JPH0741333A - Long fiber cutter - Google Patents

Abstract

PURPOSE:To provide a long fiber cutter with the frequency of the exchange of rubber rollers reduced and capable of improving the productivity of a chopped strand. CONSTITUTION:This cutter is provided with a grinding tool 10 arranged beside a rubber roller 2, a means 12 for bringing the tool 10 close to or away from the roller 2, a means 11 for moving the tool 10 along the entire length of the roller 2 in the axial direction of the roller 2 and a control means 13 for driving the moving means 11 and grinding the roller 2 with the tool 10 optionally or according to a specified program.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cutting device for cutting long fibers, for example, glass long fibers into a certain length.

[0002]

2. Description of the Related Art Taking glass fibers as an example, long glass fibers are produced by drawing molten glass through a large number of nozzle holes at the bottom of a bushing, spinning it into continuous fine filaments, cooling with a water spray, and then sizing agent. A (bunching agent) is coated and hundreds or thousands are bundled to form a strand, which is wound by a winder to form a roving roll called a cake. Then, after this, the yarn is subjected to a twisting process, or a roving is subjected to a splicing process to be used as a long fiber as well as to be cut into short fibers having a constant length through a chopping process. Are used as chopped strands (cutting yarn) in FRTP, GRC (glass fiber reinforced cement) and the like.

As shown in FIG. 3, the cutting device used in the above chopping process is provided between a cutter roller 1 having cutter blades radially attached at equal intervals and a rubber roller 2 having rubber on its outer peripheral surface. Strands 3 are sent to and cut.

In the above cutting device, the surface of the rubber roller 2 deteriorates and wears over the course of use, and the cut surface of the chopped strands deteriorates, causing quality problems, and finally the cutting becomes impossible. Therefore, conventionally, the rubber roller 2 is periodically removed (every 3 to 10 hours) and replaced with another rubber roller, and the removed old rubber roller 2 is ground and smoothed by a polishing device installed in another place or the like. The surface is renewed and used again, and this is repeated multiple times until the end of its life.

[0005]

In the conventional cutting device, when the rubber roller 2 is periodically replaced, the cutting device is stopped each time, and the old rubber roller 2 is removed from the cutting device to replace it with another rubber roller. Since the cutting operation was restarted after replacement, there was a problem that the operating rate of the cutting device was low and the productivity of chopped strands was reduced.

Further, in the conventional cutting device, the amount of the cutter roller 1 biting into the rubber roller 2 side little by little with respect to the deterioration and wear of the surface of the rubber roller 2 which occurs over the course of use, but the surface of the rubber roller 2 is increased. Since the smoothness of the chopped strands gradually decreases, the cut surface of the chopped strand also gradually decreases from the time when the new or renewed rubber roller 2 is mounted to the time when polishing is performed. Therefore, considering the quality of chopped strands, it is desirable to replace the rubber roller 2 as soon as possible, but it is necessary to maintain the operating rate of the cutting device at a constant level. It is the actual situation.

The present invention was developed in view of the conventional problems, and an object thereof is to reduce the replacement of rubber rollers and to improve the productivity of chopped strands. It is to provide a fiber cutting device.

[0008]

SUMMARY OF THE INVENTION A long-fiber cutting device of the present invention comprises a cutter roller having cutter blades radially attached at equal intervals, and a rubber roller having an outer peripheral surface provided with rubber and rotating by contacting the cutter roller. In a long-fiber cutting device configured to feed a strand between them to cut, a polishing tool disposed on a side of a rubber roller, an approaching / separating means for approaching and separating the polishing tool from the rubber roller, and the polishing tool of the rubber roller. An apparatus provided with an axial moving means for moving along the entire length in the axial direction, and a controlling means for controlling and driving the approaching / separating means and the axial moving means to polish a rubber roller by a polishing tool arbitrarily or by a predetermined program. Is.

[0009]

In the long fiber cutting device of the present invention, when the rubber roller is ground, the polishing tool is started from one end position in the axial direction of the rubber roller, and is first brought close to a predetermined amount by the approaching / separating means, and then the axial moving means. To move in the axial direction to the other end at a constant speed. As a result, the outer peripheral surface of the rubber roller is continuously ground in an annular shape by the grinding action of the polishing tool, and by moving in the axial direction of the rubber roller at a constant speed in this state, the outer peripheral surface of the rubber roller is drawn while drawing a cycloid curve. Is ground uniformly and smoothly over the entire length in the axial direction.

The above-mentioned grinding is normally completed once, and the polishing tool is once separated from the rubber roller, or returned as it is in the axial direction to the original position. Next time,
The above operation is repeated.

[0011]

1 is a front view showing an embodiment of a long fiber cutting device of the present invention, and FIG. 2 is a sectional view taken along line AA of FIG.

1 and 2, 1 is a cutter roller,
2 is a rubber roller, 3 is a strand, 10 is a polishing tool, 1
Reference numeral 1 is an axial moving means, 12 is an approaching / separating means, and 13 is a control means.

The cutter roller 1 has cutter blades radially attached at equal intervals and has an outer diameter of, for example, 150 mm.
It is made of SK (carbon tool steel), and its length is slightly longer than the entire axial length of the rubber roller 2. This cutter roller 1 has a support structure 5 via a shaft 4.
Is rotatably supported by the rubber roller 2 and is rotated by the rotation of the rubber roller 2. The cutter roller 1 can be moved closer to the rubber roller 2 by the pulse motor 6 depending on the wear of the rubber roller 2.
That is, it is possible to drive the cutter motor 1 closer to the rubber roller 2 by driving the pulse motor 6 by a fixed amount, for example, at a constant operating time according to the wear of the rubber roller 2.

