JP2001039626A - Winder, and manufacturing apparatus and method of filament yarn package - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a package capable of facilitating assembly and disassembly, preventing generation of oscillation even when winding is performed at a speed of 5000 m/min or more, preventing generation of fretting friction caused by the oscillation, and attaining an excellent winding form. SOLUTION: This apparatus is provided with a bobbin retaining body 13 which reciprocates on the front end of a bobbin holder, an elastic body 14 deformed by the movement of the bobbin retaining body 13, a spacer 15 holding the elastic body 14 at a prescribed interval and transfers the behavior of the bobbin retaining body 13, an annular support body 10 which is attached to a turret member and rotatably supports a driving shaft 1, hollow parts 12a, 12b storing the bobbin retaining body 13 and the annular support body 10, and an annular rotating member 12 which has the bobbin retaining body 13, the elastic body 14, the spacer thereon, and is connected to the driving shaft 11. The connecting part 12c of the annular rotating member 12 with the driving shaft 11 of the annular rotating member 12 forms annular protrusions 12c-1 and 12c-2 toward the inside of at least one hollow part.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a yarn winding machine having a bobbin holder capable of winding a yarn satisfactorily without vibration even at a speed of 5000 m / min or more, an apparatus for manufacturing a yarn package, and The present invention relates to a method for manufacturing a yarn package.

[0002]

2. Description of the Related Art Generally, when a plurality of yarns spun from a spinning machine are wound around a plurality of bobbins held by a bobbin holder, a winding machine as shown in FIG. 1 is used.

The winding machine includes two bobbin holders 2 (2a, 2b) rotatably mounted on a turret member (not shown) rotatably mounted on the machine frame 1, and a vertically movable mechanism on the machine frame 1. The traverse device 4 is attached to the frame 3 installed in the traverse device 4, and the contact pressure roll 5 is rotatably attached to the frame 3 or the traverse device 4 so as to be located near the traverse device 4. .

In addition to the winder, a turret member having a bobbin holder mounted thereon moves between a winding position and a standby position along a rail formed on the machine frame, or one bobbin holder is provided on the machine frame. The one with the attached structure is used.

The above-described bobbin holder has a shape as shown in FIG. The bobbin holder includes a bobbin holding operation body 13 that reciprocates at a distal end portion, an elastic body 14 that is compressed and deformed in a radial direction when a pressing force acts in the axial direction due to the movement of the bobbin holding operation body 13,
4 is maintained at a predetermined interval, and a spacer 15 serving to transmit and deform the behavior and force of the bobbin holding operation body 13 to the elastic body 14 and a turret member (not shown) are integrally attached to the An annular support 10 for rotatably supporting the shaft 11 by bearings 16;
0 and a hollow portion 12a for storing the bobbin holding operation body 13,
12b, the bobbin instruction operating body 13, the elastic body 1
4. While the spacer 15 is mounted, the connecting portion 12
3C, the drive shaft 11 and an annular rotating member 12 connected by fitting.

A hole 11a for supplying compressed air is formed in the drive shaft 11, and a motor (not shown) for rotational drive is connected to an end of the drive shaft 11 by a coupling 19.
The bobbin holding operation body 13 has a piston head 17 having a piston portion 17a movably attached to a hollow portion 12a formed at a distal end portion of the annular rotating member 12, and a cylindrical portion 17b loosely fitted to the distal end of the annular rotating member 12. And the piston head 17 is always moved to the rear end side (support side) of the annular rotating member 12.
The spring 18 is provided between the piston head 17 and the hollow portion 12a so as to press the spring 18.

[0007] The connecting portion 1 of the annular rotating member 12 as described above.
In a configuration in which the drive shaft 11 is connected by fitting the drive shaft 2c to the ring 2c, at a high speed of 5000 m / min or more, the annular rotating member 12 swells as shown by a broken line due to the effect of centrifugal force, and Accordingly, the diameter of the hole of the connecting portion 12c fitted to the drive shaft 11 also increases as shown by the broken line. For this reason, for example, in order to secure a sufficient fitting when rotating at a speed of 8000 m / min, approximately 20
There is a problem that a tightening allowance of μm or more is required, and it becomes impossible to disassemble at the time of maintenance. Conversely, when the fitting is performed so that maintenance is possible, when the rotating member is rotated at a speed of 8000 m / min, the annular rotating member is formed. The connection portion of the drive shaft becomes a large gap and loose fitting causes the connection portion to shift and cause large vibration, and the vibration causes fretting wear and the connection portion cannot be disassembled. is there.

In the case where the yarn is wound by the above-described winding machine, a large vibration is generated due to a shift in the connecting portion, and a yarn drop occurs to deteriorate the shape of the package. There is a problem that it becomes defective.

