CN110453845B - Banded furred ceiling suspended ceiling - Google Patents

Abstract

The invention provides a banded suspended ceiling, which comprises a main keel, a hoisting assembly and a banded ceiling; the main keels are arranged and hoisted below the hoisting assembly; the face of banded ceiling is vertical to be set up, and its wave buckling extends along the extending direction of main joist, and the top of banded ceiling is equipped with the hoist and mount portion that is used for hoist and mount, and banded ceiling forms a plurality of hoisting points and hoist and mount under the main joist along main joist extending direction through hoist and mount portion. The invention has simple installation and can randomly adjust the buckling modeling of the strip-shaped ceiling.

Description

Banded furred ceiling suspended ceiling

Technical Field

The invention relates to the field of building materials, in particular to a strip-shaped suspended ceiling.

Background

With the increasing demands of people on home decoration in the current society, the demands of people on suspended ceilings are also increasing. In the prior art, in order to meet the requirements of some customers on beauty, manufacturers are required to manufacture the banded buckling ceiling structure.

However, due to the difference between the structure and the common ceiling, the hoisting structure is complex. In the prior art, there are buckling and extending ceilings which are hoisted by correspondingly acting on each hoisting point by using long rods. The specific hoisting load structure is hoisted by steel wires; or hoisting by rivets. The bending amplitude of the ceiling cannot be specifically adjusted by the hoisting structures, namely, the specific modeling of the ceiling is difficult to control. And in the mounting structure, the long rod is required to be provided with a nut, so that the mounting is complicated.

It is clear that the prior art has certain drawbacks.

Disclosure of Invention

The invention aims to solve the technical problem of providing a strip suspended ceiling, which is simple to install and can randomly adjust the buckling shape of the strip suspended ceiling.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

A banded suspended ceiling comprises a main keel, a hoisting assembly and a banded ceiling; the main keels are arranged and hoisted below the hoisting assembly; the face of banded ceiling is vertical to be set up, and its wave buckling extends along the extending direction of main joist, and the top of banded ceiling is equipped with the hoist and mount portion that is used for hoist and mount, and banded ceiling forms a plurality of hoisting points and hoist and mount under the main joist along main joist extending direction through hoist and mount portion.

Further, the strip-shaped ceilings are hoisted with the main keels through connecting members; the bottom of the connecting component is provided with two lifting hooks which are connected into a whole through a hanging part at the top; the lifting parts of the strip-shaped ceilings are lifting holes penetrating through the panel surface, the lifting holes are in pairs or groups, and the strip-shaped ceilings extending in wave buckling mode enable each group of lifting holes to be evenly arranged on two sides of the main joist, the two lifting hooks are respectively hooked in the same group of lifting holes, and the hanging parts are hung on the main joist to hang one strip-shaped ceilings below one main joist.

Further, the strip-shaped ceilings are hung on two main keels which are respectively arranged at two sides; the hoisting part of the strip-shaped ceiling is a hollowed-out notch arranged at the top of each buckling part; the hollowed-out notches at the bending parts at the two sides are respectively erected on the two main keels to hoist a strip-shaped ceiling below the two main keels.

Further, positioning folding plates for positioning are arranged on the main keels in an axial direction, and the positioning folding plates protrude out of the tops of the main keels; the hanging part of the connecting member is provided with a positioning ring matched with the positioning folding piece, and the positioning ring is sleeved on any positioning folding piece to adjust the buckling shape of the strip-shaped ceiling.

Further, positioning holes for positioning are axially arranged on the main keels; the hanging part of the connecting member is provided with a positioning inserting tongue protruding downwards, and the positioning inserting tongue is inserted into any positioning hole to adjust the buckling shape of the strip-shaped ceiling.

Further, the two sides of the positioning inserting tongue are elastically opened, and the two sides of the positioning inserting tongue are provided with inwards concave occlusion bayonets matched with the positioning holes, and the occlusion bayonets are elastically opened and clamped at the edges of the positioning holes for fixation.

Further, positioning holes for positioning are axially arranged on the main keels; the top of the hollowed-out notch is provided with a positioning flange which extends downwards, and the positioning flange is clamped in any positioning hole to adjust the buckling modeling of the strip-shaped ceiling.

