WO2017080550A1 - Roller freewheel - Google Patents

Abstract

The invention relates to a roller freewheel comprising a sleeve-type outer race (1) that has clamping ramps (2) on an inner circumferential surface, a plurality of clamping rollers (3), each of which is spring-biased against the associated clamping ramp (2) by a spring (4), and a cage (5) which is arranged at least in a rotationally fixed manner in the sleeve-type outer race (1) and on which the clamping rollers (3) and the springs (4) are arranged. According to the invention, the cage (5) is made of a polymer material. [Please delete this segment.]

Description

 Roller freewheel

The invention relates to a roller freewheel, comprising a sleeve-shaped outer ring formed on an inner peripheral surface clamping ramps, a plurality of clamping rollers which are each spring-biased against the respective clamping ramp, and at least one rotatably arranged in the sleeve-shaped outer ring cage on which the pinch rollers and the springs arranged are.

Such a roller freewheel, also called sleeve or clamping roller freewheel, allows rotation in a defined direction of rotation, while the rotation in the other direction can be locked by the clamping rollers jamming on the clamping ramps. Freewheels of this kind are used, for example, in torque converter or automatic transmissions in the motor vehicle sector or in corresponding industrial machines. The application of such a freewheel in the starter drive of a motorcycle or in a transmission of an e-bike is also conceivable.

From DE 10 2007 006 517 A1 is a roller freewheel, with a cylindrical outer surface and an inner surface provided with clamping ramps having, formed as a non-cutting formed sheet metal part outer ring protrudes. Further, the roller freewheel comprises a plurality of pinch rollers, which are spring-loaded against the clamping ramps, and a rotatably arranged in the outer ring, formed as a non-cutting formed sheet metal part cage, are mounted on which provided for springing the pinch rollers springs. The object of the present invention is to develop a roller freewheel, and in particular to simplify the manufacture and assembly of the cage in the sleeve-shaped outer ring.

According to the invention, the cage is made of a polymer material. The cage is preferably injection-molded from a polyamide material. Furthermore, it is also conceivable to produce the cage from a PTFE material. Other suitable polymer materials and manufacturing processes for the production of the cage are also conceivable. Advantageously, the cage is fiber-reinforced. The cage made of a polymer material is particularly favorable, fast and easy manufacture. This results in particular cost and production advantages over a metallic cage. Furthermore, the sleeve-shaped outer ring is formed of a metallic material. In this case, at least the clamping ramps on the sleeve-shaped outer ring are produced by forming technology.

Preferably, the cage has on a first end face on at least one radial expression for the axial positioning of the cage in the sleeve-shaped outer ring. In general, the cage is placed during assembly with the sleeve-shaped outer ring in the sleeve-shaped outer ring. In order to prevent axial slippage of the cage in the sleeve-shaped outer ring, the at least one radial expression is provided on the cage.

According to a preferred embodiment, the at least one radial expression is formed circumferentially. In other words, the cage has a one-piece radial shape which extends along the entire outer circumference.

According to a further preferred embodiment, the cage has on a first end side at least three radial characteristics for the axial positioning of the cage in the sleeve-shaped outer ring. Advantageously, a plurality of radial shapes are formed on the first end face of the cage.

Particularly preferably, the sleeve-shaped outer ring on a first end face on a radially formed annular shoulder on which the at least one radial Ausprä- tion for axial positioning of the cage in the sleeve-shaped outer ring comes axially to the plant. In other words, the at least one radial expression is supported axially on the radially formed annular shoulder and thereby prevents axial slipping of the cage in the sleeve-shaped outer ring. Preferably, the substantially radially formed annular shoulder and the inner peripheral surface of the sleeve-shaped outer ring form an acute angle. In other words, the substantially radially formed annular shoulder is not perpendicular to the inner peripheral surface of the sleeve-shaped outer ring but slightly axially inwardly in the direction of the cage. Furthermore, the cage preferably has, on a second end face, at least one radial lug for the rotationally fixed fixing of the cage in the sleeve-shaped outer ring. The radial nose preferably extends in the circumferential direction further than in the axial direction, whereby the strength of the nose in the circumferential direction is higher than the rigidity of the nose in the axial direction. In particular, the nose is loaded only in the circumferential direction of the sleeve-shaped outer ring.

Further preferably, the sleeve-shaped outer ring on a second end face on a radially formed annular shoulder with a plurality of recesses, wherein the at least one radial nose for rotationally fixed fixing of the cage in the sleeve-shaped outer ring at least tangentially in the respective recess comes to rest. Consequently, the respective radial nose is arranged in the assembled state of the cage in the respective recess provided on the sleeve-shaped outer ring. The two annular shoulders are made in particular by means of crimping. Furthermore, the respective recess is preferably made by punching.

