CN218264736U - Prevent stone material of alkali that returns wainscot structure of mating formation - Google Patents

Abstract

The utility model discloses a stone material of preventing returning alkali wainscot structure of mating formation, this structure aims at solving under the prior art unable location installation that realizes, can appear certain deviation in the engineering of installation, needs to use other auxiliary assembly in addition the technical problem of location. The structure comprises a stone body, an anti-skid module arranged on the lower side of the stone body and used for skid prevention, a connecting module arranged on the lower side of the anti-skid module and used for veneering, and a positioning module arranged on the inner side of the anti-skid module and used for positioning and mounting; the connecting module is characterized in that a cement mortar layer used for laying the ground is arranged on the lower side of the connecting module, and a fixing groove used for fixing the connecting module is formed in the surface of the cement mortar layer. This structure passes through mutually supporting between orientation module and the fixed slot, can fix a position the mounted position of stone material body for it is more convenient that whole stone material installation gets up, need not other auxiliary assembly in the installation and fixes a position, can fix the stone material body on the cement mortar layer through linking module.

Description

Prevent stone material of alkali that returns wainscot structure of mating formation

Technical Field

The utility model belongs to the technical field of the stone material is mated formation, concretely relates to prevent stone material of alkali return and form surface structure of mating formation.

Background

Nowadays, most people all can choose the stone material for use as the finishing material when fitment, and the kind of stone material is various, including marble, granite etc. mostly use the rostone as the owner, and its application range is very extensive.

At present, the utility model with the patent number of CN202121181994.3 discloses an alkali return prevention stone paving veneer structure, which comprises a cement mortar layer, a plurality of rubber strips and a plurality of veneer stones; the rubber strip is arranged on the surface of the cement mortar layer; the rubber strips are arranged in a criss-cross mode; mounting grids for embedding the facing stone are reserved between the adjacent rubber strips; the side wall of the rubber strip is used for abutting against the side wall of the facing stone. This application improves the problem that the veneer stone material surface easily returns alkali. But the structure in this application scheme can't realize the location installation, can appear certain deviation in the engineering of installation, needs to use other auxiliary assembly to fix a position, and it is not very convenient to install.

Therefore, in order to solve the problem that the above structure cannot be positioned and installed, it is necessary to improve the use scenario of the structure.

SUMMERY OF THE UTILITY MODEL

(1) Technical problem to be solved

Not enough to prior art, the utility model aims to provide a prevent stone material of alkali of returning and mat formation wainscot structure, this structure aims at solving prior art and can't realize the location installation down, can appear certain deviation in the engineering of installation, need use the technical problem that other auxiliary assembly fix a position.

(2) Technical scheme

In order to solve the technical problem, the utility model provides a stone paving and veneering structure for preventing alkali return, which comprises a stone body, an anti-skid module arranged at the lower side of the stone body for skid prevention, a connecting module arranged at the lower side of the anti-skid module for veneering, and a positioning module arranged at the inner side of the anti-skid module for positioning and installation; the connecting module is characterized in that a cement mortar layer used for paving the ground is arranged on the lower side of the connecting module, and a fixing groove used for fixing the connecting module is formed in the surface of the cement mortar layer.

When the structure of the technical scheme is used, the anti-skid module and the connecting module are sequentially fixed on the lower side of the stone body to enable the whole stone to form a whole, a plurality of groups of grooves corresponding to the positioning modules and the connecting module are formed in the surface of the cement mortar layer, the positioning modules are mutually connected with the fixing grooves in the cement mortar layer during installation, and then the stone body is pressed down to enable the connecting module on the lower side of the stone body to be firmly attached to the cement mortar layer and perfectly attached to the cement mortar layer; through mutually supporting between orientation module and the fixed slot, can conveniently fix a position the mounted position of stone material body, it is more convenient to make whole stone material install, need not other auxiliary assembly in the installation and fix a position, setting through linking module, can firmly fix the stone material body on cement mortar layer, together with orientation module, firmly fix entire structure, avoid later stage stone material body to drop, stone material body and cement mortar layer are not direct contact simultaneously, can avoid the salt alkali material in the cement to get into the stone material originally internally, thereby play the effect of preventing returning alkali.

Preferably, the anti-skidding module includes the mounting panel, the mounting panel downside is equipped with and is used for skid-proof antislip strip, antislip strip evenly distributed is in the mounting panel downside. Through the setting of antislip strip, can play skid-proof effect, avoid the phenomenon that skids to appear in the place of connecting module and antiskid module contact for overall structure is more stable.

