CN219241229U - Tile sticking machine - Google Patents

Abstract

The embodiment of the application discloses a tile sticking machine, which comprises a movable bottom plate, a movable lifting mechanism and a knocking mechanism. The movable bottom plate can move on the ground according to the paving requirement of the floor tiles; the movable lifting mechanism has the functions of moving and lifting; the knocking mechanism is used for knocking the floor tiles paved on the ground. After the movable bottom plate drives the floor tile to move to the paving position, the through hole is positioned right above the paving position, the movable lifting mechanism conveys the floor tile from the placing position to the position of the through hole and drives the floor tile to move downwards, so that the floor tile passes through the through hole to be paved on the ground; after the lifting mechanism is moved to finish the paving of the floor tiles on the ground, the floor tiles paved on the ground are knocked. The application discloses a tiling machine, through movable bottom plate, removal elevating system and strike the cooperation of mechanism, realize the transport of ceramic tile on ground, the laying of ceramic tile on ground and the striking of ceramic tile, replace manual operation, effectively reduced the artifical intensity of labour that the ceramic tile was laid.

Description

Tile sticking machine

Technical Field

The application relates to the technical field of building decoration, in particular to a tile sticking machine.

Background

Floor tiles are required to be paved on the ground in the building decoration process.

In the prior art, the floor tiles are paved by manpower, so that the labor intensity of the paving of the floor tiles is high, and particularly, the floor tiles with larger volumes are paved; and after the floor tile is paved, a worker needs to repeatedly hammering the floor tile by using a rubber hammer for many times, the paving efficiency of the floor tile is low, and the pasting quality of the floor tile is greatly different according to the technical experience of the worker.

Disclosure of Invention

The application provides a tile sticking machine to reduce the manual labor intensity of ceramic tile laying.

To achieve the above object, the present application provides a tile machine comprising:

the movable bottom plate can be used for placing the floor tiles, and through holes through which the floor tiles can pass are formed in the movable bottom plate;

the movable lifting mechanism is arranged on the movable bottom plate, can carry the floor tile to the position of the through hole, and drives the floor tile to move downwards so as to enable the floor tile to be paved on the ground through the through hole;

the knocking mechanism is arranged on the movable bottom plate and used for knocking the floor tiles paved on the ground.

Preferably, in the above tile sticking machine, the moving and lifting mechanism comprises a mounting frame, a horizontal driving assembly and a vertical driving assembly,

the mounting frame is mounted on a movable floor,

the horizontal driving assembly is arranged on the mounting frame and used for driving the vertical driving assembly to move in the horizontal direction;

the vertical driving assembly is installed on the horizontal driving assembly and used for driving the floor tile to move in the vertical direction.

Preferably, in the tile sticking machine, the horizontal driving assembly is a screw assembly, a screw of the screw assembly is mounted on the mounting frame, and a nut of the screw assembly is connected with the vertical driving assembly.

Preferably, in the above tile sticking machine, further comprising a guide assembly, comprising:

the guide rod is parallel to the lead screw;

the guide block is in sliding fit with the guide rod and is connected with the nut.

Preferably, in the tile sticking machine, the vertical driving assembly comprises a telescopic cylinder and a picking and placing member, a cylinder body of the telescopic cylinder is connected with the horizontal driving assembly, a telescopic rod of the telescopic cylinder is connected with the picking and placing member, and the picking and placing member is used for picking and placing the floor tiles.

Preferably, in the tile sticking machine, the picking and placing member is an electric suction cup, or the picking and placing member is an electric clamping jaw.

Preferably, in the above tile sticking machine, the knocking mechanism includes:

the free end of the handle of the rubber hammer is provided with a limiting plate;

a vertical plate vertically installed on the movable base plate;

the first horizontal plate is connected with the vertical plate, a first guide hole is formed in the first horizontal plate, and the first guide hole is in clearance fit with the limiting plate;

the second horizontal plate is connected with the vertical plate and positioned below the first horizontal plate, a second guide hole corresponding to the first guide hole is formed in the second horizontal plate, and the second guide hole is in clearance fit with the handle;

the first spring is sleeved on the handle, one end of the first spring is propped against the lower surface of the limiting plate, and the other end of the first spring is propped against the upper surface of the second horizontal plate;

and the cam is arranged on the first horizontal plate through a motor, and the motor drives the cam to rotate so that the cam pushes the limiting plate to move in the first guide hole.

