the actual steel structure on site according to the finally confirmed unified model.

When assembling integrated furred ceiling structure, can use the high-altitude vehicle to install as operation platform, the unable region that covers of high-altitude vehicle at first carries out the safety net and lays, and the back is accomplished, sets up the springboard respectively on a supporting beam and first fossil fragments, installs as operation platform.

According to the installation method of the integrated ceiling structure, elements such as colored drawing patterns, theme lamplight and audio and video equipment and the cellular aluminum plate ceiling are integrated into a complete system and installed in a large space, the integrated ceiling structure is suitable for themed scenes such as large indoor theme parks and theme hotels, and can be matched with surrounding packaging scenes, so that themes can extend to cover the whole scene, and more complete immersive experience and atmosphere are provided.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 illustrates a partial schematic view of an integrated ceiling structure according to one embodiment of the present invention;

FIG. 2 illustrates one of the schematic views of an integrated ceiling structure according to one embodiment of the present invention;

FIG. 3 is an enlarged partial view at A of the integrated ceiling structure of FIG. 2 according to one embodiment of the present invention;

FIG. 4 illustrates a second schematic view of an integrated ceiling structure in accordance with an embodiment of the present invention;

FIG. 5 is an enlarged partial view at B of the integrated ceiling structure of FIG. 4 according to one embodiment of the present invention;

FIG. 6 illustrates a third schematic view of an integrated ceiling construction in accordance with an embodiment of the present invention;

FIG. 7 is an enlarged partial view at C of the integrated ceiling structure of FIG. 6 according to one embodiment of the present invention;

FIG. 8 illustrates a fourth schematic view of an integrated ceiling structure according to one embodiment of the invention;

FIG. 9 is an enlarged partial view of the integrated ceiling structure of FIG. 8 according to one embodiment of the present invention at D;

FIG. 10 illustrates five of a schematic views of an integrated ceiling structure according to one embodiment of the present invention;

FIG. 11 shows a schematic view of a mounting structure of a downlight according to an embodiment of the present invention;

fig. 12 illustrates a flow diagram of a method of installing an integrated ceiling structure, according to one embodiment of the invention.

Wherein, the correspondence between the reference numbers and the part names in fig. 1 to 11 is:

1 integrated ceiling structure, 11 support beam, 111 first connecting assembly, 112 third screw, 12 first keel, 121 third connecting assembly, 13 first connecting rod, 14 second connecting assembly, 141 body, 142 fixing plate, 15 second keel, 151 fourth connecting assembly, 152 fifth connecting assembly, 16 first screw, 161 first nut, 162 second nut, 17 second screw, 171 third nut, 18 first corner connector, 181 first corner connector transverse plate, 182 first corner connector vertical plate, 19 second corner connector, 191 second corner connector vertical plate, 192 second corner connector transverse plate, 193 first bolt, 2 panel, 21 cellular aluminum plate, 23 through hole, 24 down lamp, 25 second connecting rod, 3 third connecting rod, 31 first mounting plate, 32 first electrical device, 33 first back plate, 4 fourth connecting rod, 40 third modeling plate, 41 second mounting plate, 42 second electrical device, 43 second back plate, 5 screen, the

fifth link

51, 52 mounts the beam.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

An integrated ceiling structure and a method of installing an integrated ceiling structure according to some embodiments of the present invention are described below with reference to fig. 1-12.

In one embodiment of the present invention, as shown in fig. 1 and 2, there is provided an integrated ceiling structure 1 including a plurality of support beams 11, a plurality of first links 13, a keel assembly, and a panel 2; a plurality of support beams 11 are arranged in parallel; a first end of each of the plurality of first links 13 is connected to one of the plurality of support beams 11; the keel assembly is connected to a second end of each first link 13 of the plurality of first links 13; the panel 2 is connected with a keel assembly.

In this embodiment, the integrated ceiling structure 1 includes a plurality of support beams 11, and the plurality of support beams 11 are fixedly connected to the top of the building and can bear the weight of the remaining components of the integrated ceiling structure 1. The keel assembly is connected with the supporting beams 11 through the first connecting rods 13, the panel 2 is installed on the keel assembly, the keel assembly can be assembled on the ground firstly when a worker assembles the integrated ceiling structure 1, then the keel assembly is hoisted on the supporting beams 11 through the first connecting rods 13, the problem that the installation difficulty is too large due to overhigh hoisting height is avoided, the integrated ceiling structure 1 can be assembled in a wide bottom surface space, the installation difficulty of the integrated ceiling structure 1 is reduced, and the panel 2 is simpler and more convenient to install.