Further, the hoisting hooks at two sides of the connecting member are arranged in opposite directions.

Further, the hoisting assembly comprises a boom, an upper layer of hoisting bar, an auxiliary bone and a lower layer of hoisting bar; the upper layer hanging bracket is fixedly hung at the bottom end of the hanging rod, and a plurality of auxiliary bones are hung in parallel through the upper layer hanging bracket; the lower layer hanging bracket is hung on the auxiliary bone, and the main keel is intersected with the auxiliary bone and is hung below the auxiliary bone through the lower layer hanging bracket.

Furthermore, the positioning holes are arranged in two groups side by side along the axial direction of the main joist, and the adjacent strip-shaped ceilings are erected on the same main joist.

The strip-shaped suspended ceiling provided by the invention has the following advantages:

the buckling amplitude of the strip-shaped ceilings can be freely adjusted, so that the modeling of the strip-shaped ceilings can be arbitrarily adjusted;

The hoisting structure is simple, basically no threaded connection structure is used except for the necessary hoisting structure of the keel system, and the installation is convenient;

The hoisting structure is particularly provided with a plurality of optional schemes, and different modeling can be generated by different hoisting structure characteristics.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of the overall structure of a belt-shaped suspended ceiling provided by the invention.

Fig. 2 is a schematic overall structure of the first embodiment.

Fig. 3 is a schematic structural view of a connecting member according to the first embodiment.

Fig. 4 is a schematic overall structure of the second embodiment.

Fig. 5 is a schematic structural view of a connecting member according to the second embodiment.

Fig. 6 is a schematic overall structure of the third embodiment.

Reference numerals illustrate:

1. Main joist 2, strip-shaped ceiling

3. Connecting member 4, boom

5. Upper layer hanging bracket 6 and auxiliary bone

7. Lower layer hanging bracket 8 and hanging hole

9. Positioning folding piece 10 and lifting hook

11. Hanging part 12 and positioning ring

13. Positioning hole 14 and positioning insert tongue

15. Occlusion bayonet 16 and hollowed-out notch

17. Positioning flange

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention and the accompanying drawings. It should be noted that the described embodiments are only some embodiments of the present invention, and not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

Referring to fig. 1, an embodiment of the present invention provides a strip suspended ceiling, which includes a main joist 1, a hoisting assembly and a strip ceiling 2; the main keels 1 are arranged and hoisted below the hoisting assembly; the face of banded ceiling 2 sets up vertically, and it is along the extension direction wave buckling extension of main joist 1, and the top of banded ceiling 2 is equipped with the hoist and mount portion that is used for hoist and mount, and banded ceiling 2 forms a plurality of hoisting points and hoist and mount under main joist 1 along main joist 1 extension direction through hoist and mount portion.

The ribbon-shaped ceiling 2 of the invention extends along the extending direction glass buckling of the main joist 1, and theoretically, a plurality of hanging points can be formed on the main joist 1 in a matching way, and the adjustment of specific positions of the hanging points can influence the specific buckling amplitude of the ribbon-shaped ceiling 2, so as to adjust the specific modeling of the ribbon-shaped ceiling 2. The specific structural relationship of the main runners 1 to the strip ceiling tile 2 is similar to the strip ceiling tile 2 being "strung" by the main runners 1.

The specific shape of the band-shaped ceiling 2 extending in wave buckling is not limited to curved wave extension or broken line wave extension, and the specific principle is equivalent. The arrangement shape of the adjacent strip-shaped ceilings 2 is not limited, and may be parallel arrangement, or mirror arrangement to form a blade-like, honeycomb-like, square-like structure, or the like. Since this is not a technical point of the present invention, it is not a technical problem and will not be described in detail herein.

There are two preferred ways of specific lifting structure between the main runners 1 and the strip ceilings 2.

Referring to fig. 2 to 3, in the present embodiment, the strip-shaped ceiling 2 and the main joist 1 are preferably hoisted by a connecting member 3; the bottom of the connecting member 3 is provided with two lifting hooks 10, and the two lifting hooks 10 are connected into a whole through a hanging part 11 at the top; the hoisting parts of the strip-shaped ceilings 2 are hoisting holes 8 penetrating through the plate surface, the hoisting holes 8 are in pairs, the strip-shaped ceilings 2 extending in wave buckling mode enable each group of hoisting holes 8 to be evenly distributed on two sides of the main joist 1, two hoisting hooks 10 are respectively hooked in the same group of hoisting holes 8, and the hanging parts 11 are hung on the main joist 1 to hoist one strip-shaped ceilings 2 below one main joist 1.

