DE102015212687A1 - camshaft - Google Patents

Abstract

The invention relates to a camshaft (1) with a hollow shaft (3) and at least one sliding cam (5) displaceable thereon in the axial direction (4) between at least two detent positions. It is essential to the invention that the hollow shaft (3) has at least one recess (6), that the at least one sliding cam (5) has at least two recesses (7, 7 ') axially adjacent to each other and inwardly open specify at least two locking positions, - that in the hollow shaft (3) a spring element (8) is arranged with at least one spring arm (9) through the recess (6) in the hollow shaft (3) and into the recess (7) of the Sliding cam (5) engages, - that the spring element (8) in the hollow shaft (3) is braced.

Description

The present invention relates to a camshaft having a hollow shaft and at least one sliding in the axial direction between at least two locking positions sliding cam, according to the preamble of claim 1. The invention also relates to an internal combustion engine having at least one such camshaft.

Generic camshafts are well known and usually have sliding cams, which are adjusted as needed in the axial direction and thereby can be adjusted, for example, in an operative position or a free position. Of course, it must be ensured that the individual sliding cams are secured on the camshaft tube against unintentional axial displacement, so that the displacement takes place only when an actuating mechanism with a certain force in the axial direction acts on the sliding cam and thereby releases its locking and the Sliding cam adjusted to the next detent position.

Such locking is so far, for example, with spring-biased locking elements (balls or pins) causes, which are guided in a bore or sleeve and engage in a circumferential recess in the sliding cam. Although such balls or pins are comparatively cheap standard components, however, the assembly of the same makes extremely complicated, whereby such sliding cam systems are only relatively expensive to implement overall.

The present invention therefore deals with the problem of providing a camshaft of the generic type an improved or at least one alternative embodiment, by means of which in particular a cost-effective implementation is possible.

This problem is solved according to the invention by the subject matter of independent claim 1. Advantageous embodiments are the subject of the dependent claims.

The present invention is based on the general idea, instead of previously used as a lock for an axially slidable on a hollow shaft sliding cam, spring-loaded pins or balls, now for the first time to use a comparatively inexpensive spring element, which is also extremely easy to assemble. Such a spring element may be formed, for example, as a spring plate or as a spring wire. The camshaft according to the invention has a hollow shaft and the at least one sliding cam which can be displaced or displaced in the axial direction between at least two detent positions. According to the invention, the hollow shaft has at least one recess and the at least one sliding cam at least two axially adjacent to each other inwardly open recesses, which at the same time pretend the at least two locking positions. In the hollow shaft while the spring element according to the invention is arranged with at least one spring arm, which engages through the recess in the hollow shaft and at the same time in the recess of the sliding cam. The spring element itself is clamped in the hollow shaft, in particular via this at least one spring arm, but for example also otherwise. Of great advantage in the camshaft according to the invention is that the spring element can already be pre-assembled in the hollow shaft, so that during assembly of the at least one sliding cam this only axially pushed onto the hollow shaft and at the same time the at least one protruding through the recess in the hollow shaft Spring arm must be depressed to fully postpone the sliding cam until the spring arm reaches the first recess of the sliding cam and engages in this and fixed above the axial position of the sliding cam. By this type of latching according to the invention or the spring element according to the invention no fit in the hollow shaft or a sleeve for guiding a ball or a pin is needed, the spring element used in the invention must even have enough "clearance" to be able to compression. The spring element itself is formed from a cost-effective but durable and high quality spring steel, in particular shaped and has at least in the region of at least one spring arm on a radial compliance, whereby the out of the at least one associated recess of the hollow shaft out looking spring arm can act accordingly. In a particularly simple embodiment of the spring element according to the invention this has only a single spring arm and may for example be formed as an endless profile, which is cut to length and formed in the region of the spring arm or other investment points in the inner diameter.

In an advantageous development of the solution according to the invention, a recess is arranged on an inner lateral surface of the hollow shaft, in which the spring element engages with a collar portion and is braced relative to the hollow shaft. In this case, therefore, an axial position of the spring element within the hollow shaft is ensured not only by the at least one spring arm engaging through the associated recess, but also by the collar portion of the spring element, which braces in the recess of the hollow shaft. This recess can as local pocket or be designed as at least partially on an inner circumference circumferential inner groove.

In a further advantageous embodiment of the solution according to the invention, the spring element has an open or a closed, in particular a cylindrical, shape or shape. In an open mold, the spring element according to the invention can be produced comparatively easily from a correspondingly shaped continuous profile, in particular as a clamp, as a result of which it is particularly cost-effective to produce. Alternatively, the spring element may also have a closed shape, wherein in this case at least one vent opening is provided, which facilitates pressing in of the at least one spring arm by an escape of air from the interior of the closed spring element.

