KR100586266B1 - Feed-dog height adjustment mechanism - Google Patents

Abstract

It is an object of the present invention to provide a tooth height adjusting mechanism capable of finely adjusting tooth height by simple operation.

The tooth height adjusting mechanism is a horizontal push rod (2) engaged with the main shaft of the sewing machine, a pole (4) rotated in engagement with the main shaft and positioned parallel to the horizontal push rod, a horizontal portion (56a) extending in the horizontal direction, and the horizontal Tooth support 56 having a connecting portion 56b extending continuously downward from the portion, and teeth 8 supported on the horizontal portion, the horizontal portion being connected to the horizontal push rod at one end thereof; The connecting portion is connected to the pole at the bottom. The mechanism further comprises an eccentric shaft 58 rotatably supported on a connecting member 54 pivotally coupled to the pole, the connecting portion being rotatably coupled to the eccentric shaft at its lower end. The eccentric shaft changes its rotated position and is fixed to adjust the height of the tooth.

Description

Tooth height adjustment mechanism {FEED-DOG HEIGHT ADJUSTMENT MECHANISM}

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 schematically shows a tooth mechanism having a tooth adjustment mechanism embodying the present invention.

2A and 2B show an eccentric position for adjusting the tooth height in an embodiment of the present invention.

3 is a view showing the position of the tooth mechanism included in the sewing machine of the vertical hook of the two needles schematically shown along the direction of the arrow (A) of FIG.

4 shows the position of the toothed mechanism with respect to the two hook saddle units schematically shown along the direction of arrow B of FIG.

5 is a view showing the relationship of the height variation of the tooth to the variation of the eccentric shaft in the embodiment of the present invention.

6 is a schematic illustration of a conventional toothed mechanism;

7 shows a tooth height adjustment mechanism in the mechanism of FIG. 6;

8 is a view showing the position of the tooth mechanism included in the sewing machine of the vertical hook of the two needles schematically shown along the direction of the arrow (A) of FIG.

9 shows the position of the tooth mechanism relative to the two hook saddle units schematically shown along the direction of arrow B of FIG.

10 is a schematic illustration of another conventional toothed mechanism;

* Description of the symbols for the main parts of the drawings *

1: feed-dog 2: feed rock shaft

4: feed lifting rock shaft 6: feed bar

10; Tooth support axis 12: horizontal push rod crank

14: feed lifting fork
16: feed lifting eccentric

18 screw 20 hook saddle

22 hook hook 27 oil supply pipe

The present invention relates to a mechanism for adjusting the height of a feed-dog of a sewing machine.

In the conventional toothed mechanism 1 shown in FIG. 6, the horizontal feed rock shaft 2 and the feed lifting rock shaft 4 are rotatably positioned parallel to each other, and the sewing machine spindle (not shown). ) The feed bar 6 has a horizontal portion 6a extending in the horizontal direction and a vertical portion 6b extending in the vertical direction, and the teeth 8 are fixed to the horizontal portion 6a at one end. The horizontal portion 6a is horizontal at the proximal end via the toothed shaft 10 and the feed rock shaft crank 12 for rocking in the horizontal direction simultaneously with the swinging motion of the horizontal rod 2. It is connected to the push stick (2).

The fork 14 has a groove 14a vertically formed on the fork, engages with the vertical portion 6b and is fixed with a screw 18. The fork fork 14 is fitted to the stretcher eccentric 16 fixed on the stretcher 4. The rotation of the column 4 is transmitted to the column eccentric 16 and the field fork 14 so that the tooth base 6 swings in the vertical direction.

The tooth 8 moves on an elliptic trajectory consisting of the vertical movement and the horizontal movement of the tooth support 6 so that a textile product is supplied together with a presser foot (not shown).

8 and 9, each of the pair of hook saddle units 28 located on both sides of the tooth mechanism 1 includes a hook saddle 20, a hook shaft 22, a vertical hook 24, Hook shaft gear 26, oil supply pipe 27, and other components not shown in the drawings.

Each hook shaft 22 rotatably coupled to the hook saddle 20 has a hook 24 at its upper end and is secured to the shaft gear 26 above the hook saddle 20. The oil supply pipe 27 is connected with the hook saddle 20 to supply lubrication oil to the hook 24 through a lubrication passage (not shown) formed inside the hook shaft 22.

Referring to Fig. 10, which shows another conventional tooth mechanism, the horizontal push rod 32 and the pole 34 rotate in synchronization with the main axis of the sewing machine (not shown). The tooth support 36 supporting the teeth 38 at the center portion is connected to the horizontal push rod 32 at one end via the tooth support shaft 10 and the horizontal push rod crank 40, and the opposite end is the tooth support pole 11 And the pole crank 42 to the pole 34. Typically, the pole crank 42 and the horizontal push crank 40 are considerably shorter than the length of the tooth rest 36.

