JPS6145175Y2 - - Google Patents

Description

[Detailed Description of the Invention] The present invention relates to a bobbin holder, and in particular to an improved bobbin holder using a cam sleeve type bobbin holder for a spindle for a ring twisting machine, which has a mechanism for stopping the bobbin at the same time the spindle rotation stops. be.

It is known that a cam sleeve is used as a bobbin holder for engaging a bobbin with a spindle.

1 to 3 are diagrams showing a conventional cam sleeve type bobbin holder and bobbin. FIG. 1 is a cross-sectional view showing the bobbin holder and bobbin during rotation (locking), and FIG. 2 is a vertical cross-sectional view of FIG. 1-'. In the figure, 1 is the spindle shaft, 2 is the cam,
3 indicates a cam sleeve, and 4 indicates a bobbin. A spindle shaft 1 is a shaft rotated by a drive motor, and a cam 2 is fitted on the circumferential surface of the shaft. The cam 2 has a substantially triangular cross section with circular arcs cut out from three sides of a circular shape, and is provided with a protrusion 5 at one axial end for loosely fitting a cam sleeve. Since this cam 2 is fixed to the spindle shaft 1, it is rotatable together with the spindle shaft 1. The cam sleeve 3 is a piece having a substantially arcuate cross section, and its outer peripheral surface has the same curvature as the inner peripheral surface of the bobbin. Grooves 6 are provided at both ends of the cam sleeve 3 in the axial direction, and the protrusions 5 of the cam 2 and the protrusions 8 of the presser ring 7 are loosely fitted into the grooves 6. That is, the cam sleeve 3 is engaged with the spindle shaft 1 with a margin for sliding in the radial direction from the center. The bobbin holder having the above structure is a cylindrical bobbin 4.
inserted inside.

Next, to explain the operating condition of this bobbin holder, when the spindle shaft 1 starts rotating in the direction of arrow A, the cam's pressing action on the cam sleeves 3 starts to work, and each cam sleeve 3 moves away from the spindle shaft 1. That is, the cam sleeve 3 slides in the direction of contacting the inner circumferential surface of the bobbin 4, and an expansion pressing force is applied to the outside of the cam 2, so that the cam sleeve 3 is pressed against the bobbin 4 from the inside. Therefore, the rotation of the spindle shaft 1 is directly transmitted to the bobbin 4, and the bobbin 4 rotates in the direction of arrow A.

Next, a case where this cam sleeve type bobbin holder stops will be explained. FIG. 3 shows a state in which the spindle shaft 1 is stopped (when the lock is released). In FIG. 3, when the rotating spindle shaft 1 stops, the cam's pressing action immediately stops working on the cam sleeve 3 fitted thereto, and a gap 9 is formed between it and the inner surface of the bobbin 4. Therefore, since inertia remains in the bobbin 4, only the bobbin 4 rotates idly in the direction of arrow A. Stopping the bobbin means that the yarn wound on the bobbin is fully wound and the winding is finished. However, when the bobbin rotates due to inertia after the spindle stops, the waist spool and bobbin, which have already stopped, are The tail portion of the connecting yarn is cut off, resulting in poor tail formation.

In other words, such a conventional cam sleeve type bobbin holder is easy to engage with the bobbin and can be fitted and rotated without any processing on the bobbin, but the bobbin idly rotates when the bobbin is stopped. The disadvantage was that it was not possible to create a tail yarn with a long tail.

Therefore, an object of the present invention is to provide a cam sleeve type bobbin holder that can stop the bobbin at the same time as the spindle stops.

That is, the present invention provides a bobbin holder comprising a cam fitted to the circumferential surface of a spindle shaft and a plurality of cam sleeves loosely fitted to the cam and having an arcuate outer circumferential surface. This is a bobbin holder in which a cam sleeve is provided with an elastic member that protrudes from the outside and has a size of 1 to 10% of the surface area of the cam sleeve.

Hereinafter, embodiments of the present invention will be described with reference to FIGS. 4 to 7.

