CN107226336B - Ceramic tile rotating device - Google Patents

Abstract

The embodiment of the invention discloses a tile rotating device, which comprises a flow dividing device, at least two assembly lines and a rotating device, wherein the flow dividing device comprises a first conveyor belt, a bracket and a push rod; the first conveyor belt can be butted with different pipelines by vertically overturning or horizontally swinging around a pivot; the rotating device is arranged on the assembly line and comprises a rotating table, a rotating motor, a rotating head and a jacking mechanism; the jacking mechanism is arranged at the bottom of the rotary table, can drive the rotary table to lift, enables the ceramic tile on the rotary table to be abutted with the rotary head, and drives the ceramic tile to rotate by a preset angle through the rotary head. According to the invention, the tiles are uniformly split through different pipelines and are converged after being rotated by the rotating device, so that the tiles can be closely distributed on the previous conveying belt, the conveying efficiency is ensured, the conveying pause generated in the rotating process of the tiles is smartly counteracted, and the tiles are closely connected with the production line.

Description

Ceramic tile rotating device

Technical Field

The invention relates to ceramic tile production equipment, in particular to a ceramic tile rotating device.

Background

Along with the continuous development of science and technology, the living standard of people is continuously improved, the demands of people on the living quality are also continuously improved, people are favored to select the decoration which is more coordinated and comfortable indoors, ceramic bricks are used as building materials which are indispensable for indoor decoration, the ceramic bricks are widely used, and the demands on the quality of the ceramic bricks are also improved to an unprecedented height. This is an opportunity and challenge for the tile industry.

With the development of ceramic tile production industry technology, the ceramic tile production industry is gradually automated and intelligent, which provides new challenges for the existing ceramic tile mechanical equipment.

Most ceramic tile rotating devices in the market at present only realize the function of rotating in a single direction (angle); if multi-directional rotation is to be realized, the following problems can occur with the prior art: the first tile is not rotated and the second tile is already fed into the rotation device, which causes a deviation in the angle of rotation of the second tile. If the density of the tile flow is reduced to solve the problem, the production efficiency of the tiles is necessarily affected; if the rotation speed is increased, the danger of the ceramic tile throwing can be generated, and the ceramic tile throwing is obviously contrary to the aim of the ceramic tile production automation, namely the improvement of efficiency and the reduction of industrial accidents.

Disclosure of Invention

The technical problem to be solved by the embodiment of the invention is to provide the ceramic tile rotating device which can rotate ceramic tiles by different angles according to requirements, is tightly connected with a production line and has high working efficiency.

The technical problem to be solved by the embodiment of the invention is to provide the tile rotating device which can improve the rotating precision of tiles and has a simple structure.

In order to solve the technical problems, the embodiment of the invention provides a tile rotating device which comprises a flow dividing device, at least two assembly lines and a rotating device,

the shunt device comprises a first conveyor belt, a bracket and a push rod, wherein the first conveyor belt is arranged on the bracket, a pivot is arranged on the bracket, and the push rod is used for driving the first conveyor belt to turn up and down or swing horizontally around the pivot;

the first conveyor belt can be butted with different pipelines by vertically overturning or horizontally swinging around a pivot;

the rotating device is arranged on the assembly line and comprises a rotating table, a rotating motor, a rotating head and a jacking mechanism, wherein the rotating motor and the rotating head are arranged above the rotating table, and the rotating motor is connected with the rotating head to drive the rotating head to rotate; the jacking mechanism is arranged at the bottom of the rotary table, can drive the rotary table to lift, enables the ceramic tile on the rotary table to be abutted with the rotary head, and drives the ceramic tile to rotate by a preset angle through the rotary head.

As the improvement of above-mentioned scheme, still include with the second conveyer belt of assembly line one-to-one, their feed end and the discharge end butt joint of assembly line one-to-one, the discharge end is unified to be connected with the discharge conveyer belt for collect the ceramic tile of different assembly lines on the discharge conveyer belt.

