CN210281334U - Manufacturing device for needle selector blade - Google Patents

Abstract

The utility model discloses a manufacturing device of a needle selector blade, which comprises a device shell, a controller, a blade main body feeding mechanism, a blade taking mechanism, a blade seat, a drying mechanism, a magnetism isolating sleeve assembling feeding mechanism, a glue dispensing mechanism and a chassis component, wherein the middle part above the device shell is provided with the chassis component, the blade seat is uniformly distributed on the chassis component, and the controller is arranged below the right part of the upper end surface of the device shell; the upper end surface of the device shell is provided with a blade main body feeding mechanism, a dispensing mechanism, a magnetism isolating sleeve assembling and feeding mechanism, a drying mechanism and a blade material taking mechanism in turn clockwise along the circumference; the controller is electrically connected with the blade main body feeding mechanism, the blade taking mechanism, the drying mechanism, the magnetism isolating sleeve assembling feeding mechanism, the dispensing mechanism and the chassis assembly. The utility model discloses can realize the installation of the magnetism proof cover in the blade main part. The utility model discloses five work steps are accomplished in full-automatic, realize blade main part pay-off, point and glue, magnetism proof sleeve equipment and pay-off, stoving, blade get the process of material, the assembly is stable, and is efficient.

Description

Manufacturing device for needle selector blade

[ technical field ] A method for producing a semiconductor device

The invention relates to the technical field of flat knitting machines, in particular to the technical field of manufacturing devices of needle selector blades.

[ background of the invention ]

A flat knitting machine is a short-term flat knitting machine, belongs to one kind of knitting machinery, and generally refers to a flat knitting machine, that is, a machine for knitting by using a transverse knitting needle bed. The flat knitting machine has the essential parts of a needle selector. The internal electromagnetic spiral tube of the existing needle selector consists of a blade, a magnetic core, a framework, a conducting wire and other parts. The blade is a key component of the needle selector, and therefore, a manufacturing device of the needle selector blade is needed.

[ summary of the invention ]

The invention aims to solve the problems in the prior art and provides a manufacturing device of a needle selector blade, which can realize the installation of a magnetism isolating sleeve on a blade main body. The full-automatic blade feeding and dispensing machine disclosed by the invention can complete five steps in a full-automatic manner, realizes the processes of blade main body feeding, dispensing, magnetism isolating sleeve assembling and feeding, drying and blade material taking, and is stable in assembly and high in efficiency.

In order to achieve the purpose, the invention provides a manufacturing device of a needle selector blade, which comprises a device shell, a controller, a blade main body feeding mechanism, a blade taking mechanism, a blade seat, a drying mechanism, a magnetism isolating sleeve assembling feeding mechanism, a glue dispensing mechanism and a chassis assembly, wherein the middle part above the device shell is provided with the chassis assembly, the blade seat is uniformly distributed on the chassis assembly, and the controller is arranged below the right part of the upper end surface of the device shell; the upper end surface of the device shell is provided with a blade main body feeding mechanism, a dispensing mechanism, a magnetism isolating sleeve assembling and feeding mechanism, a drying mechanism and a blade material taking mechanism in turn clockwise along the circumference; the controller is electrically connected with the blade main body feeding mechanism, the blade taking mechanism, the drying mechanism, the magnetism isolating sleeve assembling feeding mechanism, the dispensing mechanism and the chassis assembly.

Preferably, the controller includes a controller main body and a controller console, and the controller console is mounted with the controller main body.

Preferably, the blade main body feeding mechanism comprises a feeding seat, a feeding frame, a first sliding rail, a first air cylinder sliding block mechanism, a first pneumatic paw and a first infrared sensor, the feeding frame is fixed on the right side of the upper end of the device shell, the feeding seat is fixed on the device shell on the side of the feeding frame, the first sliding rail is transversely arranged at the upper end of the feeding frame, the first air cylinder sliding block mechanism is arranged on the first sliding rail, and the left end of the first air cylinder sliding block mechanism is connected with the end part of the first air cylinder; a first infrared sensor is transversely installed at the right end of the first sliding rail; the first cylinder sliding block mechanism comprises a cylinder, a guide rail and a sliding block, the sliding block is arranged at the end of the cylinder and matched with the guide rail, and a first pneumatic claw is arranged on the sliding block.