Furthermore, the positioning module comprises a positioning frame, positioning sheets for reinforcing are arranged on the front side and the rear side of the positioning frame, and clamping strips for limiting are arranged on the left side and the right side of each positioning sheet. Through the setting of locating rack and spacer, can be in the same place with the fixed slot mutual laminating on the cement mortar layer to realize the location installation of stone material body.

Furthermore, a first magnet used for being connected with the positioning frame is arranged at the bottom of the cement mortar layer, and a second magnet used for adsorbing the first magnet is arranged on the lower side of the positioning frame. Through the setting of first magnet and second magnet, can firmly fix the locating rack in the inboard on cement mortar layer for overall structure is more stable.

Furthermore, the connecting module comprises a connecting plate, buffer strips which are uniformly distributed are arranged on the lower side of the connecting plate, and positioning grooves corresponding to the positioning frames are formed in the surface of the connecting plate. Through the setting of buffering strip, can play the protection about, can cushion external force when receiving external impact, avoid stone material body surface to appear the crack.

Furthermore, an elastically telescopic first elastic element is arranged on the inner side of the positioning groove, a first clamping plate used for clamping the positioning frame is arranged on the inner side of the first elastic element, and a clamping groove corresponding to the clamping strip is formed in the surface of the first clamping plate. Through mutually supporting of draw-in groove and card strip, can firmly fix the downside at the antislip strip with the connecting plate for whole linking module can be in the same place with antislip module interconnect.

Furthermore, a connecting piece used for connecting the cement mortar layer is arranged on the lower side of the connecting plate, a second elastic element is arranged on the cement mortar layer, and a second clamping plate used for clamping the connecting piece is arranged on the inner side of the second elastic element. Through the setting of connecting piece, can firmly fix the connecting plate on cement mortar layer, it is very convenient to fix.

(3) Advantageous effects

Compared with the prior art, the beneficial effects of the utility model reside in that: the utility model discloses a structure passes through mutually supporting between orientation module and the fixed slot, can conveniently fix a position the mounted position of stone material body, it is more convenient to make whole stone material installation, need not other auxiliary assembly in the installation and fix a position, setting through linking module, can firmly fix the stone material body on cement mortar layer, together with orientation module, firmly fix whole structure, avoid later stage stone material body to drop, stone material body and cement mortar layer are not direct contact simultaneously, can avoid the salt alkali material in the cement to get into the stone material originally internally, thereby play the effect of preventing returning alkali.

Drawings

FIG. 1 is a schematic structural view of an embodiment of the present invention;

FIG. 2 is a cross-sectional view of one embodiment of the inventive structure;

FIG. 3 is a schematic structural diagram of a connection module according to an embodiment of the present invention;

fig. 4 is an enlarged view of the fixing groove in one embodiment of the present invention.

The labels in the figures are: 1. a stone body; 2. an anti-slip module; 3. a connection module; 4. a cement mortar layer; 5. a positioning module; 6. a connecting member; 7. a second elastic element; 8. a second splint; 9. fixing grooves; 10. mounting a plate; 11. anti-slip strips; 12. a positioning frame; 13. a first magnet; 14. a second magnet; 15. positioning plates; 16. clamping the strip; 17. a connecting plate; 18. positioning a groove; 19. a buffer strip; 20. a first elastic element; 21. a first clamping plate.

Detailed Description

The specific embodiment is an alkali return prevention stone paving and veneering structure, the structural schematic diagram of which is shown in fig. 1, and the sectional view of which is shown in fig. 2, the structure comprises a stone body 1, an anti-skid module 2 arranged on the lower side of the stone body 1 for skid prevention, a connecting module 3 arranged on the lower side of the anti-skid module 2 for veneering, and a positioning module 5 arranged on the inner side of the anti-skid module 2 for positioning and installation; the connecting module 3 downside is equipped with the cement mortar layer 4 that is used for laying ground, and the fixed slot 9 that is used for fixed connection module 3 is seted up on cement mortar layer 4 surface.

In the present embodiment, the thickness of the cement mortar layer 4 may be set as needed.

