CN114735469A

CN114735469A - Production line for adjusting quantity of ceramic tiles

Info

Publication number: CN114735469A
Application number: CN202210401741.5A
Authority: CN
Inventors: 陈能用
Original assignee: Shaanxi Huada Ceramics Co ltd
Current assignee: Shaanxi Huada Ceramics Co ltd
Priority date: 2022-04-18
Filing date: 2022-04-18
Publication date: 2022-07-12

Abstract

The application relates to a production line for adjusting the number of tiles, which relates to the field of tile production and comprises a detection production line, a steering assembly, a storage production line and a transportation production line, wherein the detection production line is positioned on one side of the steering assembly, the storage production line and the transportation production line and is used for detecting the number of the tiles; the steering assembly is connected with the tail end of the detection production line and is positioned between the transportation production line and the storage production line, and the storage production line is used for storing redundant tiles; the transportation production line is used for transporting the ceramic tiles to the next ceramic tile production procedure. This application has the speed of having guaranteed the ceramic tile production source, has improved production efficiency's effect.

Description

Production line for adjusting quantity of ceramic tiles

Technical Field

The application relates to the field of ceramic tile production, especially, relate to a ceramic tile quantity control produces line.

Background

The main process flow of ceramic tile production generally comprises the following steps: the production method comprises the following steps of raw material ball milling and pulping, spray tower powder making, storage and aging of a storage bin, press forming, drying, printing, sintering and polishing, wherein when each process step is carried out, the ceramic tiles are transported by a ceramic tile production line, and therefore the control of the turning, the arrangement, the quantity and the like of the ceramic tiles is completed by the ceramic tile production line.

In the related art, the ceramic tile production line is mainly set for transporting ceramic tiles from one production program to the next production program, the time for each program of the ceramic tile production process is different, but the speed of ceramic tile press forming is not changed, so that the ceramic tile production line must bear the responsibility of adjusting the speed of transporting the ceramic tiles between each production program, workers are required to adjust the speed of the ceramic tile production line according to each production program of the ceramic tiles, and the phenomenon that a large number of ceramic tiles are blocked or the ceramic tiles are transported too slowly is avoided.

In summary, the inventor considers that the method for adjusting the speed of the production line is difficult to realize the normal input of the number of the tiles for each tile processing procedure only by adjusting the transmission speed of the production line, and the production speed of the tiles needs to be adjusted from the tile production source, so that the problem of low tile production efficiency exists.

Disclosure of Invention

In order to improve the production efficiency of ceramic tile, this application provides a ceramic tile quantity control produces line.

The application provides a pair of ceramic tile quantity control produces line adopts following technical scheme:

a production line for adjusting the number of tiles comprises a detection production line, a steering component, a storage production line and a transportation production line, wherein the detection production line is positioned on one side of the steering component, the storage production line and the transportation production line and is used for detecting the number of the tiles; the steering assembly is connected with the tail end of the detection production line and is positioned between the transportation production line and the storage production line, and the storage production line is used for storing redundant tiles; the transportation production line is used for transporting the ceramic tiles to the next ceramic tile production procedure;

the storage production line comprises a plurality of groups of storage and transportation roller sets and a storage frame, and the plurality of groups of storage and transportation roller sets are connected with a first driving assembly; the storage rack comprises a plurality of vertical rods, a plurality of cross rods and at least one connecting rod, wherein the cross rods are positioned between the two vertical rods and are fixedly connected with the two vertical rods; the connecting rod is fixedly connected with the bottom ends or the top ends of the vertical rods; the cross rods and the storage and transportation roller sets are distributed at intervals; the storage rack is connected with a second driving component used for driving the storage rack to move upwards.

By adopting the technical scheme, the detection production line, the steering assembly, the storage production line and the transportation production line are arranged, so that the detection production line can detect the number of the ceramic tiles, and when the number of the ceramic tiles just meets the number of the next ceramic tile production program, the steering assembly transports the ceramic tiles on the detection production line to the transportation production line; when the number of the tiles is excessive, the steering assembly transports the tiles on the detection production line to a storage production line, and the storage production line stores the tiles; the speed of the production source of the ceramic tile is ensured, and the production efficiency is improved.

