CN216543860U - Roughness forming structure of whole-body anti-skid ceramic tile - Google Patents

Abstract

The utility model provides a whole body anti-skidding ceramic tile roughness structure of taking shape, it includes die cavity, framed and diaphragm bed, makes up into multiple structure through framed and diaphragm bed and die cavity, framed and die cavity combination form the tank bottom structure of having no line, framed and diaphragm bed and die cavity combination form the groove side structure of having no line, framed and diaphragm bed and die cavity intercombination form tank bottom and groove side all can form the line. The utility model overcomes the problem of sliding caused by the reduction of the ground anti-skid performance of the original whole anti-skid ceramic tile in a rain and snow environment due to the over-small friction resistance, and has the characteristics of simple structure, improvement of the roughness after compression molding, increase of the friction force with a contact surface during laying, improvement of the anti-skid performance of the ceramic tile, good adaptability and simple and convenient operation.

Description

Roughness forming structure of whole-body anti-skid ceramic tile

Technical Field

The utility model belongs to the technical field of building material production control, and relates to a roughness forming structure of a whole anti-skid ceramic tile.

Background

The whole ceramic tile belongs to an abrasion-resistant tile, has other functions besides decorative performance, is applied to different scenes according to different functions, and usually corresponds the function with prominent performance to the function required by the application scene, for example, the related ceramic tile with prominent abrasion resistance is used for paving road surfaces under the condition that the water absorption performance is not considered, can exert the greatest characteristic, and if the ceramic tile is used in a kitchen, the water permeation is easily formed to cause bottom layer leakage if the water absorption rate is too high. For the ceramic tile with excellent wear resistance, the common ceramic tile with wear resistance can not meet the requirement in rainy days or rainy and snowy days, and the friction force mainly exists in the bottom surface which is too small and is easy to form sliding with the contact surface.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a roughness forming structure of a whole anti-skid ceramic tile, which has a simple structure, adopts a die frame, a die bottom plate and a die groove to form various structures, combines the die frame and the die groove to form a groove bottom non-texture structure, combines the die bottom plate and the die groove to form a groove side non-texture structure, combines the die frame, the die bottom plate and the die groove mutually to form a groove bottom and a groove side which can form textures, improves the roughness after compression molding, increases the friction force with a contact surface during laying, improves the anti-skid performance of the ceramic tile, and has good adaptability and simple and convenient operation.

In order to solve the technical problems, the technical scheme adopted by the utility model is as follows: a roughness forming structure of a whole anti-skid ceramic tile comprises a die cavity, a die frame and a die bottom plate; the die cavity is a hollow groove body with an opening at the upper side; the die bottom plate is positioned at the bottom of the die cavity, and the die frame is positioned in the cavity of the die cavity and matched with the edge of the die cavity; the corrugated lines are arranged on the upper side surface of the die bottom plate, and the wedge-shaped lines are arranged on the inner side of the die frame; the mold frame or the mold bottom plate and the mold cavity are combined to form various structures.

The die cavity is matched with the die frame to form a groove body structure without grains at the bottom.

The die cavity and the die bottom plate are matched to form a groove body inner side non-grain structure.

The die frame is a hollow rectangular frame body, wedge-shaped grains are arranged on the inner side of the die frame, and the wedge-shaped grains are notches of a right-angled triangle structure.

The wedge-shaped lines on each edge of the inner side of the die frame extend and are uniformly distributed to two ends by the central mirror image of the die frame.

The die bottom plate is a flat plate, and a plurality of equidistant waveform grains are arranged on the upper side surface.

The wave-shaped lines on the die bottom plate are uniformly distributed in a mode of mirroring the center of the die bottom plate.

A roughness forming structure of a whole anti-skid ceramic tile comprises a die cavity, a die frame and a die bottom plate; the die cavity is a hollow groove body with an opening at the upper side; the die bottom plate is positioned at the bottom of the die cavity, and the die frame is positioned in the cavity of the die cavity and matched with the edge of the die cavity; the corrugated lines are arranged on the upper side surface of the die bottom plate, and the wedge-shaped lines are arranged on the inner side of the die frame; the mold frame or the mold bottom plate and the mold cavity are combined to form various structures. Simple structure makes up into multiple structure through framed and diaphragm bed and die cavity, framed and die cavity combination form tank bottom line-free structure, framed and die cavity combination form groove side line-free structure, framed and diaphragm bed and die cavity intercombination form tank bottom and groove side all can form the line, improve the roughness after the suppression shaping, increase during laying and the frictional force of contact surface, improve the non-slip property of ceramic tile, adaptability is good, easy operation is convenient.

