FR2990482A1 - Locking device for immobilizing portions of transmission system of movement of cam to e.g. exhaust valve, of vehicle internal combustion engine, has latch and pin surfaces configured to realize flat/sphere contact between pin and latch - Google Patents

Abstract

The device has a latch (42), and an electromagnetic actuator (44) comprising a pin (48) moved under an effect of an electromagnetic field. The pin has an end surface (50) i.e. flat surface, to contact a surface (54) of the latch to move the latch from or toward a position in which the pin immobilizes a portion with another portion. The surfaces are configured so as to realize a contact e.g. flat or sphere contact, between the pin and the latch through the surfaces. The surface of the pin defines an end surface of the pin with respect to the latch. An independent claim is also included for a system for transmission of movement of a cam to a valve.

Description

The present invention relates to transmitting the movement of at least one cam to at least one valve.

The invention applies in particular to the movement of valves of a vehicle. These valves are for example intake valves or cylinder exhaust of the engine of the vehicle. These valves can be moved via a latch or a rocker arm transmitting the cam movement (s).

To extend the optimum operating zone of a heat engine, especially when the engine is running at half load, it is known to deactivate half of the cylinders defining combustion chambers so as to increase the unit load of the cylinders remaining activated. This deactivation of the cylinders can be obtained by the neutralization of the intake and exhaust valves of said cylinders.

To neutralize these valves, it acts on the latch or the rocker arm so that the latter transmits or not the cam movement (s). US Pat. No. 6,412,461 teaches, for example, that a two-part rocker arm is used between the valve and the cam shaft, one part being able to be displaced by the cam and the other part being able to move the valve. To neutralize or not the valve, an electromagnetic actuator is used moving a latch configured to immobilize the two parts together according to its position. The actuator includes a pin dipped in a magnetic field and pressing the latch to move the latch. The contact between the pin and the latch is of the cylinder / plane type. To obtain this contact, the latch and the pin have shapes that make the manufacture of the latch and the pin relatively complicated and expensive. The object of the invention is to provide a locking device for immobilizing two portions of a system for transmitting the movement of at least one cam to at least one valve, the device comprising a latch and a pin which are easy to manufacture while by creating between them a contact generating little damage, these damages resulting in particular in terms of seizure, wear and fatigue. One of the aspects of the invention achieves this by means of a system for transmitting the movement of at least one cam to at least one valve, comprising: a first portion configured to cooperate by a first contact zone with a member integral with the valve; - a second portion configured to cooperate with at least one second contact zone with at least one cam, the first portion and the second portion being movable relative to each other, and a locking device configured to immobilize the first portion with the second portion, the locking device comprising: - a latch movable relative to the first and second portions to come to a position in which it immobilizes said portions together, and - an electromagnetic actuator comprising a pin movable under the effect of an electromagnetic field, the pin having a first surface capable of contacting a second the surface of the latch for moving the latch, the first surface and the second surface being configured so that the contact between the pin and the latch via said first and second surface is a sphere / plane contact. The system may allow: - to disconnect the valve, that is to say that the valve has two lift states whose state corresponds to a zero lift, - the valve has two lift states, each state corresponding to one non-zero lift and different from one state to another, or - that the valve has three lift states, two of these states corresponding to a non-zero lift and different from one state to another and the third corresponding state at a zero lift. A pin and a latch having a sphere / plane contact between them makes it possible to achieve a compromise between complexity and manufacturing cost on the one hand and maintaining the integrity of the pin and the latch on the other hand despite their interaction. Such contact can be made with low cost while being associated with phenomena of galling, wear and moderate fatigue. According to one embodiment of the invention, the first surface is flat and the second surface is a sphere portion. The first portion and the second portion may be rotatable relative to each other along an axis of rotation when they are not immobilized by the locking device and the center of the sphere portion may be located thereon. rotation axis.

