CN211597520U - Stone ground anti-lesion mounting structure - Google Patents

Abstract

The utility model relates to a stone ground disease-prevention and deformation-prevention mounting structure, which comprises a plurality of stone plates, inter-plate expansion joints arranged between adjacent stone plates and plate-wall expansion joints arranged between the stone plates and a wall body; the edges of the stone slabs are provided with matching oblique angles, inter-slab expansion joints are provided with inter-slab buffer components, and slab wall expansion joints are provided with slab wall buffer components for filling the slab wall expansion joints; the inter-plate buffer assembly comprises a first buffer rubber strip and a first filling block arranged on the first buffer rubber strip, the first filling block is provided with a matching inclined plane attached to a matching oblique angle, and a first buffer cavity is formed in the first buffer rubber strip; the board wall buffering subassembly includes second buffering adhesive tape and transitional coupling adhesive tape, and one side that the wall body was kept away from to the transitional coupling adhesive tape is equipped with the transition cambered surface, and the second buffering adhesive tape all laminates with the wall body with the side that the transitional coupling adhesive tape is close to the wall body. The utility model discloses have the effect that can prevent the stone material hunch-up or fracture.

Description

Stone ground anti-lesion mounting structure

Technical Field

The utility model belongs to the technical field of stone material ground installation and specifically relates to a stone material ground prevents disease and becomes mounting structure.

Background

The stone materials such as marble are common materials in the field of architectural decoration, the stone plate materials are usually adhered to the ground by cement mortar, and because of the unevenness of yellow sand and cement proportion and the change of air temperature, the condition of expansion with heat and contraction with cold often appears on the cement layer, and the stone plate materials can also be deformed in a stretching way.

In order to avoid dirt accumulation between the stone slabs and the wall body in the conventional stone slab laying, a small number of gaps are reserved in the middle, so that a sufficient space is difficult to reserve for the expansion of the stone slabs; the stone slab is easy to arch or crack, and the mounting structure which can avoid the stone slab ground from being diseased and avoid the gap from being accumulated and polluted is urgently needed to be provided.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a can prevent stone material ground mounting structure that stone material hunch-up or fracture to the not enough of prior art existence.

The above object of the present invention is achieved by the following technical solutions: a stone ground anti-lesion mounting structure comprises a plurality of stone plates, inter-plate expansion joints arranged between the adjacent stone plates and plate-wall expansion joints arranged between the stone plates and a wall body;

the edges of the stone slabs are provided with matching oblique angles, the inter-slab expansion joints are provided with inter-slab buffering assemblies, and the slab wall expansion joints are provided with slab wall buffering assemblies for filling the slab wall expansion joints;

the inter-plate buffer assembly comprises a first buffer rubber strip and a first filling block arranged on the first buffer rubber strip, the first filling block is provided with a matching inclined plane attached to the matching inclined plane, and a first buffer cavity is formed in the first buffer rubber strip;

the board wall buffering assembly comprises a second buffering rubber strip and a transition connection rubber strip, one side, away from the wall body, of the transition connection rubber strip is provided with a transition arc surface, and the second buffering rubber strip and the side, close to the wall body, of the transition connection rubber strip are both attached to the wall body.

By adopting the technical scheme, the matching inclined plane on the first filling block is attached to the matching oblique angle on the stone plate, so that the two sides of the first buffering rubber strip coat the side edge of the stone plate, the first buffering rubber strip is attached to the stone plate more tightly, and when the stone plate or the first buffering rubber strip contracts, the first buffering rubber strip can still be attached to the matching oblique angle of the stone plate better, and further dust and dirt are prevented from entering the expansion joint between the expansion joints better; when first cushion chamber makes stone slab take place the inflation, first buffering adhesive tape can produce deformation along with the extrusion of stone slab, the better increase of first cushion chamber moreover the performance of first buffering adhesive tape deformation. The second buffer rubber strip is used for plugging a gap between the stone slab and the wall body, and can better adapt to the deformation of the stone slab, so that the stone slab is prevented from cracking due to extrusion; the second buffer rubber strip can be well attached to the stone slab and the wall body, so that dust is prevented from entering gaps of the slab and the wall; the transition cambered surface on the transition joint adhesive tape can better avoid dirt to be accumulated at the joint of the wall body and the stone slab, so that the cleaning is more convenient.

