CN211194500U - Automatic ceramic tile dry cutting machine - Google Patents

Abstract

The utility model discloses an automatic ceramic tile dry cutting machine, which comprises a frame, wherein a first conveying belt, a second conveying belt and a third conveying belt which are used for conveying ceramic tiles and are respectively connected with a power device are sequentially arranged on the frame, a cutting mechanism is arranged above the second conveying belt, the cutting mechanism comprises a first bracket arranged on the frame, the first bracket is arranged vertical to the conveying direction of the second conveying belt, a first guide rail is arranged on the first bracket, a mounting seat with a diamond cutter is connected on the first guide rail in a sliding way, and the mounting seat is driven by a first power mechanism; the left end and the right end of the rack are provided with fifth cylinders, a piston rod of each fifth cylinder is connected with a push plate, a second sensor is arranged on the first support, and the second sensor controls the fifth cylinders to drive the two push plates to mutually approach and clamp the ceramic tile; and a top brick separating mechanism is arranged on the rack corresponding to the third conveying belt. The utility model discloses can cut into the qualified ceramic tile of small dimension to the jumbo size ceramic tile of high water absorption rate, improve the ceramic tile value for the sales volume.

Description

Automatic ceramic tile dry cutting machine

Technical Field

The utility model relates to a ceramic tile processing technology field specifically is automatic ceramic tile dry cutting machine.

Background

The ceramic tile is made up by using refractory metal oxide and semimetal oxide through the processes of grinding, mixing, pressing, glazing and sintering, and is a kind of acid-and alkali-resistant porcelain or stone material for building or decorative material, so-called ceramic tile. The raw materials are mostly mixed by clay, quartz sand and the like. The existing ceramic tiles are divided into ceramic tiles with high water absorption and ceramic tiles with first water absorption, some ceramic tiles are large-size ceramic tiles, in order to meet the use requirement, a cutting machine is needed to cut the large-size ceramic tiles into small-size ceramic tiles, most of the existing cutting machines are water cutting machines, the water cutting machines can only cut the ceramic tiles with low water absorption, the high-water-absorption ceramic tiles cannot be cut by water, the effective utilization of the high-water-absorption ceramic tiles is limited, the produced large-size high-water-absorption ceramic tiles are accumulated in a warehouse, the price is reduced or the ceramic tiles are treated as garbage, the production cost is high, and the production economic benefit of enterprises is directly influenced. Meanwhile, when the ceramic tile cutting machine in the prior art is used for cutting the ceramic tile, a worker is required to hold the ceramic tile and hold the cutting machine to cut the ceramic tile, the labor capacity of the worker is large, and the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

The present invention aims to solve at least one of the above-mentioned technical problems in the related art to a certain extent. Therefore, the utility model provides an automatic ceramic tile is cut machine futilely can cut into the qualified ceramic tile of small dimension to the jumbo size ceramic tile of high water absorption rate for the sales volume also can reduce useless solid thing's outer row, can reduce workman's the amount of labour simultaneously, improves production efficiency.

The utility model provides an automatic ceramic tile dry cutting machine, which comprises a frame, wherein one end of the frame is provided with a first conveyer belt for conveying ceramic tiles, a second conveying belt is arranged at the discharge end of the first conveying belt, a third conveying belt is arranged at the discharge end of the second conveying belt, the first conveying belt, the second conveying belt and the third conveying belt are respectively connected with a power device, a cutting mechanism is arranged above the second conveying belt and comprises a first bracket arranged on the frame, the first bracket is perpendicular to the conveying direction of the second conveying belt, a first guide rail is arranged on the first bracket along the length direction of the first bracket, the first guide rail is connected with a mounting seat in a sliding manner, the mounting seat is provided with a diamond cutter, and the mounting seat is driven by a first power mechanism to slide along the first guide rail; fifth cylinders are symmetrically arranged at the left end and the right end of the second conveying belt, the fifth cylinders are arranged close to the first support along the conveying direction of the second conveying belt, a piston rod of each fifth cylinder is connected with a push plate, a second sensor for detecting tiles is arranged on the first support, and the second sensor controls the fifth cylinders to drive the push plates to mutually approach and clamp the tiles; and a top brick separating mechanism is arranged on the rack corresponding to the third conveying belt.