The first and second portions may form all or part of a breakable rocker arm. The rocker is still called "rocker". The rocker arm can be pivoted to a fixed point. The first contact zone and the second contact zone may be provided at opposite ends of the rocker arm.

Alternatively, the first and the second portion may form all or part of a breakable pawl. In this case, the second portion can cooperate by a third contact zone with at least one stop, the second contact zone being disposed between the first contact zone and the third contact zone when the first portion is immobilized with the second portion. . The stop forms for example for the latch a fixed point.

The first contact zone and the third contact zone may be formed at opposite ends of the pawl while the second contact zone is formed in a median region of the pawl. Contrary to what happens with a pawl, in the case of a rocker arm, the cam does not come to press the rocker arm via a median region of the latter arranged between the fixed point, formed for example by a hydraulic catch stop of play, and the support on the element integral with the valve, but this support of the cam is in the case of the rocker arm via one end of the latter. According to any of the above embodiments, the first surface may define the end surface of the pin facing the latch and the second surface may define the end surface of the latch next to the pin. . The latch may comprise a portion, in particular cylindrical, configured for displacement by a recess in the second portion, partly into said housing and partly into a recess in the first portion to immobilize the first portion with the second portion. . The latch may thus comprise a portion received inside the first portion and a portion received inside the second portion to immobilize the latter together. The housing in the first portion can be blind while the housing in the second portion can be through. The closed end of the housing formed in the first portion may be of flared shape, for example of conical shape.

The latch may further comprise an end portion disposed outside said housing of the second portion and to which the second surface belongs. When the second surface is a sphere portion, the end portion may form a spherical cap.

The end portion of the latch may be disposed within a space delimited by a capsule attached to the second portion. A hole may be provided in the capsule to allow the pin to enter the space defined by said capsule to engage the latch. The size of this hole may be smaller than the smallest transverse dimension of the end portion of the latch, so as to prevent the latch can be removed from the transmission system. The actuator may comprise a first return member opposing the displacement generated by the magnetic field of the pin and a second return member may be provided, this second return member being configured to maintain in the housing of the second portion the part, in particular cylindrical, of the mobile latch in this housing. The second return member may be fixed firstly to the end portion of the latch and secondly to the second portion. A collar may surround the area of the surface of the second portion forming an end of the housing receiving said movable portion of the latch and the second return member may extend between said area of the surface of the second portion and the end portion. latch. The electromagnetic actuator may be of "shooter" type, that is to say that the pin translates from the outside towards the inside of the actuator when a magnetic field is generated, for example when a current flows through an electromagnet of the actuator. Alternatively, in all the above examples, the electromagnetic actuator may be of the "pusher" type, that is to say that the pin translates from the inside to the outside of the actuator when a field Magnetic is generated, for example when a current flows through the electromagnet. The electromagnetic actuator can be mounted on a support with respect to which the transmission system is movable. The actuator comprises for example a body in which are housed one or more electromagnets and this body is fixed on the support. The transmission system is preferably integrated with a heat engine, for example an internal combustion engine. The support is for example in this case the cylinder head of the engine or an insert on this cylinder head, such as a platinum. The electromagnetic actuator can be configured to move the pin in translation, in which case this actuator is called a "linear actuator". The electromagnetic actuator may be devoid of permanent magnets. The pin can be made in one piece or with several pieces rigidly coupled together.

The latch can be made in one piece or with several pieces rigidly coupled together. Another object of the invention is, according to another of its aspects, the locking device as such, this device making it possible to lock together a first portion and a second portion of a system for transmitting the movement of at least one cam at least one valve, and comprising: - a latch, and - an electromagnetic actuator comprising a pin movable under the effect of an electromagnetic field, the pin having a first surface adapted to contact a second surface of the latch to move the latch from or to a position in which it immobilizes the first portion with the second portion, the first surface and the second surface being configured so that the contact between the pin and the latch via said first and second surface is a sphere / plane contact. The locking device may include any of the features mentioned above. The invention will be better understood on reading the following description of a nonlimiting example of implementation thereof and on examining the appended drawing in which: - Figure 1 is an elevational view of a transmission system according to an exemplary implementation of the invention, - Figure 2 is a sectional view along II-II of the transmission system of Figure 1, and - Figure 3 shows a detail of the FIG. 2 will be described with reference to FIGS. 1 to 3 an exemplary implementation of the invention.

