CN210622182U - Eight miscanthus copper mounting structure - Google Patents

Abstract

The utility model discloses an eight-mango-star copper plate mounting structure, which comprises an eight-mango-star copper plate, a stainless steel plate, a stone back plate and a concrete structure layer, wherein a reinforcing screw is fixedly arranged at the back of the eight-mango-star copper plate, a through hole is formed in the stainless steel plate, the reinforcing screw penetrates through the through hole of the stainless steel plate and is welded with the back of the stainless steel plate, so that the copper plate and the steel plate are fixed into a whole, a through hole for the reinforcing screw to penetrate is formed in the stone back plate, and the stone back plate, the stainless steel plate and the eight-mango-star copper plate are fixed through nuts and the reinforcing screw, so that the stone back plate; the stone back plate is arranged on the concrete structure layer. The utility model has the advantages that: 1) the back of the eight-mango-star copper plate is connected with the stainless steel plate and the stone back plate through the reinforcing screws, and the adhesive layer is further arranged between the stainless steel plate and the stone back plate, so that the flatness of the plane of the eight-mango-star copper plate is effectively improved, and the eight-mango-star copper plate is prevented from arching, warping, deforming and the like.

Description

Eight miscanthus copper mounting structure

Technical Field

The utility model relates to an architectural decoration technical field, concretely relates to eight mango star copper mounting structure.

Background

From Milan, London and Bali to Beijing Baogli hotels, the common octagonal Mangifera totem in the hotel, the inspiration is derived from the star elements of the ancient Roman Cabi Dorio Square designed by Mikalang Kilo, and is an important element in the design of Baogli hotels.

The common stone and metal inlaying in decoration is mainly in the form of line inlaying (high repair rate) or a batten between two materials, and the inlaying process in a non-close-fitting form (large expansion space) is generally adopted.

The eight-star copper plate is made of pure copper, the maximum diameter is close to 2m, the thickness is 8mm, the occupied area and the pedestrian volume are dense, and the problems of copper plate arching, warping, deformation and the like are easily caused due to the fact that the material is subjected to thermal expansion and cold shrinkage and the bonding strength is not enough.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that exists among the prior art, the utility model provides a reasonable in design's an eight mango star copper mounting structure.

The technical scheme of the utility model as follows:

an eight-mango-star copper plate mounting structure is characterized by comprising an eight-mango-star copper plate, a stainless steel plate, a stone back plate and a concrete structure layer, wherein a reinforcing screw is fixedly arranged at the back of the eight-mango-star copper plate, a through hole is formed in the stainless steel plate, the reinforcing screw penetrates through the through hole of the stainless steel plate and is welded with the back of the stainless steel plate, so that the eight-mango-star copper plate and the stainless steel plate are fixed into a whole, the stone back plate is provided with a through hole through which the reinforcing screw penetrates, and the reinforcing screw is fixed through a nut, so that the stone back plate, the stainless steel plate and the eight-mango-star copper plate are fixedly connected; the stone back plate is arranged on the concrete structure layer.

The eight-mango-star copper plate mounting structure is characterized in that the eight-mango-star copper plate is formed by splicing eight quadrilateral copper single plates.

The eight-miscanthus copper plate mounting structure is characterized in that the number of the reinforcing screws is forty, five reinforcing screws are welded on each copper single plate, and the reinforcing screws are respectively arranged at the four tips of each copper single plate and the middle position of the long end of each copper single plate.

The eight-star-shaped copper plate mounting structure is characterized in that a stone panel is arranged on the periphery of the eight-star-shaped copper plate, is fixedly arranged on a stone back plate, and is parallel to the upper surface of the eight-star-shaped copper plate.

The eight-star copper plate mounting structure is characterized in that the stainless steel plate corresponds to the eight-star copper plate in shape.

The eight-mango-star copper plate mounting structure is characterized in that an adhesive layer is further arranged between the stainless steel plate and the stone back plate.

The utility model has the advantages that:

1) the back of the eight-mango-star copper plate is connected with the stainless steel plate and the stone back plate through the reinforcing screws, and the adhesive layer is further arranged between the stainless steel plate and the stone back plate, so that the flatness of the plane of the eight-mango-star copper plate is effectively improved, and the eight-mango-star copper plate is prevented from arching, warping, deforming and the like.

2) The eight-star copper plate, the stainless steel plate, the stone panel and the stone back plate can be produced in a factory, so that construction is fast, the construction period is shortened, and the labor cost is reduced.

3) The structure is simple to install, good in stability, economical and environment-friendly, and reduces the later maintenance times and cost.

Drawings

Fig. 1 is a schematic view of the overall installation structure of the present invention;

fig. 2 is a schematic view of the back mounting structure of the eight-star copper plate of the present invention;

fig. 3 is a schematic view of the front structure of the eight-star copper plate of the present invention;

in the figure: 1-concrete structure layer, 2-stone back plate, 3-reinforcing screw, 4-copper plate with eight star, 5-stainless steel plate, 6-stone panel and 7-nut.

Detailed Description

The invention is further described with reference to the accompanying drawings.

As shown in fig. 1-3, an eight-mango-star copper plate mounting structure includes a concrete structure layer 1, a stone back plate 2, a reinforcing screw 3, an eight-mango-star copper plate 4, a stainless steel plate 5, a stone panel 6 and a nut 7.

