CN113043482A - Drainage ceramic tile, processing system and processing method thereof - Google Patents

Abstract

The invention relates to drainage tile processing, in particular to a drainage tile, a processing system and a processing method thereof, and a method for processing the drainage tile, which comprises the following steps: the method comprises the following steps: a plurality of drainage tiles to be processed are placed in the feeding box, and the drainage tiles in the feeding box are pushed into the material conveying mechanism I by the material pushing mechanism; step two: the processing mechanism I cuts the drainage ceramic tile of the material conveying mechanism I to form a drainage groove, and the material conveying mechanism I pushes the processed drainage ceramic tile into the material conveying mechanism II; step three: the processing mechanism II intermittently moves, and further processes the drainage groove to form a drainage inclined groove; a drainage tile is provided with a drainage groove or a drainage inclined groove, and the drainage inclined groove is inclined to be beneficial to water drainage.

Description

Drainage ceramic tile, processing system and processing method thereof

Technical Field

The invention relates to drainage ceramic tile processing, in particular to a drainage ceramic tile, a processing system and a processing method thereof.

Background

For example, publication No. CN207027819U discloses a heat generating tile compound machine. The production method of the conventional heating ceramic tile is to bond, transfer and press in a manual mode, wastes time and labor, and has the disadvantages of low production efficiency, inaccurate product size and low product quality; the utility model comprises an adhesive part, a rolling part and a discharging part, wherein the adhesive part comprises a base I, a bracket I and a rolling shaft I, the rolling part comprises a base II, a bracket II and a rolling shaft II, two sides of the base II are provided with baffles, and the baffles are provided with notches; two ends of the rolling shaft II are respectively installed in the notch of the baffle through connecting plates, an upper rolling shaft and a lower rolling shaft are arranged in the notch, an adjusting bolt is arranged between the upper rolling shaft and the lower rolling shaft, and a heating rod is arranged between the upper rolling shaft and the lower rolling shaft; the utility model has the defect that the drainage ceramic tile can not be processed quickly.

Disclosure of Invention

The invention aims to provide a drainage ceramic tile, a processing system and a processing method thereof, which can be used for processing the drainage ceramic tile rapidly.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a drainage ceramic tile system of processing, includes device support, feed mechanism, pushing equipment, clamping machine structure, defeated material mechanism I, processing agency I, defeated material mechanism II and processing agency II, fixedly connected with feed mechanism on the device support is connected with pushing equipment on the device support, is connected with clamping machine structure on the device support, and fixedly connected with defeated material mechanism I on the device support, fixedly connected with processing agency I on the defeated material mechanism I, defeated material mechanism II of fixedly connected with on the device support, fixedly connected with processing agency II on the defeated material mechanism II.

As a further optimization of the technical scheme, the drainage ceramic tile processing system comprises a device support, a transportation support, transportation wheels, a sliding bottom plate and a sliding support, wherein the transportation support is fixedly connected to the bottom support, the transportation wheels are rotatably connected to the transportation support, the sliding bottom plate is fixedly connected to the bottom support, and the sliding support is fixedly connected to the bottom support.

As further optimization of the technical scheme, the drainage ceramic tile processing system comprises a feeding mechanism, a feeding frame and a feeding box, wherein the feeding mechanism comprises a telescopic mechanism I, the feeding frame and the feeding box;

the pushing equipment is including pushing away material motor, ejector sleeve, pushing away material connecting rod I, pushing away material connecting rod II and pushing away the material bottom plate, pushes away material motor fixed connection on the support of bottom, and ejector sleeve rotates to be connected on the sliding support, and the epaxial fixedly connected with of ejector sleeve pushes away material connecting rod I, and ejector sleeve and the output shaft transmission that pushes away the material motor are connected, and it has material pushing connecting rod II to push away to articulate on the material pushing connecting rod I, pushes away material connecting rod II and articulates on pushing away the material bottom plate, pushes away material bottom plate sliding connection on the sliding support, pushes away the.

As a further optimization of the technical scheme, the invention provides a drainage tile processing system, which comprises the following components: clamping machine constructs including the clamping motor, the clamping support, telescopic machanism II, clamping bottom plate and clamping side wheel, clamping motor fixed connection is on the bottom support, the clamping support is provided with two, two equal sliding connection of clamping support are on the bottom support, two clamping supports are respectively through threaded connection at the both ends of clamping motor output shaft, the screw thread at clamping motor output shaft both ends revolves to opposite, equal fixedly connected with telescopic machanism II on two clamping supports, the equal fixedly connected with clamping bottom plate of telescopic end of two telescopic machanism II, all rotate on two clamping bottom plates and be connected with a plurality of clamping side wheels.

