KR20070104240A - Thread Retraction Blades for Sewing Machines - Google Patents

Abstract

The thread retracting blade 29 is formed for the sewing machine 1. The sewing machine has a shuttle 19 which can be rotated in the rotational direction 24 about the vertical shuttle shaft 23 during the sewing operation. The shuttle comprises a shuttle body 20 in which a bobbin housing 22 is received therein for receiving a shuttle seal supply, and the thread retracting blade 29 is parallel to the shuttle axis 23 above the bobbin housing 22. It is possible to pivot about the pivot axis 30 between the initial position (see FIG. 2) and the seal take-up position (see FIG. 4). The thread retracting blade 29 also has a thread take-up groove 31 having a base side cutting edge 32 in the region of the free end of the thread retracting blade 29 which extends opposite to the rotational direction 24 during the sewing operation. Equipped. The free end 32c extends beyond the seal take-up groove 31. This design of the thread retraction blades ensures that the path of the thread, in particular the path of the needle or the upper thread of the sewing machine, is as unobstructed as possible.

Description

Thread Retraction Blade for Sewing Machines {THREAD WITHDRAWAL BLADE FOR A SEWING MACHINE}

1 is a front view of a lockstitch sewing machine;

Figure 2 is a plan view showing in detail an enlarged sewing machine according to the arrow II of Figure 1;

Figure 3 is an enlarged front view showing in detail the inside of the sewing machine according to the arrow III of Figure 1;

4 shows a thread withdrawal blade similarly to FIG. 2 in a thread take-up position pivoted counterclockwise relative to the initial position according to FIG. 2;

5 shows a deflection mechanism which cooperates with the thread retracting blade drive to move the thread retracting blade between the initial position and the thread take-up position on the other hand, in order to fix the position of the thread retracting blade on the one hand, in particular the initial position ( perspective view of parts of a deflection mechanism;

6 and 7 show a kinematic illustration of the deflection mechanism according to FIG. 5, FIG. 6 shows the deflection mechanism in the initial position and FIG. 7 shows the deflection mechanism in the seal take up position of the thread retraction blade. ;

8 is a perspective view of the thread retraction blade; And

9 is a cross-sectional view taken along the line IX-IX in FIG. 3.

The present invention relates to a thread withdrawal blade for a sewing machine, in particular a thread retracting blade for a lockstitch sewing machine, wherein the sewing machine has a vertical shuttle axis during a sewing operation. A shuttle having a shuttle body, the bobbin housing being accommodated therein for receiving a shuttle thread supply, the rotary shaft being rotated about the center; The retraction blade can be rotated between its initial position and the thread take-up position about a pivot axis parallel to the shuttle axis on the bobbin housing, with the bobbin housing extending opposite to the direction of rotation during the sewing operation. And a seal take-up groove with a base side cutting edge in the region of the free end of the retracting blade.

Thread retraction blades of this type are disclosed in DE 101 17 560 C1 and DE 101 23 075 C1. In demanding applications, there is still a need to improve the unobstructed path of the needle provided with the upper thread of the sewing machine.

It is therefore an object of the present invention to develop a thread retraction blade of the above-described type so that the path of the thread, in particular the path of the needle or the upper thread of the sewing machine, is as unobstructed as possible.

According to the invention, this object is achieved by a thread retracting blade having a free end extending on the seal take-up groove.

The extended end prevents the needle thread from being caught in the thread retracting blade or sewing machine part during loop formation in a particularly undesirable manner. The extended end also ensures that the needle thread does not wind around the thread retraction blade in an undesirable manner. Unobstructed thread paths are a common result.

In addition, the rounded free end ensures that the path of the thread is not obstructed by the thread retracting blade.

It has been found that the length of the free end corresponding to the length of the take-up groove is very suitable for ensuring an unobstructed seal path.

The thread retracting blade, which is bowed in a bow shape and disposed around the bobbin housing in the assembled initial position, ensures that the base body of the thread retracting blade obstructs the path of the thread as little as possible.

Embodiments of the present invention are described in more detail with reference to the accompanying drawings.

