CN213449115U - Large-area indoor deformation-preventing ceiling structure - Google Patents

Abstract

The utility model relates to a large tracts of land is indoor prevents furred ceiling structure that deforms, it includes a plurality of main joist and a plurality of false keel, the equal level setting of main joist and false keel, there is the interval setting adjacent main joist and adjacent false keel all, the false keel is located the main joist top, there is the angle in the horizontal projection of false keel and main joist, the vertical dead lever that is used for with false keel and roof fixed connection that is provided with of false keel top surface, be provided with between main joist and the dead lever and be used for strengthening the main joist and hang fixed suspension mechanism, suspension mechanism one end is fixed at the main joist top that is located between the adjacent false keel. This application has the effect that the main joist part tenesmus of prevention between being located adjacent false keel warp.

Description

Large-area indoor deformation-preventing ceiling structure

Technical Field

The utility model relates to an indoor furred ceiling's field especially relates to a large tracts of land is indoor prevents furred ceiling structure that deforms.

Background

At present, the indoor decoration is a multi-purpose suspended ceiling, and the suspended ceiling refers to decoration for decorating the top of the residential environment of a house. In short, it refers to the decoration of ceiling, which is one of the important parts of interior decoration.

The related art furred ceiling adopts a plurality of main joist and a plurality of false keel to form the large tracts of land furred ceiling, and the main joist is located the false keel below, and undertakes the decorative action, and the false keel is located the main joist top and fixes with the main joist, and false keel top and roof adopt steel wire line fixed connection, and false keel length direction perpendicular to main joist length direction, adjacent main joist and the equal equidistance of adjacent false keel distribute to form latticed, be used for the decoration on roof in the room.

In view of the above-mentioned related technologies, the inventor believes that there is a main keel portion located between adjacent cross keels, the fixing point is only the joint with the cross keel, and the portion located between the adjacent joints is influenced by gravity for a long time, and is driven by the falling deformation, resulting in the defect of reducing the decorative aesthetic property.

SUMMERY OF THE UTILITY MODEL

In order to improve the main joist part that is located between the adjacent false keel, the defect that the tenesmus warp, this application provides a large tracts of land is indoor prevents deformation furred ceiling structure.

The application provides a pair of large tracts of land is indoor prevents that deformation furred ceiling structure adopts following technical scheme:

the utility model provides a large tracts of land is indoor prevents furred ceiling structure that deforms, including a plurality of main joist and a plurality of false keel, the equal level setting of main joist and false keel, adjacent main joist and adjacent false keel all have the interval setting, the false keel is located the main joist top, the horizontal projection of false keel and main joist has the angle, the vertical dead lever that is used for with false keel and roof fixed connection that is provided with of false keel top surface, be provided with between main joist and the dead lever and be used for strengthening the main joist and hang fixed mechanism that hangs, hang mechanism one end and fix the main joist top that is located between the adjacent false keel.

Through adopting above-mentioned technical scheme, the whole frame of furred ceiling is constituteed to main joist and false keel, the false keel plays the effect of bearing the weight of main joist, the false keel passes through the dead lever and connects main joist and roof fixed, the main joist that suspension mechanism will be located adjacent false keel mid portion forms with the dead lever to be connected, make the main joist that is located adjacent false keel mid portion resist by suspension mechanism owing to the tenesmus that the dead weight produced, reach the effect that the main joist part tenesmus that the prevention is located between the adjacent false keel warp.

Preferably, the suspension mechanism comprises a fixing component, a connecting component and a distance adjusting component, the fixing component comprises a screw rod and a screw cap, the screw rod is vertically arranged, the screw cap is horizontally fixed at the top of the screw rod, the bottom of the screw rod is in threaded connection with the top of the main keel, and a through hole is formed in the screw rod; the distance adjusting assembly comprises a fixed cylinder, a rotating cylinder and a fixed plate, the fixed cylinder is sleeved on the circumferential outer wall of the fixed rod in a ring mode, threads are formed in the outer portion of the fixed cylinder, the rotating cylinder is sleeved on the outer wall of the fixed cylinder in a ring mode and is in threaded connection with the fixed cylinder, the fixed plate is sleeved on the outer wall of the rotating cylinder in a ring mode, the fixed plate is arranged in a rotating mode relative to the rotating cylinder, and a plurality of fixing holes are formed; the connecting assembly comprises two thin steel wires and two hooks, the two ends of each thin steel wire are fixedly connected with the corresponding hooks respectively, one hook is hung on the through hole, and the other hook is hung on the fixing hole.

