CN112981928A - Large-diameter double-servo double-step slitter with high production effect - Google Patents

Abstract

The invention discloses a large-diameter double-servo double-step slitter with high production effect, which comprises a slitter matrix, wherein a fixed plate is welded in the middle of the top end of the slitter matrix, one side of the top end of the fixed plate is equidistantly connected with a connecting joint, a cutting assembly is equidistantly installed at one end edge of the fixed plate, the cutting assembly comprises a pneumatic cutting knife, an air pipe, a movable semicircular ring and an air pipe joint, the cloth can be conveniently cut through the pneumatic cutting knife and the air pipe, the cutting difficulty of the cloth is reduced, meanwhile, the air pipe can be conveniently limited by using a bottom protection plate, a top protection plate and a fixing screw, the position of the air pipe is prevented from moving, further, the shaking of the air pipe during operation is reduced, and meanwhile, the air pipe joint can be conveniently fixed by using a main bearing, a main threaded rod, a disc, a belt, the phenomenon that the air pipe joint and the connecting joint fall off is prevented.

Description

Large-diameter double-servo double-step slitter with high production effect

Technical Field

The invention relates to the technical field of machining, in particular to a large-diameter double-servo double-step slitter with a high production effect.

Background

The cutting machine is a main device for cutting, cuts and arranges raw materials with large width and large diameter by fixed width, and then rewinds the raw materials into finished rolls with uniform inside and outside, and has the main task of cutting the whole raw materials into a plurality of widths which meet the specification of a user, cutting off burrs, and controlling the roll diameter of the finished rolls to enable the finished rolls to meet the outgoing specification;

therefore, the Chinese patent discloses a full-automatic wire aligning air knife slitting machine with application number 201620957180.7, the design of the utility model can realize that the same batching can cut cloth strips with different line widths, and the cutting can be carried out simultaneously, thereby saving a large amount of production cost and labor;

however, the air knife is prone to causing the phenomenon that the air pipe shakes during use, so that the phenomenon that the air pipe and the connecting plate fall off is caused, and the air knife cannot be used normally.

Disclosure of Invention

The invention provides a large-diameter double-servo double-step slitter with high production effect, which can effectively solve the problem that an air knife cannot be normally used due to the falling off phenomenon between an air pipe and a connecting plate caused by the phenomenon that the air pipe is easy to shake in the use process of the air knife in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a large-diameter double-servo double-step slitter with a high production effect comprises a slitter matrix, wherein a fixed plate is welded in the middle of the top end of the slitter matrix, one side of the top end of the fixed plate is connected with a connecting joint in an equidistance manner, a cutting assembly is installed on one end edge of the fixed plate in an equidistance manner, and the cutting assembly comprises a pneumatic cutting knife, an air pipe, a bottom protection plate, a top protection plate, a fixing screw, a main bearing, a main threaded rod, a disc, a belt, a threaded sleeve, a movable semicircular ring and an;

pneumatic cutting knives are equidistantly installed on the edge portion of one end of the fixed plate, an air pipe is fixedly installed on one side of the top end of each pneumatic cutting knife, a bottom protection plate is cast at the bottom of the outer surface of the air pipe corresponding to the top end of each pneumatic cutting knife, a top protection plate is connected to the top end of each bottom protection plate, located on the top of the outer surface of the air pipe in a sleeved mode, and fixing screws are installed on the two sides of the outer surfaces of the top;

the utility model discloses a pneumatic conveyor belt, including top guard plate and bottom guard plate, the equal distance symmetrical welding of top guard plate and bottom guard plate bottom limit portion has the base bearing, base bearing inner wall limit portion joint has main threaded rod, the disc has been cup jointed at main threaded rod surface middle part, the belt has been cup jointed to the disc surface, threaded sleeve has been cup jointed to main threaded rod surface bottom, threaded sleeve bottom middle part welding has the removal semicircle ring, trachea one end is connected with the trachea joint.

Preferably, the air pipe is connected with the connecting joint through an air pipe joint, and the air pipe joint and the connecting joint are fixed through a movable semicircular ring in an extruding mode.

Preferably, the main bearing inner ring is connected with the main threaded rod in a clamping mode, and the main bearing outer ring is connected with the top protection plate in a welding mode.