And, the fossil fragments subassembly is connected with a plurality of supporting beam 11 through first connecting rod 13, panel 2 is installed on the fossil fragments subassembly, make the workman assemble the fossil fragments subassembly earlier on ground when assembling integrated furred ceiling structure, then hoist the fossil fragments subassembly on a supporting beam 11 through first connecting rod 13, even the installation angle of panel 2 in different positions is different, also can promote the position precision of panel 2, reduce integrated furred ceiling structure 1's the construction degree of difficulty, even the more or panel 2's of panel 2 quantity pattern is complicated, also can guarantee the roughness of one side towards the interior space after panel 2 installs and accomplishes, and then make integrated furred ceiling structure 1 more pleasing to the eye decoration effect who promotes integrated furred ceiling structure 1.

The keel assembly can also be used for positioning a plurality of complex elements such as customized patterns, lamps and screens and the like and elements located at different heights, so that the overall construction difficulty of the integrated ceiling structure 1 is further reduced.

Especially to large-scale interior space, for example market, recreation ground etc. because the higher ground of interior space assembles the fossil fragments subassembly now, again with fossil fragments subassembly integral hoisting to a supporting beam 11, can reduce integrated suspended ceiling structure 1's the installation degree of difficulty better for integrated suspended ceiling structure 1 is more pleasing to the eye.

Specifically, the support beam 11 is a main steel beam, and each main steel beam is located on the same horizontal plane.

The present embodiment provides an integrated ceiling structure 1, and in addition to the technical features of the above-described embodiments, the present embodiment further includes the following technical features.

As shown in fig. 2 and 3, the keel assembly includes a plurality of first keels 12, a plurality of second links 25 and a plurality of second keels 15; the plurality of first keels 12 are arranged in parallel, and each first keel 12 in the plurality of first keels 12 is connected with the second ends of the plurality of first connecting rods 13; a first end of each second link 25 of the plurality of second links 25 is connected to one first keel 12 of the plurality of first keels 12; each second keel 15 of the plurality of second keels 15 is connected to a second end of at least one second link 25 of the plurality of second links 25; the panel 2 is connected to a plurality of second runners 15.

In this embodiment, the keel assembly includes a plurality of first keels 12, a plurality of second connecting rods 25 and a plurality of second keels 15, and a plurality of second keels 15 are connected with a plurality of first keels 12 through a plurality of second connecting rods 25 respectively for the assembly of keel assembly is simpler, further reduces the assembly degree of difficulty of integrated furred ceiling structure 1.

Specifically, the first keels 12 are main keels, the main keels are parallel to each other, a conversion layer is formed, and sound absorption centrifugal glass wool is laid on the top surface of the conversion layer. Preferably, the paved area is greater than or equal to 60%. Each main keel is positioned on the same horizontal plane and is vertical to the main steel beam.

As shown in fig. 1, in a vertical projection of the plurality of support beams 11, the plurality of first runners 12, and the plurality of second runners 15, the plurality of support beams 11 intersect the plurality of first runners 12, and the plurality of first runners 12 intersect the plurality of second runners 15.

In this embodiment, the plurality of support beams 11 cross the plurality of first runners 12, and the plurality of first runners 12 cross the plurality of second runners 15, so that the plurality of support beams 11, the plurality of first runners 12, and the plurality of second runners 15 form a net-shaped frame, further improving the strength of the runner assembly, and further improving the stability of the runner assembly.

The first keel 12 is arranged perpendicular to the second keel 15.

As shown in fig. 2 and 3, the integrated ceiling structure 1 further includes a first connecting member 111 and a second connecting member 14; the first connecting assembly 111 is sleeved on one of the supporting beams 11 and connected with a first end of one of the first connecting rods 13 in the plurality of first connecting rods 13; the second connecting assembly 14 is sleeved on one of the first keels 12 and connected to the second end of one of the first connecting rods 13 in the first connecting rods 13.

