CN209799253U - Indoor brick - Google Patents

Abstract

The utility model discloses an indoor ceramic tile belongs to the architectural decoration material field, and its technical scheme main points are: the floor tile is connected with an installation mechanism, the installation mechanism comprises a bottom plate fixed with the ground and a check ring fixed at the upper end of the bottom plate, the outer side wall of the check ring is respectively in the same plane with the side wall of the bottom plate, the side wall of the bottom plate is abutted, and the floor tile is arranged at the upper end of the bottom plate. The utility model discloses a rational in infrastructure utilizes installation mechanism to install the ceramic tile, makes between ceramic tile and the ground no longer need use cement to fix to it is more convenient to make the change process of ceramic tile.

Description

Indoor brick

Technical Field

The utility model belongs to architectural decoration material, more specifically say, it relates to an indoor ceramic tile.

background

The indoor floor tiles are indispensable materials in decoration, and the paving method basically adopts cement mortar or adhesive materials to bond the indoor floor tiles with the ground.

The joint strength between ceramic tile and the ground is higher after the construction is accomplished, when the ceramic tile takes place to change after cracked, needs to carry out the breakage with the monoblock ceramic tile, later changes the ceramic tile to it is comparatively troublesome to lead to the change of ceramic tile.

Therefore, a new technical solution is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide an indoor ceramic tile no longer needs to carry out the ceramic tile damaged when changing the ceramic tile, makes the change of ceramic tile more convenient.

In order to achieve the above purpose, the utility model provides a following technical scheme: the indoor floor tile comprises a floor tile, wherein the floor tile is connected with an installation mechanism, the installation mechanism comprises a bottom plate fixed with the ground and a check ring fixed at the upper end of the bottom plate, the outer side wall of the check ring is respectively in the same plane with the side wall of the bottom plate, the side wall of the check ring is adjacent to the side wall of the bottom plate in butt joint, and the floor tile is arranged at the upper end of the bottom plate.

Through adopting above-mentioned technical scheme, when the ceramic tile crack appears and need be changed, directly break away from the ceramic tile and be connected with the retaining ring inner wall, change cracked ceramic tile this moment, no longer need carry out the damage with the ceramic tile at the in-process of changing to it is more convenient to make the change process of ceramic tile.

The utility model discloses further set up to: the height of the retainer ring is lower than the thickness of the floor tile, the side walls of the floor tile are fixedly connected with extension rings, and the outer side walls of the extension rings and the outer side walls of the retainer ring are positioned on the same plane.

Through adopting above-mentioned technical scheme, after the ceramic tile installation, make the extension ring butt of adjacent ceramic tile to reduce the gap between the adjacent ceramic tile, reduced the accumulation of dust.

The utility model discloses further set up to: the bottom plate is connected with a plurality of groups of actuating mechanism that drive ceramic tile rebound, and actuating mechanism includes and slides the actuating lever of being connected with bottom plate articulated connecting rod and with the retaining ring, the retaining ring upper end is run through has a plurality of drive grooves, it has a plurality of intercommunication grooves to extend the ring to run through, the actuating lever is all arranged in drive groove and intercommunication inslot simultaneously and is slided, a plurality of grooves of stepping down with the drive groove intercommunication are seted up to the bottom plate upper end, the inslot rotation of stepping down is arranged in to the connecting rod, terminal surface butt under connecting rod one end and the ceramic tile, the connecting rod other end and actuating lever lower extreme.

Through adopting above-mentioned technical scheme, when needs are changed the ceramic tile, make the actuating lever move down, the actuating lever needs the one end of connecting rod to exert decurrent power this moment to make the other end rebound of connecting rod, the ceramic tile rebound under the promotion of connecting rod this moment, can be convenient change the ceramic tile.

The utility model discloses further set up to: the upper end of the driving rod is connected with an extension block, and the upper end of the extension block and the upper end of the extension ring are located on the same plane.

Through adopting above-mentioned technical scheme, utilize the extension piece to seal sliding groove and intercommunication groove, make the dust can not produce and pile up. The sliding groove and the communicating groove are sealed by the extending block, so that dust cannot be accumulated.

