CN213449249U - Wall stone dry hanging structure - Google Patents

Abstract

The utility model relates to a wall stone material hangs structure futilely, including wall body and slabstone, the vertical fossil fragments that are equipped with on the wall body, the fossil fragments interval is equipped with a plurality ofly, every equal vertical T-shaped groove of having seted up on the fossil fragments, the slabstone is close to the vertical an organic whole in one side of wall body and is connected with the T-shaped piece, the T-shaped piece slides and sets up in the T-shaped groove. This application has the wholeness that effectively improves the slabstone, improves the effect of installation steadiness.

Description

Wall stone dry hanging structure

Technical Field

The application relates to the technical field of wall decoration, in particular to a wall stone dry hanging structure.

Background

The wall stone dry hanging is a wall decoration process which utilizes metal components to directly hang stone on the wall. During construction, the metal hanging pieces are fixedly connected to the wall surface, and then the facing stone is directly hung on the metal hanging pieces to form the stone decorative curtain wall without grouting and pasting.

According to the different stone hanging and mounting methods, the method is generally divided into a bolt type: namely, precisely processing a round hole at the edge of the stone, implanting a pin into the hole, and fixing the porcelain plate on the keel through a connecting piece; the open trough type: precisely processing a groove at the edge of the stone, buckling the hanging piece into the groove, and fixing the porcelain plate on the keel through the connecting piece; and a back bolt type: utilize the trompil equipment of specialty, at the big little toper round hole in porcelain plate back accurate processing the inside, outside, implant the crab-bolt in the hole, twist the screw rod, make crab-bolt bottom expand completely, identical with the bell mouth, form a unstressed protruding type and combine, fix the stone material on fossil fragments through the connecting piece.

However, in the related art, holes or grooves need to be formed in the stone when the stone is installed, the stone is damaged to a certain extent, and due to the hard and brittle characteristics of the stone, the stone subjected to secondary processing is more easily damaged in the later use process, especially for a thinner stone, the stone is more easily damaged after secondary processing, and further, the contact position between the stone and the metal hanger is not firmly hung, and the like, so that the hanging service life of the stone is affected.

Aiming at the related technologies, the inventor considers that the stone dry hanging structure before being improved has the defects of instable hanging and installation and general service life when the stone is installed.

SUMMERY OF THE UTILITY MODEL

In order to improve the steadiness of stone material installation, improve the life that the dress was hung to the stone material, this application provides a wall stone material hangs structure futilely.

The application provides a wall stone material hangs structure futilely adopts following technical scheme:

the utility model provides a wall stone material hangs structure futilely, includes wall body and slabstone, the vertical fossil fragments that are equipped with on the wall body, the fossil fragments interval is equipped with a plurality ofly, every equal vertical T-shaped groove of having seted up on the fossil fragments, the slabstone is close to the vertical an organic whole in one side of wall body and is connected with the T-shaped piece, the T-shaped piece slides and sets up in the T-shaped groove.

By adopting the technical scheme, when the stone slab is installed, the keel is installed on the wall body, then the stone slab gradually slides along the T-shaped groove from top to bottom until the stone slab is installed on the keel, and the installation process is simple; when the stone slab is manufactured, the T-shaped blocks are prefabricated on the stone slab as a whole, the stone slab does not need to be subjected to secondary processing during installation, and the stone slab is not damaged, so that the integrity of the stone slab is ensured, the installation stability of the stone slab is improved, and the service life of the stone slab is prolonged; moreover, T-shaped piece and wallboard body coupling have improved the steadiness of connecting greatly to the joint complex stability between T-shaped piece and the T-shaped groove has been improved, the installation steadiness of wallboard has finally been improved.

Optionally, the T-shaped blocks are arranged in multiple sections along the vertical direction of the stone plate.

Through adopting above-mentioned technical scheme, the T-shaped piece falls into the multistage slip joint in the T-shaped groove, mutual independence between a plurality of T-shaped pieces, and when one of them T-shaped piece took place to damage, spacing fixed action was played as usual to all the other T-shaped pieces to reduce the risk that slabstone drops from the T-shaped groove, improved the steadiness of slabstone installation.