Preferably, the blade material taking mechanism comprises a sliding hopper, a sliding hopper upright post, a material taking post, a second slide rail, a second cylinder slider mechanism, a second cylinder, a second infrared sensor and a second pneumatic paw, wherein the material taking post is fixed on the rear side of the upper end surface of the device shell, the sliding hopper upright posts with the number of 2 are fixed on the device shell on the right side of the material taking post, the sliding hopper is installed at the upper end of the sliding hopper upright post, and the cross section of the sliding hopper is Contraband-shaped; a second sliding rail is transversely arranged at the upper end of the material taking column, a second cylinder sliding block mechanism is arranged on the second sliding rail, and the left end of the second cylinder sliding block mechanism is connected with the end part of a second cylinder; a second infrared sensor is transversely arranged at the right end of the second slide rail; the second cylinder sliding block mechanism comprises a cylinder, a guide rail and a sliding block, the sliding block is arranged at the end part of the cylinder and matched with the guide rail, and a second pneumatic claw is arranged on the sliding block.

Preferably, the number of the blade seats is 6, the blade seats are uniformly distributed on the chassis assembly, mounting holes are symmetrically formed in the left side and the right side of each blade seat, blade grooves are vertically formed in the blade seats, and pin holes are symmetrically formed in the upper side and the lower side of each blade seat.

Preferably, the drying mechanism comprises a drying frame rod, a third air cylinder and an electric heating block, the drying frame rod is fixed on the left side of the upper end face of the device shell, a square connecting block is sleeved on the drying frame rod, the third air cylinder is installed between the square connecting blocks, the electric heating block is installed at the lower end of the third air cylinder, a plurality of through holes are formed in the electric heating block, and an electric heating rod is matched in the through holes of the electric heating block.

Preferably, the magnetism isolating sleeve assembling and feeding mechanism comprises a fourth cylinder, a fifth cylinder, a storage bin, a sixth cylinder, a third slide rail, a seventh cylinder, a third infrared sensor, a clamping jaw and a base, wherein the base is fixed on the lower left side of the upper end face of the device shell, the storage bin is arranged on the lower side of the upper end of the base, the third slide rail is transversely arranged at the upper end of the base, the sixth cylinder is arranged on the third slide rail, the left end of the sixth cylinder is connected with the end part of the fourth cylinder, and the clamping jaw is arranged at the lower end of the sixth cylinder; a third infrared sensor is transversely arranged at the right end of the third slide rail; the base upper end is opened there is the spout, and the spout is L type groove, and the base upper end transversely is equipped with the fifth cylinder, and the base upper end vertically is equipped with the seventh cylinder.

Preferably, the dispensing mechanism comprises an eighth cylinder, a dispensing pipe and a dispensing upright rod, the dispensing upright rod is fixed on the lower right side of the upper end face of the device shell, the dispensing upright rod is an L-shaped rod, the dispensing upright rod is vertically provided with the eighth cylinder, and the end part of the eighth cylinder is provided with the dispensing pipe.

Preferably, the chassis component comprises a chassis, a worm and gear transmission mechanism, a belt transmission mechanism and a motor, the worm and gear transmission mechanism is fixed on the upper end surface of the device shell, the output shaft of the worm and gear transmission mechanism is matched with the chassis, and the chassis is a circular thin plate; the motor is fixed on a partition plate inside the device shell, and an output shaft of the motor is connected with a worm gear transmission mechanism through a belt transmission mechanism.

The invention has the beneficial effects that: the invention can realize the installation of the magnetism isolating sleeve on the blade main body. The full-automatic blade feeding and dispensing machine disclosed by the invention can complete five steps in a full-automatic manner, realizes the processes of blade main body feeding, dispensing, magnetism isolating sleeve assembling and feeding, drying and blade material taking, and is stable in assembly and high in efficiency.

The features and advantages of the present invention will be described in detail by embodiments in conjunction with the accompanying drawings.