The present invention may be further configured in a preferred embodiment as: the first buffer cavities are at least two, and a longitudinal reinforcing rubber strip is formed between every two adjacent first buffer cavities.

By adopting the technical scheme, the arrangement of the at least two first buffer cavities enables the first buffer rubber strips to be easier to deform, so that the first buffer rubber strips can better adapt to the deformation of the expansion joints between the plates during expansion with heat and contraction with cold, the first buffer rubber strips can be always attached to the stone plates, and the cracking or arching caused by the mutual extrusion of the stone plates can be better avoided; the longitudinal reinforcing rubber strip strengthens the bearing capacity of the inter-plate buffer assembly in the vertical direction, so that the upper surface of the first buffer rubber strip can be kept in a state of being flush with the surface of the stone slab as much as possible; and vertically consolidate the adhesive tape and strengthened the holistic structural toughness of first buffering adhesive tape for first buffering adhesive tape is changeed and is kick-backed, thereby better keeping and slabstone material laminating.

The present invention may be further configured in a preferred embodiment as: the adjacent lateral wall junction of first cushion chamber all is equipped with the buffering cambered surface.

Through adopting above-mentioned technical scheme, the buffering cambered surface makes the adjacent lateral wall of cushion chamber can be smooth transition connection more, the better condition of having avoided the junction of the adjacent lateral wall of cushion chamber to take place the fracture.

The present invention may be further configured in a preferred embodiment as: the first buffer rubber strip is provided with a first yielding groove along the length direction in a penetrating mode, and the first yielding groove is formed in one side, close to the ground, of the first buffer rubber strip.

Through adopting above-mentioned technical scheme, when installing first buffering adhesive tape in the inter-plate expansion joint, the bottom of first buffering adhesive tape can be folded in towards the first groove of stepping down to it is more convenient to make the first buffering adhesive tape of installation.

The present invention may be further configured in a preferred embodiment as: and the inter-plate buffer assembly and the board wall buffer assembly are both latex strips.

Through adopting above-mentioned technical scheme, the latex has better elasticity, and plasticity is better moreover, and processing into various shapes that can be convenient for inter-plate buffering subassembly and siding wall buffering subassembly can better adapt to the expend with heat and contract with cold of inter-plate expansion joint and siding wall expansion joint.

The present invention may be further configured in a preferred embodiment as: transition joint adhesive tape extends to cover towards one side of slabstone material and establishes the slabstone material upper surface, be equipped with the face of hugging closely with the slabstone material upper surface laminating on the transition joint adhesive tape, the contained angle between face of hugging closely and the transition cambered surface is the acute angle setting.

Through adopting above-mentioned technical scheme, the face of hugging closely is the acute angle setting with the transition cambered surface for the upper surface of stone slab of laminating that the face of hugging closely can be better, make transition connection adhesive tape and stone slab and wall connection's more stable, thereby better avoid during dirty entering into the siding wall expansion joint.

The present invention may be further configured in a preferred embodiment as: the second buffer rubber strip is provided with a second buffer cavity, one side, facing the ground, of the second buffer rubber strip is provided with a second yielding groove, and a transverse reinforcing rubber strip is arranged between the second buffer cavity and the second yielding groove.

Through adopting above-mentioned technical scheme, the second cushion chamber makes the change of the expend with heat and contract with cold of adaptation siding wall expansion joint that second buffering adhesive tape can be better, and the second groove of stepping down makes the installation that second buffering adhesive tape can be more convenient in the siding wall expansion joint.

The present invention may be further configured in a preferred embodiment as: the bottom surface of the stone slab is provided with latticed convex edges.

Through adopting above-mentioned technical scheme, the better increase of latticed bead stone slab and cement mortar layer's area of contact to make stone slab and the sticky more firm and stable of cement mortar layer, make the difficult cement mortar layer of following of stone slab drop when cement mortar layer expend with heat and contract with cold.

