EP2980295B1 - Transmission lever for a sewing machine transmission - Google Patents

Description

The invention relates to a gear lever for pivotally connecting two components of a sewing machine. Furthermore, the invention relates to a gear lever assembly with such a gear lever and a lubricant wick. Furthermore, the invention relates to a sewing machine gearbox with a gear lever assembly and a sewing machine with such a sewing machine gearbox.

Gear levers for use in sewing machines are basically known. So be for example on the EP 2 330 241 B1 referenced, which discloses a sewing machine with a Stichstellergetriebe, which comprises gear lever or gear tabs are connected by means of the shafts of the transmission pivotally. Due to the high number of components of the transmission, these are low maintenance. For this purpose, known sewing machine gearboxes on lubricant or lubricant distribution devices, which serve to supply a required amount of lubricant to the mutually moving components of the transmission. As a lubricating body, for example, a wick can be used, which is to be attached to a gear lever.

It is an object of the present invention to further develop gear levers for a sewing machine gear so that they are suitable for the guided installation of a lubricant wick, without adversely affecting mechanical properties of the gear lever.

This object is achieved by a sewing machine with the features specified in claim 1. The gear lever for pivotally connecting two components of a sewing machine has a lever top extending along a lever longitudinal axis and a lever bottom extending along the lever longitudinal axis and facing away from the top of the lever. Two coupling recesses spaced apart from one another along the longitudinal axis of the lever for cooperation with sewing machine components each extend essentially transversely to the lever longitudinal axis. A first wick recess for guiding a lubricant wick extends along the lever longitudinal axis and is provided at a first outer edge in the region of the lever top. The fact that a second wick recess for the guided contact of the lubricant wick extends along the longitudinal axis of the lever and is arranged on a second outer edge of the gear lever in the area of the lever underside creates the possibility that the gear lever of the lubricant Wick can be applied in such a way that the lubricant wick completely rotates the gear lever and rests against it, but there is no impairment of the strength or other mechanical properties of the gear lever in the region of the clutch recesses. Due to the inventive arrangement of the wick recesses on the outer edges of the lever top and the lever bottom is a system of lubricant wick allows an edge region of the gear lever. Slipping or slipping of the adjacent lubricant wick is effectively prevented. Furthermore, the inventive arrangement of the wick recesses allows a production of the gear lever by a suitable archetype method, for. B. a sintering process. In the gear lever according to the invention, there are no undercuts due to the inventive arrangement of the wick recesses make it difficult or even impossible to use an original method. Wick recesses are therefore attachable to the gear lever in a simple and cost effective manner during manufacture. Alternatively, a subsequent milling of the wick recesses would be possible. Before being used in a sewing machine gear or in a sewing machine, the gear lever is coated, preferably chrome-plated. This can reduce wear of the gear lever.

Further advantageous embodiments of the invention are specified in the subclaims.

A gear lever according to claim 2 ensures an independent holding the lubricant wick on the gear lever, without separate holding means or holding elements are necessary. Accordingly, the second outer edge extends on a different side of the transverse plane than the first outer edge. In an abutment position of the lubricant wick on the gear lever, the lubricant wick crosses the transverse plane in two spaced apart end portions of the gear lever. The transverse plane is substantially perpendicular to the lever top and the lever longitudinal axis. Further, the transverse plane is preferably arranged to pass through central longitudinal axes of the clutch recesses. The coupling recesses are preferably formed as through holes, wherein drilling axes form the central longitudinal axes.

A gear lever according to claim 3 ensures that the lubricant wick extends over a large area of an outside of the gear lever. The first wick recess and the second wick recess are spaced apart along the lever longitudinal axis. This ensures that the lubricant wick is held in tension in the installation position and can not unintentionally detach from the gear lever.

A gear lever according to claim 4 allows a structurally simple and inexpensive production of the gear lever and a simple attachment of the wick recesses on the gear lever. Due to the rectilinearly extending along the lever longitudinal axis wick recesses also a rectilinear guided conditioning of the lubricant wick on the first and second outer edge of the gear lever is also possible. Accordingly, preferably also the first outer edge and the second outer edge each extend in a straight line along the lever longitudinal axis and thus also in each case parallel spaced from the transverse plane.

A gear lever according to claim 5 ensures that the lubricant wick is guided substantially over a complete length of the first outer edge along the lever longitudinal axis. Along the lever longitudinal axis can be provided between the first and third wick recess along the first outer edge, a central region which is free of recesses. In this case, the first wick recess and the third wick recess along the lever longitudinal axis, although adjacent to each other, but with the formation of an intermediate distance.