In a preferred scheme, the die cavity is matched with the die frame to form a groove body bottom non-texture structure. Simple structure during the use sets up the framed in the die cavity, and the ceramic tile side after the shaping forms the line, lays the back at the ceramic tile, is located the gap filling addition material between two ceramic tiles, improves cohesion each other.

In a preferred scheme, the die cavity is matched with the die bottom plate to form a non-grain structure on the inner side of the die body. Simple structure during the use, sets up the diaphragm bed at the tank bottom of die cavity, and the ceramic tile bottom surface after the shaping forms the line, is applied to the softer scene in ground, and when sleet weather, the rainwater forms the silt form after the gap infiltration ground between two adjacent ceramic tiles, and at this moment, the line through the ceramic tile bottom surface improves anti-skidding performance, avoids atress back ceramic tile bottom surface and silt to slide.

In the preferred scheme, the die frame is hollow rectangular frame body, and is located the inboard and sets up the wedge line, and the wedge line is the notch of right triangle structure. Simple structure, during the use, the filler that lies in the wedge line of side after the ceramic tile is laid improves the cohesion of whole face of laying.

In a preferred scheme, the wedge-shaped lines on each edge of the inner side of the die frame extend uniformly to two ends in a mode of mirroring the center of the die frame. Simple structure, during the use, the right angled triangle wedge line of the ceramic tile side after the shaping is located with the central mirror image with one side, makes the triangle-shaped notch opposite direction of center both sides, and the scene application in-process is difficult for rubbing and moving after receiving pressure, and stability is good.

In a preferred scheme, the die base plate is a flat plate, and a plurality of equidistant waveform grains are arranged on the upper side surface. Simple structure, the wave form line of side forms the line to the ceramic tile downside when the ceramic tile shaping on the diaphragm bed, and contact increase frictional force with ground when using.

In a preferred scheme, the waveform grains on the die bottom plate are uniformly distributed in a mode of mirroring the center of the die bottom plate. Simple structure to the wave form line of die bed plate center mirror image forms the line of mutual reversal to the ceramic tile downside, and in the application scene, when the trample force that receives squinted to arbitrary side, all the other sides of ceramic tile lower part all can disperse the glide force, improve anti-skidding performance.

The utility model provides a lead to body antiskid ceramic tile roughness forming structure, it includes die cavity, framed and diaphragm bed, makes up into multiple structure through framed and diaphragm bed and die cavity, framed and the combination of die cavity form the groove bottom structure of having no line, framed and diaphragm bed and the combination of die cavity form the groove side structure of having no line, framed and diaphragm bed and die cavity intercombination form the groove bottom and the groove side all can form the line. The utility model overcomes the problem of sliding caused by the reduction of the ground anti-skid performance of the original whole anti-skid ceramic tile in a rain and snow environment due to the over-small friction resistance, and has the characteristics of simple structure, improvement of the roughness after compression molding, increase of the friction force with a contact surface during laying, improvement of the anti-skid performance of the ceramic tile, good adaptability and simple and convenient operation.

Drawings

The utility model is further illustrated by the following figures and examples.

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic top view of fig. 1.

FIG. 3 is a schematic structural diagram of a mold frame according to the present invention.

FIG. 4 is a schematic structural diagram of a mold base plate according to the present invention.

In the figure: the die comprises a die cavity 1, a die frame 2, wedge-shaped grains 21, a die bottom plate 3 and wave-shaped grains 31.

