CN211637798U - Slitter edge coiling machine - Google Patents

Abstract

The slitter edge coiling machine comprises a coiling device, a guide control device, a rotary shear outer guide roller, a material distribution device, a coiling block support plate, a connecting rod, a support plate seat, a rotary table, a sliding key, a material distribution chain wheel, a main shaft, a hydraulic oil cylinder, a speed reducing motor, a sliding block, a sliding sleeve, a shifting fork, a support, a transverse roller, a vertical roller, an adjusting screw hole, a clamping plate, a fastening bolt and the like; the outer guide roller of the circle shear, the guide control device and the transverse roller and the vertical roller in the distributing device are all arranged in a shape like the Chinese character 'kou'; the installation positions of the transverse rollers are adjustable, and radial and axial fixed locking bolts are arranged after the transverse rollers are adjusted; a sliding block is arranged below the cloth bracket and is in sliding fit with the upper plane of the base; the distributing device adopts chain transmission; the oil cylinder controls the axial reciprocating motion of the winding drum through the shifting fork; the advantages are that: the waste coils are orderly stacked and coiled, uncoiling is smooth, no crease exists, the added value of waste edge products is high, the waste coils can be used as raw materials for small hardware drawing and cutting, the structure of the whole machine is simple, the speed of the whole machine can reach 300m/min, high-speed coiling is realized, and the working efficiency is high.

Description

Slitter edge coiling machine

The technical field is as follows:

the utility model relates to a steel rolling auxiliary assembly technical field especially relates to a slitter edge coiling machine.

Background art:

in the prior art, the slitter edge coiling apparatus is generally arranged behind a circle shear of a cold rolling production line, and is used for collecting slitter edge wires sheared by the circle shear and coiling the slitter edge wires into a slitter coil so as to facilitate subsequent transportation and treatment. At present, the domestic slitter edge coiling device generally comprises a slitter edge wire guiding device, a slitter edge coiling machine, a slitter edge conveying device, a slitter edge collecting device and the like. The general flow is as follows: the scrap edge wire guiding device (generally a chute) guides the scrap edge wire cut by the disc shear to a scrap edge coiling machine for coiling, and after the coiling is finished, the scrap coil is conveyed to a specified position by a rail trolley, a travelling crane and other equipment and then is processed in the next step. The slitter edge coiling is divided into tension coiling and tension-free coiling, a slitter edge coiling machine is arranged on part of the slitter edge of the pickling line, a tension coiling mode is adopted to provide the slitter edge coiling into coils in a raw material state for downstream manufacturers, but the thickness range of the plate is mainly 2-6mm, the coiling effect is not in the best state in the thickness range, so the pickling line is generally provided with a breaking shear to cut the slitter edge, and the cut slitter edge is finally used as a steelmaking raw material to be recycled. The existing tension-free slitter edge coiling machine mainly aims at rapidly coiling and forming slitter edges, is convenient for subsequent transportation and treatment, and does not consider the subsequent recycling problem. After the waste coil is formed, the waste edge wires in the coil are randomly and disorderly wound, and the subsequent treatment is generally used as a steelmaking raw material for remelting. If the disordered winding waste edge coil is used as a raw material for recycling, the waste edge is repeatedly rolled and bent in the coiling process, so that the secondary coil splitting is difficult or the uncoiling cannot be carried out at all, the usable part is greatly reduced even after the uncoiling, the cost advantage of the raw material is lost due to the reduction of the usable part, the disordered winding waste edge coil can only be sold as a waste product, and the difference between the selling price and the normal raw material is large. For high value-added production lines such as stainless steel and nonferrous metal, the width of the waste edge after the disc shear is generally 5-50mm wide and 1-3mm thick, and the waste edge can be used for processing such as wire drawing, stamping, special-shaped cutting and the like after simple uncoiling and leveling treatment. The method is an ideal hardware production raw material for a wide range of small hardware manufacturers, for example, the raw material after split roll processing is purchased, and the market price of the method is consistent with or slightly higher than the normal market price. Therefore, the existing disordered winding scrap edge coiling technology causes scrap edge steel which can be used as a raw material to be treated as a return scrap material, so that the scrap edge coiled steel cannot be recycled, the increase of the added value of scrap edge is limited, and the waste edge treatment of high-added-value units such as stainless steel, nonferrous metal and the like causes great waste and is not suitable for the development of circular economy and green production.