In this example, the transmission of the cam movement (s) to the valve uses a rocker but the invention also applies to the transmission of this movement via a pawl. FIG. 1 shows a rocker arm 1 pivoting relative to a support 46 (not shown in FIG. 1) about a tilting axis X. The support 46 is for example the cylinder head of a heat engine, particularly an internal combustion engine. Alternatively, the support 46 is an insert on the cylinder head of the engine, being for example a platen. In the example described, the rocker 1 comprises a first portion 2 and a second portion 3.

The first portion 2 interacts, as described below, with an element integral with a not shown valve. This element, not shown, is for example the stem of the valve. The second portion 3 interacts, as described below, with a cam, not shown, mounted on a cam shaft with or without other cams.

The first portion 2 comprises in the example shown a first lever 6 made in one piece and receiving at one end 7 a set screw 8 screwed and locked in the first lever 6 by a nut 9. clearance adjustment 8 has an axis contained in a plane perpendicular to the tilting axis X and is provided with a support foot 10 arranged to allow the first portion 2 to press the element integral with the valve with a calibrated distribution set. The end surface 11 of this support foot 10 forms a first contact zone through which the movement of the first portion 2 can be transmitted to the valve. Near its other end 13, the first lever 6 comprises a through passage of circular outer contour 12, this through passage 12 receiving as can be seen in Figures 1 and 2 a ring 14. This ring 14 is not shown in FIG. 3. As shown, a housing 15 is formed in the first lever 6 at its end 13. This housing 15 is blind in the example in question and may have a bottom 16, also called "closed end", conical . Alternatively, the housing 15 may be through, so as to allow oil and air to flow.

The second portion 3 comprises in the example shown a second lever 20 formed in one piece and receiving at one end 22 a roller 23 defining a second contact zone of the rocker 1 by which the latter can cooperate with a cam. The roller 23 is for example rotatably mounted about an axis parallel to the axis X.

The other end of the second lever 20 is formed by a recessed portion comprising two arms 29 each extending in a plane. The X axis is in the example considered normal to each of these plans. The empty space between these two arms 29 defines a housing 31 adapted to receive the portion of the first lever 6 in which is formed the through passage 12. Each arm 29 further comprises a through cut 32 formed along an axis parallel to the axis X. This cutout 32 has in the example considered the same external contour as the outer contour of the passage 12. In this way, when the first lever 6 is in place partly in the housing 31, the cutouts 32 and the passage 12 are aligned to form a housing receiving the ring 14. The inner surface 39 of the ring 14 is arranged to receive a shaft for tilting the rocker arm 1 relative to the support. An articulation in rotation along the X axis of the first portion 2 with respect to the second portion 3 can thus be obtained. As shown in Figure 2 or Figure 3, a housing 34 is formed through the second lever 20 from an outer surface thereof to the housing 31 formed between the two arms 29 and for some positions of the first portion 2 relative to the second portion, this housing 34 is aligned with the housing 15 described above. The rocker arm 1 is part of a cam movement transmission system (s) to the valve which further comprises a locking device which will now be described.