The automatic ceramic tile dry cutting machine at least has the following beneficial effects: the first conveying belt, the second conveying belt and the third conveying belt are sequentially arranged on the rack, large-size ceramic tiles to be cut are placed on the first conveying belt and conveyed through the first conveying belt and the second conveying belt, when the second sensor detects that the ceramic tiles are conveyed to the position corresponding to the cutting mechanism, the second conveying belt is controlled to stop rotating, and meanwhile, the two fifth cylinders are controlled to drive, so that the two push plates are close to each other to clamp the ceramic tiles; then the first power mechanism drives the mounting seat and the diamond cutter to slide along the first guide rail, so that the diamond cutter cuts a cutting mark on the ceramic tile along the left and right directions; after the cutting action is completed, the fifth cylinder drives the push plate to be far away from the ceramic tile, the second conveying belt rotates to convey the ceramic tile with the shear marks to the third conveying belt, the top brick separating mechanism corresponding to the third conveying belt separates the ceramic tile into two pieces along the shear marks, and then the ceramic tile is conveyed and discharged. In the whole process, water is not needed to be added, dry cutting is realized, and the large-size ceramic tiles with high water absorption rate can be cut into the ceramic tiles with qualified small specifications, so that the value of the ceramic tiles can be improved, the sales volume can be accelerated, and the discharge of waste solids can be reduced. Meanwhile, the ceramic tile cutting machine can realize automatic cutting and separation of ceramic tiles, and has the characteristics of high production efficiency, simplicity in operation, low labor intensity of workers, production cost saving and the like.

According to automatic ceramic tile dry cutting machine, the second conveyer belt is provided with two sides with the bearing ceramic tile, be close to in the frame the discharge end of second conveyer belt is provided with first baffle, first baffle sets up two between the second conveyer belt, first baffle is by third power unit drive oscilaltion, be provided with the first sensor that is used for detecting the ceramic tile on the first support, first sensor electric connection director, controller control third power unit's drive.

According to automatic ceramic tile cuts machine futilely, be close to in the frame the feed end of second conveyer belt is provided with the second baffle, the second baffle sets up two between the second conveyer belt, the second baffle with first baffle is about first support bilateral symmetry sets up, just the second baffle is by fourth power unit drive oscilaltion.

According to the automatic ceramic tile dry cutting machine of the utility model, a third power mechanism is provided with a third cylinder, and the first baffle is connected with a piston rod of the third cylinder; the fourth power mechanism is provided with a fourth cylinder, a piston rod of the fourth cylinder is connected with the second baffle, a first sliding groove is formed in the rack along the conveying direction of the second conveying belt, and the third cylinder and the fourth cylinder are connected to the first sliding groove in a sliding mode and are locked through first locking screw rods respectively.

According to automatic ceramic tile cuts machine futilely, be provided with the second guide rail along the vertical direction on the mount pad, sliding connection has the sliding seat on the second guide rail, the diamond cutter connect in the sliding seat, just the sliding seat is followed by the drive of second power unit the second guide rail slides.

According to automatic ceramic tile dry cutting machine, the top of first conveyer belt spanes and is provided with spacing, the lower extreme of locating part with the lower extreme of first conveyer belt constitutes a passageway that supplies the ceramic tile to pass.

According to the automatic ceramic tile dry cutting machine of the utility model, the first conveyer belt is provided with two sides for supporting ceramic tiles, a third baffle is arranged on the rack near the discharge end of the first conveyer belt, the third baffle is arranged between the two first conveyer belts, and the third baffle is driven by a sixth cylinder to lift up and down; and a third sensor is arranged on the rack corresponding to the discharge end of the first conveying belt and used for detecting ceramic tiles on the first conveying belt and controlling the sixth cylinder.

