CN212104761U - Suspended ceiling structure with metal woven mesh - Google Patents

Abstract

The utility model provides a metal mesh grid furred ceiling structure, include: the suspended ceiling unit comprises a hook groove keel, a bottom plate, a first sleeve frame, a first L-shaped rib plate, a metal mesh grid and a second sleeve frame; the hook groove keel is arranged at the tail end of the suspender; the bottom plate is provided with a lower hook groove with a downward opening, and the bottom plate is hooked with the upper hook groove of the hook groove keel through the lower hook groove; the first L-shaped rib plate is fixedly connected with the edge of the lower surface of the bottom plate through bolts; the first sleeve frame is arranged on the outer side of the first L-shaped rib plate and is fixedly riveted with the first L-shaped rib plate; the metal mesh grid is welded and fixed below the first sleeve frame; the second sleeve frame is sleeved outside the bottom plate, the first sleeve frame and the metal woven net, the upper end part of the second sleeve frame is riveted and fixed with the bottom plate, and the lower end part of the second sleeve frame is clamped below the metal woven net. The metal mesh grid suspended ceiling structure is light in weight, convenient to install, good in environment resistance and easy to shape, and can completely replace a traditional suspended ceiling.

Description

Suspended ceiling structure with metal woven mesh

Technical Field

The utility model relates to a building furred ceiling technical field, in particular to metal mesh grid furred ceiling structure.

Background

Traditional furred ceiling adopts construction such as stone material, glass fiber, metal decking to accomplish usually, and these types of furred ceilings are comparatively heavy usually, and the installation is inconvenient. However, with the progress of society, new materials are continuously developed, the design level of designers and the aesthetic level of people are correspondingly changed, more and more people gradually pursue intelligent and personalized ceiling decoration, and the traditional Chinese style which is not practical is abandoned in the aspect of modeling, so that the practical wind is simplified and personalized. If still adopt traditional furred ceiling material then be difficult to fine satisfying present demand, for this reason now need one kind can fine satisfy the furred ceiling structure of present demand.

SUMMERY OF THE UTILITY MODEL

The utility model relates to a solve above-mentioned problem and go on, aim at provides a metal mesh grid furred ceiling structure.

The utility model provides a metal mesh grid furred ceiling structure has such characteristic, include: the suspended ceiling unit comprises a plurality of hanging rods and a plurality of suspended ceiling units, wherein the hanging rods are arranged corresponding to the edge positions of the suspended ceiling units, and the suspended ceiling units are fixedly installed through the hanging rods; the suspended ceiling unit comprises a hook groove keel, a bottom plate, a first sleeve frame, a first L-shaped rib plate, a metal mesh grid and a second sleeve frame; the upper end part of the hook groove keel is fixedly arranged at the tail end of the hanging rod, and the lower end part of the hook groove keel is provided with an upper hook groove with an upward opening; the edge of the bottom plate is provided with an upper flanging which extends inwards to form a lower hook groove with a downward opening, and the bottom plate is hooked with the upper hook groove of the hook groove keel through the lower hook groove; the first L-shaped ribbed plate is fixedly connected with the edge of the lower surface of the bottom plate through a bolt, and a ribbed plate hole is formed in the lower end part of the first L-shaped ribbed plate; the first sleeve frame is arranged on the outer side of the first L-shaped rib plate and is fixedly riveted with the first L-shaped rib plate; the metal mesh grid is arranged below the first sleeve frame and is welded and fixed with the first sleeve frame; the second sleeve frame is sleeved outside the bottom plate, the first sleeve frame and the metal woven net and is C-shaped, the upper end portion of the second sleeve frame is fixedly riveted with the bottom plate, and the lower end portion of the second sleeve frame is clamped below the metal woven net.

The utility model provides an among the metal mesh grid furred ceiling structure, can also have such characteristic: wherein, the bottom surface of bottom plate has seted up the through-hole array, and the through-hole aperture is 3mm in this through-hole array.

The utility model provides an among the metal mesh grid furred ceiling structure, can also have such characteristic: wherein, the top of bottom plate is provided with the rock wool layer.