The invention content is as follows:

the utility model aims at overcoming the shortcoming that exists among the above-mentioned prior art, providing one kind and can making the waste coil finished product twine in order, pile up layer upon layer, and the slitter edge does not have the crease in the book, and the face not damaged, the slitter edge coiling machine that can effectively utilize again after the coiled slitter edge is opened a book.

The utility model provides an above-mentioned problem realize through following technical scheme: the slitter edge coiling machine comprises a coiling device, a guide control device, a rotary shear outer guide roller and a distributing device; the coiling device comprises a base, a bearing seat, a spring, a reel support plate, a connecting rod, a support plate seat, a turntable, a sliding key, a cloth chain wheel a, a main shaft, a hydraulic oil cylinder and a speed reducing motor; the distributing device comprises a distributing shaft and a sliding block; it is characterized by also comprising a baffle plate, a sliding sleeve, a shifting fork and a central shaft of the coiling device; an outer guide roller bracket, an outer guide roller transverse roller and an outer guide roller vertical roller in the outer guide roller of the circle shear; a cloth chain wheel b, a cloth bracket, a compression bolt, an adjusting screw hole, a mounting bolt, a transverse roller, a clamping plate and a vertical roller in the cloth device; the coiling device is arranged on a ground foundation, the guide control device is arranged on the ground foundation, and the distance between the guide control device and the coiling device is a process distance H1; the distance between the guide control device and the outer guide roller of the disc shear is a process distance H2; an outer guide roller transverse roller and an outer guide roller vertical roller in the outer guide roller of the circle shear are fixedly arranged on an outer guide roller bracket, and the outer guide roller of the circle shear is fixedly arranged on an outer side rack near a cutter shaft at the outlet of a circle shear base through the outer guide roller bracket; the outer guide roller transverse roller and the outer guide roller vertical roller are arranged in a square shape; the distributing device is arranged at the front end of the coiling device, and the transverse roller and the vertical roller are arranged on the distributing bracket in a square shape by the mounting bolts and the clamping plates; the mounting position of the transverse roller is adjustable, and the maximum adjusting range H4 is 20 mm; 3 groups of adjusting screw holes are arranged on the cloth bracket; a compression bolt with a radial direction fixing and locking function after adjusting the transverse roller is arranged at the top of the cloth bracket; the mounting bolt and the clamping plate which have the axial direction fixing and locking functions after the transverse roller is adjusted are arranged on the side surface of the cloth bracket; the cloth support is arranged at the upper part of the sliding block, and the bottom plane of the lower part of the sliding block is in sliding fit with the plane of the upper part of the base; the sliding block is assembled on the material distribution shaft, two ends of the material distribution shaft are arranged in the bearing seats, and the bearing seats are fixed on the base; one end of the material distribution shaft above the middle part of the base is fixedly connected with a material distribution chain wheel b, and the material distribution chain wheel b is meshed with a material distribution chain wheel a fixed on the main shaft below the material distribution chain wheel b to form a chain transmission pair; the guide control device is arranged in the middle of the circle shear and the coiling device, and two groups of slitter edge guide control structures selected by the guide control device are arranged in a shape like a Chinese character 'kou' as the outer guide rollers of the circle shear, namely two transverse rollers and two vertical rollers arranged on the frame are arranged in a shape like a Chinese character 'kou'; two sides of a base of the coiling device are provided with two bearing seats, a main shaft is arranged between the two bearing seats, and a distribution chain wheel a, a sliding sleeve, a sliding key, a rotary table, a supporting plate seat and a spring are arranged on the main shaft; the 6 drum support plates are uniformly arranged in a circumferential manner by taking the main shaft as a center, and the circumferential diameter formed by the two opposite drum support plates is Dmm; one end of the winding drum support plate is connected to the rotary table through a pin shaft, the rotary table which can rotate together with the main shaft and can axially slide on the main shaft is connected with the main shaft through a shaft sleeve, the winding drum support plate is connected with a connecting rod in the middle through a pin shaft, and the connecting rod is connected with the support plate seat through a pin shaft; the connecting rod is arranged between the supporting plate seat and the winding drum supporting plate, the other end of the winding drum supporting plate is inserted into a square hole of a baffle plate which plays a role in supporting the end part of the winding drum supporting plate, and 3 guide blocks are arranged at each square hole of the baffle plate; the hydraulic oil cylinder is arranged below the main shaft, one end of the hydraulic oil cylinder is connected to the base through a pin shaft and a support, the other end of the hydraulic oil cylinder is connected to the lower part of a shifting fork which can rotate around a self central shaft through a pin shaft, and an upper sliding sleeve which is opposite to the action of a piston rod of the hydraulic oil cylinder is connected with the shifting fork through threads; the speed reducing motor is connected with the main shaft through chain transmission; the end part of the main shaft is provided with a supporting plate seat, and the supporting plate seat is axially fixed on the main shaft by adopting a double-round nut; the rotary table is fixedly connected with the sliding sleeve right bolt; the main shaft is axially connected with the sliding sleeve in a sliding manner; the turntable is axially connected with the main shaft in a sliding manner through a sliding key and a sliding sleeve; it is also characterized in that: a spiral groove is processed on a material distributing shaft in the material distributing device; the material distribution device comprises 1 group, wherein the material distribution range is H3, and the value of the material distribution range H3 is 381 mm; when in an uncoiling state, the support plate of the coiling block rotates by an angle alpha around the pin shaft on the rotating disc, and the maximum alpha angle is 12 degrees.