As the further optimization of the technical scheme, the drainage tile processing system comprises a material conveying mechanism I, a transverse moving motor I, a transverse moving support II, a telescopic mechanism III, a material conveying support I and material conveying wheels I, wherein the transverse moving motor I is fixedly connected to the transverse moving support I, the transverse moving support II is slidably connected to the transverse moving support I, the transverse moving support II is connected to an output shaft of the transverse moving motor I through threads, the telescopic mechanism III is fixedly connected to the transverse moving support II, the telescopic end of the telescopic mechanism III is fixedly connected to the material conveying support I, the material conveying support I is rotatably connected with the two material conveying wheels I, and the transverse moving support I is fixedly connected to a bottom support.

As the technical scheme is further optimized, the processing mechanism I comprises a telescopic mechanism IV, a processing motor I and processing cutters I, the telescopic end of the telescopic mechanism IV is fixedly connected with the processing motor I, the output shaft of the processing motor I is fixedly connected with the processing cutters I, and the telescopic mechanism IV is fixedly connected to the transverse support II.

As a further optimization of the technical scheme, the invention relates to a drainage tile processing system, wherein a material conveying mechanism II comprises a transverse moving support III, a transverse moving motor II, a transverse moving support IV, a telescopic mechanism V, a material conveying support II, a material conveying wheel II, a rotary motor I, a rotary wheel, a rotary motor II, a cutting push wheel and a telescopic mechanism VI, the transverse moving support III is fixedly connected to a bottom support, the transverse moving motor II is fixedly connected to the transverse moving support III, the transverse moving support IV is slidably connected to the transverse moving support III, the transverse moving support IV is connected to an output shaft of the transverse moving motor II through threads, the telescopic mechanism V is fixedly connected to the transverse moving support IV, the telescopic end of the telescopic mechanism V is fixedly connected to the material conveying support II, the two material conveying wheels II are rotatably connected to the material conveying support II, the rotary motor I is fixedly connected to the transverse moving support IV, and the rotary wheel is fixedly connected, and a rotating motor II is fixedly connected to the transverse support IV, an output shaft of the rotating motor II is fixedly connected with a telescopic mechanism VI, and a telescopic end of the telescopic mechanism VI is fixedly connected with a cutting push wheel.

As further optimization of the technical scheme, the processing mechanism II comprises a processing bottom plate, two processing push columns, a processing motor II, two processing cutters II and a telescopic mechanism VII, wherein the processing bottom plate is fixedly connected with the two processing push columns, the two processing push columns are both connected onto a transverse support IV in a sliding mode, compression springs are fixedly connected between the two processing push columns and the transverse support IV, the telescopic mechanism VII is fixedly connected to the lower end of the processing bottom plate, the processing motor II is fixedly connected to the telescopic end of the telescopic mechanism VII, a plurality of processing cutters II are fixedly connected to the output shaft of the processing motor II, one processing push column is in contact with a rotating wheel, and the other processing push column is in contact with a cutting push wheel.

A method for processing drainage tiles, comprising the steps of:

the method comprises the following steps: a plurality of drainage tiles to be processed are placed in the feeding box, and the drainage tiles in the feeding box are pushed into the material conveying mechanism I by the material pushing mechanism;

step two: the processing mechanism I cuts the drainage ceramic tile of the material conveying mechanism I to form a drainage groove, and the material conveying mechanism I pushes the processed drainage ceramic tile into the material conveying mechanism II;

step three: and the processing mechanism II intermittently moves, and further processes the drainage groove to form a drainage inclined groove.

A drainage tile is provided with a drainage groove or a drainage inclined groove.

The drainage ceramic tile, the processing system and the processing method thereof have the beneficial effects that:

the invention relates to a drainage ceramic tile, a processing system and a processing method thereof.A plurality of drainage ceramic tiles to be processed can be placed in a feeding box, a material pushing mechanism pushes the drainage ceramic tiles in the feeding box into a material conveying mechanism I, a processing mechanism I cuts the drainage ceramic tiles of the material conveying mechanism I to form a drainage groove, the material conveying mechanism I pushes the processed drainage ceramic tiles into a material conveying mechanism II, the processing mechanism II moves intermittently, and the processing mechanism II further processes the drainage groove to form a drainage inclined groove; the inclined drainage groove is favorable for draining water.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of the overall construction of the drainage tile processing system of the present invention;

FIG. 2 is a schematic view of the device support structure of the present invention;

FIG. 3 is a schematic view of the feed mechanism of the present invention;

FIG. 4 is a schematic view of the pusher mechanism of the present invention;

FIG. 5 is a schematic structural view of a clamping mechanism of the present invention;

FIG. 6 is a schematic structural view of a feeding mechanism I of the present invention;

FIG. 7 is a schematic structural view of a processing mechanism I of the present invention;

FIG. 8 is a schematic structural diagram of a material conveying mechanism II of the present invention;

FIG. 9 is a schematic structural view of a machining mechanism II of the present invention;

fig. 10 is a schematic view of the construction of the drainage tile of the present invention.

