CN217780304U - Winding device with slitting component - Google Patents

Abstract

The application discloses coiling mechanism with cut component for with at least one coil stock surely divide into two at least coil stock sections, the coiling mechanism with cut component includes an installation component, a branch and cuts component and two at least rolling components, the installation component includes two support pieces, cut the component and include a primary cut subassembly and a secondary cut subassembly, the primary cut subassembly includes a first driving piece and an at least primary cut piece, the primary cut piece cyclic annular set up in the surface of first driving piece, be used for following a surface of coil stock is cut the coil stock, the secondary cut subassembly includes a second driving piece and an at least secondary cut piece, first driving piece is set up can with the coil stock direction the second driving piece, the secondary cut piece cyclic annular set up in the surface of second driving piece, and with the primary cut piece sets up relatively, be used for following another surface of coil stock is cut the coil stock, the rolling component is used for receiving the roll warp the primary cut piece with the secondary cut piece cuts the coil stock.

Description

Winding device with slitting component

Technical Field

The utility model relates to a rolling technical field especially relates to coiling mechanism with cut component.

Background

The winding process is generally applied to a processing line for a roll material such as a paper roll, a film, a nonwoven fabric, etc., but when the width of the roll material is large, the roll material needs to be slit before being wound so that the roll material is wound in a plurality of roll material segments having small widths.

At present, a winding machine with a slitting component comprises the slitting component and a rotary roller and a circular cutter, wherein the circular cutter is arranged on the rotary roller, so that the rotary roller rotates and simultaneously drives the circular cutter to rotatably slit a coil, and then the slit coil is wound by a winding roller. In the case of thick logs, a single circular disc cutter may not be able to cut the complete log. In addition, in whole rolling process, the tension of coil stock may change, if the tension of coil stock is less, the coil stock is lax this moment for the frictional force between circle disc cutter and the coil stock diminishes, the circumstances that the coil stock can't be cut or not thoroughly cut to the circle disc cutter will appear this moment. In the subsequent winding process, the situation that the local part of the coil stock is torn due to incomplete cutting can occur, unnecessary loss is generated, and the overall operation progress is influenced.

SUMMERY OF THE UTILITY MODEL

An advantage of the utility model is that a coiling mechanism with cut component is provided, wherein the coiling mechanism with cut component can carry out two-sided cutting to a coil stock, compares current mode of cutting, can avoid appearing the condition that the coil stock part was not cut or was not thoroughly cut ensures the coil stock can be thoroughly cut.

An advantage of the utility model is that a coiling mechanism with cut component is provided, wherein the coiling mechanism with cut component can be once only right the coil stock divide be cut into a plurality of coil stock sections and will be a plurality of the coil stock section rolls up respectively in a feed cylinder, improves the efficiency of rolling is cut to the coil stock.

An advantage of the utility model is that a coiling mechanism with cut component is provided, wherein the coiling mechanism with cut component can with the tension of coil stock falls into the three-section, and completely cuts off two adjacent sections tensions of coil stock make mutual noninterference between the three-section tension section of coil stock, in order to avoid coil stock local tension is too big or the undersize and influence whole operation.

An advantage of the utility model is that a coiling mechanism with cut component is provided, the coiling mechanism with cut component can make the coil stock is at the tension keep balance of rolling in-process, avoids the coil stock is because tension is too big, makes the coil stock is stretched straightly and warp, damages even.

An advantage of the utility model is that a coiling mechanism with cut component is provided, wherein the coiling mechanism with cut component can the in-process of coil stock rolling is right the coil stock carries out the flattening, so that the coil stock is levelly and smoothly rolled, improves the rolling quality of coil stock.

An advantage of the utility model is that a coiling mechanism with cut component is provided, wherein the coiling mechanism with cut component can utilize two sets of drives, realizes the conveying of coil stock the coil stock cut with a plurality of the rolling of coil stock section improves driven utilization ratio.

