CN113356446A

CN113356446A - Suspended ceiling structure is built in room

Info

Publication number: CN113356446A
Application number: CN202110708383.8A
Authority: CN
Inventors: 钱晓东; 陈振灿; 黄允华; 陈钤; 张镔
Original assignee: Fujian Tianzhu Construction Engineering Co ltd
Current assignee: Fujian Tianzhu Construction Engineering Co ltd
Priority date: 2021-06-25
Filing date: 2021-06-25
Publication date: 2021-09-07
Anticipated expiration: 2041-06-25
Also published as: CN113356446B

Abstract

The application discloses furred ceiling structure is built in room, relate to the technical field that the engineering was built in room, it includes ceiling and skeleton body, the skeleton body includes main joist and false keel, the main joist has a plurality ofly and even interval setting, the false keel has a plurality ofly and even interval setting between two adjacent main joists, form the show space that is used for demonstrateing the ceiling between main joist and the false keel, the gliding spout of confession ceiling both sides is seted up respectively to the opposite side of two adjacent main joists, set up the connecting hole that is used for supplying the ceiling to pass in the false keel, the skeleton body is seted up and is supplied the ceiling to get into the entering space of spout and connecting hole, it is located same one side and be close to one of them side wall body to get into the space, the main joist is provided with the promotion subassembly that promotes the ceiling and slides to next adjacent show space towards keeping away from getting into the space direction, the skeleton body is provided with and is used for sealing the closed subassembly that gets into the space after the ceiling is put into. The problem that the ceiling installation is troublesome can be improved to this application.

Description

Suspended ceiling structure is built in room

Technical Field

The application relates to the technical field of building engineering, in particular to a suspended ceiling structure is built in room.

Background

A suspended ceiling is a decoration used to finish the top of a living environment, and simply a ceiling.

At present, the chinese utility model patent with publication number CN209129236U discloses a ceiling mounting structure, which comprises a keel frame and a ceiling, and further comprises a connecting block, a locking block and a locking component. Connecting block and latch segment all set up on keel frame, are equipped with the line concentration groove on keel frame, and the one end of ceiling articulates in the connecting block, and locking Assembly includes threaded rod, locking hole, screw hole and connecting hole, is equipped with the screw hole on the locking hole lateral wall, is equipped with the connecting hole on the ceiling, and the threaded rod has been screwed in the screw hole, and the one end of threaded rod is in locking downtheholely, and the other end is in the connecting hole. When the ceiling is installed, the ceiling is uniformly arranged on the keel frame and is limited through the threaded rod.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: the ladder of ascending a height needs to be ascended to be close to the keel frame during installation, the number of ceilings needing to be installed on the keel frame is large, and the area is large, so that when the installation of the ceiling near the top of the ladder of ascending a height is completed, the ladder of ascending a height needs to be moved to other non-installation areas, and then the ladder of ascending a height is installed on the ceilings of other non-installation areas, which is troublesome.

Disclosure of Invention

In order to improve the trouble problem of ceiling installation, this application provides a furred ceiling structure is built in room.

The application provides a furred ceiling structure is built in room adopts following technical scheme:

a suspended ceiling structure for building comprises a ceiling and a framework body, wherein the framework body comprises a main keel and an auxiliary keel, a plurality of main keels are arranged at even intervals, a plurality of auxiliary keels are arranged between two adjacent main keels at even intervals, a display space for displaying the ceiling is formed between the main keels and the auxiliary keels, sliding grooves for sliding two sides of the ceiling are respectively arranged on the opposite sides of two adjacent main keels, the auxiliary keel is internally provided with a connecting hole for a ceiling to pass through, the framework body is provided with an entering space for the ceiling to enter the sliding chute and the connecting hole, the entrance spaces are located on the same side and close to a wall body on one side, the main keel is provided with a pushing assembly for pushing the ceiling to slide to the next adjacent display space in the direction away from the entrance spaces, and the framework body is provided with a sealing assembly for sealing the entrance spaces after the ceiling is placed in.

