WO2010000828A1

WO2010000828A1 - Starter for an internal combustion engine

Info

Publication number: WO2010000828A1
Application number: PCT/EP2009/058375
Authority: WO
Inventors: Stephan Kaske; Thomas Lees; Walter Gerschwitz; Harald Lukosz
Original assignee: Robert Bosch Gmbh
Priority date: 2008-07-03
Filing date: 2009-07-03
Publication date: 2010-01-07
Also published as: DE102008040106A1

Abstract

The invention relates to a starter (1) for an internal combustion engine, comprising a pinion (2) pushed onto a shaft (3) and comprising an axial securing means (6) for securing the pinion (2) on the shaft (3). The axial securing means (6) is a ring element (7) pushed onto the shaft (3) and held by friction thereon.

Description

description

Title starter for an internal combustion engine

The invention relates to a starter for an internal combustion engine, with a pushed onto a shaft pinion and with a pinion on the shaft securing axial.

State of the art

Starters are known in the art for starting internal combustion engines. A pinion spurts into a gear rotatably connected to the crankshaft of the internal combustion engine and drives the crankshaft in this manner until the internal combustion engine ignites and runs on its own. For free ejecting starters, the starter pinion is stored in a drive bearing with needle sleeve. During starter assembly, the freewheel with the starter pinion is inserted through the needle sleeve. The maximum head circles and numbers of teeth of the starter variants are therefore limited. The damped or spring-applied application of the starter pinion to the ring gear is not guaranteed in tooth-to-tooth contact. By increasing the required starting speeds, run-up support for the internal combustion engine and the required service life in start-stop operation, it is necessary to increase the number of teeth and thus also the tip diameter of the starter pinion. With the solutions known from the prior art, in particular in

Versions with the described needle sleeves, this is montagetechnisch not possible or only with considerable change in the assembly lines. Needle sleeves with a larger inner ring and mutual sealing are eliminated for cost reasons and from a viewpoint of mountability. Next would have the shaft diameter of the starter pinion in extrusion execution on the Diameter of the larger tip circle are adapted, which in turn negatively affects the dynamics of the starter and the weight of the entire product due to the larger mass of the component. It is known in this respect to perform the pinion as Steckritzel, which is mounted at the end of the starter assembly and then secured axially. When

Axialsicherung is known in the art, an axial fixation by means of snap ring and / or stop ring in the manner of a snap ring. The disadvantage of this is an increased installation costs and increased space requirements and in the embodiment of the free-launching starter an additional capsule for closing the starter pinion.

The object of the invention is to provide a starter for an internal combustion engine, which provides a corresponding pinion and this ensures a simple, inexpensive installation as Steckritzel without the disadvantages described above must be accepted.

Disclosure of the invention

For this purpose, a starter for an internal combustion engine is proposed, with a pushed onto a shaft pinion and with a pinion on the shaft securing axial. It is envisaged that the axial securing means is a frictionally engaged ring element pushed onto the shaft. The axial securing is thus effected by the fact that the ring member is pushed onto the shaft and held there in frictional engagement. For this purpose, the ring element has an inner diameter which corresponds so precisely to the outer diameter of the shaft that, in the pushed-on state, it is held in place by the material-related frictional forces. For the purpose of assembly, the ring member is pushed onto the shaft and fixes the pinion thereby.

Preferably, the ring element is pushed under the action of ultrasound on the shaft. Due to the ultrasonic effect during pushing the sliding friction between the shaft and the ring member is reduced, so that the sliding of the pinion on the shaft without too much effort is possible. At the same time it is avoided that the ring element for For purposes of pushing on, for example, must be heated in order to effect by thermal expansion of the ring member about a diameter extension of the ring member, as done for example when bursting. An ultrasonic guiding effect can be carried out much easier and in particular with considerable time savings.

In a preferred embodiment, the ring element is a pot element. It therefore encompasses the shaft not only the outer peripheral side, but also the front side with his bottom of the pot. As a result, sealing functions or closure functions are also provided.

In one embodiment, the shaft is a hollow shaft.

Preferably, the hollow shaft is mounted axially displaceably on a drive shaft of the starter. The hollow shaft serves here by their Axialverschieblichkeit the disengagement of the pinion and Einspuren for starting in the corresponding gear of the crankshaft or crankshaft pulley, wherein a corresponding facial expression is provided in cooperation with the drive shaft.

In a further embodiment, the pot element with its bottom of the pot closes the hollow shaft at the end. In this way, a closure of the hollow shaft is effected, which prevents the penetration of dirt and foreign bodies into the hollow shaft very advantageously and reliably, whereby a disturbance therein a displacement mechanism, in particular the drive shaft, is avoided in a simple and advantageous manner. Furthermore, the undesirable discharge of, for example, lubricant, such as grease, from the hollow shaft is avoided. In particular, it is further avoided that an additional element must be used to close the hollow shaft.

Further, it is provided in a preferred embodiment, that the pinion rotatably and axially displaceable on the hollow shaft is arranged. The hollow shaft thus rotates the pinion, wherein it is axially displaceable on the hollow shaft to a certain extent. The torque transmission takes place here by the rotationally fixed arrangement, for example via a rotary driving, which allows a certain Axialverschieblichkeit. This ensures that the pinion during Traces in a tooth-on-tooth contact in the way of its Axialverschieblichkeit can yield to the hollow shaft and thus damage to the pinion and / or the ring gear, in which the pinion meshes, is avoided.