In order to achieve the utility model discloses above at least one advantage, the utility model provides a coiling mechanism with cut component for divide at least one coil stock and be cut into two at least coil stock sections, and will coil stock section rolling is in a feed cylinder, its characterized in that, the coiling mechanism with cut component includes:

the mounting assembly comprises two supporting pieces, and the two supporting pieces are arranged oppositely;

a slitting member including a primary slitting assembly and a secondary slitting assembly, the primary slitting assembly and the secondary slitting assembly being axially mounted in parallel between the two support members, the primary slitting assembly including a first driving member rotatably mounted between the two support members and at least one primary slitting member annularly disposed on a surface of the first driving member for slitting the web from one surface of the web, the secondary slitting assembly including a second driving member rotatably mounted between the two support members and at least one secondary slitting member annularly disposed on a surface of the second driving member, the secondary slitting member being opposed to the primary slitting member for slitting the web from the other surface of the web;

at least two rolling components, rolling component is rotationally set up in two between the support piece, rolling component is used for the coiling warp just cut the piece with the coil stock of repeated cutting segmentation.

According to the utility model discloses an embodiment, coiling mechanism with cut component still includes the isolated subassembly of a tension, the isolated subassembly of tension includes an entry tension roller and an export tension roller, the entry tension roller with export the adjacent setting of tension roller, just the entry tension roller with export the tension roller and be installed in two with rotation opposite direction's mode between the support piece, export the tension roller set up can be with the warp the entry tension roller conveys the coil stock direction first driving piece.

According to the utility model discloses an embodiment, the rolling subassembly includes a slip axle and a connecting piece, the second driving piece is set up can with the coil stock direction the slip axle, the slip axle is used for passing through cut the component cut after the coil stock rolling in the feed cylinder, the connecting piece is installed in the slip axle, the slip axle is put through with an external air source, the coiling mechanism that has the component of cutting still includes a drive mechanism, the drive mechanism includes a first drive component, first drive component be installed in the connecting piece, be used for driving the rolling subassembly rotates, first drive component includes a first drive subassembly and a first driving piece, first drive subassembly includes a first driving piece, first driving piece is installed in first driving piece with the connecting piece, first driving piece passes through first driving piece drives the connecting piece rotates, the rotational speed of first driving piece is adjustable.

According to the utility model discloses an embodiment, first area commentaries on classics subassembly still includes an at least first cooperation piece of commentaries on classics, first cooperation piece of commentaries on classics is installed in first transmission piece, first transmission piece is set up and can be driven first cooperation piece of commentaries on classics rotates.

According to the utility model discloses an embodiment, the area changes the mechanism and includes that a second area changes the component, the second area change the component install in cut the component with the isolated subassembly of tension, the second area changes the component and is used for driving cut the component with the isolated subassembly of tension rotates.

According to the utility model discloses an embodiment, the second area changes the component and includes a second area and changes subassembly and a second driving piece, the second area changes the subassembly and includes a second driving medium, the second driving medium be installed in the second driving piece the second area change the piece with the isolated subassembly of tension, the second driving medium is set up and can be driven entry tension roll with export tension roll rotates with opposite direction, just the second driving medium is set up and can be driven the second area changes the piece and rotates.

According to the utility model discloses an embodiment, the second area changes the subassembly and still includes an at least second cooperation piece, the second is joined in marriage and is changeed the piece and installed in the second driving medium, the second driving medium is set up and can be driven the second is joined in marriage and is changeed a rotation.

According to the utility model discloses an embodiment, coiling mechanism with cut component still includes a feeding mechanism, feeding mechanism includes one and advances the piece, it is rotationally installed in two to advance the piece between the support piece, advance the piece be used for to entry tension roller conveying the coil stock.

According to the utility model discloses an embodiment, feeding mechanism still includes two at least send out the component, send out the component and rotationally install in two between the support piece, send out the component set up quantity with the quantity that sets up of slippage axle keeps the unanimity, send out the component and be set up and can be with the warp the conveying of second driving piece the coil stock direction the slippage axle.

According to the utility model discloses an embodiment, it leads the subassembly to send out the component to include one and press, press and lead the subassembly and be used for the flattening the coil stock section, press and lead the subassembly and include a casting die and a holding in the palm piece down, it is located to go up the casting die the adjacent position of holding in the palm piece down, go up the casting die with the holding in the palm the piece down is set up respectively in first casting die with between the slip axle the both sides of coil stock removal orbit.