When the ceramic tiles are conveyed to the storage and conveying roller set, the storage and conveying roller set conveys the ceramic tiles to the position of the storage frame, then the second driving assembly is started, the second driving assembly drives the storage frame to ascend, and the cross rods on the storage frame lift the ceramic tiles on the storage and conveying roller set, so that redundant ceramic tiles can be stored on the storage frame; the production efficiency is improved.

Optionally, the storage production line is also used for re-transporting the stored tiles to the transport production line; the second driving assembly is also used for driving the storage rack to move downwards.

Through adopting above-mentioned technical scheme, it is less to detect the quantity of ceramic tile when producing the line when detecting, can not satisfy ceramic tile production procedure's quantity on next step, start second drive assembly, the frame downstream is stored in the drive of second drive assembly, then be located and store on the ceramic tile that puts up the horizontal pole falls to storing the transportation roller set, store the frame and continue the downstream, first drive assembly starts, ceramic tile transportation on the transportation roller set is stored to first drive assembly carries out the supply to producing the line on the transportation, and enter next ceramic production procedure, the difference of the ceramic tile input quantity that different procedures need in the ceramic tile transportation has been adjusted.

Optionally, the steering assembly includes a plurality of left steering rollers and a plurality of right steering rollers, the left steering rollers are located on one side of the storage and transport roller set, and the left steering rollers are connected with the first driving assembly; the right steering roller is positioned on one side of the transportation production line.

By adopting the technical scheme, the steering assembly is arranged, so that when the number of the ceramic tiles is excessive, the first driving assembly is started to drive the left steering assembly to be started, and the left steering assembly transports the redundant ceramic tiles to the storage production line; when ceramic tile quantity satisfied next ceramic and just produce the procedure, the right side turned to the subassembly and drives the ceramic tile and turn to on transporting production line, and get into next ceramic and just produce the procedure.

Optionally, the detection production line comprises a plurality of left conveying belts and a plurality of right conveying belts, and the left conveying belts and the left steering rollers are arranged alternately; the right transmission band sets up to a plurality ofly, and right transmission band looks with the right turn to the roller and distributes mutually, and left transmission band, right transmission band all are connected with lifting unit.

By adopting the technical scheme, when the left steering roller needs to be started, the lifting assembly drives the left conveying belt to descend, and the ceramic tiles on the left conveying belt fall onto the left steering roller and are driven by the left steering roller to move to the left to the storage production line; when the right steering roller needs to be started, the lifting assembly drives the right transmission belt to descend, and the ceramic tiles on the right transmission belt fall onto the right steering roller and are driven by the right steering roller to move rightwards to a transportation production line, so that the ceramic tiles are distributed.

Optionally, at least two infrared sensing counters are arranged on the detection production line.

Through adopting above-mentioned technical scheme, the setting of two at least infrared induction counters has further ensured that infrared induction counter can accurately detect the ceramic tile quantity through infrared induction counter.

Optionally, the first driving assembly comprises a first motor, a driving wheel, a driven wheel and a transmission belt, the first motor is used for driving the driving wheel to rotate, the driven wheel is fixedly connected with one end of the left steering roller, and the transmission belt is meshed with the driving wheel and the driven wheel.

Through adopting above-mentioned technical scheme, the setting of a drive assembly for first motor rotates and to drive the action wheel and rotate, and the action wheel rotates and drives the drive belt rotation, and the drive belt rotates and drives from the driving wheel rotation, then with the synchronous rotation of the left turn roll who is connected from the driving wheel.

Optionally, the second driving assembly includes a second motor, a plurality of driving gears and a plurality of driving toothed belts, the second motor is used for driving the driving gears to rotate, the driving toothed belts are connected to the vertical rods, and the driving gears are meshed with the driving toothed belts.

Through adopting above-mentioned technical scheme, second drive assembly's setting for the second motor rotates and drives drive gear and rotate, and drive gear rotates and drives the drive cingulum and reciprocate, and the drive cingulum reciprocates and drives the montant and reciprocate, thereby drives and stores the frame and reciprocate, in order to satisfy the storage and the supply of ceramic tile.

Optionally, the second driving assembly further comprises a guide block, and the guide block is connected with the vertical rod in a sliding mode and used for guiding the vertical rod to move up and down.

Through adopting above-mentioned technical scheme, owing to store and have more ceramic tile on the frame, and store the frame and still need reciprocate, consequently the setting of guide block for the drive cingulum drives and stores the stability that the frame reciprocated higher.

