CN217706478U - Automatic ceramic tile packaging machine - Google Patents

Abstract

An automatic ceramic tile packaging machine belongs to the technical field of ceramic tile packaging equipment. The method is characterized in that: including setting up scraps of paper conveyor and ceramic tile conveyor with one side at packing station (35), scraps of paper conveyor sets up the downside at ceramic tile conveyor, and scraps of paper conveyor is the same with ceramic tile conveyor's direction of delivery. This ceramic tile automatic packaging machine's scraps of paper direction of delivery and ceramic tile's direction of delivery are the same, scraps of paper and synchronous transport of ceramic tile, can carry ceramic tile and scraps of paper to the packing station in step, because scraps of paper conveyor is located ceramic tile conveyor's downside, when scraps of paper and ceramic tile synchronous transport to the packing station, can directly make the ceramic tile be located the upside of scraps of paper, the ceramic tile need not wait for scraps of paper and begins to carry again when carrying to the packing station, the packing speed of ceramic tile has been improved, and because ceramic tile and synchronous transport of paper piece, there is not relative motion between ceramic tile and the scraps of paper, can avoid the ceramic tile to make the problem of fish tail or aversion to scraps of paper.

Description

Automatic ceramic tile packaging machine

Technical Field

An automatic ceramic tile packaging machine belongs to the technical field of ceramic tile packaging equipment.

Background

Ceramic tiles are widely used in the construction or decoration industry, and as the real estate industry develops, the demand for ceramic tiles is increasing. The ceramic tile needs to be packaged after being processed, so that the ceramic tile is prevented from being broken or scratched in the transportation and storage processes. Present during operation, generally need treat that the scraps of paper remove to the packing station after, transport the ceramic tile to scraps of paper upside again, current equipment has following problem: 1) The ceramic tiles can be conveyed only after the paper scraps are conveyed to the packaging station, so that the ceramic tiles need to be frequently stopped to be conveyed, and the ceramic tile packaging speed is low; 2) The tiles are usually delivered to the upper side of the paper sheet, and the tiles are easy to damage and shift the paper sheet in the delivery process.

Disclosure of Invention

The to-be-solved technical problem of the utility model is: overcome prior art's not enough, provide one kind and can make ceramic tile and paper piece carry to packing station in step on, improved packing speed, and can avoid the ceramic tile to cause the ceramic tile automatic packaging machine of fish tail and aversion to the scraps of paper.

The utility model provides a technical scheme that its technical problem adopted is: this ceramic tile automatic packaging machine, its characterized in that: including setting up scraps of paper conveyor and the ceramic tile conveyor with one side at the packing station, scraps of paper conveyor sets up the downside at ceramic tile conveyor, and scraps of paper conveyor is the same with ceramic tile conveyor's direction of delivery.

Preferably, the paper sheet conveying device is inclined upwards gradually along the direction close to the packaging station.

Preferably, the paper sheet conveying device is a paper sheet output belt.

Preferably, the ceramic tile conveying device and the packaging station are located at the same height, or the ceramic tile conveying device is higher than the packaging station.

Preferably, the tile conveying device is a tile output belt.

Preferably, the ceramic tile conveying device further comprises a supporting roller which is rotatably arranged on the packaging station, and the supporting roller is arranged on one side, close to the ceramic tile conveying device, of the packaging station.

Preferably, the paper taking device is further included and arranged on the upper side of the paper conveying device.

Preferably, the paper taking device comprises a suction device, a lifting device and a paper pulling device, the suction device is arranged on one side of the input end of the paper scrap conveying device, the lifting device is connected with the suction device, and the paper pulling device is arranged between the suction device and the paper scrap conveying device.

Preferably, the paper pulling device comprises a paper pulling translation device and a paper piece clamp, and the paper pulling translation device is connected with the paper piece clamp.

Preferably, the paper sheet taking device further comprises an ejection device arranged on the paper pulling device.

