FR3031138B1 - ENGINE DISTRIBUTION DEVICE LINGUET - Google Patents

Abstract

Linguet (20) of a valve actuating device (10) in a motor vehicle engine cylinder head by a camshaft arranged in a cylinder head of said engine, said latch comprising a movable actuating arm (23) pivoting about a pivot axis (22) -and a contact head (24) extending a first end of said arm and disposed between a camshaft cam and a valve, characterized in that the contact head comprises a lower face (26) facing the valve, said lower face being substantially convex having a curvature (27) varying along the axis of the actuating arm (23).

Description

ENGINE DISTRIBUTION DEVICE LINGUET

Technical field of the invention

The present invention relates to a device for dispensing a heat engine or internal combustion engine of a motor vehicle.

The present invention relates more particularly to a device for actuating valves by a camshaft.

The present invention more specifically relates to a pawl portion of a valve actuating device.

State of the art

In motor vehicles equipped with internal combustion engine or thermal, distribution devices are installed to allow the admission of air or fresh gas into a chamber of a cylinder of the engine and the evacuation of the flue gases following a combustion in said chamber. The dispensing devices comprise valves movable in translation in a cylinder head of a heat engine. A valve is a mechanical member of the distribution of heat engines allowing the admission of fresh gases and the evacuation of flue gases. There is thus an intake valve separating the intake duct from the combustion chamber and an exhaust valve separating said combustion chamber from an exhaust duct. The valve used in the motor vehicle engine is generally a stem valve or tulip valve comprising a rod extended at one end by a flared valve head which is adapted to close a duct opening opening into the combustion chamber.

The valve is actuated generally by a camshaft which is adapted to push on the stem of the valve along the axis of said rod. To do this, the camshaft carries cams that press against a free end of the valve stem, said shaft is rotated about an axis substantially orthogonal to the axis of the valve stem. free of the valve stem is pushed by a fixed cam fixed in rotation to the camshaft, to the combustion chamber of the cylinder to allow the opening of the fresh air intake duct or the exhaust duct or evacuation of flue gases. The rod slides in fact in the cylinder head to the combustion chamber to open an orifice of an air intake duct or exhaust gas burned. The valve is then returned to position by one (or more) return spring.

Said free end of the rod is generally of reduced section and the contact between the cam and the valve stem can be disturbed, which is likely to cause a malfunction of the engine.

It is known to increase said contact section for example by adding to the free end of the rod a contact cylinder integral with the rod and to make reliable the contact between the valve stem and the cam.

It is also known to set up between the cam and the valve stem a contact pawl to ensure the transmission of the actuating movement of the cam on the free end of the valve stem. Said pawl is generally composed of an arm movable in rotation about an axis perpendicular to the axis of movement of the valve stem and a pawl head adapted to press on the free end of the valve stem. The cam in its rotational movement presses a portion of the arm of the pawl to cause a displacement in translation of the latch head and therefore the end of the valve stem.

To make reliable the contact on the one hand between the cam and the pawl and on the other hand between the pawl and the valve stem, recoil springs are arranged respectively on the pawl and on the valve. The tilting movement of the latches is therefore controlled by the cam to allow the valves to slide towards their open position to open the orifice of the air or gas duct, the closure of each valve being controlled by the return spring. of the valve.

The return spring of the valve is related to valve technology and our invention does not relate to this area.

The return spring on the pawl can complicate the assembly of the dispensing device.

In the prior art, much research has been done to reduce the phenomenon of panic valves.

It is known that the panic of the valves limits the maximum engine speed that is to say the engine performance and can cause mechanical damage such as the deterioration of the pistons and valves.

Known solutions to limit valve spatter are as follows: - Decrease of the moving mass of the valve (use of titanium valves, aluminum cups for example). -Diminution of the severity of the law of emergence (decrease of acceleration or jerks for example). -Increased the natural frequency of distribution. -Increase of the return force of the spring (double spring for example). - Combination of different solutions.

However, these known solutions can cause an increase in the moving mass of the valve and the distribution, which affects the cost, the size and the performance of the engine.

The publication FR2861130-A1 discloses a cylindrical body disposed at the end of a valve stem to make reliable the contact between said valve stem and a movable latch tilting about an axis perpendicular to the axis of said rod. The additional mass at the end of the stem causes less dynamic valve operation and reduced engine performance.

The publication FR2733539-A1 discloses a movable pawl pivoting about an axis perpendicular to the axis of sliding / translation of the valve stem and disposed between the cam and the valve stem end. Said pawl comprises an elastic return device to ensure contact between the pawl and the cam which complicates the actuating device of the valves.