The rubber roller 2 has a predetermined thickness of rubber (for example, urethane) mounted on its outer peripheral surface, has an initial outer diameter of 300 mm and an axial length of 300 mm, and is rotatably supported. , Is driven to rotate at a constant speed by the motor 7.

The strands 3 are drawn out from a plurality of cakes supported by a cake stand, are comb-shaped, and are separated one by one by a traverser guide 8 to which a traverse movement is applied, and guide grooves are equally spaced in the axial direction. Is supplied between the cutter roller 1 and the rubber roller 2 in a state of being dispersed in the axial direction of the rubber roller 2 via a guide roller 9 having
The chopped strands of a certain length are cut one after another.

The polishing tool 10 has a cutting edge and is arranged beside the rubber roller 2.

The axial moving means 11 is an axial sliding base 11
a, a sliding rail 11b, a fixed base 11c of the sliding rail 11b, and a motor 11d. By driving the motor 11d, the fixed base 11c is moved to the rubber roller 2
In the axial direction of the rubber roller 2, thereby moving the polishing tool 10 in the axial direction of the rubber roller 2.

The approaching / separating means 12 is a slide rail 12a connected to a fixed base 11c of the axial moving means 11.
And a pulse motor 12b. When the rubber roller 2 is polished, the pulse motor 12b is driven by a fixed amount during polishing of the rubber roller 2, and the polishing tool 10 is moved through the fixed base 11c of the axial moving means 11. Is approached from a direction orthogonal to the axis of the rubber roller 2.

The control means 13 includes the axial moving means 11 described above.
Also, the rubber roller 2 is polished by the polishing tool 10 by controlling and driving the approaching / separating means 12 arbitrarily or by a predetermined program.

Next, the operation of the long fiber cutting device of the embodiment of the present invention will be described.

The strands 3 are drawn out from a plurality of cakes supported by a cake stand, are comb-shaped, and are separated one by one by a traverser guide 8 to which a traverse movement is applied, and guide grooves are equally spaced in the axial direction. The chopped strands having a constant length (for example, 1.5 mm, 3 mm, etc.) are supplied between the cutter roller 1 and the rubber roller 2 in a state of being evenly distributed in the axial direction of the rubber roller 2 via the guide roller 9 having As it is cut off one after another.

The initial biting amount of the cutter roller 1 into the rubber roller 2 is, for example, 1 to 1.5 mm.
The cutting edge of the polishing tool 10 is only in contact with the surface of the rubber roller 2 (gap 0).

In this state, the strand 3 is cut,
During the cutting, the cutter roller 1 is bitten toward the rubber roller 2 by a predetermined amount (for example, 0.1 to 0.5 mm) by a pulse signal according to the wear of the surface of the rubber roller 2.
At the same time, the polishing tool 10 is moved toward the rubber roller 2 in the same amount as the cutter roller 1, and the surface layer of the rubber roller 2 is moved by the polishing tool 10 by the amount of movement (0.1 to 0.5 mm). Grind.

The rubber roller 2 is ground by the above-mentioned embodiment.
The case where the cutter roller 1 is bitten toward the rubber roller 2 and the same amount is ground at the same time is illustrated, but the invention is not limited to this and may be carried out arbitrarily or by another program. Further, the axial moving means 11 and the approaching / separating means 12 of the polishing tool 10 are not limited to the illustrated embodiment, and may be implemented with other configurations. Furthermore, the device of the present invention is not limited to glass fibers and can be applied to other long fibers.

Further, in the above embodiment, the polishing tool 10 having the cutting edge was illustrated, but the present invention is not limited to this, and has a rotating grindstone, an end mill, or a sawtooth-shaped blade surface and is a rotatable cylinder. It is also possible to use a polishing tool made of a metal body, etc.If an intake cover is placed around the polishing tool and the chips generated by grinding are collected in the dust collector via the suction hose attached to the intake cover. This is preferable because it prevents chips from mixing in the chopped strands.

[0026]

According to the present invention, since the grinding of the rubber roller can be carried out on-line while the continuous fiber cutting device is continuously operated, the productivity can be improved and the quality of chopped strands can be improved. it can.

[Brief description of drawings]

FIG. 1 is a front view showing an embodiment of a long fiber cutting device of the present invention.

FIG. 2 is a sectional view taken along the line AA of FIG.

FIG. 3 is a schematic explanatory view of a main part of a conventional long fiber cutting device.

[Explanation of reference numerals] 1 cutter roller 2 rubber roller 3 strand 10 polishing tool 11 axial moving means 12 approaching / separating means 13 control means

Claims (1)

[Claims] 1. A length configured to feed strands between a cutter roller, in which cutter blades are radially attached at equal intervals, and a rubber roller having an outer peripheral surface provided with a rubber, to rotate so as to cut the cutter roller. In the fiber cutting device,
A polishing tool disposed on the side of the rubber roller, an approaching / separating means for moving the polishing tool closer to and away from the rubber roller, an axial moving means for moving the polishing tool along the entire axial length of the rubber roller, and the approaching / separating means. And a control means for controlling and driving an axial moving means to polish a rubber roller with a polishing tool arbitrarily or according to a predetermined program.