To sum up, the utility model discloses a following at least one useful technological effect:

1. the first filling block can better coat the side edge of the stone plate, so that the connection between the first buffer rubber strip and the stone plate is more compact and stable, and gaps between the plates can be better sealed; the first buffer rubber strip can better deform along with the expansion with heat and the contraction with cold of the plate;

2. at least two first cushion chambeies make the production deformation that first buffering adhesive tape can be better, vertically consolidate the better improvement of adhesive tape between the board buffering subassembly in the ascending bearing capacity of vertical side.

Drawings

Fig. 1 is a schematic structural view of the whole of the present embodiment.

Fig. 2 is a schematic bottom view of the stone slab of the present embodiment.

Fig. 3 is a schematic view of the inter-board buffer assembly of the present embodiment.

Fig. 4 is a schematic view of the panel wall cushioning assembly of this embodiment.

In the figure, 1, stone slab; 2. an expansion joint between the plates; 3. a panel wall expansion joint; 4. matching the bevel angle; 5. an inter-board buffer assembly; 6. a panel wall cushioning assembly; 7. a first cushion rubber strip; 8. a first filling block; 9. a mating bevel; 10. a first buffer chamber; 11. a second buffer rubber strip; 12. a transitional connection adhesive tape; 13. a transition arc surface; 14. longitudinally reinforcing rubber strips; 15. buffering the arc surface; 16. a first abdicating groove; 17. a second buffer chamber; 18. a second abdicating groove; 19. transversely reinforcing rubber strips; 20. and (7) a rib.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, the stone ground anti-pathological change mounting structure disclosed by the present invention comprises a plurality of stone plates 1, inter-plate expansion joints 2 arranged between adjacent stone plates 1, and plate wall expansion joints 3 arranged between the stone plates 1 and a wall body; the edges of the stone slab 1 are provided with matched bevel angles 4, and the matched bevel angles 4 are formed by 45-degree chamfer angles, so that the corners can be prevented from scratching users too sharply, and the corners can be prevented from being damaged due to stress concentration; the latticed convex edges 20 are integrally formed on the side face, facing the ground, of the stone slab 1, and the latticed convex edges 20 can well increase the contact area of the stone slab 1 and the cement mortar layer on the ground.

Referring to fig. 3, an inter-plate buffer assembly 5 for filling the inter-plate expansion joint 2 is arranged in the inter-plate expansion joint 2 (see fig. 1), the inter-plate buffer assembly 5 comprises a first buffer rubber strip 7 and a first filling block 8 arranged on the first buffer rubber strip 7, the first filling block 8 and the first buffer rubber strip 7 are integrally formed, and the first filling block 8 is arranged at four edges of the first buffer rubber strip 7; be equipped with the cooperation inclined plane 9 with the laminating of cooperation oblique angle 4 on the first filling block 8 for the both sides face of first buffer rubber strip 7 is all lived the side cladding of two adjacent slabstones 1, thereby makes that first buffer rubber strip 7 is connected inseparabler with slabstone 1. Two first buffer cavities 10 are formed in the first buffer rubber strip 7, and the length direction of the first buffer cavities 10 is arranged along the length direction of the first buffer rubber strip 7; a longitudinal reinforcing rubber strip 14 is arranged between the two first buffer cavities 10, and the longitudinal reinforcing rubber strip 14 and the first buffer rubber strip 7 are integrally formed; all be equipped with buffering cambered surface 15 between the adjacent lateral wall of first cushion chamber 10, buffering cambered surface 15 makes the transition that the adjacent lateral wall of first cushion chamber 10 can be smooth, avoids the lateral wall to take place the fracture.

Referring to fig. 3, a first yielding groove 16 is formed in one side, facing the ground, of the first buffer cavity 10, the length direction of the first yielding groove 16 is arranged along the length direction of the first buffer rubber strip 7, and the first yielding groove 16 enables two sides, facing the ground, of the first buffer rubber strip 7 to bend towards the first yielding groove 16, so that the first buffer rubber strip 7 can be conveniently plugged into the inter-plate expansion joint 2 (refer to fig. 1).