Wherein, anti-skid module 2 includes mounting panel 10, mounting panel 10 downside is equipped with and is used for skid-proof antislip strip 11, antislip strip 11 evenly distributed is at mounting panel 10 downside, orientation module 5 includes locating rack 12, both sides are equipped with and are used for reinforced locating piece 15 around the locating rack 12, the locating piece 15 left and right sides is equipped with and is used for spacing calorie of strip 16, cement mortar layer 4 bottom is equipped with the first magnet 13 that is used for connecting locating rack 12, locating rack 12 downside is equipped with the second magnet 14 that is used for adsorbing first magnet 13, connection module 3 includes connecting plate 17, connecting plate 17 downside is equipped with evenly distributed's buffering strip 19, connecting plate 17 surface is seted up with the constant head tank 18 corresponding with locating rack 12, constant head tank 18 inboard is equipped with elastic telescopic's first elastic element 20, first elastic element 20 inboard is equipped with the first splint 21 that is used for centre gripping locating rack 12, first splint 21 surface is seted up with the draw-in correspondence with calorie of strip 16, connecting plate 17 downside is equipped with the connecting piece 6 that is used for connecting cement mortar layer 4, cement mortar layer 4 is equipped with second elastic element 7, second elastic element 7 inboard is equipped with the second splint 8 that is used for centre gripping connecting piece. The material of the first elastic element 20 and the second elastic element 7 may be a spring or an elastic sheet, and may be set as needed.

The structure of the connecting module is schematically shown in fig. 3, and the enlarged view of the fixing groove is shown in fig. 4.

It should be noted that the number and distribution of the buffer strips 19 may be set as required.

When using this technical scheme's structure, fix antiskid module 2 and connection module 3 in proper order at stone material body 1's downside earlier, make whole stone material can form a whole, offer several groups and positioning module 5 and the corresponding recess of connection module 3 on cement mortar layer 4's surface again, in the time of the installation, with positioning module 5 and the fixed slot 9 interconnect on cement mortar layer 4 together, then press stone material body 1 again, make connection module 3 of stone material body 1 downside firmly laminate on cement mortar layer 4, with cement mortar layer 4 perfect laminating together, mutually support between positioning module 5 and fixed slot 9, can conveniently fix a position stone material body 1's mounted position, it is more convenient to make whole stone material install, need not other auxiliary assembly in the installation and fix a position.

Claims (7)

1. An alkali return prevention stone paving and veneering structure comprises a stone body, an anti-skidding module, a connecting module and a positioning module, wherein the anti-skidding module is arranged on the lower side of the stone body and used for skid prevention, the connecting module is arranged on the lower side of the anti-skidding module and used for veneering, and the positioning module is arranged on the inner side of the anti-skidding module and used for positioning and mounting; the floor tile is characterized in that a cement mortar layer used for laying the ground is arranged on the lower side of the connecting module, and a fixing groove used for fixing the connecting module is formed in the surface of the cement mortar layer.

2. The alkali-return-preventing stone paving and veneering structure as claimed in claim 1, wherein the anti-slip module comprises a mounting plate, the lower side of the mounting plate is provided with anti-slip strips for preventing slip, and the anti-slip strips are uniformly distributed on the lower side of the mounting plate.

3. The alkali-return-preventing stone paving and veneering structure as claimed in claim 2, wherein the positioning module comprises a positioning frame, positioning pieces for reinforcement are arranged on the front side and the rear side of the positioning frame, and clamping strips for limiting are arranged on the left side and the right side of the positioning pieces.

4. The alkali-return-preventing stone paving and overlaying structure as claimed in claim 3, wherein a first magnet for connecting said positioning frame is arranged at the bottom of said cement mortar layer, and a second magnet for adsorbing said first magnet is arranged at the lower side of said positioning frame.

5. The alkali-return-preventing stone paving and veneering structure as claimed in claim 4, wherein the connecting module comprises a connecting plate, the underside of the connecting plate is provided with evenly distributed buffer strips, and the surface of the connecting plate is provided with positioning grooves corresponding to the positioning frames.

6. The alkali-return-preventing stone paving and veneering structure as claimed in claim 5, wherein a first elastic element capable of elastically stretching is arranged inside the positioning groove, a first clamping plate for clamping the positioning frame is arranged inside the first elastic element, and a clamping groove corresponding to the clamping strip is formed in the surface of the first clamping plate.

7. The alkali-return-preventing stone paving and veneering structure as claimed in claim 6, wherein a connecting piece for connecting the cement mortar layer is arranged on the lower side of the connecting plate, the cement mortar layer is provided with a second elastic element, and a second clamping plate for clamping the connecting piece is arranged on the inner side of the second elastic element.

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