CN111005492A

CN111005492A - Suspended ceiling structure

Info

Publication number: CN111005492A
Application number: CN201911410983.5A
Authority: CN
Inventors: 蔡凌雲; 沈正华; 殷正超
Original assignee: Fsilon Household Building Material Co ltd
Current assignee: Fsilon Household Building Material Co ltd
Priority date: 2019-12-31
Filing date: 2019-12-31
Publication date: 2020-04-14

Abstract

The invention provides a suspended ceiling structure, and belongs to the technical field of decoration and building materials. It has solved the inconvenient and easy problem that ages and drop of current furred ceiling installation. The suspended ceiling structure comprises a keel piece I, a keel piece II and a connecting clamping plate, wherein the keel piece II is clamped with the keel piece I, the connecting clamping plate is clamped with the keel piece II through a plurality of groups of spring positioning components, and the spring positioning components are sequentially arranged at intervals along the length direction of the keel piece II. It passes through spring locating component joint between connection cardboard and keel spare two, by line contact card income mode change in the past into point contact card income mode, pegs graft more laborsavingly, is difficult for ageing and drops simultaneously.

Description

Suspended ceiling structure

Technical Field

The invention belongs to the technical field of decoration and building materials, and relates to a suspended ceiling structure.

Background

The suspended ceiling is the top decoration of the indoor ceiling of a house, the suspended ceiling in the prior art is quite wide in use, the suspended ceiling is installed at the top of a room at present, a panel is generally fixed through a triangular keel, the panel is clamped into a gap of the triangular keel through a connecting clamping plate, the bayonet of the connecting clamping plate is pressed through the gap to realize fixation, when the suspended ceiling is installed for too long time or is installed in poor conditions such as a kitchen, a toilet and the like, the triangular keel is likely to have aging phenomenon, the clamping force on the connecting clamping plate is reduced to a certain degree, the panel drives the connecting clamping plate to fall off under the action of self gravity, and potential safety hazards exist; meanwhile, the connecting clamping plate and the triangular keel are clamped in a line contact mode, so that the clamping is relatively difficult.

Disclosure of Invention

The invention aims to provide a suspended ceiling structure aiming at the problems in the prior art, and the suspended ceiling structure aims to solve the technical problem of how to enable the suspended ceiling to be mounted more conveniently and quickly.

The purpose of the invention can be realized by the following technical scheme: the utility model provides a ceiling structure, its characterized in that includes keel spare one, keel spare two and connects the cardboard, keel spare two and keel spare one looks joint, connect the cardboard through a plurality of groups spring locating component and keel spare two looks joints, each spring locating component sets up along the length direction of keel spare two at intervals in proper order.

In foretell furred ceiling structure, fossil fragments spare two includes fossil fragments main part, locating plate and location strip, the fossil fragments main part transversely sets up, locating plate and location strip are all connected on the bottom surface of fossil fragments main part, the vertical setting of locating plate, the location strip is located the lateral part of locating plate, and forms between location strip and the locating plate and be used for the notch that links to each other with the connection cardboard, the location strip has the holding chamber that has a plurality of interval setting in proper order and be used for setting up spring locating component, it has the card strip with above-mentioned spring locating component and locating plate looks adaptation to connect the cardboard, the top of card strip has towards the convex joint piece in location strip one side.

In foretell furred ceiling structure, the spring locating component includes spring, column bulb and screw cap, the holding chamber transversely sets up, the screw cap screw thread connects soon in the holding chamber and keeps away from the outer end of locating plate, the spring transversely sets up at the holding intracavity, and the rear end of spring supports and leans on the screw cap, the inner in nearly holding chamber on the holding chamber has by keeping off along the flexible mouth that one formed, the column rear end of column bulb supports and leans on the front end at the spring, and the bulb portion of column bulb can stretch out by flexible mouthful, the column rear end of column bulb has the fender edge two that avoids the column bulb to deviate from.

In foretell furred ceiling structure, the connection cardboard still includes horizontal layering and erects the layering, horizontal layering transversely sets up, the card strip is connected on the top surface of horizontal layering, and the top of card strip has the convex joint piece towards location strip one side, erect the vertical setting of layering, and erect the layering and connect perpendicularly on the inner top surface of horizontal layering, when card strip joint between locating plate and spring locating component, erect the layering and be located the below of locating plate.

