CN203961199U - Without the dry bonding of keel stone material structure - Google Patents

Abstract

The utility model discloses a kind ofly without the dry bonding of keel stone material structure, it comprises stone material (1), dry viscose glue (2), steel plate (3), crab-bolt structure; It is upper that described crab-bolt structure is fixed on steel plate (3), is provided with seep through hole (5) as dry-hanging component on steel plate (3); Described dry-hanging component is fixed in the default slotted eye of body of wall (10) by crab-bolt structure (7); Stone material (1) is upper at steel plate (3) by dry viscose glue (2), and dry viscose glue (2) forms gum deposit layer between stone material (1) and steel plate (3), and in seep through hole (5), forms glue nail.Of the present utility model without the dry bonding of keel stone material structure, it is not enough that it can solve dry-hang stone thickness of slab, and the problem that some position cannot dry hanging construction, and saving steel, reduces costs greatly; Eliminate disaster hidden-trouble; Construction sequence reduces, and efficiency of construction improves; Minimizing takies the interior space, widens indoor usage space.

Description

Without the dry bonding of keel stone material structure

Technical field

The utility model relates to a kind of without the dry bonding of keel stone material structure.

Background technology

Current domestic wall-surface stone is installed and is all adopted dry-hanging method construction, and the requirement that the sheet metal thickness that current building supplies business provides does not often reach GB dry-hang stone high-class product, stone material thickness of slab negative common difference is bigger than normal, adopts conventional cladding mounting means cannot meet safety requirements, even cannot install.And many interior decorations position is because usage space requires restriction, also cannot adopt conventional dry-hanging method construction.

Utility model content

Utility model object of the present utility model is: provide that a kind of it is not enough that it can solve dry-hang stone thickness of slab without the dry bonding of keel stone material structure, and the problem that some position cannot dry hanging construction, on-the-spot without keel anyhow, saving steel, reduces costs greatly.

The technical solution of the utility model is: a kind of without the dry bonding of keel stone material structure, it comprises stone material, dry viscose glue, steel plate, crab-bolt structure; Described crab-bolt structure is fixed on steel plate, is provided with seep through hole as dry-hanging component on steel plate; Described dry-hanging component is fixed in the default slotted eye of body of wall by crab-bolt structure; Stone material is by dry viscose glue on steel plate, and dry viscose glue forms gum deposit layer between stone material and steel plate, and in seep through hole, forms glue nail.

Below technique scheme is further expalined:

On described stone material, be provided with glue-filling slot, dry viscose glue forms adhesive tape in glue-filling slot.

It is cladding that described dry-hanging component comprises that angle connects, and limit connects cladding, and center connects cladding.

Described crab-bolt structure comprises crab-bolt, barb, and described barb is welded in the termination of crab-bolt.

In the default slotted eye of described body of wall, be provided with structure glue.

Described crab-bolt is provided with screw thread all over the body.

Described barb is V-arrangement.

Described crab-bolt structure and steel plate 90 degree welding.

The default slotted eye inner termination of described body of wall is wider.

The utility model has the advantages that: of the present utility model without the dry bonding of keel stone material structure, it is not enough that it can solve dry-hang stone thickness of slab, and the problem that some position cannot dry hanging construction, on-the-spot without keel anyhow, saving steel, reduces costs greatly; On-the-spot welding technique, eliminates disaster hidden-trouble; Than general dry-hanging method, reduce construction sequence, improve efficiency of construction; Minimizing takies the interior space, widens indoor usage space.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is described further:

Fig. 1 is the schematic cross-section of the parting position of the utility model embodiment;

Fig. 2 is that the 4 Kong centers of the utility model embodiment connect cladding schematic three dimensional views;

Fig. 3 is that the limit in 2 holes of the utility model embodiment connects cladding schematic three dimensional views;

Fig. 4 is that the angle in 1 hole of the utility model embodiment connects cladding schematic three dimensional views;

Fig. 5 is the mounting plane schematic diagram of the utility model embodiment;

Wherein: 1 stone material; 2 dry viscose glues; 3 steel plates; 4 glue-filling slots; 5 seep through holes; 6 weld seams; 7 crab-bolts; 8 structure glue; 9 barbs; 10 bodies of wall.

The specific embodiment

Embodiment: as shown in Figure 1: a kind of without the dry bonding of keel stone material structure, it comprises stone material 1, dry viscose glue 2, steel plate 3, glue-filling slot 4, seep through hole 5, weld seam 6, crab-bolt structure, structure glue 8, body of wall 10.

Wherein: stone material 1 is general stone facing, and there is glue-filling slot 4 at its back side, after the dry viscose glue 2 in glue-filling slot 4 solidifies, form the higher adhesive tape of intensity, increase glue and stone material bond area, strengthen stone material 1 and dry viscose glue 2 adhesive strengths.Dry viscose glue, object bonds to stone material 1 on steel plate 3 securely.