Limiting mechanisms are equidistantly mounted on one side of the inner wall of the slitter base body and comprise L-shaped fixing plates, fixing sleeves, reset springs, T-shaped cylinders, circular rings, extrusion rollers, notches, positioning columns, movable T-shaped plates, semicircular grooves, connecting strips and extrusion screws;

the strip cutting machine is characterized in that L-shaped fixing plates are equidistantly installed on one side of the inner wall of a matrix of the strip cutting machine, fixing sleeves are symmetrically welded on two sides of the bottom end of each L-shaped fixing plate, a reset spring is arranged between the inner wall of each fixing sleeve and each L-shaped fixing plate, a T-shaped cylinder is connected to the position, located on the edge of the bottom end of each reset spring, of the inner wall of each fixing sleeve, a circular ring is welded in the middle of the bottom end of each T-shaped cylinder;

a notch is formed in the bottom of one end of the L-shaped fixing plate, a positioning column is welded in the middle of the inner wall of the notch, a movable T-shaped plate is symmetrically sleeved on the outer surface of the positioning column, which is located inside the notch, and a semicircular groove is formed in the position, where the edge of one end of the movable T-shaped plate is located on the inner wall of the L-shaped fixing plate;

the movable T-shaped plate is characterized in that a connecting strip is welded at the position, located at the middle of one end of the L-shaped fixing plate, of one end of the movable T-shaped plate, and the top and the bottom of one end of the connecting strip are both connected with an extrusion screw through threads.

Preferably, the movable T-shaped plate and the L-shaped fixing plate are limited through connecting strips, and the connecting strips, the L-shaped fixing plate and the L-shaped fixing plate are fixed through extrusion screws in an extruding mode.

The two sides of the outer surface of the matrix of the slitter are symmetrically welded with connecting mechanisms, the connecting mechanisms comprise fixed blocks, positioning grooves, limiting grooves, moving grooves, driven threaded rods, worms, worm wheels, connecting rods, limiting blocks, sliding blocks and screw rods,

the fixed blocks are symmetrically welded on two sides of the outer surface of the matrix of the slitter, a positioning groove is formed in one side of the front surface of each fixed block, a limiting groove is formed in the middle position of one end of each fixed block, which corresponds to one end of each positioning groove, moving grooves are formed in the positions, which correspond to the top end and the bottom end of each limiting groove, of the front surface of each fixed block, and a driven threaded rod is rotatably connected;

a worm is welded in the middle of one end of the threaded rod, a worm wheel is meshed and connected with the bottom of the outer surface of the worm, a connecting rod is welded in the middle of the back of the worm wheel, and a limiting block is welded at the position, corresponding to the outer surface of the connecting rod, of the bottom end of the fixing block;

the sliding block is sleeved at the position, located in the middle of the inner wall of the limiting groove, of the outer surface of the slave threaded rod, the front side of the sliding block is rotatably connected with the position, corresponding to the middle of the inner wall of the moving groove, of the sliding groove, and the back side of the sliding block is connected with the material placing frame in a welding mode.

Preferably, the outer surface of the sliding block and the inner wall of the limiting groove are mutually attached, and the sliding block is located in the limiting groove.

The cleaning mechanism comprises a fixed rod, a positioning block, a secondary bearing, an auxiliary threaded rod, a T-shaped block, a supporting rod, a motor, a cutting wheel, a limiting strip, a positioning strip, a fan, a metal corrugated pipe, an air suction cover and a filter bag;

the front and the back of the feeding frame are fixedly provided with fixed rods close to one end of a matrix of the slitter, the middle parts of the inner walls of the fixed rods are fixedly provided with positioning blocks, driven bearings are welded at two ends of each positioning block, auxiliary threaded rods are welded on the inner walls of the driven bearings, and T-shaped blocks are sleeved on the outer surfaces of the auxiliary threaded rods;

a support rod is welded at the position, located in the middle of the top end of the fixed rod, of the top end of the T-shaped block, a motor is fixedly installed in the middle of the top end of the support rod, and an output shaft of the motor is connected with a cutting wheel through a flat key;

the utility model discloses a fan filter bag, including dead lever, fan bottom, fan top, fan cover, fan bottom, fan, dead lever one end limit portion is connected with spacing, spacing one end limit portion fixed mounting has the location strip, the positive middle part fixed mounting of location strip has the fan, fan top middle part is connected with corrugated metal pipe, corrugated metal pipe one end is connected with the cover that induced drafts, fan bottom limit portion is connected.

Preferably, the input of motor and fan all with the output electric connection of commercial power, motor and bracing piece junction fixed mounting has the motor cabinet.

Preferably, the rotating direction of the cutting wheel is opposite to the moving direction of the cloth, the air suction cover is conical, and the diameter of the air suction cover close to the outer surface of the cutting wheel is larger than that of the other end of the air suction cover.