Drawings

Fig. 1 shows a schematic structural view of a winding device with slitting elements according to the present invention.

Fig. 2 shows a schematic structural view of the winding device with slitting members according to the present invention at another viewing angle.

Figure 3 shows the structural perspective view of the slitting component of the winding device with slitting components of the present invention.

Figure 4 shows the utility model discloses an isolated subassembly of tension of coiling mechanism with cut component's structure perspective.

Figure 5 shows a structural side view of the winding device with slitting elements according to the invention.

Figure 6 shows a structural cross-sectional view of the winding device with slitting elements according to the invention.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents and other technical solutions without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in a generic and descriptive sense only and not for purposes of limitation, as the terms are used in the description to indicate that the referenced device or element must have the specified orientation, be constructed and operated in the specified orientation, and not for the purpose of limitation.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

Referring to fig. 1 to 3, a winding device with slitting members for dividing at least one roll into at least two roll segments and winding the roll segments into a material cylinder according to a preferred embodiment of the present invention will be described in detail below. The winding device with slitting elements comprises a mounting assembly 10 and a slitting element 20.

The mounting assembly 10 comprises two supporting members 11, and the two supporting members 11 are oppositely arranged.

Further, the mounting assembly 10 further comprises at least one connecting member 12, wherein the connecting member 12 is mounted between the two supporting members 11 to increase the stability of the integral connection.

The slitting component 20 comprises a primary cutting component 21 and a secondary cutting component 22, wherein the primary cutting component 21 and the secondary cutting component 22 are adjacently arranged, and the primary cutting component 21 and the secondary cutting component 22 are axially and parallelly arranged between the two supporting pieces 11.

The primary cutting assembly 21 includes a first driving member 211 and at least one primary cutting member 212, wherein the first driving member 211 is rotatably installed between the two supporting members 11 for driving the primary cutting member 212 to rotate. The primary cutting member 212 is annularly disposed on a surface of the first driving member 211, and is used for cutting the web from a surface of the web.

The repeated cutting assembly 22 includes a second driving member 221 and at least one repeated cutting member 222, wherein the second driving member 221 is rotatably installed between the two supporting members 11 for driving the repeated cutting member 222 to rotate. The first driving member 211 is configured to guide the roll material to the second driving member 221. The secondary cutting member 222 is annularly disposed on the surface of the second driving member 221, the position of the secondary cutting member 222 corresponds to the position of the primary cutting member 212, and the secondary cutting member 222 is used for cutting the roll material from the other surface of the roll material.

The roll material is disposed on the first driver 211 and the second driver 221 in a manner that one surface of the roll material is attached to the first driver 211 and the other surface of the roll material is attached to the second driver 221. Based on the cooperation of just cutting subassembly 21 with the repeated cutting subassembly 22 is used to make cut component 20 can thoroughly cut the coil stock, so as to avoid the situation that the coil stock is cut and is not thoroughly caused partial coil stock to tear appears.

Preferably, the primary cutter 212 and the secondary cutter 222 are each implemented as a circular disk cutter.

Preferably, the coil stock is arranged on the first driving part 211 and the second driving part 221 in a manner that the upper surface of the coil stock is attached to the first driving part 211, and the lower surface of the coil stock is attached to the second driving part 221, at this time, the primary cutting part 212 cuts the coil stock from the upper surface of the coil stock, and the secondary cutting part 222 cuts the coil stock from the lower surface of the coil stock, so as to completely cut the coil stock.

As a deformable state, the web is attached to the first driver 211 at a lower surface thereof, and is disposed on the first driver 211 and the second driver 221 at an upper surface thereof in such a manner as to be attached to the second driver 221, at this time, the primary cutter 212 cuts the web from the lower surface thereof, and the secondary cutter 222 cuts the web from the upper surface thereof, thereby completely cutting the web.