In the figure: a device holder 1; a bottom bracket 101; a transport support 102; transport wheels 103; a skid base plate 104; a sliding bracket 105; a feeding mechanism 2; a telescoping mechanism I201; a feed block 202; a supply tank 203; a material pushing mechanism 3; a pusher motor 301; a pusher shaft 302; a material pushing connecting rod I303; a material pushing connecting rod II 304; a pusher shoe 305; a clamping mechanism 4; a clamping motor 401; a clamping bracket 402; a telescoping mechanism II 403; a clamping base plate 404; clamping the side wheels 405; a material conveying mechanism I5; a support I501 is transversely moved; a traversing motor I502; a transverse moving bracket II 503; a telescoping mechanism III 504; a material conveying bracket I505; a material conveying wheel I506; a processing mechanism I6; a telescoping mechanism IV 601; processing a motor I602; processing a cutter I603; a material conveying mechanism II 7; a bracket III 701 is transversely moved; a traversing motor II 702; the bracket IV 703 is transversely moved; a telescoping mechanism V704; a material conveying bracket II 705; a delivery wheel II 706; a rotating motor I707; a rotating wheel 708; rotating a motor II 709; a cutting push wheel 7010; a telescoping mechanism VI 7011; a processing mechanism II 8; processing a bottom plate 801; processing a push column 802; a processing motor II 803; machining a cutter II 804; the telescopic mechanism VII 805; a drainage tile 10; a water discharge tank 11; the drain inclined groove 12.

Detailed Description

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

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "top", "bottom", "inner", "outer" and "upright", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected, directly or indirectly connected through an intermediate medium, and may be a communication between two members. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, in the description of the present invention, the meaning of "a plurality", and "a plurality" is two or more unless otherwise specified.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 10, and a drainage tile processing system includes a device support 1, a feeding mechanism 2, a pushing mechanism 3, a clamping mechanism 4, a material conveying mechanism i 5, a processing mechanism i 6, a material conveying mechanism ii 7 and a processing mechanism ii 8, wherein the feeding mechanism 2 is fixedly connected to the device support 1, the pushing mechanism 3 is connected to the device support 1, the clamping mechanism 4 is connected to the device support 1, the material conveying mechanism i 5 is fixedly connected to the device support 1, the processing mechanism i 6 is fixedly connected to the material conveying mechanism i 5, the material conveying mechanism ii 7 is fixedly connected to the device support 1, and the processing mechanism ii 8 is fixedly connected to the material conveying mechanism ii 7.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1 to 10, and the present embodiment further describes the first embodiment, where the apparatus bracket 1 includes a bottom bracket 101, a transportation bracket 102, transportation wheels 103, a sliding bottom plate 104, and a sliding bracket 105, the transportation bracket 102 is fixedly connected to the bottom bracket 101, the transportation wheels 103 are rotatably connected to the transportation bracket 102, the sliding bottom plate 104 is fixedly connected to the bottom bracket 101, and the sliding bracket 105 is fixedly connected to the bottom bracket 101.

The third concrete implementation mode:

the present embodiment is described below with reference to fig. 1 to 10, and the second embodiment is further described in this embodiment, where the feeding mechanism 2 includes a telescopic mechanism i 201, a feeding frame 202, and a feeding box 203, the telescopic mechanism i 201 is fixedly connected to the sliding support 105, the telescopic end of the telescopic mechanism i 201 is fixedly connected to the feeding frame 202, and the feeding box 203 is fixedly connected to the feeding frame 202; when the drainage ceramic tile feeding device is used, a drainage ceramic tile 10 to be processed is placed in the feeding box 203, the upper end and the lower end of the feeding box 203 are both opened, the drainage ceramic tile 10 in the feeding box 203 falls on the sliding bottom plate 104, the telescopic mechanism I201 is started, the telescopic mechanism I201, the telescopic mechanism II 403, the telescopic mechanism III 504, the telescopic mechanism 601 IV, the telescopic mechanism V704, the telescopic mechanism VI 7011 and the telescopic mechanism VII 805 can be hydraulic cylinders or electric push rods, the telescopic end of the telescopic mechanism I201 starts to move, the telescopic end of the telescopic mechanism I201 drives the feeding box 203 to move, the relative height of the feeding box 203 is adjusted, and therefore when the thickness of the drainage ceramic tile 10 changes, the drainage ceramic tile 10 can also slide out from the lower side of the feeding box 203, and use requirements of different thicknesses are met;