In yet another alternative embodiment of the solution according to the invention, the hollow shaft has at least two opposing recesses, wherein the spring element has at least two corresponding spring arms, with which it engages through the recesses in the hollow shaft and into the recess of the sliding cam. It is conceivable that the spring arms both in one embodiment with a spring arm, two spring arms or with more spring arms, a through the recess and into the recess of the sliding cam engaging portion which is complementary to the recess, in particular also rounded, whereby on the one hand a backup of the axial position of the sliding cam can be reliably ensured, on the other hand, however, the resistance to be overcome when moving the sliding cam can be reduced.

In an advantageous embodiment of the solution according to the invention, the recesses in the sliding cam on conical side walls. Such conical side walls of the recess allow a simplified displacement of the sliding cam by means of a lower actuating force, whereby switching operations can be performed more easily overall. Nevertheless, of course, the recesses are also formed with conical side walls and the associated spring arms such that inadvertent axial displacement of the sliding cam can be reliably excluded.

In a further advantageous embodiment of the solution according to the invention, the at least one recess in the hollow shaft is designed as a slot or as a bore. A slot can be produced for example by a corresponding punching process, while the bore also represents a comparatively accurate but at the same time also cost-effective production method for producing the recess.

The present invention is further based on the general idea of equipping an internal combustion engine with at least one camshaft described above, whereby an internal combustion engine can be achieved whose production costs are also reduced by the reduced production costs of the camshaft. This is achieved by the comparatively simple mounting of the spring element in the hollow shaft and, moreover, also by the comparatively simple mounting of the at least one sliding cam on the hollow shaft.

Other important features and advantages of the invention will become apparent from the dependent claims, from the drawings and from the associated figure description with reference to the drawings.

It is understood that the features mentioned above and those yet to be explained below can be used not only in the particular combination given, but also in other combinations or in isolation, without departing from the scope of the present invention.

Preferred embodiments of the invention are illustrated in the drawings and will be described in more detail in the following description, wherein like reference numerals refer to the same or similar or functionally identical components.

Show, each schematically

1 a longitudinal sectional view through a camshaft according to the invention,

2 a cross section through the camshaft according to the invention with a two spring arms having spring element,

3 a representation like in 2 but with four spring arms,

4 a representation like in 1 , but with a different design and only a single spring arm having spring element,

5 a representation like in 4 but in a closed form of the spring element,

6 a representation like in 1 However, in a different design spring element.

According to the 1 such as 4 to 6 , Has a camshaft according to the invention 1 usually in an internal combustion engine 2 is installed, a hollow shaft 3 with at least one in the axial direction 4 between at least two locking positions sliding sliding cam 5 on. According to the invention now has the hollow shaft 3 at least one recess 6 (see. 4 and 5 ) or several recesses 6 (see. 1 to 3 and 6 ). The sliding cam 5 has at least two axially adjacent to each other arranged recesses 7 . 7 ' , which at the same time the at least two detent positions of the sliding cam 5 on the hollow shaft 3 define. In the hollow shaft 3 itself is a spring element 8th with at least one spring arm 9 (see the 4 and 5 ) arranged through the recess 6 in the hollow shaft 3 through and into the recess 7 of the sliding cam 5 intervenes. The spring element 8th is in the hollow shaft 3 strained and thereby fixed. The spring element 8th may be formed for example as a spring wire or spring plate.

Looking at the representations of the camshaft according to the invention 1 according to the 1 to 3 and 6 , so you can see that the spring element 8th in this case several spring arms 9 namely, two spring arms 9 according to the 1 and 2 and a total of four spring arms 9 according to the 3 having.

The big advantage of the spring element according to the invention 8th Compared to previously introduced in this area, spring-loaded or spring-biased pins or balls is not only the relatively inexpensive production of the spring element 8th but at the same time its comparatively simple and thus cost-effective installation. The spring element 8th can be preassembled in particular, in which case the sliding cam 5 only still axially on the hollow shaft 3 deferred and by pressing down the spring arms 9 can be pushed into position until the at least one spring arm 9 the recess 7 . 7 ' reached and engages there and above the sliding cam 5 in the axial direction 4 fixed.

For fixing the spring element 8th in the hollow shaft 3 besides the at least one spring arm 9 in addition to an inner circumferential surface of the hollow shaft 3 a recess 10 be arranged, in which the spring element 8th with a collar section 11 engages and opposite the hollow shaft 3 is tense. Such an embodiment with such a recess 10 is for example in the 4 and 5 shown.