Particularly preferably, it is provided that the pinion is biased by means of a spring, in particular disc spring, axially in the direction of the ring member. The axial displaceability of the pinion on the hollow shaft is limited or damped by the spring and its bias, which it exerts on the pinion. In particular, in tooth-to-tooth contact of the pinion with the ring gear, in which the pinion meshes, this is a short, cushioned yielding of the pinion ensured by this damped Axialverschieblichkeit, the pinion returns to its intended starting position just because of the bias as soon as the tooth-on-tooth contact is lifted and the pinion meshes with the ring gear.

Further, a method is proposed for securing a pinion of a starter, in particular as described above, on a shaft, wherein a ring member for forming the axial securing pushed onto the shaft and thereby held in frictional engagement. The ring element consequently holds by friction after postponement. Another fixation, in particular a welding, pinning, soldering or the like is not required.

In a further procedural training, the postponement takes place under

Ultrasound. The action of ultrasound greatly relieves or reduces the sliding friction during pushing, at least to such an extent that it is possible to slide the ring element onto the shaft without too much expenditure of force. In particular, a relatively quick and cost-effective installation of the ring element as axial securing is thereby made possible, since a thermal treatment of the ring element for diameter enlargement as in the blasting or additional welding, screwing, pinning or the like is omitted. Further advantageous embodiments will become apparent from the dependent claims and combinations thereof.

Brief description of the drawings

The invention will be explained in more detail with reference to an embodiment, but without being limited thereto.

It shows

the figure shows a pinion of a starter for an internal combustion engine with axial locking.

Embodiment (s) of the invention

The figure shows a section of a starter 1 for an internal combustion engine, not shown, with a pinion 2, which is on a shaft 3, which is designed as a hollow shaft 4, pushed. The pinion 2 superimposed on the hollow shaft 4 rotatably on a rotational drive, not shown, but to a small extent, namely the width of a gap 5, axially displaceable. The shaft 3 is provided at the end for axial securing of the pinion 2 on the shaft 3 with an axial lock 6, which is designed in the form of a ring element 7 in a particular embodiment as a pot element 8. The hollow shaft 4 is in this case mounted axially displaceably on a drive shaft 9 of the starter 1, wherein the hollow shaft 4 is mounted axially displaceable up to a bearing stop 10 for effecting a disengagement for meshing the pinion 2 in a sprocket, not shown. When meshing the pinion 2 can yield by its own Axialverschieblichkeit on the hollow shaft 4 in the circumference of the gap 5 in order to intercept a tooth-on-tooth contact and to avoid damage to the pinion 2 and the ring gear, not shown. The pinion 2 is in the direction of the axial securing 6 via a spring 11, namely a plate spring 12, biased. The spring 11 is supported on the pinion 2 on the one hand and on a hollow shaft stage 13 on the other. The pot member 8 covers a cavity 14 within the hollow shaft 4, which is open at the end and with withdrawn pot element 8 access to Bearing stop 10 and the drive shaft 9 granted. For applying the ring member 7 to the hollow shaft 4, at least the ring member 7 is applied with ultrasound 15 in order to reduce the sliding friction during sliding between the ring element inner surface 16 and hollow shaft outer shell 17 so far that without applying too much pressing force, the ring member 7 slides onto the hollow shaft 4 , After the end of the application of ultrasound 15, the ring member 7 is held on the hollow shaft 4 by frictional engagement. In this way, a further component, for example a snap ring, is very advantageously saved. Furthermore, as in the prior art when using snap rings usual hollow shaft cover is saved. An additional fixation of the ring member 7 on the shaft 3 is not required.

Claims

claims

1. Starter for an internal combustion engine, with a pushed onto a shaft pinion and with a pinion on the shaft locking axial securing, characterized in that the axial securing (6) on the shaft (3) deferred, held in frictional engagement

Ring element (7).

2. Starter according to claim 1, characterized in that the ring element (7) is pushed under the action of ultrasound on the shaft (3).

3. Starter according to one of the preceding claims, characterized in that the ring element (7) is a pot element (8).

4. Starter according to one of the preceding claims, characterized in that the shaft (3) is a hollow shaft (4).

5. Starter according to one of the preceding claims, characterized in that the hollow shaft (4) is mounted axially displaceably on a drive shaft (9) of the starter (1).

6. Starter according to one of the preceding claims, characterized in that the pot element (8) with its bottom of the pot, the hollow shaft (4) closes the end.

7. Starter according to one of the preceding claims, characterized in that the pinion (2) rotatably and axially displaceably on the hollow shaft (4) is arranged.

8. Starter according to one of the preceding claims, characterized in that the pinion (2) by means of a spring (11), in particular disc spring (12), is axially biased in the direction of the ring element (7).

9. A method for securing a pinion of a starter, in particular according to one of the preceding claims, on a shaft, wherein a ring member for forming the axial securing pushed onto the shaft and thereby held in frictional engagement.

10.Verfahren according to claim 9, characterized in that the pushing occurs under the action of ultrasound.