Optionally, the lifting assembly comprises a lifting rod and a cylinder, one end of the lifting rod is rotatably connected with the left conveying belt and the right conveying belt, and the other end of the lifting rod is connected with the cylinder used for driving the lifting rod to lift.

Through adopting above-mentioned technical scheme, lifting unit's setting for the cylinder drives the lifter and goes up and down, and then the lifter drives left transmission band or right transmission band and goes up and down, has guaranteed to turn to the subassembly and can turn to the ceramic tile smoothly.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the detection production line, the transportation production line, the steering assembly and the storage production line are arranged, so that the detection production line can detect the number of the ceramic tiles, and when the number of the ceramic tiles just meets the number of the next ceramic tile production program, the steering assembly transports the ceramic tiles on the detection production line to the transportation production line; when the number of the ceramic tiles is too large, the steering assembly transports the ceramic tiles on the detection production line to a storage production line, and the storage production line stores the ceramic tiles; the speed of the production source of the ceramic tile is ensured, and the production efficiency is improved;

2. the storage frame is arranged, so that when the ceramic tiles are conveyed to the storage and conveying roller set, the storage and conveying roller set conveys the ceramic tiles to the position of the storage frame, then the second driving assembly is started, the second driving assembly drives the storage frame to ascend, the cross rods on the storage frame lift the ceramic tiles on the storage and conveying roller set, redundant ceramic tiles can be stored on the storage frame, and production efficiency is improved;

3. the setting of storing the frame, it is less to make the quantity that produces the line and detect the ceramic tile when detecting, can not satisfy the quantity of technology on next step, start second drive assembly, the frame downstream is stored in the drive of second drive assembly, then be located and store on the ceramic tile on the frame horizontal pole falls to storing the transportation roller set, store the frame and continue the downstream, first drive assembly starts, ceramic tile transportation on the transportation roller set is stored to first drive assembly carries out the supply to producing the line on to the transportation, and enter next ceramic tile production procedure, the difference of the ceramic tile input quantity that different procedures need in the ceramic tile transportation has been adjusted.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present application;

FIG. 2 is a schematic view of the left conveyor belt, the lifting assembly and the steering assembly;

FIG. 3 is a schematic view for showing the structure of a storage line;

fig. 4 is an enlarged schematic view of a structure at a in fig. 3.

Description of the reference numerals: 1. detecting a production line; 11. a left conveyor belt; 111. a left transfer wheel; 112. a left connecting shaft; 113. a left transmission motor; 12. a right conveyor belt; 13. an infrared sensing counter; 2. a lifting assembly; 21. a lifting rod; 22. a cylinder; 3. a steering assembly; 31. a left turn roll; 32. a right turn roll; 4. storing the production line; 41. storing the transport roller set; 411. storing the transport roller set; 42. a storage rack; 421. a vertical rod; 422. a cross bar; 423. a connecting rod; 5. a transportation production line; 6. a first drive assembly; 61. a first motor; 62. a driving wheel; 63. a driven wheel; 64. a transmission belt; 7. a second drive assembly; 71. a second motor; 72. a drive gear; 73. a drive toothed belt; 74. a guide block; 741. a guide groove; 8. a shelf body.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The application embodiment discloses a ceramic tile quantity adjustment production line. Referring to fig. 1, a production line for adjusting the number of tiles comprises a detection production line 1, a steering assembly 3, a storage production line 4, a transportation production line 5 and a frame body 8, wherein the detection production line 1, the steering assembly 3, the storage production line 4 and the transportation production line 5 are all connected to the frame body 8; the detection production line 1 is positioned on one side of the steering assembly 3, the transportation production line 5 and the storage production line 4 and is connected with the steering assembly 3, the detection production line 1 is used for detecting the number of tiles on the production line 1, and the steering assembly 3 is used for steering and shunting the tiles; the transportation production line 5 is positioned at one side of the steering component 3 and is used for transporting the tiles shunted by the steering component 3 to the next tile processing program; the storage production line 4 is positioned at the other side of the steering assembly 3, and the storage production line 4 is used for storing redundant tiles shunted by the steering assembly 3 and supplying the redundant tiles to the next tile production procedure.