This locking device is configured to selectively immobilize the first portion 2 with the second portion 3. When these portions 2 and 3 are immobilized relative to each other, any cam movement displacing the second portion 3 also displaces the first portion 3. portion 2 and this movement is then likely to move the valve. Conversely, when the first portion 2 is movable relative to the second portion 3, the movement of the second portion 3 connected to the cam movement is not transmitted to the first portion 2, resulting in a neutralization of the valve. The locking device comprises a latch 42 and an electromagnetic actuator 44. The electromagnetic actuator 44 comprises in the example described a body 45 housed in a bore formed in the support 46. The body 45 may be force-fitted in this bore or reported by any other means on the support 46. Inside the body 45, one or more electromagnets can be arranged, and a power supply of this or these electromagnets for selectively generating a magnetic field. These electromagnets can be carried by a holding member attached to the body 45, for example by means of a spring and a nut. It is thus possible to change the position of the electromagnets. The electromagnetic actuator 44 further comprises a pin 48, configured to be displaced by the electromagnetic field in which it is dipped. This pin 48 may be made of ferromagnetic material. In the example shown, a spring 49 is provided in the actuator 44 and the displacement by the magnetic field of the pin 48 is against the restoring force exerted by the spring 49. As can be seen in the figures, the pin 48 has an end surface 50 facing the latch 42, also called "first surface". This end surface 50 allows interaction of the pin 48 with the latch 42.

The latch 42 extends along a longitudinal axis Z. As shown in the figures, the latch 42 may comprise a cylindrical portion 51 of Z axis configured to slide in the housing 34 formed in the second portion 3 to come into the housing blind 15 so as to extend partly in the first portion 2 and partly in the second portion 3. This portion 51 is extended in the example shown in the direction of the pin 48 by a portion 52 of larger transverse dimension. This part 52 can support an end portion 53. As can be seen, the end portion 53 can extend on either side of the parts 51 and 52 of the latch transversely to the Z axis, this part end portion 53 having transverse dimensions greater than those of these portions 51 and 52. The end portion 53 has a surface 54, also called "second surface", facing the pin 48 by which the latch 42 interacts with the pin 48. As shown in Figures 1 and 2, a spring 55 may be provided in the second lever 20. This spring 55 may extend between the outer surface of the second lever 20 in which is formed an end of the housing 34 and the surface 58 of the end portion 53, said surface being opposite the second surface 54. The spring 55 can extend over at least a part of its length within a space delimited by a collar 60 ' extending from s the outer surface of the second lever 20, orthogonally thereto.

The contact between the latch 42 and the pin 48 is provided by the cooperation between the first and second surfaces 50 and 54. These surfaces are configured so that the contact between the latch 42 and the pin 48 is a sphere / plane contact. In operation, this contact is lubricated by the oil mist of the environment. In the example considered, the second surface 54 is a sphere portion whose center is on the X axis of rotation of the first portion 2 relative to the second portion 3 and the first surface 50 of the latch is a plane. Still in this example, the end portion 53 is a spherical cap. The electromagnetic actuator 44 may be of the shooter or pusher type. When the electromagnetic actuator 44 is of the shooter type and a magnetic field is generated, the pin 48 is drawn towards the inside of the body 45, against the force exerted by the spring 49. In doing so, the pin 48 no longer constrains the latch 42 which is moved out of the housing 15 formed in the first lever 6 by the force exerted by the spring 55. The latch 42 is then devoid of portion received in the first lever 6. The first portion 2 and the second portion 3 are free from each other. When the magnetic field is no longer generated, the spring 49 moves the pin 48 towards the outside of the body 45 and, the force exerted by the spring 49 being greater than that exerted by the spring 55, the pin 48 then moves via the contact surfaces 50 and 54 the latch 42 in a position where the cylindrical portion 51 extends both in the first lever 6 and in the second lever 20, thereby immobilizing them. When the electromagnetic actuator 44 is of pusher type and a magnetic field is generated, the pin 48 is drawn towards the outside of the body 45, against the force exerted by the spring 49. In doing so, the pin 48 constrains, via the first and second surfaces 50 and 54, the latch 42 which is moved towards the housing 15 formed in the first lever 6 against the force exerted by the spring 55. The latch 42 then comprises a portion received in the first lever 6, so that it extends both in the first lever 6 and in the second lever 20, thereby immobilizing the first portion 2 with the second portion 3. When the magnetic field is no longer generated, the spring 49 and the spring 55 move the pin 48 inwardly of the body 45. The latch is then returned to a position where the cylindrical portion 51 extends only in the second lever 20, so that the first portion 2 is movable relative to the second por 3. As shown in the figures, a capsule 62 attached to the second lever 20 may be provided. This capsule is then arranged around the end of the housing 34. In the example, the capsule 62 is disposed around the collar 60. A hole 63 is formed in the capsule 62 to allow the passage through the latter of the pin 48. Due to the dimensions of this hole 63 relative to those of the spherical cap 53, the latch 42 is held by this capsule 62. With a sphere / plane contact according to the invention, the contact pressure between the latch 42 and the pin 48 is for example 200 MPa. At high speed, the sliding speed between the latch 42 and the pin 48 can reach 3 m / s. The product of these two sizes gives 600 MPa (m / s) for the contact between the latch 42 and the pin 48. This product is comparatively weaker than other sliding contacts present in the cylinder head, with identical lubrication conditions. .

