CN112875394B - Separation and conveying device for cotton soft towel production - Google Patents

Abstract

The invention discloses a separating and conveying device for producing cotton soft towels, which comprises a blanking mechanism, a separating mechanism and a conveying mechanism, wherein the blanking mechanism is arranged on the blanking mechanism; the blanking mechanism consists of a front knife roll and a rear knife roll; the separating mechanism comprises a separating rack, a first connecting seat, a second connecting seat, a third connecting seat and a fourth connecting seat which can be lifted are arranged on the separating rack, the first connecting seat is provided with a front separating fork which can move back and forth and swing, the second connecting seat is provided with a plurality of groups of first material supporting forks, the third connecting seat is provided with a first rear separating fork and a second rear separating fork which can move back and forth and swing, and the fourth connecting seat is provided with a second material supporting fork which can move back and forth; conveying mechanism includes and carries the frame, is equipped with many first conveyer belts in carrying the frame, and the second conveyer belt is separated into multistage and liftable by first conveyer belt. When the device is used, the device has the advantages of good separation effect, avoidance of interference with the knife roll, convenience in installation and contribution to discharging.

Description

Separation and conveying device for cotton soft towel production

Technical Field

The invention relates to the technical field of cotton soft towels, in particular to a separating and conveying device for cotton soft towel production.

Background

The cotton soft towel is made of pure natural cotton as a raw material, is produced by adopting an advanced all-cotton spunlace non-woven fabric process and then carrying out high-pressure steam sterilization treatment, has the characteristics of softness, fineness, good water absorption, no scrap falling and the like, and is a new environment-friendly substitute product for products such as paper towels, cosmetic cotton, face washing towels and the like.

The cotton soft towel needs to be separated and conveyed in production, but the existing production equipment has many defects.

Disclosure of Invention

The invention aims to provide a separating and conveying device for producing cotton soft towels, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a separation conveying device for cotton soft towel production comprises a blanking mechanism, a separation mechanism and a conveying mechanism; the blanking mechanism consists of a front knife roll and a rear knife roll which are symmetrically arranged in front and back; the separating mechanism comprises a separating rack, wherein four groups of vertical grooves are symmetrically formed in the two side walls of the separating rack from front to back, a rotatable first transmission belt, a rotatable second transmission belt, a rotatable third transmission belt and a rotatable fourth transmission belt are sequentially erected in the grooves, and the right ends of the first transmission belt, the second transmission belt, the rotatable third transmission belt and the rotatable fourth transmission belt are respectively connected with a first lifter, a second lifter, a third lifter and a fourth lifter; the two first transmission belts are respectively fixed with a first connecting seat capable of sliding up and down, the top surfaces of the two first connecting seats are respectively provided with a slidable first sliding seat through a sliding rail frame, the two first sliding seats are connected through a connecting beam, the two first connecting seats are respectively fixed with a first telescopic cylinder, the output end of the first telescopic cylinder is connected with the first sliding seat, the two first sliding seats are respectively and rotatably connected with shafts at the two ends of a first cross beam through connecting plates, shafts at the two ends of the first cross beam respectively penetrate through the connecting plates on the first sliding seats and then are fixed with first swing arms, the first swing arms are respectively connected with first swing cylinders arranged on the first sliding seats, and a plurality of front separation forks are equidistantly arranged on the first cross beam; second connecting seats capable of sliding up and down are fixed on the two second transmission belts respectively, the top surfaces of the two second connecting seats are connected through a connecting beam, a plurality of groups of first material supporting forks are erected on the connecting beam at equal intervals, and the tops of the plurality of groups of first material supporting forks are positioned at the feed openings of the front knife roll and the rear knife roll; two third connecting seats capable of sliding up and down are fixed on the third transmission belt respectively, the top surfaces of the third connecting seats are provided with a slidable second sliding seat and two sliding seats through a sliding rail frame, the second sliding seat is connected through a connecting beam, two third connecting seats are provided with a second telescopic cylinder and the output end of the second telescopic cylinder is connected with the second sliding seat, the second sliding seat is rotatably connected with shafts at two ends of a second cross beam through connecting plates respectively, shafts at two ends of the second cross beam penetrate through the connecting plates on the second sliding seat respectively and then are fixedly provided with second swing arms, the second swing arms are connected with second swing cylinders on the second sliding seat respectively, a plurality of first rear separation forks are arranged on the second cross beam at equal intervals, the front side of the second cross beam is connected with two support rods through two vertical sliding rails in a sliding mode, a third cross beam is arranged at the top of each support rod, a third telescopic cylinder is arranged on the second cross beam, and the output end of the third telescopic cylinder is fixedly connected with the second slide rod The third cross beam is provided with a plurality of second rear separation forks which are arranged in a staggered manner with the first rear separation forks at equal intervals, and the first rear separation forks and the second rear separation forks are arranged opposite to the front separation forks; fourth connecting seats capable of sliding up and down in the grooves are fixed on the two fourth transmission belts respectively, a slidable fourth sliding seat is arranged on the top surface of each of the fourth connecting seats through a sliding rail frame, the four sliding seats are connected through a connecting beam, a plurality of groups of second material supporting forks consistent with the first rear separating fork in direction are arranged on the connecting beam in an equidistant mode, and a fourth telescopic cylinder connected with the fourth sliding seat is fixed on the fourth connecting seat; conveying mechanism is including carrying the frame, carry the frame equidistance interval to be equipped with many first conveyer belts of front and back transmission, first material fork that holds in the palm descends to carry the frame time on with many first conveyer belt is crisscross to dodge, the frame is put on the shelf has loading system, be equipped with in the frame with first conveyer belt vertically second conveyer belt, the second conveyer belt quilt first conveyer belt is separated into the multistage and has the space between the two, be equipped with first crossbearer in the frame, install the lift cylinder on the first crossbearer, lift cylinder top fixed connection second conveyer belt support, be equipped with in the frame and correspond the discharge port of second conveyer belt.