[0009]

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems. It is easy to assemble and disassemble, and winds at a speed of 5000 m / min or more. Provided is a yarn winding machine, a yarn package manufacturing apparatus, and a yarn package manufacturing method that do not generate vibration or fretting wear due to vibration, and that can obtain a package excellent in winding form. The purpose is to do so.

[0010]

According to a first aspect of the present invention, there is provided a yarn winding machine in which an inner diameter of an annular rotating member is increased by a centrifugal force at the time of rotation at a connecting portion of the annular rotating member with a drive shaft. The amount (d1) and the increase amount (d2) of the outer diameter of the drive shaft are:
(D1)-(d2) <20 μm At least one portion in the longitudinal direction of the connecting portion is provided. The yarn winding machine according to the present invention is characterized in that the connecting portion of the annular rotating member with the drive shaft has a shape in which an annular protrusion is formed toward at least one of the hollow portions. Is what you do. The yarn winding machine of the present invention is characterized in that the yarn winding speed is 5000 m / min or more as described in claim 3.

According to a fourth aspect of the present invention, there is provided a yarn package manufacturing apparatus for winding a yarn using the yarn winding machine according to any one of the first to third aspects. It is characterized by having comprised.

According to a fourth aspect of the present invention, there is provided a method of manufacturing a yarn package, wherein the yarn is wound by using the yarn winding machine according to any one of the first to third aspects. It is characterized by being hampered.

[0013]

FIG. 2 is a schematic sectional view showing an embodiment of the structure of the bobbin holder of the winding machine according to the present invention. The structure of the bobbin holder is the same as that of the above-described conventional bobbin holder (FIG. 4). The components other than the rotating member 12 are the same, and a description of the configuration will be omitted.

The connecting portion 12c of the annular rotating member 12 that connects to the drive shaft 11 has a gap even if the inner diameter expands due to the outer peripheral portion of the connecting portion 12c expanding in the outer radial direction due to centrifugal force when rotated at a high speed. A fitting force (tightening margin) that does not cause rattling is required.

On the other hand, when the bearing 16 of the bobbin holder 2 is replaced, it is necessary to disassemble the annular rotating member 12 and the drive shaft 11, and there is a problem that the disassembly cannot be performed if the fitting force is too strong (the interference is too large). May occur.

Generally, this disassembly is performed by heating the annular rotating member 12 with a heater or the like and pushing the drive shaft 11 in the axial direction with a hydraulic press or the like. The fitting between the member 12 and the drive shaft 11 is 20
It is necessary to set the interference within μm.

Therefore, the connecting portion 12c of the annular rotating member 12 has hollow portions 12a, 12b formed on both sides thereof.
Annular projections 12c-1 and 12c-2 projecting inward are provided.

The projecting dimension (L) of the annular projecting portions 12c-1 and 12c-2 is 0.1 times or more the inner diameter (d) into which the drive shaft 11 is fitted. ) Is the inner diameter (d)
Needs to be set to be twice or less. If the protruding dimension (L) and the outer diameter dimension (D) are out of the range, the required fitting force cannot be obtained, and vibration occurs as in the case of the conventional bobbin holder, and fretting wear due to the vibration occurs. Will occur. When the above-mentioned annular rotating member 12 has an inner diameter dimension (d) of 35 mm, a projection dimension (L) of 10 mm and an outer diameter dimension (D) of 45 mm are formed with annular projections 12c-1 and 12c-2. Then, 8
Even when rotating at a speed of 000 m / min, a large centrifugal force does not act on the outer peripheral portions of the annular portions 12c-1 and 12c-2 of the connecting portion 12, and the outer peripheral portion of the connecting portion 12 expands in the outer radial direction. The extension of the inner diameter portion due to the annular protrusion 12c-1,
It does not affect the inner diameter of 12c-2, and even with a tightening margin of 20 μm or less, the inner diameter of the protrusions 12c-1 and 12c-2 hardly changes (no gap is generated), so that the fitting may be loose. Instead, a large vibration is generated by generating a gap in the connecting portion 12c, or fretting wear is generated by the vibration,
Connections can no longer be disassembled. The longer the protruding dimension (L) and the smaller the outer diameter (D), the smaller the change in the inner diameter of the annular portions 12c-1 and 12c-2. Conversely, the inner diameter may become smaller near the free end. That is, the difference (d) between the amount of increase in the inner diameter (d1) of the annular rotating member due to the centrifugal force during rotation and the amount of increase in the outer diameter (d2) of the drive shaft.
1)-(d2) may be a negative value.

As described above, at least one annular projecting portion whose inner diameter hardly changes even at the time of high-speed rotation may be provided in the connecting portion 12c, and it goes without saying that the position and the position are not particularly limited. Note that the interference is 10 μm.
If it is set to be below, even if it rotates at a speed of 6000 m / min, it can be used with almost no expansion of the inner diameter portion.