Compared with the prior art, the invention has the beneficial effects that: the invention has scientific and reasonable structure and safe and convenient use:

1. through pneumatic cutting knife, the trachea, can be convenient for tailor the cloth, the degree of difficulty of tailorring of cloth has been reduced, utilize the bottom guard plate simultaneously, top guard plate and set screw, can be convenient for carry on spacingly to the trachea, prevent that tracheal position from taking place the phenomenon of removal, and then rock when having reduced the trachea operation, utilize the base bearing simultaneously, the main threaded rod, the disc, the belt, threaded sleeve and removal semicircle ring, the tracheal joint of can being convenient for fixes, prevent to take place the phenomenon that drops between tracheal joint and the attach fitting, and then make the tracheal joint and the attach fitting between be connected more stable, and then make pneumatic cutting knife can normal use.

2. Through L type fixed plate, fixed sleeving, reset spring, T type cylinder, the ring, the squeeze roll, the notch, can be convenient for extrude the cloth after the rolling, thereby make the cloth laminating after the rolling inseparabler, utilize the reference column simultaneously, remove T template, the half slot, connecting strip and extrusion screw, can be convenient for carry on spacingly to the cloth when collecting, the cloth after preventing to collect produces in disorder phenomenon, and then reduced the later stage personnel and arrange in order required time to the cloth after the rolling.

3. Through fixed block, constant head tank, spacing groove, shifting chute, from threaded rod, worm wheel, connecting rod, stopper and slider, the position of the blowing frame of can being convenient for is adjusted, has reduced the regulation degree of difficulty of blowing frame position, can fix the blowing frame after adjusting simultaneously, and two rotate through turbine, worm and connecting rod synchronous rotation from between the threaded rod moreover to reduce personnel and rotate the required time from the threaded rod.

4. The fixing rod, the positioning block, the slave bearing, the auxiliary threaded rod, the T-shaped block, the supporting rod, the motor, the cutting wheel, the limiting strip, the positioning strip, the fan, the metal corrugated pipe, the air suction cover and the filter bag can be used for conveniently cutting the plush on the edge of the cloth, the cutting difficulty of the plush on the edge of the cloth is reduced, meanwhile, the cut plush can be adsorbed and collected, and the collection difficulty of the plush is reduced.

In conclusion, the cutting assembly can be used for conveniently cutting the cloth and simultaneously fixing the air pipe, so that the pneumatic cutting knife in the cutting assembly can normally operate, the wound cloth can be conveniently extruded through the limiting mechanism, the wound cloth is more tightly attached, the wound cloth can be limited, the wound cloth is prevented from being staggered, the time for finishing the wound cloth by later personnel is reduced, the distance between the slitter base body and the discharging frame can be conveniently sleeved through the connecting mechanism, the difficulty in adjusting the distance between the slitter base body and the discharging frame is reduced, the adjusted discharging frame can be conveniently fixed, the cleaning mechanism can be used for conveniently cleaning the lint on the edge of the cloth, and the difficulty in cleaning the lint on the surface of the cloth is reduced, meanwhile, the cleaned plush can be collected.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

In the drawings:

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

FIG. 2 is a schematic view of the mounting structure of the connector fitting of the present invention;

FIG. 3 is a schematic view of the construction of the cutting assembly of the present invention;

FIG. 4 is a schematic view of the belt installation of the present invention;

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

FIG. 6 is a schematic view of the mounting structure of the slider of the present invention;

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

FIG. 8 is a schematic view of the mounting structure of the cutting wheel of the present invention;

FIG. 9 is a schematic structural view of the spacing mechanism of the present invention;

FIG. 10 is a schematic view of the positioning post mounting structure of the present invention;

FIG. 11 is a schematic view of the mounting structure of the return spring of the present invention;

reference numbers in the figures: 1. a matrix of the slitter; 2. a fixing plate;

3. a cutting assembly; 301. a pneumatic cutter; 302. an air tube; 303. a bottom guard plate; 304. a top guard plate; 305. a set screw; 306. a main bearing; 307. a main threaded rod; 308. a disc; 309. a belt; 310. a threaded bushing; 311. moving the semicircular ring; 312. a gas pipe joint;

4. connecting a joint;

5. a limiting mechanism; 501. an L-shaped fixing plate; 502. fixing the sleeve; 503. a return spring; 504. a T-shaped cylinder; 505. a circular ring; 506. a squeeze roll; 507. a notch; 508. a positioning column; 509. moving the T-shaped plate; 510. a semicircular groove; 511. a connecting strip; 512. extruding the screw;