In order to enable those skilled in the art to understand the present embodiment, in at least one of the following embodiments and the corresponding drawings, the first driver 211 and the second driver 221 are disposed only by way of example, and it should be understood by those skilled in the art that the material roll is attached to the first driver 211 at the upper surface and attached to the second driver 221 at the lower surface, and this is not a limitation to the present invention.

Preferably, either one of the first driving member 211 and the second driving member 221 is driven to rotate, the other one is driven to rotate by the moving action of the roll material, and the rotating directions of the first driving member 211 and the second driving member 221 are the same, at this time, the rotating direction of the second driving member 221 is opposite to the moving direction of the first driving member 211 for conveying the roll material, so as to increase the friction force of the roll material on the second driving member 221, improve the slitting force of the secondary cutting member 222 on the roll material, and ensure that the roll material is completely slit under the slitting action of the primary cutting member 212 and the secondary cutting member 222.

As a deformable way, the rotation of the first driving member 211 and the second driving member 221 are opposite, and at this time, the rotation direction of the second driving member 221 is synchronous with the moving direction of the first driving member 211 for conveying the roll, so that the purpose of completely cutting the roll by the primary cutting member 212 and the secondary cutting member 222 can be achieved.

In order to enable those skilled in the art to understand the present embodiment, in at least one of the following embodiments and the corresponding drawings, only the first driving component 211 and the second driving component 221 are driven to rotate, the other one is driven to rotate by the movement of the roll material, and the rotation directions of the first driving component 211 and the second driving component 221 are the same as an example for illustration, which should be understood by those skilled in the art and is not a limitation to the present invention.

It should be noted that the initial cutting piece 212 and the repeated cutting piece 222 can be provided in plural numbers, and the arrangement positions correspond to each other. The distance between two adjacent primary cutters 212 can be designed to be different sizes so that the slitting member 20 can divide the web into web segments of different widths. It will be understood by those skilled in the art that the distance between two adjacent primary cutters 212 can also be designed to be the same size, so that the slitting member 20 can slit the web into a plurality of web segments of the same width at a time.

Referring to fig. 4 to 5, the winding device with slitting members further comprises a tension isolation assembly 30, the tension isolation assembly 30 is rotatably mounted between the two supporting members 11, and the tension isolation assembly 30 is used for conveying the roll to the slitting members 20 to provide a reference speed for the conveying of the roll. The tension isolation assembly 30 comprises an inlet tension roller 31 and an outlet tension roller 32, the inlet tension roller 31 is adjacent to the outlet tension roller 32, the inlet tension roller 31 is opposite to the outlet tension roller 32 in rotation direction, and the outlet tension roller 32 is arranged to guide the coil stock conveyed by the inlet tension roller 31 to the primary cutting assembly 21. The web is transferred by the entrance tension roller 31 and the exit tension roller 32 in such a manner that one surface is stuck to the entrance tension roller 31 and the other surface is stuck to the exit tension roller 32. In other words, the trajectory of the web between the inlet tension roller 31 and the outlet tension roller 32 is S-shaped.

It is worth mentioning that due to the design that the coiled material presents an S-shaped motion track between the inlet tension roller 31 and the outlet tension roller 32, the tension of the coiled material is divided into three sections, and the three sections of tension of the coiled material are not interfered with each other, so that the influence of the excessive or insufficient local tension of the coiled material on the overall operation is avoided.

Preferably, the web is transferred by the entrance tension roller 31 and the exit tension roller 32 in such a manner that the upper surface of the web is stuck to the entrance tension roller 31 and the lower surface of the web is stuck to the exit tension roller 32, so that the exit tension roller 32 can transfer the web in such a manner that the upper surface of the web is stuck to the first driver 211.

Referring to fig. 5 to 6, the winding device with slitting members further includes at least two winding assemblies 40, the second driving member 221 is configured to guide the slit roll to the winding assemblies 40, and the winding assemblies 40 are rotatably disposed between the two supporting members 11. The winding assembly 40 comprises a slip shaft 41 and a connecting member 42, the material cylinder is mounted on the slip shaft 41, the second driving member 221 is arranged to guide the material to the slip shaft 41, and the sliding shaft 41 is used for winding the material which is slit by the slitting member 20 into the material cylinder. The connecting member 42 is mounted to the slip shaft 41, and the slip shaft 41 is in communication with an external air source.