The sewing machine 1 has a base plate 2 with a pillar 3 extending upwards and an angled arm 4. The arm terminates at the head 5. An arm shaft 6 is rotatably mounted inside the arm 4. In the head 5, the arm shaft drives a crank drive 7 with a thread lever 8. The crank drive 7 is connected in a drive manner to a needle bar 9 mounted in the head 5 so as to be movable in the axial direction. The needle bar has a needle 10 at its lower end. The needle 10 may be raised and lowered by the crank drive 7 on the vertical axis 11. In the eye, the needle 10 guides the needle thread 13 supplied by the bobbin 12 through the thread tensioning device and the thread lever 8.

The base plate 2 is provided with a bearing plate 14 bound by screws, and a sewing workpiece 15 rests on the bearing plate. The bearing plate 14 has a groove 16 for passing through a feeder 17. The feeder has a stitch hole 18 for passing through the needle 10. The feeder 17 is arranged in a known manner in the drive coupling with the slide and lift transmission arranged under the base plate 2.

Below the bearing plate 14 is a shuttle 19 comprising a shuttle body 20 with a shuttle tip 21. A cup-shaped bobbin housing 22 for receiving the shuttle seal supply is mounted in the shuttle body 20.

The shuttle 19 is rotatable about the vertical shuttle shaft 23. The rotation direction 24 during the sewing operation extends clockwise about the shuttle shaft 23 as shown in FIG. 2. The shuttle body 20 is firmly coupled to the shaft 25, which axis extends in common with the shuttle axis 23. The shaft 25 is rotatably mounted to a bearing block 26 screwed to the base plate 2. The drive shaft 27 is mounted to the base plate and is coupled to toothed gearing disposed inside the bearing block 26. The gear gearing has a gear ratio of 1: 2 so that the shuttle body 20 on the shaft 25 is rotated twice when the drive shaft 27 is rotated. The drive shaft 27 is coupled to the arm shaft 6 via a belt drive 28 at the drive side.

The thread retraction blade 29 serves to cut the shuttle seal. The thread retraction blade 29 pivots about a pivot axis 30 parallel to the shuttle axis 23 between the initial position shown in FIG. 2 and the thread take-up position shown in FIG. 4. It is possible. The thread retracting blade 29 has a basic shape reminiscent of the sickle of the drawing according to FIG. 2, with the free end in its initial position in the drawing according to FIG. 2 extending around the bobbin housing 22. In the thread take-up position of the thread retracting blade 29, the take-up groove 31 of the thread retracting blade 29 has a cutting edge 32 on the groove base side and stitch holes 18. It is located nearby. The take up groove 31 is formed at the angular edge portion 32b of the thread retreating blade 29 perpendicular to the horizontally extending base body 32a. The elongated free end 32c of the thread retracting blade 29 has a circular end in plan view according to FIGS. 2 and 4. The length of the free end 32c of the thread retracting blade 29 has the result that the needle thread 13 does not preferably surround the thread retracting blade during loop formation. The circular shape of the free end 32c results in an uninterrupted thread path of the needle thread 13 as well as the shuttle thread.

The fixed counter blade 33 is fastened to the base plate 2 on the radial arm and cooperates for the cutting edge in a cutting manner when the thread retracting blade 29 pivots from the seal take up position to the initial position.

The support finger 34 is integrally formed in the bobbin housing 22. In the direction of rotation 24 during the sewing operation, the bobbin housing 22 is fixed by the first anti-rotation stop 35 with respect to the rotation about the shuttle shaft 23. The stop is formed as a front at the end of the cantilever arm 36 which is firmly screwed into the base plate 2. The first bobbin housing counter stop 37 presses the first anti-rotation stop 35 to prevent rotation of the bobbin housing 22, and supports a finger toward the first anti-rotation stop 35. 34) is formed by the surface.