FIG. 4 is a cross-sectional view showing the state in which the spindle is rotating in the bobbin holder of the present invention, and FIG. 5 is a vertical cross-sectional view taken along the line -' of FIG. 4. In FIGS. 4 and 5, 1 is a spindle shaft, 2 is a cam, 3 is a cam sleeve, 4 is a bobbin, and 10 is an elastic member. The cam 2 fixed to the spindle shaft 1 is indicated by the arrow B.
rotating in the direction. As in the conventional example, the cam sleeve 3 is pushed outward by the protrusion of the cam 2, and is pressed against the inner surface of the bobbin 4 and self-locked.

The elastic member 10 is provided to protrude outward from the outer peripheral surface of the cam sleeve 3, but the protruding portion of the cam sleeve 3 is pressed down by the pressing force of the cam 2, and is deformed to the same level as the outer peripheral surface of the cam sleeve. .

FIG. 6 is a cross-sectional view showing a state in which the rotation of the spindle and bobbin is stopped in the bobbin holder of the present invention. As soon as the rotation of the spindle shaft 1 stops in FIG. 6a, the cam sleeve 3 slides toward the center of the spindle shaft, forming a gap 9 between it and the inner surface of the bobbin 4. However, even if the spindle stops, the bobbin continues to rotate due to inertia. However, since the elastic member 10 is originally provided to protrude outward from the outer circumferential surface of the cam sleeve 3, the protruding portion is still in contact with the inner surface of the bobbin 4, so that the cam sleeve is caused by the inertial rotation of the bobbin. It is about to rotate following the rotational direction of the bobbin via the elastic member. And the sixth
As shown in Figure b, the cam sleeve that rotates following the bobbin is pushed outward by the protrusion of the cam on the opposite side of the rotation and is pressed against the inner surface of the bobbin, self-locking again and rotating. The bobbin also stops using the reverse mechanism.

As the material of the elastic member in this invention, general synthetic rubber soft plastic etc. can be used.
Urethane rubber with a rubber hardness of about 30° to 60° is most preferred from the viewpoint of wear resistance and braking effect. Further, although the size of the elastic member depends on the size of the cam sleeve, it needs to be 1 to 10% of the surface area of the cam sleeve. If the size of the elastic member exceeds 10% of the surface area of the cam sleeve, the contact area of the cam sleeve will decrease and uneven rotation will occur due to displacement of the elastic member, and if it is less than 1%, the inertial rotation of the bobbin will occur when stopped. The pressing force of the elastic member against the inner surface of the bobbin to rotate the cam sleeve following the rotation is weak, and the purpose cannot be achieved.

According to the experimental results of the present inventors, by attaching the elastic member to the cam sleeve, the tail failure rate when the spindle is stopped can be reduced from the conventional 15% to zero.

[Brief explanation of the drawing]

Figures 1 to 3 are diagrams showing conventional examples. Figure 1 is a cross-sectional view of the bobbin holder and bobbin when the spindle is rotating, Figure 2 is a vertical cross-sectional view at -' of Figure 1, and Figure 3 is when the spindle is stopped. It is the same cross-sectional view of the fourth to
6 is a diagram showing an embodiment of the present invention, FIG. 4 is a cross-sectional view of the same when the spindle is rotating, and FIG. 5 is a diagram showing the embodiment of the present invention.
'A vertical cross-sectional view, and FIG. 6 is a cross-sectional view of the same when the spindle rotation is stopped. 1... Spindle shaft, 2... Cam, 3... Cam sleeve, 4... Bobbin, 7... Holder ring,
9...Gap, 10...Elastic member.

Claims (1)

[Scope of utility model registration request] In a bobbin holder comprising a cam fitted to the circumferential surface of a spindle shaft and a plurality of cam sleeves loosely fitted to the cam and having an arcuate outer circumferential surface, the cam is inserted from the outer circumferential surface of the cam sleeve. A bobbin holder in which a cam sleeve is provided with an elastic member that protrudes outward and has a size of 1 to 10% of the surface area of the sleeve.