CN112476809B - Ceramic plate processing and cutting equipment - Google Patents

Abstract

The invention relates to cutting equipment, in particular to ceramic plate processing and cutting equipment. The technical problem to be solved is as follows: the ceramic plate processing and cutting equipment can automatically feed and automatically fix a ceramic plate to be cut and automatically spray water for dust fall. The technical scheme of the invention is as follows: a ceramic plate processing and cutting device comprises a vertical support and the like; mobile device and cutting assembly erect the support and have two, and the support frame has four, fixes being equipped with the bearing plate on the support frame, and the bearing plate both sides are equipped with two fixed plates, fixed roof, its characterized in that of being equipped with on the fixed plate: the mobile device is arranged on the fixed plate, and the cutting assembly is arranged on the mobile device. According to the automatic ceramic plate cutting machine, the ceramic plate can be automatically positioned at the cutting position and compressed through the pre-tightening assembly, and then the ceramic plate can be automatically cut through the cutting assembly, wherein the cutting assembly is numerical-controlled.

Description

Ceramic plate processing and cutting equipment

Technical Field

The invention relates to cutting equipment, in particular to ceramic plate processing and cutting equipment.

Background

The ceramic plate is mainly used for outdoor curtain walls and indoor decoration, such as floor tiles, wall tiles and the like, and generally needs to be cut into a proper size for use. The existing cutting device, such as Chinese patent with patent publication No. CN211616185U, discloses a ceramic plate cutting device, which comprises a mounting box and a positioning plate, wherein the mounting box is arranged right above the central position of the positioning plate, a first T-shaped sliding strip is arranged at the central position of the bottom of the mounting box, a first T-shaped sliding groove is arranged at the top of the positioning plate along the extending direction of the positioning plate, the first T-shaped sliding strip is clamped in the first T-shaped sliding groove in a sliding manner, a handle is fixedly connected at the central position of the top of the mounting box, a water storage box is fixedly arranged on the top surface of the mounting box at one side of the handle, and a controller is fixedly arranged on the top surface of the mounting box at the other side of the handle. This consumes a lot of manpower.

Therefore, the ceramic plate processing and cutting equipment which can automatically feed and automatically fix the ceramic plate to be cut and can automatically spray water for dust fall needs to be researched and developed.

Disclosure of Invention

Need artifical promotion handle in cutting process in order to overcome current cutting device to need the manual control water pump to spray water, and cutting at every turn all needs the manual work to place the ceramic plate, consumed the shortcoming of a large amount of manpowers like this, the technical problem who solves is: the ceramic plate processing and cutting equipment can automatically feed and automatically fix a ceramic plate to be cut and automatically spray water for dust fall.

The technical scheme of the invention is as follows: the utility model provides a ceramic plate processing cutting equipment, including erecting the support, the support frame, the bearing plate, fixed plate and roof, it has two to erect the support, the support frame has four, the fixed bearing plate that is equipped with on the support frame, the bearing plate both sides are equipped with two fixed plates, the fixed roof that is equipped with on the fixed plate, a serial communication port, still including mobile device and cutting assembly, mobile device locates on the fixed plate, cutting assembly locates on the mobile device, cutting assembly is including the cylinder, the safety cover, fourth motor and cutting knife, the cylinder slidingtype is located on the mobile device, the safety cover is fixed on the telescopic link of cylinder, the fourth motor is fixed to be located in the safety cover, the cutting knife is fixed on the output shaft of locating the fourth motor.

In one embodiment, the moving device comprises a second motor, a third motor, a first lead screw, a second belt, a second lead screw, a third belt, a fourth lead screw, a first slide bar, a second slide bar and a second support, the second support is arranged beside the support frame on one side, the second motor is fixedly arranged on the second support, the third motor is fixedly arranged on a protruding plate of a fixed plate on one side, the first lead screw is fixedly arranged on an output shaft of the second motor, the first lead screw and the second lead screw are respectively arranged on two fixed plates in a penetrating way and are rotatably connected with the fixed plates, the second belt is wound on the first lead screw and the second lead screw, the third lead screw is fixedly arranged on an output shaft of the third motor, one end of the third lead screw and one end of the fourth lead screw are arranged on the fixed plate close to the third motor, the other end of the third lead screw and the fourth lead screw are rotatably connected with the two fixed plates, the third belt is wound on the third lead screw and the fourth lead screw, two ends of the first sliding rod are respectively sleeved on the third lead screw and the fourth lead screw, the first sliding rod is in threaded connection with the third lead screw and the fourth lead screw, similarly, two ends of the second sliding rod are respectively sleeved on the first lead screw and the second lead screw, and the second sliding rod is in threaded connection with the first lead screw and the second lead screw;