Preferably, the pressurizing mechanism comprises a second cross frame, a pressurizing cylinder, an upper pressing plate and a lower pressing plate, the second cross frame is arranged on the conveyor frame, the pressurizing cylinder is arranged on the second cross frame, the upper pressing plate is arranged at the bottom of the pressurizing cylinder, the lower pressing plate is arranged under the upper pressing plate on the conveyor frame, and the top surface of the lower pressing plate is tightly attached to the bottom surface of the first conveyor belt.

Preferably, the top surface of the conveying rack is provided with a transverse shaft and two outer sides, the first conveying belt support is clamped on the shaft in a sliding manner, adjusting hand wheels are arranged on two sides of the conveying rack, and are fixedly connected with screw rods which are in threaded connection with the first conveying belt support on the corresponding outer sides respectively.

Compared with the prior art, the invention has the beneficial effects that:

1. the separable structure of the first rear separation fork and the second rear separation fork has better separation effect when the sheet material is better separated, particularly the material with adhesiveness.

2. The swing action of the front separation fork, the first rear separation fork and the second rear separation fork avoids the interference between the track when the raw material is inserted and the front knife roll and the rear knife roll.

3. The swing rotating shaft driven by the front separation fork, the first rear separation fork and the second rear separation fork and the central axis of the mounting beam are not collinear, and the eccentric structure gives way to an upper discharging channel and a lower discharging channel of the first material supporting fork, so that materials are conveniently discharged.

4. When the first material supporting fork descends to the conveying rack, the first material supporting fork and the plurality of first conveying belts are staggered and avoided, so that the material stack on the first material supporting fork is supported by the first conveying belts and is discharged.

5. First conveyer belt is dismantled alone, convenient maintenance and installation.

6. Through the design that the second conveying belt is divided into a plurality of sections by the first conveying belt and a gap is arranged between the second conveying belt and the first conveying belt, the second conveying belt can conveniently lift up to support the material stack and then discharge the material stack from the discharge port.