The utility model provides an among the metal mesh grid furred ceiling structure, can also have such characteristic: wherein, the suspended ceiling unit also comprises a second L-shaped ribbed plate and a steel wire bar; the second L-shaped rib plate is connected with the middle position of the lower surface of the fixed bottom plate through a bolt; a rib plate hole is formed in the lower end part of the second L-shaped rib plate; and the steel wire strip penetrates through the rib plate hole of the second L-shaped rib plate and is connected with the metal woven net in a binding mode.

The utility model provides an among the metal mesh grid furred ceiling structure, can also have such characteristic: the first frame set is a rectangular frame structure with a hollow middle part formed by four frame edges, and each frame edge is in an equilateral L shape.

The utility model provides an among the metal mesh grid furred ceiling structure, can also have such characteristic: wherein, a non-woven fabric layer is laid at the hollow part in the middle of the first sleeve frame.

The utility model provides an among the metal mesh grid furred ceiling structure, its characterized in that still includes: and the modeling connecting piece is fixedly connected with the two adjacent suspended ceiling units through bolts respectively.

The utility model provides an among the metal mesh grid furred ceiling structure, can also have such characteristic: wherein, the molding connecting piece is an electrical equipment mounting structure.

The utility model discloses an effect and effect:

the utility model discloses a furred ceiling unit contains hook groove fossil fragments among the metal mesh grid furred ceiling structure, the bottom plate, first cover frame, first L type floor, second L type floor, the metal mesh grid, second cover frame, lower surface border position and middle part position at the bottom plate are installed respectively to first L type floor and second L type floor, first cover frame and first L type floor riveting fixed, the metal mesh grid welding is at the lower surface of first cover frame, the metal mesh grid is fixed through steel wire strip with second L type floor tying, and at the bottom plate, the second cover frame is further fixed in the outside of first cover frame and metal mesh grid still adopted, make this furred ceiling unit stable in structure. The metal mesh grid of the main structure in the structure has light weight, good heat resistance, difficult fading and good elasticity and toughness; the first set frame, the second set frame and the bottom plate are made of light and thin stainless steel with the thickness of 1.5mm, the structures are hollow in the middle or provided with through holes, the weight is light, the whole metal mesh grid suspended ceiling structure is light in weight, convenient to install, easy to clean, good in environment resistance and easy to shape, can completely replace a traditional suspended ceiling, and develops to appearance artistry and individuation.

In addition, the metal mesh grid ceiling structure is also provided with the rock wool layer, so that the sound absorption and fire prevention effects can be realized; and the non-woven fabric is laid, so that the dustproof effect can be realized.

Additionally, the utility model discloses a still be provided with the molding connecting piece among the metal mesh grid furred ceiling structure, not only make things convenient for the ceiling system molding, also can set up it into electrical installation structure according to user's needs moreover, make metal mesh grid furred ceiling structure not only have aesthetic property like this, still can have practicality concurrently, to intelligent development.

Drawings

Fig. 1 is a schematic view of a suspended ceiling structure of a metal mesh grid according to an embodiment of the present invention;

FIG. 2 is an enlarged view of FIG. 1 at A;

FIG. 3 is an enlarged view of FIG. 1 at B;

fig. 4 is a schematic perspective view of the first frame in the embodiment of the present invention (the through hole is not shown in the figure);

fig. 5 is a schematic perspective view (not shown) of the second frame in the embodiment of the present invention.

Detailed Description

In order to make the utility model discloses the technological means, creation characteristic, achievement purpose and efficiency that realize are easily understood and are known, and following embodiment combines the attached drawing to be right the utility model discloses metal mesh grid furred ceiling structure does specifically expounds.

< example >

As shown in fig. 1, the suspended ceiling structure 100 of the woven metal mesh of the present embodiment includes a plurality of suspension rods 1, a plurality of ceiling units 2, and modeling connectors 3.

The suspender 1 is connected to the top surface of the original building structure or a ceiling conversion layer through conventional fixing modes such as bolt fixing and the like according to actual construction conditions. The suspension bar 1 extends vertically downward, and the suspension bar 1 is disposed corresponding to an edge position of the ceiling unit. In fig. 1 it is illustrated that a suspension bar 1 is arranged above the position of both the left and right side edges of one ceiling unit 2.

As shown in fig. 1 to 3, the ceiling unit 2 includes a channel keel 21, a bottom plate 22, a first frame 23, a first L-shaped rib 24, a second L-shaped rib 25, a metal mesh grid 26, a second frame 27, a rock wool layer 28, and a non-woven fabric layer 29.