Optionally, a reinforcing block is arranged between each two adjacent keels, and two ends of the reinforcing block in the length direction are fixedly connected to the two keels.

Through adopting above-mentioned technical scheme, the boss makes and forms the relation of connection between two adjacent fossil fragments, and a plurality of bosses make and form the relation of connection of wholeness between many fossil fragments to improve the stability of connecting between many fossil fragments, further improved the steadiness of slabstone installation.

Optionally, cushion blocks are arranged between the two ends of the reinforcing block in the length direction and the keels.

Through adopting above-mentioned technical scheme, improved the area of contact between boss and the fossil fragments to improve the steadiness of being connected between boss and the fossil fragments, reduce the risk that fossil fragments drop from the wall body, further improved the steadiness of connecting between many fossil fragments, further improved the steadiness of slabstone installation.

Optionally, the reinforcing block is fixedly provided with a connecting block, the length direction of the connecting block is perpendicular to the wall body, a supporting plate is horizontally arranged at one end, away from the reinforcing block, of the connecting block, the length direction of the supporting plate is parallel to the wall body, and the upper surface of the supporting plate is abutted to the bottom surface of the stone slab.

By adopting the technical scheme, the support plate has the vertical supporting and limiting functions on the stone plate, so that the extrusion force of the stone plate above the stone plate to the stone plate below the stone plate under the action of self gravity is reduced, the damage of the stone plate is reduced, and the installation stability of the stone plate is further improved; and the backup pad is as supplementary strong point, reduces the slabstone and takes place the condition of damaging because of the power of dragging of self weight to T-shaped piece and T-shaped groove, reduces the T-shaped piece, improves the steadiness of installation.

Optionally, the connecting block is designed to be triangular prism-shaped, the connecting block is arranged to penetrate through the reinforcing block, an insertion groove is formed in the wall body, the insertion groove is matched with the connecting block in shape, and one end, close to the wall body, of the connecting block is inserted into the insertion groove.

Through adopting above-mentioned technical scheme, the structure of the connecting block of triangular prism form is comparatively stable, has improved the connecting block to the supporting role of backup pad, moreover, the connecting block is pegged graft and has further improved the connecting block to the support capacity of backup pad in the inserting groove to further improved the backup pad to the support capacity of slabstone, improved the steadiness of slabstone installation.

Optionally, adhesive layers are arranged between the top surface and the bottom surface of the supporting plate and the stone plate, and the bottom surface of the supporting plate is abutted to the stone plate below the supporting plate.

Through adopting above-mentioned technical scheme, the adhesive layer makes the backup pad respectively with form fixed connection between two slabstones that vertical direction is adjacent, the backup pad is as the intermediate level, the use of cooperation adhesive layer, and then make and form the relation of connection between the adjacent slabstone, finally form the wholeness with between a plurality of slabstones and connect, the steadiness of connecting between the slabstone has further been improved, utilize the backup pad as the intermediate level, demolish the in-process at the later stage and also can select the sacrifice backup pad, and do not lead to the fact the damage to the slabstone.

Optionally, the top surface and the bottom surface of slabstone all are equipped with a plurality of archs, the top surface and the bottom surface of backup pad all are equipped with the recess, protruding and recess joint cooperation.

Through adopting above-mentioned technical scheme, the cooperation of arch and recess makes the backup pad play the limiting displacement along perpendicular wall body direction to the slabstone, has further improved the steadiness of slabstone installation.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the T-shaped groove is formed in the keel, the T-shaped block is prefabricated on the stone slab, and when the stone slab is installed, the stone slab only needs to be installed on the T-shaped block along the T-shaped groove without secondary drilling, grooving and other processing on the stone slab, so that the integrity of the stone slab is improved, the installation stability of the stone slab is improved, and the service life of the stone slab is prolonged;

2. the reinforcing blocks are fixedly connected between the adjacent keels, so that the plurality of keels are integrally connected, the mounting stability of the keels is improved, and the mounting stability of the stone slab is further improved;

3. the reinforcing block is provided with the triangular prism-shaped connecting block, one end, close to the wall body, of the connecting block is inserted into the wall body, the end, far away from the wall body, of the connecting block is provided with the supporting plate, and the supporting plate is abutted against the adjacent stone slab, so that the supporting and limiting effects of the supporting plate on the stone slab are improved;

4. all be equipped with the adhesive layer and with the slabstone butt through upper surface and the lower surface at the backup pad for backup pad and two adjacent slabstones of vertical direction form the relation of connection, and then make to form the wholeness between a plurality of slabstones and connect, improve the steadiness that slabstone connects.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a dry-hang structure;

FIG. 2 is a schematic view for showing the structure of a stone slab;

fig. 3 is a partially enlarged view of a portion a in fig. 1.

