JPH0621416B2 - Uneven roll - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a roll used when a sheet material such as a cloth or a film is fed and moved, molded, or the like, and particularly when the cloth is straightened. It is a thing.

2. Description of the Related Art When finishing a fabric as a final product, it is required that the weft yarn be as parallel to the warp yarn as possible. This demand has become stronger and stronger with the recent technological progress, and it is necessary to maintain the parallelism of the weft threads with high accuracy.

In this case, in particular, for the cloth after dyeing, or for the cloth whose surface is coated with a resin in order to protect it from abrasion due to solar heat or friction, a contracted woven structure is formed to make the weft yarn parallel to the warp yarn. In order to do so, considerable technology is required.

Generally, in order to make the weft threads of the cloth parallel to the warp threads, the cloth is straightened by rolls. In texture correction,
A roll made of a cylinder having a certain diameter and fitted in a bearing is arranged so as to rotate while its cylindrical surface is pressed against the surface of the cloth, and a sensor for detecting the feeding state of the weft thread of the cloth is arranged. Then, the ear portions at both ends of the cloth are pulled. Then, while detecting the curved state of the weft by the sensor, the feed speed of each of the ear portions at both ends is adjusted to correct the cloth.

According to this method, in the case of a knitted fabric in which the weft threads are inclined in a certain direction, if one ear is fed faster than the other ear, the texture can be relatively satisfactorily corrected. Is not effective for this type of fabric. That is, the ear portion of the cloth is less stretchable and thicker than the other portions. Therefore, when the fabric is fed while pulling the ears on both ends, the feeding speed of the ears inevitably becomes higher than the feeding speed of the parts other than the ears, and the fabric is fed from the roll with the wefts curved.

In order to solve this, a roll has been developed in which the peripheral wall of the roll is mechanically changed in the radial direction so that the feeding speed of the central portion in the width direction of the fabric can be made higher than that of the peripheral portion.

For example, in the roll disclosed in Japanese Patent Laid-Open No. 63-75175, a plurality of flexible rods are arranged at intervals and parallel to the longitudinal direction in a cylindrical shape around one axis to form a roll peripheral wall. At the center, each rod is hingedly connected to a disc mounted on a shaft. Further, each rod is hingedly connected to each one sleeve movably supported in the axial direction via a load lever in the vicinity of the end portion of the shaft, and each load lever has:
A power lever connected to the shaft is hingedly engaged.
Thus, the roll peripheral wall changes in the radial direction at both ends in response to the movement of the sleeve along the axial direction.

Further, in the cloth straightening roll described in Japanese Patent Publication No. 41-2756, a large number of flexible rod members are arranged in a cylindrical shape parallel to the longitudinal direction at intervals, and each rod member is placed at a central position. It is connected to and supported by the disc-shaped support member, and the support member is rotatably supported together with the central support shaft. Both ends of the rod are in an open state, and the diameter of the aperture of the open end is adjusted by a cone body slidably arranged on the support shaft in the axial direction.

However, in all of these rolls, the rod constituting the roll outer peripheral wall is connected to the disc-shaped support member at its midpoint position and is in an open state at both ends, The diameter of the open end is changed while the diameter of the midpoint position is fixed. The repeated use of the rolls causes fatigue of the rods forming the outer peripheral wall of the rolls, and the rods are easily broken at the midpoint. In addition, since the rod is supported at three points at its center and both ends, when it is used for a cloth having a width smaller than the width of the roll, the load due to the pulling of the cloth must be received in the unsupported intermediate area. However, the rod may be bent inward. Further, because of the three-point support, the contour of the outer peripheral wall of the roll along the axial direction is formed as continuous straight portions, and as a result, wrinkles may occur on the fabric during use.

Therefore, an object of the present invention is that the outer peripheral wall of the roll is not easily damaged even after repeated use, and can be used without problem even for a fabric having a width smaller than the width of the roll,
Another object of the present invention is to provide a roll in which the roll outer peripheral wall can be changed in the radial direction so that the contour of the roll along the axial direction is always a smooth curve.