Detailed Description

As shown in fig. 1-4, a roughness forming structure of a whole anti-slip ceramic tile comprises a die cavity 1, a die frame 2 and a die base plate 3; the die cavity 1 is a hollow groove body with an opening at the upper side; the die bottom plate 3 is positioned at the bottom of the die cavity 1, and the die frame 2 is positioned in the die cavity of the die cavity 1 and matched with the edge of the die cavity; the corrugated line 31 is arranged on the upper side surface of the die bottom plate 3, and the wedge-shaped line 21 is arranged on the inner side of the die frame 2; the mold frame 2 or the mold base plate 3 is combined with the mold cavity 1 to form various structures. Simple structure, make up into multiple structure through framed 2 and diaphragm bed 3 and die cavity 1, framed 2 forms the groove bottom structure of no line with 1 combination of die cavity, diaphragm bed 3 forms the groove side structure of no line with 1 combination of die cavity, framed 2 and diaphragm bed 3 form the groove bottom and the groove side all can form the line with 1 intercombination of die cavity, improve the roughness after the press forming, increase the frictional force with the contact surface when laying, improve the non-slip property of ceramic tile, adaptability is good, easy operation is convenient.

Preferably, when the die cavity 1 is used alone, raw material stone powder or stone powder scraps are added into the die cavity body, the side surface and the bottom surface after compression molding have no lines, and the die cavity is applied to scenes of hard ground.

In the preferred scheme, the die cavity 1 and the die frame 2 are matched to form a structure without grains at the bottom of the die cavity body. Simple structure during the use sets up framed 2 in die cavity 1, and the ceramic tile side after the shaping forms the line, lays the back at the ceramic tile, is located the gap filling addition material between two ceramic tiles, improves the cohesion each other.

In the preferred scheme, the die cavity 1 and the die bottom plate 3 are matched to form a structure without grains on the inner side of the die cavity. Simple structure during the use, sets up diaphragm bed 3 at the tank bottom of die cavity 1, and the ceramic tile bottom surface after the shaping forms the line, is applied to the softer scene in ground, and when sleet weather, the rainwater forms the silt form after the gap infiltration ground between two adjacent ceramic tiles, and at this moment, the line through the ceramic tile bottom surface improves non-skid property, avoids atress back ceramic tile bottom surface and silt to slide.

In the preferred scheme, the die frame 2 is a hollow rectangular frame body, the inner side of which is provided with the wedge-shaped grains 21, and the wedge-shaped grains 21 are notches of a right-angled triangle structure. Simple structure, during the use, the filler that lies in the wedge line 21 of side after the ceramic tile is laid improves the cohesion of whole face of laying.

In a preferred scheme, the wedge-shaped lines 21 on each edge of the inner side of the die frame 2 extend and are uniformly distributed towards two ends in a mirror image mode at the center of the die frame 2. Simple structure, during the use, the right angled triangle wedge line 21 of the ceramic tile side after the shaping lies in with the central mirror image with one side, makes the triangle-shaped notch opposite direction of center both sides, and the scene application in-process is difficult for rubbing and moving after receiving pressure, and stability is good.

In a preferred embodiment, the die base plate 3 is a flat plate, and a plurality of equally spaced waveform lines 31 are disposed on the upper side surface. Simple structure, the wave form line 31 of side on the diaphragm bed 3 forms the line to the ceramic tile downside when the ceramic tile shaping, increases frictional force with ground contact when using.

In a preferred embodiment, the corrugated patterns 31 on the die base plate 3 are uniformly distributed in a mirror image manner at the center of the die base plate 3. Simple structure to 3 central mirror image wave form lines 31 of diaphragm plate form the opposite line each other to the ceramic tile downside, and in the application scene, when the trample force that receives squinted to arbitrary side, all the other sides of ceramic tile lower part all can disperse glide power, improve anti-skidding performance.

As above the roughness forming structure of the whole anti-skid ceramic tile, when the roughness forming structure is installed and used, the mold frame 2, the mold base plate 3 and the mold cavity 1 are combined into a plurality of structures, the mold frame 2 and the mold cavity 1 are combined to form a groove bottom non-grain structure, the mold base plate 3 and the mold cavity 1 are combined to form a groove side non-grain structure, the mold frame 2, the mold base plate 3 and the mold cavity 1 are combined with each other to form a groove bottom and a groove side which can form grains, the roughness after the compression molding is improved, the friction force between the mold frame and the contact surface is increased during the laying, the anti-skid performance of the ceramic tile is improved, the adaptability is good, and the operation is simple and convenient.