Compared with the prior art, the utility model discloses the beneficial effect who has is:

this ceramic tile automatic packaging machine's ceramic tile conveyor can carry the ceramic tile, scraps of paper conveyor can carry the scraps of paper, the direction of delivery of scraps of paper is the same with the direction of delivery of ceramic tile, scraps of paper and synchronous transport of ceramic tile, can carry ceramic tile and scraps of paper to the packing station in step, because scraps of paper conveyor is located ceramic tile conveyor's downside, when scraps of paper and synchronous transport of ceramic tile to the packing station, can directly make the ceramic tile be located the upside of scraps of paper, the ceramic tile need not wait for scraps of paper to carry and begin to carry again when carrying to the packing station, the packing speed of ceramic tile has been improved, and because ceramic tile and paper piece synchronous transport, there is not relative motion between ceramic tile and the scraps of paper, can avoid the ceramic tile to cause the problem of fish tail or aversion to scraps of paper.

Drawings

Figure 1 is a schematic perspective view of an automatic tile packaging machine.

Fig. 2 is a partially enlarged view of a portion a in fig. 1.

Fig. 3 is a partially enlarged view of B in fig. 1.

Fig. 4 is a partially enlarged view of C in fig. 1.

Fig. 5 is a partial enlarged view of fig. 1 at D.

Figure 6 is a schematic front view of the automatic tile packing machine.

Fig. 7 is a partial enlarged view at E in fig. 6.

Fig. 8 is a partial enlarged view of fig. 6 at F.

Fig. 9 is a partially enlarged view of fig. 6 at G.

In the figure: 1. the automatic tile feeding device comprises a rack 2, a paper sheet input belt 3, a paper sheet baffle 4, a tile input belt 5, a lifting frame 6, a suction cup 7, a tile finishing device 8, a tile centering device 9, an adjusting frame 10, a paper sheet output belt 11, a paper sheet centering plate 1101, a guide-in part 12, a centering cylinder 13, a centering roller 14, a centering frame 15, a transverse pushing plate 16, a tile output belt 17, a longitudinal pushing frame 18, a longitudinal pushing roller 19, a moving screw 20, a clamping jaw cylinder 21, a clamping plate 22, an ejection cylinder 23, a moving frame 24, a rotating arm 25, a swing cylinder 26, a transverse baffle 27, a transverse pushing cylinder 28, a longitudinal pushing cylinder 29, a guide roller 30, a pressing plate 31, a longitudinal adjusting guide rail 32, a lifting cylinder 33, a paper pulling synchronous belt 34, a sliding seat 35, a packaging station 36 and a supporting roller.

Detailed Description

The present invention will be further described with reference to specific embodiments, however, it should be understood by those skilled in the art that the detailed description given herein with reference to the accompanying drawings is for better explanation and the present invention is necessarily limited to these embodiments, and for some equivalents or common means, will not be described in detail herein but still fall within the scope of the present application.

Fig. 1 to 9 are preferred embodiments of the present invention, and the present invention will be further explained with reference to fig. 1 to 9.

The utility model provides a ceramic tile automatic packaging machine, is including setting up scraps of paper conveyor and ceramic tile conveyor with one side at packing station 35, scraps of paper conveyor sets up the downside at ceramic tile conveyor, scraps of paper conveyor and ceramic tile conveyor's direction of delivery the same. This ceramic tile automatic packaging machine's ceramic tile conveyor can carry the ceramic tile, scraps of paper conveyor can carry the scraps of paper, the direction of delivery of scraps of paper is the same with the direction of delivery of ceramic tile, scraps of paper and ceramic tile synchronous transportation, can carry ceramic tile and scraps of paper to packing station 35 in step, because scraps of paper conveyor is located ceramic tile conveyor's downside, when scraps of paper and ceramic tile synchronous transportation to packing station 35, can directly make the ceramic tile be located the upside of scraps of paper, the ceramic tile need not wait for scraps of paper to carry and begin to carry again when packing station is gone up, the packing speed of ceramic tile has been improved, and because ceramic tile and paper piece synchronous transportation, there is not relative motion between ceramic tile and the scraps of paper, can avoid the ceramic tile to cause the problem of fish tail or aversion to the scraps of paper.