Means for Solving the Problems In order to solve the above problems, the present invention provides a rotating shaft, an outer cylindrical portion coaxially attached to the rotating shaft, and a circular shape perpendicular to the shaft in the outer cylindrical portion. In a concavo-convex roll that has means for continuously changing the radius of the cross section in the axial direction of the outer cylindrical portion, and the peripheral wall of the outer cylindrical portion can protrude or be recessed in the radial direction from a state parallel to the rotation axis, Means for continuously changing the radius of the circular cross section perpendicular to the axis in the outer cylindrical portion in the axial direction of the outer cylindrical portion is provided between the rotating shaft and the outer cylindrical portion in the axial direction coaxial with the rotating shaft. An inner cylindrical portion that is slidably guided so as to be rotatable around the rotation axis; and a drive unit that slides the inner cylindrical portion.
A plurality of conical protrusions provided on the outer peripheral wall surface of the inner cylindrical portion so as to protrude in the radial direction at predetermined intervals in the axial direction, and having slopes inclined at a constant angle with respect to the rotation axis; It is provided at a position corresponding to each conical protrusion of the inner cylindrical portion on the inner peripheral wall surface of the outer cylindrical portion, and on the slope of the conical protrusion of the inner cylindrical portion along with the sliding movement of the inner cylindrical portion. A plurality of rollers that roll in the axial direction of the rotating shaft, and a biasing force in a direction that radially contracts the peripheral wall of the outer cylindrical portion, the roller of the outer cylindrical portion of the conical projection of the inner cylindrical portion. The concave-convex roll is characterized by comprising means for constantly contacting the slope.

In a preferred embodiment of the present invention, when the peripheral wall of the outer cylindrical portion is parallel to the rotation axis, the roller of the outer cylindrical portion is located at the center of the slope of the conical protrusion of the inner cylindrical portion. The angle of the slopes of the plurality of conical projections provided on the outer peripheral wall surface of the inner cylindrical portion is the largest at the central portion of the inner cylindrical portion, and gradually decreases from the central portion toward both end portions. There is.

Operation In the above configuration, the inner cylindrical portion is slid with respect to the outer cylindrical portion, and the outer portion of the outer peripheral wall surface of the inner cylindrical portion is slid along the slopes of a large number of conical projections that are axially spaced. By rolling the corresponding roller provided on the inner peripheral wall surface of the cylindrical portion, the outer cylindrical portion can be deformed in the radial direction so that the contour of the outer cylindrical portion along the axial direction forms a hyperbola.

And, for example, when it is desired to make the feeding speed of the central portion of the sheet material higher than the feeding speed of the peripheral portion, the radius of the circular cross section perpendicular to the axis in the outer cylindrical portion of the uneven roll is the largest in the central portion of the roll. It becomes gradually smaller from the central part toward the peripheral part. As a result, as the roll rotates, the central portion of the roll cylindrical surface feeds the sheet material longer than the peripheral portion of the roll cylindrical surface feeds the sheet material.

On the contrary, when it is desired to make the feeding speed of the central portion of the sheet material slower than the feeding speed of the peripheral portion, the radius of the circular cross section perpendicular to the axis in the outer cylindrical portion of the roll becomes the smallest in the central portion of the roll, By gradually increasing the size from the central portion toward the peripheral portion, as the roll rotates, the central portion of the roll cylindrical surface feeds the sheet material, and the peripheral portion of the roll cylindrical surface feeds the sheet material. It is shorter than the distance.

In this way, while detecting the parallelism of the sheet material to the roll, the outer cylindrical portion of the roll is appropriately deformed according to the detection result, and the sheet material is fed while changing the feeding speed of the sheet material in the width direction. , Sheet material can be fed parallel to the roll.

Embodiments Embodiments of the present invention will be described below with reference to the accompanying drawings.