In the opposite direction of the rotation direction 24, ie counterclockwise, during the sewing operation of the drawing according to FIG. 2, the bobbin housing is rotated about the shuttle shaft 23 by the second anti-rotation stop 38. Is prevented. The stopper is formed by a stop face integrally formed at the free end of the thread retraction blade 29, the face representing the end face of the lower shoulder 39, opposite the second anti-rotation stop 38. Is joined with the base body 32a of the thread retraction blade 29. Thus, the second anti-rotation stop 38 is engaged with the thread retraction blade 29.

In the initial position of the thread retraction blade 29, the second anti-rotation stop 38 cooperates with the second bobbin housing counter stop 40. The counter stop is formed by the surface of the support finger 34 of the bobbin housing 22 facing the second anti-rotation stop 38 and opposite the first bobbin housing counter stop 37.

If the shuttle 19 rotates in the rotational direction 24 during the sewing operation, the bearing of the first anti-rotation stop 35 relative to the first bobbin housing counter stop 37 is such that the bobbin housing 22 has a shuttle 19. ) To prevent rotation. As soon as the shuttle 19 rotates in the opposite direction, it may occur during the adjusting operation of the sewing machine even when the sewing needle 10 is moved to the upper position after the complete needle cutting process, the sewing needle 10 and the sewing workpiece 15 The bearing of the second anti-rotation stop 38 against the second bobbin housing counter stop 40 ensures that the bobbin housing 22 is in the opposite direction in order to ensure maximum free space between the bearing plates 14 for the purpose. It prevents rotation with the shuttle 19. To this end, the thread retracting blade 29 is fixed in its initial position in order to absorb the force exerted on the thread retracting blade 29 via the stops 40, 38 by the support fingers 34.

This fastening of the thread retracting blade 29 in the initial position is performed by the position fixing device 41 shown in perspective in FIG. 5 and the movement relationship is shown in FIGS. 6 and 7. A deflection mechanism 42 is present inside the position fixing device 41. The deflection mechanism is provided via a shaft 44 rigidly mounted with a pivoting lever 43 rigidly coupled to the thread retracting blade 29 (not shown in FIG. 5) in terms of rotation. The shaft 44 extends coaxially with the pivot axis 30. The pivot lever 43 runs into the joint on the lock lever 47 via an articulation 45 having an axis of the joint 46 parallel to the pivot axis 30. The lock lever 47 slidably engages the lift plunger 48 of the thread retracting blade drive 49. For this purpose, the locking lever 47 presses the lifting plunger 48 through the cam 47a. The thread retracting blade drive 49 formed of an electromagnet serves to move the thread retracting blade 29 from the initial position to the seal take-up position on the one hand, and on the other hand, the position fixing device 41 is shown in FIGS. 5 and 6. It serves to move from the position fixing device 41 shown in Fig. 7 to the release position shown in Fig. 7, wherein the thread retracting blade 29 is pivotable. The locking lever 47 has a first fastening portion formed as a pawl 50, which is fastening to the first fastening portion 50 formed by the fastening pins 51 fastened to the base plate 2. It is fixed to the fixed position of the position fixing device 41 with respect to the second fixed portion. FIG. 7 shows a pawl 50 separated from the pin 51 in the position of release of the positioning device 41.

The locking lever 47 and the turning lever 43 are inclined to one side by a bias spring 52 at the fixed position of the position fixing device 41. The bias spring consists of a leg spring, with one leg 53 of the leg spring pressed against the locking lever 47 and the other leg 54 tied to the pivot lever 43. Pressurize). The bias spring 52 is wound around a journal 55a fixed to the locking lever 47 between the legs 53, 54.

In particular, as can be seen from FIG. 5, the cantilever arm 36 protrudes with the first anti-rotation stop 35 slightly beyond the bobbin housing 22 with the supporting fingers 34 upwards. The bobbin housing 22 is arranged such that there is only a minimum intermediate space between the thread retracting blade 29 and the upper surface of the bobbin housing 22. This allows the cutting edge 32 to be placed very close to the needle hole 18, so that the end of the thread present in the lower part of the sewing product 15 after the cutting process is short. In addition, due to this arrangement of the bobbin housing 22, the thread passages of the shuttle thread and the needle thread 13 are enhanced by the shuttle 19 during loop formation.