The utility model has the advantages that: the waste coil is particularly suitable for units of stainless steel, nonferrous metal and the like, the waste coil is sequentially stacked and coiled, the uncoiling is smooth in subsequent use, the coiled waste edge is uncoiled and has no crease, the surface quality of the waste edge is high, the waste edge reutilization rate is improved, and the product additional value of the waste edge is increased. The whole machine has simple structure, can match the speed of the machine set to 300m/min, realizes high-speed coiling and has high working efficiency. Because the outer deflector roll of circle shear is open and arranges, compare in closed box chute, open circle shear outer deflector roll has eliminated the hidden danger that causes the slitter edge to block up to also be convenient for rapid processing under the production abnormal conditions, resume production.

Drawings

FIG. 1 is an elevation view showing the overall layout of a slitter edge winder according to an embodiment of the present invention;

FIG. 2 is a view from the direction B of FIG. 1;

FIG. 3 is a cross-sectional view A-A of FIG. 1;

FIG. 4 is a rotary cross-sectional view F-F of FIG. 3;

FIG. 5 is a view from direction D of FIG. 1;

FIG. 6 is an enlarged view of the structure of the distributing device in FIG. 2;

FIG. 7 is a sectional view taken along line G-G of FIG. 6;

FIG. 8 is a cross-sectional view J-J of FIG. 6;

FIG. 9 is a view showing the construction of the baffle plate 11;

FIG. 10 is a cross-sectional view taken along line L-L of FIG. 9;

description of the drawings: 1. a take-up device; 2. a guidance control device; 3. waste edge; 4. an outer guide roller of the circle shear; 5. a material distribution device; 6. a material distributing shaft; 7. a spring; 8. a cloth chain wheel b; 9. a base; 10. a bearing seat; 11. a baffle plate; a spool support plate; 13. a connecting rod; 14. a support plate seat; 15. a turntable; 16. a sliding key; 17. a sliding sleeve; 18. a cloth chain wheel a; 19. a main shaft; 20. a hydraulic cylinder; 21. a reduction motor; 22. a shifting fork; 23. a cloth support; 24. a hold-down bolt; 25. adjusting the screw hole; 26. installing a bolt; 27. a transverse roller; 28. clamping a plate; 29. vertical rolls; 30. a slider; a steel plate; 32. a circle shear; 33. an outer guide roller bracket; 34. an outer guide roller transverse roller; 35. an outer guide roller vertical roller; 36. a central shaft; 110. a guide block; H1. is the distance between the coiling device 1 and the central line of the guide control device 2; h2 is the distance between the guide control device 2 and the center line of the outer guide roller 4 of the circle shear; H3. is the cloth range in the cloth device; H4. is the adjusting range of the transverse roller in the distributing device; angle α: in the unloaded state, the spool support plate 12 is rotated a set angle α about the pin connection point on the turntable 15.