During the use, set up framed 2 in die cavity 1, the ceramic tile side after the shaping forms the line, lays the back at the ceramic tile, and the gap that is located between two ceramic tiles fills the addition material, improves cohesion each other.

During the use, set up diaphragm bed 3 at the tank bottom of die cavity 1, the ceramic tile bottom surface after the shaping forms the line, is applied to the softer scene in ground, and when sleet weather, the rainwater forms the silt form after the gap infiltration ground between two adjacent ceramic tiles, and at this moment, the line through the ceramic tile bottom surface improves anti-skidding performance, avoids atress back ceramic tile bottom surface and silt to slide.

When the tile is used, the filler in the wedge-shaped grains 21 on the side surface after the tile is laid improves the binding force of the whole laying surface.

During the use, the right angle triangle wedge line 21 of ceramic tile side after the shaping lies in with central mirror image with one side, makes the triangle-shaped notch opposite direction of center both sides, and the scene application in-process is difficult for rubbing and moving after receiving pressure, and stability is good.

The wave-shaped grains 31 on the upper side surface of the die bottom plate 3 form grains on the lower side surface of the ceramic tile when the ceramic tile is formed, and the grains are in contact with the ground to increase the friction force when the ceramic tile is applied.

With 3 central mirror image wave form lines 31 of diaphragm plate to the mutual reverse line of ceramic tile downside formation, in the application scene, when the trampling force that receives when squinting to arbitrary side, all can disperse glide force in all the other sides of ceramic tile lower part, improve anti-skidding performance.

The above-described embodiments are merely preferred embodiments of the present invention, and should not be construed as limiting the present invention, and features in the embodiments and examples in the present application may be arbitrarily combined with each other without conflict. The protection scope of the present invention is defined by the claims, and includes equivalents of technical features of the claims. I.e., equivalent alterations and modifications within the scope hereof, are also intended to be within the scope of the utility model.

Claims (7)

1. The utility model provides a whole body antiskid ceramic tile roughness forming structure which characterized by: the die comprises a die cavity (1), a die frame (2) and a die bottom plate (3); the die cavity (1) is a hollow groove body with an opening at the upper side; the die bottom plate (3) is positioned at the bottom of the die cavity (1), and the die frame (2) is positioned in the body of the die cavity (1) and matched with the edge of the die cavity; the corrugated grains (31) are arranged on the upper side surface of the die bottom plate (3), and the wedge-shaped grains (21) are arranged on the inner side of the die frame (2); the mould frame (2) or the mould bottom plate (3) and the mould groove (1) are combined to form a plurality of structures.

2. The roughness forming structure of the whole body anti-slip ceramic tile as claimed in claim 1, wherein: the die groove (1) and the die frame (2) are matched to form a groove body bottom non-grain structure.

3. The roughness forming structure of the whole body anti-skid ceramic tile according to claim 1, which is characterized in that: the die cavity (1) and the die bottom plate (3) are matched to form a structure without grains on the inner side of the die body.

4. The roughness forming structure of the whole body anti-skid ceramic tile according to claim 1, which is characterized in that: the die frame (2) is a hollow rectangular frame body, the inner side of the die frame is provided with wedge-shaped grains (21), and the wedge-shaped grains (21) are notches of a right-angled triangle structure.

5. The whole body anti-slip tile roughness forming structure according to claim 4, characterized in that: the wedge-shaped lines (21) on each edge of the inner side of the die frame (2) extend and are uniformly distributed to two ends in a mode of mirroring the center of the die frame (2).

6. The roughness forming structure of the whole body anti-skid ceramic tile according to claim 1, which is characterized in that: the die bottom plate (3) is a flat plate, and a plurality of equidistant waveform grains (31) are arranged on the upper side surface.

7. The whole body anti-slip tile roughness forming structure according to claim 6, characterized in that: the wave-shaped lines (31) on the die bottom plate (3) are uniformly distributed in a mode of mirroring the center of the die bottom plate (3).

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