In the suspended ceiling structure, the bottom surface of the clamping block is an arc surface matched with the shape of the ball head of the columnar ball head, and when the clamping strip is clamped between the positioning plate and the spring positioning component, the top surface of the transverse pressing strip is abutted against the bottom surface of the positioning strip.

In foretell furred ceiling structure, the both sides of locating plate respectively are provided with a location strip, and the holding chamber that is located on two location strips sets up in pairs one by one, and when two connect the cardboard respectively the joint on fossil fragments main part, the internal face of two perpendicular layering is supported and is leaned on.

In the ceiling structure, the distance between the inner wall surface of the clamping strip and the inner wall surface of the vertical pressing strip is larger than half of the thickness of the positioning plate.

In the suspended ceiling structure, the bottom end of the vertical pressing strip is provided with a positioning edge protruding outwards, and a mounting groove for accommodating the decorative plate is formed between the positioning edge and the transverse pressing strip.

In the suspended ceiling structure, the outer end of the transverse pressing strip is provided with a downward concave groove, and when the connecting clamping plate is clamped on the keel main body, a gap is formed between the groove bottom of the groove and the bottom surface of the positioning strip. The bottom surface of the positioning strip is lower than the bottom surface of the first keel piece, and the outer end of the transverse and vertical strip is located below the first keel piece and has a gap with the first keel piece.

In foretell furred ceiling structure, the furred ceiling structure still includes the lifting hook, the below of lifting hook is provided with the fossil fragments draw-in groove, the left side and the right side of fossil fragments draw-in groove are provided with left branch brace groove and right branch brace groove respectively, a fossil fragments joint is in the fossil fragments draw-in groove, a board is gone into including the wedging of the setting of symmetry and slope in opposite directions to fossil fragments piece one, the wedging board has the bayonet socket groove, the top both sides of fossil fragments main part respectively have with the joint portion of above-mentioned bayonet socket groove looks adaptation.

Compared with the prior art, the invention has the following advantages:

1. the connecting clamping plate and the second keel piece are clamped through the spring positioning assembly, the conventional line contact clamping mode is changed into a point contact clamping mode, and the insertion is more labor-saving;

2. the invention adopts the spring to carry out limiting clamping, can effectively avoid clamping loosening caused by aging of the keel piece, and has long service life and good safety;

3. when the decoration panel of the suspended ceiling, particularly the aluminum honeycomb panel is installed, the connecting clamping plate for installing the aluminum honeycomb panel can be finely adjusted left and right under the action of the two groups of spring positioning assemblies, so that the decoration panel is more convenient to install.

Drawings

Fig. 1 is a schematic structural view of the present invention.

FIG. 2 is a schematic view of the structure of the hook of the present invention.

Fig. 3 is a schematic view of the connection structure of the keel member two and keel member one according to the invention.

Fig. 4 is a schematic view of the connection structure of the spring positioning assembly and the second keel member in the invention.

FIG. 5 is a schematic view of the structure of the connection card of the present invention.

Figure 6 is a diagram of a first connection step of the connecting clip plate and the second keel member of the invention.

Figure 7 is a second step of the present invention connecting the clip with the second keel member.

Figure 8 is a third step of the present invention connecting the clip with the second keel member.

FIG. 9 is a fourth step of the present invention for connecting the clamping plate to the second keel.

FIG. 10 is a fifth step of the present invention for connecting the clamping plate to the second keel.

Figure 11 is a sixth step of the present invention for connecting the locking plate to the second keel member.

Figure 12 is a seventh step of the present invention for connecting the locking plate to the second keel member.