In this embodiment, the first connecting component 111 is sleeved on the support beam 11, and the first ends of the first connecting rods 13 are connected, so that the first connecting rods 13 and the support beam 11 can be assembled conveniently, and the assembling difficulty between the first connecting rods 13 and the support beam 11 is reduced. Particularly, when the keel assembly is hoisted and assembled to the support beam 11, the first link 13 and the support beam 11 can be assembled more quickly, thereby more conveniently assembling the keel assembly to the support beam 11. The second connecting assembly 14 is sleeved on the first keel 12, and the second end of the first connecting rod 13 is connected with the second connecting assembly 14, so that the first connecting rod 13 and the first keel 12 are assembled, and the supporting beam 11 can hoist the keel assembly through the first connecting rod 13.

Specifically, the first connecting assembly 111 includes a first hoop and a third screw rod 112, the position of the supporting beam 11 corresponding to the top end of the first connecting rod 13 is sleeved with the first hoop, the longitudinal section of the first hoop is U-shaped, the opening faces away from the first connecting rod 13, two ends of the first hoop are fixedly connected through the vertical third screw rod 112, and the side face of the first hoop is fixedly connected with the top end of the first connecting rod 13 through a bolt. The number of the third screws 112 is preferably two to increase safety.

Specifically, the second connecting assembly 14 includes a connecting plate, the bottom end of the first connecting rod 13 is provided with a "U" shaped connecting plate, the connecting plate includes a body 141 with a U-shaped longitudinal section, two ends of the body 141 are provided with fixing plates 142 extending outwards, the two fixing plates 142 are fixed at the bottom end of the first connecting rod 13 by bolts, and the corresponding first keel 12 is wrapped in the body 141.

As shown in fig. 4 and 5, the plurality of second connecting rods 25 are first screws 16, and the integrated ceiling structure 1 further includes a third connecting assembly 121 and a fourth connecting assembly 151; the third connecting assembly 121 is sleeved on one first keel 12 of the first keels 12; the fourth connecting assembly 151 is sleeved on one second keel 15 of the second keels 15; the first end of the first screw 16 is threadedly connected to the third connecting assembly 121, and the second end of the first screw 16 is threadedly connected to the fourth connecting assembly 151.

In this embodiment, the second connecting rod 25 is a first screw 16, and is in threaded connection with the third connecting assembly 121 or the fourth connecting assembly 151, so that the distance between the first keel 12 and the second keel 15 can be adjusted according to actual requirements, and further the height of each panel 2 can be adjusted, so that the surface of the panel 2 is smoother. And can adjust the height of panel 2 as design needs to richen integrated ceiling structure 1's manufacturability, make integrated ceiling structure 1 more pleasing to the eye.

Specifically, the third connecting assembly 121 includes a second hoop, the first keel 12 is sleeved with the second hoop corresponding to the top end of the first screw 16, the longitudinal section of the second hoop is U-shaped, the opening of the second hoop faces the first screw 16, and two ends of the second hoop are sleeved on the first screw 16 and fixed by adjusting the first nut 161.

The fourth connecting assembly 151 includes a third hoop, the second keel 15 is sleeved with the third hoop corresponding to the bottom end of the first screw 16, the longitudinal section of the third hoop is U-shaped, the opening faces the first screw 16, and two ends of the third hoop are sleeved on the first screw 16 and fixed by the second nut 162.

As shown in fig. 4 and 5, the integrated ceiling structure 1 further includes a fifth connecting assembly 152, a sixth connecting assembly, and a second screw 17; the fifth connecting assembly 152 is sleeved on one second keel 15 of the second keels 15; the sixth connecting assembly is connected with the panel 2; the first end of the second screw 17 is threadedly connected to the fifth connecting assembly 152, and the second end of the second screw 17 is threadedly connected to the sixth connecting assembly.

In this embodiment, the fifth connecting assembly 152 is sleeved on the second keel 15, the sixth connecting assembly is connected with the fifth connecting assembly 152 through the second screw 17, and the panel 2 is mounted on the sixth connecting assembly, so that the mounting of the panel 2 is more convenient. And the sixth coupling assembling is connected with fifth coupling assembling 152 through second screw 17, and it is more convenient to the regulation of panel 2 height, further reduces integrated furred ceiling structure 1's the installation degree of difficulty.

Specifically, the fifth connecting assembly 152 includes a fourth hoop, the second keel 15 is sleeved with the fourth hoop between the adjacent third hoops, the longitudinal section of the fourth hoop is U-shaped, the opening faces the second screw 17, and two ends of the fourth hoop are sleeved on the top end of the second screw 17 and fixed by the third nut 171.