As an improvement of the scheme, the tile feeding device further comprises a photoelectric sensor arranged on the first conveyor belt and used for sensing the position of tiles entering the first conveyor belt;

and the controller is used for controlling the pushing rod to act according to the feedback of the photoelectric sensor so as to uniformly distribute the tiles on the first conveyor belt to different pipelines.

As an improvement of the scheme, the at least two production lines are vertically opposite to each other, the second conveyor belts are arranged in a downward inclined mode along with the corresponding production lines, and the discharge ends of the second conveyor belts above are arranged on the second conveyor belts below the second conveyor belts.

As an improvement of the scheme, two ends of the first conveyor belt are provided with rotary wheels, the rotary wheels are arranged on the bracket, and the pivot is horizontally arranged at the feeding end of the bracket; the push rod is a pneumatic push rod, is arranged below the center of the first conveyor belt and is connected with the bracket, and the first conveyor belt is pushed to turn up and down around the pivot through self-expansion.

As an improvement of the scheme, the at least two production lines are horizontally arranged in parallel, the rotary wheel is arranged on the bracket, and the pivot is vertically arranged at the feeding end of the bracket; the push rod is a pneumatic push rod which is arranged on one side of the first conveyor belt and connected with the bracket, and the first conveyor belt is pushed to swing back and forth around the pivot through self-expansion.

As an improvement of the scheme, the rotating head is positioned right above the rotating table, and after the rotating table ascends, the rotating head is directly contacted with the ceramic tile to drive the ceramic tile to rotate by a preset angle.

As the improvement of above-mentioned scheme, the rotating head is located the top at revolving stage's border, and after the revolving stage risees, the rotating head contacts with the revolving stage, drives the rotatory predetermined angle of ceramic tile through driving the revolving stage rotation.

The embodiment of the invention has the following beneficial effects:

according to the invention, the tiles are uniformly split through different pipelines and are converged after being rotated by the rotating device, so that the tiles can be closely distributed on the previous conveying belt, the conveying efficiency is ensured, the conveying pause generated in the rotating process of the tiles is smartly counteracted, and the tiles are closely connected with the production line.

The ceramic tile rotary device can uniformly split the ceramic tile through different pipelines, can directly rotate the ceramic tile through the rotary table, can improve the rotation precision of the ceramic tile, and has a simple structure.

Drawings

FIG. 1 is a schematic view showing the front view of the first and second embodiments of a tile rotary device according to the present invention;

fig. 2 is a schematic structural view of a first embodiment of a rotary device of the tile rotary device according to the present invention;

FIG. 3 is a schematic structural view of a second embodiment of a rotary device of the tile rotary device of the present invention;

FIG. 4 is a flow chart of the operation of the first and second embodiments of the tile rotation device of the present invention;

fig. 5 is a schematic top view of a third embodiment of a tile rotation device according to the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings, for the purpose of making the objects, technical solutions and advantages of the present invention more apparent. It is only stated that the terms of orientation such as up, down, left, right, front, back, inner, outer, etc. used in this document or the imminent present invention, are used only with reference to the drawings of the present invention, and are not meant to be limiting in any way.

As shown in fig. 1, a first embodiment of the present invention provides a tile rotation device comprising a diversion device 1, at least two lines (2 a,2 b) and a rotation device 3,

the flow dividing device 1 comprises a first conveyor belt 11, a bracket 12 and a push rod 13, wherein the first conveyor belt 11 is arranged on the bracket 12, a pivot 14 is arranged on the bracket 12, and the push rod 13 is used for driving the first conveyor belt 11 to flip up and down or swing horizontally around the pivot 14;

at least two pipelines (2 a,2 b) are arranged vertically opposite to each other or horizontally parallel to each other, and the first conveyor belt 11 can be butted with different pipelines (2 a,2 b) by turning up and down or horizontally swinging around a pivot 14;

the rotating device 3 is arranged on the production line (2 a,2 b) and comprises a rotating table 31, a rotating motor 32, a rotating head 33 and a jacking mechanism 34, wherein the rotating motor 32 and the rotating head 33 are arranged above the rotating table 31, and the rotating motor 32 is connected with the rotating head 33 to drive the rotating head 33 to rotate; the jacking mechanism 34 is provided at the bottom of the turntable 31, and is capable of driving the turntable 31 to move up and down, so that the tile on the turntable 31 is brought into contact with the spin head 33, and the spin head 33 drives the tile to rotate by a predetermined angle. The jacking mechanism 34 may be a pneumatic cylinder.