7. Two first conveying belts at the outermost side can be respectively adjusted by rotating the adjusting hand wheel, so that raw materials with different widths can be conveniently discharged.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic view of the separating mechanism of the present invention;

FIG. 3 is a schematic view of a front dropout of the present invention;

FIG. 4 is a schematic structural view of a first rear release fork and a second rear release fork of the present invention;

FIG. 5 is a schematic view of the conveying mechanism of the present invention;

FIG. 6 is a schematic structural view of a second conveyor belt, a first cross frame and a lifting cylinder according to the present invention;

FIG. 7 is a schematic view of the pressing mechanism of the present invention;

in the figure: 1. a front knife roll; 2. a rear knife roll; 3. separating the frame; 4. a first drive belt; 5. a second belt; 6. a third belt; 7. a fourth belt; 8. a first lifter; 9. a second lifter; 10. a third elevator; 11. a fourth lifter; 12. a first connecting seat; 13. a first slider; 14. a first telescopic cylinder; 15. a first cross member; 16. a first swing arm; 17. a first swing cylinder; 18. a front release fork; 19. a second connecting seat; 20. a first material supporting fork; 21. a third connecting seat; 22. a second slide carriage; 23. a second telescopic cylinder; 24. a second cross member; 25. a second swing arm; 26. a second swing cylinder; 27. a first rear disconnect fork; 28. a stay bar; 29. a third cross member; 30. a third telescopic cylinder; 31. a second rear release fork; 32. a fourth connecting seat; 33. a fourth slider; 34. a second material supporting fork; 35. a fourth telescopic cylinder; 36. a conveyor frame; 37. a first conveyor belt; 38. a second conveyor belt; 39. a first cross frame; 40. a lifting cylinder; 41. an outlet port; 42. a second cross frame; 43. a pressurizing cylinder; 44. an upper pressure plate; 45. a lower pressing plate; 46. adjusting a hand wheel; 47. a screw.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1: referring to fig. 1-7, the present invention provides a technical solution: a separation conveying device for cotton soft towel production comprises a blanking mechanism, a separation mechanism and a conveying mechanism; the blanking mechanism consists of a front knife roller 1 and a rear knife roller 2 which are symmetrically arranged in front and back; the separating mechanism comprises a separating rack 3, wherein four groups of vertical grooves are symmetrically formed in the two side walls of the separating rack 3 from front to back, a rotatable first transmission belt 4, a rotatable second transmission belt 5, a rotatable third transmission belt 6 and a rotatable fourth transmission belt 7 are erected in the grooves, and the right ends of the first transmission belt 4, the second transmission belt 5, the rotatable third transmission belt 6 and the rotatable fourth transmission belt 7 are respectively connected with a first lifter 8, a second lifter 9, a third lifter 10 and a fourth lifter 11; the two first transmission belts 4 are fixed with first connecting seats 12 capable of sliding up and down, the top surfaces of the two first connecting seats 12 are provided with slidable first sliding seats 13 through a sliding rail frame, the two first sliding seats 13 are connected through a connecting beam, the two first connecting seats 12 are fixed with first telescopic cylinders 14, the output ends of the first telescopic cylinders 14 are connected with the first sliding seats 13, the two first sliding seats 13 are respectively and rotatably connected with shafts at two ends of a first cross beam 15 through connecting plates, shafts at two ends of the first cross beam 15 respectively penetrate through the connecting plates on the first sliding seats 13 and then are fixed with first swing arms 16, the first swing arms 16 are respectively connected with first swing cylinders 17 arranged on the first sliding seats 13, and a plurality of front separation forks 18 are equidistantly erected on the first cross beam 15; second connecting seats 19 capable of sliding up and down are respectively fixed on the two second transmission belts 5, the top surfaces of the two second connecting seats 19 are connected through a connecting beam, a plurality of groups of first material supporting forks 20 are erected on the connecting beam at equal intervals, and the tops of the plurality of groups of first material supporting forks 20 are positioned at the feed openings of the front knife roll 1 and the rear knife roll 2; third connecting seats 21 capable of sliding up and down are respectively fixed on the two third transmission belts 6, the top surfaces of the two third connecting seats 21 are respectively provided with a slidable second sliding seat 22 through a sliding rail frame, the two second sliding seats 22 are connected through a connecting beam, a second telescopic cylinder 23 is respectively fixed on the two third connecting seats 21, the output end of the second telescopic cylinder 23 is connected with the second sliding seat 22, the two second sliding seats 22 are respectively connected with shafts at two ends of a second cross beam 24 through connecting plates in a rotating manner, second swing arms 25 are respectively fixed after the shafts at two ends of the second cross beam 24 penetrate through the connecting plates on the second sliding seats 22, the second swing arms 25 are respectively connected with second swing cylinders 26 arranged on the second sliding seats 22, a plurality of first rear separation forks 27 are equidistantly arranged on the second cross beam 24, the front side of the second cross beam 24 is connected with two support rods 28 through two vertical sliding rails in a sliding manner, a third beam 29 is erected on the top of the stay 28, a third telescopic cylinder 30 is installed on the second beam 24, the output end of the third telescopic cylinder 30 is fixedly connected with the third beam 29, a plurality of second rear separation forks 31 staggered with the first rear separation forks 27 are equidistantly installed on the third beam 29, and the first rear separation forks 27 and the second rear separation forks 31 are both arranged opposite to the front separation forks 18; fourth connecting seats 32 capable of sliding up and down in the grooves are respectively fixed on the two fourth transmission belts 7, slidable fourth sliding seats 33 are respectively arranged on the top surfaces of the two fourth connecting seats 32 through sliding rail frames, the two fourth sliding seats 33 are connected through a connecting beam, a plurality of groups of second material supporting forks 34 in the same direction as the first rear separating fork 27 are equidistantly arranged on the connecting beam, and a fourth telescopic cylinder 35 connected with the fourth sliding seats 33 is fixed on the fourth connecting seats 32; conveying mechanism is including carrying frame 36, carry frame 36 to go up the equidistance interval and be equipped with many first conveyer belts 37 of front and back transmission, first material fork 20 descends to carry frame 36 is last time with many first conveyer belt 37 is crisscross dodges, carry frame 36 to put on the shelf pressurizing mechanism, carry frame 36 on be equipped with first conveyer belt 37 vertically second conveyer belt 38, second conveyer belt 38 quilt first conveyer belt 37 is separated into the multistage and has the space between the two, be equipped with first crossbearer 39 on the carrying frame 36, install lift cylinder 40 on the first crossbearer 39, lift cylinder 40 top fixed connection second conveyer belt 38 support, be equipped with on the carrying frame 36 and correspond the discharge port 41 of second conveyer belt 38. The first rear separation fork 27 and the second rear separation fork 31 can be separated, so that the sheet material has better separation effect when being separated from particularly adhesive materials; the swinging action of the front separation fork 18, the first rear separation fork 27 and the second rear separation fork 31 avoids the interference between the track when the raw material is inserted and the front knife roll 1 and the rear knife roll 2; the swing rotating shafts driven by the front separating fork 18, the first rear separating fork 27 and the second rear separating fork 31 and the central axis of the mounting beam are not collinear, and the eccentric structure gives way to an upper discharging channel and a lower discharging channel of the first material supporting fork 20, so that discharging is facilitated; when the first material supporting fork 20 descends to the conveying rack 36, the material supporting fork and the plurality of first conveying belts 37 are staggered and avoided, so that the material stacks on the material supporting fork are conveniently supported and discharged by the first conveying belts 37; the first conveying belt 37 is independently detachable, so that maintenance and installation are convenient; the second conveyor belt 38 is divided into a plurality of stages by the first conveyor belt 37, so that the second conveyor belt 38 can lift up to support the stack and discharge the stack from the discharge port 41.