It is cladding that dry-hanging component comprises that angle connects, and limit connects cladding, and center connects cladding.Crab-bolt structure comprises crab-bolt 7, barb 9, and barb 9 is welded in the termination of crab-bolt 7: barb 9 is soldered to crab-bolt structure 7 one end, prevents that crab-bolt 7 is drawn out to outside body of wall 10; Barb 9 is V-arrangement.Crab-bolt structure and steel plate 390 degree welding.Crab-bolt 7 one end welding steels 3, one end welding barb 9, is fixed to crab-bolt structure 7 in body of wall 10 by structure glue 8.The default slotted eye inner termination of body of wall 10 is wider.The steel plate 3 exposing is effectively connected with stone material 1 by dry viscose glue 2.Crab-bolt 7 whole body are provided with screw thread, the bond stress of its screw thread enhancing and structure glue 8; Body of wall 10 fixedly secures crab-bolt structure.

As shown in Figure 2, center connects cladding: welding steel 3 and barbs 9 are distinguished in crab-bolt 7 two ends as can be seen from Figure, process 4 seep through holes 5 on steel plate 3, connect respectively adjacent 4 blocks of stone materials.

As shown in Figure 3, limit connects cladding: welding steel 3 and barbs 9 are distinguished in crab-bolt 7 two ends as can be seen from Figure, process 2 seep through holes 5 on steel plate 3, connect respectively the adjacent 2 blocks of stone materials in corner.

As shown in Figure 4, angle connects cladding: welding steel 3 and barbs 9 are distinguished in crab-bolt 7 two ends as can be seen from Figure, process 1 seep through hole 5 on steel plate 3, connect 1 block of corner stone material.

As shown in Figure 5, crab-bolt structure is fixed on steel plate 3, is provided with seep through hole 5 as dry-hanging component on steel plate 3; Dry-hanging component is fixed in the default slotted eye of body of wall 10 by crab-bolt structure 7; In the default slotted eye of body of wall 10, be provided with structure glue 8.Stone material 1 is by dry viscose glue 2 on steel plate 3, and dry viscose glue 2 forms gum deposit layer between stone material 1 and steel plate 3, and in seep through hole 5, forms glue nail: on stone material 1, be provided with glue-filling slot 4, dry viscose glue 2 is in the interior formation adhesive tape of glue-filling slot 4.2 parts of the dry viscose glue under curdled appearance are not infiltrated in the glue-filling slot 4 of stone materials 1 as can be seen from Figure, after solidifying in the interior formation adhesive tape of glue-filling slot 4; In addition, when stone material 1 is installed, dry viscose glue 2 is under curdled appearance not, under stone material 1 squeezing action, dry viscose glue 2 is attached in steel plate 3 behind the seep through hole 5 by steel plate 3, solidifies rear formation glue nail, increase the bond area of dry viscose glue 2 and steel plate 3, strengthen the adhesive strength of dry viscose glue 2 and steel plate 3.Therefore, the glue of dry viscose glue 2 bilaterals nail and adhesive tape all form effective physical connection, thereby stone material 1 is bonded on steel plate 3 securely.

It should be pointed out that for the utility model through absolutely proving, also can there is the embodiment of multiple conversion and remodeling, be not limited to above-mentioned specific embodiment.Above-described embodiment is as just explanation of the present utility model, rather than to restriction of the present utility model.In a word, protection domain of the present utility model should comprise those apparent conversion or alternative and remodeling to those skilled in the art.

Claims (9)

1. without the dry bonding of a keel stone material structure, it is characterized in that: it comprises stone material (1), dry viscose glue (2), steel plate (3), crab-bolt structure; It is upper that described crab-bolt structure is fixed on steel plate (3), is provided with seep through hole (5) as dry-hanging component on steel plate (3); Described dry-hanging component is fixed in the default slotted eye of body of wall (10) by crab-bolt structure (7); Stone material (1) sticks on steel plate (3) above by dry viscose glue (2), and dry viscose glue (2) forms gum deposit layer between stone material (1) and steel plate (3), and in seep through hole (5), forms glue nail.

2. according to claim 1 without the dry bonding of keel stone material structure, it is characterized in that: on described stone material (1), be provided with glue-filling slot (4), dry viscose glue (2) forms adhesive tape in glue-filling slot (4).

3. according to claim 1 without the dry bonding of keel stone material structure, it is characterized in that: it is cladding that described dry-hanging component comprises that angle connects, and limit connects cladding, and center connects cladding.

4. according to claim 1 without the dry bonding of keel stone material structure, it is characterized in that: described crab-bolt structure comprises crab-bolt (7), barb (9), and described barb (9) is welded in the termination of crab-bolt (7).

5. according to claim 1 without the dry bonding of keel stone material structure, it is characterized in that: in the default slotted eye of described body of wall (10), be provided with structure glue (8).

6. according to claim 4 without the dry bonding of keel stone material structure, it is characterized in that: described crab-bolt (7) whole body is provided with screw thread.

7. according to claim 4 without the dry bonding of keel stone material structure, it is characterized in that: described barb (9) is V-arrangement.

8. according to claim 1 without the dry bonding of keel stone material structure, it is characterized in that: described crab-bolt structure and steel plate (3) 90 degree welding.

9. according to claim 1 without the dry bonding of keel stone material structure, it is characterized in that: the default slotted eye inner termination of described body of wall (10) is wider.