To ensure optimal operation of the motor, it is necessary to control the sliding of the valve and to ensure contact on the one hand between the cam and the pawl and on the other hand between the pawl and the valve stem.

To ensure the reliable operation of the engine, it is interesting to rotate the valve about its axis. The latches described in the documents of the prior art do not provide a possibility of rotation of the valve.

The object of the invention is to remedy these problems and one of the objects of the invention is a dispensing latch of a valve actuating device, arranged in a cylinder head of a motor vehicle engine, said device makes it possible to articulating said distribution latch disposed between a valve stem and a fixed cam integral with a camshaft, in a reduced space, the latch being adapted to rotate the valve.

Brief summary of the invention

The present invention relates more particularly to a latch of a valve actuation device by a camshaft arranged in a cylinder head of the motor vehicle engine,

Said latch comprising an actuating arm movable pivotally about a pivot axis substantially parallel to the axis of the camshaft, and a contact head disposed at a first end of the actuating arm, between a cam and a valve, characterized in that the contact head comprises a lower face facing the valve, said lower face being substantially convex having a curvature varying along the axis of the actuating arm.

Advantageously, the lower face of the contact head of the pawl, opposite the valve stem is convex, that is to say turned towards the cam, to maintain contact between the pawl and the valve stem during the pivoting of the pawl around the pivot axis. Indeed, the cam of the camshaft has a section which presses on the contact head of the pawl and pivots said pawl around the pivot axis. This support has the effect of pushing the valve stem sliding towards a combustion chamber of a cylinder of the engine, which distances said rod from the pawl. The convex lower face comprising a curvature with an evolution of the curvature along the axis of the actuating arm then makes it possible to compensate for the relative displacements between the lower face of the contact head of the pawl and the head of the valve stem and thus to accompany the sliding of the valve stem by maintaining contact of the contact head of the pawl with said valve stem.

According to other characteristics of the invention: the lower face of the contact head of the pawl comprises a first curvature substantially around an axis parallel to the pivot axis of the pawl.

Advantageously, the lower face of the contact head of the pawl has a first curvature substantially about an axis parallel to the pivot axis of the pawl to accompany the sliding of the valve stem while maintaining contact between the rod. valve and the pawl, when pivoting the latch about its pivot axis. - The underside of the contact head of the pawl comprises a second curvature about an axis substantially parallel to the axis of the actuating arm of the pawl.

Advantageously, the lower face of the contact head of the latch has a second curvature about an axis substantially parallel to the axis of the actuator arm of the latch, said curvature is adapted to exert a force on the valve according to a transverse direction to the axis of said valve which causes a rotation of said valve stem and the valve about its axis when the cam presses the pawl and the valve stem to open the gas pipe to the chamber of combustion of the cylinder.

Thus the cam presses on the pawl to cause a sliding of the valve to release a gas conduit opening to a combustion chamber of a cylinder, said sliding is accompanied by a rotation of the valve about its axis. - The contact head of the pawl comprises an opposite upper face and facing the cam of the camshaft, said face being concave and having a single curvature.

Advantageously, the contact head of the latch has an upper face facing the cam of the camshaft which is concave and which has a single curvature to accompany the bearing movement of said cam rotation. Indeed, the cam presses on the upper face during its rotational movement, which causes a sliding of the contact between the cam and the upper face of the pawl and a possible separation of the two elements. A concave upper face that is to say turned towards the valve to maintain optimal contact between the two elements during the rotation of the cam. - The curvature of the upper face is along an axis substantially parallel to the pivot axis of the pawl.

Advantageously, the curvature of the concave upper face is along an axis substantially parallel to the axis of pivot of the pawl in order to optimally maintain the contact between the cam and the upper face of the pawl during the rotation of the cam, said pivot axis of the latch being substantially parallel to the axis of rotation of the cam. the upper face of the contact head of the pawl is covered with sliding material with a low coefficient of friction.

Advantageously, the upper face of the contact head of the pawl is covered with a sliding material with a low coefficient of friction to allow easy sliding of the cam over the entire surface of the upper face of the pawl and reduce friction between the two elements when moving relative to each other; said friction can cause undesirable overconsumption of the engine. the upper face of the contact head of the latch has a width along the axis of pivoting of the latch different from the width of the cam of the camshaft.

Advantageously, the upper face of the contact head of the latch has a width along the axis of pivoting of the latch different from the width of the cam of the camshaft to ensure a substantially permanent contact between said cam and said upper face. the latch comprises a latching ring fixed to the second opposite end of the actuating arm, said ring being adapted to surround the pivot axis by a contact surface.