Through adopting above-mentioned technical scheme, during the installation earlier with the ceiling from getting into the space put into spout and connecting hole for the ceiling can get into with getting into the display space adjacent in space in, promote the next adjacent display space of ceiling through the promotion subassembly after that, put into the ceiling again after that, then continue to push the ceiling towards keeping away from entering space direction through the promotion subassembly, until the ceiling installation on the collinear finishes, put into the ceiling and get into the space after last through the closure subassembly closed get into the space can, later can install the ceiling of the unfinished installation on the same collinear according to the same step. The whole process is simple, and the ceiling on the same straight line does not need to be frequently moved when being installed, so that the installation complexity of the ceiling is reduced.

Optionally, the pushing assembly comprises a plurality of pushing blocks and a plurality of pushing strips, the pushing strips are respectively slid in the main keel, the display space far away from one side of the entering space is a limiting space, the side of the pushing strip close to the display space is provided with a mounting strip corresponding to the display space between the entrance space and the limiting space, the hole wall at the bottom of the connecting hole is provided with a through hole for the mounting bar to pass through, the mounting bar is provided with a mounting groove for the pushing block to slide up and down, the mounting strip is provided with an elastic piece for pushing the pushing block to protrude out of the mounting groove, the main keel is provided with a driving component for driving the pushing strip to slide back and forth along the length direction of the main keel, a sliding surface is arranged on one side of the top of the pushing block, which is close to the entering space, the ceiling slides on the sliding surface when the pushing strip slides towards the entering space, the false keel is provided with a limiting component for limiting the ceiling to slide towards the entering space direction.

Through adopting above-mentioned technical scheme, the drive assembly drive promotes the strip and slides towards keeping away from getting into the space direction during use for promote the piece and promote the ceiling and slide, when the drive assembly drive promoted the strip and slide towards getting into the space direction, promote the piece by the extrusion go into the mounting groove in, make to promote the piece and can be driven towards getting into the space direction motion, be favorable to promoting the piece and promote the ceiling of newly-installed and slide towards keeping away from the direction that gets into the space.

Optionally, drive assembly includes actuating lever and poker rod, it articulates to promote one side of the installation strip dorsad has the transmission post, the transmission post is kept away from promotion strip one end and is offered and supply the actuating lever along the gliding transmission groove of transmission post length direction, be provided with the rotation axis in the main joist, the position that the transmission post was kept away from to the actuating lever links to each other with the rotation axis is rotatory, the poker rod slides in the main joist along main joist length direction, the poker rod is kept away from and is got into space one side articulated have and keep away from the adapter sleeve that transmission post one side slided and link to each other with the actuating lever, the main joist is provided with and is used for stirring the gliding piece of stirring of actuating lever.

Through adopting above-mentioned technical scheme, the piece that dials during the use drives the poker rod and slides, and the poker rod drives the actuating lever upset for the promotion strip can slide towards the direction of keeping away from getting into the space.

Optionally, the poking piece is a poking column, the poking column slides along the length direction of the main keel, the bottom of the poking column protrudes out of the main keel, and the top of the poking column is arranged on one side, far away from the driving rod, of the poking rod.

Through adopting above-mentioned technical scheme, stir the post during use, be favorable to driving the poker rod and slide, stir post simple structure, convenient to use.

Optionally, a pushing spring which pushes the poke rod away from the space entering direction when the poke column stops poking is arranged in the main keel.

Through adopting above-mentioned technical scheme, can push away to get into the space direction and promote the poker rod towards keeping away from when promoting spring elasticity release, make things convenient for the poker rod to reply to the state before sliding.

Optionally, the elastic component is power spring, power spring installs in the mounting groove, power spring top butt is in pushing the piece bottom, power spring bottom butt is on the mounting groove bottom cell wall.

Through adopting above-mentioned technical scheme, during the compression of power spring, promote the piece and can get into the mounting groove in, conveniently promote the strip and slide towards getting into the space direction, when power spring elasticity release, promote to promote the piece and upwards protrusion outside the mounting groove, conveniently promote the piece and promote the ceiling.