Preferably, the invention further comprises second conveyor belts (4 a,4 b) in one-to-one correspondence with the pipelines (2 a,2 b), the feeding ends of the second conveyor belts are in one-to-one butt joint with the discharging ends of the pipelines (2 a,2 b), and the discharging ends are uniformly connected with the discharging conveyor belts and are used for collecting the ceramic tiles of different pipelines (2 a,2 b) on the discharging conveyor belts.

Preferably, the invention also comprises a photoelectric sensor (not shown) provided on the first conveyor belt 11 for sensing the position of the tiles entering the first conveyor belt 11; and a controller (not shown) for controlling the push rod 13 to act according to the feedback of the photoelectric sensor, so as to uniformly distribute the tiles on the first conveyor belt 11 to different pipelines (2 a,2 b).

The ceramic tiles are uniformly split through different pipelines (2 a,2 b), and are converged after being rotated by the rotating device 3, so that the ceramic tiles can be closely distributed on the previous conveying belt, the conveying efficiency is ensured, the conveying pause generated in the ceramic tile rotating process is smartly counteracted, and the ceramic tiles are closely connected with the production line.

The invention evenly divides the ceramic tile through different pipelines (2 a,2 b), can directly rotate the ceramic tile through the rotary table 31, can improve the rotation precision of the ceramic tile, and simplifies the structure.

The second embodiment of the present invention provides a more specific implementation. In the embodiment, two pipelines (2 a,2 b) are vertically opposite to each other, and three or more pipelines can be arranged according to the same specification according to actual needs. The two second conveyor belts (4 a,4 b) are arranged obliquely downwards along with the corresponding production lines (2 a,2 b), and the discharge end of the second conveyor belt 4a positioned above is arranged on the second conveyor belt 4b positioned below. When three or more pipelines exist, the corresponding second conveyor belts are stacked in order from top to bottom.

The two ends of the first conveyor belt 11 are provided with rotary wheels 15, the rotary wheels 15 are arranged on the support 12, and the pivot 14 is horizontally arranged at the feeding end of the support 12; the push rod 13 is a pneumatic push rod, is arranged below the center of the first conveyor belt 11 and is connected with the bracket 12, and pushes the first conveyor belt 11 to turn up and down around the pivot 14 through self-expansion.

Referring to fig. 2, as an embodiment of the rotating device of the present invention, the rotating head 33 is located right above the rotating table 31, and when the rotating table 31 is lifted, the rotating head 33 directly contacts with the tile to drive the tile to rotate by a predetermined angle. During the rotation of the tile, the rotating head 33 always presses against the tile surface, facilitating a stable and precise rotation of the tile through a predetermined angle.

Referring to fig. 3, as another embodiment of the rotating device of the present invention, the rotating head 33 is located above the edge of the rotating table 31, and when the rotating table 31 is lifted, the rotating head 33 contacts with the rotating table 31, and drives the rotating table 31 to rotate by a predetermined angle. In the rotation process of the tile, the tile is only contacted with the rotary table 31, and the position of the rotary head 33 is fixed, so that the thickness of the tile is not needed to be considered, and the structure is simpler. However, since the tile is fixed only by friction force generated by its own weight, the maximum rotation speed of the turntable 31 is lower than that of the previous embodiment.

With reference to fig. 4, the working principle of this embodiment is: the first ceramic tile enters the flow dividing device 1 from the assembly line of the previous working procedure, the air valve of the pneumatic push rod 13 is closed, the first conveyor belt 11 is restored to be horizontal, the first ceramic tile enters the lower layer assembly line (2 a,2 b) and is rotated by the rotating device 3, and the ceramic tile is continuously conveyed backwards after the rotation is finished; the second ceramic tile enters the splitting device 1, the air valve of the pneumatic push rod 13 is opened, the conveyor belt is inclined upwards, the second ceramic tile enters the upper layer assembly lines (2 a,2 b), the second ceramic tile is rotated by the rotating device 3, and the second ceramic tile is converged with the lower layer assembly lines (2 a,2 b) after the rotation is finished; the subsequent tiles are processed as described above with the tile spacing unchanged before and after processing. The whole device adopts an upper and lower layered structure, and solves the problem of brick collision possibly caused by stopping conveying due to rotation after Cheng Cizhuan rotation.