Referring to fig. 4, a panel wall buffer assembly 6 is disposed in the panel wall expansion joint 3 (refer to fig. 1), and the panel wall buffer assembly 6 is used for filling the panel wall expansion joint 3; the panel wall buffer assembly 6 comprises a second buffer rubber strip 11 and a transition connection rubber strip 12, the transition connection rubber strip 12 and the second buffer rubber strip 11 are integrally formed, a transition arc surface 13 is arranged on one side, away from the wall body, of the transition connection rubber strip 12, and the transition arc surface 13 is used for enabling the wall surface and the stone slab 1 to be in arc transition, so that dust and dirt are prevented from being accumulated at the corner of the wall surface and the stone slab 1; transition joint adhesive tape 12 extends to cover towards one side of slabstone material 1 and establishes the upper surface of slabstone material 1, is equipped with the tight face of laminating with slabstone material 1 upper surface on the transition joint adhesive tape 12, and the contained angle between tight face and the transition cambered surface 13 is the acute angle setting. A second buffer cavity 17 is formed in the second buffer rubber strip 11, and the length direction of the second buffer cavity 17 is arranged along the length direction of the second buffer rubber strip 11; one side of the second cushion rubber strip 11 facing the ground is provided with a second yielding groove 18, and the length direction of the second yielding groove 18 is arranged along the length direction of the second cushion rubber strip 11. The inter-panel cushioning members 5 (see fig. 3) and the panel wall cushioning members 6 are made of latex.

The embodiments of the present invention are the preferred embodiments of the present invention, and the protection scope of the present invention is not limited by this, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. A stone ground anti-lesion mounting structure comprises a plurality of stone plates (1), inter-plate expansion joints (2) arranged between the adjacent stone plates (1) and plate-wall expansion joints (3) arranged between the stone plates (1) and a wall body;

the method is characterized in that: the edge of the stone slab (1) is provided with a matching bevel angle (4), an inter-slab expansion joint (2) is provided with an inter-slab buffer component (5), and a slab wall expansion joint (3) is provided with a slab wall buffer component (6) for filling the slab wall expansion joint (3);

the inter-plate buffer assembly (5) comprises a first buffer rubber strip (7) and a first filling block (8) arranged on the first buffer rubber strip (7), a matching inclined plane (9) attached to the matching inclined plane (4) is arranged on the first filling block (8), and a first buffer cavity (10) is arranged in the first buffer rubber strip (7);

the board wall buffering assembly (6) comprises a second buffering rubber strip (11) and a transition connection rubber strip (12), one side, away from the wall body, of the transition connection rubber strip (12) is provided with a transition arc surface (13), and the second buffering rubber strip (11) and the side, close to the wall body, of the transition connection rubber strip (12) are attached to the wall body.

2. The stone floor anti-lesion mounting structure of claim 1, wherein: the number of the first buffer cavities (10) is at least two, and a longitudinal reinforcing rubber strip (14) is formed between every two adjacent first buffer cavities (10).

3. The stone floor anti-lesion mounting structure of claim 1, wherein: the adjacent side wall joints of the first buffer cavities (10) are provided with buffer cambered surfaces (15).

4. The stone floor anti-lesion mounting structure of claim 1, wherein: first buffering adhesive tape (7) link up along its length direction and are equipped with first groove (16) of stepping down, first groove (16) of stepping down sets up in one side that first buffering adhesive tape (7) are close to ground.

5. The stone floor anti-lesion mounting structure of claim 1, wherein: the inter-plate buffer assembly (5) and the board wall buffer assembly (6) are both latex strips.

6. The stone floor anti-lesion mounting structure of claim 1, wherein: transition joint adhesive tape (12) extend to cover towards one side of slabstone material (1) and establish slabstone material (1) upper surface, be equipped with the face of hugging closely with slabstone material (1) upper surface laminating on transition joint adhesive tape (12), the contained angle between face of hugging closely and transition cambered surface (13) is the acute angle setting.

7. The stone floor anti-lesion mounting structure of claim 1, wherein: be equipped with second cushion rubber strip (17) on second cushion rubber strip (11), second cushion rubber strip (11) are equipped with second groove of stepping down (18) towards one side on ground, be equipped with between second cushion rubber strip (17) and the second groove of stepping down (18) and transversely consolidate adhesive tape (19).

8. The stone floor anti-lesion mounting structure of claim 1, wherein: the bottom surface of the stone slab (1) is provided with latticed convex ribs (20).

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