the pushing mechanism 3 comprises a pushing motor 301, a pushing shaft 302, a pushing connecting rod I303, a pushing connecting rod II 304 and a pushing bottom plate 305, the pushing motor 301 is fixedly connected to the bottom support 101, the pushing shaft 302 is rotatably connected to the sliding support 105, the pushing shaft 302 is fixedly connected with the pushing connecting rod I303, the pushing shaft 302 is in transmission connection with an output shaft of the pushing motor 301, the pushing connecting rod I303 is hinged to the pushing connecting rod II 304, the pushing connecting rod II 304 is hinged to the pushing bottom plate 305, the pushing bottom plate 305 is slidably connected to the sliding support 105, and the pushing bottom plate 305 is located on the lower side of the feeding box 203; the material pushing motor 301 is started, the output shaft of the material pushing motor 301 starts to rotate, the output shaft of the material pushing motor 301 drives the material pushing shaft 302 to rotate, the material pushing shaft 302 drives the material pushing connecting rod I303 to rotate, the material pushing connecting rod I303 drives the material pushing connecting rod II 304 to rotate, the material pushing connecting rod II 304 drives the material pushing bottom plate 305 to move, the material pushing bottom plate 305 slides on the sliding support 105, the length of the material pushing bottom plate 305 is larger than that of the drainage tile 10, the material pushing bottom plate 305 pushes the drainage tile 10 to move forwards, meanwhile, the lower side of the material feeding box 203 is shielded, other drainage tiles 10 are prevented from falling off, and the material pushing bottom plate 305 pushes the drainage tiles 10 into the conveying wheels 103.

The fourth concrete implementation mode:

the third embodiment is further described with reference to fig. 1 to 10, where the clamping mechanism 4 includes a clamping motor 401, two clamping brackets 402, a telescopic mechanism ii 403, two clamping bottom plates 404 and two clamping side wheels 405, the clamping motor 401 is fixedly connected to the bottom bracket 101, the two clamping brackets 402 are both slidably connected to the bottom bracket 101, the two clamping brackets 402 are respectively connected to two ends of an output shaft of the clamping motor 401 through threads, the thread turning directions of the two ends of the output shaft of the clamping motor 401 are opposite, the two clamping brackets 402 are both fixedly connected to the telescopic mechanism ii 403, the telescopic ends of the two telescopic mechanisms ii 403 are both fixedly connected to the clamping bottom plates 404, and the two clamping bottom plates 404 are both rotatably connected to the plurality of clamping side wheels 405; start clamping motor 401, the output shaft of clamping motor 401 begins to rotate, the output shaft of clamping motor 401 drives two clamping support 402 through the screw thread and moves, two clamping support 402 are close to each other or keep away from, two clamping support 402 drive two telescopic machanism II 403 respectively and move, two telescopic machanism II 403 drive two clamping bottom plate 404 respectively and move, two clamping bottom plate 404 drive a plurality of clamping side wheels 405 respectively and move, make a plurality of clamping side wheels 405 extrude the side of drainage ceramic tile 10, and then carry on spacingly to drainage ceramic tile 10, start telescopic machanism II 403, can adjust the height of clamping side wheel 405 during telescopic end motion of telescopic machanism II 403.

The fifth concrete implementation mode:

the following describes this embodiment with reference to fig. 1 to 10, and this embodiment further describes the fourth embodiment, the material conveying mechanism i 5 includes a traverse support i 501, a traverse motor i 502, a traverse support ii 503, an expansion mechanism iii 504, a material conveying support i 505, and a material conveying wheel i 506, the traverse support i 501 is fixedly connected with the traverse motor i 502, the traverse support ii 503 is slidably connected to the traverse support i 501, the traverse support ii 503 is connected to an output shaft of the traverse motor i 502 through a thread, the traverse support ii 503 is fixedly connected with an expansion mechanism iii 504, the expansion end of the expansion mechanism iii 504 is fixedly connected with the material conveying support i 505, the material conveying support i 505 is rotatably connected with two material conveying wheels i 506, and the traverse support i 501 is fixedly connected to the bottom bracket 101.

The sixth specific implementation mode:

the embodiment is described below with reference to fig. 1 to 10, and the embodiment further describes a fifth embodiment, where the processing mechanism i 6 includes a telescoping mechanism iv 601, a processing motor i 602, and a processing tool i 603, a processing motor i 602 is fixedly connected to a telescoping end of the telescoping mechanism iv 601, a plurality of processing tools i 603 are fixedly connected to an output shaft of the processing motor i 602, and the telescoping mechanism iv 601 is fixedly connected to the traverse bracket ii 503; starting a traverse motor I502, starting an output shaft of the traverse motor I502 to rotate, driving a traverse bracket II 503 to move by the output shaft of the traverse motor I502 through threads, further adjusting the position of the traverse bracket II 503, starting a telescopic mechanism III 504, enabling a telescopic end of the telescopic mechanism III 504 to move downwards, driving a material conveying bracket I505 to move downwards by a telescopic end of the telescopic mechanism III 504, driving two material conveying wheels I506 to move downwards by the material conveying bracket I505, enabling the two material conveying wheels I506 to be in contact with the upper ends of drainage tiles 10, arranging power devices for driving the material conveying wheels I506 and the two material conveying wheels II 706 to rotate, enabling the drainage tiles 10 to pass through a plurality of processing cutters I603 by the rotation of the two material conveying wheels I506, starting the processing motor I602, enabling the output shaft of the processing motor I602 to rotate, driving a plurality of processing cutters I603 to rotate by the output shaft of the processing motor I602, the processing cutter I603 processes the passing drainage tile 10 to form a drainage groove 11, and the height of the processing cutter I603 can be adjusted by starting the telescopic mechanism IV 601.

The seventh embodiment:

the present embodiment is described below with reference to fig. 1 to 10, and the present embodiment further describes an embodiment six, where the material conveying mechanism ii 7 includes a traverse support iii 701, a traverse motor ii 702, a traverse support iv 703, a telescoping mechanism v 704, a material conveying support ii 705, a material conveying wheel ii 706, a rotating motor i 707, a rotating wheel 708, a rotating motor ii 709, a cutting push wheel 7010, and a telescoping mechanism vi 7011, the traverse support iii 701 is fixedly connected to the bottom support 101, the traverse motor ii 702 is fixedly connected to the traverse support iii 701, the traverse support iv 703 is slidably connected to the traverse support iii 701, the traverse support iv 703 is connected to an output shaft of the traverse motor ii 702 by a screw thread, the telescoping mechanism v 704 is fixedly connected to the traverse support iv 703, the telescoping end of the telescoping mechanism v 704 is fixedly connected to the material conveying support ii 705, the material conveying support ii 705 is rotatably connected to two material conveying wheels ii 706, the transverse moving support IV 703 is fixedly connected with a rotating motor I707, an output shaft of the rotating motor I707 is fixedly connected with a rotating wheel 708, the transverse moving support IV 703 is fixedly connected with a rotating motor II 709, an output shaft of the rotating motor II 709 is fixedly connected with a telescoping mechanism VI 7011, and a telescopic end of the telescoping mechanism VI 7011 is fixedly connected with a cutting push wheel 7010.

The specific implementation mode is eight:

the following describes the present embodiment with reference to fig. 1 to 10, and the seventh embodiment is further described in the present embodiment, where the processing mechanism ii 8 includes a processing bottom plate 801, processing push posts 802, a processing motor ii 803, a processing cutter ii 804 and a telescopic mechanism vii 805, the processing bottom plate 801 is fixedly connected with two processing push posts 802, the two processing push posts 802 are both slidably connected to a traverse support iv 703, compression springs are fixedly connected between the two processing push posts 802 and the traverse support iv 703, the lower end of the processing bottom plate 801 is fixedly connected with the telescopic mechanism vii 805, the telescopic end of the telescopic mechanism vii 805 is fixedly connected with the processing motor ii 803, the output shaft of the processing motor ii 803 is fixedly connected with a plurality of processing cutters ii 804, one of the processing push posts 802 is in contact with a rotating wheel 708, and the other processing push post 802 is in contact with a cutting push wheel 7010; the first 506 of conveying wheel promotes the drainage ceramic tile 10 to continue moving, the drainage ceramic tile 10 moves to the side of the second 706 of conveying wheel, the second 706 of conveying wheel drives the drainage ceramic tile 10 to continue moving, the drainage ceramic tile 10 passes through the second 8 of processing mechanism, the second 803 of processing motor is started, the output shaft of the second 803 of processing motor drives the second 804 of a plurality of processing cutters to rotate, the second 804 of processing cutter coincides with the drainage groove 11 on the drainage ceramic tile 10 when rotating, the drainage ceramic tile 10 cannot be processed, the VII 805 of telescopic mechanism is started, and the relative height of the second 804 of processing cutter can be adjusted when the telescopic end of the VII 805 of telescopic mechanism moves.

A method for processing drainage tiles, comprising the steps of:

the method comprises the following steps: placing a plurality of drainage ceramic tiles 10 to be processed in a feeding box 203, and pushing the drainage ceramic tiles 10 in the feeding box 203 into a material conveying mechanism I5 by a material pushing mechanism 3;

step two: the processing mechanism I6 cuts the drainage ceramic tile 10 of the material conveying mechanism I5 to form a drainage groove 11, and the material conveying mechanism I5 pushes the processed drainage ceramic tile 10 into the material conveying mechanism II 7;

step three: the processing mechanism II 8 intermittently moves, and the processing mechanism II 8 further processes the drainage groove 11 to form a drainage inclined groove 12.