Specifically, the method comprises the following steps: as shown in FIGS. 1 to 2: this ceramic tile automatic packaging machine still includes frame 1, ceramic tile input belt 4, scraps of paper storehouse and gets the paper device, ceramic tile conveyor installs at the top of frame 1, scraps of paper conveyor installs the lower part of frame 1, packing station 35 installs at the top of frame 1, and packing station 35 is located ceramic tile conveyor and scraps of paper conveyor's output, ceramic tile conveyor's height equals or ceramic tile conveyor is higher than packing station 35 setting with packing station 35's height. The paper conveying device is inclined upwards gradually along the direction close to the packaging station 35, the output end of the paper conveying device is lower than the packaging station 35, and the conveying directions and the conveying speeds of the paper conveying device and the ceramic tile conveying device are the same. In this embodiment, the paper sheet conveying means is a paper sheet output belt 10 mounted on the frame 1, and the tile conveying means is a tile output belt 16. Ceramic tile input belt 4 is installed in frame 1, and ceramic tile input belt 4 is just to setting up with ceramic tile output belt 16, and ceramic tile input belt 4's output links to each other with ceramic tile output belt 16's input to carry the ceramic tile one by one to ceramic tile output belt 16 on, make the ceramic tile stack on ceramic tile output belt 16. The paper sheet bin is arranged on the rack 1 on the lower side of the ceramic tile input belt 4, the paper sheet taking device is arranged on the rack 1, and the paper sheet taking device is positioned between the paper sheet bin and the input end of the paper sheet output belt 10.

An industrial robot may be provided between the tile input belt 4 and the tile output belt 16 to transfer the tiles on the tile input belt 4 onto the tile output belt 16 and to stack the tiles on the tile output belt 16.

The bottom of the frame 1 is provided with a paper sheet input belt 2, the paper sheet input belt 2 is arranged under the ceramic tile input belt 4, and the paper sheet input belt 2 is horizontally arranged. Still install scraps of paper baffle 3 on frame 1, scraps of paper baffle 3 is vertical to be installed at scraps of paper input belt 2's middle part upside, and scraps of paper baffle 3's bottom and scraps of paper input belt 2 interval sets up to form the scraps of paper storehouse at scraps of paper input belt 2's input end. Scraps of paper baffle 3 can block the scraps of paper of scraps of paper storehouse upside, and scraps of paper input belt 2 moves to carry the scraps of paper storehouse downside to scraps of paper input belt 2's output, in order to make things convenient for to get the scraps of paper device and absorb the scraps of paper.

This ceramic tile automatic packaging machine still includes scraps of paper centering plate 11, scraps of paper centering plate 11 has the symmetry to set up two at scraps of paper input belt 2 both sides, each scraps of paper input one side of centering plate 11 all is provided with leading-in portion 1101, leading-in portion 1101 is for being close to the slope form of scraps of paper input belt 2 gradually along scraps of paper input direction, in order to make things convenient for the scraps of paper to enter into between two scraps of paper centering plates 11, carry out the centering location to the scraps of paper, conveniently get the scraps of paper device and absorb the scraps of paper.

Get the scraps of paper device and include suction means, elevating gear and draw paper device, the installation of suction means liftable is in frame 1, and suction means sets up the upside at scraps of paper input belt 2's output, when scraps of paper input belt 2 carries the scraps of paper to scraps of paper input belt 2's output, suction means was located the scraps of paper directly over this moment. The lifting device is arranged on the frame 1, is connected with the suction device and drives the suction device to lift so as to suck the paper sheets input on the belt 2. The paper pulling device is arranged between the suction device and the input end of the paper sheet output belt 10, and pulls the paper sheet sucked by the suction device to the upper side of the paper sheet output belt 10.