Preferably, in the tile sticking machine, a guide sleeve communicated with the second guide hole is arranged on the second horizontal plate.

Preferably, in the tile sticking machine, a box body for placing the floor tiles is arranged on the movable bottom plate, a buffer component is arranged in the box body,

the cushioning assembly includes:

the support plate is used for supporting the floor tiles;

the fixed block is arranged on the bottom plate of the box body and provided with a sliding hole;

the sliding rod is positioned in the sliding hole at one end, and the other end of the sliding rod is connected with the supporting plate;

the second spring is sleeved on the sliding rod, one end of the second spring abuts against the lower surface of the supporting plate, and the other end of the second spring abuts against the fixed block or the bottom wall of the box body.

Preferably, in the above-mentioned tile sticking machine, a handle provided on the mounting frame of the moving elevating mechanism is further included.

The tile sticking machine provided by the embodiment of the application comprises a movable bottom plate, a movable lifting mechanism and a knocking mechanism. The movable bottom plate can move on the ground according to the paving requirement of the floor tiles; the movable lifting mechanism has the functions of moving and lifting and is arranged on the movable bottom plate; the knocking mechanism is arranged on the movable bottom plate and used for knocking the floor tiles paved on the ground. After the movable bottom plate drives the floor tiles to move to the paving position, the through holes are positioned right above the paving position, the movable lifting mechanism conveys the floor tiles from the placing position to the positions of the through holes and drives the floor tiles to move downwards so that the floor tiles pass through the through holes to be paved on the ground; after the movable lifting mechanism finishes the paving of the floor tiles on the ground, the floor tiles paved on the ground are knocked, so that the compactness of the paving of the floor tiles is ensured. The application discloses a tiling machine, through movable bottom plate, removal elevating system and strike the cooperation of mechanism, realize the transport of ceramic tile on ground, the laying of ceramic tile on ground and the striking of ceramic tile, replace manual operation, effectively reduced the artifical intensity of labour that the ceramic tile was laid.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is apparent that the drawings in the following description are only some examples or embodiments of the present application, and it is possible for those of ordinary skill in the art to obtain other drawings from the provided drawings without inventive effort, and to apply the present application to other similar situations from the provided drawings. Unless otherwise apparent from the context of the language or otherwise specified, like reference numerals in the figures refer to like structures or operations.

FIG. 1 is a schematic diagram of the construction of the tile machine of the present application;

FIG. 2 is a left side view of the tile machine of the present application;

FIG. 3 is an enlarged view of a portion of FIG. 1A;

fig. 4 is a partial enlarged view of B in fig. 1.

Wherein:

1. a movable floor;

2. floor tiles;

3. a through hole;

4. a movable lifting mechanism 41, a mounting frame 42, a horizontal driving assembly 43, a vertical driving assembly 431, a telescopic cylinder 432 and a picking and placing piece;

5. the device comprises a knocking mechanism 51, a rubber hammer 52, a vertical plate 53, a first horizontal plate 54, a second horizontal plate 55, a first spring 56, a cam 57 and a guide sleeve;

6. the guide assembly, 61, the guide rod, 62 and the guide block;

7. buffer component 71, backup pad, 72, fixed block, 73, slide bar, 74, second spring.

Detailed Description

The present application is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the application and not limiting of the application. The described embodiments are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

It should be noted that, for convenience of description, only a portion related to the related application is shown in the drawings. Embodiments and features of embodiments in this application may be combined with each other without conflict.

It will be appreciated that the terms "system," "apparatus," "unit," and/or "module" as used herein are one method for distinguishing between different mechanisms, elements, components, portions, or assemblies of different levels. However, if other words can achieve the same purpose, the word can be replaced by other expressions.

As used in this application and in the claims, the terms "a," "an," "the," and/or "the" are not specific to the singular, but may include the plural, unless the context clearly dictates otherwise. In general, the terms "comprises" and "comprising" merely indicate that the steps and elements are explicitly identified, and they do not constitute an exclusive list, as other steps or elements may be included in a method or apparatus. The inclusion of an element defined by the phrase "comprising one … …" does not exclude the presence of additional identical elements in a process, method, article, or apparatus that comprises an element.