A drainage tile 10 is provided with a drainage groove 11 or a drainage inclined groove 12.

The invention relates to a drainage ceramic tile, a processing system and a processing method thereof, wherein the working principle is as follows:

when the drainage ceramic tile feeding device is used, a drainage ceramic tile 10 to be processed is placed in the feeding box 203, the upper end and the lower end of the feeding box 203 are both opened, the drainage ceramic tile 10 in the feeding box 203 falls on the sliding bottom plate 104, the telescopic mechanism I201 is started, the telescopic mechanism I201, the telescopic mechanism II 403, the telescopic mechanism III 504, the telescopic mechanism 601 IV, the telescopic mechanism V704, the telescopic mechanism VI 7011 and the telescopic mechanism VII 805 can be hydraulic cylinders or electric push rods, the telescopic end of the telescopic mechanism I201 starts to move, the telescopic end of the telescopic mechanism I201 drives the feeding box 203 to move, the relative height of the feeding box 203 is adjusted, and therefore when the thickness of the drainage ceramic tile 10 changes, the drainage ceramic tile 10 can also slide out from the lower side of the feeding box 203, and use requirements of different thicknesses are met; the method comprises the following steps that a material pushing motor 301 is started, an output shaft of the material pushing motor 301 starts to rotate, the output shaft of the material pushing motor 301 drives a material pushing shaft 302 to rotate, the material pushing shaft 302 drives a material pushing connecting rod I303 to rotate, the material pushing connecting rod I303 drives a material pushing connecting rod II 304 to rotate, the material pushing connecting rod II 304 drives a material pushing bottom plate 305 to move, the material pushing bottom plate 305 slides on a sliding support 105, the length of the material pushing bottom plate 305 is larger than that of a drainage tile 10, the material pushing bottom plate 305 pushes the drainage tile 10 to move forwards, meanwhile, the lower side of a material feeding box 203 is shielded, other drainage tiles 10 are prevented from falling off, and the material pushing bottom plate 305 pushes the drainage tiles 10 into a; the method comprises the steps that a clamping motor 401 is started, an output shaft of the clamping motor 401 starts to rotate, the output shaft of the clamping motor 401 drives two clamping supports 402 to move through threads, the two clamping supports 402 are close to or far away from each other, the two clamping supports 402 respectively drive two telescopic mechanisms II 403 to move, the two telescopic mechanisms II 403 respectively drive two clamping bottom plates 404 to move, the two clamping bottom plates 404 respectively drive a plurality of clamping side wheels 405 to move, the plurality of clamping side wheels 405 extrude the side edges of a drainage ceramic tile 10, the drainage ceramic tile 10 is limited, the telescopic mechanisms II 403 are started, and the heights of the clamping side wheels 405 can be adjusted when telescopic ends of the telescopic mechanisms II 403 move; starting a traverse motor I502, starting an output shaft of the traverse motor I502 to rotate, driving a traverse bracket II 503 to move by the output shaft of the traverse motor I502 through threads, further adjusting the position of the traverse bracket II 503, starting a telescopic mechanism III 504, enabling a telescopic end of the telescopic mechanism III 504 to move downwards, driving a material conveying bracket I505 to move downwards by a telescopic end of the telescopic mechanism III 504, driving two material conveying wheels I506 to move downwards by the material conveying bracket I505, enabling the two material conveying wheels I506 to be in contact with the upper ends of drainage tiles 10, arranging power devices for driving the material conveying wheels I506 and the two material conveying wheels II 706 to rotate, enabling the drainage tiles 10 to pass through a plurality of processing cutters I603 by the rotation of the two material conveying wheels I506, starting the processing motor I602, enabling the output shaft of the processing motor I602 to rotate, driving a plurality of processing cutters I603 to rotate by the output shaft of the processing motor I602, the processing cutter I603 processes the passing drainage ceramic tile 10 to form a drainage groove 11, and the height of the processing cutter I603 can be adjusted by starting the telescopic mechanism IV 601; the conveying wheel I506 pushes the drainage tile 10 to move continuously, the drainage tile 10 moves to the conveying wheel II 706 side, the conveying wheel II 706 drives the drainage tile 10 to move continuously, the drainage tile 10 passes through the processing mechanism II 8, the processing motor II 803 is started, the output shaft of the processing motor II 803 drives the plurality of processing cutters II 804 to rotate, the processing cutters II 804 are overlapped with the drainage grooves 11 in the drainage tile 10 when rotating, the drainage tile 10 cannot be processed, the telescopic mechanism VII 805 is started, and the relative height of the processing cutters II 804 can be adjusted when the telescopic end of the telescopic mechanism VII 805 moves; simultaneously starting a rotating motor I707 and a rotating motor II 709, starting the rotation of an output shaft of the rotating motor II 709, driving a telescopic mechanism VI 7011 to rotate by the output shaft of the rotating motor II 709, driving a cutting push wheel 7010 to rotate by the telescopic mechanism VI 7011, driving a processing push column 802 to move downwards in the rotating process by the cutting push wheel 7010, driving a processing cutter II 804 to move downwards by the processing push column 802, just passing a drainage ceramic tile 10 when the processing cutter II 804 moves downwards to a limit position, starting the upward movement of the processing cutter II 804 at the lower limit position, further processing the drainage groove 11 by the processing cutter II 804 to form a drainage inclined groove 12, and controlling the speed of the rotating motor II 709 and the transportation speed of a material conveying wheel I506 and a material conveying wheel II 706 to ensure that the processing cutter II 804 is at the lower limit position when each drainage ceramic tile 10 moves to the processing cutter II 804 side, therefore, the inclined grooves can be processed, meanwhile, the rotating speed of the output shaft of the rotating motor II 709 can be controlled to control when the processing cutter II 804 moves to the lower side limit position, the quantity of the drainage tiles 10 is controlled, and after the drainage tiles 10 pass through the drainage tiles 10, a drainage tile 10 with the drainage inclined grooves 12 is processed, the laying mode shown in the figure 10 is formed, namely, only the drainage tile 10 with the drainage inclined grooves 12 is required to be arranged at the drainage position, other drainage tiles 10 are provided with the drainage grooves 11, the telescopic mechanism VI 7011 is started, the telescopic end of the telescopic mechanism VI 7011 drives the cutting push wheel 7010 to move, the extending length of the cutting push wheel 7010 is adjusted, the limit distance that the cutting push wheel 7010 can push the processing cutter II 804 to move downwards is adjusted, and the inclination degree of the drainage inclined grooves 12 is adjusted.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (10)