[ description of the drawings ]

FIG. 1 is a first schematic perspective view of a needle selector blade manufacturing apparatus according to the present invention;

fig. 2 is a plan view of a selector blade manufacturing apparatus of the present invention;

FIG. 3 is a schematic perspective view of a second embodiment of a device for manufacturing a selector blade according to the present invention;

FIG. 4 is a first schematic perspective view of a first feeding mechanism of a blade body of the device for manufacturing a needle selector blade according to the present invention;

FIG. 5 is a schematic perspective view of a second feeding mechanism for a blade body of the device for manufacturing a needle selector blade according to the present invention;

FIG. 6 is a schematic perspective view of a blade taking mechanism of the device for manufacturing a selector blade according to the present invention;

fig. 7 is a plan view of a blade holder of the selector blade manufacturing apparatus of the present invention;

FIG. 8 is a schematic perspective view of a drying mechanism of the device for producing a selector blade according to the present invention;

FIG. 9 is a first schematic perspective view of a magnetic shield assembling and feeding mechanism of a needle selector blade manufacturing device of the present invention;

FIG. 10 is a second schematic perspective view of a magnetic shield assembling and feeding mechanism of the device for manufacturing a needle selector blade of the present invention;

FIG. 11 is a schematic perspective view of a controller and a dispensing mechanism of the device for manufacturing a selector blade according to the present invention;

fig. 12 is a schematic perspective view of a chassis unit of a selector blade manufacturing apparatus according to the present invention.

In the figure: 1-device shell, 2-controller, 21-controller main body, 22-controller table, 3-blade main body feeding mechanism, 31-feeding seat, 32-feeding frame, 33-first slide rail, 34-first air cylinder, 35-first air cylinder slide block mechanism, 36-first air hand claw, 37-first infrared sensor, 4-blade taking mechanism, 41-sliding hopper, 42-sliding hopper upright post, 43-taking column, 44-second slide rail, 45-second air cylinder slide block mechanism, 46-second air cylinder, 47-second infrared sensor, 48-second air hand claw, 5-blade seat, 51-mounting hole, 52-blade groove, 53-pin hole, 6-drying mechanism, 61-drying rack rod, 62-third cylinder, 63-electric heating block, 7-magnetism isolating sleeve assembling and feeding mechanism, 71-fourth cylinder, 72-fifth cylinder, 73-storage bin, 74-sixth cylinder, 75-third slide rail, 76-seventh cylinder, 77-third infrared sensor, 78-claw, 79-chute, 710-base, 8-glue dispensing mechanism, 81-eighth cylinder, 82-glue dispensing tube, 83-glue dispensing upright rod, 9-chassis component, 91-chassis, 92-worm and gear transmission mechanism, 93-belt transmission mechanism and 94-motor.

[ detailed description ] embodiments

Referring to fig. 1-12, the device comprises a device shell 1, a controller 2, a blade main body feeding mechanism 3, a blade taking mechanism 4, a blade seat 5, a drying mechanism 6, a magnetism isolating sleeve assembling feeding mechanism 7, a glue dispensing mechanism 8 and a chassis assembly 9, wherein the chassis assembly 9 is arranged in the middle of the upper part of the device shell 1, the blade seat 5 is uniformly distributed on the chassis assembly 9, and the controller 2 is arranged below the right side of the upper end face of the device shell 1; the upper end surface of the device shell 1 is provided with a blade main body feeding mechanism 3, a glue dispensing mechanism 8, a magnetism isolating sleeve assembling and feeding mechanism 7, a drying mechanism 6 and a blade material taking mechanism 4 in turn in a clockwise direction; the controller 2 is electrically connected with the blade main body feeding mechanism 3, the blade taking mechanism 4, the drying mechanism 6, the magnetism isolating sleeve assembling feeding mechanism 7, the glue dispensing mechanism 8 and the chassis assembly 9.

Specifically, the controller 2 includes a controller main body 21 and a controller table 22, and the controller main body 21 is mounted on the controller table 22.

Specifically, the blade main body feeding mechanism 3 comprises a feeding seat 31, a feeding frame 32, a first slide rail 33, a first air cylinder 34, a first air cylinder slide block mechanism 35, a first pneumatic gripper 36 and a first infrared sensor 37, wherein the feeding frame 32 is fixed on the right side of the upper end of the device shell 1, the feeding seat 31 is fixed on the device shell 1 on the side of the feeding frame 32, the first slide rail 33 is transversely arranged at the upper end of the feeding frame 32, the first air cylinder slide block mechanism 35 is arranged on the first slide rail 33, and the left end of the first air cylinder slide block mechanism 35 is connected with the end part of the first air cylinder 34; a first infrared sensor 37 is transversely installed at the right end of the first slide rail 33; the first cylinder slide block mechanism 35 comprises a cylinder, a guide rail and a slide block, the end of the cylinder is provided with the slide block, the slide block is matched on the guide rail, and the slide block is provided with a first pneumatic claw 36.