Through adopting above-mentioned technical scheme, the thin steel wire is used for connecting fixed subassembly and roll adjustment subassembly, the couple with thin steel wire one end is through the through hole hook on the screw rod, the couple with the thin steel wire other end passes through the fixed orifices hook on the stationary blade, through rotating the screw rod, the effect that makes the screw rod be connected with the main joist is more fastened, the winding of thin steel wire is on the screw rod simultaneously, the nut supports the thin steel wire that twines on the screw rod and presses, reach the effect that shortens the overall length of thin steel wire, rotate and rotate the section of thick bamboo, make and rotate the displacement that the section of thick bamboo carries out vertical direction on fixed section of thick bamboo, thereby reach and adjust the effect that the thin steel wire tightened degree, make the thin steel wire tighten reach and articulate fixed effect to the main joist, reach the effect that the main joist part.

Preferably, the horizontal ring of stationary blade overlaps on a fixed section of thick bamboo circumference outer wall, is provided with the bearing between stationary blade and the fixed section of thick bamboo, and the rotation of stationary blade use the vertical center pin of fixed section of thick bamboo as the axis of rotation.

Through adopting above-mentioned technical scheme, when setting up the messenger of bearing rotated a section of thick bamboo and rotate, the stationary blade holding position was unchangeable, guaranteed that thin steel wire does not twine on rotating a section of thick bamboo circumference outer wall, is convenient for rotate a regulation of section of thick bamboo vertical position.

Preferably, the nut is fixedly provided with a guide block, the guide block is vertically arranged, the top end of the guide block is fixedly connected with the bottom surface of the nut, the guide block is positioned close to the edge of the nut, the bottom end of the guide block is provided with a guide groove, and the thin steel wire is positioned in the guide groove.

Through adopting above-mentioned technical scheme, the setting of guide block and guide way reduces the hindrance conflict of thin steel wire and nut, and thin steel wire is guided by the guide way when the nut rotates, makes thin steel wire change the winding on the screw rod, reaches the effect of adjusting the whole length of thin steel wire.

Preferably, the guide groove is arranged obliquely upward in a direction away from the screw.

Through adopting above-mentioned technical scheme, the ascending mode that sets up of guide way slope reaches to comply with thin steel wire slope trend, and is more smooth and easy when guiding thin steel wire, and the broken line formula of thin steel wire is buckled when reducing the guide to thin steel wire.

Preferably, a nut is arranged on the fixed cylinder and is in threaded connection with the fixed cylinder, and the nut is located below the rotating cylinder.

Through adopting above-mentioned technical scheme, the setting of nut plays limiting displacement to a rotating cylinder, receives pulling of thin steel wire and takes place to rotate after avoiding rotating a section of thick bamboo adjustment position, and the stability after the fixed of a rotating cylinder that the nut is strengthened.

Preferably, a plurality of limiting holes are formed in the top of the main keel, the adjacent limiting holes are distributed in a surrounding mode by taking the joint of the screw and the top of the main keel as a circle center, limiting pins are arranged on the nuts in an inserting and embedding mode, and the limiting pins penetrate through the nuts and are fixedly inserted into any limiting holes.

Through adopting above-mentioned technical scheme, the nut rotates the back, makes thin steel wire overall length shorten, reaches the effect that thin steel wire tightened, and the spacer pin runs through the nut and inlays fixedly with arbitrary spacing hole plug, guarantees that the nut can't take place the gyration after receiving thin steel wire tensioning force, reaches the stable fixed effect of nut and screw rod.

Preferably, the wall of the limiting hole is fixedly provided with an embedding pad, and the embedding pad and the limiting pin are embedded into the circumferential outer wall of the end part of the limiting hole in a tight and embedded mode.

Through adopting above-mentioned technical scheme, the setting of support inlay the pad has increased the spacer pin and has inserted the compactness of inlaying behind spacing hole, receives vibrations back when the main joist, reduces the phenomenon of spacer pin vibrations in spacing downthehole, reaches the stable effect of inlaying of inserting of spacer pin.

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

1. the fixing component has a fixing effect on one end of the thin steel wire positioned on the main keel, and simultaneously, the total length of the thin steel wire can be adjusted, so that the connecting component can be conveniently tensioned integrally, and the effect of preventing the main keel positioned between the adjacent auxiliary keels from falling and deforming is achieved;

2. the distance adjusting assembly fixes one end of the thin steel wire, which is positioned on the fixed rod, and simultaneously achieves the effect of adjusting the tightening degree of the thin steel wire, so that the connecting assembly is convenient to be integrally tightened, and the effect of preventing the main keel part positioned between the adjacent auxiliary keels from falling and deforming is achieved;

3. the setting of nut plays further fixed spacing effect to the roll adjustment subassembly, avoids the roll adjustment subassembly not hard up.