the second motor and the third motor rotate to drive the first lead screw and the third lead screw to rotate, the first lead screw transmits rotation to the second lead screw through the second belt to drive the second slide bar to move, and the third lead screw transmits rotation to the fourth lead screw through the third belt to drive the first slide bar to move, so that the cutting assembly is driven to move in a rectangular mode.

In one embodiment, the power mechanism comprises a first motor, a support plate, a first rotating shaft, a cam, a cylindrical pin, a second rotating shaft, a grooved pulley, a rotating wheel, a first belt and a third rotating shaft, wherein the support plate is fixedly arranged on a vertical support, the first motor is fixedly arranged on the support plate, the first rotating shaft is fixedly arranged on an output shaft of the first motor, the first rotating shaft is rotatably arranged on the vertical support, the cam is fixedly arranged on the first rotating shaft, the cylindrical pin is fixedly arranged on a protruding part of the cam, the second rotating shaft is rotatably arranged on the vertical support, the grooved pulley and the rotating wheel are fixedly arranged on the second rotating shaft, the third rotating shaft is rotatably arranged on the vertical support, and the first belt is wound on the rotating wheel and the third rotating shaft;

the output shaft of the first motor rotates to drive the first rotating shaft to rotate, the first rotating shaft drives the cam to rotate, when the cylindrical pin on the cam does not enter the groove of the grooved wheel, the grooved wheel is not moved, when the cylindrical pin enters the groove, the cam drives the grooved wheel to rotate, when the cylindrical pin leaves the grooved wheel from the other side, the grooved wheel stops moving until the cylindrical pin enters the groove next time, so that intermittent rotation of the grooved wheel is realized, the grooved wheel can drive the second rotating shaft and the rotating wheel to rotate when rotating, and the rotating wheel transmits the rotation to the third rotating shaft through the first belt.

In one embodiment, the ceramic plate feeding device further comprises a feeding device, wherein the feeding device comprises a fourth rotating shaft, rollers, a conveying belt, a stop block, storage racks and a first support column, the first support column and the second support column are arranged in parallel, the fourth rotating shaft is rotatably arranged on the first support column and the second support column in a penetrating mode, the two rollers are fixedly arranged on the third rotating shaft and the fourth rotating shaft, the conveying belt is wound on the two rollers, the conveying belt is uniformly provided with the plurality of stop blocks, the number of the storage racks is two, each storage rack is respectively and fixedly arranged on a vertical support, a plurality of ceramic plates are placed between the storage racks, the storage racks are padded between the vertical supports and the ceramic plates, and the height of the stop block is consistent with that of the lowest ceramic plate;

after a power mechanism is started, the third rotating shaft rotates intermittently to drive the roller fixed on the third rotating shaft to rotate intermittently, the roller transmits the rotation to the other roller through the conveyor belt, the stop dog can contact the ceramic plate at the bottommost part when passing through the storage rack every time, when the ceramic plate is pushed out of the storage rack, the rest ceramic plates can downwards slide to the ceramic plate at the bottommost part to contact the storage rack, and the stop dog drives the ceramic plate which is just pushed out to move forwards.

In one embodiment, the device further comprises a pre-tightening assembly, wherein the pre-tightening assembly comprises two inclined plates, a pressing plate, a sliding block and a spring, the two inclined plates are respectively fixedly arranged on the inner walls of the two fixing plates, the pressing plate is fixedly arranged on the inclined plates, a sliding groove is formed in one surface, close to the inclined plates, of the pressing plate, the sliding block is connected with the pressing plate in a sliding mode, and two ends of the spring are respectively arranged on the sliding block and the pressing plate;

when the cutting subassembly below is sent with the ceramic plate to the conveyer belt, the ceramic plate can be pushed away the swash plate, and the ceramic plate gets into between swash plate and the clamp plate, and the ceramic plate moves forward and can extrude the slider to both sides, and the slider receives thrust and slides along the swash plate, and the spring receives the extrusion, and the slider is compressed tightly under the effect of spring.