Optionally, the holding tank has been seted up to connecting hole bottom pore wall intercommunication, false keel is provided with the stopper of sliding from top to bottom in the holding tank, install in the holding tank and upwards promote the stopper and insert the supporting spring between the adjacent ceiling, the stopper top is close to the position slope that gets into the space and has seted up spacing face, the guide face has been seted up to the ceiling bottom slope, the guide face slides with spacing face and links to each other.

Through adopting above-mentioned technical scheme, the guide face slides with spacing face and links to each other, makes things convenient for the stopper to insert between two adjacent ceilings, is favorable to the stopper and promotes the position that the piece cooperation restricted the ceiling.

Optionally, the restriction subassembly includes restriction ball and restriction spring, a plurality of swivelling chutes have been seted up at the connecting hole top, the restriction ball slides from top to bottom in the swivelling chute, swivelling chute notch position joint is provided with the snap ring that the internal diameter is less than restriction ball diameter, the restriction spring is installed in the swivelling chute, restriction spring bottom butt is at restriction ball top, restriction spring bottom butt is on swivelling chute top cell wall, the draw-in groove that supplies restriction ball card to go into is seted up at the ceiling top.

Through adopting above-mentioned technical scheme, when restriction ball and draw-in groove are punctual relatively, restriction spring promotes restriction ball card and goes into in the draw-in groove, restricts the ceiling, and the reduction promotes the piece and is driven towards entering the gliding possibility of space direction when the space direction slides.

Optionally, the sealing component includes a sealing frame and a fixing screw, the top of the sealing frame abuts against the bottom of the ceiling, and the fixing screw penetrates through the inner periphery of the sealing frame and is arranged on the fixed main keel.

Through adopting above-mentioned technical scheme, put into the entering space with the ceiling during installation in, it is fixed with the enclosure frame through set screw after that, fixes the ceiling, accomplishes the installation.

In summary, the present application includes at least one of the following benefits:

1. when the ceiling is installed, the ceiling is sequentially placed into the entering space, then the pushing assembly pushes the ceiling to move towards the direction far away from the entering space until the ceiling installation on the same straight line is completed, and finally the ceiling is placed into the entering space and is closed by the closing assembly to enter the space, so that the moving frequency is reduced when the ceiling is installed, and the ceiling is convenient to install;

2. when in use, the limiting block is matched with the pushing block, and the position of the ceiling can be adjusted.

Drawings

FIG. 1 is a schematic diagram of the external structure of an embodiment of the present application;

FIG. 2 is an enlarged schematic view of section A of FIG. 1;

FIG. 3 is a schematic cross-sectional view of a pusher block structure embodying the present application;

FIG. 4 is an enlarged schematic view of section B of FIG. 3;

FIG. 5 is a schematic view of an internal cross-section of an embodiment of the present application;

FIG. 6 is an enlarged schematic view of section C of FIG. 5;

FIG. 7 is a schematic cross-sectional view of a stopper block structure embodying embodiments of the present application;

fig. 8 is an enlarged schematic view of a portion D of fig. 7.

Reference numerals: 1. a ceiling; 101. a guide surface; 102. a card slot; 2. a skeleton body; 3. a main keel; 301. a push groove; 302. a poking groove; 303. a drive slot; 4. a false keel; 5. a display space; 6. a chute; 7. connecting holes; 701. perforating holes; 702. positioning blocks; 8. entering a space; 9. a pushing assembly; 901. a pushing block; 9011. a sliding surface; 9012. a limiting block; 902. a push bar; 10. limiting the space; 11. a closure assembly; 111. sealing the frame; 112. a set screw; 12. mounting a bar; 13. mounting grooves; 131. a limiting groove; 14. a drive assembly; 141. a drive rod; 142. a poke rod; 1421. connecting sleeves; 15. a restraining component; 151. a restraining ball; 152. a restraining spring; 16. a drive post; 17. a transmission groove; 18. a rotating shaft; 19. shifting the column; 191. a toggle hole; 20. a push spring; 21. a power spring; 22. accommodating grooves; 23. a limiting block; 231. a limiting surface; 24. a support spring; 25. a rotating tank; 26. a snap ring.

Detailed Description

The present application is described in further detail below with reference to figures 1-8.