This ceramic tile automatic packaging machine still includes ceramic tile centering device 8, and ceramic tile centering device 8 sets up the both sides at ceramic tile input belt 4.

This ceramic tile automatic packaging machine still includes ceramic tile finishing device 7, ceramic tile output belt 16 is side by side and the interval is provided with two, ceramic tile finishing device 7 is all installed in each ceramic tile output belt 16's the outside, the alignment jig 9 is installed to the equal slidable in both sides of frame 1, each ceramic tile output belt 16 and ceramic tile finishing device are all installed on the alignment jig 9 that corresponds the side, install adjusting screw in frame 1, adjusting screw's both ends respectively with the alignment jig 9 threaded connection who corresponds the side, the screw thread at adjusting screw's both ends revolves to opposite, can adjust the interval of two alignment jigs 9, in order to adapt to the packing of not unidimensional ceramic tile.

As shown in fig. 3: the ceramic tile centering device 8 comprises a centering cylinder 12, a centering roller 13 and a centering frame 14, wherein the centering cylinder 12 is installed on the rack 1, the centering cylinder 12 is perpendicular to the ceramic tile input belt 4, the centering frame 14 is installed on the rack 1 in a sliding mode, a piston rod of the centering cylinder 12 is connected with the centering frame 14 and pushes the centering frame to move in the direction perpendicular to the ceramic tile input belt 4, the centering roller 13 is rotatably installed on the centering frame 14, the centering roller 13 is vertically arranged, and a plurality of centering rollers 13 are arranged on each pair of centering frames 14 side by side and at intervals along the conveying direction of the ceramic tile input belt 4.

The centering cylinders 12 on both sides are synchronously extended and push the centering frames 14 on the corresponding sides to move inwards, and the centering operation is carried out on the tiles on the tile input belt 4 through the centering rollers 13 on both sides.

As shown in FIGS. 4 to 5: the ceramic tile arranging device 7 comprises a transverse arranging device and a longitudinal arranging device, the transverse arranging device is installed on each adjusting frame 9, the longitudinal arranging device is installed on each adjusting frame 9, and the longitudinal arranging devices on the two sides are matched to arrange ceramic tiles. In the present embodiment, the transverse direction means along the conveying direction of the tile output belt 16, and the longitudinal direction means perpendicular to the conveying direction of the tile output belt 16.

The longitudinal arrangement device comprises a longitudinal pushing cylinder 28, a longitudinal pushing frame 17 and a longitudinal pushing roller 18, wherein the longitudinal pushing frame 17 is slidably arranged on the adjusting frame 9 on the corresponding side, the longitudinal pushing cylinder 18 is also arranged on the adjusting frame 9 on the corresponding side, the longitudinal pushing cylinder 18 is arranged perpendicular to the conveying direction of the tile output belt 16, and a piston rod of the longitudinal pushing cylinder 18 is connected with the longitudinal pushing frame 17 and pushes the longitudinal pushing frame to move in the direction close to or far away from the tile output belt 16. The longitudinal pushing rollers 18 are rotatably arranged on the longitudinal pushing frames 17, the longitudinal pushing rollers 18 are vertically arranged, and a plurality of longitudinal pushing rollers 18 are arranged on each longitudinal pushing frame 17 side by side along the conveying direction of the tile output belt 16.

The longitudinal pushing cylinders 18 on the two sides synchronously extend out, the longitudinal pushing frames 17 on the two sides are pushed to synchronously move towards the direction close to the ceramic tile output belt 16, the longitudinal pushing rollers 18 on the two sides synchronously push the ceramic tiles on the ceramic tile output belt 16, the ceramic tiles on the ceramic tile output belt 16 can be centered, the ceramic tiles are aligned with the paper scraps, and the stacked ceramic tiles can be ensured to be tidy.

