CN209891637U - Interior wall is decorated to no shadow printing opacity stone material - Google Patents

Abstract

The utility model relates to a shadow-free printing opacity stone material decorates interior wall. It comprises the following components: the light-transmitting stone slab comprises a structural wall body, a steel skeleton, a plurality of light-transmitting stone slabs and a plurality of U-shaped grooves, wherein the steel skeleton is fixed on the structural wall body through an angle connector and a bolt; during installation, four corners of the light-transmitting stone plate are installed in corresponding U-shaped grooves, and the overhanging keels are combined with the sum of the installation height in the U-shaped grooves and the height of the rectangular notches of the convex plate blocks and matched to enable the light-transmitting stone plates to be vertically adjacent to each other in a seamless mode. After adopting above-mentioned structure and construction method, this novel characteristics that have the assembly construction, convenient to overhaul maintenance, segmentation equipment, safe and reliable.

Description

Interior wall is decorated to no shadow printing opacity stone material

Technical Field

The utility model relates to an interior wall is decorated to assembly construction, easy access maintenance, segmentation equipment, safe and reliable's no shadow printing opacity stone material is refered in particular to in the architectural decoration technical field.

Background

Natural marble is not the best choice material for designers at home and abroad because of its consistent elegant, luxurious and natural texture; countless villas and hotels select high-quality natural stone to show the honorable identity of the villas and hotels; when the indoor wall surface is decorated by the stone, in order to strengthen the decoration effect, unique textures of the natural stone are highlighted, and the light source is added on the back surface of the stone to form the light-transmitting stone decoration. However, the existing dry-hanging stone installation technology cannot achieve the expected decorative effect due to the following reasons: firstly, after the stone is thinned to meet the light transmission requirement, the problem of connection between a pendant and the stone needs to be solved; secondly, a light source is added on the back of the stone, so that the natural texture is clearer, and meanwhile, the shadow of the back structural steel frame is projected on the surface of the stone, so that the appearance is influenced; and thirdly, the lamp strip in the stone plate needs to be overhauled, and if an access hole is formed in the surface of the stone according to the conventional method, the integral attractiveness of the decorative surface is damaged.

Disclosure of Invention

The novel shadow-free light-transmitting stone decorative inner wall aims at overcoming the defects of the prior art, is assembled, convenient to maintain and repair, assembled in a segmented mode, safe and reliable, and has no defects.

In order to achieve the purpose, the novel technical scheme is as follows: a shadow-free transparent stone decorative inner wall comprises: the light-transmitting stone slab comprises a structural wall body, a steel skeleton, a plurality of light-transmitting stone slabs and a plurality of U-shaped grooves, wherein the steel skeleton is fixed on the structural wall body through angle codes and bolts,

the light-transmitting stone slab comprises a steel skeleton, a light-transmitting stone slab, a plurality of cantilever keels, a plurality of light-transmitting stone slabs and a plurality of light-transmitting stone slabs, wherein the left side and the right side of the steel skeleton are transversely provided with a plurality of cantilever keels perpendicular to a structural wall at intervals, the plurality of cantilever keels are symmetrically arranged on the left side and the right side of the steel skeleton, a rectangular frame formed by four adjacent cantilever keels is matched with the light-transmitting stone slab in shape and size, the cantilever keels protrude out of the outer edge of the steel skeleton to form protruding ends, U-shaped grooves are respectively fixed on the upper end face and the lower end face of the protruding end of the cantilever keel in the middle, the U-shaped grooves are;

the printing opacity stone material board is opened above by a rectangle plate and a plurality of left and right sides and is had "protruding" template block group of rectangle breach and constitute, and during the installation, four bights of printing opacity stone material board are installed in the U type inslot that corresponds, the fossil fragments height of encorbelmenting combine the mounting height sum in the U type inslot with seamless concatenation between the printing opacity stone material board of upper and lower adjacent is made with the phase-match to the height of the rectangle breach of "protruding" template block.

And a rubber gasket for finely adjusting seamless splicing between the upper and lower adjacent light-transmitting stone plates is arranged in the U-shaped groove.

The steel skeleton is including inboard steel stand, a plurality of sections outside steel stand, a plurality of sections transverse support fossil fragments and a plurality of sections the fossil fragments of encorbelmenting, inboard steel stand pass through angle sign indicating number and bolt fastening on structural wall body, the one end of encorbelmenting fossil fragments welds on inboard steel stand, the other end of encorbelmenting fossil fragments is the state of encorbelmenting, and a plurality of sections outside steel stand welds respectively and is adjacent the other end of encorbelmenting fossil fragments is inboard, and a plurality of sections transverse support fossil fragments welds between the relative inboard steel stand about.

The inner side surface of the U-shaped groove is fixed with the outer side surface of the outer steel upright post; the overhanging keel is a square tube.