6. a connecting mechanism; 601. a fixed block; 602. positioning a groove; 603. a limiting groove; 604. a moving groove; 605. a slave threaded rod; 606. a worm; 607. a worm gear; 608. a connecting rod; 609. a limiting block; 610. a slider;

7. a cleaning mechanism; 701. fixing the rod; 702. positioning blocks; 703. a slave bearing; 704. an auxiliary threaded rod; 705. a T-shaped block; 706. a support bar; 707. a motor; 708. a cutting wheel; 709. a limiting strip; 710. a positioning bar; 711. a fan; 712. a metal bellows; 713. an air suction hood; 714. a filter bag;

8. and a material placing frame.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example (b): as shown in fig. 1-11, the invention provides a technical scheme, a large-diameter double-servo double-step slitter with high production effect comprises a slitter matrix 1, wherein a fixed plate 2 is welded in the middle of the top end of the slitter matrix 1, one side of the top end of the fixed plate 2 is connected with a connecting joint 4 at equal intervals, a cutting assembly 3 is installed at one end edge of the fixed plate 2 at equal intervals, and the cutting assembly 3 comprises a pneumatic cutting knife 301, an air pipe 302, a bottom protection plate 303, a top protection plate 304, a fixing screw 305, a main bearing 306, a main threaded rod 307, a disc 308, a belt 309, a threaded sleeve 310, a movable semicircular ring 311 and an air pipe;

pneumatic cutting knives 301 are equidistantly installed on the edge portion of one end of the fixing plate 2, an air pipe 302 is fixedly installed on one side of the top end of each pneumatic cutting knife 301, the air pipe 302 is connected with the connecting joint 4 through an air pipe joint 312, the air pipe joint 312 and the connecting joint 4 are extruded and fixed through a movable semicircular ring 311, connection between the air pipe joint 312 and the connecting joint 4 can be facilitated, meanwhile, transition can be conducted on the connected air pipe joint 312 and the connecting joint 4, a bottom protection plate 303 is formed in the position, corresponding to the bottom of the outer surface of the air pipe 302, of the top end of the pneumatic cutting knife 301, a top protection plate 304 is connected to the top of the outer surface of the air pipe 302 in a sleeved mode at the top;

the equal equidistance symmetrical welding of top guard plate 304 and bottom guard plate 303 bottom limit portion has main bearing 306, the joint is connected between main bearing 306 inner circle and the main threaded rod 307, welded connection between main bearing 306 outer lane and the top guard plate 304, the rotation of main threaded rod 307 of can being convenient for, the rotation degree of difficulty of main threaded rod 307 has been reduced, main bearing 306 inner wall limit portion joint has main threaded rod 307, disc 308 has been cup jointed at main threaded rod 307 surface middle part, belt 309 has been cup jointed to disc 308 surface, threaded sleeve 310 has been cup jointed to main threaded rod 307 surface bottom, threaded sleeve 310 bottom middle part welding has removal semicircle ring 311, trachea 302 one end is connected with air pipe connector 312.

Limiting mechanisms 5 are equidistantly arranged on one side of the inner wall of a slitter matrix 1, and each limiting mechanism 5 comprises an L-shaped fixing plate 501, a fixing sleeve 502, a return spring 503, a T-shaped cylinder 504, a circular ring 505, an extrusion roller 506, a notch 507, a positioning column 508, a movable T-shaped plate 509, a semicircular groove 510, a connecting strip 511 and an extrusion screw 512;

l-shaped fixing plates 501 are equidistantly installed on one side of the inner wall of a slitter matrix 1, fixing sleeves 502 are symmetrically welded on two sides of the bottom end of each L-shaped fixing plate 501, a return spring 503 is arranged between the inner wall of each fixing sleeve 502 and each L-shaped fixing plate 501, a T-shaped cylinder 504 is connected to the position, located on the edge of the bottom end of each return spring 503, of the inner wall of each fixing sleeve 502, a circular ring 505 is welded in the middle of the bottom end of each T-shaped cylinder 504, and an extrusion roller 506 is;

