CN219009425U - Winding mechanism with good material collecting stability - Google Patents

Abstract

The utility model relates to the technical field of slitting and winding, in particular to a winding mechanism with good material receiving stability, which comprises a machine body and a winding roller rotatably arranged on the machine body, wherein the winding roller is used for winding a tab belt, the machine body is further provided with a material pressing module, the material pressing module comprises a material pressing driving piece, a material pressing seat and a material pressing roller, the material pressing driving piece is used for driving the material pressing seat to swing to be close to or far away from the winding roller, the material pressing roller is rotatably arranged on the material pressing seat, and the material pressing roller is used for flattening the tab belt wound by the winding roller. The material pressing module is arranged, and particularly the material pressing driving piece drives the material pressing seat to swing so that the material pressing roller is abutted against the material on the rolling shaft, thereby ensuring the reliable low position of the material pressing roller and the material and avoiding the problem that the material cannot be reliably attached to the rolled material due to the fact that actions of two sides are asynchronous.

Description

Winding mechanism with good material collecting stability

Technical Field

The utility model relates to the technical field of slitting and winding, in particular to a winding mechanism with good material receiving stability.

Background

After the tab and other products are coated, they are typically dried, then slit and wound. Generally speaking, the tab is cut into a plurality of sections with very small widths, and then the sections are wound onto winding shafts respectively, wherein the winding shafts are sleeved on the winding shafts at intervals, and the winding shafts are driven to rotate by the winding shafts so as to drive the winding effect.

In the prior art, in order to ensure that the material can be tightly rolled, the material pressing mechanism is pressed tightly once after the material is rolled for one layer in a rolling process in a material pressing mode, so that the phenomenon that rolling is unstable due to gaps between adjacent layers is avoided. But most of the existing winding is driven in a linear manner, so that the winding takes up more positions, and the linear driving is usually carried out by arranging driving modules on two sides, namely, two driving modules are easy to cause uneven structure of the backing material due to asynchronous driving, so that the winding compactness of part of winding shafts is affected.

Disclosure of Invention

The utility model provides a winding mechanism with good material receiving stability aiming at the problems of the prior art, which can keep the material closely attached to the material on the inner side of a winding shaft in the winding process, thereby ensuring the stability and reliability of the material roll formed by winding.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the winding mechanism with good material receiving stability comprises a machine body and a winding roller rotatably arranged on the machine body, wherein the winding roller is used for winding the tab belt, the machine body is further provided with a material pressing module, the material pressing module comprises a material pressing driving piece, a material pressing seat and a material pressing roller, the material pressing driving piece is used for driving the material pressing seat to swing to be close to or far away from the winding roller, the material pressing roller is rotatably arranged on the material pressing seat, and the material pressing roller is used for flattening the tab belt wound by the winding roller.

Further, the material pressing driving piece comprises a material pressing air cylinder and a material pressing swinging piece, the material pressing air cylinder is arranged on the machine body, two ends of the material pressing swinging piece are respectively connected with the machine body and the material pressing seat in a rotating mode, a piston rod of the material pressing air cylinder is connected with the material pressing swinging piece in a rotating mode, and the material pressing air cylinder is used for driving the material pressing swinging piece to swing.

Further, the number of the material pressing modules is two, and the two material pressing modules are located on the same side of the winding roller and are arranged at intervals.

Further, the organism still is provided with movable seat, and the one end rotation of wind-up roll sets up in the organism, and movable seat activity sets up in the organism, and the movable seat is provided with the spacing groove, and the shape of spacing groove suits with the shape of wind-up roll other end, and the spacing groove is used for the other end of holding wind-up roll, and the top of spacing groove still is provided with the setting element that is used for carrying out the location to the wind-up roll.

Furthermore, the locating piece comprises a locating cylinder, and a piston rod of the locating cylinder protrudes into the limiting groove.

Further, the machine body is provided with a movable groove, and the movable seat is slidably arranged in the movable groove.

Further, the wind-up roll includes roll body and a plurality of guide structure, and a plurality of guide structure all set up in the roll body, are provided with separation structure between the adjacent guide structure, and guide structure is used for inserting in the take-up shaft and contradicts with the inside wall of take-up shaft.