Wherein, in the description of the embodiments of the present application, "/" means or is meant unless otherwise indicated, for example, a/B may represent a or B; "and/or" herein is merely an association relationship describing an association object, and means that three relationships may exist, for example, a and/or B may mean: a exists alone, A and B exist together, and B exists alone. In addition, in the description of the embodiments of the present application, "plurality" means two or more than two.

The terms "first" and "second" are used below for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature.

Flowcharts are used in this application to describe the operations performed by systems according to embodiments of the present application. It should be appreciated that the preceding or following operations are not necessarily performed in order precisely. Rather, the steps may be processed in reverse order or simultaneously. Also, other operations may be added to or removed from these processes.

Please refer to fig. 1-4.

Some embodiments of the application disclose a tile sticking machine for realizing automatic laying of tiles 2 on the ground, and simultaneously, automatically beating the tiles 2 laid on the ground.

The tile sticking machine disclosed by the application comprises a movable bottom plate 1, a movable lifting mechanism 4 and a knocking mechanism 5.

Wherein, portable bottom plate 1 can be according to the laying demand of ceramic tile 2 and remove on ground, can place ceramic tile 2 on the portable bottom plate 1, and be provided with the through-hole 3 that can supply ceramic tile 2 to pass through on the portable bottom plate 1.

The movable bottom plate 1 drives the floor tile 2 to move on the ground, replaces manual carrying of the floor tile 2, and reduces the manual labor intensity; in the application, the movable bottom plate 1 can be provided with a plurality of floor tiles 2 in a stacked manner, the stacking direction of the plurality of floor tiles 2 is perpendicular to the plane where the movable bottom plate 1 is located, and the movable bottom plate 1 can be used for carrying the plurality of floor tiles 2 at the same time. Here, it should be noted that the floor tile 2 needs to avoid the through hole 3 from the placement position on the movable cart.

The movable lifting mechanism 4 has the functions of moving and lifting, wherein the moving is to drive the floor tile 2 to move from the placement position to the position of the through hole 3, and the lifting is to descend from the upper side of the through hole 3 to the lower side of the through hole 3.

The movable lifting mechanism 4 is mounted on the movable base plate 1 and can move synchronously with the movable base plate 1. After the movable bottom plate 1 drives the floor tile 2 to move to the laying position, the through hole 3 is positioned right above the laying position, the movable lifting mechanism 4 carries the floor tile 2 from the placing position to the position of the through hole 3 and drives the floor tile 2 to move downwards so that the floor tile 2 passes through the through hole 3 to be laid on the ground, and after the floor tile 2 is laid on the ground, the movable lifting mechanism 4 can repeat the actions.

The movable lifting mechanism 4 carries out automatic carrying on the floor tiles 2 placed on the movable bottom plate 1, realizes automatic lowering and laying of the floor tiles 2, replaces manual carrying and laying, and further reduces the manual labor intensity of self-transmission laying.

The knocking mechanism 5 is arranged on the movable bottom plate 1, the knocking mechanism 5 moves synchronously along with the movable bottom plate 1, and after the movable lifting mechanism 4 finishes the paving of the floor tile 2 on the ground, the floor tile 2 paved on the ground is knocked, so that the paving compactness of the floor tile 2 is ensured. The floor tile 2 is knocked through the knocking mechanism 5 to replace manual knocking of the floor tile 2, so that the labor intensity of paving the floor tile 2 is further reduced.

The application discloses a tiling machine, through portable bottom plate 1, remove elevating system 4 and strike mechanism 5 cooperation, realize floor tile 2 in the transport on ground, floor tile 2 lay on ground and floor tile 2 strike, replace manual operation, effectively reduced the manual labor intensity that floor tile 2 laid.

The mobile lifting mechanism 4 includes a mounting frame 41, a horizontal drive assembly 42 and a vertical drive assembly 43.

Wherein the mounting frame 41 provides a mounting basis for the horizontal drive assembly 42;

the horizontal driving component 42 is used for driving in the horizontal direction, the vertical driving component 43 is used for driving in the vertical direction, the taking and placing component is used for taking and placing the floor tile 2, specifically, the horizontal driving component 42 is installed on the installation frame 41, the vertical driving component 43 is installed on the horizontal driving component 42, and the taking and placing component is arranged on the vertical driving component 43.