Horizontal finishing device is including transversely promoting cylinder 27, horizontal push pedal 15, horizontal baffle 26 and rotating device, horizontal push pedal 15 and horizontal baffle 26 set up along tile output belt 16's direction of delivery interval, and lie in horizontal push pedal 15 and the horizontal baffle 26 of same side just to setting up, transversely promote cylinder 27 and set up along tile output belt 16's direction of delivery, transversely promote cylinder 27 and install on the alignment jig 9 that corresponds the side, transversely promote cylinder 27's piston rod and horizontal push pedal 15 and link to each other, and promote horizontal push pedal 15 along tile output belt 16's direction of delivery motion. Rotating device installs on the alignment jig 9 that corresponds the side, and transverse baffle 26 installs on rotating device, and rotating device drives transverse baffle 26 and rotates, can enough make transverse baffle 26 rotate to just right with horizontal push pedal 15 to carry out horizontal arrangement to the ceramic tile, can make transverse baffle 26 rotate to ceramic tile conveyor belt 16's upside again, in order to avoid causing the hindrance to the transport of ceramic tile output belt 16 to the ceramic tile.

The rotating device comprises a rotating arm 24 and a swinging cylinder 25, the lower end of the rotating arm 24 is rotatably connected with the adjusting frame 9 on the corresponding side, the upper end of the rotating arm is fixedly connected with a transverse baffle 26 on the corresponding side, the transverse baffle 26 is perpendicular to the rotating arm 24, the swinging cylinder 25 is rotatably installed on the rack 1, and a piston rod of the swinging cylinder 25 is connected with the rotating arm 24 and drives the swinging cylinder to move towards the direction close to or far away from the tile output belt 16.

The tile collating device 7 further comprises a transverse adjustment device arranged between the adjusting frame 9 and the transverse baffle 26 of the corresponding side.

The transverse adjusting device comprises a moving screw rod 19 and a moving frame 23, the moving frame 23 is slidably mounted on the adjusting frame 9 on the corresponding side, the moving frame 23 moves along the direction close to or far away from the transverse push plate 15 on the corresponding side, the moving screw rod 19 is rotatably mounted on the adjusting frame 9 on the corresponding side, the moving screw rod 19 is in threaded connection with the moving frame 23 on the corresponding side, so that the distance between the transverse push plate 15 and the transverse baffle 26 on the same adjusting frame 9 can be adjusted, and the ceramic tiles with different sizes can be adapted.

Be provided with longitudinal regulation guide rail 31 on frame 1, longitudinal regulation guide rail 31 has the symmetry to set up two sets of in ceramic tile output belt 16 both sides, and every group all includes two that just interval set up side by side along ceramic tile output belt 16's direction of delivery, and each longitudinal regulation guide rail 31 all is perpendicular to ceramic tile output belt 16's direction of delivery setting, and each alignment jig 9 all is connected with the longitudinal regulation guide rail 31 slidable who corresponds the side.

As shown in FIGS. 6 to 7: suction means includes crane 5 and sucking disc 6, and crane 5 sets up the downside at ceramic tile input belt 4, and is located scraps of paper and inputs the output of belt 2 directly over, and the installation of crane 5 liftable is in frame 1. Sucking disc 6 is installed at the downside of crane 5, and sucking disc 6 is provided with a plurality of, and in this embodiment, sucking disc 6 is provided with four, can absorb four angles of scraps of paper simultaneously to the assurance is more reliable to the absorption of scraps of paper.

The lifting device is a lifting cylinder 32, the lifting cylinder 32 is vertically arranged on the rack 1, and a piston rod of the lifting cylinder 32 is connected with the lifting frame 5 and drives the lifting frame to lift. In this embodiment, two lifting cylinders 32 are symmetrically arranged on two sides of the frame 1, and the two lifting cylinders 32 are lifted synchronously.