In one embodiment, the device also comprises a flushing mechanism, the flushing mechanism comprises a water bucket, a water guide pipe, a sensing nozzle and a third support column, the water bucket is arranged on one side of the support frame, the third support column is fixedly arranged on the top plate, one end of the water guide pipe is inserted into the water bucket, the other end of the water guide pipe penetrates through the top plate, and the sensing nozzle is arranged at the position of the pipe orifice of the water guide pipe;

the sensor of the induction nozzle is started after sensing the powder, water is pumped out of the water barrel along the water guide pipe and is sprayed out of the induction nozzle, and ceramic powder generated in the cutting process is washed away.

In one embodiment, the waste water treatment device further comprises a first waste water box, the four support frames are provided with water flowing grooves, the first waste water box is arranged between the four support frames, and the water flowing grooves lead to the first waste water box.

In one embodiment, the device further comprises a landslide, a water scraping plate and a second wastewater box, wherein the landslide is arranged at the tail end of the conveyor belt, the water scraping plate is fixedly arranged on the landslide, and the second wastewater box is fixedly arranged on two sides of the landslide;

when the cut ceramic plate slides down from the landslide, the waste water remained on the surface of the ceramic plate is scraped by the scraper through the scraper and is discharged into the second waste water box.

The beneficial effects are that: according to the automatic ceramic plate cutting machine, the ceramic plate can be automatically positioned at the cutting position and compressed through the pre-tightening assembly, then the automatic cutting of the ceramic plate can be realized through the cutting assembly, the cutting assembly is numerical-controlled, the automatic cutting of the ceramic plate can be realized only by inputting the required cutting size numerical value, manual pushing cutting is not needed, and the working efficiency is greatly improved.

According to the automatic feeding device, automatic feeding can be realized through the power mechanism and the feeding device, the operation of positioning and fixing the ceramic plate once before cutting is not needed any more, and the labor consumption is reduced.

According to the invention, through the flushing mechanism, automatic detection of dust is realized by using the automatic dust induction sensor, water spraying can be automatically controlled, a water pump does not need to be manually controlled, and automatic water spraying and dust falling are realized.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the present invention.

Fig. 3 is a schematic perspective view of the power mechanism and the feeding device according to the present invention.

Fig. 4 is a schematic perspective view of a mobile device according to the present invention.

Fig. 5 is a schematic perspective view of the cutting assembly of the present invention.

Fig. 6 is a schematic perspective view of the pretensioning assembly according to the present invention.

Fig. 7 is a schematic partial perspective view of a pretensioning assembly according to the present invention.

Fig. 8 is a perspective view of the flushing mechanism of the present invention.

Fig. 9 is a partial perspective view of the present invention.

Labeled in the figure as: 1-vertical support, 101-storage rack, 1011-ceramic plate, 102-support rack, 103-bearing plate, 104-fixing plate, 105-first support, 106-second support, 107-top plate, 108-third support, 2 a-power mechanism, 2 b-feeding device, 201-first motor, 2011-support plate, 202-first rotating shaft, 203-cam, 204-cylindrical pin, 205-second rotating shaft, 206-grooved wheel, 207-rotating wheel, 208-first belt, 209-third rotating shaft, 2091-fourth rotating shaft, 210-roller, 211-conveying belt, 212-stop block, 3-moving device, 301-second motor, 302-third motor, 303-first lead screw, 304-second belt, 305-a second lead screw, 306-a third lead screw, 307-a third belt, 308-a fourth lead screw, 309-a first sliding rod, 310-a second sliding rod, 4-a cutting component, 401-a cylinder, 402-a protective cover, 403-a fourth motor, 404-a cutting knife, 5-a pre-tightening component, 501-an inclined plate, 502-a pressing plate, 503-a sliding block, 5031-a spring, 6-a flushing mechanism, 601-a water bucket, 602-a water guide pipe, 603-an induction nozzle, 604-a water flowing groove, 605-a first wastewater box, 701-a landslide, 702-a water scraping plate and 703-a second wastewater box.