The utility model discloses further set up to: the connecting rod is far away from the one end of actuating lever and rotates and is connected with the gyro wheel, the gyro wheel can be with ceramic tile lower extreme butt.

Through adopting above-mentioned technical scheme, utilize the gyro wheel to change the sliding friction between connecting rod and the ceramic tile into rolling friction, reduced the frictional force between connecting rod and the ceramic tile lower extreme, make the process that the actuating lever moved down more convenient.

The utility model discloses further set up to: the inner wall of the retainer ring is fixedly connected with an elastic pad, the elastic pad can be abutted against the side wall of the floor tile, and the elastic pad is made of rubber.

Through adopting above-mentioned technical scheme, the ceramic tile makes the cushion produce deformation after arranging the ceramic tile in installation mechanism to increased the frictional force between ceramic tile and the retaining ring, reduced the relative movement between ceramic tile and the retaining ring, thereby made the installation of ceramic tile more firm.

The utility model discloses further set up to: the upper end of the elastic pad is provided with a wedge-shaped surface, and one end of the wedge-shaped surface, which is close to the floor tile, is inclined downwards.

through adopting above-mentioned technical scheme, utilize the wedge face to increase the open-ended area of cushion towards the ceramic tile, make the ceramic tile change and arrange in the retaining ring.

The utility model discloses further set up to: the extension block lower extreme has seted up the spread groove, actuating lever upper end fixedly connected with connecting block, the connecting block is inserted in the spread groove.

Through adopting above-mentioned technical scheme, utilize the cooperation between connecting block and the spread groove, make the extension piece can change along with the change of the material of ceramic tile, make the ceramic tile of laying more harmonious.

to sum up, the utility model discloses following beneficial effect has:

1. The utility model utilizes the installation mechanism to install the floor tiles, and cement is not needed to be used for fixing between the floor tiles and the ground, so that the floor tiles are not needed to be damaged when being replaced, and the replacement process of the floor tiles is more convenient;

2. The floor tile can move upwards by utilizing the driving mechanism, so that the floor tile replacement process is more convenient.

Drawings

FIG. 1 is a perspective view of the present embodiment;

FIG. 2 is a schematic diagram of the present embodiment for showing the driving mechanism;

FIG. 3 is an enlarged view of portion A of FIG. 2;

Fig. 4 is a schematic view for showing a connection structure of the driving rod and the extension block according to the present embodiment.

Description of the drawings: 1. floor tiles; 11. an extension ring; 111. a communicating groove; 2. an installation mechanism; 21. a base plate; 211. a yielding groove; 22. a retainer ring; 221. a drive slot; 23. an elastic pad; 231. a wedge-shaped surface; 3. a drive mechanism; 31. a connecting rod; 32. a drive rod; 321. connecting blocks; 33. an extension block; 331. connecting grooves; 34. and a roller.

Detailed Description

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

In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "bottom" and "top," "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

An indoor floor tile, as shown in fig. 1, comprises a rectangular floor tile 1, wherein a mounting mechanism 2 is connected to the floor tile 1, and the mounting mechanism 2 comprises a rectangular bottom plate 21 connected to the ground and a retaining ring 22 welded to the upper end of the bottom plate 21. The retainer ring 22 is disposed around the upper end face edge of the bottom plate 21, and its outer side wall is in the same plane as the side wall of the bottom plate 21. The bottom plate 21 is poured on the upper end of the ground through cement, the side walls of the adjacent bottom plates 21 can be abutted, the floor tiles 1 are arranged on the upper end of the bottom plate 21, and the side walls of the floor tiles can be connected with the inner wall of the retainer ring 22. When the floor tile 1 has cracks and needs to be replaced, the floor tile 1 is directly disconnected from the inner wall of the check ring 22, the broken floor tile 1 is replaced at the moment, the floor tile 1 is not needed to be damaged in the replacement process, and therefore the replacement process of the floor tile 1 is more convenient.

