KR20090047374A - Sewing machine - Google Patents

Abstract

The sewing machine has a housing 5, a support plate 9 and a presser foot 10 which cooperates with the support plate 9 to clamp the fabrics 7, 8. One end of the power source 16 is supported by the housing 5, and the other end is supported by the presser foot 10 to preload the presser foot 10 with respect to the support plate 9. The regulator 20 serves to adjust the preload force exerted on the presser foot 10 by the power source 16. The adjusting device 20 has an adjusting body 21 mounted on the housing 5 to enable pivoting about the pivot shaft 23. The regulator 21 has a surface wall 24, which contacts the power source 16 through the surface wall 24 to influence the preload force. The radius of the surface wall 24 varies continuously and completely monotonically within the adjustment angle range 25 about the pivot axis 23. As a result, a sewing machine capable of adjusting the presser foot preload force more reliably and satisfactorily can be obtained.

Sewing machine, presser foot, preload

Description

Sewing Machine

The present invention relates to a sewing machine, the sewing machine comprising a housing; Support plates; A presser foot cooperating with the support plate to clamp the fabric; A power source having one end supported by the housing and the other end supported by the presser foot such that the presser foot is preloaded with respect to the support plate; And an adjusting device for adjusting the preload force exerted on the presser foot by the power source.

Sewing machines of this type are disclosed in DD-PS 53 542, DD-PS 35 150 and GB 2 068 027 A.

Sewing machines having other adjustable presser foot preload forces are commonly used in the art.

In known sewing machines, the adjustment of the presser foot preload force still leaves room for improvement. In particular, problems arise with respect to the reproducibility of the preload force, the precision of the preload force regulation and the readability of the currently set preload force. Moreover, many efforts are required to adjust the preload force, and in the case of known sewing machines, additional tools may be required.

Accordingly, it is an object of the present invention to develop a sewing machine of the type mentioned at the outset in order to obtain a method of adjusting the presser foot preload force with greater reliability and satisfaction.

An object of the present invention is a sewing machine described in the opening paragraph,

The adjusting device includes an adjusting body mounted in the housing to enable pivoting about a pivot axis;

The modulator comprises a surface wall,

Through the surface wall the modulator is in direct contact with the power source to influence the preload force,

The radius of the surface wall varies monotonically between a minimum radius and a maximum radius within an adjustable angle range about the pivot axis;

The power source is a leaf spring,

One end of the leaf spring is clamped to lock against the housing;

The other end of the leaf spring is in contact with one end opposite the foot member of the presser foot of the presser foot bar of the presser foot,

The surface wall of the adjuster is achieved by a sewing machine in direct contact with the leaf spring between the two ends.

According to the present invention, a regulator comprising a regulator cooperates with the power source through the surface wall to generate a preload force. Surface walls with varying radii allow precise control of the preload force, especially with short travels. The radius of the surface wall varies monotonically mathematically. According to the invention the resulting preload force of the monotonically changing radius is clearly assigned to each position of the regulator. The result is an extremely precise adjustment of the preload force. The change in radius can be continuous or discontinuous. Progressive change or degressive change in radius within the control angle range is also a monotonic change in accordance with the present invention. Discontinuous changes in radius can include, for example, multiple discrete radii. The change in radius between the minimum and maximum radius is generally a completely monotonous change. According to an embodiment of the present invention, a well-readable preload force indicator (eg, a numerical scale or a line scale) is provided over the entire range of the adjustment angle. The leaf spring according to the invention is a force spring found to be suitable for adjusting the presser foot preload force. In order to influence the preload force, the adjuster is in direct contact with the power source, which means that no intervening parts are required, so that the preload force can be precisely adjusted. Since no additional mechanism is interposed between the adjuster and the leaf spring, the preload force can be easily adjusted.

Since the surface wall of the regulator within the adjustment angle range is substantially helical, the preload force can be continuously adjusted. By this spiral the preload force generated over the entire range of the adjustment angle can be increased gradually.

The adjustment wheel is mechanically connected to the control to pivot the control on the outside of the housing and is provided for convenient operation of the control. This adjustment wheel may be provided with the aforementioned scale which cooperates with the scale marked on the housing to indicate the currently set preload force.

The locking unit secures the adjustment wheels to at least two pivot angle fixed positions relative to the housing, by which the preloading force can be set such that the preload force can be easily reproduced and not changed unintentionally. Inconvenient locking means such as counter nuts are not necessary.

Very convenient operation is ensured by designing the locking unit as a latching unit with a preloaded latching body which engages one of the at least two latching grooves in the latching position. The latching unit can set initial values of various preload forces by clicking. Depending on the design of the latching unit, the latching body can be mounted in the housing or in the adjusting wheel. The latching groove is provided in the latching wheel when the latching body is mounted in the housing, and the latching groove is provided in the housing when the latching body is mounted in the adjusting wheel.