The embodiment of the application discloses furred ceiling structure is built in room. Referring to fig. 1, the suspended ceiling structure of a building includes a ceiling 1 and a framework 2. The framework bodies 2 are fixed on an indoor top wall body through connecting rods, and a plurality of ceilings 1 are respectively arranged on the framework bodies 2.

Referring to fig. 1, the framework body 2 includes a main keel 3 and a cross keel 4, the main keel 3 is provided with a plurality of and evenly spaced arrangements, and two opposite sides of the length direction of the two main keels 3 located at the outermost side are respectively abutted on the wall. The false keel 4 has a plurality of and even interval fixes between two adjacent main joist 3, and the lateral wall and the wall body looks butt of the false keel 4 length direction that are located the outside. A display space 5 is formed between two adjacent main keels 3 and two adjacent auxiliary keels 4 for displaying the ceiling 1.

Referring to fig. 1 and 2, two opposite sides of two adjacent main keels 3 are provided with sliding grooves 6 extending along the length direction, and when the ceiling is installed, two sides of the ceiling 1 can slide in the sliding grooves 6. The auxiliary keel 4 is provided with a connecting hole 7, and the ceiling 1 can pass through the connecting hole 7 during installation, so that the ceiling 1 can slide in the framework body 2.

Referring to fig. 1 and 2, the bottom of the framework body 2 is provided with a plurality of entrance spaces 8 which are simultaneously communicated with the sliding groove 6 and the connecting hole 7, the entrance spaces 8 are positioned on the same side, and the entrance spaces 8 are uniformly distributed along the length direction of the auxiliary keel 4 and are positioned close to the wall. When the ceiling 1 is installed, the ceiling 1 enters the sliding groove 6 and the connecting hole 7 through the entering space 8, and then the ceiling 1 is pushed along the length direction of the main keel 3 towards the direction far away from the entering space 8, so that the ceiling 1 on the same straight line can be installed without moving the installation position when the ceiling 1 on the same straight line is installed.

Referring to fig. 1 and 3, a pushing assembly 9 is arranged in the main joist 3 for pushing the ceiling 1 in the same straight line to slide along the length direction of the main joist 3.

Referring to fig. 2 and 3, the pushing assembly 9 includes a pushing block 901 and a pushing strip 902, a pushing groove 301 extending along the length direction of the main keel 3 is formed in the position of the main keel 3 close to the display space 5, the pushing groove 301 is located right below the sliding groove 6 and penetrates through the display space 5, and the pushing strip 902 slides in the pushing groove 301.

Referring to fig. 2 and 3, a plurality of mounting bars 12 are fixedly connected to a side wall of the pushing bar 902 close to the display space 5, the mounting bars 12 are located below the ceiling 1, the display space 5 far away from the side of the entering space 8 is a limiting space 10, and the number of the mounting bars 12 is multiple and is in one-to-one correspondence with the display space 5 between the entering space 8 and the limiting space 10.

Referring to fig. 3 and 4, a mounting groove 13 extending in the vertical direction is formed at a position, away from the pushing bar 902, on the top of the mounting bar 12, and the pushing block 901 slides up and down in the mounting groove 13 when sliding in a direction away from the entering space 8. The hole wall at the bottom of the connecting hole 7 is communicated with a through hole 701 (the through hole 701 is marked in fig. 1) penetrating out of the auxiliary keel 4, and the mounting bar 12 slides to penetrate through the through hole 701, so that the pushing block 901 can penetrate through the connecting hole 7.

Referring to fig. 4, the mounting bar 12 is provided with an elastic member, the elastic member is a power spring 21, the power spring 21 is installed in the mounting groove 13, the top of the power spring 21 abuts against the bottom of the pushing block 901, the bottom of the power spring 21 abuts against the bottom groove wall of the mounting groove 13, and when the mounting bar is used, the power spring 21 is elastically released to push the pushing block 901 to protrude out of the mounting groove 13. In order to limit the pushing block 901 to be separated from the installation groove 13, limiting blocks 9012 are fixedly connected to the side walls of the two opposite sides of the pushing block 901, limiting grooves 131 are communicated with the side walls of the two opposite sides of the installation groove 13, and the limiting blocks 9012 slide in the limiting grooves 131 up and down. The limiting block 9012 can be made of rubber, and the limiting block 9012 is extruded into the limiting groove 131 through extrusion during installation.