The light-transmitting stone plate is formed by bonding and compounding a stone thin plate and a glass panel through transparent structural adhesive.

A metal plate is welded in the steel skeleton, and an LED lamp strip is fixed on the metal plate.

The periphery of the light-transmitting stone plate is bonded with a clamping plate for edge covering, and a stainless steel facing is pasted on the surface of the clamping plate for edge closing.

And glass cement with edge sealed is injected into the gap between the light-transmitting stone plate and the stainless steel facing.

After adopting above-mentioned structure, this novel following characteristics that have:

1) the stone veneer is thinned, the glass plate is pasted on the back side, the strength of the stone is enhanced, the stone is effectively protected from being damaged in the using process, the material consumption of the stone is reduced, the cost is saved, and the glass has the light-transmitting performance, so that the texture of the stone can be transmitted out clearly.

2) The printing opacity stone material is decorated the veneer and is vertically assembled by a plurality of printing opacity stone material panels and form, and the printing opacity stone material plate passes through the bearing of the U type groove of the horizontal keel protruding portion of encorbelmenting of steel skeleton both sides and fixes, and finely tunes through the rubber gasket in the U type groove, reaches seamless concatenation between the adjacent printing opacity stone material panel, does not have steel frame construction in the middle of satisfying the veneer to guarantee the even no shadow of printing opacity, the veneer installation is accomplished the back, wraps the stainless steel veneer all around and hides steel construction frame.

3) Convenient to overhaul, when needing to overhaul, hold the printing opacity stone material plate of the top with powerful glass sucking disc, take out it, then carry out the change in LED lamp area, avoid conventional way to open the whole aesthetic property that the access hole destroyed the veneer on stone material surface.

4) The LED lamp is arranged on the galvanized iron plate and fixed, the LED lamp is manufactured in a factory and transported to a site for assembly, construction precision is guaranteed, and construction speed is improved.

Drawings

FIG. 1 is an exploded view of the steel skeleton and the light-transmitting stone panel;

FIG. 2 is a front view of the novel steel skeleton and light-transmitting stone panel;

FIG. 3 is a schematic view of the cross-sectional structure taken along the line A-A of FIG. 2;

FIG. 4 is a schematic view of the cross-sectional structure of FIG. 2 taken along the direction B-B;

FIG. 5 is a schematic view of the cross-sectional structure of FIG. 2 taken along the direction C-C;

FIG. 6 is a schematic view of the cross-sectional structure of FIG. 2 taken along the direction D-D;

fig. 7 is a schematic structural diagram of the front side of the embodiment of the present invention.

Fig. 8 is an enlarged view of a part E of fig. 3.

Detailed Description

The following description of the present invention will be made in detail with reference to the accompanying drawings 1 to 8.

This novel interior wall is decorated to no shadow printing opacity stone material, including: the light-transmitting stone slab comprises a structural wall 10, a steel skeleton 20, a plurality of light-transmitting stone slabs 30 and a plurality of U-shaped grooves 40, wherein the steel skeleton 20 is fixed on the structural wall 10 through an angle connector 51 and bolts 52,

the left side and the right side of the steel skeleton 20 are transversely provided with a plurality of overhanging keels 21 perpendicular to the structural wall 10 at intervals, the overhanging keels 21 are symmetrically arranged on the left side and the right side of the steel skeleton 20, rectangular frames formed by the adjacent four overhanging keels 21 are matched with the light-transmitting stone plate 30 in shape and size, protruding ends 211 are formed by the overhanging keels 21 protruding out of the outer edge of the frame of the steel skeleton 20, U-shaped grooves 40 are respectively fixed on the upper end surface and the lower end surface of the protruding end 211 of the overhanging keel 21 in the middle, U-shaped grooves 40 are fixed on the lower end surface of the protruding end 211 of the overhanging keel 21 at the uppermost part, and U-shaped grooves 40 are fixed on the upper end surface of the protruding end 211 of the overhanging keel 21 at the;

the light-transmitting stone plate 30 is composed of a rectangular plate 31 and a plurality of convex plates 32 with rectangular notches 321 formed in the upper portions of the left side and the right side, during installation, four corners of the light-transmitting stone plate 30 are installed in corresponding U-shaped grooves 40, and the overhanging keels 21 are combined with the sum of installation heights in the U-shaped grooves 40 and the height and the matching of the rectangular notches 321 of the convex plates 32 to enable the light-transmitting stone plates 30 adjacent to each other to be spliced seamlessly.

The U-shaped groove 40 is internally provided with a rubber gasket 41 for finely adjusting the seamless splicing between the upper and lower adjacent transparent stone plates 30.

