WO2011061202A1

WO2011061202A1 - Starter gearbox having a planetary gear bearing

Info

Publication number: WO2011061202A1
Application number: PCT/EP2010/067619
Authority: WO
Inventors: Oliver Capek
Original assignee: Robert Bosch Gmbh
Priority date: 2009-11-23
Filing date: 2010-11-17
Publication date: 2011-05-26
Also published as: DE102009046985A1; EP2504562A1; HUE033593T2; EP2504562B1; CN102639866A; CN102639866B

Abstract

The invention relates to a system comprising an internal combustion machine and a starter (100) for cranking an internal combustion machine, wherein the starter (100) for cranking an internal combustion machine comprises an output shaft (2) interacting with a planetary gearbox (12), supported by at least one bearing unit, and having a flange unit (4) at one end, wherein a device for supporting an output shaft (2) having a flange unit (4) at one end by means of an intermediate bearing (5) is provided in the starter (100), comprising fixed bearings (5, 6, 7, 8, 8a) for axially securing the position of the output shaft (2) relative to the intermediate bearing (5), wherein the fixed bearings (5, 6, 7, 7a, 8, 8a) are disposed on both sides of the flange unit (4).

Description

description

title

Starter gear with Planetentellerlagerung

The invention relates to a device for supporting an output shaft having a flange unit at one end at an intermediate bearing in a starter according to the preamble of claim 1.

Furthermore, the invention relates to a starter for starting an internal combustion engine according to the preamble of claim 8.

In addition, the invention relates to a system comprising an internal combustion engine and a starter for starting the internal combustion engine according to the preamble of claim 11.

State of the art

The invention relates to a system with a starter, starter or starter motor and a transmission, in particular a starter with internal reduction gear for reducing the speed while increasing the torque according to the type of independent claims.

The subject of the present invention are starters for vehicles with internal combustion engines.

From the prior art starters for vehicles with internal combustion engines are known, which usually include a DC electric motor for driving the internal combustion engine. In such starters or starter motors are responsible for a meshing or a hub in the ring gear, a relay fork lever system and a coarse thread. The stroke, also referred to as distance, or more precisely a single-track movement, is composed as follows: A magnetic relay pulls one Fork lever to the rear. At the same time a freewheel gear is pushed forward via a translation. When the relay is switched, an electric motor starts to turn. In this case, preferably on a driven shaft, which is also referred to as conventionally as a drive shaft, seated coarse thread rotated and a driver pushed over flanks of the coarse thread forward. This axial and radial movement in conjunction with a Einspurfeder serves to facilitate finding tooth gaps in the sprocket. At the same time the coarse thread is used for power or torque transmission.

From DE 197 26 726 AI a free-ejecting starter for cranking internal combustion engines in motor vehicles is known. The front end plate of the starter has a bearing bore for receiving a pinion shaft. For a low-cost, low-noise and space-saving storage with sufficient life of the bearing is used as a bearing for the pinion shaft, a needle bearing in the bearing bore, the needles rest directly on a hardened region of the pinion shaft. The output shaft of the known starter is mounted over a cylindrical region between coarse thread and a planetary plate formed at the end of the output shaft.

Disclosure of the invention

The inventive device, the starter according to the invention and the system according to the invention with the features of the corresponding main claim or independent claim have the advantage that the bearing is formed directly on a flange unit (planetary plate) at the end of the output shaft. Due to the design of the bearing on the flange, the output shaft at least in the axial direction kleinbauend shapable, since the machined for the bearing according to the prior art, in particular hardened surface in front of the flange can be omitted. To form a fixed bearing fixed bearing means are provided to secure the output shaft at least in the axial direction. The fixed bearing means are formed on the Flan unit, in particular so that the fixed bearing means are arranged on both sides of the Flan unit and these, at least partially, contact accordingly. In addition, an axial securing of the output shaft by the arrangement of the bearing on the flange is easier to realize because compared to the prior art no snap ring or the like is to be attached to the output shaft. Rather, to manufacture the output shaft reduced due to the inventive arrangement of the bearing at the shaft end on the flange of the effort. In particular, hardening of the bearing area on the output shaft can be dispensed with or effort for hardening can at least be reduced. In addition, eliminates the machining of the output shaft to form a groove for the snap ring.

The measures listed in the dependent claims advantageous refinements and improvements of the independent and independent claims predetermined devices are possible.

In an advantageous embodiment of the invention it is provided that a first fixed bearing means is formed as an intermediate bearing projection, which is arranged on the output side of Flan unit. The intermediate bearing is arranged substantially in the radial direction at a distance from a peripheral surface of the flange unit. In this case, the intermediate bearing protrudes in the axial direction over the peripheral surface of the flange. At an outstanding part of the intermediate bearing at least one extending in the direction of the output shaft intermediate bearing projection is formed. This serves to secure a recorded between Flan unit, intermediate storage and Zwischenlagervorsprung storage unit in the axial direction. In this way, an axial securing on the output shaft, for example via a snap ring inserted into a groove of the output shaft is superfluous, so that the output shaft is smaller in construction, in particular in the axial direction, is formed. It can be provided between intermediate bearing projection and Flanheitheit a thrust washer. The thrust washer contacts the flange unit and / or the intermediate bearing projection.