The sixth connecting assembly comprises a first corner connector 18 and a second corner connector 19, the bottom end of the second screw rod 17 penetrates through the middle of a transverse plate 181 of the first corner connector in the L shape, a vertical plate 182 of the first corner connector is fixedly connected with a vertical plate 191 of the second corner connector through bolts, and a transverse plate 192 of the second corner connector is provided with a first inserting bolt 193 with an inverted T-shaped cross section.

Specifically, the panel 2 is a honeycomb aluminum plate 21, and the bottom surface of the honeycomb aluminum plate 21 is provided with a colored drawing pattern; the honeycomb aluminum plate 21 is provided with first through grooves with inverted T-shaped cross sections on the top surfaces of two side edges corresponding to the second screw 17, and the inserting bolts are inserted into the corresponding first through grooves.

As shown in fig. 6 and 7, the panel 2 includes a first moldboard and a second moldboard arranged in the circumferential direction of the first moldboard.

In this embodiment, the panel 2 includes a first and a second mold plate, so that the panel 2 has a richer shape after being installed, and the integrated ceiling structure 1 is more beautiful.

Specifically, the integrated ceiling structure 1 has a first shaping portion E in a circular or elliptical shape in the middle, and the position of the periphery of the first shaping portion E is a second shaping portion F. The first molding plate is located in the first molding section E, and the second molding plate is located in the second molding section F.

Specifically, the first and second mold plates are each an aluminum honeycomb plate 21.

As shown in fig. 6 and 7, the first link 13 corresponding to the first mold plate among the plurality of first links 13 is a first sub-link; the first connecting rod 13 corresponding to the second modeling plate in the plurality of first connecting rods 13 is a second sub-connecting rod; the length of the first sub-connecting rod is smaller than that of the second sub-connecting rod.

In this embodiment, the length of the first sub-link is less than that of the second sub-link, so that after the first modeling plate and the second modeling plate are installed, the height of the first modeling plate is higher than that of the second modeling plate, so that the surface of the suspended ceiling forms a structure with a concave middle part, the modeling of the integrated suspended ceiling structure 1 is enriched, and the aesthetic property of the integrated suspended ceiling structure 1 is improved.

As shown in fig. 6 and 7, the first runner 12 of the plurality of first runners 12 corresponding to the first molding plate is a first sub-runner; the first keel 12 corresponding to the second modeling plate in the plurality of first keels 12 is a second sub keel; integrated furred ceiling structure 1 still includes third connecting rod 3, and the first end and the first sub-fossil fragments of third connecting rod 3 are connected, and the second end and the second sub-fossil fragments of third connecting rod 3 are connected.

In this embodiment, the first sub keel is connected with the second sub keel through the third connecting rod 3, and then the stability of first sub keel and second sub keel is promoted.

As shown in fig. 7, the integrated ceiling structure 1 further includes a first mounting plate 31 and a first electric device 32; the first mounting plate 31 is connected with the third connecting rod 3 and arranged between the first modeling plate and the second modeling plate; the first electric device 32 is disposed on the first mounting board 31.

In this embodiment, by disposing the first electrical device 32 between the first and second castors, the first electrical device 32 and the first mounting plate 31 are facilitated to be concealed, and the configuration and style of the integrated ceiling structure 1 can be enriched by the first electrical device 32, making the integrated ceiling structure 1 more aesthetically pleasing.

Specifically, the first electric device 32 is a wall washer, and a first back plate 33 is disposed between the first mounting plate 31 and the first sub-keel.

As shown in fig. 8 and 9, the integrated ceiling structure 1 further includes a third style sheet 40 and a fourth link 4; the third moldboard 40 is arranged in the middle of the first moldboard; a first end of the fourth link 4 is connected to one of the first keels 12 of the plurality of first keels 12 and a second end of the fourth link 4 is connected to the third moldboard 40.

In this embodiment, the integrated ceiling structure 1 further includes a third shaped board 40 and a fourth connecting rod 4, and the third shaped board 40 is mounted on the first keel 12 through the fourth connecting rod 4, so that the shape and style of the integrated ceiling structure 1 are further enriched while the stability of the third shaped board 40 is improved, and the integrated ceiling structure 1 is more beautiful.