Looking at the spring element 8th according to the 1 to 4 , it can be seen that it has an open shape there, in particular, for example, from an endless profile, the cut to length and in the spring arms 9 was formed, has been produced.

Alternatively, the spring element 8th as in 5 is also shown to have a closed shape, in which case at least one vent 12 is provided so that in an interior of the spring element 8th Existing air when pressing in the spring arm 9 when moving the sliding cam 5 can reach and represents no resistance.

Looking at those from the 1 . 2 and 6 illustrated embodiment, it can be seen from this that the hollow shaft 3 two opposite recesses 6 while the spring element 8th two opposite spring arms 9 possesses, by means of which it through the recesses 6 in the hollow shaft 3 through and into the recess 7 the hollow shaft 3 intervenes. In accordance with the 3 shown embodiment of the spring element according to the invention 8th This even has a total of four spring arms 9 which by corresponding recesses 6 in the hollow shaft 3 reach through.

The spring element 8th is usually formed of a spring steel, which on the one hand ensures a long-lasting spring property and on the other hand allows a cost-effective production. The recesses 7 . 7 ' in the sliding cam 5 have conical sidewalls 13 (see. 1 such as 4 . 5 and 6 ), which is a simplified shifting of the sliding cam 5 in the axial direction 4 allow, but still prevents unintentional movement. The spring arm 9 can be at his in the recess 7 be formed rounded engaging portion, whereby also an actuating force for axially displacing the sliding cam 5 can be reduced.

The at least one recess 6 in the hollow shaft 3 may be formed as a slot or as a bore, both a training as a slot, for example, produced by a stamping process, as well as training as a bore, a relatively inexpensive but highly accurate production possible.

With the camshaft according to the invention 1 and in particular with the spring element according to the invention 8th can be a sliding cam 5 much easier mounted and the entire camshaft 1 at the same time be made cheaper, in particular, the assembly was previously used in this area, spring-loaded balls or pins comparatively expensive and expensive.

Claims (10)

Camshaft ( 1 ) with a hollow shaft ( 3 ) and at least one in the axial direction ( 4 ) between at least two locking positions sliding sliding cam ( 5 ), characterized in that - the hollow shaft ( 3 ) at least one recess ( 6 ), - that the at least one sliding cam ( 5 ) at least two axially adjacent to each other inwardly open recesses ( 7 . 7 ' ), which specify the at least two detent positions, - that in the hollow shaft ( 3 ) a spring element ( 8th ) with at least one spring arm ( 9 ) is arranged through the recess ( 6 ) in the hollow shaft ( 3 ) and into the recess ( 7 ) of the sliding cam ( 5 ) engages, - that the spring element ( 8th ) in the hollow shaft ( 3 ) is braced. Camshaft according to claim 1, characterized in that on an inner circumferential surface of the hollow shaft ( 3 ) a recess ( 10 ) is arranged, in which the spring element ( 8th ) with a collar section ( 11 ) engages and opposite the hollow shaft ( 3 ) is braced. Camshaft according to claim 1 or 2, characterized in that the spring element ( 8th ) has an open or a closed shape. Camshaft according to claim 3, second alternative, characterized in that the spring element ( 8th ) at least one vent ( 12 ) having. Camshaft according to claim 1, characterized in that - the hollow shaft ( 3 ) at least two, in particular opposite, recesses ( 6 ), - that the spring element ( 8th ) at least two spring arms ( 9 ), with which it through the recesses ( 6 ) in the hollow shaft ( 3 ) and into the recess ( 7 ) of the sliding cam ( 5 ) intervenes. Camshaft according to one of claims 1 or 5, characterized in that - the hollow shaft ( 3 ) at least four recesses ( 6 ), - that the spring element ( 8th ) at least four spring arms ( 9 ), with which it through the recesses ( 6 ) in the hollow shaft ( 3 ) and into the recess ( 7 ) of the sliding cam ( 5 ) intervenes. Camshaft according to one of claims 1 to 6, characterized in that the spring element ( 8th ) is formed of a spring steel. Camshaft according to one of claims 1 to 7, characterized in that the recesses ( 7 . 7 ' ) in the sliding cam ( 5 ) conical sidewalls ( 13 ) exhibit. Camshaft according to one of claims 1 to 8, characterized in that - the at least one recess ( 6 ) in the hollow shaft ( 3 ) is designed as a slot or as a bore, and / or - that the recesses open on the inside ( 7 . 7 ' ) in the sliding cam ( 5 ) are designed as pockets or as internal grooves. Internal combustion engine ( 2 ) with at least one camshaft ( 1 ) according to one of claims 1 to 9.

Images