Description of reference numerals: 1. a wall body; 2. a stone slab; 3. a keel; 4. a T-shaped slot; 5. a T-shaped block; 6. a reinforcing block; 7. connecting blocks; 8. a support plate; 9. inserting grooves; 10. a protrusion; 11. a groove; 12. and (7) mounting the plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

Referring to fig. 1, a wall stone dry hanging structure is disclosed in the embodiments of the present application. This hang structure futilely includes the wall body 1 of vertical setting, and vertical fixed being equipped with many fossil fragments 3 on wall body 1, the interval sets up between many fossil fragments 3, specifically is: the region that lies in every fossil fragments 3 places on wall body 1 all is equipped with a plurality of mounting panels 12, and mounting panel 12 is equipped with two pairs along the length direction of fossil fragments 3, lies in the top and the bottom of wall body 1 respectively, and mounting panel 12 threaded connection is in wall body 1, and mounting panel 12 establishes to L shape, and 3 joints of fossil fragments are between the one side that two mounting panels 12 are close to mutually, threaded connection between fossil fragments 3 and two mounting panels 12.

Referring to fig. 1 and 2, a stone plate 2 is hung on each keel 3, specifically: equal vertical T-slot 4 of having seted up on every fossil fragments 3, the vertical an organic whole in one side that is close to wall body 1 at slabstone 2 is connected with T-shaped piece 5, and T-shaped piece 5 slides and sets up in T-slot 4. When mounting, the stone slab 2 is slid along the length direction of the keel 3 so that the T-shaped blocks 5 are slid in the T-shaped grooves 4. T-shaped block 5 divides into the multistage setting along slabstone 2's vertical direction, and T-shaped block 5 sets up to two sections in this embodiment, and is mutually independent between two T-shaped blocks 5, and when one of them T-shaped block 5 takes place to damage, remaining T-shaped block 5 plays spacing fixed action as usual to slabstone 2 has been reduced from the risk that drops in T-shaped groove 4.

Referring to fig. 1 and 3, equal horizontal fixedly connected with bar massive boss 6 between two adjacent keels 3, the length direction parallel wall 1 of boss 6 sets up, and 6 length direction's of boss both ends fixed connection are on two keels 3, all weld between 6 length direction's of every boss both ends and the keel 3 have cushion 61. A plurality of bosses 6 are connected the wholeness between fossil fragments 3, have then improved the steadiness of connecting between fossil fragments 3, have further improved the steadiness that slabstone 2 installed.

Referring to fig. 1 and 3, a connecting block 7 is fixedly arranged on a reinforcing block 6, the connecting block 7 is triangular prism-shaped, the length direction of the connecting block 7 is perpendicular to a wall body 1, the connecting block 7 is arranged to penetrate through the reinforcing block 6, an insertion groove 9 is arranged on the wall body 1, the insertion groove 9 is matched with the shape of the connecting block 7, and one end, close to the wall body 1, of the connecting block 7 is inserted into the insertion groove 9; keep away from the one end level of boss 6 at connecting block 7 and be equipped with backup pad 8, the length direction parallel wall body 1 setting of backup pad 8, the upper surface and the 2 bottom surfaces butt of slabstone of backup pad 8. The connecting block 7 is welded with the reinforcing block 6 after being installed. In order to improve the steadiness of connecting between backup pad 8 and the adjacent slabstone 2, all be equipped with the adhesive layer between the top surface of backup pad 8, bottom surface and slabstone 2, specifically be dedicated dry-hang glue, the slabstone butt of backup pad 8's bottom surface and below.