1. The utility model provides a drainage ceramic tile system of processing, includes device support (1), feed mechanism (2), pushing equipment (3), clamping machine structure (4), defeated material mechanism I (5), processing agency I (6), defeated material mechanism II (7) and processing agency II (8), its characterized in that: fixedly connected with feeding mechanism (2) is gone up in device support (1), is connected with pushing equipment (3) on device support (1), is connected with clamping machine structure (4) on device support (1), and fixedly connected with defeated material mechanism I (5) is gone up in device support (1), fixedly connected with processing agency I (6) is gone up in defeated material mechanism I (5), and fixedly connected with defeated material mechanism II (7) is gone up in device support (1), fixedly connected with processing agency II (8) on defeated material mechanism II (7).

2. A drainage tile processing system according to claim 1, wherein: the device support (1) comprises a bottom support (101), a transportation support (102), transportation wheels (103), a sliding bottom plate (104) and a sliding support (105), wherein the transportation support (102) is fixedly connected to the bottom support (101), the transportation support (102) is rotatably connected with a plurality of transportation wheels (103), the sliding bottom plate (104) is fixedly connected to the bottom support (101), and the sliding support (105) is fixedly connected to the bottom support (101).

3. A drainage tile processing system according to claim 2, wherein: the feeding mechanism (2) comprises a telescopic mechanism I (201), a feeding frame (202) and a feeding box (203), the telescopic mechanism I (201) is fixedly connected to the sliding support (105), the telescopic end of the telescopic mechanism I (201) is fixedly connected with the feeding frame (202), and the feeding box (203) is fixedly connected to the feeding frame (202);

the material pushing mechanism (3) comprises a material pushing motor (301), a material pushing shaft (302), a material pushing connecting rod I (303), a material pushing connecting rod II (304) and a material pushing bottom plate (305), the material pushing motor (301) is fixedly connected to the bottom support (101), the material pushing shaft (302) is rotatably connected to the sliding support (105), the material pushing shaft (302) is fixedly connected to the material pushing connecting rod I (303), the material pushing shaft (302) is in transmission connection with an output shaft of the material pushing motor (301), the material pushing connecting rod I (303) is hinged to the material pushing connecting rod II (304), the material pushing connecting rod II (304) is hinged to the material pushing bottom plate (305), the material pushing bottom plate (305) is in sliding connection with the sliding support (105), and the material pushing bottom plate (305) is located on the lower side of the material.

4. A drainage tile processing system according to claim 3, wherein: clamping machine constructs (4) including clamping motor (401), clamping support (402), telescopic machanism II (403), clamping bottom plate (404) and clamping side wheel (405), clamping motor (401) fixed connection is on bottom support (101), clamping support (402) are provided with two, two equal sliding connection of clamping support (402) are on bottom support (101), two clamping support (402) are respectively through the both ends of threaded connection at clamping motor (401) output shaft, the screw thread of clamping motor (401) output shaft both ends is revolved to opposite, equal fixedly connected with telescopic machanism II (403) on two clamping support (402), the equal fixedly connected with clamping bottom plate (404) of the flexible end of two telescopic machanism II (403), all rotate on two clamping bottom plate (404) and be connected with a plurality of clamping side wheels (405).

