WO2008068252A1 - Spring clip for a freewheel clutch - Google Patents

Abstract

A spring clip (1) for a freewheel clutch has cut-outs (4) provided for holding clamping bodies, which cut-outs are each bounded by two edge strip sections (5, 6) and two webs (7) connecting said edge strip sections. A spring tab (8) constructed integrally with one of the webs (7) protrudes into each cut-out (4). The edge strip sections (5, 6) have transverse folds (15) producing an elasticity in the circumferential direction, wherein the elasticity of the spring tab (8) in the circumferential direction is lower than the elasticity of the two edge strip sections (5, 6).

Description

 Name of the invention

Spring band for a one-way clutch

description

Field of the invention

The invention relates to a spring band suitable for an overrunning clutch with sprags.

Background of the invention

An overrunning clutch with clamping bodies is known for example from DE 1 142 254 B. This one-way clutch has an existing from an annular elastic sheet metal clamp body cage. In the sheet-metal strip window-like recesses are formed for the individual clamping body. At a running parallel to the axis of the one-way clutch edge of the recess protrudes a resilient tongue, which acts on the clamp body so that it loads this in the sense of Einkuppeins. In the circumferential direction, the sheet-metal strip is provided with elastic waves. A shaft which is located at the lateral edge of a recess provided for receiving a clamping body is described in an identical manner by the shape of the spring tongue. Thus, both annular lateral sections of the sheet metal strip and each spring tongue have an elastic compliance in the circumferential direction of the clamping body cage.

According to a further embodiment of the known from DE 1 142 254 B overrunning clutch, the waves of the elastic sheet metal strip consist of a Fold in each paraxial web. The axis-parallel web can be held in this case by a recess yielding. However, such a recess is not provided for receiving a clamping body.

Object of the invention

The invention has for its object to provide a spring band for a one-way clutch, which on the one hand enables a dense assembly with clamping bodies and on the other hand particularly favorable elasticity properties, both in terms of springing of the individual clamping body and in terms of elasticity in the circumferential and radial direction.

Summary of the invention

This object is achieved by a suitable for a sprag clutch freewheel clutch spring band having the features of claim 1. This spring band has for receiving clamping bodies provided recesses, which are bounded by two edge strip portions and two connecting webs, wherein in each recess integral with one of the webs formed spring tongue protrudes and the edge strip portions transverse folds, which produce an elasticity in the circumferential direction of the freewheel clutch have. The elasticity of the spring tongue in the circumferential direction is less than the elasticity of the arrangement of the two edge strip sections delimiting the recess in the axial direction. In other words, if a force is exerted on the spring tongue in the tangential direction, the resulting change in dimension of the spring tongue in the circumferential direction is less than a dimensional change to be detected in the area of the edge strip sections delimiting the recess, if a dimensional change results at all Loading the entire spring band with the same force results. This is preferably achieved in that the spring tongue is formed as an unbent leaf spring. There is one compared to a spring band without transverse folds Advantage also in that during assembly of the one-way clutch, the spring tongues are deformed much less.

In a preferred embodiment, the spring tongue has a width which is narrower than that of its base adjoining the web in relation to its tip provided for contacting a clamping body. In a particularly preferred manner, the angle between two flanks of the spring adjacent to the recess decreases towards the tip thereof. The flanks of the spring tongue can be continuously bent or sections straight formed. In the latter case, the spring tongue describes a plurality of circumferentially adjoining trapezoids, which become narrower toward the tip of the spring tongue. Regardless of the lateral contour of the spring tongue, that is on the shape of the flanks of the spring, the spring tongue is preferably at least twice as wide at its bordering the web base as at the top.

According to a production engineering particularly favorable embodiment of the spring band, the transverse folds of the edge strips are arranged exclusively in Umfangssberei- Chen, in which there is no spring tongue. In a particularly preferred manner, a transverse fold on the side adjacent to a web which faces away from the spring tongue projecting from the web. According to a development that increases the elasticity of the spring band in the tangential direction, without requiring additional radial space, a plurality of transverse folds are arranged in the circumferential direction one behind the other within a recess limiting edge strip portion.