Drawings

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

FIG. 2 is a schematic view of a portion of a pitch adjusting assembly according to an embodiment of the present disclosure;

FIG. 3 is an exploded view of a portion of the structure at the mounting assembly in an embodiment of the present application;

FIG. 4 is a schematic view showing a part of the structure of the guide groove.

Description of reference numerals: 1. a main keel; 2. a false keel; 3. fixing the rod; 4. a suspension mechanism; 41. a fixing assembly; 411. a screw; 4111. a through hole; 412. a nut; 4121. a through hole; 42. a connecting assembly; 421. thin steel wires; 422. hooking; 43. a distance adjusting component; 431. a fixed cylinder; 432. a rotating cylinder; 433. a fixing sheet; 4331. a fixing hole; 5. a bearing; 6. a guide block; 61. a guide groove; 7. a nut; 8. a spacing pin; 81. a limiting hole; 811. the cushion is pressed and embedded.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a large tracts of land is indoor prevents furred ceiling structure that deforms.

Referring to fig. 1, a large-area indoor anti-deformation ceiling structure comprises a plurality of main keels 1 and auxiliary keels 2, wherein the main keels 1 and the auxiliary keels 2 are rectangular and long-strip-shaped, the main keels 1 and the auxiliary keels 2 are horizontally arranged, the auxiliary keels 2 are arranged above the main keels 1, the adjacent main keels 1 are arranged at equal intervals, the adjacent auxiliary keels 2 are arranged at equal intervals, the horizontal projections of the main keels 1 and the auxiliary keels 2 are mutually vertical and are in a grid shape, the intersections of the auxiliary keels 2 and the main keels 1 are mutually fixedly connected, fixing rods 3 are fixedly arranged between the tops of the auxiliary keels 2 and a roof, the fixing rods 3 are vertically arranged, the tops of the fixing rods 3 are fixedly connected with the roof through anchor bolts, the bottoms of the fixing rods 3 are arranged at the intersections of the main keels 1 and the tops of the auxiliary keels, the other end is located the middle part of the part between the adjacent false keel 2 of main joist 1, hangs mechanism 4 and is used for forming with the dead lever 3 with the part of main joist 1 between the adjacent false keel 2 and hangs and be connected, makes dead lever 3 bear partial dead weight of main joist 1, reaches the effect that the main joist 1 part tenesmus of prevention position between the adjacent false keel 2 warp.

Referring to fig. 1 and 2, the suspension mechanism 4 includes a fixing assembly 41, a connecting assembly 42 and a distance adjusting assembly 43, the distance adjusting assembly 43 includes a fixing cylinder 431, a rotating cylinder 432 and a fixing plate 433, the fixing cylinder 431 and the rotating cylinder 432 are both cylindrical, the fixing cylinder 431 and the rotating cylinder 432 are both vertically arranged, the fixing cylinder 431 is sleeved on the outer wall of the middle part of the fixing rod 3, the fixing cylinder 431 is fixedly connected with the fixing rod 3, the outer wall of the fixing cylinder 431 is provided with a thread, the rotating cylinder 432 is sleeved on the outer wall of the circumference of the fixing cylinder 431, the rotating cylinder 432 is in threaded connection with the fixing cylinder 431, the vertical height of the rotating cylinder 432 is smaller than that of the fixing cylinder 431, the fixing plate 433 is horizontally arranged, the fixing plate 433 is annular, the fixing plate 433 is sleeved on the outer wall of the circumference of the rotating cylinder 432, a bearing 5 is arranged between the fixing plate 433 and the rotating cylinder 432, the, when the rotating cylinder 432 rotates, the fixing piece 433 is kept stably placed relative to the rotating cylinder 432 and does not rotate along with the rotation of the rotating cylinder 432; the fixing plate 433 is provided with a plurality of fixing holes 4331, and the fixing holes 4331 are vertically provided through the fixing plate 433.

