ITBS20120119A1 - LUBRICATING GUIDE FOR A DISTRIBUTION DEVICE FOR AN ENDOTHERMAL ENGINE - Google Patents

Description

DESCRIPTION

The present invention relates to a guide pin for a distribution apparatus of an internal combustion engine. The distribution systems of endothermic engines, both Diesel cycle and Otto cycle, include mechanisms interposed between the cylinder valves and the camshafts. The function of these mechanisms is to regulate and control the lifting or opening and closing of the valves according to the rotation of the crankshaft with which the camshafts are connected and synchronized.

In the known art there are valve actuation mechanisms which include a rocker arm, a finger or lifter which is mechanically connected to the valve to control its lifting movement and, in some cases, also the closing one. In fact, in some types of distribution, the closing of the valve is effected by the thrust of suitable closing springs while, in desmodromic distributions, the actuating mechanisms of the valves guide both the opening and closing of the valves themselves.

The aforesaid actuation mechanisms are usually hinged at a fixed point, by means of one or more guide pins, so as to rotate under the thrust of the camshaft.

The guide pins are extremely stressed mechanical elements due to friction with the respective drive mechanism and, in addition, due to the shear and cyclic fatigue stresses they undergo.

In the typical pins of the known art these problems have not yet been solved or at most they have been partially limited. These pins, in fact, incur breakage mainly due to the problems mentioned above.

Patent application BS2010A000202 in the name of the Applicant, asks for protection for embodiments of the pin, and specifically for embodiments in specific materials, suitable for supporting the aforementioned shear and fatigue stresses, and above all for wear.

However, in the known art there remains the problem of lubrication between the pin and the mechanism which always remains extremely difficult, especially in adverse operating conditions, such as the presence of high temperatures.

The purpose of the present invention is that of realizing a guide pin which solves this drawback in an effective way, ie lubricating the pin in the best possible way and in particular its surface in contact with the mechanism, minimizing the friction problem.

Specifically, this object is achieved by a guide pin in accordance with claim 1.

Other embodiments of the guide pin according to the invention are described in the subsequent claims.

Further characteristics and advantages of the present invention will be more understandable from the description given below of its preferred and non-limiting embodiment examples, in which: - Figure 1 represents a sectional view of a first distribution apparatus comprising a guide pin according to with the present invention;

Figure 2 represents a sectional view of a second distribution apparatus comprising a guide pin according to the present invention;

Figures 3 and 3a respectively show a side and plan view of the guide pin in one embodiment;

- Figures 4 and 4a respectively show a side, and partially sectioned, and plan view of the guide pin according to a further embodiment.

With reference to the aforesaid figures, the reference numeral 4 globally indicates a guide pin for an actuation mechanism 8 of valves 12 of a distribution apparatus 16 of an internal combustion engine. The guide pin 4 is overall cylindrical and defines an axis of rotation X-X for the associable drive mechanism 8.

The actuation mechanism 8 of the valves 12 can be of various types and, for example, can comprise a rocker arm, a finger or a lifter operatively connected to the valve 12 to command its opening and / or closing movement.

The valve 12 is typically a poppet valve and comprises a stem 18, through which it is operatively connected to the drive mechanism 8 and a head 20, connected to the stem 18 on the opposite side to the drive mechanism 8. The head 20 is used to occlude the port of the relative intake or exhaust duct 24 in which the valve 12 is mounted.

The actuation mechanism 8 is hinged on said guide pin 4 so as to rotate around the axis of rotation X-X defined by the same guide pin 4.

The actuation mechanism 8 is fixed, preferably hinged, at an intermediate point, with respect to which two opposite ends are provided: a first control end 28, mechanically interfaced with the valve 12, and in particular with the stem 18, and a second drive end 32 which receives motion from a relative camshaft 36 of the distribution apparatus 16.

The connection between the second drive end 32 can be direct with the camshaft, for example by sliding (figure 1) or it is possible to interpose, for example, a connecting rod 15 (figure 2).

The guide pin 4 is therefore fixed with respect to the actuation mechanism 8 and is suitable for supporting the actuation mechanism itself in rotation.

In a preferred embodiment, the pin 4 has a lateral surface 40 suitable for contacting said actuation mechanism 8.