In all embodiments, the spring band is designed such that its compliance is sufficient overall to dispense prior to mounting the one-way clutch on a so-called Rolieren, ie a bending of the spring band. In the fully assembled one-way clutch, the individual recesses, in each of which a clamping body is arranged, relative to each other on an elastic compliance in the circumferential and radial directions, which contributes significantly, that even then all the clamping body at least Contribute approximately the same extent to the clamping action of the freewheel when the engagement of the individual clamp body, for example due to imperfections of the clamping tracks, not exactly the same time. The reliable engagement of the individual clamping body is ensured by the little in comparison to the Randleistenabschnittes of the spring band in the circumferential direction resilient tongues. An overuse of the spring tongue in the tangential direction is thereby avoided that the measured width in the tangential direction of each recess of the spring band is variable due to the lateral transverse folds.

Two embodiments of the invention will be explained in more detail with reference to a drawing. Herein show:

Short description of the drawing

FIG. 1 shows a first exemplary embodiment of a spring band for an overrunning clutch,

Figure 2 shows a second embodiment of a spring band for a one-way clutch, and

Figure 3 shows a detail of an overrunning clutch with the spring band of Figure 1 in cross section.

Detailed description of the drawing

Figures 1 and 2 show a detail of a spring band 1, which is suitable for example for a principle known from DE 103 10 225 AI freewheel clutch. The ends of the spring band 1 are either loosely superimposed or connected to each other, for example welded in not apparent from the figures within the overrunning clutch. The following statements refer, unless stated otherwise ben, both to the embodiment of Figure 1 as well as the Ausfüh approximately according to Figure 2.

The spring band 1 is in the axial direction, based on the axis of rotation of the overrunning clutch, limited by two edge strips 2, 3. Between these annular peripheral edges 2.3 are individual recesses 4, 10 which are each provided for receiving a clamping body, not shown , The sections of the edge strips 2, 3, which each delimit a single recess 4 laterally, are referred to as edge strip sections 5, 6. Further, each recess 4 is bounded by two webs 7, which extend in the axial direction and produce a one-piece connection between the edge strips 2.3. Each web 7 adjoins two adjacent recesses 4. In the tangential direction, parallel to the marginal ridge portions 5, 6, protrudes from each web 7 integrally connected to this spring tongue 8 in a recess 4. The spring tongue 8 is formed as unstressed in the unloaded state leaf spring which has a width B1 at its base 7, which merges seamlessly into the web 7, and a width B2 at its tip 10 provided for contacting the clamping body. The spring tongue 8 tapers toward the tip 10, wherein in lateral, adjacent to the recess 4 flanks 11 each a kink 12 is formed so that the spring tongue 8 a double te trapezoidal shape with a bordering to the base 9 wider section 13 and a at the tip 10 has narrower narrower portion 14. A tilting of the clamping body during the coupling process leads mainly to a torsion of the web 7. An elasticity of the spring tongue 8 in the circumferential direction is practically not given by its shape as an un-curved leaf spring.

Each edge strip section has a transverse fold 15, which is arranged in the circumferential direction between a spring tongue 8 and a web 7. The transverse fold 15 is, viewed in the circumferential direction, arranged on the base 9 opposite side of the recess 4 and adjacent to a web 7, the spring tongue 8 does not protrude into that recess 4, at the edge of the transverse fold 15 is. In the embodiment of Figure 2, in contrast to the embodiment of Figure 1 in each edge strip section 5, 6 two in Circumferentially formed directly adjacent transverse folds 15. In both cases, an elastic resilience of the spring band 1 in the circumferential direction and thus also in the radial direction is given by the transverse folds 15. Thus, the individual recesses 4, also referred to as spring pockets, are elastically decoupled from one another.