Detailed Description

The invention will be further described with reference to examples of embodiments shown in the drawings to which the invention is attached.

Example 1

The utility model provides a ceramic plate processing cutting equipment, as shown in fig. 1-2, including erecting support 1, support frame 102, bearing plate 103, fixed plate 104 and roof 107, it has two to erect support 1, and support frame 102 has four, fixes being equipped with bearing plate 103 on the support frame 102, and bearing plate 103 both sides are equipped with two fixed plates 104, fixes being equipped with roof 107 on the fixed plate 104, its characterized in that: the cutting device is characterized by further comprising a moving device 3 and a cutting assembly 4, wherein the moving device 3 is arranged on the fixing plate 104, the cutting assembly 4 is arranged on the moving device 3, the cutting assembly 4 comprises an air cylinder 401, a protective cover 402, a fourth motor 403 and a cutting knife 404, the air cylinder 401 is arranged on the moving device 3 in a sliding mode, the protective cover 402 is fixed on an expansion rod of the air cylinder 401, the fourth motor 403 is fixedly arranged in the protective cover 402, and the cutting knife 404 is fixedly arranged on an output shaft of the fourth motor 403.

The during operation opens mobile device 3, and mobile device 3 drives cutting assembly 4 and removes, and when cutting assembly 4 cut ceramic plate 1011, the height position of opening cylinder 401 adjustment safety cover 402, then open fourth motor 403, the motor drives cutting knife 404 and rotates, and cutting knife 404 touching ceramic plate 1011 realizes the cutting to ceramic plate 1011 four sides.

Example 2

In addition to embodiment 1, as shown in fig. 4, the moving device 3 includes a second motor 301, a third motor 302, a first lead screw 303, a second belt 304, a second lead screw 305, a third lead screw 306, a third belt 307, a fourth lead screw 308, a first slide bar 309, a second slide bar 310, and a second strut 106, the second strut 106 is disposed beside the one-side supporting frame 102, the second motor 301 is fixed on the second strut 106, the third motor 302 is fixed on a protruding plate of the one-side fixing plate 104, the first lead screw 303 is fixed on an output shaft of the second motor 301, the first lead screw 303 and the second lead screw 305 are respectively disposed on the two fixing plates 104 and rotatably connected with the fixing plates 104, the second belt 304 is wound on the first lead screw 303 and the second lead screw, the third lead screw 306 is fixed on an output shaft 305 of the third motor 302, one end of the third lead screw 306 and one end of the fourth lead screw 308 are disposed on the fixing plate 104 near the third motor 302, the other end of the second sliding rod 310 extends into another fixing plate 104, the third lead screw 306 and the fourth lead screw 308 are rotatably connected with the two fixing plates 104, the third belt 307 is wound on the third lead screw 306 and the fourth lead screw 308, the two ends of the first sliding rod 309 are respectively sleeved on the third lead screw 306 and the fourth lead screw 308, the first sliding rod 309 is in threaded connection with the third lead screw 306 and the fourth lead screw 308, similarly, the two ends of the second sliding rod 310 are respectively sleeved on the first lead screw 303 and the second lead screw 305, and the second sliding rod 310 is in threaded connection with the first lead screw 303 and the second lead screw 305.

The second motor 301 and the third motor 302 are numerically controlled, a user inputs a required length and width in a program, the program drives the second motor 301 and the third motor 302 to rotate, the second motor 301 drives the first lead screw 303 to rotate, the first lead screw 303 transmits rotation to the second lead screw 305 through the second belt 304, the first lead screw 303 and the second lead screw 305 rotate to drive the second slide bar 310 to move, the third motor 302 drives the third lead screw 306 to rotate when rotating, the third lead screw 306 transmits rotation to the fourth lead screw 308 through the third belt 307, the third lead screw 306 and the fourth lead screw 308 rotate to drive the first slide bar 309 to move, the first slide bar 309 moves in the left-right direction, and the second slide bar 310 moves in the front-back direction, so that the cutting assembly 4 connected to the first slide bar 309 and the second slide bar 310 can be driven to move in a rectangular shape.