Specifically, the pressurizing mechanism comprises a second cross frame 42, a pressurizing cylinder 43, an upper pressing plate 44 and a lower pressing plate 45, the conveying rack 36 is provided with the second cross frame 42, the pressurizing cylinder 43 is arranged on the second cross frame 42, the upper pressing plate 44 is arranged at the bottom of the pressurizing cylinder 43, the conveying rack 36 is provided with the lower pressing plate 45 which is located under the upper pressing plate 44, and the top surface of the lower pressing plate 45 is tightly attached to the bottom surface of the first conveying belt 37. When the stack is conveyed to the lower pressing plate 45 through the first conveyor belt 37, the pressing cylinder 43 drives the upper pressing plate 44 to press the stack downward, and then the stack is conveyed to the second conveyor belt 38.

Specifically, a transverse shaft is arranged on the top surface of the conveying rack 36, the first conveying belt 37 supports on the two outer sides are clamped on the shaft and can slide, adjusting hand wheels 46 are arranged on the two sides of the conveying rack 36, screw rods 47 are fixedly connected to the adjusting hand wheels 46, and the two screw rods 47 are respectively in threaded connection with the first conveying belt 37 supports on the corresponding outer sides; so that the two outermost first conveying belts 37 can be respectively adjusted by rotating the adjusting handwheel 46, and the discharge of raw materials with different widths is facilitated.