In addition, it is advantageous according to the invention if a second fixed bearing means is designed as an armature unit arranged in the flange unit, which armature is arranged on the flange unit on a drive side opposite the output side. The Flan unit has on its drive side a recess for receiving a shaft journal of a driving shaft. The shaft journal is mounted in the recess via a bearing unit. Thus, the flange unit is machined on the drive side. For axial securing and for forming a fixed bearing on the flange unit, a second fixed bearing means is provided on the recess. Preferably, the second fixed bearing means is designed as a shoulder in a mounted in the output shaft armature with a thrust washer. By an appropriate processing of the anyway provided armature, thus an effective axial securing of the bearing can be realized on the flange unit, without any additional processing is provided on the output shaft. Between armature unit and Flanheitheit a thrust washer may be provided. This contacts the anchor unit and / or the flange unit.

In an advantageous embodiment it is provided that the fixed bearing means are formed in the axial and / or radial direction of the output shaft spaced. Thus, a fixed bearing can be easily formed. The first locking means secures the output shaft axially in a first direction. The second locking means secures the output shaft in the other axial direction. In this way, a fixed bearing is formed on the flange unit. The output shaft requires no additional hardened or machined areas, whereby the effort for the production of the output shaft is reduced. In addition, the output shaft can be made shorter in the axial direction. Due to the spaced arrangement of the fixed bearing means optimized with respect to the male loads storage is realized.

In an advantageous embodiment of the invention, it is provided that at least one stop disk is arranged between at least one fixed bearing means and the flange unit. In this way, acting forces can be optimally absorbed.

It is preferably provided that a bearing unit between Flan unit and intermediate storage is provided at a radially outer end of the Flanheitheit. The bearing unit is preferably designed as a radial bearing, for example as a needle sleeve. The radial bearing is preferably pressed so that it is secured by a resulting surface pressure between an outer sleeve of the radial bearing and the intermediate storage. The thrust washer and the collar on the intermediate bearing serve as an axial boundary of the flange unit in the direction of coarse thread. In the other direction, the Flan unit is limited by the thrust washer and the shoulder on the anchor. By the two fixed bearing means at the anchor and at the intermediate storage a fixed bearing is realized at the bearing point or the intermediate storage.

Accordingly, it is provided in a further advantageous embodiment of the invention that the bearing unit between armature shaft and flange as a radial bearing is trained. The radial bearing is preferably pressed so that it is secured between armature shaft and flange (sleeve).

The inventive starter for starting an internal combustion engine, comprising a cooperating with a planetary gear, mounted on at least one bearing unit, at one end a Flanheitheit having output shaft, wherein means for supporting the output shaft to an intermediate storage of the starter, comprising fixed bearing means for axially securing the position of the output shaft the intermediate storage, is provided, and wherein the fixed bearing means are arranged on both sides of the Flan unit, has the advantage that this is formed kleinbauend due to the formation of the intermediate storage on the Flan unit. Characterized in that no hardened, cylindrical surface is required for arranging a bearing unit on the shaft adjacent to the Flan unit, the output shaft can be made shorter in the axial direction. In addition, no grooves for axial retaining rings such as snap rings are required. The fixed storage means at least partially contact the flange unit.

An advantageous embodiment of the present invention also provides that the flange unit is designed as a planetary plate. In this way, a small-sized starter can be formed, at least in the axial direction.

In yet another embodiment of the present invention, it is provided that the output shaft has a coarse thread which adjoins the flange unit, in particular the planetary plate, free of location. A cylindrical surface to form a bearing omitted. The entire output shaft is designed to be smaller at least around the intermediate storage area outside the flange unit. Thus, the entire starter is designed to be smaller and more compact.

The system according to the invention comprises an internal combustion engine and a starter for starting an internal combustion engine, wherein the starter comprises a cooperating with a planetary gear, mounted on at least one bearing unit, at one end a flange unit having output shaft, wherein means for supporting the output shaft to an intermediate storage in the Starter, comprising fixed bearing means for axially securing the position of the output shaft relative to the intermediate bearing, is provided, and wherein the fixed bearing means are arranged on both sides of the Flan unit, also has the advantages that due to the formation of the bearing on the flange unit of the starter for smaller spaces and larger loads can be interpreted. The starter can be designed as a free-ejecting starter or as a mouth starter.

Brief description of the drawings

An embodiment of the invention is illustrated in the drawing and explained in more detail in the following description. The figure shows: a section of a starter in longitudinal section with a device for supporting a at one end of a trained as planetary plate flange unit output shaft at an intermediate storage in the starter.