Specifically, a third molding portion G having an annular shape is provided in the first molding portion E, and a third molding plate 40 is provided in the third molding portion G.

Specifically, the fourth link 4 is a support steel pipe, and the third mold plate 40 is a mold iron sheet. The top of the supporting steel pipe is fixedly connected with the first keel 12, and the top surface of the modeling iron sheet is welded with the bottom of the supporting steel pipe.

As shown in fig. 8 and 9, the first runner is spaced a first distance from a first runner 12 of the plurality of first runners 12 connected to the first runner; the distance between the third moldboard 40 and the first keel 12 connected with the third moldboard 40 in the plurality of first keels 12 is a second distance; the first distance is less than the second distance.

In this embodiment, the first distance is less than the second distance, such that the third style sheet 40 has a lower height than the first style sheet, and thus a protruding region is formed on the inwardly recessed first style sheet, further enriching the shape of the integrated ceiling structure 1.

As shown in fig. 9, the integrated ceiling structure 1 further includes a second mounting plate 41 and a second electric device 42; the second mounting plate 41 is connected with the fourth connecting rod 4 and is positioned between the first modeling plate and the third modeling plate 40; the second electric device 42 is disposed on the second mounting board 41.

In this embodiment, by disposing the second electrical device 42 between the first and third castors 40, the second mounting plate 41 and the second electrical device 42 are facilitated to be concealed, and the configuration and style of the integrated ceiling structure 1 may be enriched by the second electrical device 42, making the integrated ceiling structure 1 more aesthetically pleasing.

In particular, the second electrical device 42 is a LED light fixture, such as a LED light strip.

The integrated ceiling structure 1 further comprises a second back plate 43, wherein a first end of the second back plate 43 is connected to the first shaping plate, and a second end of the second back plate 43 is connected to the second mounting plate.

In this embodiment, the first mold plate is connected to the second mounting plate via the second back plate 43, which improves the stability of the second mounting plate.

As shown in fig. 10, the integrated ceiling structure 1 further includes a mounting beam 52, a fifth link 51, and a screen 5; a first end of the fifth link 51 is connected to the mounting beam 52; the screen 5 is connected with the second end of the second connecting rod 25, and the third modeling plate 40 is wound on the screen; and the distance between the screen and the plurality of supporting beams in the vertical direction is smaller than the distance between the third modeling plate and the plurality of supporting beams in the vertical direction.

In this embodiment, the mounting beam 52 may be mounted on the support beam 11, as well as on the roof of the building. The screen 5 is mounted on the mounting beam 52 through the fifth link 51, further enriching the function of the integrated ceiling structure 1.

As shown in fig. 11, a through hole 23 is formed in the panel 2, and the integrated ceiling structure 1 further includes a down lamp 24, wherein the down lamp 24 is connected with the keel assembly and faces the through hole 23.

In this embodiment, the panel 2 is provided with a through hole 23 for illuminating the room with light from the down lamp 24.

In one embodiment of the present invention, as shown in fig. 12, there is provided a method of installing an integrated ceiling structure, the method of installing an integrated ceiling structure being used for the integrated ceiling structure according to any one of the above embodiments, the method of installing an integrated ceiling structure comprising:

step 602, assembling a keel assembly;

step 604, mounting second ends of the plurality of first links to a keel assembly;

step 606, mounting first ends of the first plurality of links to the plurality of support beams.

In this embodiment, the method for installing an integrated ceiling structure includes installing an integrated ceiling structure, where the integrated ceiling structure includes a plurality of support beams that are fixedly attached to a roof of a building and are capable of supporting the weight of the remaining components of the integrated ceiling structure. The keel assembly is connected with the supporting beams through the first connecting rod, the panel is installed on the keel assembly, a worker can assemble the keel assembly on the ground firstly when assembling the integrated ceiling structure, then the keel assembly is hoisted on the supporting beams through the first connecting rod, the problem that the installation difficulty is too large due to too high hoisting height is avoided, the integrated ceiling structure can be assembled in a wide bottom surface space, the installation difficulty of the integrated ceiling structure is reduced, and the panel is simpler and more convenient to install.

The present embodiment provides an installation method of an integrated ceiling structure, and in addition to the technical features of the above embodiments, the present embodiment further includes the following technical features.