When the floor tile lifting device works, the horizontal driving assembly 42 drives the vertical driving assembly 43 to move in the horizontal direction, so that the vertical driving assembly 43 drives the taking and placing assembly to move above the floor tile 2 placed on the movable bottom plate 1; the vertical driving component 43 drives the taking and placing component to move downwards, and the taking and placing component takes away the floor tile 2 positioned at the uppermost layer; the vertical driving component 43 drives the taking and placing component and the floor tile 2 to move upwards; the horizontal driving component 42 drives the vertical driving component 43 to move in the horizontal direction, so that the vertical driving component 43 moves to the square of the through hole 3; the vertical driving component 43 drives the taking and placing component to move downwards, so that the taking and placing component drives the floor tile 2 to move downwards and is paved on the ground through the through hole 3; after the floor tile 2 is paved, the vertical driving assembly 43 drives the taking and placing assembly to move upwards, and the movable bottom plate 1 moves to the next paving position; the above actions are repeated.

In some embodiments of the present application, the horizontal drive assembly 42 is a screw assembly, the screw of which is mounted on the mounting frame 41, the nut of which is connected to the vertical drive assembly 43.

As shown in fig. 1, the screw assembly includes a mounting plate, a driver, a screw, and a nut. Wherein the number of the mounting plates is two and the mounting plates are oppositely arranged, and the mounting plates are arranged on the mounting frame 41; the driving member is preferably an electric motor, the driving member being mounted on one of the mounting plates; two ends of the axis direction of the screw rod are rotationally connected with the two mounting plates; the nut is connected to the screw rod in a threaded manner. The driving member drives the screw to rotate, so that the nut moves on the screw, and the nut drives the vertical driving assembly 43 to move.

In embodiments where the horizontal drive assembly 42 is a lead screw assembly, it is desirable that the tile 2 be positioned in a line with the through-holes 3.

The horizontal driving assembly 42 is not limited to the screw assembly, but may be other linear driving assemblies, and is not particularly limited herein.

The tile machine disclosed in the present application further comprises a guiding assembly 6 for guiding the movement of the vertical drive assembly 43 in the horizontal direction.

The guide assembly 6 comprises a guide rod 61 and a guide block 62, wherein the guide rod 61 is parallel to the screw rod, the guide block 62 is mounted on the guide rod 61 and can slide along the guide rod 61, and the guide block 62 is connected with the nut.

When the nut moves on the screw, the nut drives the guide block 62 to slide along the guide rod 61.

In some embodiments of the present application, vertical drive assembly 43 includes telescoping cylinder 431 and pick and place member 432, wherein the cylinder body of telescoping cylinder 431 is connected to horizontal drive assembly 42 and the telescoping rod of telescoping cylinder 431 is connected to pick and place member 432.

The telescopic rod of the telescopic cylinder 431 extends out to drive the picking and placing member 432 to move downwards, and the telescopic rod of the telescopic cylinder 431 retracts to drive the picking and placing member 432 to move upwards.

Preferably, telescopic cylinder 431 is an electric cylinder.

The pick-and-place member 432 is used to effect the lifting and lowering of the tile 2. In some embodiments of the present application, the pick-and-place member 432 is an electrically powered suction cup, or the pick-and-place member 432 is an electrically powered clamping jaw.

The striking mechanism 5 is used for striking the floor tile 2 laid on the ground.

In some embodiments of the present application, the striking mechanism 5 includes a rubber hammer 51, a vertical plate 52, a first horizontal plate 53, a second horizontal plate 54, a first spring 55, and a cam 56.

In particular, the method comprises the steps of,

the free end of the handle of the rubber hammer 51 is provided with a limiting plate, the free end of the handle is described herein, the handle is a strip-shaped handle, one end of the handle in the length direction is connected with the rubber hammer 51, the other end of the handle in the length direction is connected with the limiting plate, and the projection of the limiting plate along the length direction of the handle is larger than the projection of the handle along the length direction of the handle;

is vertically arranged on the movable bottom plate 1 to provide a mounting foundation for the knocking mechanism 5 to be mounted on the movable bottom plate 1, and the vertical plate is preferably made of a material with higher strength, such as stainless steel;

the first horizontal plate 53 is connected with the vertical plate 52, a first guide hole is formed in the first horizontal plate 53, the first guide hole is in clearance fit with the limiting plate, and the limiting plate can move up and down in the first guide hole;

the second horizontal plate 54 is connected with the vertical plate 52 and is positioned below the first horizontal plate 53, a second guide hole corresponding to the first guide hole is formed in the second horizontal plate 54, the second guide hole is in clearance fit with the handle, and the handle can move up and down in the second guide hole;

the first spring 55 is sleeved on the handle, one end of the first spring 55 is propped against the lower surface of the limiting plate, and the other end of the first spring 55 is propped against the upper surface of the second horizontal plate 54;

the cam 56 is mounted on the first horizontal plate 53 by a motor, and the motor drives the cam 56 to rotate so that the cam 56 pushes the limiting plate to move in the first guide hole.