Advantageously, the latch comprises a latching ring which extends the actuating arm at the second end opposite the first end with the contact head; said ring being adapted to surround the pivot axis by a contact surface. The pawl is simply attached to a fixed element secured to the yoke. the ring comprises a radial orifice passing through the thickness of said ring in order to supply lubricating liquid towards the contact surface. the pawl comprises an indentation at the peripheral edge of the ring.

Advantageously, the ring comprises an orifice through the thickness of the ring and a notch peripheral edge of the ring adapted to bring lubricating liquid to the contact surface of the pawl to reduce friction between the pawl and the pivot axis which are capable of generating on the one hand a heating of the two elements in contact and on the other hand undesirable overconsumption of the engine.

Advantageously, the pawl is pivotally mounted around the free axial end of a fixed holding protrusion integral with the yoke, which facilitates mounting of the device in the reduced space in the cylinder head. The pawl is associated with return mechanisms that would have the effect of complicating the actuating device. The retaining protuberance preferably comprises at least one free end surrounded by the pawl ring.

BRIEF DESCRIPTION OF THE FIGURES Other features and advantages of the invention will appear on reading the detailed description of particular embodiments of the invention given by way of non-limiting example and shown in the accompanying drawings, in which: FIG. 1 is a representative cross-sectional view of the valve actuator according to the invention. FIG 2 shows a schematic view of the latch according to the invention according to a first point of view.

Figure 3 shows a schematic view of the latch according to a second point of view opposite to the first point of view. FIG 4 is a top sectional view of the device mounted in the cylinder head. FIG 5 is a schematic view of one end of the latch according to the invention to be disposed between a cam and a valve stem.

Detailed description of the figures

In the following description, like reference numerals designate like parts or having similar functions.

As shown in FIGS. 1 and 5, a valve actuator 10 is disposed in a chamber 11 in a cylinder head 12 of a heat engine (not shown) for transmitting the rotary motion of a camshaft to valves and causing said valves to slide along their axis to open an air or gas duct.

In known manner, a camshaft 13 is rotatably mounted driven by a crankshaft rotation (not shown) by a transmission element such as a chain and a gear (not shown). Said camshaft carries a plurality of cams 14 mounted to rotate with said shaft.

According to the representation of FIG. 5, a pawl 20 is disposed between the cam 14 and a valve stem head 31 to ensure the transmission of the rotary movement of the cam in a translational movement of the valve stem 31 according to FIG. axis of said rod. The pawl 20 is pivotally movable about a fixed Y pivot axis secured to a wall element of the yoke. The pawl extends longitudinally along an axis 23a substantially orthogonal to the axis of the camshaft and said latch comprises a first end surrounding said pivot axis and an opposite second end disposed between the cam 14 and the valve stem 31 when the pawl is mounted in its operating position. Hereinafter, reference will be made to the pivot axis document of the latch 22 which is an axis of a cylindrical ring adapted to surround the pivot axis Y fixed to the cylinder head. The pivot axis 22 of the pawl coincides with the pivot axis Y when the pawl is mounted in its operating position.

As shown in Figures 2 and 3, the latch 20 comprises an actuating arm 23 extended at a first end 21a by a ring and the second end 21b opposite by a contact head 24. The axis 23a of the pawl is confused with the axis of the actuating arm 23. Said contact head 24 is disposed between the cam 14 and the valve stem head 31, once the pawl mounted in its operating position in the cylinder head.

Said contact head 24 comprises an upper contact face 25 facing the cam 14 and a lower opposite bearing face 26 facing the valve stem 31.

The upper contact face 25 is shaped to remain in substantially constant contact with the cam 14 during the rotational movement of said cam.

The upper face 25 is substantially concave, that is to say that the upper face has a curvature facing the lower face 26. According to the embodiment shown in Figures 2 and 3, the upper face 25 has a single curvature along an axis 22b substantially parallel to the pivot axis 22 of the pawl 20. Said curvature of the upper face 25 is adapted to allow a substantially permanent contact between the cam and said upper face of the contact head of the pawl.

As shown in Figure 4, preferably, the upper face has a width along a transverse axis parallel to the pivot axis 22, different from the width of the cam. The width of the upper face may be greater than the width of the cam to ensure contact between the cam and the pawl with a reduction of said contact. The width of the upper face may be smaller than the width of the cam to obtain a more dynamic operation of the pawl and therefore of the cam. In this way, the two elements will always remain in contact with each other despite vibrations generated during operation of the motor that can cause relative movements between the cam and the pawl along the transverse axis.