a notch 507 is formed in the bottom of one end of the L-shaped fixing plate 501, a positioning column 508 is welded in the middle of the inner wall of the notch 507, a movable T-shaped plate 509 is symmetrically sleeved on the outer surface of the positioning column 508, the movable T-shaped plate 509 and the L-shaped fixing plate 501 are limited through a connecting strip 511, the L-shaped fixing plate 501 and the L-shaped fixing plate 501 are fixed in an extruding mode through an extruding screw 512, the movable T-shaped plate 509 can be moved conveniently, meanwhile, the movable T-shaped plate 509 can be limited and fixed, the movable T-shaped plate 509 is prevented from shaking after moving, and a semicircular groove 510 is formed in the position, located on the inner wall of the L-;

one end of the movable T-shaped plate 509 is located in the middle of one end of the L-shaped fixing plate 501, and is welded with a connecting strip 511, and the top and the bottom of one end of the connecting strip 511 are both connected with an extrusion screw 512 through threads.

The two sides of the outer surface of the slitter matrix 1 are symmetrically welded with connecting mechanisms 6, the connecting mechanisms 6 comprise fixed blocks 601, positioning grooves 602, limiting grooves 603, moving grooves 604, driven threaded rods 605, worms 606, worm wheels 607, connecting rods 608, limiting blocks 609, sliding blocks 610 and screw rods 611,

fixing blocks 601 are symmetrically welded on two sides of the outer surface of a slitter matrix 1, a positioning groove 602 is formed in one side of the front surface of each fixing block 601, a limiting groove 603 is formed in the middle of one end, corresponding to the positioning groove 602, of one end of each fixing block 601, moving grooves 604 are formed in the positions, corresponding to the top end and the bottom end of the limiting groove 603, of the front surface of each fixing block 601, and a driven threaded rod 605 is rotatably connected to the;

a worm 606 is welded in the middle of one end of the threaded rod 605, a worm wheel 607 is connected to the bottom of the outer surface of the worm 606 in a meshed mode, a connecting rod 608 is welded in the middle of the back of the worm wheel 607, and a limiting block 609 is welded at the position, corresponding to the outer surface of the connecting rod 608, of the bottom end of the fixing block 601;

the slider 610 has been cup jointed from threaded rod 605 surface position in spacing groove 603 inner wall middle part department, laminate each other between slider 610 surface and the spacing groove 603 inner wall, slider 610 is located inside the spacing groove 603, the removal of slider 610 of can being convenient for, can be spacing to 610 simultaneously, the phenomenon that the position that prevents slider 610 from taking place to remove, slider 610 openly corresponds the rotation of sliding groove 604 inner wall middle part position department and is connected with screw rod 611, welded connection between the slider 610 back and the blowing frame 8.

The front and back of the material placing frame 8 are fixedly provided with a cleaning mechanism 7 at a position close to one end of the slitter matrix 1, and the cleaning mechanism 7 comprises a fixed rod 701, a positioning block 702, a driven bearing 703, an auxiliary threaded rod 704, a T-shaped block 705, a supporting rod 706, a motor 707, a cutting wheel 708, a limiting strip 709, a positioning strip 710, a fan 711, a metal corrugated pipe 712, an air suction hood 713 and a filter bag 714;

the front and back of the material placing frame 8 are fixedly provided with fixing rods 701 at positions close to one end of the slitter matrix 1, the middle parts of the inner walls of the fixing rods 701 are fixedly provided with positioning blocks 702, driven bearings 703 are welded at the two ends of each positioning block 702, auxiliary threaded rods 704 are welded on the inner walls of the driven bearings 703, and T-shaped blocks 705 are sleeved on the outer surfaces of the auxiliary threaded rods 704;

a supporting rod 706 is welded at the position, located in the middle of the top end of the fixing rod 701, of the top end of the T-shaped block 705, a motor 707 is fixedly installed in the middle of the top end of the supporting rod 706, an output shaft of the motor 707 is connected with the cutting wheel 708 through a flat key, the rotating direction of the cutting wheel 708 is opposite to the moving direction of the cloth, the shape of the air suction cover 713 is conical, the diameter of the outer surface, close to the cutting wheel 708, of the air suction cover 713 is larger than that of the other end of the air suction cover, the cutting of the;

dead lever 701 one end limit portion is connected with spacing 709, spacing 709 one end limit portion fixed mounting has location strip 710, location strip 710 openly middle part fixed mounting has fan 711, the input of motor 707 and fan 711 all with the output electric connection of commercial power, motor 707 and bracing piece 706 junction fixed mounting has the motor cabinet, the normal operating of motor 707 and fan 711 can be convenient for, fan 711 top middle part is connected with corrugated metal pipe 712, corrugated metal pipe 712 one end is connected with air suction cover 713, fan 711 bottom limit portion is connected with filter bag 714.