According to automatic ceramic tile dry cutting machine, the third conveyer belt is provided with two sides with the bearing ceramic tile, top brick separating mechanism includes that steel sword and two rotate to be connected the compression roller of frame upper end, two the compression roller spanes the setting and is in the top of third conveyer belt, the steel sword sets up two between the third conveyer belt, and through seventh cylinder drive oscilaltion, the steel sword is close to one side of the discharge end of third conveyer belt is provided with the fourth baffle, the fourth baffle is by eighth cylinder drive oscilaltion, correspond in the frame the feed end of third conveyer belt is provided with the fourth sensor, the fourth sensor is used for detecting ceramic tile on the third conveyer belt, and control the eighth cylinder.

According to automatic ceramic tile dry cutting machine, be provided with the second spout along the direction of delivery of third conveyer belt in the frame, eighth cylinder sliding connection in the second spout to can lock through second locking screw.

According to automatic ceramic tile cuts machine futilely, first power unit is provided with first cylinder, first cylinder sets up on the first support, just the piston rod of first cylinder with the mount pad is connected.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic front view of an embodiment of the present invention;

fig. 2 is a schematic top view of an embodiment of the present invention;

fig. 3 is a schematic view of an assembly structure of the first conveying belt and the limiting frame according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a cutting mechanism in an embodiment of the present invention.

Reference numerals: 100-a rack, 110-a fifth cylinder, 111-a push plate, 120-a second power mechanism, 130-a sixth cylinder, 140-a first cylinder, 200-a first conveying belt, 210-a limiting frame, 230-a third baffle, 240-a third sensor, 300-a second conveying belt, 400-a third conveying belt, 510-a first bracket, 511-a first guide rail, 520-a mounting seat, 521-a second guide rail, 530-a diamond cutter, 540-a sliding seat, 610-a first baffle, 620-a second baffle, 710-a steel knife, 720-a press roller, 730-a press roller and 800-a tile.

Detailed Description

This section will describe in detail the embodiments of the present invention, preferred embodiments of the present invention are shown in the attached drawings, which are used to supplement the description of the text part of the specification with figures, so that one can intuitively and vividly understand each technical feature and the whole technical solution of the present invention, but they cannot be understood as the limitation of the protection scope of the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship indicated with respect to the orientation description, such as up, down, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to 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, if there are descriptions of "first", "second", "third", "fourth", "fifth", "sixth", "seventh", "eighth", etc., these are only used for distinguishing technical features, and they are not to be interpreted as indicating or implying relative importance or implicitly indicating the number of indicated technical features or implicitly indicating the precedence of the indicated technical features.

In the description of the present invention, unless there is an explicit limitation, the words such as setting, installation, connection, etc. should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above words in combination with the specific contents of the technical solution.