Preferably, the pin 4 also has an axis of section S-S perpendicular to the axis of rotation X-X; in other words, by cutting the cylindrical guide pin 4 along the axis of section S-S, perpendicular to a plane lying on the axis of rotation X-X, a circle is obtained.

In a preferred embodiment, the pin 4 comprises on said lateral surface 40 a flattening 50 which extends in length parallel to the axis of rotation X-X in a central portion of the pin 4. The purpose of said flattening 50 is to contain lubricating liquid in such a way as to wet the internal surface of the mechanism 8 to which it faces.

Preferably, with respect to the rounded side surface 40, the leveling 50 is hollowed out internally towards the pin 4, for example by means of a suitable tool, and parallel to the axis of rotation X-X.

Preferably, the leveling is internal to the pin 4 by a few tenths of a mm.

Preferably the flattening 50 is obtained in a symmetrical manner centrally to the pin 4.

Preferably, on the leveling 50, along its extension, two ends 51 opposite each other are identified; preferably said ends 51 also connect the difference in level between the flattening 50 and the lateral surface 40.

In a preferred embodiment, on the lateral surface 40 the pin 4 further comprises a lubrication groove 60; said lubrication groove 60 extends circumferentially around the pin 4, in other words turning around the pin 4 in its entirety, inclined with respect to the direction of the axis of section S-S. The purpose of said groove 60, similarly to the flattening 50, is to contain lubricating liquid in such a way as to wet the internal surface of the mechanism 8 to which it faces; in addition, the lubrication groove 60 also has the purpose of allowing the interlocking of lubricating liquid in the flattening 50 itself.

Preferably the lubrication groove 60 is a channel formed in the lateral surface 40 with a radius of a few tenths of a mm.

In a preferred embodiment, the lubrication groove 60 extends from one end 51 of the face 50.

Preferably, the lubrication groove is inclined with respect to the axis of section S-S substantially by 10 ° -20 °, preferably 15 °. Indicated with Î ± the angle between the S-S section axis and the inclination direction of the lubrication groove 61, the angle Î ± is therefore between 10 ° and 20 °.

In a preferred embodiment, the lubrication groove 60 extends helically along the pin 4. In a further variant embodiment, the pin 4 comprises two lubrication grooves 60 which extend in opposite directions, for example helical.

Preferably, the two lubrication grooves 60 cross on the opposite side with respect to the flattening 50.

In a preferred embodiment, in addition to the lubrication grooves 60, the pin 4 also comprises a circumferential lubrication groove 61, ie which extends parallel to the axis of section S-S. Preferably, the circumferential lubrication groove 61 is positioned on the perfect center line of the guide pin 4.

Preferably, the features and purposes of the circumferential lubrication groove 61 are the same as those of the lubrication groove 60.

In said embodiment, preferably, the lubrication groove 60 and the circumferential lubrication groove 61 cross on the opposite side of the pin 4 with respect to the face 50.

Preferably, moreover, the guide pin 4 also comprises a lubrication duct 70 suitable for crossing it internally, to carry lubricating liquid from one part of the pin to the other. In a preferred embodiment, the lubrication duct 70 passes through, or also intersects, the axis of rotation X-X.

The lubrication duct 70 therefore has two ends or openings positioned on the lateral surface 40.

Preferably, one of the ends or mouths of the lubrication duct 70 opens into a lubrication groove 60.

In a variant embodiment, said end or mouth of the lubrication channel opens at the point where the lubrication grooves 60, and possibly also the circumferential lubrication groove 61, cross.

In a preferred embodiment, the guide pin 4 is made of metal, preferably of bronze or brass; in further variants the guide pin 4 is made of aluminum or an aluminum alloy, for example comprising Al, Si, Cu, Mn, Mg.

Preferably, the lateral surface 40 is coated by means of suitable heat treatments.

The method of manufacturing a guide pin 4 according to the invention will be described below.

In particular, the pin is cut to length, for example starting from a solid bar with a circular section made of the aluminum alloy described above.

Then the lubrication grooves 60 and, if provided, the circumferential lubrication groove 61 are formed on the lateral surface 40.