FIG. 3 shows the arrangement of the spring band 1 according to FIG. 1 in an overrunning clutch 16. Between an inner clamping track 17 and an outer clamping track 18, clamping bodies 19 are arranged. Each clamping body 19 has a waisted shape with a constriction 20, wherein the spring band 1 is radially approximately centrally between the clamping tracks 17, 18, in the region of the constrictions of the clamping body 19. Radially outside the spring band 1 is located in the annular space 21 formed between the clamping tracks 17, 18 made of plastic cage 22, which has recesses 23 for one clamping body 19. The spring band 1 is supported in the radial direction against the cage 22. With regard to the shape and function of the cage 22, reference is made to DE 103 10 225 A1. As is known in principle from this, the cage has contact surfaces 24 on its radially inner side, which permit a defined contact of the clamping bodies 19. Such a system is provided in particular in the case of the centrifugally force-dependent lifting of the clamping bodies 19 from the inner clamping track 17.

In the arrangement of Figure 3, unlike the intended operation of the one-way clutch 1, only a single spring tongue 8 is shown in the deflected position, while the other spring tongues 8 do not stand out radially from the edge strip sections 5, 6. The deflected spring tongue 8 loads the right in the representation of the clamping body 19 with a radially inwardly directed force, corresponding to a torque in the counterclockwise direction. A tilting of the clamping body 19 in this sense means engagement of the overrunning clutch 16. The overrunning clutch 16 is thus suitable, for example, for transmitting torque from the inner clamping track 17 to the outer clamping track 18, when the inner clamping track 17, which is fixedly connected to a drive shaft connected or formed by the surface of the drive shaft is rotated clockwise.

The one-way clutch operating with the spring band 1 has a tolerance to, for example, wear-related dimensional deviations of the clamping bodies 19 and the clamping webs 17, 18 cooperating therewith. Even production-related, for example, when punching and / or bending of the spring band 1 resulting division errors are compensated despite the unyielding in the circumferential direction spring tongues 8, each of the recesses 4 can be equipped with a clamping body 19. The functionality of the spring band 1 is also given in an incomplete synchronous sprag movement.

LIST OF REFERENCE NUMBERS

1 spring band

2 sidebar

3 sidebar

4 recess

5 skirting section

6 skirting section

7 footbridge

8 spring tongue

9 base

10 tip

11 flank

12 kink

13 section

14 section

15 transverse fold

16 overrunning clutch

17 inner clamping track

18 outdoor track

19 clamping body

20 constriction

21 annulus

22 cage

23 recess

24 contact surface

B1, B2 width

Claims

claims

1. spring band for a one-way clutch, provided with for receiving clamping bodies recesses (4) which are each bounded by two edge strip portions (5, 6) and two connecting webs (7), wherein in each recess (4) integral with a The spring tongue (8) formed of the webs (7) projects and the edge strip sections (5, 6) have an elasticity in the circumferential direction. 20 de have transverse folds (15), characterized in that the spring tongue (8) has a lower elasticity in the circumferential direction than the two edge strip sections (5, 6).

2. spring band according to claim 1, characterized in that the spring tongue (8) is designed as a non-curved leaf spring.

3. spring band according to claim 1 or 2, characterized in that the spring tongue (8) one of which on the web (7) adjacent base

(9) to the top (10) towards decreasing width (B1, B2).

4. spring band according to claim 3, characterized in that the angle between two adjacent to the recess flanks (11) of the spring tongue (8) to the tip (10) decreases towards.

5. spring band according to claim 4, characterized in that the

Spring tongue (8) comprises a plurality of circumferentially adjoining sections (13, 14), each having a trapezoidal shape.

6. spring band according to one of claims 3 to 5, characterized marked, that the spring tongue (8) at its on the web (7) adjacent base

(9) is at least twice as wide as at the top (10).

7. spring band according to one of claims 1 to 6, characterized in that the transverse folds (15) of the edge strip sections (5, 6) are arranged exclusively in peripheral regions in which there is no spring tongue (8).

8. spring band according to claim 7, characterized in that a transverse fold (15) adjacent to a web (7) on that side facing away from the web (7) projecting spring tongue (8).

9. spring band according to one of claims 1 to 8, characterized in that in a recess (4) limiting Randleistenab- section (5, 6) a plurality of transverse folds (15) are arranged in the circumferential direction one behind the other.