CN211392605U - A transmission structure for goods shelves - Google Patents

Abstract

The utility model discloses a transmission structure for a goods shelf, which comprises a first placing unit and a second placing unit, wherein a plurality of roller conveying units are arranged between the first placing unit and the second placing unit, each roller conveying unit comprises four rollers, each roller is arranged at intervals, an inserting area is formed between two adjacent rollers, and two ends of each roller are respectively connected with each positioning plate in a rotatable manner; the lower ends of the positioning plates are connected through a second connecting block, and the first driving wheel is connected with an output shaft of a third motor in a sleeved mode through a power belt; the output shaft of the third motor is rotatably connected with the reinforcing plate, the reinforcing plate is connected with each positioning plate, and the third motor is connected with the reinforcing plate through the second motor mounting seat. The utility model discloses an aspect is convenient for deposit and get and takes the high-rise article of goods shelves, and has improved efficiency and reduced operating personnel intensity of labour, thereby on the other hand has avoided depositing and has caused article to drop when getting and take article and lead to article to damage.

Description

A transmission structure for goods shelves

Technical Field

The utility model relates to a transmission structure, specifically speaking, in particular to a transmission structure for goods shelves.

Background

In order to be convenient for get the utilization ratio that takes article the in-process improvement warehouse to need set up the goods shelves that are used for depositing the goods in the warehouse, goods shelves are the important instrument that modernized warehouse raises the efficiency, through current goods shelves when depositing article on the one hand, because goods shelves are higher, thereby low and operating personnel intensity of labour is great when depositing and getting the article of goods shelves high-rise, on the other hand, thereby it causes article to drop when leading to depositing and taking article and leads to article to damage and have the potential safety hazard.

Those skilled in the art have therefore endeavored to develop a transfer structure for pallets that improves the efficiency of picking items and reduces the effort.

SUMMERY OF THE UTILITY MODEL

In view of the above-mentioned defects in the prior art, the technical problem to be solved in the utility model is to provide a transmission structure for goods shelves that is used for improving to get and takes article efficiency and reduces intensity of labour.

In order to achieve the purpose, the utility model provides a transmission structure for goods shelves, which comprises a first placing unit and a second placing unit, wherein a plurality of roller conveying units are arranged between the first placing unit and the second placing unit, each roller conveying unit comprises four rollers, each roller is arranged at intervals, an insertion area is formed between two adjacent rollers, and two ends of each roller are respectively connected with each positioning plate in a rotatable manner;

the lower ends of the positioning plates are connected through second connecting blocks, the lower ends of the second connecting blocks are provided with stand columns, and the stand columns are connected through connecting columns; at least one end of each roller is provided with a first transmission wheel, and the first transmission wheel is connected with an output shaft of a third motor in a sleeved mode through a power belt; an output shaft of the third motor is rotatably connected with the reinforcing plate, the reinforcing plate is connected with the positioning plates, and the third motor is connected with the reinforcing plate through a second motor mounting seat.

Preferably, a first extending block perpendicular to the positioning plate is arranged at the upper end of each positioning plate, a second extending block parallel to the positioning plate is arranged at the other end of the first extending block, and the lower end of the second extending block is spaced from the roller.

Preferably, each first placing unit comprises a first connecting plate and a second connecting plate, wherein both ends of the first connecting plate are provided with third connecting plates perpendicular to the first connecting plate, and both ends of the second connecting plate are provided with fourth connecting plates perpendicular to the second connecting plate respectively; the top ends of the third connecting plate and the fourth connecting plate are respectively connected through a fifth connecting plate; the first placing unit and the second placing unit are oppositely arranged and have the same structure.

Preferably, each third connecting plate and each fourth connecting plate are respectively connected through a plurality of first reinforcing rods, the outer wall of each third connecting plate is connected through a second reinforcing rod, and the second reinforcing rod is located in the middle of the fourth connecting plate; the cross sections of the first connecting plates, the second connecting plates, the third connecting plates, the fourth connecting plates and the fifth connecting plates are U-shaped, a plurality of adjusting holes are formed in the length direction of the third connecting plates and the fourth connecting plates, the cross sections of the supporting seats are L-shaped, and the supporting seats are matched with bolts through the adjusting holes and are detachably connected with the third connecting plates and the fourth connecting plates respectively.