Referring to fig. 3 and 4, a sliding surface 9011 is obliquely formed on one side of the top of the pushing block 901, which is close to the access space 8, and when the ceiling 1 enters the sliding groove 6 (the sliding groove 6 is marked in fig. 2) and the connecting hole 7 from the access space 8, the ceiling 1 is firstly slid towards the side away from the access space 8 until the ceiling 1 is located in the next adjacent display space 5. In the sliding process, the ceiling plate 1 firstly slides on the sliding surface 9011, the pushing block 901 is pressed into the mounting groove 13, and when the pushing block 901 is located in the next adjacent display space 5, the power spring 21 pushes the pushing block 901 to return to the state before extrusion. At this time, the push bar 902 is slid, and the push block 901 abuts on the ceiling 1 on the side away from the sliding surface 9011 and pushes the ceiling 1 in the direction away from the entry space 8.

Referring to fig. 5 and 6, the main runner 3 is provided with a driving assembly 14 for driving the push bar 902 to slide back and forth along the length direction of the main runner 3. A driving groove 303 is formed in the main keel 3, and the driving groove 303 is communicated with the pushing groove 301. The position of pushing strip 902 far away from one side of display space 5 and far away from entering space 8 is hinged with transmission column 16, transmission column 16 is a long-strip square column structure, and transmission column 16 overturns and slides in driving groove 303. The end of the transmission column 16 far from the pushing bar 902 is provided with a transmission groove 17 extending along the length direction of the transmission column 16, the driving assembly 14 includes a driving rod 141 and a poking rod 142, and the driving rod 141 slides in the transmission groove 17. The rotating shaft 18 is fixedly connected to the driving groove 303 in a vertical state, the driving rod 141 is rotatably connected to the rotating shaft 18, and the connection position is located at an edge position of the driving rod 141 away from the transmission column 16. When in use, the driving rod 141 is pulled by taking the rotating shaft 18 as a center, the driving rod 902 is driven to slide through the transmission column 16, and the driving rod 141 slides in the transmission groove 17 when the driving rod 902 slides.

Referring to fig. 5 and 6, a toggle groove 302 extending along the length direction is formed in the main keel 3, the toggle groove 302 is communicated with the driving groove 303, and the toggle rod 142 slides in the toggle groove 302. The side of the toggle rod 142 away from the entering space 8 is hinged with a connecting sleeve 1421, the connecting sleeve 1421 is sleeved on the outer peripheral side of the driving rod 141 and away from the position of the driving column 16, and the toggle rod 142 is slid to drive the driving rod 141 to turn over when in use. The main keel 3 is provided with a toggle piece for toggling the toggle rod 142 to slide. The toggle part is a toggle column 19 (the toggle column 19 is labeled in fig. 2), and the toggle column 19 is clamped and fixed at the bottom of the toggle rod 142 and far away from the driving rod 141. The bottom wall of the toggle groove 302 is communicated with a toggle hole 191 penetrating out of the main keel 3, the toggle rod 142 extends along the length direction of the main keel 3, and the toggle column 19 slides in the toggle hole 191 (the toggle hole 191 is marked in fig. 2). When the toggle rod 142 is slid by the toggle column 19 toward the entering space 8, the driving rod 141 drives the transmission column 16 to slide the pushing bar 902 away from the entering space 8. In order to facilitate the installation of the parts, the main keel 3 may adopt a two-half structure, and when the installation of the parts in the main keel 3 is completed, the two-half main keel 3 is fixed by welding.

Referring to fig. 5 and 6, a pushing spring 20 is disposed in the main keel 3, the pushing spring 20 is installed in the toggle groove 302, one end of the pushing spring 20 abuts against one side of the toggle rod 142 close to the entrance space 8, and the other end abuts against one side wall of the toggle groove 302 close to the entrance space 8. When the poke rod 142 drives the pushing bar 902 to slide in the direction away from the entering space 8, the pushing spring 20 enters the contraction state, and when the poke rod 142 stops poking, the pushing spring 20 is elastically released to push the poke rod 142 in the direction away from the entering space 8, so that the poke rod 142 is conveniently returned to the state before sliding.