As shown in FIG. 1, the concavo-convex roll according to the present invention comprises a rotating shaft (1), an outer cylindrical portion (2) rotatably attached to the rotating shaft (1) coaxially and integrally therewith, An inner cylinder guided between the rotating shaft (1) and the outer cylindrical portion (2) so as to be axially slidable coaxially with the rotating shaft (1) and rotatable about the rotating shaft (1). And part (3).

The outer cylinder part (2) has a two-layer structure in which a rubber sheet (7) or the like is attached to the outer surface of a thin plate (6) of SUS or SS41 with an adhesive, and a cylinder with both ends opened. At one end side (the left end side in the drawing), it is fixed to the rotary shaft (1) by a boss (4) extending in a cross shape in the radial direction from the rotary shaft (1). The rubber sheet (7) has a function of generating an appropriate frictional force between the roll surface and the sheet material when feeding the sheet material such as cloth. A cylindrical guide member (5) is attached to the inner peripheral edge of the inlet of the opening on the other end side (right end side in the drawing).

On the inner peripheral wall surface of the outer cylindrical portion (2), positions at predetermined intervals in the axial direction, for example, in the present embodiment, the central position of the outer cylindrical portion (2), and from the central position toward both ends. At three positions, the left side position and the right side position, which are equidistant from each other,
A plurality of rollers (8), (8 '), (8 ") are mounted along the inner circumference of the outer cylindrical portion (2) with a constant central angle. ), (8 ′) and (8 ″) are arranged so that their rotation axes are perpendicular to the axis of the outer cylindrical part (2) and fixed to the thin plate (6) of the outer cylindrical part (2) with bolts (20). Has been done.
Also, the rollers (8), (8 '), and (8 ") are arranged as closely as possible on the circumference of the inner circle of the outer cylindrical portion (2) at each of the central position, the left position, and the right position. It is preferable to be arranged in 5 to 10 pieces.

The inner cylindrical portion (3) includes a peripheral wall (3a), a first bush (11) attached to one end side (the left end side in the drawing) of the peripheral wall (3a) with respect to the rotating shaft (1), and the peripheral wall (3a). ) Attached to the other end side (right end side in the drawing) of the second bush (12) with respect to the rotating shaft (1). Thus, the inner cylindrical part (3)
Is slidable along the axial direction of the rotating shaft (1) and rotatable about the rotating shaft (1). You are free to enter. Also, the inner cylindrical part (3)
The peripheral edge of the ring-shaped protrusion (12a) formed on the second bush (12) moves on the surface of the guide member (5) at the opening entrance of the outer cylindrical portion (2) along with the sliding movement of the second bush (12). It is designed to slide.

On the outer wall surface of the inner cylindrical portion (3), at a position with a predetermined interval in the axial direction, at a position corresponding to each of the three positions where the roller (8) of the outer cylindrical portion (2) is attached, A conical protrusion (4) protruding in the radial direction is formed. These conical protrusions (14) are inclined in a fixed direction, in the case of this embodiment, so as to decrease toward the left side, and the inclination angle θ is the conical protrusions (14) at the left side position and the right side position. The angle of inclination of the protrusion (14) at the central position is larger than these. Further, regarding the positional relationship between the roller (8) of the outer cylindrical portion (2) and the conical protrusion portion (14) of the inner cylindrical portion (3), each roller (8) has a slope of the conical protrusion portion (14). When located in the upper center, the cylindrical surface of the outer cylinder (2) is the axis of rotation.
It is set to be parallel to (1).

Ring-shaped springs (10), (10 '), (1) at the center position, left side position and right side position of the outer cylindrical portion (2), respectively.
0 ″) is stretched between the hook-shaped protrusions (9), (9 ′), (9 ″) formed on the support base of each roller (8), (8 ′), (8 ″). These springs (10), (10 '), (10 ") are
The peripheral wall of (2) is urged so as to contract in the radial direction, and the rolls (8), (8 '), and (8 ") of the outer cylindrical portion (2) correspond to the inner cylindrical portion (3). Conical protrusions (14), (14 '), (1
It works so that it is always pressed against the slope of 4 ".