Preferably, each of the first placing unit and the second placing unit is provided with a plurality of supporting units for placing the box bodies to be stored;

the supporting unit comprises four supporting seats and two supporting plates which are parallel to each other, each supporting seat is arranged on each third connecting plate and each fourth connecting plate through an L-shaped adjusting block, each adjusting block passes through, and two ends of each supporting plate are arranged on each supporting seat respectively;

the outer side of each supporting plate is obliquely provided with a stop block, and each stop block extends along the length direction of each supporting plate; the supporting units are identical in structure, extend along the height direction of the first placing unit and the second placing unit respectively, and are symmetrically arranged.

Preferably, a lifting unit and a driving unit for driving the lifting unit are further arranged between each first placing unit and each second placing unit;

the lifting unit comprises two first vertical plates which are symmetrically arranged, two ends of each first vertical plate are connected through a second vertical plate respectively, and positioning blocks are arranged on two sides of the lower end of each first vertical plate;

first rotating rods are arranged between the second vertical plates, two ends of each first rotating rod are respectively connected with the positioning blocks in a rotatable mode, two rotating wheels are sleeved on each first rotating rod, and first transmission teeth are arranged on each rotating wheel;

adjusting plates are arranged above the second vertical plates, second transmission teeth meshed with the first transmission teeth are arranged along the length direction of each adjusting plate, the outer sides of the adjusting plates are respectively connected with the inner sides of the sixth connecting plates, the outer sides of the sixth connecting plates are respectively connected with the inner sides of the seventh connecting plates in a sliding manner, the outer sides of the seventh connecting plates are respectively connected with the positioning seats, and two ends of each positioning seat are respectively connected with the top ends of the second vertical plates; the first rotating rod is driven by a first motor; the first motor is fixed with the positioning block, and a placing frame is arranged on the sixth connecting plate; baffles are arranged at the upper ends of the first vertical plates, and third openings are formed between the positioning seats and the baffles;

the driving unit comprises a second rotating rod and a third rotating rod which are positioned between the first placing unit and the second placing unit, and the second rotating rod is positioned at the lower half sections of the first placing unit and the second placing unit and is rotationally connected with the first placing unit and the second placing unit; the third rotating rod is positioned at the upper half sections of the first placing unit and the second placing unit and is in rotating connection with the first placing unit and the second placing unit;

at least one end of the second rotating rod is connected with an output shaft of a second motor, the second rotating rod is in transmission connection with the third rotating rod through a transmission belt, and the transmission belt is detachably connected with the first vertical plate and the positioning block through a fixing block and drives the lifting unit to move up and down;

a sliding rail is arranged along the height direction of the second placing unit, and a sliding block matched with the sliding rail is arranged on the lifting unit.

Preferably, each of the racks includes two first support blocks parallel to each other, two ends of each of the first support blocks are connected to the sixth connecting plates, each of the first support blocks is located above the adjusting plate, a middle portion of each of the first support blocks is connected to each of the sixth connecting plates through a first connecting block, upper ends of two sides of each of the first support blocks are connected to each other through a second support block, and a first opening and a second opening are formed between each of the first support blocks and each of the second support blocks.

Preferably, each first rotating rod is sleeved with a first belt pulley, each first belt pulley is connected through a first transmission belt, at least one positioning block is provided with a first motor mounting seat, the first motor is arranged on the first motor mounting seat, and an output shaft of the first motor is connected with the first rotating rod.

The utility model has the advantages that: the utility model discloses an aspect is convenient for deposit and get and takes the high-rise article of goods shelves, and has improved efficiency and reduced operating personnel intensity of labour, thereby on the other hand has avoided depositing and has caused article to drop when getting and take article and lead to article to damage.

Drawings

Fig. 1 is a schematic structural view of the roller conveying unit of the present invention.

Fig. 2 is a schematic view of a connection structure of a plurality of roller conveying units which are matched with each other.

Fig. 3 is a schematic structural view of the present invention, in which a plurality of roller conveying units and a plurality of lifting units are in one-to-one correspondence and are used in cooperation.

Fig. 4 is a partially enlarged schematic view of a portion a in fig. 3.

Fig. 5 is a schematic perspective view of the lifting unit used in cooperation with the first placing unit, the second placing unit, the driving unit and the roller conveying unit.

Fig. 6 is a partially enlarged structural view at C in fig. 5.