FIG. 13 is a drawing showing an eighth connection step of the connecting clip plate and the second keel member of the invention

In the drawings, 1, a keel piece I; 11. wedging a plate; 12. a bayonet slot; 2. a keel piece II; 21. a keel body; 211. a clamping part; 22. positioning a plate; 23. a positioning bar; 231. an accommodating cavity; 232. a first blocking edge; 233. a flexible opening; 3. connecting a clamping plate; 31. clamping the strip; 32. a clamping block; 33. transverse layering; 34. vertically layering; 35. a groove; 36. a positioning edge; 37. mounting grooves; 4. a spring positioning assembly; 41. a spring; 42. a columnar ball head; 43. a threaded cap; 5. a hook; 51. a keel clamping groove; 52. a left support groove; 53. and a right support groove.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

Referring to fig. 1-5, this embodiment is a furred ceiling structure, including lifting hook 5, keel spare one 1, keel spare two 2 and connection cardboard 3, lifting hook 5 links firmly on the wall top, keel spare one 1, keel spare two 2 is rectangular form section bar with connecting cardboard 3, keel spare 1 and lifting hook 5 looks joint, keel spare two 2 and keel spare one 1 looks joint, connect cardboard 3 through a plurality of groups spring locating component 4 and keel spare two 2 looks joints, each spring locating component 4 sets up along keel spare two 2's length direction interval in proper order. Specifically, a keel clamping groove 51 is arranged below the lifting hook 5, a left supporting groove 52 and a right supporting groove 53 are respectively arranged on the left side and the right side of the keel clamping groove 51, a keel piece 1 is clamped in the keel clamping groove 51, the keel piece 1 comprises symmetrical wedging plates 11 which are arranged in an opposite inclined mode, the wedging plates 11 are provided with bayonet grooves 12, and clamping portions 211 matched with the bayonet grooves 12 are respectively arranged on two sides of the top of the keel main body 21.

Further, the second keel piece 2 comprises a keel main body 21, a positioning plate 22 and a positioning strip 23, the keel main body 21 is transversely arranged, the positioning plate 22 and the positioning strip 23 are both connected to the bottom surface of the keel main body 21, the positioning plate 22 is vertically arranged, the positioning strip 23 is positioned on the side portion of the positioning plate 22, a notch for connecting the connecting clamping plate 3 is formed between the positioning strip 23 and the positioning plate 22, the positioning strip 23 is provided with a plurality of accommodating cavities 231 which are sequentially arranged at intervals and are used for arranging the spring positioning assemblies 4, the connecting clamping plate 3 is provided with clamping strips 31 matched with the spring positioning assemblies 4 and the positioning plate 22, the top ends of the clamping strips 31 are provided with clamping blocks 32 protruding towards one side of the positioning strip 23,

further, the spring positioning component 4 includes a spring 41, a cylindrical ball 42 and a screw cap 43, the accommodating cavity 231 is transversely arranged, the screw cap 43 is screwed to the outer end of the accommodating cavity 231 far away from the positioning plate 22, the spring 41 is transversely arranged in the accommodating cavity 231, the rear end of the spring 41 abuts against the screw cap 43, the inner end of the accommodating cavity 231 near the accommodating cavity 231 is provided with a telescopic opening 233 formed by a first blocking edge 232, the cylindrical rear end of the cylindrical ball 42 abuts against the front end of the spring 41, the ball head of the cylindrical ball 42 can extend out from the telescopic opening 233, the cylindrical rear end of the cylindrical ball 42 is provided with a second blocking edge for preventing the cylindrical ball 42 from falling off, and the elastic force of the spring 41 can be adjusted by adjusting the screwing depth of the screw cap 43 and the accommodating cavity 231, so that the adjustment and control of the force required by the clamping of the connecting clamping plate 3 and the keel piece 2 are realized.

Further, the connecting clamping plate 3 further comprises a transverse pressing strip 33 and a vertical pressing strip 34, the transverse pressing strip 33 is transversely arranged, the clamping strip 31 is connected to the top surface of the transverse pressing strip 33, the vertical pressing strip 34 is vertically arranged, the vertical pressing strip 34 is vertically connected to the top surface of the inner end of the transverse pressing strip 33, and when the clamping strip 31 is clamped between the positioning plate 22 and the spring positioning component 4, the vertical pressing strip 34 is positioned below the positioning plate 22.

Further, the bottom surface of the clamping block 32 is an arc surface matched with the shape of the ball head of the columnar ball 42, and when the clamping strip 31 is clamped between the positioning plate 22 and the spring positioning component 4, the top surface of the transverse pressing strip 33 abuts against the bottom surface of the positioning strip 23.

