JPH09303370A - Eccentricity adjustment device for eccentric wheel device - Google Patents

Abstract

(57) An object of the present invention is to provide an eccentricity adjusting device for an eccentric wheel device, which has a simple structure, excellent durability, and is easy to adjust. A first eccentric cam member (2) fixed to a main shaft (1) and formed with a first eccentric cam (2a) and a locking ring (2b), and a first eccentric cam member of the first eccentric cam member (2). 2a
The second eccentric cam 3b and the flange portion 3 are loosely fitted on the upper side.
c and a second eccentric cam member 3 in which a concave groove 3e is formed on one side of the flange portion 3c, and slidably fitted in the concave groove 3e of the second eccentric cam member 3. Further, a stopper body 10 having a locking portion 10a capable of engaging with the locking wheel 2b, and a twist for biasing the stopper body 10 in one direction to engage the locking portion 10a with the locking wheel 2b. Spring 1
3 and the locking portion 10 against the biasing force of the torsion spring 13 thereof.
The eccentric amount can be adjusted with a simple configuration by including the manual operation body 17 that disengages the engagement of the a with the locking wheel 2b and fixes the second eccentric cam member 3.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an eccentricity adjusting device for an eccentric wheel device.

[0002]

2. Description of the Related Art Conventionally, for example, an eccentricity adjusting device in an eccentric wheel device used in a sewing machine or the like often uses an eccentric cam mechanism as a mechanism for adjusting the eccentricity.

As shown in FIG. 4, in a ratchet type device, which is conventionally known as an eccentric wheel device equipped with this kind of mechanism, a first eccentric cam 20 is loosely fitted to a main shaft (not shown). Then, a ratchet 21 concentric with the main shaft is screwed to the main shaft so as to rotate integrally with the main shaft, and the first eccentric cam 20
Ratchet stopper 2 to rotate in the same direction as the spindle.
At 2, the first eccentric cam 20 and the ratchet 21 are fitted and locked. A second groove 24 provided on the circumference of the flange 23
The eccentric cam 25 is externally fitted to the first eccentric cam 20. An eccentric guide 26 is screwed onto the main shaft so as to rotate integrally with the main shaft,
A pin 27 that is rotatably locked to the side surface of the eccentric guide 26 is engaged with a groove portion 24 provided on the circumference of the flange portion 23 of the second eccentric cam 25. One end of a rod 28 is externally fitted to the second eccentric cam 25, and the other end of the rod is provided on a feed shaft (not shown) rotatably supported by a sewing machine frame (not shown). (Not shown), the feed shaft is interlocked with the main shaft to swing.

To adjust the amount of eccentricity of the eccentric wheel device, the first eccentric cam 20 has a fitting groove into which a push button 29 mounted on a sewing machine frame (not shown) is fitted and locked by being pushed. The ratchet 21 and the eccentric guide 26 rotate integrally with the main shaft with respect to the first eccentric cam 20 whose rotation is restricted by the fitting and locking of the push button 29. The eccentric cam 25 rotates synchronously and the amount of eccentricity changes with respect to the main shaft.

Further, as shown in FIG. 5, in the spring pressure type, a slide member 41 having an oval hole and a shaft 40 in the direction of the main shaft is loosely fitted to a main shaft (not shown). A square piece 42 is rotatably supported on the shaft 40. A groove guide member 43 that slidably supports the slide member 41 is screwed to the main shaft. The concave portion 4 is provided on the outer periphery of the groove guide member 43.
4 is provided, and a flange portion 45 is provided on the side surface. Eccentricity adjustment cam 4 with eccentric groove cam on the side surface
6 is loosely rotatably fitted in the flange portion 45 of the groove guide member 43. A retaining ring 47 is locked to the main shaft, a washer 48 is inserted into the main shaft, and a Nami spring 49 is loosely fitted between the eccentricity adjustment cam 46 and the countersink 48 to hold the eccentricity adjustment cam 46 in the axial direction. Then, in order to eliminate rattling between the slide member 41 and the groove guide member 43, the pin 50 is inserted from the outer periphery of the groove guide member 43 and the pin 50 is pressed by the leaf spring 51. The square piece 42 is slidably guided in the concave portion 44 of the groove guide member 43, and further, the groove cam 5 of the eccentricity adjustment cam 46.
2 is slidably guided.