As shown in fig. 4, 6, 8: the paper pulling device comprises a paper pulling translation device, a sliding seat 34 and a paper sheet clamp, the paper pulling translation device is a paper pulling synchronous belt 33 horizontally arranged on the rack 1, synchronous belt wheels are rotatably arranged at two ends of the rack 1, two ends of the paper pulling synchronous belt 33 are respectively connected with the synchronous belt wheels on the corresponding sides, and any one synchronous belt wheel is connected with a translation motor (not shown in the figure). The paper pulling timing belt 33 is disposed on the upper side of the paper sheet output belt 10 and on the lower side of the tile output belt 16. The two paper pulling synchronous belts 33 are symmetrically arranged at two sides of the paper sheet output belt 10, and the paper pulling synchronous belts 33 at the two sides act synchronously. The two sides of the rack 1 are provided with paper pulling translation guide rails, the two sides of the sliding seat 34 are slidably connected with the paper pulling translation guide rails on the corresponding sides respectively, and the paper pulling synchronous belts 33 on the two sides are connected with the sliding seat 34 and drive the sliding seat 34 to move. The paper clip is installed on the slide 34, and the paper clip has two of symmetry setting in slide 34 both sides, can clip the both sides of scraps of paper respectively, guarantees that the scraps of paper carries more reliably.

The paper sheet clamp comprises a clamping jaw cylinder 20 and clamping plates 21, wherein the clamping jaw cylinder 20 is installed on a sliding seat 34, the clamping plates 21 are arranged side by side from bottom to top at intervals, the two clamping plates 21 are connected with the clamping jaw cylinder 20, and the clamping jaw cylinder 20 respectively drives the two clamping plates 21 to synchronously move in opposite directions so that the two clamping plates 21 are matched to clamp or loosen paper sheets.

The top of the clamping plate 21 at the lower side is provided with a boss on a semi-cylinder with a convex middle part, and the lower side of the clamping plate 21 at the upper side is provided with a groove matched with the boss so as to avoid slipping between the clamping plate 21 and the paper sheets when the paper sheets are pulled.

The paper pulling device also comprises an ejection device arranged on one side of the paper sheet clamp, so that the paper sheets between the two clamping plates 21 can be ejected out, and the paper sheets are prevented from being clamped on the clamping plates 21.

The ejection device comprises an ejection cylinder 22 and a top plate, the ejection cylinder 22 is installed on the sliding base 34, the ejection cylinder 22 is arranged side by side with the clamping jaw cylinder 20 on the corresponding side, the piston rod of the ejection cylinder 22 is provided with the top plate, and the paper sheet between the two clamping plates 21 is ejected through the top plate.

As shown in fig. 5 and 9: both sides of scraps of paper output belt 10 all are provided with clamp plate 30, and clamp plate 30 sets up the output at scraps of paper output belt 10, and the scraps of paper input one end of each clamp plate 30 is for following the downward slope form gradually of scraps of paper direction of delivery, and clamp plate 30 can make the both sides of scraps of paper expand, and then guarantees that the packing of ceramic tile is more stable.

The both sides of ceramic tile output belt 16 are all rotatable installs guide roll 29, and guide roll 29 is vertical to be set up, and ceramic tile output belt 16's both sides all are provided with a plurality of guide roll 29 side by side and the interval to guarantee that the ceramic tile is adjusted well with the scraps of paper when carrying to packing station 35 on.

A roller 36 is rotatably mounted on the side of the packing station 35 adjacent the tile output belt 16, the roller 36 being disposed perpendicular to the tile transport line to receive paper and tile.

As shown in fig. 1 and 6: the working process of the automatic ceramic tile packaging machine is as follows: ceramic tile input belt 4 carries the ceramic tile to stack on ceramic tile output belt 10, and ceramic tile centering device 8 can carry out the centering to the ceramic tile on ceramic tile input belt 4, guarantees that the ceramic tile stacks neatly on ceramic tile output belt 10, and every two or three on ceramic tile output belt 10 stack together.