During the rotation of the cam 14, the contact between the cam 14 and the upper face 25 moves on the surface of the upper face. It is therefore necessary to minimize the friction between the cam and the pawl. Preferably, said upper face is covered with a sliding material with a low coefficient of friction. This material may for example be a DLC varnish for "Diamond Like Carbon" in English which has dry friction characteristics of the order of 0.1 (between 0.8 and 1.8) and a roughness Ra of the order of 0.02. pm.

Preferably, the upper face is made of steel with a hardness greater than or equal to 55 HRC (Rockwell hardness).

The lower bearing surface 26 is shaped to remain in contact with the valve stem head 31 during the translational movement of the valve stem along the axis of the rod 24.

The contact head of the pawl has a lower face facing the convex valve stem, that is to say that the lower face 26 has a curvature turned towards the upper face 25.

The lower face 26 has a first main curvature 27 facing the upper face and along an axis of curvature 22a substantially parallel to the pivot axis 22 of the pawl. Said curvature is adapted to allow a substantially constant contact between the lower face 26 and the head 30 of the valve stem. Preferably, the radius 27a of the main curvature 27 of the lower face may vary substantially along the axis 23a of the actuating arm 23 from a first longitudinal end 26a of said lower face to the opposite longitudinal end 26b. The radius of curvature may for example grow from a minimum value at the first longitudinal end 26a to a value of curvature greater than the opposite longitudinal end 26b. In this way, the support of the cam on the contact head is able to produce a precise sliding according to a desired sliding profile of the valve stem. Sliding profile is understood to mean the various phases of acceleration or slowing down of said sliding. The axis of curvature 22a may also vary while being displaced while remaining parallel to the pivot axis 22.

The lower face of the contact head has a second curvature 28 along an axis of curvature 28a substantially parallel to the axis 23a of the actuating arm 23. Said axis of curvature 28a can thus have a deflection angle with the axis 23a. actuating arm.

The radius of curvature of the second curvature may also vary from a first end transverse to the second transverse end opposite the transverse axis, as the axis of curvature may vary for example be moved while remaining substantially parallel to the 23a axis of the actuating arm.

According to an embodiment shown in FIG. 3, the second curvature has a substantially constant radius of curvature around the axis of curvature 28a. Preferably, the radius of curvature of the second curvature is substantially greater than the radius of curvature of the main curvature. The association of the first main curvature 27 along an axis 22a parallel to the pivot axis 22 of the latch with the second curvature 28 along an axis transverse to the pivot axis 22 also causes the lower face 26 to have a varying curvature. along the axis 23a of the actuating arm.

Preferably, the lower face 26 of the contact head is made of steel with a hardness greater than 55 HRC.

Valve return springs (not shown) urge the valve stem toward the pawl and help maintain the head 30 of the rod in contact with the bottom 26 of the pawl. A substantially permanent contact is thus established between the cam 14 and the pawl 20 and between the latch and the rod head 31.

Preferably, the surface of the lower face 26 is also covered with a sliding material with a low coefficient of friction which may be DLC.

No effort is placed on the latch 22 and its movement must therefore be as fluid as possible so as not to generate additional forces in the transmission of forces between the cam 14 and the valve stem 24.

The pawl comprises at the first end 21a of the actuating arm 23 a ring 40 which surrounds the pivot axis Y substantially parallel to the axis of the camshaft 20. Said pivot axis is part of a free end 50 of a retaining protuberance 51. The inner diameter of the ring 40 is substantially greater than the outer diameter of the pivot pin Y of the holding horn 51. Said retaining protuberance comprises for example a holding body 52 fixed secured to a wall element of the cylinder head by a fixing means. Said fixing means is preferably a fastening screw passing through a fixing hole 53 dug through said holding body, and driven into a hole in the cylinder head. The retaining ring 40 is preferably of cylindrical shape with a peripheral wall 41 having a radial thickness. Said ring surrounds the pivot axis Y by a contact surface 42b.

According to FIGS. 2 and 3, the holding ring 40 comprises a radial orifice 43 passing through the thickness of the peripheral wall 41 of said ring. Said orifice opens into a portion of a free outer surface of the ring, said orifice may for example be hollowed by a radial bore from a portion of free outer surface 42a of the ring which is not in line with the arm of actuation of the pawl. Said orifice 43 is used to convey lubricating liquid from the outside of the ring 40 to the inner contact surface 42b of the ring. The holding ring may also include a notch 44 at the peripheral edge 45 of the ring. Said indentation also makes it possible to bring lubricating liquid to the inner contact surface 42b of the ring.

As represented in FIG. 5, the pawl is positioned to optimally transmit the rotational movements of the cam 14 in bearing movements on the head 30 of the valve stem 31 without the need to fix an element to said head 30 of valve stem, which reduces the masses involved and improves the operation of the valves and therefore the engine.