Referring to fig. 1, fig. 2 and fig. 4, the embodiment of the present invention provides an automatic ceramic tile dry cutting machine, which includes a frame 100, wherein one end of the frame 100 is provided with a first conveyor belt 200 for conveying a ceramic tile 800, a discharge end of the first conveyor belt 200 is provided with a second conveyor belt 300, a discharge end of the second conveyor belt 300 is provided with a third conveyor belt 400, the first conveyor belt 200, the second conveyor belt 300 and the third conveyor belt 400 are respectively connected with a power device, each power device includes a motor, and a driving wheel and a driven wheel arranged at two ends of the conveyor belt, an output shaft of the motor is connected with the driving wheel to drive the conveyor belt to rotate; a cutting mechanism is arranged above the second conveyor belt 300, the cutting mechanism comprises a first support 510 arranged at the upper end of the frame 100, the first support 510 is arranged perpendicular to the conveying direction of the second conveyor belt 300, a first guide rail 511 is arranged on the first support 510 along the length direction of the first support 510, a mounting seat 520 is connected onto the first guide rail 511 in a sliding manner, a diamond cutter 530 is arranged on the mounting seat 520, and the mounting seat 520 is driven by a first power mechanism to slide along the first guide rail 511; the left side and the right side of the second conveying belt 300 are symmetrically provided with fifth cylinders 110, the fifth cylinders 110 are arranged close to the first support 510 along the conveying direction of the second conveying belt 300, a piston rod of each fifth cylinder 110 is connected with a push plate 111, a second sensor for detecting the ceramic tile 800 is arranged on the first support 510, and the second sensor controls the fifth cylinders 110 to drive so as to drive the two push plates 111 to mutually approach and clamp the ceramic tile 800; a top brick separating mechanism is disposed on the frame 100 at a position corresponding to the third conveyor belt 400. Compared with the prior art, the embodiment of the utility model has the advantages that the first conveyer belt 200, the second conveyer belt 300 and the third conveyer belt 400 are sequentially arranged on the frame 100, the large-size ceramic tile 800 to be cut is placed on the first conveyer belt 200 and is conveyed by the first conveyer belt 200 and the second conveyer belt 300, when the second sensor detects that the ceramic tile 800 is conveyed to the position corresponding to the cutting mechanism, the second conveyer belt 300 is controlled to stop rotating, and meanwhile, the two fifth cylinders 110 are controlled to drive, so that the two push plates 111 are close to each other to clamp the ceramic tile 800; then, the first power mechanism drives the mounting seat 520 and the diamond cutter 530 to slide along the first guide rail 511, so that the diamond cutter 530 cuts a cut on the ceramic tile 800 along the left-right direction; after the cutting action is completed, the fifth cylinder 110 drives the push plate 111 to be far away from the ceramic tile 800, the second conveying belt 300 rotates to convey the ceramic tile 800 with the shear mark to the third conveying belt 400, the top tile separating mechanism arranged corresponding to the third conveying belt 400 separates the ceramic tile 800 into two pieces along the shear mark, and then the ceramic tile 800 is conveyed and discharged. In the whole process, water is not needed to be added, dry cutting is realized, the large-size ceramic tile 800 with high water absorption rate can be cut into the ceramic tile 800 with qualified small specification, the value of the ceramic tile 800 can be improved, the sales volume is accelerated, and the discharge of waste solids can be reduced. Meanwhile, the ceramic tile 800 can be automatically cut and separated, and the ceramic tile cutting machine has the characteristics of high production efficiency, simplicity in operation, low labor intensity of workers, production cost saving and the like. It should be noted that the length direction of the first bracket 510 is the left-right direction. Specifically, as shown in fig. 2, two fifth cylinders 110 are provided on the same left side, and correspondingly, two fifth cylinders 110 are provided on the same right side, wherein two fifth cylinders 110 respectively symmetrical to the left and right sides of the second conveyor belt 300 are in a group, and each group of fifth cylinders 110 pushes the corresponding push plate 111 to approach each other, so that clamping and fixing of the large ceramic tiles to be cut can be realized. The two sets of the fifth cylinders 110 are symmetrically arranged at the front and the rear sides of the first support 510, so as to further improve the clamping force and the stability of the cutting mechanism for large tiles during the operation of the cutting mechanism for the large tiles, thereby improving the cutting quality. The two fifth cylinders 110 disposed on the same front side are grouped, and the two fifth cylinders 110 disposed on the same rear side are grouped.

Preferably, the second conveyor belt 300 is provided with two sides for supporting the ceramic tile 800, a first baffle 610 is arranged at a discharge end of the frame 100 close to the second conveyor belt 300, the first baffle 610 is arranged between the two second conveyor belts 300, the first baffle 610 is driven by a third power mechanism to move up and down, a first sensor for detecting the ceramic tile 800 is arranged on the first support 510, the first sensor is electrically connected with a controller, and the controller controls the driving of the third power mechanism. Before ceramic tile 800 got into the cutting station, first sensor detected ceramic tile 800, and transmission signal gives the controller, and the drive of controller control third power unit to rise first baffle 610 and block ceramic tile 800, avoid because inertia, ceramic tile 800 does not accurately stop in the cutting position, and then influences the precision of cutting, further improves the quality of cutting.