During knocking, the motor drives the cam 56 to rotate, the cam 56 pushes the limiting plate to move downwards in the first guide hole, the limiting plate drives the handle to move downwards in the second guide hole, and the handle drives the rubber hammer 51 to knock the floor tile 2;

the motor continues to drive the cam 56 to rotate, the cam 56 can not apply thrust force to the limiting plate, the limiting plate moves upwards under the action of restoring force of the first spring 55, the limiting plate drives the handle to move upwards in the second guide hole, and the handle drives the rubber hammer 51 to move upwards.

The rubber hammer 51 strikes the floor tile 2 without damaging the floor tile 2.

In order to improve the stability of the up-and-down movement of the handle, the guide sleeve 57 is arranged on the second horizontal plate 54, and the guide sleeve 57 is communicated with the second guide hole.

The guide sleeve 57 may be disposed on the upper surface of the second horizontal plate 54, may be disposed on the lower surface of the second horizontal plate 54, or may be disposed in the second guide hole.

The guide sleeve 57 increases the guide length of the handle, ensures that the limiting plate can reciprocate in the first guide hole, and improves the working stability of the tile sticking machine.

As shown in fig. 1, a movable base plate 1 is provided with a case for placing floor tiles 2.

Because one surface of the tile 2 is smooth, during the process that the tile 2 moves along with the movable bottom plate 1, the adjacent tile 2 will slide, and there is a risk of damaging the tile 2.

The box body can play a limiting role on the floor tile 2, and the floor tile 2 is prevented from being damaged.

A buffer assembly 7 is provided in the housing to prevent damage to the tile 2 when excessive force is applied to the tile 2 by the vertical drive assembly 43.

As shown in fig. 4, the damper assembly 7 includes a support plate 71, a fixed block 72, a slide bar 73, and a second spring 74.

Wherein the support plate 71 is used for supporting the floor tile 2;

the fixed block 72 is arranged on the bottom plate of the box body, and a sliding hole is formed in the fixed block 72;

one end of the sliding rod 73 is positioned in the sliding hole, and the other end of the sliding rod 73 is connected with the supporting plate 71;

the second spring 74 is sleeved on the slide bar 73, one end of the second spring 74 abuts against the lower surface of the support plate 71, and the other end of the second spring 74 abuts against the fixed block 72 or the bottom wall of the box.

When the floor tile 2 is pressed down by the picking and placing member 432 connected with the vertical driving assembly 43, the supporting plate 71 is pushed to move downwards, the supporting plate 71 pushes the sliding rod 73 to move in the sliding hole, and the second spring 74 is compressed;

after the floor tile 2 is removed by the pick-and-place member 432 connected to the vertical driving unit 43, the supporting plate 71 moves upward by the restoring force of the second spring 74, and the slide bar 73 moves in the slide hole.

As shown in fig. 1, the mounting frame 41 includes a vertical rod and a top plate, wherein the vertical rod is disposed along a circumferential direction of the movable bottom plate 1, a lower end of the vertical rod is connected with the movable bottom plate 1, an upper end of the vertical rod is connected with the top plate, the vertical rod is perpendicular to the movable bottom plate 1, and the top plate is parallel to the bottom plate.

The movable floor 1 includes a floor and universal wheels provided on the lower surface of the floor.

The bottom plate is rectangular bottom plate, and the number of pole setting is four, is provided with the push rod that is used for supplying the user to promote between two adjacent pole setting, and the push rod is perpendicular with the pole setting, and the cover is equipped with the antiskid cover on the push rod.

A handle may also be provided directly on the mounting frame 41.

The foregoing description is only illustrative of the preferred embodiments of the present application and the principles of the technology applied, and is not intended to limit the present application. Various modifications and changes may be made to the present application by those skilled in the art. The scope of the application is not limited to the specific combination of the technical features described above, but also covers other technical solutions formed by any combination of the technical features described above or their equivalents without departing from the concept of the application described above. Such as the above-described features and technical features having similar functions (but not limited to) disclosed in the present application are replaced with each other.