Referring to fig. 1 and 2, it includes left transmission band 11 to detect to produce line 1, right transmission band 12 and infrared sensing counter 13, left transmission band 11 sets up and is being close to store and produce 4 one sides of line, left transmission band 11 sets up to a plurality of, a plurality of left transmission bands 11 are equidistant to be arranged, every left transmission band 11 rotates and is connected with two left transmission wheels 111, left transmission wheel 111 that is located a plurality of left transmission bands 11 one end wears to establish jointly and the key-type is connected with left connecting axle 112, left connecting axle 112 one end welded fastening has a left transmission motor 113.

Referring to fig. 1, the right conveyor belt 12 is disposed at a side close to the transport production line 5, and the arrangement, connection structure and movement of the right conveyor belt 12 are the same as those of the left conveyor belt 11; the infrared sensing counter 13 is set to be one at least, and the infrared sensing counter 13 in this embodiment is set to be two, and two infrared sensors all utilize bolt fixed connection with the support body 8, and are used for sensing the ceramic tile quantity that passes through on left transmission band 11 and the right transmission band 12.

When the tile quantity adjusting production line transports tiles, firstly, the quantity of the tiles is detected through an infrared induction counter 13 on the detection production line 1, and if the quantity of the tiles is not more than the quantity required by the next tile production procedure, the turning assembly 3 transports the tiles to the transport production line 5; if the quantity of ceramic tile is when more, turn to subassembly 3 and transport the ceramic tile and store temporarily on producing line 4 with storing, when detecting that the quantity of producing the ceramic tile is less on producing line 1, store and produce line 4 and carry the ceramic tile again and produce line 5 on, get into next ceramic tile production procedure.

Referring to fig. 2, the lifting assembly 2 includes a lifting rod 21 and a cylinder 22, the lifting rod 21 is U-shaped, and one end of the lifting rod is rotatably connected to one end of the left connecting shaft 112, and the other end of the lifting rod is rotatably connected to the other end of the left connecting shaft 112; the cylinder 22 sets up to a plurality ofly, and the cylinder 22 is located the lifter 21 below, and the piston rod of cylinder 22 and lifter 21 horizontal segment welded fastening, and cylinder 22 utilizes bolt fixed connection with ground.

Referring to fig. 1 and 2, the steering assembly 3 includes a left steering roller 31 and a right steering roller 32, the left steering roller 31 is located on one side close to the storage production line 4, the left steering rollers 31 are provided in plurality, the left steering rollers 31 are arranged at equal intervals, the left steering rollers 31 and the left conveyor belt 11 are distributed at intervals, one end of each of the left steering rollers 31 is connected with the first driving assembly 6, and the first driving assembly 6 drives the left steering rollers 31 to rotate; the right steering roller 32 is positioned at one side close to the transportation production line 5, and the arrangement mode, the connection structure and the movement mode of the right steering roller 32 are the same as those of the left steering roller 31.

When the ceramic tile was transported to turning to subassembly 3, start cylinder 22, cylinder 22 drives lifter 21 and descends, and lifter 21 drives left transmission band 11 and the decline of right transmission band 12, then the ceramic tile falls left turn to on roller 31 and the right turn to roller 32, and left turn to roller 31 and rotate, and the ceramic tile is transported to storing and is produced on line 4, and right turn to roller 32 and rotate, and the ceramic tile is transported to transporting and is produced on line 5.

Referring to fig. 3, the storage production line 4 includes a storage transportation roller set 41 and a storage rack 42, the storage transportation roller set 41 is set to be a plurality of sets, the plurality of sets of storage transportation roller set 41 are arranged at equal intervals, and the storage transportation roller set 41 includes at least one storage transportation roller 411, the storage transportation roller set 41 in this embodiment includes two storage transportation rollers 411, and one end of the plurality of storage transportation rollers 411 is connected with the first driving assembly 6.

Referring to fig. 3, the first driving assembly 6 includes a first motor 61, a driving wheel 62, a driven wheel 63 and a transmission belt 64, wherein the first motor 61 is fixedly connected with the frame body 8 by a bolt; the driving shaft of the first motor 61 is in key connection with the driving wheel 62, and the driving wheel 62 is in rotary connection with the frame body 8; a plurality of driven wheels 63 are arranged, the driven wheels 63 are fixedly welded with one end of the storage and transportation roller 411 and one end of the left steering roller 31, one driven wheel 63 corresponds to one storage and transportation roller 411, and one driven wheel 63 corresponds to one left steering roller 31; the belt 64 is engaged with the driving pulley 62 and the plurality of driven pulleys 63.