Fig. 7 is a partially enlarged schematic view of the structure at D in fig. 5.

Fig. 8 is a schematic view of a partially enlarged structure at E in fig. 5.

Fig. 9 is a schematic structural view of the lifting unit.

Fig. 10 is a schematic bottom view of the structure of fig. 9.

Fig. 11 is a schematic top view of the structure of fig. 9.

Fig. 12 is a schematic perspective view of the lifting unit of the present invention.

Fig. 13 is a partially enlarged view of a structure at F in fig. 12.

Fig. 14 is a schematic structural view of the placing rack of the present invention.

Detailed Description

The invention will be further explained with reference to the following figures and examples:

as shown in fig. 1 to 14, a conveying structure for a shelf includes a first placing unit 1 and a second placing unit 2, a plurality of roller conveying units 60 are disposed between the first placing unit 1 and the second placing unit 2, each roller conveying unit 60 includes four rollers 61, each roller 61 is disposed at an interval, an insertion area 99 is formed between two adjacent rollers 61, and both ends of each roller 61 are respectively rotatably connected with each positioning plate 62;

the lower ends of the positioning plates 62 are connected through second connecting blocks 63, the lower ends of the second connecting blocks 63 are provided with upright columns 65, and the upright columns 65 are connected through connecting columns 66; at least one end of each roller 61 is provided with a first transmission wheel 100, and the first transmission wheel 100 is connected with an output shaft sleeved on a third motor 102 through a power belt 101; an output shaft of the third motor 102 is rotatably connected to a reinforcing plate 103, the reinforcing plate 103 is connected to each positioning plate 62, and the third motor 102 is connected to the reinforcing plate 103 through a second motor mounting seat 105.

The upper end of each positioning plate 62 is provided with a first extending block 106 perpendicular to the positioning plate 62, the other end of the first extending block 106 is provided with a second extending block 107 parallel to the positioning plate 62, and the lower end of the second extending block 107 is spaced from the roller 61.

The first placing unit 1 comprises a first connecting plate 8 and a second connecting plate 9, wherein both ends of the first connecting plate 8 are provided with third connecting plates 10 perpendicular to the first connecting plate 8, and both ends of the second connecting plate 9 are respectively provided with fourth connecting plates 11 perpendicular to the second connecting plate 9; the top ends of the third connecting plate 10 and the fourth connecting plate 11 are respectively connected through a fifth connecting plate 12; the first placing unit 1 and the second placing unit 2 are arranged oppositely and have the same structure.

The third connecting plates 10 and the fourth connecting plates 11 are respectively connected through a plurality of first reinforcing rods 13, the outer walls of the third connecting plates 10 are connected through second reinforcing rods 15, and the second reinforcing rods 15 are located in the middle of the fourth connecting plates 11; the cross sections of the first connecting plates 8, the second connecting plates 9, the third connecting plates 10, the fourth connecting plates 11 and the fifth connecting plates 12 are all U-shaped, a plurality of adjusting holes 19 are formed in the length direction of the third connecting plates 10 and the fourth connecting plates 11, the cross section of each supporting seat 16 is L-shaped, and each supporting seat 16 is matched with a bolt through each adjusting hole 19 and is detachably connected with each third connecting plate 10 and each fourth connecting plate 11.

The first placing unit 1 and the second placing unit 2 are provided with a plurality of supporting units 5 for placing the box bodies 3 to be stored;

the supporting unit 5 comprises four supporting seats 16 and two supporting plates 17 which are parallel to each other, each supporting seat 16 is respectively arranged on each third connecting plate 10 and each fourth connecting plate 11 through an L-shaped adjusting block 20, each adjusting block 20 passes through, and two ends of each supporting plate 17 are respectively arranged on each supporting seat 16;

stoppers 18 are obliquely arranged on the outer side of each supporting plate 17, and each stopper 18 extends along the length direction of each supporting plate 17; the supporting units 5 have the same structure and are symmetrically arranged along the height direction of the first placing unit 1 and the second placing unit 2.