As shown in fig. 1, since the adjacent tiles 1 cannot contact each other, a gap is left between the adjacent tiles 1, which results in dust accumulation. Therefore, the side walls of the floor tile 1 are all sleeved with the extension rings 11, and the outer side walls of the extension rings 11 and the outer side walls of the retainer rings 22 are in the same plane. The height of the retaining ring 22 is lower than the thickness of the floor tile 1, and the lower end of the extension ring 11 can be abutted with the upper end of the retaining ring 22. After the tiles 1 are installed, the extension rings 11 of adjacent tiles 1 are abutted, so that gaps between adjacent tiles 1 are reduced, and dust accumulation is reduced.

As shown in fig. 2, when the floor tile 1 is replaced, there is no point on the surface of the floor tile 1 where a force can be directly applied, so that the process of separating the floor tile 1 from the installation mechanism 2 is troublesome. Therefore, four sets of driving mechanisms 3 for driving the floor tile 1 to move upwards are connected to the bottom plate 21, and the driving mechanisms 3 are respectively close to four side walls of the bottom plate 21 and comprise connecting rods 31 hinged to the bottom plate 21 and driving rods 32 connected with the retaining rings 22 in a sliding manner. Four driving grooves 221 are formed in the upper ends of the retaining rings 22, four communicating grooves 111 communicated with the driving grooves 221 are formed in the upper ends of the extension rings 11, and the driving rods 32 can be arranged in the driving grooves 221 and the communicating grooves 111 to slide simultaneously. The upper end of the bottom plate 21 is provided with four receding grooves 211 communicated with the driving grooves 221, the connecting rod 31 is arranged in the receding grooves 211, one end of the connecting rod is abutted against the lower end of the floor tile 1, and the other end of the connecting rod can be abutted against the lower end of the driving rod 32. When the floor tile 1 needs to be replaced, the driving rod 32 moves downwards, at this time, the driving rod 32 needs one end of the connecting rod 31 to apply a downward force, so that the other end of the connecting rod 31 moves upwards, at this time, the floor tile 1 moves upwards under the pushing of the connecting rod 31, and the floor tile 1 can be conveniently replaced.

As shown in fig. 2, since the upper end of the driving rod 32 is not in the same plane as the upper end of the extension ring 11, dust is accumulated in the driving groove 221. Therefore, the extension block 33 is connected to the upper end of the driving rod 32, the upper end of the extension block 33 is in the same plane as the upper end of the extension ring 11, and the material of the extension block 33 is the same as that of the floor tile 1. The extension block 33 seals the driving groove 221 and the communication groove 111, so that dust does not accumulate.

As shown in fig. 2, the driving rod 32 is hard to move downward because one end of the connecting rod 31 contacts with the lower end of the floor tile 1 during the rotation process to generate friction. Therefore, the end of the connecting rod 31 far from the driving rod 32 is rotatably connected with the roller 34, the upper end of the roller 34 can be abutted against the lower end of the floor tile 1, and the axis of the roller is horizontally arranged and is perpendicular to the connecting rod 31. The sliding friction between the connecting rod 31 and the floor tile 1 is converted into rolling friction by the roller 34, so that the friction between the connecting rod 31 and the lower end of the floor tile 1 is reduced, and the downward movement process of the driving rod 32 is more convenient.

In order to increase the strength of the connection between the floor tile 1 and the mounting means 2, the relative position of the floor tile 1 to the mounting means 2 does not change when subjected to vibration. As shown in fig. 3, the inner walls of the retaining rings 22 are all adhered with elastic pads 23, the elastic pads 23 can be abutted against the side walls of the floor tile 1, and are made of rubber, and the upper ends of the elastic pads and the upper ends of the retaining rings 22 are in the same plane. After the floor tile 1 is placed in the installation mechanism 2, the floor tile 1 enables the elastic pad 23 to deform, so that the friction force between the floor tile 1 and the retaining ring 22 is increased, the relative movement between the floor tile 1 and the retaining ring 22 is reduced, and the installation of the floor tile 1 is more stable.