When the ceramic tile needs to enter the storage production line 4, the first motor 61 is started, the first motor 61 drives the driving wheel 62 to rotate, the driving wheel 62 drives the driven wheel 63 to rotate, the driven wheel 63 drives the left steering roller 31 and the storage transportation roller 411 to rotate, and then the ceramic tile sequentially moves to the storage rack 42 along the left steering roller 31 and the storage transportation roller 411.

Referring to fig. 3, the storage rack 42 includes a plurality of vertical bars 421, a plurality of horizontal bars 422, and connecting bars 423, the vertical bars 421 are arranged in two rows, the vertical bars 421 in each row are arranged at equal intervals, and the vertical bars 421 and the storage and transportation roller sets 41 are distributed at intervals; the transverse rods 422 are arranged into a plurality of pieces, the transverse rods 422 are arranged at equal intervals along the length direction of the vertical rods 421, one ends of the transverse rods 422 are fixedly welded to the vertical rods 421, the other ends of the transverse rods 422 are fixedly welded to the vertical rods 421 in the other row, and the transverse rods 422 and the storage and transportation roller sets 41 are distributed at intervals; connecting rod 423 sets up to one at least, and the connecting rod 423 of this embodiment sets up to four, and wherein two connecting rods 423 are located the montant 421 top, and connecting rod 423 and the top welded fastening of same row montant 421, two other connecting rods 423 are located the bottom of montant 421, and connecting rod 423 and the bottom welded fastening of same row montant 421.

Referring to fig. 3, two sets of second driving assemblies 7 are connected to the storage rack 42, and the two sets of second driving assemblies 7 are respectively located at two sides of the storage rack 42. The second driving assembly 7 comprises a second motor 71, a driving gear 72, a driving toothed belt 73 and a guide block 74, wherein the second motor 71 is fixedly connected with the frame body 8 through bolts; the number of the driving gears 72 is the same as that of the vertical rods 421, the driving gears 72 are arranged in a penetrating and key-connected manner to form a driving rod, and one end of the driving rod is welded and fixed with a driving shaft of the second motor 71; the length of the driving toothed belt 73 is the same as that of the vertical rod 421, the driving toothed belt 73 is fixedly connected to the vertical rod 421 through a bolt, and the driving toothed belt 73 is meshed with the driving gear 72; referring to fig. 4, the number of the guide blocks 74 is two times that of the vertical bars 421, the two guide blocks 74 are symmetrically arranged about one vertical bar 421, one end of each guide block 74 is welded and fixed to the frame body 8, a guide groove 741 is formed in one side, facing the vertical bar 421, of each guide block 74, and the vertical bars 421 are slidably connected with the guide blocks 74 along the length direction of the guide grooves 741.

When the tiles move to the storage rack 42, the second motor 71 is started, the second motor 71 drives the driving gear 72 to rotate, the driving gear 72 drives the driving toothed belt 73 to move up and down, the driving toothed belt 73 drives the storage rack 42 to move up and down, and when the storage rack 42 moves up, the tiles on the storage and transportation roller 411 are lifted to the cross rod 422 to be stored; when the storage rack 42 moves downwards, the ceramic tiles on the cross bar 422 fall onto the storage and transportation roller 411, the first driving assembly 6 is started to indirectly drive the storage and transportation roller 411 and the left steering roller 31 to rotate, and then the ceramic tiles on the storage and transportation roller 411 are transported to the transportation production line 5 to enter the next ceramic production procedure.

Referring to fig. 1, the transportation production line 5 is a common tile transportation production line, and the transportation production line 5 and the right steering roller 32 are driven by the same driving assembly to transport tiles.