Specifically, the blade material taking mechanism 4 comprises a sliding hopper 41, a sliding hopper upright post 42, a material taking column 43, a second slide rail 44, a second cylinder slider mechanism 45, a second cylinder 46, a second infrared sensor 47 and a second pneumatic paw 48, wherein the material taking column 43 is fixed on the rear side of the upper end surface of the device shell 1, the sliding hopper upright posts 42 with the number of 2 are fixed on the device shell 1 on the right side of the material taking column 43, the sliding hopper 41 is installed at the upper end of the sliding hopper upright post 42, and the cross section of the sliding hopper 41 is Contraband-shaped; a second slide rail 44 is transversely arranged at the upper end of the material taking column 43, a second cylinder slide block mechanism 45 is arranged on the second slide rail 44, and the left end of the second cylinder slide block mechanism 45 is connected with the end part of a second cylinder 46; a second infrared sensor 47 is transversely installed at the right end of the second slide rail 44; the second cylinder and slide block mechanism 45 comprises a cylinder, a guide rail and a slide block, the end of the cylinder is provided with the slide block, the slide block is matched on the guide rail, and the slide block is provided with a second pneumatic claw 48.

Specifically, the number of the blade seats 5 is 6, the blade seats 5 are uniformly distributed on the chassis assembly 9, the blade seats 5 are symmetrically provided with mounting holes 51 at left and right sides, the blade seats 5 are vertically provided with blade grooves 52, and the blade seats 5 are symmetrically provided with pin holes 53 at upper and lower sides.

Specifically, drying mechanism 6 includes drying rack pole 61, third cylinder 62 and electric heat piece 63, and drying rack pole 61 is fixed in the left side of the 1 up end of device casing, and the cover is equipped with square connecting block on the drying rack pole 61, installs third cylinder 62 between the square connecting block, and electric heat piece 63 is installed to third cylinder 62 lower extreme, is equipped with a plurality of through-holes on the electric heat piece 63, and the through-hole fit of electric heat piece 63 has the electric heat stick.

Specifically, the magnetism isolating sleeve assembling and feeding mechanism 7 comprises a fourth cylinder 71, a fifth cylinder 72, a storage bin 73, a sixth cylinder 74, a third slide rail 75, a seventh cylinder 76, a third infrared sensor 77, a jaw 78 and a base 710, wherein the base 710 is fixed on the left lower side of the upper end surface of the device shell 1, the storage bin 73 is arranged on the lower side of the upper end of the base 710, the third slide rail 75 is transversely arranged on the upper end of the base 710, the sixth cylinder 74 is arranged on the third slide rail 75, the left end of the sixth cylinder 74 is connected with the end part of the fourth cylinder 71, and the jaw 78 is arranged at the lower end of the sixth cylinder 74; a third infrared sensor 77 is transversely arranged at the right end of the third slide rail 75; the upper end of the base 710 is provided with a sliding groove 79, the sliding groove 79 is an L-shaped groove, the upper end of the base 710 is transversely provided with a fifth cylinder 72, and the upper end of the base 710 is longitudinally provided with a seventh cylinder 76.

Specifically, the dispensing mechanism 8 includes eighth cylinder 81, dispensing tube 82 and dispensing upright rod 83, the dispensing upright rod 83 is fixed in the lower right side of the upper end surface of the device shell 1, the dispensing upright rod 83 is an L-shaped rod, the dispensing upright rod 83 is vertically provided with an eighth cylinder 81, and the dispensing tube 82 is installed at the end part of the eighth cylinder 81.

Specifically, the chassis assembly 9 includes a chassis 91, a worm gear transmission mechanism 92, a belt transmission mechanism 93 and a motor 94, the worm gear transmission mechanism 92 is fixed on the upper end surface of the device housing 1, an output shaft of the worm gear transmission mechanism 92 is matched with the chassis 91, and the chassis 91 is a circular thin plate; the motor 94 is fixed on a partition plate inside the device housing 1, and an output shaft of the motor 94 is connected with a worm gear transmission mechanism 92 through a belt transmission mechanism 93.

The working process of the invention is as follows:

the manufacturing device of the needle selector blade is explained in the working process by combining the attached drawings.