The specific implementation mode is as follows:

the embodiments of the present invention are described in detail below with reference to the accompanying drawings: the slitter edge coiling machine comprises a coiling device 1, a guide control device 2, a disc shear outer guide roller 4, a material distribution device 5, a material distribution shaft 6, a coiling spring 7, a material distribution chain wheel b8, a base 9, a bearing seat 10, a baffle 11, a reel support plate 12, a connecting rod 13, a support plate seat 14, a rotary table 15, a sliding key 16, a sliding sleeve 17, a material distribution chain wheel a18, a main shaft 19, a hydraulic oil cylinder 20, a speed reducing motor 21, a shifting fork 22, a material distribution support 23, a compression bolt 24, an adjusting screw hole 25, an installation bolt 26, a transverse roller 27, a clamping plate 28, a vertical roller 29, a sliding block 30, a disc shear 32, an outer guide roller support 33, an outer guide roller transverse roller 34, an outer guide roller vertical roller 35, a central shaft 36 and a guide block 110, wherein the; the coiling device 1 and the guide control device 2 are respectively and fixedly arranged on a ground foundation, and the distance between the coiling device 1 and the guide control device 2 is a process distance H1; the circle shear outer guide roller 4 is arranged at the outer side near the cutter shaft of the circle shear 32, and the distance between the guide control device 2 and the circle shear outer guide roller 4 is a process distance H2; the actual values of the process distance H1 and the process distance H2 can be specifically determined according to the spatial position of the use site. In the coiling device 1, a speed reducing motor 21 transmits power to a main shaft 19 through chain transmission, the main shaft 19 is arranged between two bearing blocks 10, and the bearing blocks 10 are fixedly arranged on a base 9 through bolts; the end part of the main shaft 19 is provided with a supporting plate seat 14, the supporting plate seat 14 is axially fixed on the main shaft 19 through a nut, and the supporting plate seat 14 is connected with the connecting rod 13 through a pin shaft; a spring 7 defined between the turntable 15 and the supporting plate seat 14 is sleeved on the main shaft 19; the rotary table 15 and the sliding sleeve 17 are connected into a whole through a right bolt, a shifting fork 22 is driven by a hydraulic oil cylinder 20 to shift the sliding sleeve 17 back and forth along the axial direction of the main shaft 19, and the rotary table 15 is matched with the sliding key 16 to slide on the main shaft 19 in the axial direction; the hydraulic oil cylinder 20 is arranged below the main shaft 19, one end of the hydraulic oil cylinder 20 is connected to the base 9 through a pin shaft, the other end of the hydraulic oil cylinder 20 is connected to the lower portion of the shifting fork 22 through a pin shaft, the shifting fork 22 can rotate around a self central shaft 36, and the action of the sliding sleeve 17 on the upper portion of the shifting fork 22 is opposite to that of the hydraulic oil cylinder 20. The 6 drum support plates 12 are uniformly and symmetrically arranged in the circumferential direction by taking the main shaft 19 as the center, the diameter of the circumference formed by the two opposite drum support plates 12 is 450mm, one end of each drum support plate 12 is matched with the turntable 15 in a pin shaft connection mode and can rotate by taking the pin shaft as a fulcrum, and the middle part of each drum support plate 12 is matched with the connecting rod 13 in a pin shaft connection mode; the other end of the winding drum support plate 12 is inserted into the square mounting hole of the baffle plate 11 to bear the radial force generated in the winding process of the winding drum support plate 12, a threaded hole is machined in the end of the winding drum support plate 12, and the baffle plate 11 is fixed on the winding drum support plate 12 through a lifting ring screw; to facilitate the quick positioning and installation of the baffle 11, three guide blocks 110 are designed at each square hole of the baffle 11. The distributing device 5 is arranged on a base 9 of the coiling device 1, and a distributing chain wheel a18, a sliding sleeve 17, a sliding key 16, a turntable 15, a supporting plate seat 14 and a spring 7 are arranged on a main shaft 19; one end of the reel support plate 12 is connected to the rotary table 15 by a pin shaft, the rotary table 15 and the main shaft 19 rotate together and can axially slide on the main shaft 19, and the shifting fork 22 which can rotate around the self central shaft 36 is connected to the sliding sleeve 17 by a bolt and a nut; the central shaft 36 is mounted on a fork cloth sprocket a 18. The guide control device 2 is arranged at the middle position of the circle shear 32 and the coiling device 1, and two groups of slitter edge guide control structures selected by the guide control device 2 are arranged in a shape like a Chinese character 'kou' as the outer guide rollers 4 of the circle shear, namely two transverse rollers and two vertical rollers arranged on the frame are arranged in a shape like a Chinese character 'kou'. The disc shear outer guide roller 4 consists of an outer guide roller bracket 33, an outer guide roller transverse roller 34 and an outer guide roller vertical roller 35; the outer guide roller transverse roller 34 and the outer guide roller vertical roller 35 are arranged on the outer guide roller bracket 33 in a square shape; the outer guide roller bracket 33 is installed on the outer frame near the cutter shaft