DE102014225522A1 - Freewheel device for a starting device - Google Patents

Abstract

A freewheel device for a starting device has a driver, which is connected via support rollers with a shaft. At the driver and on the front side of the shaft, a cylindrical centering pin and a centering pin receiving recess are arranged.

Description

The invention relates to a freewheel device for a starting device for an internal combustion engine, according to the preamble of claim 1.

State of the art

In the DE 10 2012 211 893 A1 a starting device is described with which an internal combustion engine can be started. The starting device comprises a starter pinion which is axially adjustable between a retracted non-functional position and an engaged position with a ring gear of the internal combustion engine. The starter pinion is driven by an electric starter motor whose rotational motion is transmitted via a planetary gear to a drive shaft on which a pinion shaft is seated with the starter pinion. The coupling between the drive shaft and the pinion shaft takes place via a coarse thread. The starter pinion is adjusted by means of a starter relay between non-functional and engaged position.

Disclosure of the invention

The invention is based on the object with simple constructive measures a freewheel device for a starting device in such a way that over a long period of operation an exact radial relative positioning between a driver and a shaft of the freewheel device is guaranteed.

This object is achieved with the features of claim 1. The dependent claims indicate expedient developments.

The freewheel device according to the invention is used in starting devices with which internal combustion engines can be started. The freewheel device is in this case arranged in the transmission path between a starter motor and a starter pinion and ensures a transmission of motion from the rotor shaft to the starter pinion. However, as soon as after starting the internal combustion engine, the rotational speed of a ring gear of the internal combustion engine overtakes the rotational speed of the driving starter pinion, the kinematic coupling between the driver and the shaft of the freewheel device is released to prevent damage to the starter motor.

The starting device in which the freewheel device is used, in addition to the starter motor and the starter pinion and the intermediate freewheel device advantageously also includes a transmission, such as a planetary gear, in particular directly on the output side of the starter motor and the drive movement of the rotor shaft of the starter motor stocky. On the output side of the transmission is the freewheel device whose driver is rotatably connected to a driven-side component of the transmission. In the drive case, the drive movement is transmitted via the driver and support rollers on the shaft, which drives the starter pinion.

Optionally, the starter pinion is to be adjusted between a retracted non-functional position and an advanced engaged position in which the starter pinion is in engagement with the ring gear of the internal combustion engine. The adjustment movement of the starter pinion is preferably carried out via an electromagnetic starter relay having an axially displaceable lifting armature, the movement of which is transmitted via a coupling element such as a fork lever on the starter pinion. The adjusting movement of the starter pinion is, for example, an axial movement parallel to the motor longitudinal axis of the starter motor. During the axial adjustment movement, the starter pinion expediently performs a superimposed rotational movement in that the starter pinion rests on the shaft of the freewheel device via a coarse thread. The superimposed rotational movement facilitates the meshing in the sprocket.

In the freewheel device according to the invention, the driver and the shaft on a recess and a cylindrical centering, wherein recess and centering each in the axial direction - with respect to the axis of rotation - extend and engage.

This design ensures an exact coaxial alignment of driver and shaft of the freewheel device. The centering pin is advantageously received without play in the recess. In the drive case - in a transmission of drive torque from the driver to the shaft - the components perform no relative movement to each other. Only in the freewheeling case, the shaft can rotate relative to the driver, so that the centering pin rotates in the recess.

Another advantage of this design is the ease of manufacture. The driver, which is made of plastic, sintered material or steel, for example, and is produced or formed, for example by injection molding or extrusion, may optionally also be used without further processing in the freewheel device. It is also advantageous that the centering between the driver and shaft in the radial direction only takes up relatively little space, so that on the one hand ensures a small-scale centering is and on the other hand, in the case of a relative rotational movement, the friction is reduced and only a small heat input into the freewheel device takes place.

According to an advantageous embodiment, the centering pin is located on the driver and projects axially beyond the side surface of the driver. Accordingly, the recess is located on the end face of the shaft. In principle, however, is also a reverse arrangement into consideration, in which the centering pin on the end face of the shaft and the recess are arranged on the driver.

According to a further advantageous embodiment, the free end face of the centering pin is axially spaced from the bottom of the recess. Accordingly, the centering pin is subject to little or no axial forces, it serves primarily for centering and coaxial alignment between the driver and the shaft of the freewheel device.