All electronic components of the device are externally connected with a power supply, and all cylinders are externally connected with an air source and are controlled to be switched by air valves. The chassis component 9 drives the belt transmission mechanism 93 to move through the rotation of the motor 94, the belt transmission mechanism 93 drives the worm gear transmission mechanism 92 to move, and finally the chassis 91 is driven to rotate; the worm gear transmission mechanism 92 is a worm gear reducer; the chassis 91 rotates at a constant speed, so that the blade main body on the blade seat 5 sequentially completes the operations of feeding, dispensing, assembling and feeding the magnetism isolating sleeve, drying and taking the blade. Feeding the blade main body: the cylinder of the first cylinder slide block mechanism 35 acts, and the first pneumatic claw 36 moves downwards; the first pneumatic gripper 36 acts to grip the blade body; the cylinder of the first cylinder slide block mechanism 35 acts, and the first pneumatic claw 36 moves upwards; the blade body is moved forward by the action of the first cylinder 34; the cylinder of the first cylinder slide block mechanism 35 acts, and the first pneumatic claw 36 moves downwards; the first pneumatic gripper 36 acts to release the blade body; thereby completing the feeding of the blade body. Dispensing: the eighth cylinder 81 moves to move the dispensing tube 82 downward, thereby completing dispensing. Assembling and feeding the magnetic isolation sleeve: the Contraband-shaped magnetism isolating sleeve is ejected out to the intersection of the sliding grooves 79 by the seventh air cylinder 76, and the rectangular magnetic block is assembled into the groove of the Contraband-shaped magnetism isolating sleeve by the fifth air cylinder 72; the sixth cylinder 74 is actuated so that the claw 78 catches on the magnetic shield and moves to the blade body, where it is glued by dispensing. Drying: the third cylinder 62 acts to move the electric heating block 63 downwards, thereby realizing drying. Taking materials by a blade: the blade material taking principle is similar to the feeding of the blade main body, and is the reverse process.

According to the invention, the installation of the magnetism isolating sleeve on the blade main body can be realized. The full-automatic blade feeding and dispensing machine disclosed by the invention can complete five steps in a full-automatic manner, realizes the processes of blade main body feeding, dispensing, magnetism isolating sleeve assembling and feeding, drying and blade material taking, and is stable in assembly and high in efficiency.

The above embodiments are illustrative of the present invention, and are not intended to limit the present invention, and any simple modifications of the present invention are within the scope of the present invention.

Claims (9)

1. A manufacturing device of a needle selector blade is characterized in that: the device comprises a device shell (1), a controller (2), a blade main body feeding mechanism (3), a blade taking mechanism (4), a blade seat (5), a drying mechanism (6), a magnetism isolating sleeve assembling feeding mechanism (7), a glue dispensing mechanism (8) and a chassis assembly (9), wherein the chassis assembly (9) is arranged in the middle of the upper part of the device shell (1), the blade seat (5) is uniformly distributed on the chassis assembly (9), and the controller (2) is arranged below the right side of the upper end face of the device shell (1); the upper end surface of the device shell (1) is provided with a blade main body feeding mechanism (3), a glue dispensing mechanism (8), a magnetism isolating sleeve assembling and feeding mechanism (7), a drying mechanism (6) and a blade taking mechanism (4) in sequence in a clockwise direction; the controller (2) is electrically connected with the blade main body feeding mechanism (3), the blade taking mechanism (4), the drying mechanism (6), the magnetism isolating sleeve assembling feeding mechanism (7), the glue dispensing mechanism (8) and the chassis assembly (9).

2. The selector blade producing device according to claim 1, wherein: the controller (2) comprises a controller main body (21) and a controller platform (22), and the controller main body (21) is installed on the controller platform (22).

3. The selector blade producing device according to claim 1, wherein: the blade main body feeding mechanism (3) comprises a feeding seat (31), a feeding frame (32), a first sliding rail (33), a first air cylinder (34), a first air cylinder sliding block mechanism (35), a first pneumatic paw (36) and a first infrared sensor (37), the feeding frame (32) is fixed on the right side of the upper end of the device shell (1), the feeding seat (31) is fixed on the device shell (1) on the side edge of the feeding frame (32), the first sliding rail (33) is transversely arranged at the upper end of the feeding frame (32), the first air cylinder sliding block mechanism (35) is arranged on the first sliding rail (33), and the left end of the first air cylinder sliding block mechanism (35) is connected with the end part of the first air cylinder (34); a first infrared sensor (37) is transversely installed at the right end of the first sliding rail (33); the first cylinder slide block mechanism (35) comprises a cylinder, a guide rail and a slide block, the end of the cylinder is provided with the slide block, the slide block is matched on the guide rail, and the slide block is provided with a first pneumatic paw (36).