Furthermore, the guide structure comprises a plurality of rollers which are respectively perpendicular to the roller body in an annular array by taking the central axis of the roller body as the circle center, wherein the central axis of the rollers is perpendicular to the central axis of the roller body.

Still further, the separation structure includes spring ring, fixed cover and movable sleeve, and fixed cover is fixed to be set up in the roll body, and the movable sleeve activity sets up in the roll body, and the spring ring is around locating the roll body and be located between fixed cover and the movable sleeve, has the clearance between movable sleeve and the guide structure.

Furthermore, a clamping block is arranged between the fixed sleeve and the movable sleeve, the clamping block is provided with a containing groove for containing the spring ring, and two sides of the spring ring are respectively abutted against the movable sleeve and the fixed sleeve.

The utility model has the beneficial effects that: the material pressing module is arranged, and particularly the material pressing driving piece drives the material pressing seat to swing so that the material pressing roller is abutted against the material on the rolling shaft, thereby ensuring the reliable low position of the material pressing roller and the material and avoiding the problem that the material cannot be reliably attached to the rolled material due to the fact that actions of two sides are asynchronous.

Drawings

FIG. 1 is a schematic diagram of the present utility model.

Fig. 2 is a side view of the present utility model.

FIG. 3 is a schematic view of a wind-up roll of the present utility model.

Reference numerals: 1-organism, 2-wind-up roll, 3-swage module, 4-wind-up roll, 11-movable seat, 12-spacing groove, 13-setting element, 14-movable groove, 21-roll body, 22-structure, 23-separation structure, 24-spring ring, 25-fixed cover, 26-movable cover, 27-clamp block, 28-baffle, 31-swage driving element, 32-swage seat, 33-swage roll, 34-swage cylinder, 35-swage swinging element.

Detailed Description

The utility model will be further described with reference to examples and drawings, to which reference is made, but which are not intended to limit the scope of the utility model. The present utility model will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1 to 3, the winding mechanism with good material receiving stability provided by the utility model comprises a machine body 1 and a winding roller 2 rotatably arranged on the machine body 1, wherein the winding roller 2 is used for winding a tab belt, the machine body 1 is further provided with a material pressing module 3, the material pressing module 3 comprises a material pressing driving piece 31, a material pressing seat 32 and a material pressing roller 33, the material pressing driving piece 31 is used for driving the material pressing seat 32 to swing to be close to or far away from the winding roller 2, the material pressing roller 33 is rotatably arranged on the material pressing seat 32, and the material pressing roller 33 is used for flattening the tab belt wound by the winding roller 2.

Before the utility model works, a plurality of winding shafts 4 are sleeved on the winding shaft 2 by workers, and then the pressing driving piece 31 drives the pressing seat 32 to swing so as to enable the pressing roller 33 to swing to be in contact with the winding shaft 4; then the outside slitting mechanism is used for slitting the materials and then respectively guiding the slit materials to each winding shaft 4, and meanwhile, the winding roller 2 is driven by a winding driving module (not shown in the figure) to continuously rotate, so that the effect of winding the materials is realized; in the winding process, the material pressing roller 33 of the material pressing module 3 is abutted against the material on the winding shaft 4 at any time, and as the thickness of the material wound by the winding shaft 4 increases, the material pressing roller 33 is continuously pushed to push along an arc line, and at the moment, the material pressing driving piece 31 is continuously reset along with the winding, so that the material pressing roller 33 can continuously adjust the gesture to ensure that the material is not excessively extruded while the material pressing is performed.

In this embodiment, the pressing driving member 31 includes a pressing cylinder 34 and a pressing swinging member 35, the pressing cylinder 34 is mounted on the machine body 1, two ends of the pressing swinging member 35 are respectively rotatably connected to the machine body 1 and the pressing seat 32, a piston rod of the pressing cylinder 34 is rotatably connected to the pressing swinging member 35, and the pressing cylinder 34 is used for driving the pressing swinging member 35 to swing.