at the outlet of the base of the disc shear 32 through the mounting plate in a threaded connection manner. The material distribution device 5 is arranged at the front end of the coiling device 1, a transverse roller 27 and a vertical roller 29 are arranged in a square shape in the material distribution bracket 23, the transverse roller 27 is arranged at the inlet side, and the vertical roller 29 is arranged at the outlet side; the vertical adjusting position of the transverse roller 27 is determined by three adjusting screw holes 25 at two sides of the cloth bracket 23, and mounting bolts 26 at two sides are dismounted; the position of the clamping plate 28 is adjusted and installed as required, and the compression bolts 24 are propped against the shaft diameters of the two sides of the transverse roller 27 and locked after installation. In this example, the allowable adjustment range is 20 mm; the cloth support 23 is arranged at the upper part of the slide block 30, the lower plane of the slide block 30 is in sliding fit with the plane of the base 9, the slide block 30 is assembled on the cloth shaft 6, two ends of the cloth shaft 6 are arranged in bearing seats, and the bearing seats are fixed on the base 9; the shaft end of the material distribution shaft 6 is provided with a material distribution chain wheel b8, the material distribution chain wheel b8 and a material distribution chain wheel a18 on the main shaft 19 form a kinematic pair, the speed reducing motor 21 transmits power to the main shaft 19 through chain transmission, the main shaft 19 drives the material distribution chain wheel a18, the material distribution chain wheel b8 is driven to rotate, the motion is transmitted to the material distribution shaft 6, the material distribution device 5 is driven by the material distribution shaft 6, the slide block 30 moves in a reciprocating mode along the axial direction of the main shaft 19, and the slitter edge 3 is orderly distributed and wound on the winding drum support plate 12 within a stroke H3 along the axial direction of the main shaft 19, and in the example, the material distribution range of the material. The utility model discloses a theory of operation is: the slitter edge 3 cut and separated on the steel plate 31 of the circle shear 32 is manually guided to the middle of a square-shaped structure formed between an outer guide roller transverse roller 34 and an outer guide roller vertical roller 35 of an outer circle shear outer guide roller 4 of a circle shear 32 blade from the upper part and passes through the middle, then the slitter edge 3 is guided into a guide control device 2 and passes through a square-shaped structure formed by combining an inlet flat roller and an outlet flat roller of the guide control device 2, then the slitter edge 3 is guided into a material distribution device 5 and then is fixed on a winding drum support plate 12, and then the winding process is completed according to the set winding tension. The working state of the coiling device 1 is coiling and uncoiling, and in the coiling state, as shown in the upper part of figure 3, the hydraulic oil cylinder 20 extends out, the shifting fork 22 rotates around the central shaft 36 and shifts towards the right side, the sliding sleeve 17 and the turntable 15 are at the right side position shown in the figure, the spring 7 is released, and 6 reel support plates 12 surround to form a hexagonal reel to form an inner hole of a waste coil. When the coil is unloaded, as shown by a two-dot chain line at the lower part of fig. 3, firstly, the baffle 11 is detached, the hydraulic oil cylinder 20 is operated to retract, the Y-shaped shifting fork 22 is driven to rotate around the central shaft 36 and is shifted to the left side, the sliding sleeve 17 and the rotary table 15 simultaneously slide to the left side, and the reel support plates 12 are driven to move, because the main shaft 19 and the support plate seat 14 are axially fixed, 6 reel support plates 12 rotate around the pin connection point on the rotary table 15 by a set angle alpha on one hand, the middle parts deflect inwards along with the driving of the connecting rod 13, and the hexagonal reel is deformed to form a conical reel, in the example, the conical degree is; after the coil is unloaded, the hydraulic oil cylinder 20 extends out, the actions move reversely, the upper baffle 11 is installed, and the coiling device 1 is in a next coiling standby state. The material distributing shaft 6 of the material distributing device 5 is provided with a specific spiral groove, so that the waste edges 3 are guided to be distributed in an axial reciprocating and orderly manner along the main shaft 19, and the waste edges 3 are distributed around the winding drum support plate 12 according to a set interval to form a standard waste edge roll. When the slitter edge is coiled, the circular baffle plate restrains the slitter edge, and the guide blocks distributed at the baffle plate are matched with the winding drum support plate, so that the slitter edge coiling device is convenient to install quickly. When the slitter edge is wound, the set tension is kept in the winding process. And automatically calculating the volume of the waste edge winding. The cloth track of the cloth device is automatically matched and adapted with the coiling speed. A reciprocating distributing device 5 capable of adjusting the roll gap of the transverse roller 27. The waste coil finished products are orderly wound and stacked layer by layer, the waste edges in the coil have no crease, the plate surface is not damaged, and the coiled waste edges can be effectively utilized after being uncoiled.