Fine adjustment of the preload force is made possible by an adjustment angle range of more than 180 ° or an angle of 270 °.

The radius of the sewing machine is changed by the radius of the surface wall that varies between the minimum radius (R _min ) and the maximum radius (R _max ) such that the maximum radius (R _max ) / minimum radius (R _min )> 2 within the adjustment angle range (25). Force coverage between the minimum preload force and the maximum preload force, which satisfactorily meets the operating requirements, is ensured.

Therefore, according to the present invention, a sewing machine which can adjust the presser foot preload force with higher reliability and satisfactorily is obtained.

Hereinafter, embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

FIG. 1 shows only a base plate and a part of a base plate of a sewing machine 1, and includes a stand 2 and an arm 3 extending in a horizontal direction at an angle with respect to the stand 2. At the end of the arm 3 is provided a head 4. The stand 2, the arm 3, the head 4 and the base plate are housed in the housing 5 of the sewing machine 1. The arm shaft is rotatably mounted to the arm 3 as not shown in the figure. In the head 4 the arm shaft drives a needle bar. This needle bar is mounted to the head 4 so as to be axially displaced through the crank drive, which is also not shown. The needle attached to the lower end of the needle bar is capable of vertical movement along the vertical axis 6 by the crank drive. The needle includes a needle ear for guiding the needle thread. The needle thread is supplied by a spool (not shown) to sew the two overlapping fabrics 7, 8.

The two fabrics 7, 8 sewn by the sewing machine 1 are placed on the support plate 9 (see FIG. 2). The support plate 9 has a needle hole (not shown).

The presser foot 10 is for clamping the fabrics 7 and 8 during sewing operations. The presser foot 10 has a foot member 11 for applying pressure to the upper surfaces of the fabrics 7, 8. The foot member 11 is fixed to the presser foot bar 13 by a screw 12. The presser foot bar 13 is guided in the guide bushing 14 in the head 4 along the presser foot axis 15 parallel to the vertical axis 6.

Power source 16 composed of a leaf spring serves to provide pressure so that the presser foot 10 can clamp the fabric (7, 8) during the sewing operation. On the other hand, one end 16a of the leaf spring 16 is supported on the counter bearing 17. This counter bearing is mounted to the housing such that the leaf spring 16 is pivotable about the pivot axis 18. On the other hand, the other end 16b of the leaf spring 16 is supported by the free end 19 above the presser foot bar 13. The leaf spring 16 extends substantially parallel to the arm 3.

Since the shape of the contact portion of the upper end 19 of the presser foot bar 13 with the leaf spring 16 is hemispherical, the leaf spring 16 can contact the presser foot bar 13 in the manner defined.

The preload force on the presser foot 10 of the leaf spring 16 is adjusted by the adjusting device 20 (see FIG. 3). The adjusting device 20 has an adjusting body 21 mounted in the housing 5 to enable rotation or pivot about the adjusting shaft 22. The regulating shaft forms a pivot shaft 23, to which the adjusting body 21 is coaxially rotatable. The adjuster 21 has a surface wall 24 forming an adjusting curved surface. In order to influence the preload force, the adjuster 21, or more precisely, the surface wall 24 of the adjuster, may have a leaf spring between the two ends 16a, 16b as shown in FIGS. 2 and 3. Contact with the top of 16).

The radius R of the surface wall 24 measured from the pivot axis 23 varies continuously and completely monotonically within the adjustment angle range 25 about the pivot axis 23. In the embodiment shown in Figs. 2 and 3 the radius has a spiral shape.

The adjustment angle range 25 is about 270 degrees. Depending on the design of the regulator 21, other adjustment angle ranges, in particular adjustment angle ranges exceeding 180 °, can also be considered. If the surface wall of the regulator is for example helical, the adjustment angle range may also exceed 360 °.

The radius R of the surface wall 24 within the adjustment angle range 25 varies between the minimum radius R _min and the maximum radius R _max . In the above embodiment, the ratio of R _max / R _min is about 3. According to each embodiment, other R _max / R _min ratios, in particular more than 2, may also be considered.

The adjusting body 21 is operated from the outside of the housing by the adjusting wheel 26. The adjusting wheel 26 is mechanically connected in the adjusting body 21 for pivoting the adjusting body 21 about the pivot axis 22. In the embodiment according to FIG. 3, the adjusting wheel 26 is screwed to the adjusting shaft 22 by a central screw 27 extending coaxially to the adjusting shaft 22.