That is, the pressing cylinder 34 realizes the effect of controlling the swinging of the pressing swinging member 35 in a manner of extending and contracting the piston rod, so that the pressing roller 33 is abutted against the winding shaft 4 along the arc track in a swinging manner, and continuously retreats along with the increase of the thickness of the material collected by the winding shaft 4. Compared with the linear material pressing structure, the material pressing device has the advantages that due to the swing structure, the material pressing device is smaller in extrusion, and damage to the material is avoided.

In this embodiment, the number of the pressing modules 3 is two, and the two pressing modules 3 are located on the same side of the wind-up roll 2 and are spaced from each other.

Namely, the two material pressing modules 3 respectively prop against the materials on two sides of the wind-up roll 2, so that the length of the material pressing roll 33 is ensured not to be too long, and the material pressing effect can be prevented from being influenced by unbalance of the material pressing roll 33.

In this embodiment, the machine body 1 is further provided with a movable seat 11, one end of the wind-up roll 2 is rotatably arranged on the machine body 1, the movable seat 11 is movably arranged on the machine body 1, the movable seat 11 is provided with a limiting groove 12, the shape of the limiting groove 12 is adapted to the shape of the other end of the wind-up roll 2, the limiting groove 12 is used for accommodating the other end of the wind-up roll 2, and a positioning piece 13 used for positioning the wind-up roll 2 is further arranged at the top of the limiting groove 12.

That is, when the winding shaft 4 needs to be replaced, all the winding shafts 4 on the winding shaft 2 can be withdrawn from the winding shaft 2 and replaced after the movable seat 11 is moved so that the other end of the winding shaft 2 is separated from the movable seat 11, thereby improving the replacement efficiency.

Specifically, the internal diameter of spacing groove 12 is greater than the external diameter of wind-up roll 2 other end, setting element 13 includes the location cylinder, and the piston rod of location cylinder stretches into in the spacing groove 12 to let wind-up roll 2 get into behind the spacing groove 12, prevent wind-up roll 2 emergence skew through the location cylinder conflict, guaranteed the stability of rolling.

Specifically, the machine body 1 is provided with a movable groove 14, and the movable seat 11 is slidably arranged in the movable groove 14; the movable seat 11 may be provided with a handle (not shown in the figures) so that a worker can pull the movable seat 11 by the handle to disengage the wind-up roll 2 from the movable seat 11.

In this embodiment, the wind-up roll 2 includes a roll body 21 and a plurality of guiding structures 22, the guiding structures 22 are all disposed on the roll body 21, a separation structure 23 is disposed between adjacent guiding structures 22, and the guiding structures 22 are used for being inserted into the wind-up roll 4 and abutting against the inner side wall of the wind-up roll 4.

That is, each guiding structure 22 is correspondingly positioned with one winding shaft 4, and the separating structure 23 has the effect of making the two adjacent guiding structures 22 have a space, so that the adjacent materials have a sufficient distance to avoid adhesion during winding.

Specifically, the guiding structure 22 includes a plurality of rollers, the rollers are arranged in an annular array with the central axis of the roller body 21 as a center of a circle, and are respectively perpendicular to the central axis of the roller body 21. When the winding shaft 4 is installed or removed, the winding shaft 4 slides along the roller, so that the winding shaft 4 can conveniently move back and forth along the length direction of the winding shaft 2; the separation structure 23 has a limit effect, and a worker is required to apply a slightly larger force to enable the winding shaft 4 to move across the separation structure 23, so that the winding shaft 4 is ensured not to move along the length direction of the winding roller 2 in the winding action.

Specifically, the separation structure 23 includes a spring ring 24, a fixed sleeve 25 and a movable sleeve 26, the fixed sleeve 25 is fixedly arranged on the roller body 21, the movable sleeve 26 is movably arranged on the roller body 21, the spring ring 24 is wound on the roller body 21 and is positioned between the fixed sleeve 25 and the movable sleeve 26, and a gap is formed between the movable sleeve 26 and the guiding structure 22.

In practice, the separation structure 23 further comprises a partition 28 disposed between the movable sleeve 26 and the guiding structure 22, for allowing a worker to apply a slightly larger force to cross; the spring ring 24, the fixed sleeve 25 and the movable sleeve 26 are matched, so that the winding shaft 4 is sleeved, and the winding shaft 4 can be adjusted by small left-right movement during winding, and the effect of self-adaptive adjustment of the winding shaft 4 according to factors such as material offset is achieved.