Referring to fig. 7 and 8, the cross member 4 is provided with a limiting assembly 15, when the tap lever 142 (the tap lever 142 is marked in fig. 6) slides towards the entering space 8, the limiting assembly 15 limits the ceiling 1, and reduces the possibility that the pushing block 901 (the pushing block 901 is marked in fig. 6) pushes the ceiling 1 towards the entering space 8. The limiting component 15 comprises a limiting ball 151 and a limiting spring 152, a rotating groove 25 is formed in the groove wall at the top of the connecting hole 7 in a communicating mode, and the limiting ball 151 slides in the rotating groove 25 up and down. The false keel 4 is provided with a snap ring 26, the snap ring 26 is clamped at a position of the rotating groove 25 close to the notch, and the inner diameter of the snap ring 26 is smaller than the diameter of the limiting ball 151, so that the limiting ball 151 can partially protrude out of the rotating groove 25 while the possibility that the limiting ball 151 is separated from the rotating groove 25 is reduced. The limiting spring 152 is installed in the rotation slot 25, the bottom of the limiting spring 152 abuts on the top of the limiting ball 151, and the top of the limiting spring 152 abuts on the top slot wall of the rotation slot 25. The top of the ceiling 1 is provided with a slot 102 corresponding to the limiting ball 151 one by one at a position close to the edge, when the ceiling 1 slides in the connecting hole 7, the ceiling 1 firstly extrudes the limiting ball 151 into the rotating slot 25, and when the limiting ball 151 is aligned with the slot 102, the limiting spring 152 elastically releases to push the limiting ball 151 to be clamped into the slot 102.

Referring to fig. 7 and 8, an accommodating groove 22 is formed in the hole wall at the bottom of the connecting hole 7 in a communicating manner, the auxiliary keel 4 is provided with a limiting block 23, the limiting block 23 slides up and down in the accommodating groove 22, and the length direction of the limiting block 23 is parallel to the length direction of the auxiliary keel 4. The top of the limiting block 23 is obliquely provided with a limiting surface 231 at a position close to the entering space 8, so that the top of the limiting block 23 is in a right-angle triangular block structure. The bottom of the ceiling 1 is obliquely provided with a guide surface 101 at a position opposite to the limiting surface 231, and when the ceiling is used, the guide surface 101 is connected with the limiting surface 231 in a sliding manner, so that the limiting block 23 can be inserted between two adjacent ceilings 1 in an upward sliding manner, and at this time, the limiting block 23 is matched with a pushing block 901 (the pushing block 901 is marked in fig. 6) to limit the position of the ceiling 1. The false keel 4 is provided with a supporting spring 24 installed in the accommodating groove 22, the top of the supporting spring 24 abuts against the bottom of the stopper 23, the bottom of the supporting spring 24 abuts against the bottom groove wall of the accommodating groove 22, the ceiling 1 slides on the stopper surface 231 when sliding in the connecting hole 7, the stopper 23 is pressed into the accommodating groove 22, and when the stopper surface 231 is aligned with the guide surface 101, the supporting spring 24 is elastically released to push the stopper 23 upward.

Referring to fig. 7 and 8, when the limiting ball 151 on the cross runner 4 far from the entering space 8 is clamped into the clamping groove 102 of the ceiling 1, the ceiling 1 far from the entering space 8 is installed, and at this time, the supporting spring 24 is released elastically to push the limiting block 23 upwards, so that the limiting block 23 pushes the ceiling 1 towards the entering space 8 until two sides of the ceiling 1 are abutted to the limiting block 23 and the pushing block 901 respectively. In order to facilitate the determination that the limiting ball 151 far away from the entering space 8 is clamped into the clamping groove 102, a positioning block 702 is fixedly connected to the hole wall at the bottom of the connecting hole 7 far away from the entering space 8, and when the ceiling plate 1 is abutted against the positioning block 702, the limiting ball 151 is clamped into the clamping groove 102. The framework body 2 is provided with a sealing component 11, after the ceiling 1 far away from one side of the entering space 8 is installed, the ceiling 1 is placed into the entering space 8 and then is blocked through the sealing component 11, and the installation work of the ceiling 1 arranged along the length direction of the main keel 3 is completed.