The outer end of the second bush (12) has a second bush (12)
The third bush (15) and the bearing (1
3), the second bush 12 and the third bush 15 are independently rotatable about their respective axes. Further, a screw (16) is cut on the outer wall surface of the cylindrical portion extending from the connecting portion of the third bush in the axial direction of the rotating shaft (1), and the screw (16) has a worm ( The screw formed in the central circular opening of the worm wheel (17) paired with 18) is engaged.

Thus, as the worm (18) rotates, the worm wheel (17) rotates, and the third bush (15) moves left and right. In conjunction with this, the inner cylindrical part (3) slides left and right, and the rollers (8), (8 '), (8 ") of the outer cylindrical part (2)
Is the conical protrusion (14), (1
It rolls up and down along the axial direction on the slopes of 4 ') and (14 ").

In this case, when the inner cylindrical part (3) is located on the leftmost side and each roller (8) is at the highest position of the slope of the conical protrusion (14), the circular shape perpendicular to the axis of the outer cylindrical part (2) The radius of the cross section becomes maximum at the center of the outer cylindrical portion (2), and gradually decreases from the center toward both ends. That is, as shown in FIG. 4, the peripheral wall of the outer cylindrical portion (2) has a shape that most protrudes in the radial direction in the central portion and is gradually recessed toward both ends. On the other hand, when the inner cylindrical portion (3) is located on the rightmost side and each roller (8) is at the lowest position on the slope of the conical protrusion (14), a circular cross section perpendicular to the axis of the outer cylindrical portion (2). Has a minimum radius at the center of the outer cylindrical portion (2), and gradually increases from the center toward both ends. That is, the peripheral wall of the outer cylindrical portion (2) is, as shown in FIG.
The shape is the most concave in the center in the radial direction and gradually protrudes toward both ends.

The concavo-convex roll according to the present invention sends and moves a sheet material,
It is effective when performing molding or the like, but is particularly effective when performing texture correction of the cloth.

In the correction of the texture, the roll according to the present invention is arranged at a predetermined position so that the outer peripheral wall surface of the outer cylindrical portion (2) is brought into contact with the surface of the fabric at an appropriate pressure, and the feeding state of the weft yarn of the fabric is detected. Place the sensor.

Then, while pulling both ears of the cloth at the same feed speed, the worm (18) is driven according to the detection signal of the sensor, and the outer cylindrical portion is arranged so that the weft threads are parallel to the warp threads.
The shape of the peripheral wall of (2) may be changed appropriately. That is, when it is desired to make the feeding speed of the central portion in the width direction of the fabric larger than that of the peripheral portion, as shown in FIG. 4, the peripheral wall of the outer cylindrical portion (2) projects most in the radial direction at the central portion, It is sufficient to form a shape that is gradually recessed toward the other side. On the other hand, when it is desired to increase the feeding speed of the peripheral portion in the width direction of the fabric more than the feeding speed of the central portion,
As shown in the figure, the peripheral wall of the outer cylindrical portion (2) may be adjusted so that it has the most concave shape at the central portion and gradually protrudes toward both ends.

Also, as shown in FIG. 6, two conventional rolls (3
5) and (36) are arranged in parallel at intervals, and the concavo-convex roll (37) according to the present invention is arranged in parallel between them, and the three rolls (35), (36) and (37) are arranged. If the sheet material (38) such as cloth is fed while being interlocked, the sheet material (38) can be fed reliably in parallel.

Thus, in the concavo-convex roll according to the present invention, the diameter of the outer cylindrical portion is determined by a large number of conical projections and roller pairs arranged at intervals in the rotation axis direction between the outer cylindrical portion and the inner cylindrical portion. Since it can be changed, the outer peripheral wall of the roll is not easily damaged even if it is repeatedly used, and it can be used even for a fabric having a width smaller than the width of the roll. Further, the diameter of the outer cylindrical portion is changed so that the contour along the axial direction of the outer cylindrical portion forms a hyperbola. Therefore, the sheet material can be fed in parallel with the roll rotation axis with extremely high accuracy, and when used for the texture correction, the texture can be effectively corrected without causing wrinkles or the like on the cloth. The concavo-convex roll according to the present invention has a simple structure and can be manufactured at low cost.