Referring to fig. 5, the winding device with slitting members further comprises a belt rotating mechanism 50, and the belt rotating mechanism 50 comprises a first belt rotating member 51, and the first belt rotating member 51 is mounted on the connecting member 42 and used for driving the winding assembly 40 to rotate.

The first rotating member 51 includes a first rotating component 511 and a first driving member 512, the first rotating component 511 includes a first transmission member 5111, the first transmission member 5111 is mounted on the first driving member 512 and the connecting member 42, and the first driving member 512 drives the connecting member 42 to rotate through the first transmission member 5111.

It is worth mentioning that the rotation speed of the first driving member 512 is adjustable, and as the thickness of the roll material wound in the material cylinder increases, the slip shaft 41 is introduced with gas to increase the internal gas pressure, and at this time, the slip shaft 41 extrudes the material cylinder to increase the friction between the slip shaft 41 and the material cylinder, so that the first driving member 512 operates at a reduced speed to drive the whole roll material to be wound at a reduced speed, and further, the tension of the roll material is constant in the winding process, and the roll material is prevented from being deformed or even damaged due to being stretched because of the excessive tension.

It should be noted that the slip shaft 41 can be provided in a plurality, and the number of the slip shaft 41 is greater than that of the primary cutting member 212, so that when the slitting member 20 slits the roll into a plurality of roll segments at a time, the plurality of first slip shafts 41 can wind the plurality of roll segments into the barrel.

The first rotating component 511 further includes at least one first rotating member 5112, the first rotating member 5112 is installed on the first transmission member 5111, and the first transmission member 5111 is configured to drive the first rotating member 5112 to rotate, so as to adjust the manner in which the first transmission member 5111 is installed on the plurality of connection members 42 according to the requirement, so as to make the rotating directions of all the rolling components 40 consistent.

Preferably, the first transmission member 5111 is implemented as a belt, the first rotation-matching member 5112 is implemented as a rotating wheel, the first driving member 512 is implemented as a motor, the belt is wound around an output shaft of the motor, the rotating wheel and the connecting member 42, and the motor drives the connecting member 42 to rotate through the belt, so that the slip shaft 41 winds the roll material.

The first driving member 512 is implemented as at least two motors, the number of the motors is consistent with the number of the connecting members 42, the connecting members 42 are installed on the motors, and the motors drive the slip shaft 41 to rotate through the connecting members 42, so that the slip shaft 41 winds the roll. The first belt rotation assembly 511 is not provided at this time.

The tape rotating mechanism 50 further includes a second tape rotating member 52, and the second tape rotating member 52 is mounted on the slitting member 20 and the tension isolating assembly 30 for rotating the slitting member 20 and the tension isolating assembly 30.

The second rotating member 52 includes a second rotating component 521 and a second driving component 522, the second rotating component 521 includes a second transmission component 5211, the second transmission component 5211 is installed on the second driving component 522, the second driving component 221 and the tension isolating component 30, the second transmission component 5211 is configured to drive the inlet tension roller 31 and the outlet tension roller 32 to rotate in opposite directions, and the second transmission component 5211 is configured to drive the second driving component 221 to rotate, and the second driving component 221 and the first driving component 211 rotate in the same direction.

The second driving component 521 further includes at least one second rotating component 5212, the second rotating component 5212 is mounted on the second transmission component 5211, and the second transmission component 5211 is configured to drive the second rotating component 5212 to rotate, so as to adjust the manner in which the second transmission component 5211 is mounted on the inlet tension roller 31, the outlet tension roller 32 and the second driving component 221 according to requirements, so as to ensure that the rotation directions of the inlet tension roller 31 and the outlet tension roller 32 are opposite, and the rotation directions of the second driving component 221 and the first driving component 211 are the same.