The assembly fossil fragments subassembly includes: sleeving the third connecting assembly on the first keel; mounting the first end of the first screw to the third connecting assembly; sleeving the fourth connecting assembly on the second keel; the second end of the first screw is mounted to the fourth connecting assembly.

In this embodiment, first screw rod and third coupling assembling or fourth coupling assembling threaded connection for the distance between first fossil fragments and the second fossil fragments can be adjusted according to actual demand, and then makes the height of each panel adjust, makes the surface of panel more level and more smooth. And can adjust the height of panel as design needs to richen integrated furred ceiling structure's structure nature of making, make integrated furred ceiling structure more pleasing to the eye.

The assembly keel subassembly still includes: sleeving the fifth connecting assembly on the plurality of second keels; mounting a first end of the second screw to a fifth connecting assembly; the second end of the sixth connecting assembly is mounted to the second end of the second screw.

In this embodiment, the fifth connecting assembly is sleeved on the second keel, the sixth connecting assembly is connected with the fifth connecting assembly through the second screw, and the panel is installed on the sixth connecting assembly, so that the installation of the panel is more convenient. And the sixth connecting assembly is connected with the fifth connecting assembly through the second screw rod, so that the height of the counter panel is more convenient to adjust, and the installation difficulty of the integrated ceiling structure is further reduced.

The method of mounting further includes mounting the first moldboard on the sixth connecting assembly; the second mold plate is attached to the sixth connecting unit in the circumferential direction of the first mold plate.

In this embodiment, the panel includes first modelling board and second modelling board for the panel possesses abundant figuration after the installation is accomplished, makes integrated furred ceiling structure more pleasing to the eye.

The mounting method further comprises mounting a first end of a fourth link to the first keel; and a third modeling plate is arranged at the second end of the fourth connecting rod in the middle of the first modeling plate.

In this embodiment, integrated furred ceiling structure still includes third modelling board and fourth connecting rod, and the third modelling board is installed on first fossil fragments through the fourth connecting rod, when promoting the stability of third modelling board, further richenes the modelling and the style of integrated furred ceiling structure for integrated furred ceiling structure is more pleasing to the eye.

The installation method further comprises the following steps: mounting the mounting beam to a plurality of support beams; mounting a first end of a fifth connecting rod to the mounting beam; and the screen is arranged at the second end of the fifth connecting rod in the middle of the third modeling plate.

In this embodiment, the mounting beam may be mounted on the support beam, and the screen may be mounted on the mounting beam via a fifth link, further enriching the functionality of the integrated ceiling structure.

Installing the first end of a plurality of first links in the keel assembly includes: numbering the first connecting rods according to the areas where the first connecting rods are located; sleeving the second connecting assembly on the first keel; according to the serial numbers of the first connecting rods, the first connecting rods are connected with the second connecting assemblies on the first keels respectively.

In this embodiment, when assembling integrated ceiling structure, the accessible numbers first connecting rod in order to distinguish the region at first connecting rod place for work can assemble first connecting rod and fossil fragments on ground, then hangs the fossil fragments subassembly and installs on a supporting beam, and then simplifies integrated ceiling structure's the assembly degree of difficulty.

In an embodiment of the invention, the installation method of the integrated ceiling structure further comprises the steps of designing colored drawing patterns, determining a control axis for installing the aluminum honeycomb plate and the positions of the grid screen and the lamp according to the central point position of the ceiling, and dividing the aluminum honeycomb plate integrated ceiling system into a first construction area and a second construction area according to the control axis, wherein the first construction area and the second construction area are respectively positioned on two sides of the control axis; and performing subsequent construction in the first construction area and the second construction area by taking the control axis as a starting point.

In the claims, the specification and the drawings of the specification of the present invention, the term "plurality" means two or more, unless explicitly defined otherwise, the terms "upper", "lower", and the like indicate orientations or positional relationships based on those shown in the drawings only for the purpose of describing the present invention more conveniently and simplifying the description, and do not indicate or imply that the referred device or element must have the described specific orientation, be constructed and operated in the specific orientation, and thus the description should not be construed as limiting the present invention; the terms "connect," "mount," "secure," and the like are to be construed broadly, and for example, "connect" may refer to a fixed connection between multiple objects, a removable connection between multiple objects, or an integral connection; the multiple objects may be directly connected to each other or indirectly connected to each other through an intermediate. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art from the above data specifically.