A lifting unit 6 and a driving unit 7 for driving the lifting unit 6 are further arranged between the first placing unit 1 and the second placing unit 2;

the lifting unit 6 comprises two first vertical plates 21 which are symmetrically arranged, two ends of each first vertical plate 21 are respectively connected through a second vertical plate 22, and positioning blocks 23 are arranged on two sides of the lower end of each first vertical plate 21;

first rotating rods 26 are arranged between the second vertical plates 22, two ends of each first rotating rod 26 are respectively rotatably connected with the positioning blocks 23, two rotating wheels 27 are sleeved on each first rotating rod 26, and first transmission teeth 28 are arranged on each rotating wheel 27;

adjusting plates 29 are arranged above the second vertical plates 22, second transmission teeth 30 meshed with the first transmission teeth 28 are arranged along the length direction of each adjusting plate 29, the outer sides of each adjusting plate 29 are respectively connected with the inner sides of sixth connecting plates 31, the outer sides of the sixth connecting plates 31 are respectively connected with the inner sides of seventh connecting plates 32 in a sliding manner, the outer sides of the seventh connecting plates 32 are respectively connected with positioning seats 33, and two ends of each positioning seat 33 are respectively connected with the top ends of the second vertical plates 22; the first rotating lever 26 is driven by a first motor 35; the first motor 35 is fixed to the positioning block 23, and a placing rack 36 is arranged on the sixth connecting plate 31; baffles 72 are arranged at the upper end of each first vertical plate 21, and third openings 73 are formed between each positioning seat 33 and each baffle 72;

the driving unit 7 comprises a second rotating rod 52 and a third rotating rod 53 which are positioned between the first placing unit 1 and the second placing unit 2, and the second rotating rod 52 is positioned at the lower half section of the first placing unit 1 and the second placing unit 2 and is rotatably connected with the first placing unit 1 and the second placing unit 2; the third rotating rod 53 is positioned at the upper half sections of the first placing unit 1 and the second placing unit 2 and is rotatably connected with the first placing unit 1 and the second placing unit 2;

at least one end of the second rotating rod 52 is connected with an output shaft of a second motor 55, the second rotating rod 52 is in transmission connection with the third rotating rod 53 through a transmission belt 56, and the transmission belt 56 is detachably connected with the first vertical plate 21 and the positioning block 23 through a fixing block 57 and drives the lifting unit 6 to move up and down;

a slide rail 58 is arranged along the height direction of the second placing unit 2, and a slide block 59 matched with the slide rail 58 is arranged on the lifting unit 6.

The placing frame 36 includes two first supporting blocks 39 parallel to each other, two ends of each first supporting block 39 are respectively connected to the sixth connecting plates 31, each first supporting block 39 is located above the adjusting plate 29, the middle of each first supporting block 39 is connected through a first connecting block 50, the upper ends of two sides of each first supporting block 39 are connected through second supporting blocks 51, and a first opening 70 and a second opening 71 are formed between each first connecting block 50 and each second supporting block 51. Each first rotating rod 26 is sleeved with a first belt pulley 37, each first belt pulley 37 is connected through a first transmission belt 38, at least one positioning block 23 is provided with a first motor mounting seat, the first motor 35 is arranged on the first motor mounting seat, and an output shaft of the first motor 35 is connected with the first rotating rod 26.

The working principle of the utility model is as follows:

the number of the first placing units 1 and the number of the second placing units 2 are set according to actual needs, and the first placing units 1 and the second placing units 2 are symmetrically arranged; the number of the first placing unit 1 and the second placing unit 2 can be increased or decreased according to the actual size and height of the warehouse. Additionally, the utility model discloses in also can place unit 2 cooperation through single first unit 1 of placing and single second and use, also can place unit 2 one-to-one cooperation use through a plurality of first unit 1 of placing and a plurality of second of placing through a plurality of. A lifting unit 6, a driving unit 7 and a roller conveying unit 60 are arranged between each first placing unit 1 and each second placing unit 2; starting a second motor 55 to drive a second rotating rod 52 to rotate, wherein the rotation of the second rotating rod 52 drives a transmission belt 56 to drive the lifting unit 6 to move downwards, and at the moment, the four rollers 61 are respectively positioned at a first opening 70, a second opening 71 and two third openings 73 and then stop; placing the case 3 to be stored on the rollers 61 with the upper half of the rollers 61 higher than the second supporting block 51 so that the bottom of the case 3 is positioned on each roller 61 and separated from the top end of the second supporting block 51; the box body 3 to be stored is conveyed to the lower part of the supporting unit 5 through the transmission unit 60 and then is stopped; starting a second motor 55 to drive a second rotating rod 52 to rotate, driving a driving belt 56 to drive a lifting unit 6 to move upwards by the rotation of the second rotating rod 52, jacking up the box body 3 to be stored through a second supporting block 51 while the lifting unit 6 moves upwards, separating the bottom of the box body 3 to be stored from a roller 61 at the moment, and stopping when the box body 3 to be stored ascends to the supporting unit 5 to be stored; the first motor 35 is started, the first rotating rod 26 is driven to rotate by the first motor 35, the rotating wheel 27 is driven to rotate while the first rotating rod 26 rotates, the placing frame 36 of the rotating wheel 27 moves towards the direction of the supporting unit 5 to be stored through the matching of the first transmission gear 28 and the second transmission gear 30, and at the moment, the sixth connecting plates 31 are positioned between the supporting plates 17; when the box 3 to be stored is positioned right above each support plate 17, the lifting unit 6 is driven by the second motor 55 to move downwards until the bottom of the box 3 to be stored is attached to the top end of each support plate 17 and supported by each support plate 17, and then the lifting is stopped; the sixth connecting plate 31 and the placing frame 36 are returned by the first motor 35, and then the placing of the storage box 3 is completed.