Preferably, the second transmission member 5211 is implemented as a belt, the second rotation-matching member 5212 is implemented as a rotating wheel, and the second driving member 522 is implemented as a motor, which is wound around an output shaft of the motor, the rotating wheel, the inlet tension roller 31, the outlet tension roller 32 and the second driving member 221, and the motor drives the inlet tension roller 31, the outlet tension roller 32 and the second driving member 221 to rotate through the belt.

The second driving member 522 is implemented as a deformable three-motor, and the inlet tension roller 31, the outlet tension roller 32 and the second driving member 221 are respectively mounted on the three motors, so that the three motors respectively drive the inlet tension roller 31, the outlet tension roller 32 and the second driving member 221 to rotate. The second belt rotating assembly 521 is not provided.

Referring to fig. 6, the winding device with slitting members further comprises a feeding mechanism 60, the feeding mechanism 60 comprises at least one feeding member 61, the feeding member 61 is rotatably mounted between the two supporting members 11, and the feeding member 61 is used for conveying the roll material to the inlet tension roller 31.

The feeding mechanism 60 further includes at least two feeding members 62, the feeding members 62 are rotatably mounted between the two supporting members 11, and the number of the feeding members 62 is identical to the number of the slip shafts 41. The feeding member 62 is provided to guide the roll material conveyed by the second driver 221 to the slip shaft 41.

The feeding member 62 includes a pressing and guiding assembly 621, the pressing and guiding assembly 621 includes an upper pressing member 6211 and a lower supporting member 6212, the upper pressing member 6211 is located adjacent to the lower supporting member 6212, a gap for the roll material to pass through is provided between the upper pressing member 6211 and the lower supporting member 6212, and the upper pressing member 6211 and the lower supporting member 6212 cooperate to level the roll material section. The upper holding member 6211 and the lower holding member 6212 are respectively provided on both sides of the movement locus of the web between the second driving member 221 and the slip shaft 41.

The feeding member 62 further comprises at least one transition piece 622, wherein the transition piece 622 is rotatably installed between the two supporting members 11, and the transition piece 622 is configured to guide the roll material conveyed by the second driving member 221 to the guiding component 621.

The use method of the winding device with the slitting components comprises the following steps:

the first driving part 211 conveys the coil stock to the second driving part 221, while the primary cutting part 212 contacts with one surface of the coil stock and cuts the coil stock, and the secondary cutting part 222 contacts with the other surface of the coil stock and cuts the coil stock, so that the coil stock is completely cut;

the second driving part 221 guides the cut coil material section to the winding component, and the winding component winds the coil material section.

Preferably, the use method of the winding device with the slitting members further comprises the following steps:

(A) The coil stock is conveyed from the inlet tension roller 31 to the outlet tension roller 32 along the S-shaped trend, and the outlet tension roller 32 conveys the coil stock to the first driving piece 211;

(B) The second driving member 221 transmits the roll material to the slip shaft 41, the first driving member 512 drives at least two of the connecting members 42 to rotate through the first driving member 5111, the slip shaft 41 winds the roll material into the barrel, the slip shaft 41 is inflated with gas to increase the internal gas pressure as the thickness of the roll material wound on the slip shaft 41 gradually increases, so that the slip shaft 41 extrudes the barrel, and the first driving member 512 operates at a reduced speed, so that the slip shaft 41 drives the barrel to wind at a reduced speed, and further the tension of the roll material is constant in the winding process.

Preferably, the use method of the winding device with the slitting components further comprises the following steps: the second driving member 522 drives the inlet tension roller 31 and the outlet tension roller 32 to rotate in opposite directions through the second transmission member 5211, and the second driving member 522 drives the second driving member 221 to rotate through the second transmission member 5211.

It will be understood by those skilled in the art that the embodiments of the present invention described above and shown in the drawings are given by way of example only and are not limiting of the present invention. The advantages of the present invention are already complete and effectively realized. The functional and structural principles of the present invention have been shown and described in the embodiments without departing from the principles, embodiments of the present invention may have any deformation or modification.