For the convenience of understanding the technical solutions of the present invention, the following detailed description will be made on the working principle or the operation mode of the present invention in the practical process.

The working principle is as follows: the cotton soft towel raw material is discharged from the middle of the front knife roll 1 and the rear knife roll 2 and is folded into a cuboid shape, the first material supporting fork 20 drags the discharged folded semi-finished product, when the preset quantity is reached, the front separation fork 18 is driven by the first telescopic cylinder 14 to move backwards and is driven by the first transmission belt 4 to ascend to the front knife roll 1 to swing under the driving of the first swing cylinder 17 to be inserted into the top of the material stack, meanwhile, the first rear separation fork 27 and the second rear separation fork 31 are driven by the second telescopic cylinder 23 to move forwards and are driven by the third transmission belt 6 to ascend to the rear knife roll 2 to swing under the driving of the second swing cylinder 26 to be inserted into the top of the material stack, then the second rear separation fork 31 and the first material supporting fork 20 move downwards to the conveying rack 36 at the same time under the action of the third telescopic cylinder 30 and the second transmission belt 5 respectively, the material stack with the preset quantity is separated from the semi-finished product continuously discharged from the discharge port, the stack is sent to a pressurizing mechanism through a first conveyer belt 37 to be pressurized and then sent to a second conveyer belt 38, and a lifting cylinder 40 drives the second conveyer belt 38 to lift up to discharge the stack from a discharge port 41; during the period, the front separation fork 18 and the first rear separation fork 27 serve as a temporary material supporting mechanism, meanwhile, the second material supporting fork 34 moves forwards under the driving of the fourth telescopic cylinder 35 and is driven by the fourth transmission belt 7 to ascend, so that the second rear separation fork 31 descends and is supplemented, the second rear separation fork 31 and the first material supporting fork 20 discharge separated material stacks through the conveying mechanism, the separated material stacks upwards return to the original point to drag the material, the front separation fork 18, the first rear separation fork 27, the second rear separation fork 31 and the second material supporting fork 34 reset, a cycle is completed, and the separation and the conveying of cotton soft towels are realized.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (3)