Specifically, a clamping block 27 is arranged between the fixed sleeve 25 and the movable sleeve 26, the clamping block 27 is provided with a containing groove for containing the spring ring 24, two sides of the spring ring 24 are respectively abutted against the movable sleeve 26 and the fixed sleeve 25, the effect of positioning the spring ring 24 is achieved, and the movable sleeve 26 can reset under the reset force of the spring ring 24 after being deflected.

The present utility model is not limited to the preferred embodiments, but is intended to be limited to the following description, and any modifications, equivalent changes and variations in light of the above-described embodiments will be apparent to those skilled in the art without departing from the scope of the present utility model.

Claims (10)

1. The utility model provides a receive winding mechanism that material stability is good, includes the organism and rotates the wind-up roll that sets up in the organism, and the wind-up roll is used for winding utmost point ear area, its characterized in that: the machine body is further provided with a material pressing module, the material pressing module comprises a material pressing driving piece, a material pressing seat and a material pressing roller, the material pressing driving piece is used for driving the material pressing seat to swing to be close to or far away from the winding roller, the material pressing roller is rotationally arranged on the material pressing seat, and the material pressing roller is used for smoothing the tab belt wound by the winding roller.

2. The winding mechanism with good material receiving stability according to claim 1, wherein: the pressing driving piece comprises a pressing air cylinder and a pressing swinging piece, the pressing air cylinder is arranged on the machine body, two ends of the pressing swinging piece are respectively connected with the machine body and the pressing seat in a rotating mode, a piston rod of the pressing air cylinder is connected with the pressing swinging piece in a rotating mode, and the pressing air cylinder is used for driving the pressing swinging piece to swing.

3. The winding mechanism with good material receiving stability according to claim 1, wherein: the number of the material pressing modules is two, and the two material pressing modules are located on the same side of the winding roller and are arranged at intervals.

4. The winding mechanism with good material receiving stability according to claim 1, wherein: the machine body is further provided with a movable seat, one end of the wind-up roll is rotatably arranged on the machine body, the movable seat is movably arranged on the machine body, the movable seat is provided with a limiting groove, the shape of the limiting groove is adaptive to that of the other end of the wind-up roll, the limiting groove is used for accommodating the other end of the wind-up roll, and the top of the limiting groove is further provided with a positioning piece used for positioning the wind-up roll.

5. The winding mechanism with good material receiving stability according to claim 4, wherein: the locating piece comprises a locating cylinder, and a piston rod of the locating cylinder protrudes into the limiting groove.

6. The winding mechanism with good material receiving stability according to claim 4, wherein: the machine body is provided with a movable groove, and the movable seat is arranged in the movable groove in a sliding manner.

7. The winding mechanism with good material receiving stability according to claim 1, wherein: the wind-up roll comprises a roll body and a plurality of guide structures, wherein the guide structures are arranged on the roll body, a separation structure is arranged between the adjacent guide structures, and the guide structures are used for being inserted into the wind-up roll and abutting against the inner side wall of the wind-up roll.

8. The winding mechanism with good material receiving stability according to claim 7, wherein: the guide structure comprises a plurality of rollers which are respectively perpendicular to the roller body in an annular array by taking the central axis of the roller body as the circle center.

9. The winding mechanism with good material receiving stability according to claim 7, wherein: the separation structure comprises a spring ring, a fixed sleeve and a movable sleeve, wherein the fixed sleeve is fixedly arranged on the roller body, the movable sleeve is movably arranged on the roller body, the spring ring is wound on the roller body and is positioned between the fixed sleeve and the movable sleeve, and a gap is reserved between the movable sleeve and the guide structure.

10. The winding mechanism with good material receiving stability according to claim 9, wherein: a clamping block is arranged between the fixed sleeve and the movable sleeve, the clamping block is provided with a containing groove for containing the spring ring, and two sides of the spring ring are respectively abutted against the movable sleeve and the fixed sleeve.

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