Referring to fig. 7, the sealing member 11 includes a sealing frame 111 and a fixing screw 112, after the ceiling 1 is placed in the entrance space 8, the top of the ceiling 1 abuts against the sliding groove 6 (the sliding groove 6 is marked in fig. 2) and the top sidewall of the connecting hole 7, and then the sealing frame 111 is installed such that the top of the sealing frame 111 abuts against the bottom of the ceiling 1, and the bottom of the sealing frame 111 is at the same plane as the bottom of the main runner 3. The fixing screw 112 is inserted from one side of the inner wall of the sealing frame 111 to the outside of the sealing frame 111 and is screwed into the furring channel 4, so as to fix the sealing frame 111.

The implementation principle of the ceiling structure is built in a room in the embodiment of the application is as follows:

when the ceiling 1 is installed, firstly, the ceiling 1 slides into the sliding groove 6 and the connecting hole 7 from the entering space 8 until the ceiling 1 enters the first display space 5 close to the entering space 8, then the toggle column 19 is toggled to drive the toggle rod 142 to slide, so that the driving rod 141 drives the pushing strip 902 to slide in the direction far from the entering space 8 through the transmission column 16, and at this time, the pushing block 901 pushes the ceiling 1 to slide in the direction of the limiting space 10. When the ceiling 1 slides to the next adjacent display space 5, the toggle column 19 is released, and the push spring 20 is released elastically, pushing the toggle rod 142 to slide toward the restricted space 10, so that the push block 901 slides to a position far away from the access space 8. The operation is repeated until the ceiling 1 abuts against the positioning block 702 and cannot slide, the limiting block 23 is inserted between two adjacent ceilings 1 close to the limiting space 10, and the position of the ceiling 1 is corrected and limited by the pushing block 901. Then, the ceiling 1 is corrected by the limiting block 23 in the direction close to the space 8 until the position of the ceiling 1 is adjusted, finally, the ceiling 1 is placed into the space 8 and fixed through the sealing frame 111, the ceiling 1 on the uniform straight line can be installed, then the ceiling 1 on other straight lines can be installed through the same steps, the installation position does not need to be moved frequently, and the installation complexity is reduced.

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 furred ceiling structure is built in room, includes ceiling (1) and skeleton body (2), skeleton body (2) are including main joist (3) and false keel (4), its characterized in that: the main keels (3) are arranged at a plurality of uniform intervals, the auxiliary keels (4) are arranged between two adjacent main keels (3) at a plurality of uniform intervals, display spaces (5) for displaying the ceiling (1) are formed between the main keels (3) and the auxiliary keels (4), sliding grooves (6) for allowing two sides of the ceiling (1) to slide are respectively formed in opposite sides of the two adjacent main keels (3), connecting holes (7) for allowing the ceiling (1) to pass through are formed in the auxiliary keels (4), an entering space (8) for allowing the ceiling (1) to enter the sliding grooves (6) and the connecting holes (7) is formed in the framework body (2), the entering space (8) is located on the same side and is close to one side wall body, the main keels (3) are provided with pushing assemblies (9) for pushing the ceiling (1) to slide to the next adjacent display space (5) towards the direction far away from the entering space (8), the framework body (2) is provided with a sealing component (11) which is used for sealing the entering space (8) after the ceiling (1) is placed in.