The connecting member 3 is preferably manufactured by iron wires, and has a standardized structure and is easily mass-produced. The two lifting hooks 10 of the connecting member 3 respectively act on a group of two lifting holes 8, so that the connecting member 3 can completely correspond to the bending angle of the plate surface of the strip-shaped ceiling 2. And the stress of the connecting member 3 is basically balanced by the stress of the hoisting hooks 10 respectively arranged at the two sides.

Furthermore, positioning folded pieces 9 for positioning are arranged on the main joist 1 along the axial direction, and the positioning folded pieces 9 protrude out of the top of the main joist 1; the hanging part 11 of the connecting member 3 is provided with a positioning ring 12 matched with the positioning folding piece 9, and the positioning ring 12 is sleeved on any positioning folding piece 9 to adjust the buckling shape of the strip-shaped ceiling 2.

When the buckling modeling of the strip-shaped ceiling 2 is regulated, the positioning folding piece 9 can be pulled up at the corresponding position of the main keel 1, and the connecting member 3 can be sleeved. The positioning flaps 9 block the positioning ring 12, so that the connecting member 3 is no longer moved by the elasticity of the material of the strip-shaped ceiling 2 itself, and the suspension point is completely defined. The density of the suspension point distribution determines the buckling amplitude density of the strip-shaped ceiling 2, and the buckling angle of the strip-shaped ceiling of each buckling part is specifically adjusted by self-adaptation mainly through the elasticity of the self-material of the strip-shaped ceiling 2. The positioning folding piece 9 is mainly formed by blanking and is made of the self material of the main keel 1, and the positioning folding piece 9 is manually bent and supported at a required position corresponding to a right angle.

As a further preferred aspect, the lifting hooks 10 on two sides of the connecting member 3 are disposed in opposite directions, so that the two lifting hooks 10 respectively hook the two lifting holes 8 from two faces of the strip-shaped ceiling 2, thereby achieving the effects of balanced stress and stable lifting.

The present embodiment is characterized in that one main runner 1 can correspondingly hoist one strip-shaped ceiling board 2, and a plurality of main runners 1 can be arranged relatively closely from the structural point of view, so that a plurality of strip-shaped ceiling boards 2 can be densely arranged without interference. Therefore, the structural scheme of the present embodiment is applicable to the dense strip-shaped ceiling 2 arrangement scheme.

For the concrete structure of the keel system, preferably, the hoisting assembly comprises a boom 4, an upper layer of hanging bracket 5, an auxiliary bone 6 and a lower layer of hanging bracket 7; the upper layer hanging bracket 5 is fixedly hung at the bottom end of the hanging rod 4, and a plurality of auxiliary bones 6 are hung in parallel through the upper layer hanging bracket 5; the lower layer hanging bracket 7 is hung on the auxiliary bone 6, and the main keel 1 and the auxiliary bone 6 are intersected and are hung below the auxiliary bone 6 through the lower layer hanging bracket 7. Therefore, the main keel 1 can be freely moved and positioned on the auxiliary rib 6, even the main keel 1 can be freely inclined to the auxiliary rib 6 to form a special model, and more variable modeling schemes can be formed by matching with the strip-shaped ceiling 2.

Example two

Referring to fig. 4 to 5, the present embodiment is substantially the same as the first embodiment, and differs only in the structure of the connecting member 3. Instead of machining the locating tabs 9 on the main runner 1 as in the first embodiment, similar locating formations may be machined on the linking member in reverse.

As another preferable structure, positioning holes 13 for positioning are arranged on the main joist 1 along the axial direction; the hanging part 11 of the connecting member 3 is provided with a positioning inserting tongue 14 protruding downwards, and the positioning inserting tongue 14 is inserted into any positioning hole 13 to adjust the buckling shape of the strip-shaped ceiling 2.