The foregoing has described in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be devised by those skilled in the art in light of the present teachings without departing from the inventive concepts. Therefore, the technical solutions that can be obtained by a person skilled in the art through logic analysis, reasoning or limited experiments based on the prior art according to the concepts of the present invention should be within the scope of protection defined by the claims.

Claims (8)

1. A transmission structure for a shelf is characterized in that: the device comprises a first placing unit (1) and a second placing unit (2), wherein a plurality of roller conveying units (60) are arranged between the first placing unit (1) and the second placing unit (2), each roller conveying unit (60) comprises four rollers (61), each roller (61) is arranged at intervals, an insertion area (99) is formed between every two adjacent rollers (61), and two ends of each roller (61) are respectively connected with each positioning plate (62) in a rotatable manner;

the lower ends of the positioning plates (62) are connected through second connecting blocks (63), the lower ends of the second connecting blocks (63) are provided with upright columns (65), and the upright columns (65) are connected through connecting columns (66); at least one end of each roller (61) is provided with a first transmission wheel (100), and the first transmission wheel (100) is connected with an output shaft sleeved on a third motor (102) through a power belt (101); an output shaft of the third motor (102) is rotatably connected with a reinforcing plate (103), the reinforcing plate (103) is connected with each positioning plate (62), and the third motor (102) is connected with the reinforcing plate (103) through a second motor mounting seat (105).

2. The transfer structure for pallets as claimed in claim 1, wherein: the upper end of each positioning plate (62) is provided with a first extending block (106) perpendicular to the positioning plate (62), the other end of the first extending block (106) is provided with a second extending block (107) parallel to the positioning plate (62), and the lower end of the second extending block (107) is arranged at intervals with the roller (61).

3. The transfer structure for pallets as claimed in claim 1, wherein: the first placing unit (1) comprises a first connecting plate (8) and a second connecting plate (9), wherein both ends of the first connecting plate (8) are provided with third connecting plates (10) perpendicular to the first connecting plate (8), and both ends of the second connecting plate (9) are respectively provided with fourth connecting plates (11) perpendicular to the second connecting plate (9); the top ends of the third connecting plate (10) and the fourth connecting plate (11) are respectively connected through a fifth connecting plate (12); the first placing unit (1) and the second placing unit (2) are arranged oppositely and have the same structure.

4. The transfer structure for pallets as claimed in claim 3, wherein: each third connecting plate (10) and each fourth connecting plate (11) are respectively connected through a plurality of first reinforcing rods (13), the outer wall of each third connecting plate (10) is connected through a second reinforcing rod (15), and the second reinforcing rods (15) are located in the middle of the fourth connecting plates (11); the cross sections of the first connecting plates (8), the second connecting plates (9), the third connecting plates (10), the fourth connecting plates (11) and the fifth connecting plates (12) are U-shaped, a plurality of adjusting holes (19) are formed in the length direction of the third connecting plates (10) and the fourth connecting plates (11), the cross section of each supporting seat (16) is L-shaped, and each supporting seat (16) is matched with a bolt through each adjusting hole (19) to be detachably connected with each third connecting plate (10) and each fourth connecting plate (11).