The shaft has in particular a roller collar, which is preferably formed integrally with the shaft and is overlapped by the driver. The support rollers are located radially between the cross-section of the driver and the lateral surface of the roller covenant. The function of the freewheel device with the directional dependence is preferably ensured by a wedge track on the driver, in which the support rollers are accommodated. Depending on the direction of the torque acting between the driver and the shaft, the support rollers are acted upon in the keyway either in a blocking function, which corresponds to the drive case, or in a freewheeling position in which a relative rotational movement between the shaft and driver is possible.

According to an expedient embodiment, the centering pin projects into the recess over at least half of the axial depth. This ensures adequate guidance between the components. At the same time it is expedient that the end face of the centering pin is axially spaced from the bottom of the recess. This ensures at the same time that the end face of the shaft can come to rest on the side wall of the driver.

According to yet another expedient embodiment, the end face of the shaft and the end face of the support rollers lie in a common plane. This common plane can, according to another advantageous embodiment, be the side surface of the driver, so that both the support rollers and the shaft end axially at the same height on the side wall of the driver.

It may be expedient to provide a chamfer or a rounding on the end face of the centering pin and / or on the edge region delimiting the recess, for example with a radius of between 0.1 mm and 2 mm in order to facilitate insertion of the centering pin into the recess. Such a chamfer or radius can be produced in particular on the part of the driver by means of extrusion.

According to yet another expedient embodiment, the diameter of the centering pin or the recess is smaller than the outer diameter of the shaft. Conveniently, the diameter of the centering pin is a maximum of 30% of the outer diameter of the driver, in particular a maximum of 25% or a maximum of 20%. This relatively small diameter of the centering pin is sufficient for the centering function and at the same time ensures in the case of a relative rotational movement a relatively low peripheral speed in the contact area between centering pin and recess and, consequently, only a relatively small heat input.

Further advantages and expedient embodiments can be taken from the further claims, the description of the figures and the drawings. Show it:

1 a starting device for an internal combustion engine with a starter pinion, which is axially adjustable via a starter relay and rotationally driven by an electric starter motor, with a starter motor downstream planetary gear and a freewheel device between the gearbox and starter pinion,

2 in a perspective view of a roller collar of a drive shaft of the starter pinion, with a central recess,

3 in perspective view a driver of the freewheel device with an axially projecting, centrally arranged centering pin,

4 a section along the freewheel device with interlocking driver and roller coil,

5 another cut through the freewheel device.

In the figures, the same components are provided with the same reference numerals.

In the 1 illustrated starting device 1 for an internal combustion engine has a starter pinion 2 on, that for starting the internal combustion engine 4 in engagement with a sprocket 3 of the Internal combustion engine is brought. The starter pinion 2 is on a drive shaft 5 As shown by the double arrow mounted axially displaceable, wherein the starter pinion 2 rotatably with the drive shaft 5 is coupled, for example via a coarse thread. The starter pinion 2 is between a retracted non-functional position and an advanced engagement position with the sprocket 3 the internal combustion engine 4 via a starter relay 6 adjusted, which is formed electromagnetically and a Bestrombare relay winding 7 as well as a lifting anchor 8th includes, when energized the relay winding 7 is pulled into this axially. The lifting anchor 8th is via an engaging lever 9 kinematically with the starter pinion 2 coupled, so that the axial adjustment movement of the lifting armature 8th between a rest position and an adjustment position in a corresponding axial adjusting movement of the starter pinion 2 between the non-functional position and the engaged position is implemented.

The rotating drive movement on the drive shaft 5 or the starter pinion 2 is using an electric starter motor 11 generated by a gearbox 12 , which is designed in particular as a planetary gear, with the drive shaft 5 is coupled. Upon actuation of the electric starter motor 11 becomes the drive shaft 5 and with it the starter pinion 2 set in rotation.

The starting device 1 is a control unit 10 assigned via which the functions of the starter relay 6 as well as the starter motor 11 to be controlled.

In an axial adjusting movement of the lifting armature 8th upon actuation of the starter relay 6 When reaching the adjustment position by a kinematic coupling of the switching element with the actuating movement of the lifting armature 8th the electric current for the starter motor 11 turned on, so that the starter motor 11 sets in motion and the drive shaft 5 as well as the starter pinion 2 rotating drives.