This construction is similar to the principle of the positioning flap 9 employed in the first embodiment, but the positioning is performed by machining the tongue from the material of the connecting member 3 itself. In addition, since the connecting member 3 is preferably made of elastic steel wires, it is further possible that both sides of the positioning insert tongue 14 are elastically opened, and both sides of the positioning insert tongue 14 are provided with inward concave engagement bayonets 15 matched with the positioning holes 13, and the engagement bayonets 15 are elastically opened and clamped at the edges of the positioning holes 13 for fixing. The stability of positioning is further improved through clamping the clamping bayonet 15 in the positioning hole 13, and meanwhile, the friction force between the clamping bayonet 15 and the edge of the positioning block has the function of fine adjustment and fixing of the buckling plate surface angle of the strip-shaped ceiling 2.

Example III

Referring to fig. 6, the difference between the present embodiment and the first embodiment is the hoisting structure of the main joist 1 and the strip-shaped ceiling 2.

Specifically, as an optimization, the strip-shaped ceiling 2 is hung on two main keels 1 which are respectively arranged at two sides; the hoisting part of the strip-shaped ceiling 2 is a hollowed-out notch 16 arranged at the top of each buckling part; the hollowed-out notches 16 at the bending parts at the two sides are respectively erected on the two main keels 1 to hoist a strip-shaped ceiling 2 below the two main keels 1.

In the hoisting scheme of the embodiment, two main keels 1 are applied to hoist a strip-shaped ceiling 2. The principle of force forming of the strip-shaped ceiling 2 is different from that of the first embodiment, and the two bending positions of the two sides of the strip-shaped ceiling 2 are supported by the main keels 1, so that the strip-shaped ceiling can be shaped with any bending amplitude only by adjusting the density of the bending positions.

Preferably, positioning holes 13 for positioning are arranged on the main keel 1 along the axial direction; the top of the hollowed-out notch 16 is provided with a positioning flange 17 extending downwards, and the positioning flange 17 is clamped in any positioning hole 13 to adjust the buckling shape of the strip-shaped ceiling 2. Because the strip-shaped ceilings 2 are arranged in the whole suspended ceiling system, in order to reduce the consumption of the main joists 1, preferably, the positioning holes 13 are arranged in two groups side by side along the axial direction of the main joists 1, and the adjacent strip-shaped ceilings 2 are erected on the same main joist 1.

In the embodiment, the strip-shaped ceiling 2 is hoisted by adopting two keels, and the stress is distributed on two sides of the strip-shaped ceiling 2, so that the stress is more stable. The method is suitable for the occasion that the banded ceiling 2 is larger and the transverse buckling amplitude is larger. The disadvantage is that interference may occur between the main runners 1 when the strip-shaped ceilings 2 are arranged relatively closely, which is not suitable for such an arrangement. It should be noted that, the two main keels 1 hoisting the same strip-shaped ceiling 2 are not necessarily parallel to each other, and according to the designed shape, the two main keels 1 can be completely arranged at an included angle.

The other structures of the present embodiment, such as the structure of the hoisting assembly, are identical to those of the first embodiment, and are not described herein.

According to the strip-shaped suspended ceiling provided by the invention, the buckling amplitude of the strip-shaped ceiling 2 can be freely adjusted by freely adjusting the hanging points of the strip-shaped ceiling, so that the shape of the strip-shaped ceiling 2 can be freely adjusted. Besides the necessary hoisting structure of the keel system, the hoisting structure is simple, basically does not use a threaded connection structure, and is convenient to install. Meanwhile, the hoisting structure is particularly provided with various schemes, a single main keel 1 or two main keels 1 can be adopted for hoisting, and different modeling can be generated by different hoisting structure characteristics, so that the hoisting structure is applied to different occasions.