To adjust the amount of eccentricity of the eccentric wheel device, the eccentricity adjustment cam 46 is provided with a fitting groove 54 into which a push button 53 mounted on a sewing machine frame (not shown) is fitted and locked by pushing. With respect to the eccentricity adjusting cam 46 whose rotation is restrained by the fitting and locking of the push button 53, the groove guide member 43 rotates integrally with the main shaft, so that the square piece 4 is rotated.
2 slides on the groove cam 52 of the eccentricity adjustment cam 46, and the slide member 41 supported by the groove guide member 43 slides, so that the eccentric amount with respect to the main shaft changes.

[0007]

However, in the eccentricity amount adjusting device in the eccentric wheel device as described above,
The ratchet type has a complicated structure and a large number of parts. As a result, there is a problem that looseness is likely to occur in fitting and durability is deteriorated. Further, the spring pressure type has a problem that the adjustment torque becomes heavy and it is difficult for an operator having a weak force to make the adjustment.

The present invention has been made to solve the above-mentioned problems, and provides an eccentricity adjusting device for an eccentric wheel device with a simple structure and excellent durability, and moreover, it is easy to adjust the eccentricity. To provide a device.

[0009]

In order to achieve this object, an eccentricity adjusting device in an eccentric wheel device according to a first aspect of the present invention is provided with a rotatable main shaft, and is fitted and fixed to the main shaft. A first eccentric cam member having a first eccentric cam and a locking ring, and a second eccentric cam and a flange portion that are loosely fitted on the first eccentric cam of the first eccentric cam member. A second eccentric cam member having a concave groove formed on one side of the flange portion, and slidably fitted in the concave groove of the second eccentric cam member and locking. A stopper body having a locking portion capable of engaging with the wheel, a biasing means for biasing the stopper body in one direction to engage the locking portion with the locking wheel, and a biasing thereof. The second eccentricity while disengaging the engagement portion from the engagement ring against the biasing force of the means. And a manual operation member for fixing the arm member.

In the eccentricity adjusting device for an eccentric wheel device according to a second aspect of the present invention, the locking ring is formed concentrically with the eccentricity of the first eccentric cam.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention embodied as an eccentricity adjusting device in an eccentric wheel device of a sewing machine will be described below with reference to the drawings.

As shown in FIGS. 1, 2, and 3, a first eccentric cam member 2 screwed into a main shaft 1 rotatably supported by a sewing machine frame (not shown) is fitted to one side. A flange portion is integrally formed concentrically with the eccentricity of the first eccentric cam 2a, and a locking ring 2b is formed on the outer periphery of the flange portion.
It has two stopper pins 2c which are provided so as to project in the vertical direction centering on the axis center of.

The first eccentric cam 2 of the first eccentric cam member 2
The second eccentric cam member 3 that is loosely fitted in a is
Has an eccentric cam 3b, and a flange portion 3c is integrally formed on the other side. The flange portion 3c has a groove 3d formed on the circumference thereof, a concave groove 3e provided on a side surface thereof, and an axial projection. It has a pin 3f to be driven. Then, the first eccentric cam member 2 is provided with the two stopper pins 2 protrudingly provided.
c can rotate within a range of hitting the pin 3f of the second eccentric cam member 3. The stopper body 10 slidably fitted in the concave groove 3e of the second eccentric cam member 3 has a locking portion 1 that engages with the locking ring 2b of the first eccentric cam member 2 on one side.
0a is provided.