The implementation principle of ceramic tile quantity control production line of the embodiment of the application is as follows: the infrared sensing counter 13 detects the number of the tiles on the left conveying belt 11 and the right conveying belt 12, and if the number of the tiles is not more than the number of the next tile production procedure, the lifting assembly 2 is started to convey the tiles to the conveying production line 5 through the right steering roller 32; if the number of the tiles is large, the lifting assembly 2 and the first driving assembly 6 are started, the tiles are transported to the storage and transportation roller set 41 through the left steering roller 31, then the second driving assembly 7 is started, the storage frame 42 is driven to ascend, and the tiles on the storage and transportation roller set 41 are placed on the storage frame 42; when the number of the ceramic tiles detected by the infrared sensing counter 13 is small, the second driving assembly 7 is started, the second driving assembly 7 drives the storage rack 42 to descend, the ceramic tiles on the storage rack 42 are placed on the storage and transportation roller set 41 again, and are transported to the transportation production line 5 through the left steering roller 31 and the right steering roller 32, and then the next ceramic tile processing procedure is started.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. The utility model provides a ceramic tile quantity control produces line which characterized in that: the ceramic tile storage and transportation system comprises a detection production line (1), a steering assembly (3), a storage production line (4) and a transportation production line (5), wherein the detection production line (1) is positioned on one side of the steering assembly (3), the storage production line (4) and the transportation production line (5) and is used for detecting the number of ceramic tiles; the steering assembly (3) is connected with the tail end of the detection production line (1) and is positioned between the transportation production line (5) and the storage production line (4), and the storage production line (4) is used for storing redundant tiles; the transportation production line (5) is used for transporting the ceramic tiles to the next ceramic tile production procedure;

the storage production line (4) comprises storage and transportation roller sets (41) and a storage frame (42), the storage and transportation roller sets (41) are arranged into a plurality of groups, and the plurality of groups of storage and transportation roller sets (41) are connected with a first driving assembly (6); the storage rack (42) comprises a plurality of vertical rods (421), a plurality of cross rods (422) and at least one connecting rod (423), wherein the cross rods (422) are positioned between the two vertical rods (421) and are fixedly connected with the two vertical rods (421); the connecting rod (423) is fixedly connected with the bottom ends or the top ends of the vertical rods (421); the cross bars (422) and the storage and transportation roller sets (41) are distributed at intervals; the storage rack (42) is connected with a second driving component (7) for driving the storage rack (42) to move upwards.

2. A ceramic tile quantity adjustment production line as claimed in claim 1, characterized in that: said storage line (4) is also used to re-transfer the stored tiles to the transport line (5); the second drive assembly (7) is also used for driving the storage rack (42) to move downwards.

3. A ceramic tile quantity adjustment production line as claimed in claim 1, characterized in that: the steering assembly (3) comprises a plurality of left steering rollers (31) and a plurality of right steering rollers (32), the left steering rollers (31) are positioned on one side of the storage and transportation roller set (41), and the left steering rollers (31) are connected with the first driving assembly (6); the right steering roller (32) is positioned on one side of the transportation production line (5).

4. A ceramic tile quantity adjustment production line as claimed in claim 1, characterized in that: the detection production line (1) comprises a left conveying belt (11) and a right conveying belt (12), the number of the left conveying belts (11) is multiple, and the left conveying belts (11) and the left steering rollers (31) are arranged alternately; the right conveying belt (12) is arranged to be a plurality of, the right conveying belt (12) and the right steering roller (32) are mutually distributed, and the left conveying belt (11) and the right conveying belt (12) are both connected with the lifting assembly (2).

5. A ceramic tile quantity adjustment production line as claimed in claim 1, characterized in that: the detection production line (1) is provided with at least two infrared induction counters (13).

6. A ceramic tile quantity adjustment production line as claimed in claim 1, characterized in that: first drive assembly (6) include first motor (61), action wheel (62), follow driving wheel (63) and drive belt (64), and first motor (61) are used for driving action wheel (62) and rotate, follow driving wheel (63) and left turn to roller (31) one end fixed connection, and drive belt (64) and action wheel (62), follow driving wheel (63) meshing.

7. A ceramic tile quantity adjustment production line as claimed in claim 1, characterized in that: the second driving assembly (7) comprises a second motor (71), a plurality of driving gears (72) and a plurality of driving toothed belts (73), the second motor (71) is used for driving the driving gears (72) to rotate, the driving toothed belts (73) are connected to the vertical rod (421), and the driving gears (72) are meshed with the driving toothed belts (73).

8. A ceramic tile quantity adjustment production line as claimed in claim 1, characterized in that: the second driving assembly (7) further comprises a guide block (74), and the guide block (74) is connected with the vertical rod (421) in a sliding mode and used for guiding the vertical rod (421) to move up and down.

9. A production line for adjusting the number of tiles according to claim 4, characterized in that: lifting unit (2) include lifter (21) and cylinder (22), lifter (21) one end with left transmission band (11), right transmission band (12) rotate to be connected, the other end is connected with cylinder (22) that are used for driving lifter (21) to go up and down.