The bottom plate 22 has a rectangular bottom surface, four edges of the rectangular bottom surface are provided with upward turned edges, and the upward turned edges extend inwards to form a lower hook groove with a downward opening. The rectangular bottom surface is provided with a through hole array, and the aperture of the through hole in the through hole array is 3 mm. The bottom plate 22 is made of a stainless steel plate with the thickness of 1.5mm, is provided with a through hole array, then is cut into four small rectangles at four vertex angles, turns over four sides to form a lower hook groove structure, and is welded and fixed to form an integral structure.

As shown in fig. 1-2, a layer of rock wool 28 is provided above the floor 22, the rock wool being a good sound absorbing fire resistant material. The provision of a rock wool layer above the base plate 22 provides a good sound absorption and fire protection for the entire ceiling structure. In this embodiment, the rock wool layer 28 is a double-layer rock wool layer, and can be installed in the empty groove formed in the bottom plate 22 by an embedding manner.

As shown in fig. 1, the first L-shaped rib 24 is provided at an edge position of the lower surface of the base plate 22, and the second L-shaped rib 25 is provided at a middle position of the base plate 22. As shown in fig. 2, the first L-shaped rib 24 is connected to the bottom plate 22 by bolts 203 and fixed below the bottom plate 22. As shown in fig. 3, the second L-shaped rib 25 is fixedly coupled to the lower side of the base plate 22 by a bolt 205. The bolts 203 and 205 are self-tapping screws. Rib plate holes are formed in the lower end portions of the first L-shaped rib plate 24 and the second L-shaped rib plate 25. The first and second L- shaped ribs 24 and 25 have the same structure, and are formed by bending a stainless steel plate having a thickness of 3mm, and have an L-shaped cross section.

The first frame 23 is made of stainless steel. The first frame 23 has a three-dimensional structure as shown in fig. 4, the first frame 23 is a rectangular frame structure with a hollow middle portion and four frame edges, each frame edge is in an equilateral L shape, and the edge thickness is 1.5 mm. As shown in fig. 1-2, the first sleeve 23 is sleeved on the outer side of the first L-shaped rib 24, and is riveted and fixed with the first L-shaped rib 24 by a rivet 204.

The metal mesh 26 is fixed below the first frame 23 by welding, and a position a in fig. 2 illustrates a case where the metal mesh 26 is fixed to the first frame 23 by welding. After the metal mesh 26 is welded and fixed to the first frame 23, the steel wire 251 is inserted through the rib holes of the second L-shaped rib 25 and is tied to the metal mesh 26 (as shown in fig. 3). The weight of bearing metal mesh grid 26 that the structure can be fine above having guaranteed like this for metal mesh grid 26 atress is more even, and fixed effect is better.

As shown in fig. 1-2, a non-woven fabric layer 29 is laid in the hollow portion of the middle portion of the first frame 23, and the non-woven fabric layer 29 is located above the metal mesh grid 26 and can play a role in dust prevention.

The second frame 27 is made of stainless steel. The second frame 27 has a three-dimensional structure as shown in fig. 5, and the second frame 27 is formed by bending a stainless steel plate with a thickness of 1.5mm, and has a cross-section in a shape of a right angle C. As shown in fig. 1-2, the second frame 27 is fitted over the bottom plate 22, the first frame 23, and the metal mesh 26, the upper end of the second frame 27 is fixed to the bottom plate 22 by riveting with a rivet 202, and the lower end of the second frame 27 is engaged with the lower side of the metal mesh 26.

As shown in fig. 1, each ceiling unit 2 is installed and fixed below the suspension bar 1 by a hook and groove keel 21. The lower end of the hook groove keel 21 has an upper hook groove with an upward opening. As shown in fig. 1-2, the bottom plate 22 of each ceiling unit 2 is suspended by hooking the lower hook groove and the hook groove keel 21. The upper end of hook groove fossil fragments 21 is provided with the through-hole, and the end of jib 1 passes hook groove fossil fragments 21's through-hole, and both adopt the nut fixed, realize that hook groove fossil fragments 21 installation is fixed on jib 1 to the installation of furred ceiling unit 2 has been realized.