1. A separation conveying device for cotton soft towel production is characterized by comprising a blanking mechanism, a separation mechanism and a conveying mechanism; the blanking mechanism consists of a front knife roller (1) and a rear knife roller (2) which are symmetrically arranged in front and back; the separating mechanism comprises a separating rack (3), wherein four groups of vertical grooves are symmetrically formed in the two side walls of the separating rack (3) from front to back, a rotatable first transmission belt (4), a rotatable second transmission belt (5), a rotatable third transmission belt (6) and a rotatable fourth transmission belt (7) are erected in the grooves in sequence, and the right ends of the first transmission belt (4), the second transmission belt (5), the third transmission belt (6) and the fourth transmission belt (7) are respectively connected with a first lifter (8), a second lifter (9), a third lifter (10) and a fourth lifter (11); the two first transmission belts (4) are respectively fixed with a first connecting seat (12) capable of sliding up and down, the top surfaces of the two first connecting seats (12) are respectively provided with a first sliding seat (13) capable of sliding through a sliding rail frame, the two first sliding seats (13) are connected through a first connecting beam, the two first connecting seats (12) are respectively fixed with a first telescopic cylinder (14), the output end of the first telescopic cylinder (14) is connected with the first sliding seat (13), the two first sliding seats (13) are respectively in rotating connection with shafts at two ends of a first cross beam (15) through connecting plates, the shafts at the two ends of the first beam (15) respectively penetrate through the connecting plates on the first sliding seat (13) and then are fixed with a first swing arm (16), the first swing arms (16) are respectively connected with first swing cylinders (17) arranged on the first sliding seats (13), a plurality of front separating forks (18) are equidistantly arranged on the first cross beam (15); second connecting seats (19) capable of sliding up and down are respectively fixed on the two second transmission belts (5), the top surfaces of the two second connecting seats (19) are connected through a second connecting beam, a plurality of groups of first material supporting forks (20) are erected on the second connecting beam at equal intervals, and the tops of the plurality of groups of first material supporting forks (20) are positioned at the feed openings of the front knife roll (1) and the rear knife roll (2); third connecting seats (21) capable of sliding up and down are respectively fixed on the two third transmission belts (6), the top surfaces of the two third connecting seats (21) are respectively provided with a slidable second sliding seat (22) through a sliding rail frame, the two second sliding seats (22) are connected through a third connecting beam, a second telescopic cylinder (23) is respectively fixed on the two third connecting seats (21), the output end of the second telescopic cylinder (23) is connected with the second sliding seat (22), the two second sliding seats (22) are respectively connected with shafts at the two ends of the second cross beam (24) in a rotating manner through connecting plates, shafts at the two ends of the second cross beam (24) respectively penetrate through the connecting plates on the second sliding seat (22) and then are respectively fixed with second swing arms (25), the second swing arms (25) are respectively connected with second swing cylinders (26) installed on the second sliding seat (22), and a plurality of first rear separation forks (27) are equidistantly installed on the second cross beam (24), the front side of the second cross beam (24) is connected with two support rods (28) in a sliding mode through two vertical slide rails, a third cross beam (29) is erected at the top of each support rod (28), a third telescopic cylinder (30) is installed on the second cross beam (24), the output end of the third telescopic cylinder (30) is fixedly connected with the third cross beam (29), a plurality of second rear separation forks (31) which are staggered with the first rear separation forks (27) are equidistantly installed on the third cross beam (29), and the first rear separation forks (27) and the second rear separation forks (31) are arranged opposite to the front separation forks (18); fourth connecting seats (32) capable of sliding up and down in the grooves are respectively fixed on the two fourth transmission belts (7), slidable fourth sliding seats (33) are arranged on the top surfaces of the two fourth connecting seats (32) through sliding rail frames, the two fourth sliding seats (33) are connected through fourth connecting beams, a plurality of groups of second material supporting forks (34) in the direction consistent with that of the first rear separating fork (27) are arranged on the fourth connecting beams in an equidistant mode, and fourth telescopic air cylinders (35) connected with the fourth sliding seats (33) are fixed on the fourth connecting seats (32); the conveying mechanism comprises a conveying rack (36), a plurality of first conveying belts (37) which are driven forwards and backwards are arranged on the conveying rack (36) at equal intervals, the first material supporting forks (20) are staggered and avoid with the first conveying belts (37) when descending onto the conveying rack (36), a pressurizing mechanism is arranged on the upper frame of the conveying frame (36), a second conveying belt (38) which is vertical to the first conveying belt (37) is arranged on the conveying frame (36), the second conveyor belt (38) is divided into a plurality of sections by the first conveyor belt (37) with a gap therebetween, a first cross frame (39) is arranged on the conveying rack (36), a lifting cylinder (40) is arranged on the first cross frame (39), the top of the lifting cylinder (40) is fixedly connected with the bracket of the second conveying belt (38), the conveyor frame (36) is provided with a discharge port (41) corresponding to the second conveyor belt (38).

2. The separating and conveying device for producing the cotton soft towel is characterized in that the pressurizing mechanism comprises a second cross frame (42), a pressurizing cylinder (43), an upper pressing plate (44) and a lower pressing plate (45), the second cross frame (42) is erected on the conveying rack (36), the pressurizing cylinder (43) is installed on the second cross frame (42), the upper pressing plate (44) is installed at the bottom of the pressurizing cylinder (43), the lower pressing plate (45) located right below the upper pressing plate (44) is installed on the conveying rack (36), and the top surface of the lower pressing plate (45) is tightly attached to the bottom surfaces of the first conveying belts (37).

3. The separating and conveying device for producing the cotton soft towel is characterized in that a transverse shaft is arranged on the top surface of the conveying rack (36), supports of the first conveying belt (37) on the two outer sides are clamped on the shaft and can slide, adjusting hand wheels (46) are arranged on two sides of the conveying rack (36), screw rods (47) are fixedly connected to the adjusting hand wheels (46), and the two screw rods (47) are respectively in threaded connection with the supports of the first conveying belt (37) on the corresponding outer sides.

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