Claims (10)

1. The winding device with the slitting component is used for cutting at least one roll into at least two roll sections and winding the roll sections into a material cylinder, and is characterized by comprising the following components:

the mounting assembly comprises two supporting pieces, and the two supporting pieces are arranged oppositely;

a slitting member including a primary slitting assembly and a secondary slitting assembly, the primary slitting assembly and the secondary slitting assembly being axially mounted in parallel between the two support members, the primary slitting assembly including a first driving member rotatably mounted between the two support members and at least one primary slitting member annularly disposed on a surface of the first driving member for slitting the web from one surface of the web, the secondary slitting assembly including a second driving member rotatably mounted between the two support members and at least one secondary slitting member annularly disposed on a surface of the second driving member, the secondary slitting member being opposed to the primary slitting member for slitting the web from the other surface of the web;

at least two rolling components, rolling component is rotationally set up in two between the support piece, rolling component is used for the coiling warp just cut the piece with the coil stock of repeated cutting segmentation.

2. The winding device with slitting members as claimed in claim 1, further comprising a tension isolating assembly, the tension isolating assembly comprising an inlet tension roller and an outlet tension roller, the inlet tension roller and the outlet tension roller being disposed adjacent to each other, and the inlet tension roller and the outlet tension roller being mounted between the two support members in a manner opposite to each other in rotation direction, the outlet tension roller being disposed so as to guide the web conveyed by the inlet tension roller to the first driving member.

3. The winding device with slitting members as claimed in claim 2, wherein the winding assembly includes a slip shaft and a connecting member, the second driving member is configured to guide the roll to the slip shaft, the slip shaft is configured to wind the roll slit by the slitting members into the material barrel, the connecting member is mounted on the slip shaft, the slip shaft is connected to an external air source, the winding device with slitting members further includes a driving mechanism, the driving mechanism includes a first driving member, the first driving member is mounted on the connecting member, the first driving member is configured to drive the winding assembly to rotate, the first driving member includes a first driving member and a first driving member, the first driving member includes a first driving member, the first driving member is mounted on the first driving member and the connecting member, the first driving member drives the connecting member to rotate through the first driving member, and a rotation speed of the first driving member is adjustable.

4. The winding device with slitting members as claimed in claim 3, wherein the first rotating assembly further comprises at least a first rotating member, the first rotating member is mounted to the first transmission member, and the first transmission member is configured to rotate the first rotating member.

5. The winding device with slitting members as claimed in claim 4, wherein the tape rotating mechanism comprises a second tape rotating member, the second tape rotating member being mounted to the slitting members and the tension isolating assembly, the second tape rotating member being adapted to rotate the slitting members and the tension isolating assembly.

6. A reel with slitting elements according to claim 5, in which the second belt-rotating element comprises a second belt-rotating component and a second drive element, the second belt-rotating component comprising a second transmission element, the second transmission element being mounted on the second drive element, the second driving element and the tension isolating component, the second transmission element being arranged to drive the inlet tension roller and the outlet tension roller in opposite directions, and the second transmission element being arranged to drive the second driving element in rotation.

7. The winding device with slitting members according to claim 6, wherein the second belt rotating assembly further comprises at least a second rotating member, the second rotating member being mounted to the second transmission member, the second transmission member being configured to rotate the second rotating member.

8. A reel with slitting elements according to claim 7, characterized in that the reel with slitting elements further comprises a feeding mechanism comprising a feed element which is rotatably mounted between the two support elements and which is adapted to transfer the roll to the inlet tension roller.

9. A reel with slitting members according to claim 8, characterized in that the feeding mechanism further comprises at least two outfeed members which are rotatably mounted between the two support elements, the number of outfeed members being identical to the number of the slip shaft, the outfeed members being arranged to direct the web conveyed by the second driving member towards the slip shaft.

10. The winding device with slitting members as claimed in claim 9, wherein the feeding member comprises a pressing guide assembly for leveling the material winding section, the pressing guide assembly comprises an upper pressing member and a lower supporting member, the upper pressing member is located adjacent to the lower supporting member, and the upper pressing member and the lower supporting member are respectively disposed on two sides of the moving track of the material winding between the first driving member and the slip shaft.

Images