The working principle and the using process of the invention are as follows: in the actual use process of the large-diameter double-servo double-step slitter, a fixed plate 2 is connected with a slitter matrix 1, then an operator puts an air pipe 302 of a pneumatic cutting knife 301 into a bottom protection plate 303 and a top protection plate 304, then the bottom protection plate 303 and the top protection plate 304 are fixed by using a fixed screw 305, then the operator pulls a belt 309, the belt 309 drives a disc 308 to rotate when moving, the disc 308 drives a main threaded rod 307 to rotate when rotating, the main threaded rod 307 drives a movable semicircular ring 311 to move along the thread direction of the main threaded rod 307 when rotating along the interior of a main bearing 306, so that the movable semicircular ring 311 is attached to one end of an air pipe joint 312, the air pipe joint 312 is extruded into a connecting joint 4, the slitting of cloth can be conveniently performed, the slitting difficulty of the cloth is reduced, and meanwhile, the air pipe 302 can be conveniently limited, the phenomenon that the position of the air pipe 302 moves is prevented, so that the shaking of the air pipe 302 during operation is reduced, the air pipe joint 312 can be conveniently fixed, the phenomenon that the air pipe joint 312 and the connecting joint 4 fall off is prevented, the connection between the air pipe joint 312 and the connecting joint 4 is more stable, and the pneumatic cutting knife 301 can be normally used;

then, an operator rotates the slave threaded rod 605, the worm 606 is driven to rotate when the slave threaded rod 605 rotates, the worm 606 drives the worm wheel 607 to rotate when the worm wheel 607 rotates, the connecting rod 608 is driven to rotate inside the limiting block 609 when the worm wheel 607 rotates, the connecting rod 608 drives the other worm wheel 607 to rotate when the connecting rod 608 rotates, so that the two slave threaded rods 605 synchronously rotate, the two slave threaded rods 605 simultaneously drive the sliding block 610 to move when the two slave threaded rods 605 rotate, the sliding block 610 drives the discharging frame 8 to move when moving, so that the distance between the discharging frame 8 and the slitter matrix 1 is adjusted, then, the operator rotates the screw 611, the screw 611 fixes the moving sliding block 610, the phenomenon that the sliding block 610 shakes after moving is prevented, the position of the discharging frame 8 can be conveniently adjusted, the difficulty in adjusting the position of the discharging frame 8 is reduced, the adjusted discharging frame 8 can be fixed, and the two slave threaded rods, The worm 606 and the connecting rod 608 rotate synchronously, thus reducing the time required for a person to turn the slave threaded rod 605;

then an operator rotates the auxiliary threaded rod 704 along the inside of the fixed rod 701, one end of the auxiliary threaded rod 704 rotates along the inside of the slave bearing 703, the auxiliary threaded rod 704 drives the T-shaped block 705 to move along the inside of the fixed rod 701 when rotating, the support rod 706 moves when moving, when the support rod 706 moves to a position which is predetermined in advance, the motor 707 is connected with a power supply, the motor 707 starts to operate after being connected with the power supply, the motor 707 drives the cutting wheel 708 to rotate when operating, then the operator pulls the metal corrugated pipe 712, the metal corrugated pipe 712 drives the air suction hood 713 to move when moving, then the fan 711 is connected with the power supply and starts to operate, when the fan 711 operates, air enters the inside of the metal corrugated pipe 712 along the air suction hood 713, air inside the metal corrugated pipe 712 enters the inside the filter bag 714 along the fan 711, and is discharged along the filter bag 714, so that the lint on, the cutting difficulty of the plush at the edge of the cloth is reduced, and the cut plush can be adsorbed and collected, so that the plush collection difficulty is reduced;