As shown in fig. 1, in the suspended ceiling structure 100 of the metal woven mesh of the present embodiment, a modeling connecting member 3 may be further provided between adjacent suspended ceiling units 2. The modeling connecting piece 3 is fixedly connected with the ceiling units 2 adjacent to the left and right sides through bolts (such as bolts 201 shown in fig. 2). This molding connecting piece 3 adopts stainless steel, makes corresponding molding according to the furred ceiling design demand, makes whole metal mesh grid furred ceiling structure 100 molding like this more tend to outward appearance artistry, individualized according to the user's demand. In addition, in the suspended ceiling structure 100 with metal mesh grid in this embodiment, according to the requirement of the user for electrical intelligence of the suspended ceiling, the modeling connector 3 is used as an electrical equipment installation structure, for example, as shown in fig. 1, the modeling connector 3 is set as a light trough, and an illumination lamp is installed on the modeling connector 3. But not limited to this, the modeling connecting piece 3 can also be set as a smoke alarm installation groove or a fan air outlet groove and the like according to the requirements of users. Thus, the metal mesh grid suspended ceiling structure 100 has both aesthetic property and practical property.

The above embodiments are only preferred embodiments of the present invention, and are not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (8)

1. A metal mesh grid suspended ceiling structure, comprising: a plurality of suspension rods and a plurality of suspended ceiling units,

the hanger rods are arranged corresponding to the edge positions of the ceiling units, and the ceiling units are fixedly installed through the hanger rods;

the suspended ceiling unit comprises a hook groove keel, a bottom plate, a first sleeve frame, a first L-shaped rib plate, a metal mesh grid and a second sleeve frame;

the upper end part of the hook groove keel is fixedly arranged at the tail end of the hanging rod, and the lower end part of the hook groove keel is provided with an upper hook groove with an upward opening;

the edge of the bottom plate is provided with an upper flanging which extends inwards to form a lower hook groove with a downward opening, and the bottom plate is hooked with the upper hook groove of the hook groove keel through the lower hook groove;

the first L-shaped rib plate is fixedly connected with the edge of the lower surface of the bottom plate through bolts, and a rib plate hole is formed in the lower end part of the first L-shaped rib plate;

the first sleeve frame is arranged on the outer side of the first L-shaped rib plate and is fixedly riveted with the first L-shaped rib plate;

the metal mesh grid is arranged below the first sleeve frame and is welded and fixed with the first sleeve frame;

the second sleeve frame is sleeved on the outer sides of the bottom plate, the first sleeve frame and the metal woven mesh, the second sleeve frame is C-shaped, the upper end portion of the second sleeve frame is fixedly riveted with the bottom plate, and the lower end portion of the second sleeve frame is clamped below the metal woven mesh.

2. A metal mesh grid ceiling structure as set forth in claim 1, wherein:

the bottom surface of the bottom plate is provided with a through hole array, and the aperture of a through hole in the through hole array is 3 mm.

3. A metal mesh grid ceiling structure as set forth in claim 2, wherein:

wherein, the top of bottom plate is provided with the rock wool layer.

4. A metal mesh grid ceiling structure as set forth in claim 1, wherein:

wherein the suspended ceiling unit further comprises a second L-shaped rib plate and a steel wire bar;

the second L-shaped rib plate is fixedly connected with the middle position of the lower surface of the bottom plate through a bolt;

a rib plate hole is formed in the lower end part of the second L-shaped rib plate;

and the steel wire strip penetrates through the rib plate hole of the second L-shaped rib plate and is connected with the metal woven mesh in a binding mode.

5. A metal mesh grid ceiling structure as set forth in claim 1, wherein:

the first sleeve frame is of a rectangular frame structure with a hollow middle part formed by four frame edges, and each frame edge is in an equilateral L shape.

6. A metal mesh grid ceiling structure as set forth in claim 5, wherein:

wherein, a non-woven fabric layer is laid at the hollow part in the middle of the first sleeve frame.

7. A suspended ceiling structure with metal grid meshes as set forth in any one of claims 1 to 6, further comprising: a plurality of modeling connecting pieces are arranged on the upper surface of the frame,

the modeling connecting piece is fixedly connected with the two adjacent ceiling units through bolts respectively.

8. A metal mesh grid ceiling structure as set forth in claim 7, wherein:

wherein, the molding connecting piece is an electrical equipment mounting structure.

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