Referring to fig. 3, the top surface and the bottom surface of the stone slab 2 are both provided with a plurality of protrusions 10, the top surface and the bottom surface of the support plate 8 are both provided with grooves 11, and the protrusions 10 are in clamping fit with the grooves 11. Make 8 limit action along 1 direction of perpendicular wall body of backup pad to slabstone 2 play, further improved the steadiness of slabstone 2 installation.

The implementation principle of the wall stone dry hanging structure in the embodiment of the application is as follows: the method comprises the following installation steps: first, with mounting panel 12 threaded connection in wall body 1, with fossil fragments 3 joint between the one side that mounting panel 12 is close to each other, utilize bolt and nut with fossil fragments 3 bolted connection in mounting panel 12.

Secondly, mounting the stone slabs 2 on the keel 3 from top to bottom, and sequentially mounting all the stone slabs 2 at the bottommost layer;

and thirdly, welding cushion blocks at corresponding positions of two adjacent keels 3 close to the vertical side faces, welding the reinforcing block 6 between the two cushion blocks, then inserting the connecting block 7 into the wall body 1, and welding the connecting block 7 on the reinforcing block 6, so that the bottom face of the supporting plate 8 is abutted to the stone plate 2 below.

Fourthly, coating glue between the bottom surface of the support plate 8 and the stone plate 2 below, wherein in the embodiment, special dry hanging glue is selected;

and fifthly, sequentially mounting the stone slabs 2 on the second layer above the stone slab 2 on the bottommost layer, and similarly coating glue between the upper surface of the support plate 8 and the bottom surfaces of the stone slabs 2 on the second layer.

And (3) installing the rest stone slabs 2 from bottom to top in sequence according to the steps from the third step to the fifth step, and installing rubber sealing strips between the adjacent stone slabs 2 in the vertical direction after all the stone slabs 2 are installed, so that the overall attractiveness of the wall surface is ensured.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a wall stone material hangs structure futilely, includes wall body (1) and slabstone (2), its characterized in that: the wall body (1) is provided with a plurality of keels (3) vertically, the keels (3) are provided with a plurality of T-shaped grooves (4) vertically, the stone plate (2) is close to one vertical surface of the wall body (1) and is connected with T-shaped blocks (5) in a sliding mode, and the T-shaped blocks (5) are arranged in the T-shaped grooves (4) in the sliding mode.

2. The wall stone dry-hanging structure of claim 1, characterized in that: the T-shaped blocks (5) are arranged in a plurality of sections along the vertical direction of the stone plate (2).

3. The wall stone dry-hanging structure of claim 1, characterized in that: all be equipped with boss (6) between two adjacent fossil fragments (3), boss (6) length direction's both ends fixed connection is on two fossil fragments (3).

4. The wall stone dry-hanging structure of claim 3, characterized in that: cushion blocks (61) are arranged between the two ends of the reinforcing block (6) in the length direction and the keels (3).

5. The wall stone dry-hanging structure of claim 4, characterized in that: the fixed connecting block (7) that is equipped with on boss (6), the perpendicular wall body of length direction (1) setting of connecting block (7), the one end level that boss (6) were kept away from in connecting block (7) is equipped with backup pad (8), the parallel wall body of length direction (1) setting of backup pad (8), the upper surface and slabstone (2) bottom surface butt of backup pad (8).

6. The wall stone dry-hanging structure of claim 5, characterized in that: the connecting block (7) is designed to be triangular prism-shaped, the connecting block (7) penetrates through the reinforcing block (6), an insertion groove (9) is formed in the wall body (1), the insertion groove (9) is matched with the connecting block (7) in shape, and one end, close to the wall body (1), of the connecting block (7) is inserted into the insertion groove (9).

7. The wall stone dry-hanging structure of claim 5, characterized in that: adhesive layers are arranged between the top surface and the bottom surface of the support plate (8) and the stone plate (2), and the bottom surface of the support plate (8) is abutted to the stone plate (2) below.

8. The wall stone dry-hanging structure of claim 5, characterized in that: the top surface and the bottom surface of slabstone (2) all are equipped with a plurality of archs (10), the top surface and the bottom surface of backup pad (8) all are equipped with recess (11), protruding (10) and recess (11) joint cooperation.

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