Scraps of paper are input into the output end of the belt 2 from the scraps of paper of the lowest side of the paper bin to the scraps of paper, the lifting cylinder 32 drives the lifting frame 5 to descend, the sucking disc 6 is made to suck the scraps of paper input into the output end of the belt 2, then the lifting cylinder 32 drives the lifting frame 5 to ascend and reset, and the sucked scraps of paper are aligned with the scraps of paper fixture.

The paper pulling synchronous belt 33 drives the sliding seat 34 to move towards the direction close to the paper sheet, so that the side part of the paper sheet enters between the two clamping plates 21, and the clamping jaw air cylinder 20 acts to enable the two clamping plates 21 to be matched and clamp the paper sheet. The paper pulling synchronous belt 33 drives the sliding seat 34 to move towards the direction close to the paper sheet output belt 10 until the paper sheet is positioned at the upper side of the input end of the paper sheet output belt 10, and at the moment, the clamping jaw air cylinder 20 drives the two clamping plates 21 to move and loosen the paper sheet. The ejecting cylinder 22 drives the top plate to move and pushes the paper sheet away from between the two clamping plates 21, so that the paper sheet falls into the upper side of the input end of the paper sheet output belt 10.

Ceramic tile output belt 16 and paper piece output belt 10 synchronous motion, and ceramic tile and scraps of paper just synchronous motion to the upside of packing station 35, and the ceramic tile is located the upside of scraps of paper, and when ceramic tile and scraps of paper moved to packing station 35 upside, relative static between ceramic tile and the scraps of paper, the ceramic tile can not cause fish tail and aversion to scraps of paper.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention. However, any simple modification, equivalent change and modification made to the above embodiments according to the technical substance of the present invention still belong to the protection scope of the technical solution of the present invention.

Claims (10)

1. An automatic ceramic tile packaging machine is characterized in that: including setting up scraps of paper conveyor and the ceramic tile conveyor with one side at packing station (35), scraps of paper conveyor sets up the downside at ceramic tile conveyor, and scraps of paper conveyor is the same with ceramic tile conveyor's direction of delivery.

2. The automatic tile packaging machine according to claim 1, characterized in that: the paper sheet conveying device is inclined upwards gradually along the direction close to the packaging station (35).

3. An automatic tile packaging machine according to claim 1 or 2, characterized in that: the paper sheet conveying device is a paper sheet output belt (10).

4. The automatic tile packaging machine according to claim 1, characterized in that: the ceramic tile conveying device and the packaging station (35) are located at the same height, or the ceramic tile conveying device is higher than the packaging station (35).

5. The automatic tile packaging machine according to claim 4, characterized in that: the ceramic tile conveying device is a ceramic tile output belt (16).

6. The automatic tile packaging machine according to claim 1, characterized in that: the ceramic tile conveying device is characterized by further comprising a carrier roller (36) rotatably mounted on the packaging station (35), wherein the carrier roller (36) is arranged on one side, close to the ceramic tile conveying device, of the packaging station (35).

7. The automatic tile packaging machine according to claim 1, characterized in that: still including getting the scraps of paper device, get the upside that the scraps of paper device set up at scraps of paper conveyor.

8. An automatic tile packaging machine according to claim 7, characterized in that: the paper taking device comprises a suction device, a lifting device and a paper pulling device, wherein the suction device is arranged on one side of the input end of the paper conveying device, the lifting device is connected with the suction device, and the paper pulling device is arranged between the suction device and the paper conveying device.

9. The automatic tile packaging machine according to claim 8, characterized in that: the paper pulling device comprises a paper pulling translation device and a paper piece clamp, and the paper pulling translation device is connected with the paper piece clamp.

10. The automatic tile packaging machine according to claim 8, characterized in that: the paper sheet taking device also comprises an ejection device arranged on the paper pulling device.

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