A gear lever according to claim 6 ensures that the lubricant wick in the contact position substantially over a complete length of the second outer edge along the lever longitudinal axis guided on the gear lever is applied. Between second wick recess and fourth Wick recess may be provided along the lever longitudinal axis an intermediate region which is free of wick recesses.

A gear lever according to claim 7 allows a cost-effective production of the same in large numbers. The median plane preferably runs perpendicular to the transverse plane. The median plane further extends along the lever longitudinal axis substantially midway between the coupling recesses. The median plane preferably forms a mirror symmetry plane for central longitudinal axes of the coupling recesses.

Another object of the invention is to provide a gear lever assembly that includes a lubricating wick applied to a gear lever without adversely affecting mechanical properties of the gear lever.

This object is achieved with a gear lever assembly according to claim 8. According to claim 8, the gear lever assembly has a gear lever and a lubricant wick, which rests in the wick recesses of the gear lever rests. The advantages of the gear lever arrangement correspond to the advantages which have been explained above in connection with the gear lever according to the invention.

Another object of the invention is to provide a sewing machine transmission with said gear lever assembly.

This object is solved by the subject matter of claim 9. A sewing machine gearbox with the gear lever assembly according to the invention and the gear lever according to the invention enables optimal Lubrication of transmission components through the lubricant wick guided on wick recesses.

It is another object of the invention to use the sewing machine gear in a sewing machine.

This object is achieved by a sewing machine according to claim 10. The advantages of the sewing machine correspond to those previously explained in connection with the gear lever, the gear lever assembly and the sewing machine gear. Preferably, the sewing machine and the sewing machine gear can be retrofitted with the gear lever according to the invention or with the gear arrangement according to the invention. The gear lever or the gear lever arrangement according to the invention are therefore advantageously available as retrofit parts or retrofit kit.

Fig. 1

eine bedienerseitige Ansicht einer Zwei-Nadel-Nähmaschine mit einem Nähmaschinengetriebe, wobei ein Maschinentisch zur Sichtbarmachung von in der Grundplatte untergebrachten Details weggelassen ist,

Fig. 2

eine ausschnittsweise Seitenansicht des Nähmaschinen-Getriebes,

Fig. 3

eine perspektivische Ansicht eines Getriebehebels zur schwenkbaren Verbindung zweier Komponenten des Nähmaschinen-Getriebes nach Fig. 2,

Fig. 4

eine perspektivische Ansicht des Getriebehebels nach Fig. 3 mit einem Schmiermittel-Docht in einer Anlage-Stellung,

Fig. 5

eine Ansicht des Getriebehebels nach Fig. 4 aus Blickrichtung V in Fig. 4,

Fig. 6

eine Ansicht des Getriebehebels nach Fig. 3 aus Blickrichtung VI in Fig. 3,

Fig. 7

eine Seitenansicht des Getriebehebels nach den Fig. 3 bis 6, wobei der Getriebehebel im Vergleich zur Ansicht nach Fig. 6 um 90° nach unten verschwenkt ist,

Fig. 8

eine Ansicht des Getriebehebels nach den Fig. 3 bis 7, wobei der Getriebehebel gegenüber der Ansicht nach Fig. 7 um 90° nach unten geschwenkt ist, und

Fig. 9

eine Stirnansicht des Getriebehebels nach den Fig. 3 bis 8.

Further features, advantages and details of the invention will become apparent from the following description of an embodiment. Show it:

Fig. 1

a user-side view of a two-needle sewing machine with a sewing machine transmission, wherein a machine table for visualization of housed in the base plate details is omitted,

Fig. 2

a partial side view of the sewing machine gearbox,

Fig. 3

a perspective view of a gear lever for pivotally connecting two components of the sewing machine transmission according to Fig. 2 .

Fig. 4

a perspective view of the gear lever after Fig. 3 with a lubricant wick in a plant position,

Fig. 5

a view of the gear lever after Fig. 4 from the direction V in Fig. 4 .

Fig. 6

a view of the gear lever after Fig. 3 from viewing direction VI in Fig. 3 .