Further, a second baffle 620 is disposed at the feeding end of the frame 100 close to the second conveyer belts 300, the second baffle 620 is disposed between the two second conveyer belts 300, the second baffle 620 and the first baffle 610 are disposed in bilateral symmetry about the first support 510, and the second baffle 620 is driven by a fourth power mechanism to move up and down. When ceramic tile 800 is carried the cutting position to with first baffle 610 butt back, second baffle 620 rises under fourth power drive and ceramic tile 800's preceding lateral wall butt, thereby realizes the centering with the degree of freedom of first baffle 610 cooperation restriction ceramic tile 800 front and back direction, two push pedal 111 cooperations simultaneously press from both sides tight location to ceramic tile 800, avoid ceramic tile 800 to produce the skew in cutting process, further improve the quality of cutting.

Furthermore, the third power mechanism is provided with a third cylinder, and the first baffle 610 is connected with a piston rod of the third cylinder; the fourth power mechanism is provided with a fourth cylinder, a piston rod of the fourth cylinder is connected with the second baffle 620, a first sliding groove is formed in the rack 100 along the conveying direction of the second conveying belt 300, and the third cylinder and the fourth cylinder are connected to the first sliding groove in a sliding mode and are locked through the first locking screw respectively. According to the different length of the ceramic tile 800 that needs to be cut, the distance between the first support 510 and the third cylinder and the distance between the fourth cylinder and the first support 510 are adjusted to adapt to the cutting distance, so that the second baffle 620 and the first baffle 610 are respectively abutted to the front side wall and the rear side wall of the ceramic tile 800 that needs to be cut during cutting, and the application range is enlarged. The length of the tile 800 is a distance in the front-rear direction.

Preferably, a second guide rail 521 is vertically disposed on the mounting seat 520, a sliding seat 540 is slidably connected to the second guide rail 521, the diamond cutter 530 is connected to the sliding seat 540, and the sliding seat 540 is driven by the second power mechanism 120 to slide along the second guide rail 521. With such an arrangement, on one hand, the sliding seat 540 can be driven by the second power mechanism 120 to move up and down according to different cutting mark depths required to be cut, and then the height of the diamond cutter 530 can be adjusted to adapt to the cutting depth. On the other hand, the diamond cutter 530 is moved upward away from the upper surface of the tile 800, and is quickly reset, so that the next cutting operation can be performed. Specifically, the second power mechanism 120 is a second cylinder, and the cylinder has the characteristics of stable and reliable driving, convenience for maintenance and the like.

As shown in fig. 3, preferably, the limiting frame 210 is disposed above the first conveyor 200 in a spanning manner, and a lower end of the limiting member and a lower end of the first conveyor 200 form a channel for the ceramic tile 800 to pass through. With this arrangement, the tiles 800 conveyed on the first conveyor belt 200 can be guided, so that the tiles 800 initially offset and placed on the first conveyor belt 200 are gradually corrected, and the phenomenon that the subsequent cutting quality is affected due to large offset in the process of conveying the tiles 800 is avoided.

Preferably, the first conveyor belt 200 is provided with two side edges for supporting the ceramic tiles 800, a third baffle 230 is arranged at the discharge end of the rack 100 close to the first conveyor belt 200, the third baffle 230 is arranged between the two first conveyor belts 200, and the third baffle 230 is driven by the sixth cylinder 130 to lift up and down; a third sensor 240 is disposed on the frame 100 at a position corresponding to the discharging end of the first conveyor 200, and the third sensor 240 is configured to detect the tile 800 on the first conveyor 200 and control the sixth cylinder 130. When the third sensor 240 detects that the ceramic tiles 800 pass through the discharging end of the first conveyor belt 200, a signal is transmitted out, the sixth cylinder 130 is controlled to drive, the third baffle 230 is driven by the piston rod of the sixth cylinder 130 to ascend, and the situation that the next ceramic tile 800 is conveyed from the first conveyor belt 200 to the cutting station on the second conveyor belt 300 again before the previous ceramic tile 800 is cut by the cutting mechanism is avoided, so that interference is generated between the two ceramic tiles 800, and the production continuity is ensured.