In order to facilitate the process of placing the floor tile 1 in the retaining ring 22, as shown in fig. 3, the upper end of the elastic pad 23 is provided with a wedge-shaped surface 231, and one end of the wedge-shaped surface 231 close to the floor tile 1 is inclined downward. The wedge-shaped surface 231 increases the area of the opening of the resilient pad 23 towards the tile 1, making it easier for the tile 1 to be placed in the retaining ring 22.

as shown in fig. 4, the material of the extending block 33 is not changed with the material of the tile 1 because the material of the tile 1 is different, which may cause the tile 1 to be laid out inconsistently. Therefore, the lower end of the extension block 33 is provided with a connecting groove 331, the upper end of the driving rod 32 is welded with a connecting block 321 matched with the connecting groove 331, and the connecting block 321 can be inserted into the connecting groove 331. By using the cooperation between the connecting block 321 and the connecting groove 331, the extending block 33 can be changed along with the change of the material of the floor tile 1, so that the laid floor tile 1 is more harmonious.

The working principle is as follows:

When laying the floor tile 1, the bottom plates 21 are first poured on the ground using cement so that the side walls of the adjacent bottom plates 21 abut against each other. The tile 1 is then placed within the retaining ring 22 so that the drive bar 32 and extension block 33 are both placed within the channel 111. When the floor tile 1 needs to be replaced, the driving rod 32 is pressed downwards at the same time, and the connecting rod 31 is used for pushing the floor tile 1 to move upwards, so that the floor tile 1 can be replaced.

The specific embodiments are only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiments without inventive contribution as required after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (8)

1. an indoor floor tile, comprising a floor tile (1), characterized in that: the floor tile (1) is connected with an installation mechanism (2), the installation mechanism (2) comprises a bottom plate (21) fixed with the ground and a check ring (22) fixed at the upper end of the bottom plate (21), the outer side wall of the check ring (22) is respectively in the same plane with the side wall of the bottom plate (21), the adjacent side walls of the bottom plate (21) are abutted, and the floor tile (1) is arranged at the upper end of the bottom plate (21).

2. A room floor tile according to claim 1, wherein: the height of the retainer ring (22) is lower than the thickness of the floor tile (1), the side walls of the floor tile (1) are fixedly connected with extension rings (11), and the outer side walls of the extension rings (11) and the outer side walls of the retainer ring (22) are in the same plane.

3. A room floor tile according to claim 2, wherein: bottom plate (21) are connected with actuating mechanism (3) of a plurality of groups drive ceramic tile (1) rebound, actuating mechanism (3) include with bottom plate (21) articulated connecting rod (31) and with retaining ring (22) actuating lever (32) of being connected that slides, retaining ring (22) upper end is run through has a plurality of drive grooves (221), extend ring (11) and run through has a plurality of intercommunication grooves (111), actuating lever (32) are all arranged drive groove (221) and intercommunication groove (111) simultaneously and are slided, a plurality of and drive groove (221) intercommunication groove of stepping down (211) are seted up to bottom plate (21) upper end, the rotation in groove of stepping down (211) is arranged in connecting rod (31), connecting rod (31) one end and ceramic tile (1) lower extreme butt, connecting rod (31) other end and actuating lever (32) lower extreme butt.

4. A room floor tile according to claim 3, wherein: the upper end of the driving rod (32) is connected with an extension block (33), and the upper end of the extension block (33) and the upper end of the extension ring (11) are located on the same plane.

5. A room floor tile according to claim 4, wherein: one end of the connecting rod (31) far away from the driving rod (32) is rotatably connected with a roller (34), and the roller (34) can be abutted against the lower end of the floor tile (1).

6. A room floor tile according to claim 5, wherein: an elastic pad (23) is fixedly connected to the inner wall of the retainer ring (22), the elastic pad (23) can be abutted against the side wall of the floor tile (1), and the elastic pad (23) is made of rubber.

7. A room floor tile according to claim 6, wherein: the upper end of the elastic pad (23) is provided with a wedge-shaped surface (231), and one end of the wedge-shaped surface (231) close to the floor tile (1) is inclined downwards.

8. A room floor tile according to claim 7, wherein: the connecting groove (331) has been seted up to extension piece (33) lower extreme, driving lever (32) upper end fixedly connected with connecting block (321), connecting block (321) are inserted and are arranged in connecting groove (331).