The invention includes the technical teaching that the respective recess is designed to be complementary to the respective radial nose, in order to connect the cage in a form-fitting manner with the sleeve-shaped outer ring in the circumferential direction. In essence, the respective recess and thus also the respective radial nose is rectangular.

When the cage is mounted in the sleeve-shaped outer ring, the respective recess is preferably provided for the axial passage of the respective radial shape through the respective recess. For this purpose, the respective radial expression on the first end side is arranged on a respective axial axis with the respective radial nose on the second end side. Consequently, during the assembly of the cage in the sleeve-shaped outer ring, the cage is positioned in such a way relative to the sleeve-shaped outer ring that a passage of the radial extent through the recess is made possible. In particular, the respective radial extent is smaller than the respective radial nose, at least in the circumferential direction and in the radial direction. Further measures improving the invention will be described in more detail below together with the description of two preferred embodiments of the invention with reference to FIGS. FIG. 1 shows a schematic perspective view for illustrating the

 Structure of a roller freewheel according to the invention, a schematic perspective view illustrating a sleeve-shaped outer ring according to Figure 1, a schematic perspective view illustrating a cage according to the invention according to Figure 1, a schematic sectional view illustrating the construction of the roller freewheel according to the invention according to a second imple mentation example, a schematic perspective view of 4 shows an illustration of the construction of the roller freewheel according to the invention, and a schematic perspective view for illustrating the cage according to the invention according to FIG. 4, FIG.

According to Figure 1, an inventive roller freewheel comprises a sleeve-shaped outer ring 1, a cage 5, a plurality of pinch rollers 3 and one of the number

Pinch rollers 3 corresponding number of springs 4. The roller freewheel is particularly suitable for installation in a torque converter or in an automatic transmission, its use is not limited to these devices. Rather, the roller freewheel is also universally applicable, for example, in the industrial sector. The springs 4 are formed as leaf springs and keep the pinch rollers 3 in constant readiness for clamping on the clamping ramps 2 shown in Figure 2 on the sleeve-shaped outer ring. 1 A rotation of the pinch rollers 3 contacting - not shown here - inner ring in the clockwise direction blocks the roller freewheel, since in this case the pinch rollers 3 run onto the clamping ramps 2 and jam. The sleeve-shaped outer ring 1 has a radially formed annular shoulder 9a on a first end face 8a. Furthermore, the sleeve-shaped outer ring 1 at a second end face 8b has a radially formed annular shoulder 9b with eleven recesses 11. The cage 5 likewise has a first and a second end face 6a, 6b, wherein three radial tabs 10 are formed on the second end face 6b. The respective lug 10 is arranged in the respective recess 1 1 on the sleeve-shaped outer ring 1 and comes at least tangentially in the respective recess 1 1 to the system to form-fit the cage 5 in the circumferential direction with the sleeve-shaped outer ring 1 to connect. For this purpose, the respective recess 1 1 is formed substantially complementary to the respective radial nose 10.

Figure 2 shows the sleeve-shaped outer ring 1 of the roller freewheel according to the invention. The sleeve-shaped outer ring 1 is manufactured as a sheet-metal forming part, wherein on an inner circumferential surface of the sleeve-shaped outer ring 1 with the - not shown here - clamping rollers cooperating clamping ramps 2 are formed. In particular, the clamping ramps 2 are produced by forming technology on the sleeve-shaped outer ring 1. At the first end face 8a of the sleeve-shaped outer ring 1, the radially formed annular shoulder 9a is arranged, which is intended to position the cage 5 - not shown here - axially in the sleeve-shaped outer ring 1. In contrast, the annular shoulder 9b formed on the second end face 8b of the sleeve-shaped outer ring 1 is intended to fix the cage 5 in a rotationally fixed manner in the sleeve-shaped outer ring 1. In particular, the two radially formed annular shoulders 9a, 9b are formed parallel to each other and extend radially inwardly.

FIG. 3 shows the cage 5 of the roller freewheel according to the invention. The cage 5 is made of a polymer material. In particular, the cage 5 is produced by injection molding. Further, the cage 5 at the first end face 6a eleven radial forms 7 for the axial positioning of the cage 5 in the - not shown here - sleeve-shaped outer ring 1 on. The respective radial lugs 10 on the second end face 6b of the cage 5 is formed on a respective common axial axis with the respective expression 7 on the second end face 6b of the cage 5. Furthermore, a respective web 14, which is formed axially between a first and a second ring 13a, 13b, also extends on this common axial axis. All in all the cage 5 eleven webs 14 on. Further, the webs 14 are integrally connected to the two rings 13a, 13b and form the cage 5. The uniformly distributed over the circumference, axially formed webs 14 are provided inter alia for receiving a respective - not shown here -Feder. The respective spring is placed radially on the respective web 14. Thereafter, a - not shown here - pinch roller is arranged in the respective free space 15 of the cage 5 and biased by the spring against a respective web 14.