With reference to fig. 5, a third embodiment of the present invention provides a tile rotation device 3, which is different from the second embodiment in that the at least two production lines (2 a,2 b) are horizontally arranged in parallel, the turning wheel 15 is arranged on the bracket 12, and the pivot 14 is vertically arranged at the feeding end of the bracket 12; the push rod 13 is a pneumatic push rod 13, which is arranged on one side of the first conveyor belt 11 and connected with the bracket 12, and pushes the first conveyor belt 11 to swing back and forth around the pivot 14 through self-expansion.

Compared with the second embodiment, the embodiment adopts a mode of horizontally arranging the pipelines (2 a,2 b), has more occupied area, is convenient to maintain, and is also more beneficial to expanding the pipelines (2 a,2 b).

The above disclosure is only a preferred embodiment of the present invention, and it is needless to say that the scope of the invention is not limited thereto, and therefore, the equivalent changes according to the claims of the present invention still fall within the scope of the present invention.

Claims (3)

1. A tile rotating device comprises a flow dividing device, at least two production lines and a rotating device, and is characterized in that,

the shunt device comprises a first conveyor belt, a bracket and a push rod, wherein the first conveyor belt is arranged on the bracket, a pivot is arranged on the bracket, and the push rod is used for driving the first conveyor belt to turn up and down or swing horizontally around the pivot;

the first conveyor belt can be butted with different pipelines by vertically overturning or horizontally swinging around a pivot;

the rotating device is arranged on the assembly line and comprises a rotating table, a rotating motor, a rotating head and a jacking mechanism, wherein the rotating motor and the rotating head are arranged above the rotating table, and the rotating motor is connected with the rotating head to drive the rotating head to rotate; the jacking mechanism is arranged at the bottom of the rotary table, can drive the rotary table to lift, enables the ceramic tile on the rotary table to be abutted with the rotary head, and drives the ceramic tile to rotate by a preset angle through the rotary head; the rotary head is positioned above the edge of the rotary table, and when the rotary table ascends, the rotary head is contacted with the rotary table, and the rotary table is driven to rotate to drive the ceramic tile to rotate for a preset angle;

the second conveyor belts are in one-to-one correspondence with the production lines, the feeding ends of the second conveyor belts are in one-to-one butt joint with the discharging ends of the production lines, and the discharging ends are uniformly connected with the discharging conveyor belts and are used for collecting tiles of different production lines on the discharging conveyor belts;

the photoelectric sensor is arranged on the first conveyor belt and is used for sensing the position of the ceramic tile entering the first conveyor belt;

the controller is used for controlling the push rod to act according to the feedback of the photoelectric sensor, and uniformly distributing the tiles on the first conveyor belt to different pipelines;

and two ends of the first conveyor belt are provided with rotary wheels, and the rotary wheels are arranged on the support.

2. The tile rotary device according to claim 1, wherein the assembly lines are arranged vertically opposite to each other, the second conveyor belts are arranged obliquely downwards along with the corresponding assembly lines, and the discharge ends of the second conveyor belts above are arranged on the second conveyor belts below the second conveyor belts; the pivot is horizontally arranged at the feeding end of the bracket; the push rod is a pneumatic push rod, is arranged below the center of the first conveyor belt and is connected with the bracket, and the first conveyor belt is pushed to turn up and down around the pivot through self-expansion.

3. The tile rotary device of claim 1, wherein the assembly lines are arranged horizontally in parallel, and the pivot is vertically arranged at the feed end of the bracket; the push rod is a pneumatic push rod which is arranged on one side of the first conveyor belt and connected with the bracket, and the first conveyor belt is pushed to swing back and forth around the pivot through self-expansion.