finally, an operator moves the T-shaped plate 509 along the inside of the notch 507, the T-shaped plate 509 is moved through the positioning column 508 to drive the connecting strip 511 to move when moving in the notch 507, then the connecting strip 511 is extruded and fixed through the extrusion screw 512, finally, when a winding roll of the slitter matrix 1 winds cloth, the cloth is wound on the outer surface of the winding roll, the diameter of the winding roll is increased, when the cloth on the surface of the winding roll is attached to the extrusion roll 506, the extrusion roll 506 is driven to move due to the thickness of the cloth, the ring 505 is driven to move when the extrusion roll 506 moves, the T-shaped cylinder 504 is driven to move when the ring 505 moves, and the T-shaped cylinder 504 extrudes the reset spring 503, so that the T-shaped cylinder 504 enters the fixing sleeve 502, the wound cloth can be conveniently extruded, the wound cloth is attached more tightly, and the cloth can be limited when collected, the phenomenon that the collected cloth is disordered is prevented, and the time for arranging the cloth after rolling by later-stage personnel is reduced.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a two servo two step slitter of major diameter that production effect is high, includes slitter base member (1), its characterized in that: the middle of the top end of the slitter matrix (1) is welded with a fixing plate (2), one side of the top end of the fixing plate (2) is connected with connecting joints (4) at equal intervals, cutting assemblies (3) are mounted at the edge of one end of the fixing plate (2) at equal intervals, and each cutting assembly (3) comprises a pneumatic cutting knife (301), an air pipe (302), a bottom protection plate (303), a top protection plate (304), a fixing screw (305), a main bearing (306), a main threaded rod (307), a disc (308), a belt (309), a threaded sleeve (310), a movable semi-circular ring (311) and an air pipe joint (312;

pneumatic cutting knives (301) are arranged on one side portion of one end of the fixing plate (2) at equal intervals, an air pipe (302) is fixedly arranged on one side of the top end of each pneumatic cutting knife (301), a bottom protection plate (303) is cast on the top end of each pneumatic cutting knife (301) corresponding to the bottom of the outer surface of the corresponding air pipe (302), a top protection plate (304) is sleeved on the top end of each bottom protection plate (303) and located on the top of the outer surface of the corresponding air pipe (302), and fixing screws (305) are arranged on two sides of the outer surfaces of the top protection plate (;

top guard plate (304) and bottom guard plate (303) bottom limit portion equal pitch symmetrical welding have base bearing (306), base bearing (306) inner wall limit portion joint has main threaded rod (307), disc (308) have been cup jointed at main threaded rod (307) surface middle part, belt (309) have been cup jointed to disc (308) surface, threaded sleeve (310) have been cup jointed to main threaded rod (307) surface bottom, threaded sleeve (310) bottom middle part welding has removal semicircle ring (311), trachea (302) one end is connected with air pipe connector (312).

2. A large-diameter double-servo double-step slitter with high production effect according to claim 1, wherein the air pipe (302) and the connecting joint (4) are connected through an air pipe joint (312), and the air pipe joint (312) and the connecting joint (4) are fixed through a movable semicircular ring (311) in a squeezing mode.

3. A high production efficiency large diameter dual servo double step slitter as in claim 1 wherein the inner ring of the main bearing (306) is snap connected to the main threaded rod (307) and the outer ring of the main bearing (306) is welded to the top shield (304).

4. The large-diameter double-servo double-step slitter with high production effect according to claim 1 is characterized in that limiting mechanisms (5) are equidistantly mounted on one side of the inner wall of a slitter base body (1), and each limiting mechanism (5) comprises an L-shaped fixing plate (501), a fixing sleeve (502), a return spring (503), a T-shaped cylinder (504), a circular ring (505), an extrusion roller (506), a notch (507), a positioning column (508), a movable T-shaped plate (509), a semicircular groove (510), a connecting strip (511) and an extrusion screw (512);

l-shaped fixing plates (501) are equidistantly installed on one side of the inner wall of the slitter matrix (1), fixing sleeves (502) are symmetrically welded on two sides of the bottom end of each L-shaped fixing plate (501), a return spring (503) is arranged between the inner wall of each fixing sleeve (502) and each L-shaped fixing plate (501), a T-shaped cylinder (504) is connected to the position, located on the bottom end edge of each return spring (503), of the inner wall of each fixing sleeve (502), a circular ring (505) is welded in the middle of the bottom end of each T-shaped cylinder (504), and an extrusion roller (506) is rotatably connected to the middle of the inner wall of;

a notch (507) is formed in the bottom of one end of the L-shaped fixing plate (501), a positioning column (508) is welded in the middle of the inner wall of the notch (507), a movable T-shaped plate (509) is symmetrically sleeved on the outer surface of the positioning column (508) and located in the notch (507), and a semicircular groove (510) is formed in the position, located on the inner wall of the L-shaped fixing plate (501), of one end edge of the movable T-shaped plate (509);

remove T template (509) one end and be located L type fixed plate (501) one end middle part department welding and have connecting strip (511), all there is extrusion screw (512) through threaded connection at connecting strip (511) one end top and bottom.