Description of the embodiment

The figure shows a section of a starter 100 in longitudinal section with a device for supporting an output shaft 2. The output shaft 2 has at one end a flange unit 4 designed as a planetary plate. According to the invention, the device for supporting the output shaft 2 comprises an intermediate bearing 5 in the starter 100. The detail specifically represents an output shaft bearing 1 in which an output shaft 2 is coupled to a transmission, which is preferably designed as a planetary gear. The output shaft 2 has on its drive side, that is, the end of the output shaft 2, which is engageable with the gear engaged, a coarse thread 3. In the direction of the drive side behind the coarse thread 3 formed as a planetary plate flange unit 4 is formed. Trained as a planetary plate flange unit 4 comprises plate-like part of the drive side engageable with the output shaft 2 transmission, which is designed as a planetary gear 12 and a central sun gear 11 and planet gears designed as gears 10, of which only one is shown here. For storage of the output shaft 2 at the drive end, the intermediate bearing 5 is provided. The intermediate storage 5 has a collar 7. Together with an adjacent to the collar 7 thrust washer 7a, a first locking means is realized. Between flange unit 4 and intermediate storage 5, a radial bearing 6 is arranged, which here as Needle bearing, more precisely designed as a needle sleeve. This radial bearing 6 is pressed and secured over the resulting surface pressure. To form the output shaft bearing 1 as a fixed bearing, a second locking means is provided, which is formed in the embodiment shown in the figure as an anchor 8. The armature 8 is received in a recess for supporting a shaft journal 9 of a drive shaft, which is formed in the flange unit 4 and / or the output shaft 2, and projects at the drive-side end of the output shaft 2. By forming a corresponding shoulder 8a in the armature 8, the second locking means is formed which prevents axial movement of the flange unit 4 in the direction of the drive shaft. In this way, the output shaft bearing 1 is designed as a fixed bearing. For improved absorption of occurring loads a thrust washer is provided.

The starter 100 is constructed as known from the prior art and described here only by way of example. For example, the starter 100 has a drive or starter motor and an engagement relay. The starter motor and the engagement relay are attached to a common drive end shield. The starter motor is functionally to a pinion - more precisely a starter pinion - to drive when it is meshed in the ring gear of the internal combustion engine, not shown here.

Claims

claims

Anspruch [en] A device for supporting an output shaft (2) having at one end a flange unit (4) on an intermediate bearing (5) in a starter (100), comprising fixed bearing means (5, 6, 7, 7a, 8, 8a) for axially securing the position of the

Output shaft (2) opposite the intermediate bearing (5), characterized in that the fixed bearing means (5, 6, 7, 7a, 8, 8a) are arranged on both sides of the flange unit (4).

2. Device according to claim 1, characterized in that

a first fixed bearing means is formed as intermediate bearing projection (7), which is arranged on the output side of the flange unit (4).

3. Device according to claim 1 or 2, characterized in that a second fixed bearing means as in the flange unit (4) arranged anchor unit (8, 8a) is formed, which on one of the output side opposite,

Drive side of the Flan unit (4) is arranged.

4. Device according to one of the preceding claims 1 to 3, characterized

marked that

the fixed bearing means (5, 6, 7, 7a, 8, 8a) in the axial and / or radial direction of the output shaft (2) are formed spaced.

5. Device according to one of the preceding claims 1 to 4, characterized

marked that

between at least one fixed bearing means (7, 8a) and the Flan unit (4) at least one thrust washer (7a) is arranged.

6. Device according to one of the preceding claims 1 to 5, characterized

marked that

a bearing unit (6) is provided between the flange unit (4) and the intermediate bearing (5) at a radially outer end of the flange unit (4).

7. Device according to one of the preceding claims 1 to 6, characterized

marked that

the bearing unit (6) is designed as a radial bearing.

8. Starter (100) for starting an internal combustion engine, comprising one with a planetary gear (12) cooperating, via at least one

Bearing unit mounted, at one end a Flan unit (4) having

Output shaft (2), characterized in that

a device for supporting the output shaft (2) at an intermediate bearing (5) in the starter (100), comprising fixed bearing means (5, 6, 7, 7a, 8, 8a) for axially securing the position of the output shaft (2) with respect to the intermediate bearing (5 ), is provided, wherein the fixed bearing means (5, 6, 7, 7a, 8, 8a) are arranged on both sides of the Flan unit (4).

9. starter (100) according to claim 8, characterized in that

the flange unit (4) is designed as a planetary plate.

10. Starter (100) according to claim 8 or 9, characterized in that the output shaft (2) has a coarse thread (3), which free of bearing points to the Flan unit (4), in particular the planetary plate, adjacent.

11. A system comprising an internal combustion engine and a starter (100) for starting the internal combustion engine, characterized in that the starter (100) for starting an internal combustion engine, one with a

Planetary gear (12) cooperating, mounted on at least one bearing unit, at one end a Flan unit (4) having output shaft (2), wherein means for supporting the output shaft (2) on a

Intermediate bearing (5) in the starter (100), comprising fixed bearing means (5, 6, 7, 7a, 8, 8a) for securing the axial position of the output shaft (2) relative to the intermediate bearing (5) is provided, wherein the fixed bearing means (5, 6, 7, 7 a, 8, 8 a) on both sides of the

Flan unit (4) are arranged.