The starting device 1 is with a freewheel device 14 provided, which is designed as a roller freewheel. The engagement lever 9 acts on a spring element 13 that a takeaway 15 the freewheel device 14 axially acted upon by force, with the driver 15 a pinion or roller collar 16 the freewheel device 14 interacts and the role federation 16 in one piece with the drive shaft 5 is trained. The freewheel device 14 allows a transmission of the rotational movement in the drive direction of the electric starter motor 11 , However, once after starting the engine 4 the rotational speed of the sprocket 3 becomes so high that the drive direction is reversed, via the freewheel device 14 the kinematic coupling between drivers 15 and role federation 16 canceled.

In 2 is a perspective view of the roll collar 16 on the drive shaft 5 shown. In the free end of the role covenant 16 is a centric recess 17 introduced with a cylindrical base cross-section. In the area of the transition between the front side and the recess 17 there is a circumferential chamfer 18 ,

The role federation 16 forms together with the in 3 shown driver 15 and intermediate support rollers 21 ( 4 . 5 ) the freewheel device. The driver 15 has in a conventional manner on its side surface 20 an axially projecting, peripheral edge region, which in the assembled state according to the 4 and 5 the role federation 16 radially and axially overlaps.

On the side surface 20 There is also a centrally arranged, axially projecting centering pin 21 in cylindrical shape, the outer diameter of the inner diameter of the recess 17 in the role federation 16 equivalent. The driver 15 is made in particular as a plastic extrusion component. On the inside of the peripheral edge area are also Keilbahnen 19 for receiving the support rollers 21 , Which are located in a blocking position for a drive transmission of driver on roller covenant and in a drive transmission from roller covenant to driver in a freewheeling position.

Like that 4 and 5 can be seen, is the axial length of the centering 21 shorter than the axial depth of the recess 17 so that the front of the centering pin 21 at a distance to the bottom of the recess 17 lies. The front of the role covenant 16 lies on the side surface 20 of the driver 15 on, as well as the front side of the support rollers 22 , The driver 15 engages in the axial direction with its outer edge region of the roller coil 16 and the support rollers 22 completely in the axial direction. The inner diameter of the recess 17 or the outer diameter of the Zentrierzapfens 21 is significantly smaller than the outer diameter of the drive shaft 5 ; in particular, the diameter of the recess 17 or centering pin 21 only about half of the outer diameter of the drive shaft 5 , Based on the outer diameter of the driver 15 is the diameter of recess 17 or centering pin 21 only about 20%.

At the driver 15 are axle journals 23 arranged eccentrically, over which the driver 15 is driven by a component of the transmission, for example a planet carrier.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102012211893 A1 [0002]

Claims (10)

Freewheel device for a starting device ( 1 ) for an internal combustion engine ( 4 ), with a driver ( 15 ), which has support rollers ( 22 ) with a starter pinion ( 2 ) driving shaft ( 5 ), wherein the driver ( 15 ) engages over the end face of the shaft, characterized in that the driver ( 15 ) and on the front side of the shaft ( 5 ) a cylindrical centering pin ( 21 ) and a centering pin ( 21 ) receiving recess ( 17 ) are arranged. Freewheel device according to claim 1, characterized in that the free end face of the Zentrierzapfens ( 21 ) axially spaced from the bottom of the recess ( 17 ) lies. Freewheel device according to claim 1 or 2, characterized in that the centering pin ( 21 ) over at least half of the axial extent in the recess ( 17 ) protrudes. Freewheel device according to one of claims 1 to 3, characterized in that the centering pin ( 21 ) at the driver ( 15 ) and the recess ( 17 ) on the front side of the shaft ( 5 ) are arranged. Freewheel device according to one of claims 1 to 4, characterized in that the end face of the shaft ( 5 ) and the end face of the support rollers ( 22 ) lie in a common plane. Freewheel device according to one of claims 1 to 5, characterized in that the end face of the shaft ( 5 ) and the end face of the support rollers ( 22 ) on the side surface of the driver ( 15 ) issue. Freewheel device according to one of claims 1 to 6, characterized in that the recess ( 17 ) bordering area a chamfer ( 18 ) or has a rounding. Freewheel device according to one of claims 1 to 7, characterized in that the diameter of the Zentrierzapfens ( 21 ) or the recess ( 17 ) is smaller than the outer diameter of the shaft ( 5 ). Freewheel device according to one of claims 1 to 8, characterized in that the diameter of the Zentrierzapfens ( 21 ) maximum 30% of the outer diameter of the driver ( 15 ) is. Starting device for an internal combustion engine with a freewheel device ( 14 ) according to one of claims 1 to 9.

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