4. The selector blade producing device according to claim 1, wherein: the blade material taking mechanism (4) comprises a sliding hopper (41), a sliding hopper upright post (42), a material taking column (43), a second sliding rail (44), a second cylinder slider mechanism (45), a second cylinder (46), a second infrared sensor (47) and a second pneumatic paw (48), wherein the material taking column (43) is fixed on the rear side of the upper end face of the device shell (1), the sliding hopper upright posts (42) with the number of 2 are fixed on the device shell (1) on the right side of the material taking column (43), the sliding hopper (41) is installed at the upper end of the sliding hopper upright post (42), and the cross section of the sliding hopper (41) is Contraband-shaped; a second sliding rail (44) is transversely arranged at the upper end of the material taking column (43), a second air cylinder sliding block mechanism (45) is arranged on the second sliding rail (44), and the left end of the second air cylinder sliding block mechanism (45) is connected with the end part of a second air cylinder (46); a second infrared sensor (47) is transversely installed at the right end of the second sliding rail (44); the second cylinder slide block mechanism (45) comprises a cylinder, a guide rail and a slide block, the end part of the cylinder is provided with the slide block, the slide block is matched on the guide rail, and a second pneumatic claw (48) is arranged on the slide block.

5. The selector blade producing device according to claim 1, wherein: the quantity of blade seat (5) is 6, and blade seat (5) equipartition is on chassis subassembly (9), and bilateral symmetry is opened on blade seat (5) has mounting hole (51), and vertical opening has blade groove (52) on blade seat (5), and blade seat (5) longitudinal symmetry is opened has pinhole (53).

6. The selector blade producing device according to claim 1, wherein: drying mechanism (6) are including drying hack lever (61), third cylinder (62) and electric heat piece (63), and drying hack lever (61) are fixed in the left side of device casing (1) up end, and the cover is equipped with square connecting block on drying hack lever (61), installs third cylinder (62) between the square connecting block, and electric heat piece (63) are installed to third cylinder (62) lower extreme, are equipped with a plurality of through-holes on electric heat piece (63), and the through-hole fit of electric heat piece (63) has the electric heat stick.

7. The selector blade producing device according to claim 1, wherein: the magnetic isolation sleeve assembling and feeding mechanism (7) comprises a fourth cylinder (71), a fifth cylinder (72), a storage bin (73), a sixth cylinder (74), a third slide rail (75), a seventh cylinder (76), a third infrared sensor (77), a clamping jaw (78) and a base (710), wherein the base (710) is fixed on the left lower side of the upper end surface of the device shell (1), the storage bin (73) is arranged on the lower side of the upper end of the base (710), the third slide rail (75) is transversely arranged at the upper end of the base (710), the sixth cylinder (74) is arranged on the third slide rail (75), the left end of the sixth cylinder (74) is connected with the end part of the fourth cylinder (71), and the clamping jaw (78) is arranged at the lower end of the sixth cylinder (74); a third infrared sensor (77) is transversely arranged at the right end of the third slide rail (75); the upper end of the base (710) is provided with a sliding groove (79), the sliding groove (79) is an L-shaped groove, the upper end of the base (710) is transversely provided with a fifth cylinder (72), and the upper end of the base (710) is longitudinally provided with a seventh cylinder (76).

8. The selector blade producing device according to claim 1, wherein: glue dispensing mechanism (8) are including eighth cylinder (81), point gluey pipe (82) and point gluey pole setting (83), point gluey pole setting (83) are fixed in the right downside of device casing (1) up end, and point gluey pole setting (83) are L type pole, and the point is glued and is gone up vertically in pole setting (83) and be equipped with eighth cylinder (81), and the tip installation of eighth cylinder (81) is some gluey pipe (82).

9. The selector blade producing device according to claim 1, wherein: the chassis assembly (9) comprises a chassis (91), a worm gear transmission mechanism (92), a belt transmission mechanism (93) and a motor (94), the worm gear transmission mechanism (92) is fixed on the upper end face of the device shell (1), the chassis (91) is matched on an output shaft of the worm gear transmission mechanism (92), and the chassis (91) is a circular thin plate; the motor (94) is fixed on a partition plate in the device shell (1), and an output shaft of the motor (94) is connected with a worm gear transmission mechanism (92) through a belt transmission mechanism (93).

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