Preferably, the third conveyer belt 400 is provided with two sides in order to bear ceramic tile 800, the top brick separating mechanism includes steel knife 710 and two compression rollers 720 of rotating the connection in the frame 100 upper end, two compression rollers 720 span the top of setting at the third conveyer belt 400, steel knife 710 sets up between two third conveyer belts 400, and through seventh cylinder drive oscilaltion, one side that steel knife 710 is close to the discharge end of third conveyer belt 400 is provided with fourth baffle 730, fourth baffle 730 is by eighth cylinder drive oscilaltion, the feed end that corresponds third conveyer belt 400 on the frame 100 is provided with the fourth sensor, the fourth sensor is used for detecting ceramic tile 800 on the third conveyer belt 400, and control the eighth cylinder. Be provided with the fourth sensor through the feed end that sets up at third conveyer belt 400, detect the ceramic tile 800 that has the shear mark to carry to third conveyer belt 400 from second conveyer belt 300 when the fourth sensor, go out signal transmission, control eighth cylinder drives the fourth baffle 730 and rises, the ceramic tile 800 and the fourth baffle 730 butt that have the shear mark cut, the accuracy stops in the isolated position, at this moment, both ends are located the below of two compression rollers 720 respectively around ceramic tile 800, steel sword 710 rises under the drive of seventh cylinder simultaneously and pushes up the top at brick face shear mark position and divide into two halves 800 top, quick accurate with ceramic separation into two halves.

Preferably, a second sliding groove is formed in the frame 100 along the conveying direction of the third conveying belt 400, and the eighth cylinder is slidably connected to the second sliding groove and can be locked by a second locking screw. According to the different lengths of the ceramic tiles 800 required to be cut, the position of the eighth cylinder is adjusted, and then the distance between the fourth baffle 730 and the steel knife 710 is adjusted, so that the cutting mark position of the ceramic tile 800 staying on the third conveyor belt 400 corresponds to the steel knife 710, and the ceramic tiles 800 of different lengths can be quickly and accurately separated. The length of the tile 800 is a distance in the front-rear direction.

Preferably, the first power mechanism is provided with a first cylinder 140, the first cylinder 140 is arranged on the first bracket 510, and a piston rod of the first cylinder 140 is connected with the mounting seat 520. The cylinder is stably and reliably driven, and can push the diamond cutter 530 to quickly and stably cut a cut mark on the ceramic tile 800. The cylinder has a simple structure and is convenient to maintain, and the cylinder can be replaced by a power source of the hydraulic cylinder according to actual needs.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and those skilled in the art can make various modifications and variations; any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. Automatic ceramic tile dry cutting machine, its characterized in that: comprises a rack (100), wherein one end of the rack (100) is provided with a first conveying belt (200) for conveying ceramic tiles, the discharge end of the first conveying belt (200) is provided with a second conveying belt (300), the discharge end of the second conveying belt (300) is provided with a third conveying belt (400), the first conveying belt (200), the second conveying belt (300) and the third conveying belt (400) are respectively connected with a power device, a cutting mechanism is arranged above the second conveying belt (300), the cutting mechanism comprises a first support (510) arranged on the rack (100), the first support (510) is perpendicular to the conveying direction of the second conveying belt (300), a first guide rail (511) is arranged on the first support (510) along the length direction of the first support (510), and a mounting seat (520) is connected on the first guide rail (511) in a sliding manner, the mounting seat (520) is provided with a diamond cutter (530), and the mounting seat (520) is driven by a first power mechanism to slide along the first guide rail (511); fifth cylinders (110) are symmetrically arranged on the left side and the right side of the second conveying belt (300), the fifth cylinders (110) are arranged close to the first support (510) along the conveying direction of the second conveying belt (300), a piston rod of each fifth cylinder (110) is connected with a push plate (111), a second sensor for detecting tiles is arranged on the first support (510), and the second sensor controls the fifth cylinders (110) to drive so as to drive the push plates (111) to be close to each other to clamp the tiles; and a top brick separating mechanism is arranged on the rack (100) corresponding to the third conveying belt (400).