Example 3

Based on embodiment 2, as shown in fig. 3 and fig. 5 to 9, the present invention further includes a power mechanism 2a, where the power mechanism 2a includes a first motor 201, a support plate 2011, a first rotating shaft 202, and a cam 203, the device comprises a cylindrical pin 204, a second rotating shaft 205, a grooved pulley 206, a rotating wheel 207, a first belt 208 and a third rotating shaft 209, wherein a support plate 2011 is fixedly arranged on the vertical support 1, a first motor 201 is fixedly arranged on the support plate 2011, a first rotating shaft 202 is fixedly arranged on an output shaft of the first motor 201, the first rotating shaft 202 is rotatably arranged on the vertical support 1, a cam 203 is fixedly arranged on the first rotating shaft 202, the cylindrical pin 204 is fixedly arranged on a protruding part of the cam 203, the second rotating shaft 205 is rotatably arranged on the vertical support 1, the grooved pulley 206 and the rotating wheel 207 are both fixedly arranged on the second rotating shaft 205, the third rotating shaft 209 is rotatably arranged on the vertical support 1, and the first belt 208 is wound on the rotating wheel 207 and the third rotating shaft 209.

When the first motor 201 is turned on, the output shaft of the first motor 201 rotates to drive the first rotating shaft 202 to rotate, the first rotating shaft 202 drives the cam 203 to rotate, when the cylindrical pin 204 on the cam 203 does not enter the groove of the grooved pulley 206, the grooved pulley 206 is not moved, when the cylindrical pin 204 enters the groove, the cam 203 drives the grooved pulley 206 to rotate, when the cylindrical pin 204 leaves the grooved pulley 206 from the other side, the grooved pulley 206 stops moving until the cylindrical pin 204 enters the groove next time, so that the intermittent rotation of the grooved pulley 206 is realized, when the grooved pulley 206 rotates, the second rotating shaft 205 and the rotating wheel 207 are driven to rotate, and the rotating wheel 207 transmits the rotation to the third rotating shaft 209 through the first belt 208.

Still including pan feeding device 2b, pan feeding device 2b is including fourth pivot 2091, the gyro wheel 210, the conveyer belt 211, the dog 212, storage rack 101 and first pillar 105, first pillar 105 and second pillar 106 parallel arrangement, fourth pivot 2091 rotary type is worn to locate on first pillar 105 and the second pillar 106, two gyro wheels 210 are fixed to be located on third pivot 209 and fourth pivot 2091, conveyer belt 211 winds on two gyro wheels 210, evenly be equipped with a plurality of dogs 212 on the conveyer belt 211, storage rack 101 has two, every storage rack 101 is fixed respectively and locates on erecting support 1, a plurality of ceramic plates 1011 have been placed between the storage rack 101, storage rack 101 pads are erecting between support 1 and the ceramic plate 1011, the height of dog 212 and the ceramic plate 1011 highly uniform of the bottommost.

After the power mechanism 2a is started, the third rotating shaft 209 intermittently rotates to drive the rear side roller 210 fixed thereon to intermittently rotate, the rear side roller 210 drives the conveyor belt 211 to rotate and transmits the rotation to the front side roller 210 through the conveyor belt 211, the stopper 212 moves along with the conveyor belt 211, when passing through the storage rack 101 each time, the stopper can contact the ceramic plate 1011 at the bottommost and push the ceramic plate 1011 forward, after the ceramic plate 1011 is pushed out of the storage rack 101, the rest ceramic plates 1011 can slide down, the ceramic plate 1011 at the bottommost contacts the storage rack 101, the stopper 212 drives the ceramic plate 1011 just pushed out to move forward, the power mechanism 2a drives the conveyor belt 211 to do intermittent motion, the moving distance at each time is enough to put down one ceramic plate 1011, and thus intermittent material taking is realized.