Furthermore, the two sides of the positioning plate 22 are respectively provided with a positioning strip 23, the spring positioning components 4 arranged on the two positioning strips 23 are in one-to-one correspondence and are arranged in pairs, and when the two connecting clamping plates 3 are respectively clamped on the second keel member 2, the inner wall surfaces of the two vertical pressing strips 34 are abutted.

Further, the distance between the inner wall surface of the clamping strip 31 and the inner wall surface of the vertical pressing strip 34 is larger than half of the thickness of the positioning plate 22.

Further, the bottom end of the vertical pressing strip 34 is provided with a positioning edge 36 protruding outwards, a mounting groove 37 for accommodating the decorative plate is formed between the positioning edge 36 and the transverse pressing strip 33, and the mounting groove 37 is used for mounting the aluminum honeycomb panel.

Furthermore, the outer end of the transverse pressing bar 33 is provided with a concave groove 35, and when the connecting clamping plate 3 is clamped on the second keel member 2, a gap is formed between the groove bottom of the groove 35 and the bottom surface of the positioning bar 23. The bottom surface of location strip 23 is less than the bottom surface of keel spare 1, and the outer end of horizontal vertical bar is located keel spare 1 the below and with keel spare 1 between have the clearance, can drive the outer end of horizontal layering 33 upwards to warp when carrying out the installation of aluminum honeycomb panel, and it is more convenient to install.

When the positioning plate is used, one connecting clamping plate 3 can be connected to one side of the positioning plate 22, and one connecting clamping plate 3 can be connected to two sides of the positioning plate 22. In this embodiment, the two sides of the positioning plate 22 are respectively connected with one connecting clamping plate 3, and the installation process is as follows:

s1, firstly, fixing the lifting hook 5 on the wall nail; then clamping the keel piece I1 into the keel clamping groove 51 of the lifting hook 5, and clamping the keel piece II 2 into the keel piece 1;

s2, a single connecting clip plate 3 is clipped in from the notch on the left side of the second keel member 2, in the clipping process, as shown in fig. 6-8, the clipping block 32 of the connecting clip plate 3 pushes the column-shaped ball head 42 to compress the spring 41 inwards and move inwards, when the connecting clip plate 3 is completely clipped in, the column-shaped ball head 42 is reset under the action of the spring 41 and presses the connecting clip plate 3 on the left side wall of the positioning plate 22, as shown in fig. 9;

s3, another connecting catch plate 3 is clipped into the notch on the right side of the second keel member 2, in the clipping process, as shown in fig. 10 and 11, the connecting catch plate 3 overcomes the action force of the two springs 41 on the left and right sides, and pushes the right column-shaped ball 42 to compress the spring 41 inwards and move inwards, when the connecting catch plate 3 is completely clipped, the right column-shaped ball 42 is reset under the action of the right spring 41 and presses the connecting catch plate 3 on the right side wall of the positioning plate 22, as shown in fig. 12.

In this embodiment, because the internal face of card strip 31 is greater than half of locating plate 22 thickness with the interval of the internal face of perpendicular layering 34, two perpendicular layering 34 of connecting cardboard 3 when leaning on promptly, the interval of the internal face of card strip 31 of two connecting cardboard 3 is greater than locating plate 22's thickness, can adjust two positions of connecting cardboard 3, this embodiment is when the installation of aluminium honeycomb panel promptly, two effort that connect cardboard 3 and combine two springs 41 when the atress, fine setting about can controlling, the installation of aluminium honeycomb panel is convenient laborsaving more.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims

1. The utility model provides a ceiling structure, its characterized in that, includes keel spare (1), keel spare two (2) and connects cardboard (3), keel spare two (2) and keel spare (1) looks joint, connect cardboard (3) through a plurality of groups spring locating component (4) and keel spare two (2) looks joint, each spring locating component (4) set up along the length direction of keel spare two (2) interval in proper order.