The stopper body 10 is sandwiched between the first eccentric cam member 2 and the second eccentric cam member 3, and is biased by a support pin 12 screwed to the side surface of the second eccentric cam member 3. It is elastically pressed against the first eccentric cam member 2 by a torsion spring 13 as a means. The engagement wheel 2b of the first eccentric cam 2 and the engagement portion 10a of the stopper 10 are always engaged with each other, and the second eccentric cam member 3 is held so as to rotate integrally with the main shaft 1. One end of a rod 14 is externally fitted to the second eccentric cam member 3, and the other end of the rod 14 is attached to a feed arm 16 fixed to a feed shaft 15 rotatably supported by a machine frame (not shown). The feed shaft 15 is connected to the main shaft 1 so as to be swingable.

A manual operation body 17 is provided in the machine casing.
The coil spring 18 is supported so as to be able to reciprocate in the direction orthogonal to the main shaft 1, and is constantly urged by a coil spring 18 so that its tip is separated from the eccentric wheel device. When adjusting the amount of eccentricity of the eccentric wheel device, the manual operation body 17 is pressed against the action of the coil spring 18, and the tip of the manual operation body 17 engages with the stopper 10 to engage the engaging portion 10a. The second eccentric cam member 3 is fixed by releasing the engagement with the retaining ring 2b and engaging with the groove 3d. By rotating the main shaft in this state, the amount of eccentricity is adjusted.

[0016]

As is apparent from the above description, in the eccentricity adjusting device for the eccentric wheel device according to claim 1 of the present invention, the number of parts is reduced because the structure of the eccentric cam mechanism is simpler than the conventional structure. Is reduced, and accordingly, the fitting backlash is less likely to occur, resulting in excellent durability.
Further, the adjustment torque becomes light and the adjustment becomes easy.

Further, in the eccentricity adjusting device in the eccentric wheel device according to the second aspect, the eccentricity is changed by forming the locking ring 2b concentrically with the eccentricity of the first eccentric cam 2a. Even after that, the locking ring 2b integrally formed on one side of the first eccentric cam 2a and the locking portion 10a on one side of the stopper body 10 are always engaged so as to be locked.

[Brief description of drawings]

FIG. 1 is a side view of an eccentric wheel device according to the present invention.

FIG. 2 is a sectional view of an eccentric wheel device according to the present invention.

FIG. 3 is an exploded perspective view of an eccentric wheel device according to the present invention.

FIG. 4 is an exploded perspective view of an eccentric wheel device according to a conventional technique.

FIG. 5 is an exploded perspective view of an eccentric wheel device according to a conventional technique.

[Explanation of symbols]

 1 main shaft 2 1st eccentric cam member 2a 1st eccentric cam 2b locking ring 3 2nd eccentric cam member 3b 2nd eccentric cam 3c flange part 3e recessed groove 10 stopper body 10a locking part 13 torsion spring 17 manual Control body

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Tomoharu Mizutani 15-1 Naeshiro-cho, Mizuho-ku, Nagoya-shi Brother Industries Ltd.

Claims (2)

[Claims] 1. A rotatable main shaft, a first eccentric cam member which is inserted and fixed to the main shaft, and on which a first eccentric cam and a locking ring are formed, and a first eccentric cam member of the first eccentric cam member. A second eccentric cam member that is loosely fitted on the first eccentric cam, has a second eccentric cam and a flange portion, and has a groove formed on one side of the flange portion; A stopper body slidably fitted in the groove of the eccentric cam member and having a locking portion capable of engaging with the locking ring, and the locking body urging the stopper body in one direction. Biasing means for engaging the locking portion with the locking ring, and disengagement of the locking portion from the locking ring against the biasing force of the biasing means, and the second eccentric cam An eccentricity adjusting device in an eccentric wheel device, comprising: a manual operation body for fixing a member. 2. The eccentricity adjusting device for an eccentric wheel device according to claim 1, wherein the engaging wheel is formed concentrically with the eccentricity of the first eccentric cam.