The steel skeleton 20 is including inboard steel column 22, a plurality of sections outside steel column 23, a plurality of sections horizontal support fossil fragments 24 and a plurality of sections hang over fossil fragments 21, and inboard steel column 22 is fixed on structure wall 10 through angle sign indicating number 51 and bolt 52, the one end of hanging over fossil fragments 21 welds on inboard steel column 22, the other end of hanging over fossil fragments 21 is the state of hanging over, and a plurality of sections outside steel column 23 welds respectively and is adjacent from top to bottom hang over fossil fragments 21's the other end inboard, and a plurality of sections horizontal support fossil fragments 24 welds between controlling relative inboard steel column 22.

The inner side surface of the U-shaped groove 40 is fixed with the outer side surface of the outer steel upright 23; the overhanging keel 21 is a square tube.

The light-transmitting stone plate 30 is formed by bonding and compounding a stone thin plate 30a and a glass panel 30b through a transparent structural adhesive 30 c.

A metal plate 60 is welded in the steel skeleton 20, and an LED strip 61 is fixed on the metal plate 60.

The periphery of the light-transmitting stone plate 30 is bonded with a clamping plate 70 for edge covering, and the surface of the clamping plate 70 is bonded with a stainless steel facing 71 for edge closing.

Glass cement with edge sealed is injected into the gap between the light-transmitting stone plate 30 and the stainless steel facing 71.

When the novel embodiment is installed, the installation is carried out according to the following steps:

firstly, measuring and paying off;

step two, the light-transmitting stone plate 30 is processed in a factory, the light-transmitting stone plate 30 is composed of a rectangular plate 31 and a plurality of convex-shaped plates 32, a processing list is compiled according to the field typesetting size, and the factory performs plate processing: the stone is polished to 4mm thickness, the back is glued with 6+2+6 ultra-white laminated glass by transparent structural adhesive, the convex plate 32 cuts two corner gaps at the upper end according to the size provided by the processing sheet, the composite light-transmitting stone plate 30 is numbered according to the using position and the installation sequence after being manufactured in the factory, and is transported to the site for installation;

thirdly, pre-arranging and checking the light-transmitting stone plates 30, pre-arranging the processed light-transmitting stone plates 30 in a flat field, checking whether the plates have cracks, unfilled edges and fall corners, whether the textures are clear and smooth, whether the colors are uniform and consistent, whether the requirements of site dimensions and the like are met, and storing the plates meeting the requirements for later use according to the numbers after the work is finished;

and step four, mounting the steel skeleton 20, cutting the 40 × 4 galvanized steel square tube into sections according to the design size, welding L40 × 50 galvanized connecting pieces additionally at the position of the elastic line of the structural wall 10, driving phi 8 expansion bolts to fix the inner steel upright posts 22, and welding the cantilever keels 21 on the inner steel upright posts 22 to form the framework. The two sides of the framework are transversely overhung the keel 21 to protrude out of the edge of the framework of the integral keel, and a U-shaped groove 40 is additionally welded at the top end of the framework below the protruding end 211 of the two sides of the transversely overhung keel 21; and a U-shaped groove 40 is additionally welded above the protruding parts of the transverse overhanging keels 21 on the two sides of the bottom end of the frame, and a U-shaped groove 40 is additionally welded at the protruding parts 211 of the transverse overhanging keels 21 on the two sides of the middle part of the frame respectively from top to bottom. An LED lamp strip 61 is fixed on the metal plate 60

Fifthly, mounting the hidden lamp, namely fixing the galvanized iron plate serving as the metal plate 60 on the inner steel upright 22 of the steel framework 20 through spot welding, and reinforcing the joint of two edges of the galvanized iron plate and the inner steel upright 22 by using angle bars of the galvanized iron plate with the thickness of 2mm L20; the LED lamp strip 61 is longitudinally arranged and stuck on the galvanized iron plate by using epoxy resin AB glue.

And step six, installing the transparent stone plate 30 from the bottom to the upper part in sequence. The light-transmitting stone plate blocks 30 of the convex-shaped plate blocks 32 are lifted upwards, aligned and welded in the U-shaped grooves 40 of the protruding ends 211 of the transverse overhanging keels 21 on the two sides of the steel skeleton 20, then the light-transmitting stone plate blocks are downwards placed into the U-shaped grooves 40 on the lower end, rubber gaskets 41 are placed in the U-shaped grooves 40 for adjustment, the convex-shaped plate blocks 32 are sequentially installed into the U-shaped grooves 40 in the above mode, the light-transmitting stone plate blocks 30 on the uppermost end are rectangular plate blocks 31 and lifted into the U-shaped grooves 40 on the upper end, then the light-transmitting stone plate blocks are downwards placed into the U-shaped grooves 40 on the lower end, fine adjustment is carried.