The device further comprises a pre-tightening assembly 5, wherein the pre-tightening assembly 5 comprises two inclined plates 501, a pressure plate 502, a sliding block 503 and a spring 5031, the two inclined plates 501 are respectively and fixedly arranged on the inner walls of the two fixing plates 104, the pressure plate 502 is fixedly arranged on the inclined plates 501, a sliding groove is arranged on one surface, close to the inclined plates 501, of the pressure plate 502, the sliding block 503 is in sliding connection with the pressure plate 502, and two ends of the spring 5031 are respectively arranged on the sliding block 503 and the pressure plate 502.

When the conveyor belt 211 conveys the ceramic plate 1011 to the lower part of the cutting assembly 4, the ceramic plate 1011 is pushed up to the inclined plate 501, the ceramic plate 1011 enters between the inclined plate 501 and the pressing plate 502, the ceramic plate 1011 moves forwards, the slide block 503 is pressed towards two sides after contacting the slide block 503, the slide block 503 is pushed to slide transversely along the inclined plate 501, the spring 5031 is pressed, and when the ceramic plate 1011 completely enters, the slide block 503 is pressed under the action of the spring 5031.

The washing mechanism 6 comprises a water bucket 601, a water guide pipe 602, an induction nozzle 603 and a third support 108, the water bucket 601 is arranged on the left side of the support frame 102, the third support 108 is fixedly arranged on the top plate 107, the lower end of the water guide pipe 602 is inserted into the water bucket 601, the upper end of the water guide pipe is inserted into the top plate 107, and the induction nozzle 603 is arranged at the pipe orifice of the water guide pipe 602.

When cutting begins, a lot of ceramic powder is sprayed out, a sensor of the induction nozzle 603 senses the powder and then starts, water is sucked out of the water bucket 601 along the water guide pipe 602, and the water is sprayed out of the induction nozzle 603 to wash away the ceramic powder generated in the cutting process.

The water treatment device further comprises a first waste water box 605, the four support frames 102 are provided with water flowing grooves 604, the first waste water box 605 is arranged among the four support frames 102, and the water flowing grooves 604 lead to the first waste water box 605.

The wastewater generated by the flushing mechanism 6 flows along the water flowing groove 604 to the first wastewater box 605.

The device is characterized by further comprising a landslide 701, a water scraping plate 702 and a second wastewater box 703, wherein the landslide 701 is arranged at the tail end of the conveyor belt 211, the water scraping plate 702 is fixedly arranged on the landslide 701, and the second wastewater box 703 is fixedly arranged on two sides of the landslide 701.

The ceramic plate 1011 after being cut is transferred to the slide slope 701 by the conveyor belt 211 and slides down the slide slope 701, and when passing through the wiper plate 702, the residual sewage on the ceramic plate 1011 is wiped off, the ceramic plate 1011 slides down to the bottom of the slide slope 701 and is taken away, and the sewage flows into the second waste water box 703 along the openings at both sides of the wiper plate 702.

Although the present invention has been described in detail with reference to the above embodiments, it will be apparent to those skilled in the art from this disclosure that various changes or modifications can be made herein without departing from the principles and spirit of the invention as defined by the appended claims. Therefore, the detailed description of the embodiments of the present disclosure is to be construed as merely illustrative, and not limitative of the remainder of the disclosure, but rather to limit the scope of the disclosure to the full extent set forth in the appended claims.

Claims (1)

1. A ceramic plate processing and cutting device comprises vertical supports (1), four support frames (102), four bearing plates (103), two fixing plates (104) and a top plate (107), wherein the number of the vertical supports (1) is two, the number of the support frames (102) is four, the bearing plates (103) are fixedly arranged on the support frames (102), the two fixing plates (104) are arranged on two sides of the bearing plates (103), the top plate (107) is fixedly arranged on the fixing plates (104), the ceramic plate processing and cutting device is characterized by further comprising a moving device (3) and a cutting assembly (4), the moving device (3) is arranged on the fixing plates (104), the cutting assembly (4) is arranged on the moving device (3), the cutting assembly (4) comprises a cylinder (401), a protective cover (402), a fourth motor (403) and a cutting knife (404), the cylinder (401) is slidably arranged on the moving device (3), the protective cover (402) is fixed on a telescopic rod of the cylinder (401), the fourth motor (403) is fixedly arranged in the protective cover (402), and the cutting knife (404) is fixedly arranged on an output shaft of the fourth motor (403);