Occasionally, it is necessary to adjust the height of the tooth 8 according to the shape of the textile product. In particular, thin soft fabrics such as underwear can easily slip when provided by the teeth 8. Therefore, the tooth height needs to be finely adjusted.

In the tooth mechanism shown in FIG. 6, the teeth 8 are loosened by loosening the screws 18 connecting the tooth support 6 and the fork 14 to move the vertical portion 6b up and down along the groove 14a. You can adjust the height.

However, the adjuster vertical part 6b and the screw 18 are complicated spaces between the pair of hook saddle units 28 as well as in the various parts of the hook saddle unit 28 as shown in FIGS. 8 and 9. It is located at, making adjustments very difficult or practically impossible.

In addition, in the above-described structure, it is almost impossible for the operator to finely adjust the height of the tooth 8 because of the necessity of precise vertical movement of the tooth support 6.

Thus, as a practical means, the height of the tooth 8 is adjusted by inserting a piece of sheet 30 of appropriate thickness, such as paper, between the tooth 8 and the tooth support 6 in the manner shown in FIG.

In the case of the toothed mechanism 31 shown in FIG. 10, the vertical position change of the toothed base 11 relative to the pole 34 is such that the pole crank 42 is moved around the pole 34 through the angle α. To rotate. Here, the short-length pole crank 42 increases the angle α as well as the conversion of the trajectory of the teeth 8.

That is, the height of the tooth support base 11 is x by some means, the distance between the tooth support shaft 10 and the tooth support base is L1, and between the tooth 38 and the tooth support shaft 10. When the distance is changed to L2, if the changed height of the teeth 38 is y, then y = x * L2 / L1. In the tooth mechanism 31, L2 is approximately 1/2 of L1, where y is approximately 1/2 of x.

In addition, when the height of the tooth support stand 11 is changed, the movement of the tooth 38 is changed not only in the vertical direction but also in the horizontal direction.

It is therefore an object of the present invention to provide a mechanism capable of easily adjusting the tooth height.

Another object of the present invention is to provide a mechanism capable of finely adjusting the tooth height.

It is another object of the present invention to provide a mechanism in which the movement trajectory is not affected by the height adjustment of the teeth.

In order to achieve the above object, the present invention is to provide a height adjustment mechanism of the sewing machine teeth. The mechanism is continuously downward from the horizontal portion (2) to rotate in synchronization with the main axis, the pole (4) rotated in synchronization with the main axis and positioned parallel to the horizontal axis, the horizontal portion 56a extending in the horizontal direction and the horizontal portion A tooth support 56 having an extending connection 56b and a tooth 8 supported on the horizontal portion 56a are provided. The horizontal portion is connected at one end to the horizontal push rod, and the connecting portion is connected to the pole. The mechanism further comprises an eccentric shaft 58 rotatably supported on a connecting member 54 pivotally coupled to the pole, the connecting portion being rotatably connected to the eccentric shaft, the rotational position of the eccentric shaft being adjusted and fixed. The tooth height can be adjusted.

Preferably, the horizontal portion of the tooth support supports the teeth on the tooth support in the vicinity of the connection and the connection area.

In a particular arrangement, the sewing machine is a two-needle vertical-axis hook type sewing machine, wherein the adjustment mechanism is located between the two hook saddle units.

Preferably, the eccentric shaft is positioned away from the bottom of the two hook saddle units.

DESCRIPTION OF EMBODIMENTS An embodiment of the present invention will now be described with reference to the accompanying drawings.

1 to 5, the toothed mechanism 51 includes a horizontal rod 2, a pole 4, and a toothed base 56. The horizontal push rod 2 and the pole 4 are rotatable in engagement with a main axis (not shown) of the sewing machine. The tooth support 56 has a horizontal portion 56a extending in the horizontal direction, and a connecting portion 56b extending downward, and one end of the horizontal portion 56a is provided to support the tooth 8 thereon. The connecting portion 56b is slightly curved to extend downward.

The other end of the horizontal portion 56a is connected to the horizontal pusher 2 through the tooth support shaft 10 and the horizontal pusher crank 12, so that the tooth support 56 is moved in the horizontal direction according to the swing motion of the horizontal pusher 2. Move to.

The feed cam 16 fixed to the stretcher 4 is fitted into the stretcher crank 54 (connection member), and the eccentric shaft 58 is rotatably mounted through the lower end of the stretcher crank 54. The two ends of the connecting portion 56b are coupled to both ends of the eccentric shaft 58 so that the eccentric shaft 58 is rotatable. The eccentric shaft 58 is fastened to the column crank 54 by the fastening screw 60.

The lifter crank 54 is coupled to the lifter 4 via the feed cam 16 to move the tooth support 56 in the vertical direction in accordance with the rotation of the lifter 4.