Referring to fig. 1 and 3, the fixing component 41 includes a screw 411 and a nut 412, the nut 412 is rectangular, the screw 411 is vertically disposed, the bottom of the screw 411 is in threaded connection with the top of the main keel 1, the joint of the screw 411 and the main keel 1 is located in the middle of the part of the main keel 1 between the adjacent auxiliary keels 2, the nut 412 is horizontally disposed, the top of the screw 411 is fixedly connected with the middle of the bottom surface of the nut 412, a through hole 4111 is formed in the screw 411, in the embodiment of the present application, two through holes 4111 are formed in each screw 411, and the adjacent through holes 4111 located on the same screw 411 are distributed along the length direction of the; a plurality of spacing holes 81 have been seted up at main joist 1 top, spacing hole 81 uses the vertical central line of screw rod 411 as the center pin, be the annular at main joist 1 top and distribute, be provided with spacer pin 8 on nut 412, the vertical setting of spacer pin 8, through-hole 4121 has been seted up on nut 412, thereby spacer pin 8 passes through-hole 4121 and runs through nut 412 and inserts to inlay with arbitrary spacing hole 81 and be connected, wherein fix on the vertical pore wall of spacing hole 81 and be provided with to inlay the pad 811, it adopts the support that the rubber pad was made to inlay the pad 811 and inlays the pad 811 to support, it has strengthened the stability after spacing pin 8 and spacing hole 81 are inserted and are inlayed to inlay the pad 811, the phenomenon that causes spacer pin 8 to drop because.

Referring to fig. 2 and 3, the connection assembly 42 includes two thin steel wires 421 and two hooks 422, two ends of each of the two hooks 422 are respectively and fixedly connected to the corresponding hook 422, the hook 422 at one end of each of the thin steel wires 421 passes through a fixing hole 4331 to be connected to the fixing plate 433, and the hook 422 at the other end of each of the thin steel wires 421 passes through a through hole 4111 to be fixedly connected to the screw 411; the nut 7 is sleeved on the circumferential outer wall of the fixed cylinder 431, the nut 7 is located below the rotating cylinder 432, the nut 7 is in threaded connection with the fixed cylinder 431, the nut 7 is arranged to limit the vertical movement of the rotating cylinder 432, namely, the rotating cylinder 432 rotates to a proper position, the top of the nut 7 is rotated to the degree of abutting against the bottom of the rotating cylinder 432, the rotating cylinder 432 is forced to rotate by the tensioning of the thin steel wire 421, the nut 7 is arranged to limit the downward movement of the rotating cylinder 432, and the stable arrangement of the rotating cylinder 432 is guaranteed.

Referring to fig. 3 and 4, a nut 412 is fixedly provided with two guide blocks 6, the guide blocks 6 are provided in a rectangular strip shape, the guide blocks 6 are vertically arranged, the top ends of the guide blocks 6 are fixedly connected with the bottom of the nut 412, the guide blocks 6 are positioned near the end of the nut 412, the side walls of the guide blocks 6 near the end of the nut 412 are coplanar with the side walls of the end of the nut 412, the bottom of the guide blocks 6 are provided with guide grooves 61, the guide grooves 61 are obliquely arranged, the oblique direction of the guide grooves 61 is obliquely upwards arranged along the direction away from the screw 411, the thin steel wires 421 are positioned in the guide grooves 61, in the application embodiment, the adjacent guide blocks 6 are provided with through holes 4111 distributed vertically, so that the vertical lengths of the adjacent guide blocks 6 are different, the guide blocks 6 and the guide grooves 61 are arranged, when the nut 412 is rotated, the thin steel wires 421 are wound on the circumferential outer walls of the screw 411, and, the mutual obstruction of the thin steel wire 421 and the nut 412 is reduced, so that the thin steel wire 421 can be wound on the screw 411 more smoothly, and the effect of adjusting the overall length of the thin steel wire 421 is achieved.

The implementation principle of the large-area indoor deformation-preventing ceiling structure of the embodiment of the application is as follows: the hook 422 at one end of the thin steel wire 421 is hooked on the screw 411 through the through hole 4111, the hook 422 at the other end of the thin steel wire 421 is hooked on the fixing piece 433 through the fixing hole 4331, the thin steel wire 421 is guided by the guide groove 61 and then wound on the screw 411 by rotating the nut 412, and then the nut 412 tightly presses the thin steel wire 421 wound on the screw 411 against the top surface of the main keel 1 through threads, so as to achieve the effect of primarily shortening the total length of the thin steel wire 421; the rotating cylinder 432 is rotated to enable the rotating cylinder 432 to move vertically upwards on the fixed cylinder 431, so that the effect of adjusting the tightening degree of the thin steel wire 421 is achieved, the nut 7 is rotated to tightly support the top of the nut 7 and the bottom of the rotating cylinder 432, the rotating cylinder 432 is limited, the tightened thin steel wire 421 achieves the effect of fixedly hanging the main keel 1, and finally the effect of preventing the part of the main keel 1 between the adjacent auxiliary keels 2 from falling and deforming is achieved.