Claims (5)

1. A slitter edge coiling machine comprises a coiling device (1), a guide control device (2), a rotary shear outer guide roller (4) and a distributing device (5); the coiling device (1) comprises a base (9), a bearing seat (10), a spring (7), a reel support plate (12), a connecting rod (13), a support plate seat (14), a rotary table (15), a sliding key (16), a cloth chain wheel a (18), a main shaft (19), a hydraulic oil cylinder (20) and a speed reducing motor (21); the distributing device (5) comprises a distributing shaft (6) and a sliding block (30); it is characterized by also comprising a baffle (11), a sliding sleeve (17), a shifting fork (22) and a central shaft (36) of the coiling device (1); an outer guide roller bracket (33), an outer guide roller transverse roller (34) and an outer guide roller vertical roller (35) in the outer guide roller (4) of the circle shear; a cloth chain wheel b (8), a cloth bracket (23), a compression bolt (24), an adjusting screw hole (25), a mounting bolt (26), a transverse roller (27), a clamping plate (28) and a vertical roller (29) in the cloth device (5); the coiling device (1) is arranged on a ground foundation, the guide control device (2) is arranged on the ground foundation, and the distance between the guide control device (2) and the coiling device (1) is a process distance H1; the distance between the guide control device (2) and the outer guide roller (4) of the circle shear is a process distance H2; an outer guide roller transverse roller (34) and an outer guide roller vertical roller (35) in the disc shear outer guide roller (4) are fixedly arranged on an outer guide roller bracket (33), and the disc shear outer guide roller (4) is fixedly arranged on an outer machine frame near a cutter shaft at the position of an outlet of a machine base of the disc shear (32) through the outer guide roller bracket (33); the outer guide roller transverse roller (34) and the outer guide roller vertical roller (35) are arranged in a shape like a Chinese character 'kou'; the distributing device (5) is arranged at the front end of the coiling device (1), and the transverse roller (27) and the vertical roller (29) are arranged on the distributing bracket (23) in a square shape by the mounting bolt (26) and the clamping plate (28); the installation position of the transverse roller (27) is adjustable, and the maximum adjustment range H4 is 20 mm; 3 groups of adjusting screw holes (25) are arranged on the cloth bracket (23); a compression bolt (24) with a radial direction fixing and locking function after adjusting the transverse roller (27) is arranged at the top of the cloth bracket (23); the mounting bolt (26) and the clamping plate (28) which have the axial direction fixing and locking functions after the horizontal roller (27) is adjusted are arranged on the side surface of the cloth bracket (23); the cloth support (23) is arranged at the upper part of the sliding block (30), and the lower bottom plane of the sliding block (30) is in sliding fit with the upper plane of the base (9); the sliding block (30) is assembled on the material distribution shaft (6), two ends of the material distribution shaft (6) are installed in bearing seats, and the bearing seats are fixed on the base (9); one end of the material distribution shaft (6) above the middle part of the base (9) is fixedly connected with a material distribution chain wheel b (8), and the material distribution chain wheel b (8) is meshed with a material distribution chain wheel a (18) fixed on a main shaft (19) below the material distribution chain wheel b to form a chain transmission pair; the guide control device (2) is arranged in the middle of the circle shear (32) and the coiling device (1), and two groups of slitter edge guide control structures selected by