The sewing machine 1 operates in the following manner: During normal sewing operations the thread retracting blade 29 is in the initial position and the position fixing device 41 is in the fixed position. Thus, the bobbin housing 22 is fixed by the anti-rotation stops 35, 38, and the bobbin housing counter stops 37, 40 are fixed with respect to the rotation about the shuttle shaft 23 in both directions. . By means of the shuttle 19, loop formation and the knot of the shuttle thread, the sewing thread 13 leads to lamination.

To start the thread cutting process, the thread retracting blade drive 49 is actuated so that the lift plunger 48 moves. The lift plunger 48 pushes the cam 47a down as shown in the figures of FIGS. 6 and 7. The pressing force of the lift plunger 48 causes the locking lever 47 to pivot in a clockwise direction about the articulation 45 shown in FIGS. 6 and 7. This is done against the biasing force of the bias spring 52 until the surface of the locking lever 47 opposite the lifting plunger 48 urges the pivoting lever 43. At the same time, the pawl 50 is separated from the pin 51 until the position of the deflection mechanism 42 reaches the position shown in FIG. 7. The separated position of the second fixing part 51 represents the seal take-up driving position, where the thread retracting blade 29 can be freely rotated out of the initial position.

In this position, the pivot lever 43 is rotated counterclockwise about the shaft 44 with respect to the position according to FIG. 6. This leads to the rolling contact of the roller 56 with the axial cam 58 attached to the roller lever 57 rigidly coupled to the swing lever 43. The shaft cam is firmly coupled to the drive shaft 27 in terms of rotation. By rolling the roller 56 on the shaft cam 58 at the position of release of the position fixing device 41, the rotational movement of the thread retracting blade 29 is thereby first forced from the initial position according to FIG. Is moved to the seal take-up position. In this thread take-up position, the shuttle thread and needle thread 13 enter the take up groove 31 of the thread retracting blade 29. The rolling contact of the roller 56 on the shaft cam 58 then forces the return of the thread retracting blade 29 from the seal take up position to the initial position. In this return, the seal is cut by the cooperation of the counter blade 33 and the cutting edge 32. After this return with a complete return of the rising plunger 48, the bias spring 52 is moved away from the turning lever 43 again until the pawl 50 engages the pin 51 again. The cam 47a is pressed.

During the thread cutting process, it is unnecessary to prevent rotation of the bobbin housing 22 opposite to the rotational direction during the sewing operation. As long as the thread retracting blade 29 is in the seal take-up position, the shoulder 39 and the shuttle seal It does not block the thread path of the needle thread 13.

According to the invention, less critical demand is placed on the individual parts in the area of the seal path between the bobbin housing and the bearing plate, especially in the seal take-up position of the thread retracting blade, preventing interference with the seal path. do.

In addition, according to the present invention has the effect of providing a thread retraction blade that is not interrupted the path of the thread, in particular the path of the needle or the upper thread of the sewing machine.

Claims (4)

A shuttle including a shuttle body 20 which can be rotated in a rotational direction 24 about a vertical shuttle shaft 23 during a sewing operation and in which a bobbin housing 22 is accommodated therein for receiving a shuttle seal supply portion. A thread retracting blade 29 for a sewing machine 1 comprising (19), wherein the thread retracting blade 29 Can be pivoted between the initial position (FIG. 2) and the seal take-up position (FIG. 4) about the pivot axis 30 parallel to the shuttle axis 23 on the bobbin housing 22, With a seal take-up groove 31 having a base side cutting edge 32 in the region of the free end of the thread retracting blade 29 which extends opposite to the direction of rotation 24 during the sewing operation, In the thread retracting blade 29, Thread retraction blade, characterized in that it has a free end (32c) extending beyond the seal take-up groove (31). The method of claim 1, Thread retraction blade, characterized in that the free end (32c) is circular. The method of claim 1, Thread retracting blade, characterized in that the length of the free end (32c) corresponds to the length of the take up groove (31). The method of claim 1, Thread retracting blade (29), characterized in that the bow retracted bow characterized in that it is arranged around the bobbin housing (22) in the assembled initial position.

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