Fig. 7

a side view of the gear lever after the Fig. 3 to 6 , where the gear lever compared to the view Fig. 6 is pivoted downwards by 90 °,

Fig. 8

a view of the gear lever after the Fig. 3 to 7 , with the gear lever facing the view Fig. 7 pivoted downwards by 90 °, and

Fig. 9

an end view of the gear lever after the Fig. 3 to 8 ,

The following is with reference to the Fig. 1 to Fig. 9 an embodiment of the invention described.

One in an overall view in Fig. 1 shown sewing machine 1 has an upper arm 2, a vertical stand 3 and a lower housing in the form of a base plate 4. In the arm 2 is an in Fig, 1 not shown arm shaft rotatably mounted. A housing 5 of the sewing machine 1 and the base plate 4 are part of a frame of the sewing machine 1. A drive of the arm shaft and thus the essential sewing components of the sewing machine 1 via a drive motor mounted in the arm. Other sewing components are driven by a belt drive not shown in detail in the drawing.

In the embodiment shown, the sewing machine 1 is designed as a two-needle sewing machine. Whether the sewing machine 1 is a two-needle or a one-needle sewing machine is immaterial to the subject invention. About the arm shaft and a drive device in the form of a crank drive two needle bars 6, 7 vertically up and down driven. The needle bars 6, 7 each carry a needle 8, 9. Instead of two needle bars 6, 7 may be provided in a not shown embodiment of the sewing machine 1, a single needle-receiving unit that receives both needles 8, 9. The basic structure of the sewing machine 1 according to Fig. 1 Alternatively, it can also be used in a sewing machine with only one needle. With regard to the further construction of the sewing machine 1, reference is made to the description of EP 2 330 241 B1 referred to the applicant.

To drive a feed dog used in the sewing machine 1, a transmission 10, the in Fig. 1 is visible in the base plate 4.

Fig. 2 shows main components of the transmission 10. The gear 10 is designed as Stichstellergetriebe or setting gear for specifying in particular a transport length of a conveyor, namely of sub-transport-material shifters. Also regarding the details of Fig. 2 be on the description of EP 2 330 241 B1 directed. Fig. 2 is essentially to take a stitch length eccentric 11. On the output side, the eccentric 11 has an eccentric lever 12, which is connected via a first link joint with hinge axis 13 with a gear lever 14 according to the invention. The transmission lever 14 may also be referred to as a transmission lug. In the embodiment shown, the gear lever 14 is further connected to a clamping lever 15 in the form of a sleeve.

The gear lever 14 according to the invention serves for the pivotable connection of two components of the sewing machine 1. The use of the gear lever 14 in the transmission 10 after Fig. 1 and Fig. 2 is purely exemplary. The gear lever 14 can be used in any sewing machine gear.

The gear lever 14 is in detail in the Fig. 3 to 9 shown, where Fig. 4 and Fig. 5 show the gear lever 14 with a lubricant wick 16 in an abutment position. In the Fig. 3 and Fig. 6 to 9 the gear lever 14 is shown isolated without lubricant wick 16.

The gear lever 14 is preferably formed of chromed steel and extends along a lever longitudinal axis 17. The gear lever 14 includes a lever top 18 extending along the lever longitudinal axis 17 and a lever bottom 19 extending along the lever longitudinal axis 17 that faces away from the lever top 18.

Further, the gear lever 14 has two along the lever longitudinal axis 17 spaced from each other arranged coupling recesses 20, 21 for cooperation with sewing machine components. The coupling recesses 20, 21 each extend transversely to the lever longitudinal axis 17. In the embodiment of the gear lever 14 shown are the Clutch recesses 20, 21 formed as through holes extending from the lever top 18 to the lever bottom 19.

The gear lever 14 has a transverse plane E _Q , which extends perpendicular to the lever top 18 and lever bottom 19 and extends through the lever longitudinal axis 17. Furthermore, the transverse plane E _Q also extends through the central longitudinal axes 22, 23 of the coupling recesses 20, 21.

Furthermore, the gear lever 14 has a center plane E _M , which is perpendicular to the lever top 18 and the lever bottom 19. Furthermore, the center plane E _M extends transversely or perpendicular to the lever longitudinal axis 17. The gear lever 14 is formed symmetrically with respect to the center plane E _M.

Perpendicular between the lever upper side 18 and the lever bottom 19 extend parallel to each other a first outer side 24 and a second outer side 25. Opposing end portions 26, 27 form lateral statements of the gear lever 14 along the lever longitudinal axis 17. The end portions 26, 27 are rounded in the embodiment shown.