In the claims, specification, and drawings that follow the present disclosure, the description of the terms "one embodiment," "some embodiments," "specific embodiments," and so forth, means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present disclosure. In the claims, specification and drawings of the present invention, schematic representations of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. An integrated ceiling structure (1), comprising:

a plurality of support beams (11), the plurality of support beams (11) being arranged in parallel;

a plurality of first links (13), a first end of each of the plurality of first links (13) being connected to one of the plurality of support beams (11);

a keel assembly connected to a second end of each first link (13) of the plurality of first links (13);

a panel (2), the panel (2) is connected with the keel component.

2. An integrated ceiling structure (1) according to claim 1, wherein the keel assembly comprises:

a plurality of first keels (12), the plurality of first keels (12) being juxtaposed, each first keel (12) of the plurality of first keels (12) being connected to a second end of the plurality of first links (13);

a plurality of second links (25), a first end of each second link (25) of the plurality of second links (25) being connected to one first keel (12) of the plurality of first keels (12);

a plurality of second keels (15), each second keel (15) of the plurality of second keels (15) connected with a second end of at least one second link (25) of the plurality of second links (25);

the panel (2) is connected to the second keels (15).

3. Integrated ceiling structure (1) according to claim 2,

the plurality of support beams (11), the plurality of first runners (12) and the plurality of second runners (15) are in vertical projection, the plurality of support beams (11) intersect the plurality of first runners (12), and the plurality of first runners (12) intersect the plurality of second runners (15).

4. An integrated ceiling structure (1) according to claim 2, further comprising:

the first connecting component (111), the first connecting component (111) is sleeved on one of the supporting beams (11), and is connected with a first end of one of the first connecting rods (13);

a second connecting assembly (14), wherein the second connecting assembly (14) is sleeved on one first keel (12) of the first keels (12) and connected with the second end of one first connecting rod (13) of the first connecting rods (13).

5. The integrated ceiling structure (1) of claim 2, wherein the plurality of second links (25) are first threaded rods (16), the integrated ceiling structure (1) further comprising:

a third connecting assembly (121), the third connecting assembly (121) being sleeved on one first keel (12) of the plurality of first keels (12);

a fourth connection assembly (151), the fourth connection assembly (151) being sleeved on one second keel (15) of the plurality of second keels (15);

a first end of the first screw (16) is arranged in the third connecting component (121) in a penetrating way, and a second end of the first screw (16) is arranged in the fourth connecting component (151) in a penetrating way;

a first nut (161), wherein the first nut (161) is connected to the first end of the first screw (16) in a threaded manner and abuts against the third connecting component (121);

a second nut (162), the second nut (162) being threadedly connected to the second end of the first screw (16) and abutting against the fourth connection assembly (151).

6. An integrated ceiling structure (1) according to claim 2, further comprising:

a fifth connection assembly (152), the fifth connection assembly (152) being sleeved on one second keel (15) of the plurality of second keels (15);

a sixth connection assembly connected with the panel (2);

a second screw (17), a first end of the second screw (17) and the fifth connection assembly (152) are in threaded connection, and a second end of the second screw (17) and the sixth connection assembly are in threaded connection.

7. An integrated ceiling structure (1) according to claim 6, wherein the sixth connection assembly comprises:

the second end of the second screw rod (17) penetrates through a transverse plate (181) of the first corner brace;

a second corner brace (19) having a riser (191) connected to the riser (182) of the first corner brace.

8. Integrated ceiling structure (1) according to claim 2, characterized in that said panel (2) comprises:

a first moldboard;

a second moldboard disposed circumferentially of the first moldboard.

9. Integrated ceiling structure (1) according to claim 8,

a first connecting rod (13) corresponding to the first modeling plate in the plurality of first connecting rods (13) is a first sub-connecting rod;

a first connecting rod (13) corresponding to the second modeling plate in the plurality of first connecting rods (13) is a second sub-connecting rod;

the length of the first sub-connecting rod is smaller than that of the second sub-connecting rod.

10. Integrated ceiling structure (1) according to claim 9,

a first keel (12) of the plurality of first keels (12) corresponding to the first moldboard is a first sub keel;

the first keel (12) corresponding to the second modeling plate in the plurality of first keels (12) is a second sub keel;

integrated furred ceiling structure (1) still includes third connecting rod (3), the first end of third connecting rod (3) with first sub-fossil fragments are connected, the second end of third connecting rod (3) with the second sub-fossil fragments are connected.