The foregoing examples illustrate only a few embodiments of the invention and are described in detail herein without thereby limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (10)

1. A banded suspended ceiling is characterized by comprising a main keel, a hoisting assembly and a banded ceiling; the main keels are arranged and hoisted below the hoisting assembly; the strip-shaped ceilings are vertically arranged, the strip-shaped ceilings extend along the extending direction of the main joists in a wave buckling way, the tops of the strip-shaped ceilings are provided with hoisting parts for hoisting, and the strip-shaped ceilings form a plurality of hoisting points which are arranged along the extending direction of the main joists through the hoisting parts and are hoisted below the main joists;

The strip-shaped ceiling and the main joist are hoisted by a connecting component; the bottom of the connecting component is provided with two lifting hooks which are connected into a whole through a hanging part at the top; the lifting parts of the strip-shaped ceilings are lifting holes penetrating through the panel surface, the lifting holes are in pairs or groups, and the strip-shaped ceilings extending in wave buckling mode enable each group of lifting holes to be evenly arranged on two sides of the main joist, the two lifting hooks are respectively hooked in the same group of lifting holes, and the hanging parts are hung on the main joist to hang one strip-shaped ceilings below one main joist.

2. The suspended ceiling strip of claim 1, wherein the main joists are provided with positioning flaps for positioning in an axial direction, the positioning flaps protruding from the top of the main joists; the hanging part of the connecting member is provided with a positioning ring matched with the positioning folding piece, and the positioning ring is sleeved on any positioning folding piece to adjust the buckling shape of the strip-shaped ceiling.

3. The strip suspended ceiling of claim 1, wherein the main joists are provided with positioning holes for positioning in an axial direction; the hanging part of the connecting member is provided with a positioning inserting tongue protruding downwards, and the positioning inserting tongue is inserted into any positioning hole to adjust the buckling shape of the strip-shaped ceiling.

4. The suspended ceiling strip of claim 3, wherein the positioning tongue is elastically stretched on both sides, and the positioning tongue is provided with an inwardly concave snap-in bayonet engaged with the positioning hole on both sides, and the snap-in bayonet is elastically stretched and clamped on the edge of the positioning hole for fixing.

5. A strip suspended ceiling as claimed in claim 1,2 or 3, wherein the lifting hooks on both sides of the connecting member are disposed opposite each other.

6. The suspended ceiling ribbon of claim 1, wherein the hanging assembly comprises a hanger bar, an upper layer hanger bar, an auxiliary frame, and a lower layer hanger bar; the upper layer hanging bracket is fixedly hung at the bottom end of the hanging rod, and a plurality of auxiliary bones are hung in parallel through the upper layer hanging bracket; the lower layer hanging bracket is hung on the auxiliary bone, and the main keel is intersected with the auxiliary bone and is hung below the auxiliary bone through the lower layer hanging bracket.

7. A banded suspended ceiling is characterized by comprising a main keel, a hoisting assembly and a banded ceiling; the main keels are arranged and hoisted below the hoisting assembly; the strip-shaped ceilings are vertically arranged, the strip-shaped ceilings extend along the extending direction of the main joists in a wave buckling way, the tops of the strip-shaped ceilings are provided with hoisting parts for hoisting, and the strip-shaped ceilings form a plurality of hoisting points which are arranged along the extending direction of the main joists through the hoisting parts and are hoisted below the main joists;

The strip-shaped ceilings are hung on two main keels which are respectively arranged at two sides; the hoisting part of the strip-shaped ceiling is a hollowed-out notch arranged at the top of each buckling part; the hollowed-out notches at the bending parts at the two sides are respectively erected on the two main keels to hoist a strip-shaped ceiling below the two main keels.

8. The suspended ceiling strip of claim 7, wherein the main joists are provided with positioning holes for positioning in an axial direction; the top of the hollowed-out notch is provided with a positioning flange which extends downwards, and the positioning flange is clamped in any positioning hole to adjust the buckling modeling of the strip-shaped ceiling.

9. The suspended ceiling ribbon of claim 7, wherein the hanging component comprises a hanger bar, an upper layer hanger bar, an auxiliary frame, and a lower layer hanger bar; the upper layer hanging bracket is fixedly hung at the bottom end of the hanging rod, and a plurality of auxiliary bones are hung in parallel through the upper layer hanging bracket; the lower layer hanging bracket is hung on the auxiliary bone, and the main keel is intersected with the auxiliary bone and is hung below the auxiliary bone through the lower layer hanging bracket.

10. The suspended ceiling strip of claim 8, wherein the positioning holes are arranged in two groups side by side along the axial direction of the main joist, and adjacent suspended ceiling strips are arranged on the same main joist.