The first outer side 24 adjoins the lever upper side 18 via a first outer edge 28. The first outer edge 28 is arranged circumferentially around the lever top 18, so that the second outer side 25 connects via the first outer edge 28 to the lever top 18. The front areas 26, 27 also connect to the lever upper side 18 via the first outer edge 28. By way of a second outer edge 29, the outer sides 24, 25 and the end regions 26, 27 correspondingly adjoin the lever underside 19.

The gear lever 14 includes a first wick recess 30 for guided engagement of the lubricant wick 16, which in the Fig. 4 and 5 is shown. In the Fig. 4 and 5 For example, the lubricant wick 16 is shown in the abutment position on the transmission lever 14. The first wick recess 30 extends along the lever longitudinal axis 17 and is provided on the first outer edge 28 in the region of the lever top 18.

Further, the gear lever has a second wick recess 31 for guided engagement of the lubricant wick 16. The second wick recess 31 extends along the lever longitudinal axis 17 and is provided on the second outer edge 29 in the region of the lever bottom 19.

The second wick recess 31 is located on a different side of the transverse plane E _Q than the first wick recess 30. Further, the second wick recess 31 is located on a side of the center plane E _M other than the first wick recess 30. The first wick -Ausussung 30 is disposed in the region of the first coupling recess 20 and the second wick recess 31 in the region of the second coupling recess 21. The wick recesses 30, 31 each extend in a straight line along the lever longitudinal axis 17th

A third wick recess 32 for guided engagement of the lubricant wick 16 extends along the lever longitudinal axis 17 at the first outer edge 28 adjacent to the first wick recess 30 in the region of the second coupling recess 21. The first wick recess 30 and third wick recess 32 are disposed on the same side of the transverse plane E _Q but on different sides of the center plane E _M.

A fourth wick recess 33 for guided contact of the lubricant wick 16 extends along the lever longitudinal axis 17 at the second outer edge 29 in the area of the lever bottom 19 adjacent to the second wick recess 31 in the region of the first coupling recess 20 The fourth wick recess 33 and the second wick recess 31 are arranged on the same side of the transverse plane E _Q , but on different sides of the center plane E _M. The fourth wick recess 33 but is arranged on the same side of the center plane E _M as the first wick recess 30. The wick recesses 30, 31, 32, 33 are formed groove-like in the illustrated embodiment.

The first outer side 24 is configured such that it has a stepped central region 34, which merges via a first step 35 into the first end region 26 and via a second step 36 into the second end region 27. Correspondingly, the second outer side 25 has a stepped central region 37 which merges via a first gradation 38 into the first end region 26 and via a second gradation 39 into the second end region 27.

In each of the stepped center regions 34, 37 no wicking recesses are provided. The extent of the stepped central regions 34, 37 along the lever longitudinal axis 17 corresponds to a distance of the first wick recess 30 from the third wick recess 32 and the distance of the second wick recess 31 to the fourth wick recess 33 along the lever longitudinal axis 17th

In the embodiment of the sewing machine 1 shown, the lubricant wick 16 serves, in particular, for supplying pivot bearings of the transmission 10 in the region of the gear lever 14 with lubricant. To For this purpose, the lubricant wick 16 is advantageously made of a material that is particularly absorbent by capillary action. For example, felt material is suitable as the material. The lubricant wick 16 is preferably supplied with lubricant by a lubricant supply element (not shown in the figures). Preferably, the lubricant wick 16 is in direct or indirect communication with a lubricant reservoir.

The gear lever 14 and the lubricant wick 16 form a gear lever assembly 40, as in FIG Fig. 4 and Fig. 5 shown.

The lubricant wick 16 may be formed annularly as an O-wick, or alternatively linearly, wherein the lubricant wick 16 then in the installation position has a node at which two ends of the lubricant wick 16 are interconnected. With annular formation of the lubricant wick 16 as an O-wick, an elastic embodiment thereof is advantageous. In the presence of a node of the lubricant wick 16 is in the abutment position preferably on the gear lever 14 that the node z. B. in the region of one of the stepped central regions 34, 37 is located. Thus, the node is prevented from abutting or becoming entangled with other transmission components when the transmission lever 14 moves.