By means of the locking unit 28 the adjustment wheel 26 can be fixed in a number of pivot angle fixed positions with respect to the housing 5. The locking unit 28 has a spherical latching body 29. In FIG. 3, the latching body 29 is pressed to the right by the helical spring 30 supported on the bottom surface of the blind hole 31. The latching body 29 is fixed not to drop out of the blind hole 31 by the holding bushing 32 mounted in the blind hole 32.

In the latching position of the locking unit 28 shown in FIG. 3, the latching body 29 engages with a latching recess 33 in the adjusting wheel 26. This latching groove 33 is complementary to the latching body 29. At the periphery of the adjustment wheel 26 around the pivot shaft 23, a plurality of latching grooves 33 are disposed at regular intervals in the adjustment angle range 25. The number of latching grooves 33 of the adjusting wheel 26 may be, for example, two, three, four, five or tens (eg, 50).

The preload force of the presser foot 10 is adjusted in the following manner by the adjusting device 20: The preload force set according to the type and thickness of the fabrics 7, 8 to be sewn is referred to by the operator through the table. do. This preload force is indicated, for example, by a number, which is also provided on the adjusting wheel 26, in other words on each latching groove 33 region that the operator faces. The operator turns the adjustment wheel 26 to align the number with the adjustment mark 34 (see FIG. 1) provided on the housing 5 in which the adjustment wheel 26 is in contact. In doing so, the operator can sense the intermediate latching position of the latching position of the control wheel 26, which gives a click feeling that occurs when the latching body 29 enters and exits the latching groove 33. When the set preload force is reached, the latching body 29 is engaged to the latching position 1 shown in FIG. 3, with the result that the adjustment wheel 26 is fixed at the preset position. At this preset position, the preset radius, which generally falls between the minimum radius (R _min ) and the maximum radius (R _max ) of the surface wall 24, contacts the leaf spring 16 to bring the leaf spring into a predetermined range. The leaf spring 16 is preloaded in response to the set preload force by bending deformation up to. As a result, during the sewing operation, the presser foot bar 13 and the foot member 11 of the presser foot 10 exert a pressure corresponding to the preload force currently set on the fabrics 7, 8.

1 is a side view of an upper portion of a sewing machine.

FIG. 2 is a schematic longitudinal cross-sectional view of the head portion of the sewing machine of FIG. 1 showing only parts engaging with the presser foot of the sewing machine.

3 is a cross-sectional view taken along the line III-III of FIG. 1.

Claims (8)

A housing 5; Support plate 9; Presser foot (10) cooperating with the support plate (9) to clamp the fabric (7, 8); A power source 16 having one end supported by the housing 5 so that the presser foot 10 is preloaded with respect to the support plate 9, and the other end supported by the presser foot 10; And an adjusting device 20 for adjusting the preload force exerted on the presser foot 10 by the power source 16. As sewing machine 1, The adjusting device (20) comprises an adjusting body (21) mounted in the housing (5) to enable pivoting about the pivot shaft (23); The regulator 21 comprises a surface wall 24, Through the surface wall 24 the regulator 21 is in direct contact with the power source 16 to influence the preload force, The radius (R) of the surface wall (24) varies monotonically between a minimum radius and a maximum radius within the adjustment angle range (25) about the pivot axis (23); The power source is a leaf spring 16, One end (16a) of the leaf spring (16) is clamped to lock with respect to the housing (5); The other end 16b of the leaf spring 16 is in contact with one end opposite to the foot member 11 of the presser foot 10 of the presser foot bar 13 of the presser foot 10, The surface wall (24) of the adjuster (21) is in direct contact with the leaf spring (16) between the two ends (16a, 16b). 2. Sewing machine according to claim 1, characterized in that the surface wall (24) of the adjusting body (21) is substantially spiral within the adjusting angle range (25). A control wheel (26) is provided on an outer surface of the housing (5), the control wheel (26) being mechanically mounted within the control body (21) for pivoting of the control body (21). Sewing machine, characterized in that connected to. 4. Sewing machine according to claim 3, characterized in that at least one locking unit (28) for locking said adjustment wheel (26) in at least two pivot angle fixed positions with respect to said housing (5). 5. The sewing machine according to claim 4, wherein the locking unit (28) is a latching unit having a preloaded latching body (29) engaged with one of at least two latching grooves (33) in the latching position. . The sewing machine of claim 1, wherein the sewing angle range is greater than 180 degrees. The sewing machine according to claim 6, wherein the sewing angle range is 270 degrees. 2. The radius (R) of the surface wall (24) according to claim 1, wherein the radius (R) of the surface wall (24) varies between the minimum radius (R _min ) and the maximum radius (R _max ) within the adjustment angle range (25), wherein the maximum radius (R _max). ) / The minimum radius (R _min )> 2 sewing machine.

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