5. A drainage tile processing system according to claim 4, wherein: defeated material mechanism I (5) are including sideslip support I (501), sideslip motor I (502), sideslip support II (503), telescopic machanism III (504), defeated material support I (505) and defeated material wheel I (506), fixedly connected with sideslip motor I (502) on sideslip support I (501), sideslip support II (503) sliding connection is on sideslip support I (501), sideslip support II (503) pass through threaded connection on the output shaft of sideslip motor I (502), fixedly connected with telescopic machanism III (504) on sideslip support II (503), telescopic end fixedly connected with defeated material support I (505) of telescopic machanism III (504), it is connected with two defeated material wheels I (506) to rotate on defeated material support I (505), sideslip support I (501) fixed connection is on bottom support (101).

6. A drainage tile processing system according to claim 5, wherein: processing agency I (6) are including telescopic machanism IV (601), processing motor I (602) and processing cutter I (603), fixedly connected with processing motor I (602) on the flexible end of telescopic machanism IV (601), a plurality of processing cutters I (603) of fixedly connected with on the output shaft of processing motor I (602), and telescopic machanism IV (601) fixed connection is on sideslip support II (503).

7. A drainage tile processing system according to claim 6, wherein: the material conveying mechanism II (7) comprises a transverse moving support III (701), a transverse moving motor II (702), a transverse moving support IV (703), a telescopic mechanism V (704), a material conveying support II (705), a material conveying wheel II (706), a rotating motor I (707), a rotating wheel (708), a rotating motor II (709), a cutting push wheel (7010) and a telescopic mechanism VI (7011), the transverse moving support III (701) is fixedly connected to the bottom support (101), the transverse moving motor II (702) is fixedly connected to the transverse moving support III (701), a transverse moving support IV (703) is slidably connected to the transverse moving support III (701), the transverse moving support IV (703) is connected to an output shaft of the transverse moving motor II (702) through threads, the telescopic mechanism V (704) is fixedly connected to the transverse moving support IV (703), the telescopic end of the telescopic mechanism V (704) is fixedly connected to the material conveying support II (705), the material conveying support II (706) is rotatably connected to the transverse moving support II (705), the transverse moving support IV (703) is fixedly connected with a rotating motor I (707), an output shaft of the rotating motor I (707) is fixedly connected with a rotating wheel (708), the transverse moving support IV (703) is fixedly connected with a rotating motor II (709), an output shaft of the rotating motor II (709) is fixedly connected with a telescopic mechanism VI (7011), and the telescopic end of the telescopic mechanism VI (7011) is fixedly connected with a cutting push wheel (7010).

8. A drainage tile processing system according to claim 7, wherein: the processing mechanism II (8) comprises a processing bottom plate (801), two processing push posts (802), a processing motor II (803), a processing cutter II (804) and a telescopic mechanism VII (805), wherein the processing bottom plate (801) is fixedly connected with the two processing push posts (802), the two processing push posts (802) are both connected on the transverse moving support IV (703) in a sliding manner, compression springs are fixedly connected between the two processing push posts (802) and the transverse moving support IV (703), the lower end of the processing bottom plate (801) is fixedly connected with the telescopic mechanism VII (805), the telescopic end of the telescopic mechanism VII (805) is fixedly connected with the processing motor II (803), and an output shaft of the processing motor II (803) is fixedly connected with the processing cutters II (804), one of the processing push columns (802) is contacted with the rotating wheel (708), and the other processing push column (802) is contacted with the cutting push wheel (7010).

9. A method of processing drainage tiles using the drainage tile processing system of claim 8, wherein: the method comprises the following steps:

the method comprises the following steps: a plurality of drainage ceramic tiles (10) to be processed are placed in a feeding box (203), and the drainage ceramic tiles (10) in the feeding box (203) are pushed into a material conveying mechanism I (5) by a material pushing mechanism (3);

step two: the processing mechanism I (6) cuts the drainage ceramic tile (10) of the material conveying mechanism I (5) to form a drainage groove (11), and the material conveying mechanism I (5) pushes the processed drainage ceramic tile (10) into the material conveying mechanism II (7);

step three: the processing mechanism II (8) intermittently moves, and the processing mechanism II (8) further processes the drainage groove (11) to form a drainage inclined groove (12).

10. A drainage tile processed using a drainage tile processing system of claim 8, wherein: the drainage tile (10) is provided with a drainage groove (11) or a drainage inclined groove (12).

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