The invention is not limited to the examples which have just been described. The invention applies for example when using a latch in place of the rocker arm. The expression "having one" should be understood as being synonymous with the expression "having at least one".

Claims (12)

REVENDICATIONS1. Locking device for immobilizing together a first portion (2) and a second portion (3) of a system for transmitting the movement of at least one cam to at least one valve, the locking device comprising: - a latch (42 ), and - an electromagnetic actuator (44) comprising a pin (48) displaceable under the effect of an electromagnetic field, the pin (48) having a first surface (50) adapted to contact a second surface (54) of the latch (42) for moving the latch (42) to or from a position in which it secures the first portion (2) with the second portion (3), the first surface (50) and the second surface (54) being configured so that the contact between the pin (48) and the latch (42) via said first (50) and second (54) surfaces is a sphere / plane contact. 2. Device according to claim 1, the first surface (50) being flat and the second surface (54) being a sphere portion. 3. Device according to claim 1 or 2, the first surface (50) defining the end surface of the pin (48) facing the latch (42) and the second surface (54) defining the end surface of the latch (42) facing the pin (48). 4. Device according to claim 3, the latch (42) comprising a cylindrical portion (51) adapted, by displacement in a housing (34) formed in the second portion (3), partially into said housing (34) and partially in a housing (15) formed in the first portion (2) for immobilizing the first portion (2) with the second portion (3). 5. Device according to claim 4, the latch (42) further comprising an end portion (53) adapted to be disposed outside said housing (34) of the second portion (3) and to which belongs the second surface (54). ). 6. Device according to claim 5, the end portion (53) forming a spherical cap. Apparatus according to any one of the preceding claims, the actuator (44) being configured so that the pin (48) translates from the outside to the inside of the actuator (44) when a field Magnetic is generated. 8. Device according to any one of the preceding claims, the actuator (44) being configured so that the pin (48) translates from the inside to the outside of the actuator (44) when a magnetic field is generated. 9. System for transmitting the movement of at least one cam to at least one valve, comprising: - a first portion (2) configured to cooperate by a first contact zone (11) with an element integral with the valve; second portion (3) configured to cooperate with at least one second contact zone (23) with at least one cam, the first portion (2) and the second portion (3) being movable relative to each other, and - the locking device according to any one of the preceding claims, the latch (42) being movable relative to the first (2) and the second (3) portion to come to a position in which it immobilizes said portions ( 2, 3) together. 10. System according to claim 9, the first (2) and the second (3) portion forming part of a breakable rocker arm. 11. System according to claim 9, the first (2) and the second (3) portion forming part of a breakable pawl. 12. System according to any one of claims 9 to 11, the actuator (44) having a first return member (49) opposing the displacement by the magnetic field of the pin (48) and the system comprising a second return member (55) configured to maintain in the housing (34) of the second portion (3) the cylindrical portion (51) of the latch (42).