2. The automatic tile dry cutter of claim 1, wherein: second conveyer belt (300) are provided with two sides in order to bear the ceramic tile, be close to on frame (100) the discharge end of second conveyer belt (300) is provided with first baffle (610), first baffle (610) set up two between second conveyer belt (300), first baffle (610) are by the oscilaltion of third power unit drive, be provided with the first sensor that is used for detecting the ceramic tile on first support (510), first sensor electrical connection director, the controller control the drive of third power unit.

3. The automatic tile dry cutter of claim 2, wherein: the frame (100) is gone up and is close to the feed end of second conveyer belt (300) is provided with second baffle (620), second baffle (620) set up two between second conveyer belt (300), second baffle (620) with first baffle (610) about first support (510) bilateral symmetry sets up, just second baffle (620) is driven the oscilaltion by fourth power unit.

4. The automatic tile dry cutter of claim 3, wherein: the third power mechanism is provided with a third air cylinder, and the first baffle (610) is connected with a piston rod of the third air cylinder; the fourth power mechanism is provided with a fourth cylinder, a piston rod of the fourth cylinder is connected with the second baffle (620), a first sliding groove is formed in the rack (100) along the conveying direction of the second conveying belt (300), and the third cylinder and the fourth cylinder are connected to the first sliding groove in a sliding mode and are locked through first locking screw rods respectively.

5. The automatic tile dry cutter of claim 1, wherein: the diamond cutting knife is characterized in that a second guide rail (521) is arranged on the mounting seat (520) in the vertical direction, a sliding seat (540) is connected onto the second guide rail (521) in a sliding mode, the diamond cutting knife (530) is connected onto the sliding seat (540), and the sliding seat (540) is driven by a second power mechanism (120) to slide along the second guide rail (521).

6. The automatic tile dry cutter of claim 1, wherein: a limiting frame (210) is arranged above the first conveying belt (200) in a crossing mode, and a channel for ceramic tiles to pass through is formed by the lower end of the limiting frame (210) and the upper end of the first conveying belt (200).

7. The automatic tile dry cutter of claim 1, wherein: the first conveying belts (200) are provided with two side edges for supporting ceramic tiles, a third baffle (230) is arranged at the discharge end, close to the first conveying belts (200), of the rack (100), the third baffle (230) is arranged between the two first conveying belts (200), and the third baffle (230) is driven by a sixth air cylinder (130) to lift up and down; and a third sensor (240) is arranged on the rack (100) corresponding to the discharge end of the first conveying belt (200), and the third sensor (240) is used for detecting tiles on the first conveying belt (200) and controlling the sixth air cylinder (130).

8. The automatic tile dry cutter of claim 1, wherein: the third conveying belt (400) is provided with two side edges for supporting ceramic tiles, the top tile separating mechanism comprises a steel knife (710) and two pressing rollers (720) which are rotatably connected to the upper end of the rack (100), the two pressing rollers (720) are arranged above the third conveying belt (400) in a crossing manner, the steel knife (710) is arranged between the two third conveying belts (400), and is driven to lift up and down by a seventh cylinder, a fourth baffle (730) is arranged on one side of the steel knife (710) close to the discharge end of the third conveyer belt (400), the fourth baffle (730) is driven by an eighth cylinder to lift up and down, a fourth sensor is arranged on the rack (100) corresponding to the feeding end of the third conveyer belt (400), the fourth sensor is used for detecting tiles on the third conveyor belt (400) and controlling the eighth cylinder.

9. The automatic tile dry cutter of claim 8, wherein: and a second sliding groove is formed in the rack (100) along the conveying direction of the third conveying belt (400), and the eighth cylinder is connected to the second sliding groove in a sliding mode and can be locked through a second locking screw rod.

10. The automatic tile dry cutter of claim 1, wherein: the first power mechanism is provided with a first air cylinder (140), the first air cylinder (140) is arranged on the first support (510), and a piston rod of the first air cylinder (140) is connected with the mounting seat (520).

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