the moving device (3) comprises a second motor (301), a third motor (302), a first lead screw (303), a second belt (304), a second lead screw (305), a third lead screw (306), a third belt (307), a fourth lead screw (308), a first slide bar (309), a second slide bar (310) and a second support column (106), wherein the second support column (106) is arranged beside the support frame (102) at one side, the second motor (301) is fixedly arranged on the second support column (106), the third motor (302) is fixedly arranged on a protruding plate of the fixing plate (104) at one side, the first lead screw (303) is fixedly arranged on an output shaft of the second motor (301), the first lead screw (303) and the second lead screw (305) are respectively arranged on the two fixing plates (104) in a penetrating way and are rotatably connected with the fixing plates (104), the second belt (304) is wound on the first lead screw (303) and the second lead screw (305), and the third lead screw (306) is fixedly arranged on an output shaft of the third motor (302), one end of a third lead screw (306) and one end of a fourth lead screw (308) penetrate through the fixing plates (104) close to the third motor (302), the other end of the third lead screw (306) and the other end of the fourth lead screw (308) extend into the other fixing plate (104), the third lead screw (306) and the fourth lead screw (308) are rotatably connected with the third lead screw (306) and the fourth lead screw (308), two ends of a first sliding rod (309) are respectively sleeved on the third lead screw (306) and the fourth lead screw (308), the first sliding rod (309) is in threaded connection with the third lead screw (306) and the fourth lead screw (308), similarly, two ends of a second sliding rod (310) are respectively sleeved on the first lead screw (303) and the second lead screw (305), and the second sliding rod (310) is in threaded connection with the first lead screw (303) and the second lead screw (305);

the second motor (301) and the third motor (302) rotate to drive the first lead screw (303) and the third lead screw (306) to rotate, the first lead screw (303) transmits rotation to the second lead screw (305) through the second belt (304) to drive the second sliding rod (310) to move, the third lead screw (306) transmits rotation to the fourth lead screw (308) through the third belt (307) to drive the first sliding rod (309) to move, and therefore the cutting assembly (4) is driven to move in a rectangular mode;

the device also comprises a power mechanism (2 a), wherein the power mechanism (2 a) comprises a first motor (201), a support plate (2011), a first rotating shaft (202), a cam (203), a cylindrical pin (204), a second rotating shaft (205), a grooved pulley (206), a rotating wheel (207), a first belt (208) and a third rotating shaft (209), the support plate (2011) is fixedly arranged on the vertical support (1), the first motor (201) is fixedly arranged on the support plate (2011), the first rotating shaft (202) is fixedly arranged on an output shaft of the first motor (201), the first rotating shaft (202) is rotatably arranged on the vertical support (1), the cam (203) is fixedly arranged on the first rotating shaft (202), the cylindrical pin (204) is fixedly arranged on a protruding part of the cam (203), the second rotating shaft (205) is rotatably arranged on the vertical support (1), the grooved pulley (206) and the rotating wheel (207) are both fixedly arranged on the second rotating shaft (205), the third rotating shaft (209) is rotatably arranged on the vertical bracket (1), and the first belt (208) is wound on the rotating wheel (207) and the third rotating shaft (209);

an output shaft of a first motor (201) rotates to drive a first rotating shaft (202) to rotate, the first rotating shaft (202) drives a cam (203) to rotate, when a cylindrical pin (204) on the cam (203) does not enter a groove of a grooved pulley (206), the grooved pulley (206) is not moved, when the cylindrical pin (204) enters the groove, the cam drives the grooved pulley (206) to rotate, when the cylindrical pin (204) leaves the grooved pulley (206) from the other side, the grooved pulley (206) stops moving until the cylindrical pin (204) enters the groove next time, so that the intermittent rotation of the grooved pulley (206) is realized, when the grooved pulley (206) rotates, a second rotating shaft (205) and a rotating wheel (207) are driven to rotate, and the rotating wheel (207) transmits the rotation to a third rotating shaft (209) through a first belt (208);