5. The large-diameter double-servo double-step slitter with high production effect according to claim 4 is characterized in that the movable T-shaped plate (509) and the L-shaped fixing plate (501) are limited by the connecting strip (511), and the connecting strip (511) and the L-shaped fixing plate (501) are fixed with the L-shaped fixing plate (501) in a squeezing mode through the squeezing screw (512).

6. The large-diameter double-servo double-step slitter with high production effect according to claim 1, wherein two sides of the outer surface of the slitter base body (1) are symmetrically welded with connecting mechanisms (6), the connecting mechanisms (6) comprise a fixed block (601), a positioning groove (602), a limiting groove (603), a moving groove (604), a driven threaded rod (605), a worm (606), a worm wheel (607), a connecting rod (608), a limiting block (609), a sliding block (610) and a screw rod (611),

fixed blocks (601) are symmetrically welded on two sides of the outer surface of a slitter matrix (1), a positioning groove (602) is formed in one side of the front face of each fixed block (601), a limiting groove (603) is formed in the position, corresponding to the middle of the positioning groove (602), of one end of each fixed block (601), moving grooves (604) are formed in the positions, corresponding to the top end and the bottom end of each limiting groove (603), of the front face of each fixed block (601), and a driven threaded rod (605) is rotatably connected to the middle of the inner wall of each;

a worm (606) is welded in the middle of one end of the slave threaded rod (605), a worm wheel (607) is connected to the bottom of the outer surface of the worm (606) in a meshed mode, a connecting rod (608) is welded in the middle of the back of the worm wheel (607), and a limiting block (609) is welded at the position, corresponding to the outer surface of the connecting rod (608), of the bottom end of the fixed block (601);

the outer surface of the slave threaded rod (605) is positioned in the middle of the inner wall of the limiting groove (603), a sliding block (610) is sleeved at the middle of the inner wall of the limiting groove (603), the front surface of the sliding block (610) is rotatably connected with a screw rod (611) corresponding to the middle of the inner wall of the moving groove (604), and the back surface of the sliding block (610) is connected with the material placing frame (8) in a welding mode.

7. The large-diameter double-servo double-step slitter with high production effect according to claim 6, wherein the outer surface of the sliding block (610) and the inner wall of the limiting groove (603) are attached to each other, and the sliding block (610) is located inside the limiting groove (603).

8. The large-diameter double-servo double-step slitter with high production effect according to claim 1, wherein a cleaning mechanism (7) is fixedly mounted on the front surface and the back surface of the material placing frame (8) close to one end of the slitter base body (1), and the cleaning mechanism (7) comprises a fixing rod (701), a positioning block (702), a bearing (703), an auxiliary threaded rod (704), a T-shaped block (705), a supporting rod (706), a motor (707), a cutting wheel (708), a limiting strip (709), a positioning strip (710), a fan (711), a metal corrugated pipe (712), an air suction hood (713) and a filter bag (714);

the front and the back of the blowing frame (8) are fixedly provided with fixing rods (701) at positions close to one end of the slitter matrix (1), the middle parts of the inner walls of the fixing rods (701) are fixedly provided with positioning blocks (702), driven bearings (703) are welded at the two ends of each positioning block (702), auxiliary threaded rods (704) are welded on the inner walls of the driven bearings (703), and the outer surfaces of the auxiliary threaded rods (704) are sleeved with T-shaped blocks (705);

a supporting rod (706) is welded at the position, located in the middle of the top end of the fixing rod (701), of the top end of the T-shaped block (705), a motor (707) is fixedly installed in the middle of the top end of the supporting rod (706), and an output shaft of the motor (707) is connected with a cutting wheel (708) through a flat key;

dead lever (701) one end limit portion is connected with spacing (709), spacing (709) one end limit portion fixed mounting has location strip (710), location strip (710) openly middle part fixed mounting has fan (711), fan (711) top middle part is connected with corrugated metal pipe (712), corrugated metal pipe (712) one end is connected with air suction cover (713), fan (711) bottom limit portion is connected with filter bag (714).

9. The large-diameter double-servo double-step slitter with high production effect according to claim 8, wherein the input ends of the motor (707) and the fan (711) are electrically connected with the output end of a mains supply, and a motor base is fixedly mounted at the joint of the motor (707) and the support rod (706).

10. A high productivity double-servo double-step slitter as in claim 8 wherein the direction of rotation of the slitting wheel (708) is opposite to the direction of movement of the material, the shape of the suction hood (713) is conical, and the diameter of the suction hood (713) near the outer surface of the slitting wheel (708) is larger than the diameter of the other end.

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