And seventhly, closing edges, wrapping the peripheries of the light-transmitting stone plates 30 by using flame-retardant clamping plates 70, adhering stainless steel veneers 71 on the surfaces of the clamping plates 70, closing the edges, and injecting glass cement to seal edges at the gaps between the light-transmitting stone plates 30 and the stainless steel veneers 71.

When the lamp strip is needed to be overhauled, the stainless steel decorative surface 71 frame and the clamping plate 70 on the periphery of the light-transmitting stone plate 30 are removed, the light-transmitting stone plate 30 at the top end is sucked by a strong glass sucker and lifted upwards, after the bottom end of the light-transmitting stone plate 30 leaves the U-shaped groove 40, the light-transmitting stone plate 30 is taken out, the LED lamp strip 61 is replaced, and after the light-transmitting stone plate 30 at the top end is lifted into the U-shaped groove 40 at the upper end and then is downwards placed into the U-shaped groove 40 at the lower end. And then the stainless steel facing 71 is mounted in a covered edge mode and sealed by glue.

Naturally, there are other embodiments of the invention, and it will be apparent to those skilled in the art that various changes and modifications can be made without departing from the spirit and scope of the invention, and it is intended that all such changes and modifications fall within the scope of the appended claims.

Claims (8)

1. A shadow-free transparent stone decorative inner wall comprises: structure wall body, steel skeleton, a plurality of printing opacity stone material board, a plurality of U type groove, the steel skeleton passes through angle sign indicating number and bolt fastening on structure wall body, its characterized in that:

the light-transmitting stone slab comprises a steel skeleton, a light-transmitting stone slab, a plurality of cantilever keels, a plurality of light-transmitting stone slabs and a plurality of light-transmitting stone slabs, wherein the left side and the right side of the steel skeleton are transversely provided with a plurality of cantilever keels perpendicular to a structural wall at intervals, the plurality of cantilever keels are symmetrically arranged on the left side and the right side of the steel skeleton, a rectangular frame formed by four adjacent cantilever keels is matched with the light-transmitting stone slab in shape and size, the cantilever keels protrude out of the outer edge of the steel skeleton to form protruding ends, U-shaped grooves are respectively fixed on the upper end face and the lower end face of the protruding end of the cantilever keel in the middle, the U-shaped grooves are;

the printing opacity stone material board is opened above by a rectangle plate and a plurality of left and right sides and is had "protruding" template block group of rectangle breach and constitute, and during the installation, four bights of printing opacity stone material board are installed in the U type inslot that corresponds, the fossil fragments height of encorbelmenting combine the mounting height sum in the U type inslot with seamless concatenation between the printing opacity stone material board of upper and lower adjacent is made with the phase-match to the height of the rectangle breach of "protruding" template block.

2. The inner wall decorated by non-shadow light-transmitting stone material as claimed in claim 1, wherein: and a rubber gasket for finely adjusting seamless splicing between the upper and lower adjacent light-transmitting stone plates is arranged in the U-shaped groove.

3. The inner wall decorated by non-shadow light-transmitting stone material as claimed in claim 1, wherein: the steel skeleton is including inboard steel stand, a plurality of sections outside steel stand, a plurality of sections transverse support fossil fragments and a plurality of sections the fossil fragments of encorbelmenting, inboard steel stand pass through angle sign indicating number and bolt fastening on structural wall body, the one end of encorbelmenting fossil fragments welds on inboard steel stand, the other end of encorbelmenting fossil fragments is the state of encorbelmenting, and a plurality of sections outside steel stand welds respectively and is adjacent the other end of encorbelmenting fossil fragments is inboard, and a plurality of sections transverse support fossil fragments welds between the relative inboard steel stand about.

4. The shadowless light-transmitting stone decorative inner wall as claimed in claim 3, wherein: the inner side surface of the U-shaped groove is fixed with the outer side surface of the outer steel upright post; the overhanging keel is a square tube.

5. The inner wall decorated by non-shadow light-transmitting stone material as claimed in any one of claims 1 to 4, wherein: the light-transmitting stone plate is formed by bonding and compounding a stone thin plate and a glass panel through transparent structural adhesive.

6. The shadowless light-transmitting stone decorative inner wall as claimed in claim 5, wherein: a metal plate is welded in the steel skeleton, and an LED lamp strip is fixed on the metal plate.

7. The shadowless light-transmitting stone decorative inner wall as claimed in claim 6, wherein: the periphery of the light-transmitting stone plate is bonded with a clamping plate for edge covering, and a stainless steel facing is pasted on the surface of the clamping plate for edge closing.

8. The shadowless light-transmitting stone decorative inner wall as claimed in claim 7, wherein: and glass cement with edge sealed is injected into the gap between the light-transmitting stone plate and the stainless steel facing.

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