Here, the connecting portion 12c of the annular rotating member 12
5000m / except for the protrusions 12c-1 and 12c-2
When rotating at a speed of more than one minute, a large centrifugal force acts and does not contribute to the connection between the annular rotating member 12 and the drive shaft 11, so that as shown in FIG. ) By applying 12c-3 and forming a gap when stationary, disassembly and assembly can be further facilitated. The relief shaft is used for the drive shaft 11
Or the connecting portion 12c and the drive shaft 1
It is possible to form both.

In the above-described embodiment, the motor shaft for rotational drive and the drive shaft 11 of the bobbin holder 2 are
The motor shaft and the drive shaft 11 of the bobbin holder 2 are integrally formed, and the motor shaft and the drive shaft 11 of the bobbin holder are provided with a rotation transmitting shaft. Is possible.

The configuration in which an annular protruding portion is formed on the annular rotating member of the present invention is described in, for example, JP-A-6-1530, JP-A-8-175753, and JP-A-4-159969.
It is needless to say that the present invention can be applied to a bobbin holder as described in Japanese Unexamined Patent Publication (Kokai) No. H10-15095.

[0023]

According to the first aspect of the present invention, the bobbin holder of the winding machine has an inner diameter increasing amount (d1) of the annular rotating member due to the centrifugal force at the time of rotation at the connecting portion of the annular rotating member with the drive shaft. And the amount of increase in the outer diameter of the drive shaft (d2) is (d
1)-(d2) At least one location in the longitudinal direction of the connecting portion where <20 [mu] m is present, the ring-shaped rotating member and the drive shaft can be used even when rotating at a speed of 5000 m / min or more. Even if the connecting part has a tightening margin of 20 μm or less, the gap will not be large and the fitting will not be loose, and a large vibration will occur due to the displacement of the connecting part, and fretting wear due to the vibration will occur. do it,
It is possible to prevent the connecting portion from being unable to be disassembled. The bobbin holder of the winder according to the present invention may be configured such that the connecting portion of the annular rotating member to the drive shaft has a shape in which an annular protruding portion is formed toward at least one side of the hollow portion. The effect described in 1 can be reliably achieved. The winding machine of the present invention is characterized in that the winding speed of the yarn is 5000 m / min or more as described in claim 3, whereby the effect described in claim 1 can be further enhanced. Become. According to a fourth aspect of the present invention, there is provided a yarn package manufacturing apparatus configured to wind a yarn using the yarn winding machine according to any one of the first to third aspects. Therefore, a package having a beautiful shape with no large vibration during winding and no thread dropping can be obtained.
According to a fifth aspect of the present invention, there is provided a method of manufacturing a yarn package in which the yarn is wound by using the yarn winding machine according to any one of the first to third aspects. It is possible to obtain a beautifully shaped package that does not generate large vibrations and has no thread drop.

[Brief description of the drawings]

FIG. 1 is a schematic view showing one embodiment of a configuration of a winding machine.

FIG. 2 is a schematic sectional view showing one embodiment of the bobbin holder of the present invention.

FIG. 3 is a schematic sectional view showing another embodiment of the connecting portion of the annular rotating member of the bobbin holder of the present invention.

FIG. 4 is a schematic sectional view showing one embodiment of a conventional bobbin holder.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Machine frame 2 Bobbin holder 10 Annular support 11 Drive shaft 12 Annular rotating member 13 Bobbin holding operation body 14 Elastic body 15 Spacer 16 Bearing 12a, 12b Hollow part 12c Connection part 12c-1, 12c-2 Projection part 12c-3 Relief processing

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 3F056 GA03 GB05 GC06 4L045 AA05 BA01 DC04 DC22

Claims (5)

[Claims] 1. A yarn winding machine comprising: an annular rotating member that holds and rotates a bobbin outside; and a bobbin holder that connects a drive shaft that transmits a rotational force from a motor to the inside of the annular rotating member. When the inner diameter increase amount (d1) of the annular rotating member and the outer diameter increase amount (d2) of the drive shaft due to centrifugal force at the time fall within the following ranges, the connection between the annular rotary member and the drive shaft is made. At least one in the longitudinal direction of the part
A yarn winding machine characterized by being made to exist in individual places. (D1)-(d2) <20 μm 2. A yarn winding machine comprising: an annular rotating member that holds and rotates a bobbin outside; and a bobbin holder that connects a drive shaft that transmits a rotational force from a motor to the inside of the annular rotating member. A yarn winding machine characterized in that a connecting portion of the annular rotating member with the drive shaft has a shape in which an annular projecting portion is formed toward at least one hollow portion. 3. The yarn winding machine according to claim 1, wherein the winding speed of the yarn is 5000 m / min or more. 4. An apparatus for manufacturing a yarn package, wherein the yarn is wound by using the yarn winding machine according to any one of claims 1 to 3. 5. A method for manufacturing a yarn package, comprising winding the yarn using the yarn winding machine according to claim 1.