2. The suspended ceiling structure is built in room of claim 1, characterized in that: the pushing assembly (9) comprises a pushing block (901) and a pushing strip (902), the pushing strip (902) is provided with a plurality of installing strips (12) which respectively slide in the main keel (3), the showing space (5) far away from one side of the entering space (8) is a limiting space (10), one side of the pushing strip (902) close to the showing space (5) is provided with an installing strip (12) corresponding to the showing space (5) between the entering space (8) and the limiting space (10), the hole wall at the bottom of the connecting hole (7) is provided with a through hole (701) for the installing strip (12) to pass through, the installing strip (12) is provided with an installing groove (13) for the pushing block (901) to slide up and down, the installing strip (12) is provided with an elastic piece for pushing the pushing block (901) to protrude out of the installing groove (13), the main keel (3) is provided with a driving assembly (14) for driving the pushing strip (902) to slide back and forth along the length direction of the main keel (3), the top of the pushing block (901) is provided with a sliding surface (9011) close to one side of the entering space (8), the pushing strip (902) slides on the sliding surface (9011) when sliding towards the entering space (8), and the auxiliary keel (4) is provided with a limiting component (15) used for limiting the ceiling (1) to slide towards the entering space (8).

3. The suspended ceiling structure is built in room of claim 2, characterized in that: the driving assembly (14) comprises a driving rod (141) and a poke rod (142), one side of the pushing strip (902) back to the mounting strip (12) is hinged with a transmission column (16), one end of the transmission column (16) far away from the pushing bar (902) is provided with a transmission groove (17) for the driving rod (141) to slide along the length direction of the transmission column (16), a rotating shaft (18) is arranged in the main keel (3), the position of the driving rod (141) far away from the transmission column (16) is rotationally connected with the rotating shaft (18), the poke rod (142) slides in the main keel (3) along the length direction of the main keel (3), a connecting sleeve (1421) which is connected with the driving rod (141) in a sliding way at the side far away from the transmission column (16) is hinged to one side of the poke rod (142) far away from the entering space (8), the main keel (3) is provided with a poking piece for poking the driving rod (141) to slide.

4. The suspended ceiling structure is built in room of claim 3, characterized in that: the stirring piece is a stirring column (19), the stirring column (19) slides along the length direction of the main keel (3) and the bottom of the stirring column protrudes out of the main keel (3), and the top of the stirring column (19) is arranged on one side, far away from the driving rod (141), of the stirring rod (142).

5. The suspended ceiling structure is built in room of claim 4, characterized in that: and a pushing spring (20) which pushes the poke rod (142) towards the direction far away from the entering space (8) when the poke column (19) stops poking is arranged in the main keel (3).

6. The suspended ceiling structure is built in room of claim 2, characterized in that: the elastic piece is a power spring (21), the power spring (21) is installed in the installation groove (13), the top of the power spring (21) abuts against the bottom of the pushing block (901), and the bottom of the power spring (21) abuts against the groove wall of the bottom of the installation groove (13).

7. The suspended ceiling structure is built in room of claim 2, characterized in that: holding tank (22) have been seted up in connecting hole (7) bottom pore wall intercommunication, false keel (4) are provided with stopper (23) of sliding from top to bottom in holding tank (22), install in holding tank (22) and upwards promote stopper (23) and insert supporting spring (24) between adjacent ceiling (1), stopper (23) top is close to the position slope that gets into space (8) and has seted up spacing face (231), guide face (101) have been seted up in ceiling (1) bottom slope, guide face (101) slide with spacing face (231) and link to each other.

8. The suspended ceiling structure is built in room of claim 2, characterized in that: restriction subassembly (15) are including restriction ball (151) and restriction spring (152), a plurality of swivelling chute (25) have been seted up at connecting hole (7) top, slide about restriction ball (151) in swivelling chute (25), swivelling chute (25) notch position joint is provided with snap ring (26) that the internal diameter is less than restriction ball (151) diameter, install in swivelling chute (25) restriction spring (152), restriction spring (152) bottom butt is at restriction ball (151) top, restriction spring (152) bottom butt is on swivelling chute (25) top cell wall, draw-in groove (102) that supply restriction ball (151) card to go into are seted up at ceiling (1) top.

9. The suspended ceiling structure is built in room of claim 1, characterized in that: the sealing component (11) comprises a sealing frame (111) and a fixing screw (112), the top of the sealing frame (111) abuts against the bottom of the ceiling (1), and the fixing screw (112) penetrates through the inner peripheral side of the sealing frame (111) and is arranged on the fixed main keel (3).