the guide control device (2) are arranged in a shape like a Chinese character 'kou' as the outer guide roller (4) of the circle shear, namely two transverse rollers and two vertical rollers which are arranged on the frame are arranged in a shape like a Chinese character 'kou'; two bearing seats (10) are arranged on two sides of a base (9) of the coiling device (1), a main shaft (19) is arranged between the two bearing seats (10), and a cloth chain wheel a (18), a sliding sleeve (17), a sliding key (16), a rotary table (15), a supporting plate seat (14) and a spring (7) are arranged on the main shaft (19); the 6 drum support plates (12) are uniformly arranged in a circumferential manner by taking the main shaft (19) as a center, and the circumferential diameter formed by the two opposite drum support plates (12) is Dmm; one end of the winding drum support plate (12) is connected to the turntable (15) through a pin shaft, the turntable (15) which can rotate together with the main shaft (19) and can axially slide on the main shaft (19) is connected with the main shaft (19) through a shaft sleeve, the winding drum support plate (12) is connected with the connecting rod (13) through a pin shaft in the middle, and the connecting rod (13) is connected with the support plate seat (14) through a pin shaft; the connecting rod (13) is arranged between the supporting plate seat (14) and the winding drum supporting plate (12), the other end of the winding drum supporting plate (12) is inserted into a square hole of the baffle plate (11) which plays a role in supporting the end of the winding drum supporting plate, and 3 guide blocks (110) are arranged at each square hole of the baffle plate (11); the hydraulic oil cylinder (20) is arranged below the main shaft (19), one end of the hydraulic oil cylinder (20) is connected to the base (9) through a pin shaft and a support, the other end of the hydraulic oil cylinder (20) is connected to the lower part of a shifting fork (22) which can rotate around a self central shaft (36) through a pin shaft, and an upper sliding sleeve (17) which is opposite to the action of a piston rod of the hydraulic oil cylinder (20) is connected with the shifting fork (22) through threads; the speed reducing motor (21) is connected with the main shaft (19) through chain transmission; the end part of the main shaft (19) is provided with a supporting plate seat (14), and the supporting plate seat (14) is axially fixed on the main shaft (19) by adopting a double-round nut; the rotary table (15) is fixedly connected with the right bolt of the sliding sleeve (17); the main shaft (19) is axially connected with the sliding sleeve (17) in a sliding manner; the rotary table (15) is axially connected with the main shaft (19) in a sliding way through a sliding key (16) and a sliding sleeve (17).

2. A slitter edge winder according to claim 1, characterised in that: a spiral groove is processed on a material distributing shaft (6) in the material distributing device (5).

3. A slitter edge winder according to claim 1, characterised in that: the material distribution device (5) has 1 group, the material distribution range is H3, and the value of the material distribution range H3 is 381 mm.

4. A slitter edge winder according to claim 1, characterised in that: when in an uncoiling state, the reel support plate (12) rotates for an angle alpha around the pin shaft on the turntable (15), and the maximum alpha angle is 12 degrees.

5. A slitter edge winder according to claim 1, characterised in that: the 6 drum support plates (12) are uniformly arranged in a circumferential mode by taking the main shaft as a center, and the diameter D of the circumference formed by the two opposite drum support plates (12) is 450 mm.

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