5. The transfer structure for pallets as claimed in claim 4, wherein: the first placing unit (1) and the second placing unit (2) are provided with a plurality of supporting units (5) for placing the box bodies (3) to be stored;

the supporting unit (5) comprises four supporting seats (16) and two supporting plates (17) which are parallel to each other, each supporting seat (16) is arranged on each third connecting plate (10) and each fourth connecting plate (11) through an L-shaped adjusting block (20), each adjusting block (20) passes through, and two ends of each supporting plate (17) are arranged on each supporting seat (16) respectively;

the outer side of each supporting plate (17) is obliquely provided with a stop block (18), and each stop block (18) extends along the length direction of each supporting plate (17); the supporting units (5) are identical in structure and symmetrically arranged along the height direction of the first placing unit (1) and the second placing unit (2).

6. The transfer structure for pallets as claimed in claim 5, wherein: a lifting unit (6) and a driving unit (7) for driving the lifting unit (6) are further arranged between the first placing unit (1) and the second placing unit (2);

the lifting unit (6) comprises two first vertical plates (21) which are symmetrically arranged, two ends of each first vertical plate (21) are respectively connected through a second vertical plate (22), and positioning blocks (23) are arranged on two sides of the lower end of each first vertical plate (21);

first rotating rods (26) are arranged between the second vertical plates (22), two ends of each first rotating rod (26) are respectively connected with the positioning blocks (23) in a rotatable mode, two rotating wheels (27) are sleeved on each first rotating rod (26), and first transmission teeth (28) are arranged on each rotating wheel (27);

adjusting plates (29) are arranged above the second vertical plates (22), second transmission teeth (30) meshed with the first transmission teeth (28) are arranged along the length direction of each adjusting plate (29), the outer sides of each adjusting plate (29) are respectively connected with the inner sides of the sixth connecting plates (31), the outer sides of the sixth connecting plates (31) are respectively connected with the inner sides of the seventh connecting plates (32) in a sliding manner, the outer sides of the seventh connecting plates (32) are respectively connected with positioning seats (33), and two ends of each positioning seat (33) are respectively connected with the top ends of the second vertical plates (22); the first rotating rod (26) is driven by a first motor (35); the first motor (35) is fixed with the positioning block (23), and a placing rack (36) is arranged on the sixth connecting plate (31); baffles (72) are arranged at the upper end of each first vertical plate (21), and third openings (73) are formed between each positioning seat (33) and each baffle (72);

the driving unit (7) comprises a second rotating rod (52) and a third rotating rod (53) which are positioned between the first placing unit (1) and the second placing unit (2), and the second rotating rod (52) is positioned at the lower half sections of the first placing unit (1) and the second placing unit (2) and is rotatably connected with the first placing unit (1) and the second placing unit (2); the third rotating rod (53) is positioned at the upper half sections of the first placing unit (1) and the second placing unit (2) and is rotationally connected with the first placing unit (1) and the second placing unit (2);

at least one end of the second rotating rod (52) is connected with an output shaft of a second motor (55), the second rotating rod (52) is in transmission connection with the third rotating rod (53) through a transmission belt (56), and the transmission belt (56) is detachably connected with the first vertical plate (21) and the positioning block (23) through a fixing block (57) and drives the lifting unit (6) to move up and down;

a sliding rail (58) is arranged in the height direction of the second placing unit (2), and a sliding block (59) matched with the sliding rail (58) is arranged on the lifting unit (6).

7. The transfer structure for pallets as claimed in claim 6, wherein: the placing frame (36) comprises two first supporting blocks (39) which are parallel to each other, two ends of each first supporting block (39) are respectively connected with the sixth connecting plate (31), each first supporting block (39) is located above the adjusting plate (29), the middle parts of the first supporting blocks (39) are connected through first connecting blocks (50), the upper ends of two sides of each first supporting block (39) are connected through second supporting blocks (51), and a first opening (70) and a second opening (71) are formed between each first connecting block (50) and each second supporting block (51).

8. The transfer structure for pallets as claimed in claim 6, wherein: each first rotating rod (26) is sleeved with a first belt pulley (37), each first belt pulley (37) is connected through a first transmission belt (38), at least one positioning block (23) is provided with a first motor mounting seat, a first motor (35) is arranged on the first motor mounting seat, and an output shaft of the first motor (35) is connected with the first rotating rod (26).

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