When mounting the cage 5, the sleeve-shaped outer ring 1 with the first end face 8a is placed on a mounting table (not shown here). The cage 5 is pushed together with the springs 4 and pinch rollers 3 mounted therein axially in the sleeve-shaped outer ring 1, or placed in the sleeve-shaped outer ring 1. In this case, the cage 5 does not slip due to the radial shape formed thereon 7, but comes to the annular shoulder 9a axially to the plant. A special tool for the axial positioning of the cage 5 relative to the sleeve-shaped outer ring 1 is thus not required.

According to Figure 4, the cage 5 of the roller freewheel according to the invention according to a second embodiment on the first end face 6a a circumferentially formed radial shape 7. The sleeve-shaped outer ring 1 has, on a first end face 8a, a substantially radially formed annular shoulder 9a, on which the radial projection 7 for axial positioning of the cage 5 in the sleeve-shaped outer ring 1 comes into axial contact. Here, the substantially radially formed annular shoulder 9a is formed such that an acute angle between the substantially radially formed annular shoulder 9a and the inner peripheral surface of the sleeve-shaped outer ring 1 is formed.

Figure 5 shows a schematic perspective view illustrating the structure of the roller freewheel according to the invention according to Figure 4, comprising the sleeve-shaped outer ring 1 by the cage 5 is arranged. Furthermore, FIG. 6 shows only the cage 5 according to FIG. 4. With the exception of the radial form 7, the cage 5 according to FIG. 6 is constructed essentially identical to the cage 5 according to FIG. Reference numeral sleeve-shaped outer ring

 clamping ramp

 pinch roller

 feather

 Cage

a, 6b front side

 radial expression

a, 8b front side

a, 9b ring shoulder

0 nose

1 recesses

2a, 12b Ring on the inner cage

3a, 13b Ring on the outer cage

4 footbridge

5 free space

Claims

claims

1 . Roller freewheel comprising a sleeve-shaped outer ring (1) with clamping ramps (2) formed on an inner peripheral surface, a plurality of pinch rollers (3) which are each spring-loaded against the respective clamping ramp (2) and at least rotationally fixed in the sleeve-shaped outer ring (1) arranged cage (5) on which the pinch rollers (3) and the springs (4) are arranged,

characterized in that the cage (5) is made of a polymer material.

2. roller freewheel according to claim 1,

characterized in that the cage (5) at a first end face (6a) at least one radial expression (7) for axial positioning of the cage (5) in the sleeve-shaped outer ring (1).

3. roller freewheel according to claim 2,

characterized in that the at least one radial expression (7) is formed circumferentially.

4. roller freewheel according to claim 2,

characterized in that the cage (5) at a first end face (6a) has at least three radial forms (7) for the axial positioning of the cage (5) in the sleeve-shaped outer ring (1).

5. roller freewheel according to claim 2,

characterized in that the sleeve-shaped outer ring (1) at a first end face (8a) has a substantially radially formed annular shoulder (9a), on which the at least one radial expression (7) for axial positioning of the cage (5) in the sleeve-shaped outer ring ( 1) comes to rest axially.

6. roller freewheel according to claim 5,

characterized in that the substantially radially formed annular shoulder (9a) and the inner peripheral surface of the sleeve-shaped outer ring (1) form an acute angle.

7. roller freewheel according to claim 1,

characterized in that the cage (5) on a second end face (6b) has at least one radial lug (10) for the rotationally fixed fixing of the cage (5) in the sleeve-shaped outer ring (1).

8. roller freewheel according to claim 7,

characterized in that the sleeve-shaped outer ring (1) at a second end face (8b) has a radially formed annular shoulder (9b) with a plurality of recesses (1 1), wherein the at least one radial nose (10) for the rotationally fixed fixing of the cage (5) in the sleeve-shaped outer ring (1) at least tangentially in the respective recess (1 1) comes to rest.

9. roller freewheel according to claim 8,

characterized in that the respective recess (1 1) complementary to the respective radial nose (10) is formed to connect the cage (5) in the circumferential direction positively with the sleeve-shaped outer ring (1).

10. roller freewheel according to claim 8,

characterized in that the respective recess (1 1) during assembly of the cage (5) in the sleeve-shaped outer ring (1) for the axial passage of the respective radial expression (7) through the respective recess (1 1) is provided.