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 (8)

1. The utility model provides an indoor furred ceiling structure of preventing deforming of large tracts of land which characterized in that: including a plurality of main joist (1) and a plurality of false keel (2), main joist (1) and the equal level setting of false keel (2), adjacent main joist (1) and adjacent false keel (2) all have the interval setting, false keel (2) are located main joist (1) top, the horizontal projection of false keel (2) and main joist (1) has the angle, the vertical dead lever (3) that is used for with false keel (2) and roof fixed connection that is provided with of false keel (2) top surface, be provided with between main joist (1) and dead lever (3) and be used for strengthening main joist (1) and hang fixed suspension mechanism (4), suspension mechanism (4) one end is fixed at main joist (1) top that is located between adjacent false keel (2).

2. The large-area indoor deformation-preventing ceiling structure as claimed in claim 1, wherein: the suspension mechanism (4) comprises a fixing component (41), a connecting component (42) and a distance adjusting component (43), the fixing component (41) comprises a screw rod (411) and a screw cap (412), the screw rod (411) is vertically arranged, the screw cap (412) is horizontally fixed to the top of the screw rod (411), the bottom of the screw rod (411) is in threaded connection with the top of the main keel (1), and a through hole (4111) is formed in the screw rod (411); the distance adjusting assembly (43) comprises a fixed barrel (431), a rotating barrel (432) and a fixing piece (433), the fixed barrel (431) is sleeved on the circumferential outer wall of the fixed rod (3) in a sleeved mode, threads are formed in the outer portion of the fixed barrel (431), the rotating barrel (432) is sleeved on the outer wall of the fixed barrel (431) in a sleeved mode and is in threaded connection with the fixed barrel (431), the fixing piece (433) is sleeved on the outer wall of the rotating barrel (432) in a sleeved mode, the fixing piece (433) is arranged in a rotating mode relative to the rotating barrel (432), and a plurality of fixing holes (4331) are formed in the fixing piece (433); the connecting assembly (42) comprises two thin steel wires (421) and two hooks (422), two ends of each thin steel wire (421) are fixedly connected with the corresponding hook (422), one hook (422) is hooked on the through hole (4111), and the other hook (422) is hooked on the fixing hole (4331).

3. The large-area indoor deformation-preventing ceiling structure as claimed in claim 2, wherein: the fixing piece (433) is horizontally sleeved on the circumferential outer wall of the fixed barrel (431), a bearing (5) is arranged between the fixing piece (433) and the fixed barrel (431), and the fixing piece (433) rotates by taking the vertical central shaft of the fixed barrel (431) as a rotating shaft.

4. The large-area indoor deformation-preventing ceiling structure as claimed in claim 2, wherein: the nut (412) is fixedly provided with a guide block (6), the guide block (6) is vertically arranged, the top end of the guide block (6) is fixedly connected with the bottom surface of the nut (412), the guide block (6) is located close to the edge of the nut (412), a guide groove (61) is formed in the bottom end of the guide block (6), and the thin steel wire (421) is located in the guide groove (61).

5. The large-area indoor deformation-preventing ceiling structure as claimed in claim 4, wherein: the guide groove (61) is arranged obliquely upwards along the direction away from the screw rod (411).

6. The large-area indoor deformation-preventing ceiling structure as claimed in claim 2, wherein: the fixed cylinder (431) is provided with a nut (7), the nut (7) is in threaded connection with the fixed cylinder (431), and the nut (7) is located below the rotating cylinder (432).

7. The large-area indoor deformation-preventing ceiling structure as claimed in claim 2, wherein: a plurality of spacing holes (81) have been seted up at main joist (1) top, and adjacent spacing hole (81) use screw rod (411) and main joist (1) top junction to encircle the distribution as the centre of a circle, insert on nut (412) to inlay and be provided with spacer pin (8), and spacer pin (8) run through nut (412) and insert with arbitrary spacing hole (81) and inlay fixedly.

8. The large-area indoor deformation-preventing ceiling structure as claimed in claim 7, wherein: the hole wall of the limiting hole (81) is fixedly provided with an embedding supporting pad (811), and the embedding supporting pad (811) and the limiting pin (8) are embedded in a mode of penetrating into the circumferential outer wall of the end part of the limiting hole (81) in a tight and abutting mode.

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