The latch is preferably made of light alloy steel.

According to Figure 5, the valve actuating device is arranged in the chamber 11 of the engine cylinder head. The pawl is pivotally mounted about a fixed Y pivot axis integral with a wall element of the yoke, said pivot pin Y is part of the holding protrusion 51 attached to a wall element of the yoke. During operation of the motor, the camshaft is rotated and the cam 14 bears on the latch 20 by its upper face and push the contact head 24 of said pawl towards the valve. The pawl is then rotated about the pivot axis Y and allow the transmission of the bearing force on the valve stem head. Said valve stem 31 is pushed in sliding towards the chamber of the cylinder to obtain an opening of the gas conduit. The cam 14 then releases contact with the latch 20. The return springs of the valve will then push the valve stem 31 in the opposite direction against the contact head of the pawl against the cam. The profile of the sliding of the rod, that is to say the accelerations / slowing down of the displacement, is perfectly defined by the variations in curvature along the axis of the actuating arm of the curvature of the underside of the pawl.

The second curvature makes it possible to produce a force transverse to the axis of the valve stem 31 when the cam 14 presses on the contact head to push the valve stem towards the combustion chamber of the cylinder; said transverse force can then generate a rotation of the valve stem and thus of the valve around its axis.

In the chamber 11 of the cylinder head, an oil mist is formed by the supply of oil by different feed ramps (not shown). The oil can then pass through the radial orifice 43 or through the notch 44 of the ring 40 to lubricate the inner contact surface 42b of the ring. Because of its function, no force is produced on the latch 20. The contact between the ring and the pivot axis requires minimal lubrication without a specific oil supply duct.

Oil can also be deposited on the upper face 25 of the contact head of the pawl and lubricates the contact between the pawl and the cam. The varnish deposited also reduces friction between the two elements. The object of the invention is achieved: the valve actuating device makes reliable the contact between the cam 14 and the valve stem head 31 with a pawl 20 easy to manufacture and a reduced mass. Said latch 20 is pivotally mounted with an operating clearance around a pivot axis Y fixed simply to the cylinder head. The latch 20 makes it possible to control the sliding of the valve and to generate a rotation of the valve.

As goes without saying, the invention is not limited to the embodiments of this plug, described above as examples, it encompasses all variants. Thus, in particular, it will be possible to add a means of reducing friction between the actuating arm and the pivot axis such as for example a bearing without thereby departing from the scope of the invention. It will also be possible to have a longitudinal stop to replace the transverse wall element of the cylinder head. Said longitudinal stop is able to prevent excessive axial displacement of the actuating arm of the latch capable of interrupting the contact between the cam and the pawl or between the pawl and the valve stem head.

Claims (8)

claims 1. Linguet (20) of an actuating device (10) for a valve in a motor vehicle engine cylinder head by a camshaft (14) arranged in a cylinder head of said engine, said latch comprising an arm of actuator (23) pivotally movable at a first end, about a pivot axis (22), and a contact head (24) disposed between a cam (14) of the camshaft and a valve (32). ) extending a second end opposite to the first end of said actuating arm, characterized in that the contact head comprises a lower face (26) facing the valve (32), said lower face being substantially convex comprising a first curvature (27) about an axis substantially parallel to the pivot axis (22) and varying along the axis of the actuating arm (23), and a second curvature substantially about the axis of said actuating arm. 2. Linguet (20) according to claim 1, characterized in that the contact head (24) of the pawl comprises an upper face (25) opposite the lower face (26) and facing the cam (14) of the camshaft, said upper face being concave and having a single curvature. 3. Linguet (20) according to claim 2, characterized in that the curvature of the upper face is along an axis substantially parallel to the pivot axis (22, Y). 4. Linguet (20) according to any one of claims 2 to 3, characterized in that the upper face (25) of the contact head (24) of the pawl is covered with sliding material with a low coefficient of friction. 5. Linguet (20) according to any one of claims 2 to 4, characterized in that the upper face (25) of the contact head (24) of the latch has a width according to the pivot axis (22) different the width of the cam (14) of the camshaft. 6. Linguet (20) according to any one of claims 1 to 5, characterized in that the latch comprises a latching ring (40) at the opposite second end of the actuating arm (23), said ring is adapted surrounding the pivot axis (22) by a contact surface (42b). 7. Linguet (22) according to claim 6, characterized in that the ring (40) comprises a radial orifice (43) passing through the thickness of said ring to bring lubricating liquid to the contact surface (42b). 8. Linguet (22) according to claim 6 to 7, characterized in that the latch comprises a notch (44) peripheral edge of the ring (40).