In the installation position, the lubricant wick 16 abuts on the transmission lever 14 in all four wick recesses 30, 31, 32, 33. In the end regions 26, 27, the lubricant wick 16 crosses over the respective end region 26, 27 between the first outer edge 28 and the second outer edge 29. As a result of the lubricant wick 16 crossing in the end regions 26, 27 between the outer edges 28, 29, is a special one allows safe, guided installation of the lubricant wick 16 on the gear lever 14, without further aids for preventing slippage of the lubricant wick 16 are necessary. Alternatively, it would also be conceivable for further wick recesses in the form of grooves to be provided in the end regions 26, 27, which guide the lubricant wick 16 between the first outer edge 28 and the second outer edge 29.

As a further alternative, it is also conceivable that the first wick recess 30 and the third wick recess 32 coincide and extend along the first outer edge 28 over a total length of the gear lever 14 along the lever longitudinal axis 17 between the first end region 26 and the second end region 27 , The same applies to the second wick recess 31 and the fourth wick recess 34, which may alternatively extend coincident over the entire length of the gear lever 14 along the lever longitudinal axis 17 between the first end region 26 and the second end region 27.

By the gear lever 14 according to the invention with wick recesses 30, 31, 32, 33 for guided installation of the lubricant wick 16, a reliable lubricant supply of the gear 10 of the sewing machine 1 is achieved. Alternatively, the gear lever 14 according to the invention or the gear lever assembly 40 according to the invention can be used in the same way in other sewing machine gearboxes or in other sewing machines, as in Fig. 1 and 2 shown. The gear lever 14 and the gear lever assembly 40 can be found in all common sewing machine gear applications, without the operation of the gear lever 14 and the gear lever assembly 40 is impaired.

Claims (10)

1. Gear lever for pivotably interconnecting two components of a sewing machine, the gear lever comprising

   - a lever upper side (18) extending along a lever longitudinal axis (17);

   - a lever lower side (19) extending along the lever longitudinal axis (17), the lever lower side (19) facing away from the lever upper side (18);

   - two coupling recesses (20, 21) arranged at a distance from each other along the lever longitudinal axis (17) for interaction with sewing machine components, the coupling recesses (20, 21) extending in each case transversely to the lever longitudinal axis (17),

   - a first wick recess (30) for guided arrangement of a lubricating wick (16), the first wick recess (30)

   -- extending along the lever longitudinal axis (17), and

   -- being provided on a first outer edge (28) of the gear lever (14) in the region of the lever upper side (18); and

   - a second wick recess (31) for guided arrangement of the lubricating wick (16), the second wick recess (31)

   -- extending along the lever longitudinal axis (17), and

   -- being provided on a second outer edge (29) of the gear lever (14) in the region of the lever lower side (19).
2. Gear lever according to claim 1, characterized in that the second wick recess (31) is disposed on another side of a transverse plane (E_Q) than the first wick recess (30), with the transverse plane (E_Q) extending substantially perpendicularly to the lever upper side (18) and comprising the lever longitudinal axis (17).
3. Gear lever according to claim 1 or 2, characterized in that the first wick recess (30) is arranged in the region of the first coupling recess (20) while the second wick recess (31) is arranged in the region of the second coupling recess (21).
4. Gear lever according to one of the preceding claims, characterized in that each of the wick recesses (30, 31) extends along the lever longitudinal axis (17) in a straight line.
5. Gear lever according to one of the preceding claims, characterized by a third wick recess (32) for guided arrangement of the lubricating wick (16), the third wick recess (32) extending on the first outer edge (28) along the lever longitudinal axis (17) in the region of the lever upper side (18) adjacent to the first wick recess (30).
6. Gear lever according to one of the preceding claims, characterized by a fourth wick recess (33) for guided arrangement of the lubricating wick (16), the fourth wick recess (33) extending on the second outer edge (29) along the lever longitudinal axis (17) in the region of the lever lower side (19) adjacent to the second wick recess (31).
7. Gear lever according to one of the preceding claims, characterized in that the gear lever (14) is configured symmetrically in relation to a center plane (E_M), the center plane (E_M) running substantially perpendicularly to the lever upper side (18) and transversely to the lever longitudinal axis (17).
8. Gear lever assembly comprising

   - a gear lever (14) according to one of claims 1 to 7; and

   - a lubricating wick (16), which is arranged in wick recesses (30, 31, 32, 33) of the gear lever (14) according to one of claims 1 to 7 in a guided manner.
9. Sewing machine gear comprising a gear lever assembly according to claim 8.
10. Sewing machine comprising a sewing machine gear according to claim 9.

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