Claims (10)

1. A tile sticking machine, comprising:

the floor tile comprises a movable bottom plate (1), wherein floor tiles (2) can be placed on the movable bottom plate (1), and through holes (3) through which the floor tiles (2) can pass are formed in the movable bottom plate (1);

the movable lifting mechanism (4) is arranged on the movable bottom plate (1) and can be used for carrying the floor tile (2) to the position of the through hole (3) and driving the floor tile (2) to move downwards so as to enable the floor tile (2) to be paved on the ground through the through hole (3);

the knocking mechanism (5) is arranged on the movable bottom plate (1) and used for knocking the floor tiles (2) paved on the ground.

2. A tile machine according to claim 1, wherein the mobile lifting mechanism (4) comprises a mounting frame (41), a horizontal drive assembly (42) and a vertical drive assembly (43),

the mounting frame (41) is mounted on the movable floor (1),

the horizontal driving assembly (42) is mounted on the mounting frame (41) and is used for driving the vertical driving assembly (43) to move in the horizontal direction;

the vertical driving assembly (43) is arranged on the horizontal driving assembly (42) and is used for driving the floor tile (2) to move in the vertical direction.

3. A tile machine according to claim 2, wherein the horizontal drive assembly (42) is a screw assembly, the screw of which is mounted on the mounting frame (41), the nut of which is connected to the vertical drive assembly (43).

4. A tile machine according to claim 3, further comprising a guide assembly (6) comprising:

a guide rod (61) parallel to the lead screw;

and the guide block (62) is in sliding fit with the guide rod (61), and the guide block (62) is connected with the nut.

5. A tile machine according to claim 2, wherein the vertical drive assembly (43) comprises a telescopic cylinder (431) and a pick-and-place member (432), the cylinder of the telescopic cylinder (431) being connected to the horizontal drive assembly (42), the telescopic rod of the telescopic cylinder (431) being connected to the pick-and-place member (432), the pick-and-place member (432) being adapted to pick and place the tile (2).

6. A tile machine according to claim 5, wherein the pick-and-place member (432) is an electric suction cup or the pick-and-place member (432) is an electric clamping jaw.

7. A tile machine according to claim 1, wherein the striking mechanism (5) comprises:

the free end of the handle of the rubber hammer (51) is provided with a limiting plate;

a vertical plate (52) vertically mounted on the movable base plate (1);

the first horizontal plate (53) is connected with the vertical plate (52), a first guide hole is formed in the first horizontal plate (53), and the first guide hole is in clearance fit with the limiting plate;

the second horizontal plate (54) is connected with the vertical plate (52) and is positioned below the first horizontal plate (53), a second guide hole corresponding to the first guide hole is formed in the second horizontal plate (54), and the second guide hole is in clearance fit with the handle;

the first spring (55) is sleeved on the handle, one end of the first spring (55) is propped against the lower surface of the limiting plate, and the other end of the first spring (55) is propped against the upper surface of the second horizontal plate (54);

and the cam (56) is arranged on the first horizontal plate (53) through a motor, and the motor drives the cam (56) to rotate so that the cam (56) pushes the limiting plate to move in the first guide hole.

8. A tile machine according to claim 7, wherein the second horizontal plate (54) is provided with a guiding bush (57) communicating with the second guiding hole.

9. The tile sticking machine according to claim 1, characterized in that the movable bottom plate (1) is provided with a box body for placing the floor tile (2), a buffer assembly (7) is arranged in the box body,

the cushioning assembly (7) comprises:

a support plate (71) for supporting the floor tile (2);

the fixed block (72) is arranged on the bottom plate of the box body, and a sliding hole is formed in the fixed block (72);

the sliding rod (73), one end of the sliding rod (73) is positioned in the sliding hole, and the other end of the sliding rod (73) is connected with the supporting plate (71);

the second spring (74) is sleeved on the sliding rod (73), one end of the second spring (74) abuts against the lower surface of the supporting plate (71), and the other end of the second spring (74) abuts against the fixed block (72) or the bottom wall of the box body.

10. A tile machine according to claim 1, further comprising a handle provided on a mounting frame (41) of the mobile lifting mechanism (4).

Images