11. Integrated ceiling structure (1) according to claim 10, further comprising:

a first mounting plate (31), wherein the first mounting plate (31) is connected with the third connecting rod (3) and is arranged between the first modeling plate and the second modeling plate;

a first electric device (32), the first electric device (32) being disposed on the first mounting board (31).

12. An integrated ceiling structure (1) according to claim 8, further comprising:

a third moldboard (40), the third moldboard (40) being disposed in a middle portion of the first moldboard;

a fourth link (4), a first end of the fourth link (4) being connected to one of the first keels (12) of the plurality of first keels (12), a second end of the fourth link (4) being connected to the third moldboard (40).

13. Integrated ceiling structure (1) according to claim 12,

the distance between the first modeling plate and a first keel (12) connected with the first modeling plate in the plurality of first keels (12) is a first distance;

the third moldboard (40) is a second distance from the first keel (12) of the plurality of first keels (12) connected with the third moldboard (40);

the first distance is less than the second distance.

14. Integrated ceiling structure (1) according to claim 12, further comprising:

a second mounting plate (41), the second mounting plate (41) being connected to the fourth link (4) and located between the first and third platens (40);

a second electric device (42), the second electric device (42) being disposed on the second mounting board (41).

15. Integrated ceiling structure (1) according to claim 14, further comprising:

a second back plate (43), a first end of the second back plate (43) is connected with the first modeling plate, and a second end of the second back plate (43) is connected with the second mounting plate (41).

16. Integrated ceiling structure (1) according to claim 12, further comprising:

a mounting beam (52);

a fifth link (51), a first end of the fifth link (51) being connected to the mounting beam (52);

the screen (5), the second end of the second connecting rod (25) is connected with the screen (5), and the third modeling plate (40) is wound on the screen (5);

wherein the distance between the screen (5) and the plurality of support beams (11) in the vertical direction is smaller than the distance between the third moldboard (40) and the plurality of support beams (11) in the vertical direction.

17. Integrated ceiling structure (1) according to any one of claims 1 to 16, characterized in that a through hole (23) is provided on the panel (2), the integrated ceiling structure (1) further comprising:

down lamp (24), down lamp (24) with fossil fragments subassembly is connected, orientation through-hole (23).

18. A method of installing an integrated ceiling structure, the method of installing an integrated ceiling structure for use with an integrated ceiling structure according to any one of claims 1 to 17, the method of installing an integrated ceiling structure comprising:

assembling the keel assembly;

mounting second ends of the plurality of first links to the keel assembly;

mounting first ends of the first plurality of links to the plurality of support beams.

19. The method of installing an integrated ceiling structure according to claim 18, wherein said assembling the keel assembly comprises:

sleeving the third connecting assembly on the first keel;

mounting a first end of a first screw to the third connection assembly;

sleeving the fourth connecting assembly on the second keel;

mounting a second end of the first screw to the fourth connection assembly.

20. The method of installing an integrated ceiling structure according to claim 19, wherein assembling the keel assembly further comprises:

sleeving a fifth connecting assembly on the plurality of second keels;

mounting a first end of the second screw to a fifth connecting assembly;

the second end of the sixth connecting assembly is mounted to the second end of the second screw.

21. The method of installing an integrated ceiling structure according to claim 20, further comprising:

mounting a first moldboard on the sixth connecting assembly;

and a second moldboard is mounted to the sixth connecting unit in the circumferential direction of the first moldboard.

22. The method of installing an integrated ceiling structure according to claim 21, further comprising:

mounting a first end of a fourth link to the first keel;

and a third moldboard is arranged at the second end of the fourth connecting rod in the middle of the first moldboard.

23. The method of installing an integrated ceiling structure according to claim 22, further comprising:

mounting a mounting beam to the plurality of support beams;

mounting a first end of a fifth link to the mounting beam;

and a screen is arranged at the second end of the fifth connecting rod in the middle of the third modeling plate.

24. The method of installing an integrated ceiling structure according to any one of claims 19 to 23, wherein the installing the first ends of the first plurality of links to the keel assembly comprises:

numbering the first connecting rods according to the areas where the first connecting rods are located;

sleeving a second connecting assembly on the first keel;

and according to the serial numbers of the first connecting rods, the first connecting rods are respectively connected with the second connecting components on the first keels.