Thus, the tooth 8 is moved on the elliptic trajectory.

When adjusting the height of the teeth 8, first loosen the screw 60, and then the eccentric shaft 58 is rotated at an appropriate angle by a screw coupled to a groove (not shown) formed on the eccentric shaft head portion. Then, the screw 60 is tightened again. If the eccentric portion of the eccentric shaft 58 is adjusted to be in the lowest position as shown in Fig. 2A, then the height of the tooth is also adjusted to the lowest position. On the contrary, by placing the eccentric portion of the eccentric shaft 58 in the highest position as shown in FIG. 2B, the teeth 8 are placed in the highest position.

3 and 4, the screw 60 and the eccentric shaft 58 are located close to the lower end of the hook saddle unit 28 and the operating point (head) of the eccentric shaft 58 and the screw 60. Protrudes to the side of the pair of hook saddle units 28, allowing for easy adjustment. Moreover, unlike the conventional sliding method shown in Figs. 6 to 9, the tooth height is changed by simple rotation of the eccentric shaft 58, so that the adjustment operation is easy at a narrow interval.

When the relative position between the eccentric shaft 58 and the pole 4 is changed for tooth height adjustment, the feed locus of the tooth 8 is also changed. For example, if the pole crank 54 swings around the pole 4 by an angle θ according to the eccentricity or positional change of the eccentric shaft 58 in the stationary state of the sewing machine, this rotation is the operation of the sewing machine. Change the feed trajectory of the saw tooth. Larger changes in angle θ naturally change the feed trajectory even larger.

As shown in FIG. 5, in the tooth height adjusting mechanism of the tooth mechanism 51 in the above embodiment, an engagement point (eccentricity) between the pole crank 54 and the connecting portion 56b due to the rotation of the eccentric shaft 58. The vertical displacement of the axis 58 is x, the vertical displacement of the tooth 8 is y, the horizontal distance between the eccentric shaft 58 and the tooth support shaft 10 is L1, and the tooth 8 and tooth support shaft If the horizontal distance between (10) is L2, then y = x * L2 / L1. Thus, as L1 approaches L2, a larger value y is obtained for a constant x.

In an embodiment, L1 may be close to L2 because the teeth 8 are supported close to the combined portion of the horizontal portion 56a and the connecting portion 56b. Here, if the connecting portion 56b is formed with a small curvature so as to be close to a straight line, L1 is closer to L2.

Moreover, the vertical movement of the pole crank 54 is transmitted to the tooth support 56 via the connecting portion 56b in the embodiment, so that the tooth 8 is hardly moved in the horizontal direction even by the height adjustment of the eccentric shaft 58. Do not.

According to the tooth height adjusting mechanism of the present invention, the height of the tooth is finely adjustable by simple operation.

In addition, by supporting the teeth near the engaging portion of the horizontal portion and the vertical portion, the horizontal distance between the tooth bearing axis and the eccentric shaft becomes closer to the horizontal distance between the tooth bearing and the tooth bearing shaft, and the height displacement of the tooth is eccentricity due to the eccentric shaft. It becomes larger with respect to the displacement amount.

When the adjusting mechanism is included in the sewing machine in the form of a vertical hook of two needles, and the adjusting mechanism is positioned between the two hook saddle units, the fastening screw and the eccentric shaft for fastening the eccentric shaft to the connecting member are the lower ends of the two hook saddle units. Is located away from. Therefore, the screw and the eccentric shaft are easy to access, and unlike the conventional sliding system, the adjustment work is easy even in a narrow gap by only the rotation of the eccentric shaft.

Claims (4)

As the tooth height adjustment mechanism, Horizontal push rod (2) rotated in engagement with the main shaft of the sewing machine, A pole 4 which is rotated in engagement with the main axis and positioned parallel to the horizontal push rod, Tooth support 56 having a horizontal portion 56a extending in the horizontal direction and a connecting portion 56b extending continuously downward from the horizontal portion, and A tooth 8 supported on the horizontal portion, The horizontal portion is connected to the horizontal push rod at one end, the connecting portion is connected to the pole at the bottom, A rocking coupling to the pole and further comprising a connecting member 54 thereon rotatably supporting the eccentric shaft 58, The connecting portion is rotatably coupled to the eccentric shaft at the lower end, the eccentric shaft is a tooth height adjustment mechanism that is fixed to adjust the height of the tooth, the rotation position of the shaft is changed. The tooth height adjusting mechanism of claim 1, wherein the tooth support supports the tooth at a portion adjacent to the coupling portion. According to claim 1, wherein the sewing machine is a sewing machine in the form of a vertical hook of two needles, the height adjustment mechanism is a tooth height adjustment mechanism is located between two hook saddle units. The tooth height adjusting mechanism according to claim 1, wherein the eccentric shaft is spaced apart from a lower end of the two hook saddle units.

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