We then proceed with the heat treatments on the guide pin 4.

Innovatively, the guide pin object of the present invention allows an extremely more effective lubrication with respect to the guide pins of the known art.

Advantageously, the guide pin object of the present invention wets a much larger area with the lubricating liquid than the typical pins of the prior art.

Moreover, advantageously, thanks to the guide pin object of the present invention, the friction that is created between the lateral surface of the pin and the mechanism is minimized.

According to a further advantageous aspect, it is not necessary for the guide pins to be made of materials with a low coefficient of friction since the problem is solved by the structure and positioning of the components comprised by the pin.

According to a still further advantageous aspect, the pin can be manufactured in a material suitable to withstand shear and cyclic fatigue stresses.

Advantageously, the production of the guide pin object of the present invention is not completely distorted. Furthermore, advantageously, by means of numerical control machinery, the lubrication groove inclined with respect to the axis of section S-S can be reproduced in a single operation.

According to a further advantageous aspect, by means of a numerically controlled machine the lubrication grooves can be produced helically according to different inclination angles and in a variable number, from one to increasing.

According to a still further advantageous aspect, the pin object of the present invention, having an improved lubrication, ie better distributed, can be minimized and produced in smaller dimensions than the known ones.

Advantageously, a pin with minimized dimensions and therefore overall dimensions also entails a series of advantages in the design, positioning and construction of the motor itself.

The person skilled in the art, in order to satisfy contingent and specific needs, will be able to make numerous modifications and variations to the guide pins described above, all however contained within the scope of the invention as defined by the following claims.

Claims (12)

CLAIMS 1. Guide pin (4) for an actuating mechanism (8) of valves (12) of a distribution apparatus (16) of an internal combustion engine, in which the pin (4) is fixed with respect to said actuating mechanism (8) and is suitable for supporting it in rotation, with respect to a rotation axis (X-X), the pin (4) has a lateral surface (40) in contact with said drive mechanism (8) and a section axis ( S-S) perpendicular to the rotation axis (X-X), wherein the pin (4) comprises on the lateral surface: - a flattening (50) of the lateral surface (50) which extends in length parallel to the axis of rotation (X-X) in a central portion of the pin (4); - at least one lubrication groove (60) which extends circumferentially around the pin (4) inclined with respect to the direction of the section axis (S-S). Guide pin (4), according to any one of the preceding claims in which the lubrication groove (60) extends from one end of the face plate (50). 3. Guide pin (4), according to claim 1, in which the lubrication groove (60) is inclined with respect to the section axis (S-S) substantially by 10 ° -20 °, preferably 15 °. Guide pin (4), according to any one of the preceding claims, wherein the lubrication groove (60) extends helically along the pin (4). 5. Guide pin (4), according to any one of the preceding claims, comprising two lubrication grooves (60) extending in opposite directions. 6. Guide pin (4), according to claim 5, in which the two lubrication grooves (60) cross on the opposite side with respect to the facing (50). 7. Guide pin (4), according to any one of the preceding claims, comprising a circumferential lubrication groove (61), which extends parallel to the section axis (S-S). 8. Guide pin (4), according to claim 7, wherein the lubrication groove (60) and the circumferential lubrication groove (61) cross on the opposite side of the pin (4) with respect to the face plate (50) . 9. Guide pin (4), in accordance with any one of the preceding claims, also comprising a lubrication duct (70) suitable to cross the pin (4) internally, to carry lubricating liquid from one side of the pin to the other (4). 10. Guide pin (4), according to claim 9, wherein one of the ends of the lubrication duct (70) opens into a lubrication groove (60). Guide pin (4), according to claim 10, wherein one of the ends of the lubrication duct (70) opens at the point where the lubrication grooves (60) cross. 12. Distribution apparatus (16) of internal combustion engines comprising at least one actuating mechanism (8) of a valve (12), said actuating mechanism (8) comprising a rocker arm, a finger or a lifter operatively connected to the valve (12) to control the opening and / or closing movement thereof, said actuation mechanism (8) being hinged on at least one guide pin (4) according to any one of claims 1 to 11, so as to rotate with respect to the axis of rotation (X-X) identified by said guide pin (4).