also comprises a feeding device (2 b), the feeding device (2 b) comprises a fourth rotating shaft (2091), a roller (210) and a conveyor belt (211), dog (212), storage frame (101) and first pillar (105), first pillar (105) and second pillar (106) parallel arrangement, fourth pivot (2091) rotary type is worn to locate on first pillar (105) and second pillar (106), two gyro wheels (210) are fixed to be located on third pivot (209) and fourth pivot (2091), conveyer belt (211) are around on two gyro wheels (210), evenly be equipped with a plurality of dogs (212) on conveyer belt (211), storage frame (101) have two, every storage frame (101) is fixed respectively to be located on perpendicular support (1), a plurality of ceramic plates (1011) have been placed between storage frame (101), storage frame (101) pad is between perpendicular support (1) and dog (1011), the height of storage frame (212) and ceramic plate (1011) highly uniform of the bottommost;

after the power mechanism (2 a) is started, the third rotating shaft (209) rotates intermittently to drive the roller (210) fixed on the third rotating shaft to rotate intermittently, the roller (210) transmits rotation to the other roller (210) through the conveyor belt (211), the stop dog (212) can contact with the ceramic plate (1011) at the bottommost part when passing through the storage rack (101) each time, when the ceramic plate (1011) is pushed out of the storage rack, the rest ceramic plates (1011) can downwards slide to the ceramic plate (1011) at the bottommost part to contact the storage rack (101), and the stop dog (212) drives the ceramic plate (1011) which is just pushed out to move forwards;

the device is characterized by further comprising a pre-tightening assembly (5), wherein the pre-tightening assembly (5) comprises two inclined plates (501), two pressure plates (502), a sliding block (503) and a spring (5031), the two inclined plates (501) are respectively and fixedly arranged on the inner walls of the two fixing plates (104), the pressure plate (502) is fixedly arranged on the inclined plates (501), a sliding groove is formed in one surface, close to the inclined plates (501), of the pressure plate (502), the sliding block (503) is in sliding connection with the pressure plate (502), and two ends of the spring (5031) are respectively arranged on the sliding block (503) and the pressure plate (502);

when the conveyor belt (211) sends the ceramic plate (1011) to the position below the cutting assembly (4), the ceramic plate (1011) is pushed to the inclined plate (501), the ceramic plate (1011) enters a position between the inclined plate (501) and the pressing plate (502), the ceramic plate (1011) moves forwards and presses the sliding block (503) towards two sides, the sliding block (503) is pushed to slide along the inclined plate (501), the spring (5031) is pressed, and the sliding block (503) is pressed under the action of the spring (5031);

the washing machine is characterized by further comprising a washing mechanism (6), wherein the washing mechanism (6) comprises a water bucket (601), a water guide pipe (602), an induction nozzle (603) and a third support column (108), the water bucket (601) is arranged on one side of the support frame (102), the third support column (108) is fixedly arranged on the top plate (107), one end of the water guide pipe (602) is inserted into the water bucket (601), the other end of the water guide pipe penetrates through the top plate (107), and the induction nozzle (603) is arranged at a pipe orifice of the water guide pipe (602);

the sensor of the induction nozzle (603) senses powder and then starts, water is pumped out from the water bucket along the water guide pipe (602) and is sprayed out from the induction nozzle (603), and ceramic powder generated in the cutting process is washed away;

the device is characterized by further comprising a first wastewater box (605), wherein the four support frames (102) are provided with water flowing grooves (604), the first wastewater box (605) is arranged among the four support frames (102), and the water flowing grooves (604) are communicated with the first wastewater box (605);

the device is characterized by further comprising a landslide (701), a water scraping plate (702) and a second wastewater box (703), wherein the landslide (701) is arranged at the tail end of the conveyor belt (211), the water scraping plate (702) is fixedly arranged on the landslide (701), and the second wastewater box (703) is fixedly arranged on two sides of the landslide (701);

when the cut ceramic plate (1011) slides down the slide slope (701), the waste water remaining on the surface of the ceramic plate (1011) is scraped off by the scraper (702) via the scraper (702), and discharged into the second waste water box (703).

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