Eight miscanthus copper mounting structure, including eight miscanthus copper 4, corrosion resistant plate 5, stone material backplate 2 and concrete structure layer 1, 4 fixed set up reinforcing screw 3 in the back of the miscanthus copper, it has the through-hole to open on the corrosion resistant plate 5, reinforcing screw 3 passes the through-hole of corrosion resistant plate 5 and corrosion resistant plate 5's back welding, makes eight miscanthus copper 4 and corrosion resistant plate 5 fixed as an organic whole, and wherein corrosion resistant plate 5 is corresponding with 4 appearances of eight miscanthus copper. The stone back plate 2 is provided with a through hole for the reinforcing screw 3 to pass through and is fixed with the reinforcing screw 3 through a nut 7, so that the stone back plate 2, the stainless steel plate 5 and the Bayingxing copper plate 4 are fixedly connected; wherein an adhesive layer is arranged between the stainless steel plate 5 and the stone back plate 2. The stone back plate 2 is arranged on the concrete structure layer 1.

The eight-mango-star copper plate 4 is formed by splicing eight quadrilateral copper single plates 401. The number of reinforcing screws 3 on the back of the copper plate 4 with eight miscanthus is forty, five reinforcing screws are welded on each copper single plate 401 and are respectively arranged at the middle positions of four tips and long ends of each copper single plate 401.

Eight miscanthus copper 4 is equipped with stone material panel 1 all around, stone material panel 1 is fixed to be set up on stone material backplate 2, and with 4 upper surface parallel and level of eight miscanthus copper.

Example (b):

the eight-mango-star copper plate mounting structure is characterized in that an eight-mango-star copper plate 4 is a 10mmH62 brass plate, and the front surface and the back surface of the eight-mango-star copper plate are machined and formed to be 8mm in thickness; after the copper plate is cut by laser (clamping allowance is reserved), the copper plate is formed by precision linear cutting, a copper single plate 401 is formed, the front side and the back side of the copper plate are ground and leveled by a precision grinding machine, and the flatness is not more than 0.05 mm.

The copper single plates 401 are of quadrilateral structures, reinforcing screws are welded to the back of the copper single plates, the number of the reinforcing screws is forty, and five copper single plates 401 are respectively arranged in the middle of four tip ends and the middle of a long end of each copper sheet.

The back of the eight-mango-star copper plate 4 is provided with a stainless steel plate 5 with the thickness of 12mm, a through hole is formed in the stainless steel plate 5, a reinforcing screw 3 penetrates through the through hole of the stainless steel plate 5 to be welded with the back of the stainless steel plate 5, the eight-mango-star copper plate and the stainless steel plate 5 are fixed into a whole, a through hole for the reinforcing screw 3 to penetrate is formed in the stone back plate 2, and the stone back plate 2, the stainless steel plate 5 and the eight-mango-star copper plate 4 are fixedly connected through a nut 7 and the reinforcing screw.

The copper single plates 401 are assembled in blocks, the stainless steel plates 5 are connected with the stone back plate 2 through bolts, and an adhesive layer is further arranged between the stainless steel plates and the stone back plate to increase the bonding stress surface, prevent local arching and hollowing and completely eliminate abnormal sound generated by treading. The seam gap is ensured not to be larger than 0.1mm, and the flatness of the decorative surface of the eight-star copper plate 4 is ensured not to be larger than 0.2 mm.

Claims (6)

1. An eight-mango-star copper plate mounting structure is characterized by comprising an eight-mango-star copper plate (4), a stainless steel plate (5), a stone back plate (2) and a concrete structure layer (1), wherein a reinforcing screw (3) is fixedly arranged at the back of the eight-mango-star copper plate (4), a through hole is formed in the stainless steel plate (5), the reinforcing screw (3) penetrates through the through hole of the stainless steel plate (5) to be welded with the back of the stainless steel plate (5), so that the eight-mango-star copper plate (4) and the stainless steel plate (5) are fixed into a whole, a through hole for the reinforcing screw (3) to penetrate through is formed in the stone back plate (2), and the stone back plate (2), the stainless steel plate (5) and the eight-mango-star copper plate (4) are fixed through a nut (7) and the reinforcing screw (3), so that the stone back plate (2; the stone back plate (2) is arranged on the concrete structure layer (1).

2. The eight-miscanthus copper plate mounting structure is characterized in that the eight-miscanthus copper plate (4) is formed by splicing eight quadrilateral copper single plates (401).

3. An eight mango star copper plate mounting structure as claimed in claim 2, characterized in that the number of the reinforcing screws (3) is forty, five reinforcing screws are welded to each copper single plate (401), and are respectively arranged at the middle positions of four tips and long ends of the copper single plate (401).

4. The eight-mango-star copper plate mounting structure as claimed in claim 1, wherein a stone panel (6) is arranged around the eight-mango-star copper plate (4), and the stone panel (6) is fixedly arranged on the stone back plate (2) and is flush with the upper surface of the eight-mango-star copper plate (4).

5. An eight-mars copper plate mounting structure, according to claim 1, characterized in that, the stainless steel plate (5) corresponds to the shape of the eight-mars copper plate (4).

6. The eight-mango-star copper plate mounting structure as claimed in claim 1, wherein an adhesive layer is further provided between the stainless steel plate (5) and the stone back plate (2).

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