2. Suspended ceiling structure according to claim 1, characterized in that the second keel member (2) comprises a keel body (21), a positioning plate (22) and a positioning strip (23), the keel main body (21) is transversely arranged, the positioning plate (22) and the positioning strip (23) are both connected on the bottom surface of the keel main body (21), the positioning plate (22) is vertically arranged, the positioning strip (23) is positioned at the side part of the positioning plate (22), and a notch used for being connected with the connecting clamping plate (3) is formed between the positioning strip (23) and the positioning plate (22), the positioning strip (23) is provided with a plurality of containing cavities (231) which are arranged at intervals in sequence and are used for arranging the spring positioning components (4), the connecting clamping plate (3) is provided with a clamping strip (31) matched with the spring positioning component (4) and the positioning plate (22), the top end of the clamping strip (31) is provided with a clamping block (32) protruding towards one side of the positioning strip (23).

3. Suspended ceiling structure according to claim 2, characterized in that the spring positioning assembly (4) comprises a spring (41), a cylindrical ball head (42) and a screw cap (43), the accommodating cavity (231) is transversely arranged, the threaded cover (43) is screwed at the outer end of the accommodating cavity (231) far away from the positioning plate (22), the spring (41) is transversely arranged in the accommodating cavity (231), the rear end of the spring (41) is abutted against the threaded cover (43), the inner end of the accommodating cavity (231) close to the accommodating cavity (231) is provided with a telescopic opening (233) formed by a first blocking edge (232), the rear end of the column-shaped ball head (42) is abutted against the front end of the spring (41), the head part of the columnar ball head (42) can extend out of the telescopic opening (233), and the columnar rear end of the columnar ball head (42) is provided with a second blocking edge for preventing the columnar ball head (42) from falling off.

4. The suspended ceiling structure of claim 3, wherein the connecting clamping plate (3) further comprises a transverse pressing strip (33) and a vertical pressing strip (34), the transverse pressing strip (33) is transversely arranged, the clamping strip (31) is connected to the top surface of the transverse pressing strip (33), the vertical pressing strip (34) is vertically arranged, the vertical pressing strip (34) is vertically connected to the top surface of the inner end of the transverse pressing strip (33), and when the clamping strip (31) is clamped between the positioning plate (22) and the spring positioning assembly (4), the vertical pressing strip (34) is positioned below the positioning plate (22).

5. The suspended ceiling structure of claim 4, wherein the bottom surface of the clamping block (32) is an arc surface matched with the shape of the ball head of the columnar ball head (42), and when the clamping strip (31) is clamped between the positioning plate (22) and the spring positioning component (4), the top surface of the transverse pressing strip (33) abuts against the bottom surface of the positioning strip (23).

6. The suspended ceiling structure according to claim 4 or 5, wherein two sides of the positioning plate (22) are respectively provided with a positioning strip (23), the spring positioning components (4) arranged on the two positioning strips (23) are in one-to-one correspondence and are arranged in pairs, and when the two connecting clamping plates (3) are respectively clamped on the second keel member (2), the inner wall surfaces of the two vertical pressing strips (34) are abutted.

7. The suspended ceiling structure of claim 6, wherein the distance between the inner wall surface of the clamping strip (31) and the inner wall surface of the vertical pressing strip (34) is more than half of the thickness of the positioning plate (22).

8. Suspended ceiling structure according to claim 4 or 5, characterized in that the bottom end of the vertical bead (34) has an outwardly protruding positioning edge (36), and a mounting groove (37) for accommodating a decorative sheet material is formed between the positioning edge (36) and the transverse bead (33).

9. The suspended ceiling structure of claim 8, characterized in that the outer end of the transverse bead (33) is provided with a concave groove (35), and when the connecting clamping plate (3) is clamped on the second keel member (2), a gap is formed between the groove bottom of the groove (35) and the bottom surface of the positioning strip (23).

10. The suspended ceiling structure according to claim 1, characterized in that the suspended ceiling structure further comprises a lifting hook (5), a keel clamping groove (51) is arranged below the lifting hook (5), the keel member (1) is clamped in the keel clamping groove (51), the keel member (1) comprises symmetrical wedging plates (11) which are arranged in an opposite inclined manner, the wedging plates (11) are provided with bayonet grooves (12), and clamping portions (211) which are matched with the bayonet grooves (12) are respectively arranged on two sides of the top of the keel main body (21).