EFFECTS OF THE INVENTION As described above, according to the present invention, the inner cylindrical portion is slid with respect to the outer cylindrical portion, and a large number of conical projections are provided on the outer peripheral wall surface of the inner cylindrical portion at axial intervals. By rolling the corresponding roller provided on the inner peripheral wall surface of the outer cylindrical portion along the slope, the outer cylindrical portion is radially changed so that the contour of the outer cylindrical portion along the axial direction forms a hyperbola. Since it is made to be squeezed, the outer peripheral wall of the roll is not easily damaged even if it is repeatedly used, and it can be used without problem even for a cloth having a width smaller than the width of the roll.

Further, for example, when the uneven roll according to the present invention is used for straightening a cloth, it is possible to make the weft yarn parallel to the warp yarn with high accuracy without causing wrinkles on the fabric. It is believed to make a significant contribution.

Moreover, the concavo-convex roll according to the present invention has a simple structure, and has an effect that it can be manufactured easily and inexpensively.

[Brief description of drawings]

FIG. 1 is a cross-sectional view of the concavo-convex roll according to the present invention taken along the rotation axis, and FIG. 2 shows the relationship between the roller of the outer cylindrical portion and the conical protrusion of the inner cylindrical portion of the concavo-convex roller shown in FIG. FIG. 3 is an enlarged side view showing FIG. 3, FIG. 3 is a front view of the roller shown in FIG. 2, and FIGS. 4, 5 and 6 are schematic views showing the use state of the roll according to the present invention. (1) …… Rotary shaft (2) …… Outer cylinder (3) …… Inner cylinder (4) …… Boss (8) …… Roller (10) …… Spring (11) …… First bush (12) …… Second bush (13) …… Bearing (14) …… Conical protrusion (15) …… Third bush (17) …… Warm wheel (18) …… Worm

Claims (2)

[Claims] 1. A rotating shaft, an outer cylindrical portion coaxially attached to the rotating shaft, and a radius of a circular cross section of the outer cylindrical portion which is perpendicular to the axis, continuously in the axial direction of the outer cylindrical portion. In a concavo-convex roll that has means for changing the peripheral wall of the outer cylindrical portion and can protrude or be recessed in a radial direction from a state parallel to the rotation axis, a radius of a circular cross section perpendicular to the axis of the outer cylindrical portion is the outer side. A means for continuously changing the axial direction of the cylindrical portion is configured to be slidable in the axial direction coaxially with the rotating shaft and rotatable about the rotating shaft between the rotating shaft and the outer cylindrical portion. A guided inner cylindrical portion, a driving means for slidingly moving the inner cylindrical portion, and an outer peripheral wall surface of the inner cylindrical portion, which is provided at a predetermined interval in the axial direction so as to protrude in the radial direction, and is provided on the rotating shaft. To A plurality of conical protrusions having inclined surfaces inclined at a constant angle, and provided at positions corresponding to the respective conical protrusions of the inner cylindrical portion on the inner peripheral wall surface of the outer cylindrical portion. A plurality of rollers that roll on the slope of the conical protrusion of the inner cylindrical portion in the axial direction of the rotation shaft in accordance with the sliding movement, and urge the peripheral wall of the outer cylindrical portion to contract in the radial direction. And a means for constantly pressing the roller of the outer cylindrical portion against the slope of the conical projection of the inner cylindrical portion. 2. The roller of the outer cylindrical portion is located at the center of the slope of the conical projection of the inner cylindrical portion when the peripheral wall of the outer cylindrical portion is parallel to the rotation axis. The angle of the slopes of the plurality of conical projections provided on the outer peripheral wall surface of the inner cylindrical portion is the largest at the central portion of the inner cylindrical portion, and gradually decreases from the central portion toward both ends. The concavo-convex roll according to claim 1, which is characterized.