WO2008138583A1

WO2008138583A1 - Gas exchange valve actuation device having adjustable spring force

Info

Publication number: WO2008138583A1
Application number: PCT/EP2008/003802
Authority: WO
Inventors: Marcus Hergert; Marc Oliver Wagner; Harry Wolf
Original assignee: Daimler Ag
Priority date: 2007-05-15
Filing date: 2008-05-10
Publication date: 2008-11-20
Also published as: DE102007022652A1

Abstract

The invention relates to a gas exchange valve actuation device having a spring unit (10) and a brake unit (11). According to the invention, the brake unit (11) has a unit provided for adjusting the spring force of the spring unit (10).

Description

GAS CHANGING VALVE ACTUATING DEVICE WITH ADJUSTABLE SPRING POWER

The invention relates to a Gaswechselventilbetätigungs- device according to the preamble of patent claim 1.

Gas exchange valve actuation devices are already known which have a spring unit and a brake unit. The spring unit is intended to close a valve and keep it closed until it is reopened by a camshaft.

1

The invention is in particular the object of providing a brake unit with improved braking performance. The object is achieved in each case by the features of the independent claims, wherein further embodiments of the invention can be taken from the subclaims.

The invention relates to a Gaswechselventilbetätigungs- device with a spring unit and a brake unit.

It is proposed that the brake unit has a unit which is provided to adjust a spring force of the spring unit. By "setting" is intended in particular a lowering and / or increasing the spring force of the spring unit, preferably in a closed state a gas exchange valve to be understood. In particular, a "braking unit" is to be understood as a unit which uses the energy losses occurring through a targeted gas exchange valve control to achieve a braking power.

By a corresponding inventive design, the spring force of the spring unit can be adjusted and increased in particular in a braking operation, so that at high pressures in an exhaust system, the gas exchange valve can be kept securely closed. Pressure reductions or pressure limitations in the exhaust system can be avoided and it can be a high braking performance while maintaining advantageous limits, as they apply outside of a braking operation can be achieved. By "limit values" are meant in particular limit values of the gas exchange valve actuating device, such as nozzle nozzle temperature, valve forces, Hertzian pressures and / or valve attachment speeds.

The adjustment of the spring force of the spring unit can be effected by means of various mechanisms, in particular by means of actuators considered appropriate by those skilled in the art, wherein in a design by means of a hydraulic actuator, a structurally particularly simple solution can be achieved. Preferably, the spring unit serves as a reset unit of the hydraulic actuator, whereby additional components, space, weight and assembly costs can be saved.

It is further proposed that the unit comprises a pressure intensifier designed to amplify an operating medium pressure in the unit, whereby desired Operating medium pressures in the unit, in particular in the hyd ^¬ raulischen actuator, can be easily achieved.

In a further embodiment of the invention it is proposed that the unit has a Nachfördereinheit, which is intended to track operating means, whereby advantageously a leakage can be compensated continuously. The Nachfördereinheit may be formed by a separate unit or advantageously at least partially integral with the pressure booster, whereby additional components, space, weight and assembly costs can be saved.

It is further proposed that the unit comprise a stop means intended to limit a setting path of the unit and / or a pressure relief valve intended to limit an operating medium pressure in the unit. In particular, a defined adjustment range can be easily achieved by appropriate means.

Preferably, the unit comprises a check valve disposed in a resource supply channel of the unit, which opens up further possibilities for setting the unit.

If the unit is intended to set more than two spring settings, exact adjustments can be achieved and unnecessary loads avoided.

Preferably, the unit is provided to adjust the spring force of the spring unit depending on at least one operating parameter, in particular depending on an operating parameter, which is formed by an engine speed and / or an engine oil pressure. By a corresponding embodiment can be achieved advantageously adapted to the operating parameters setting.

It is further proposed that the spring unit comprises at least two spring means, whereby an increased adjustment can be achieved.

In a further embodiment of the invention, it is proposed that a spring force of at least one spring means is independent of the unit. This allows further adjustment options for the spring unit can be achieved.

Furthermore, the brake unit preferably has at least one switching means which is provided for activating the unit. As a result, the spring force of the spring unit can advantageously be selectively adjusted for at least one braking operation, wherein "for" means in particular before and / or during a braking operation, so that at least in a braking operation another spring force of the spring unit is present as outside the braking operation Loading in particular of the unit and / or the spring unit can be achieved.

In a further embodiment of the invention, the gas exchange valve actuating device comprises a valve clearance compensation unit. It is particularly advantageous if the valve clearance compensation unit is designed as a hydraulic unit. A "hydraulic valve clearance compensation unit" is to be understood as a unit which has, in particular, a piston and a cylinder unit and which is preferably designed to be self-regulating. Further advantages emerge from the following description of the drawing. In the drawing, an embodiment of the invention is shown. The description and claims contain numerous features in combination. The person skilled in the art will expediently also consider the features individually and combine them into meaningful further combinations.

Showing:

1 shows a detail of a gas exchange valve device outside a braking operation,

Fig. 2, the gas exchange valve device during the braking operation and

Fig. 3 spring characteristics over a valve.

FIG. 1 shows a detail of a gas exchange valve actuating device outside a braking operation. The gas exchange valve actuating device comprises a spring unit 10 with a spring means 20 formed by a helical compression spring and a brake unit 11. The brake unit 11 comprises a control unit 26, a cam follower unit 27 and a unit 12, which is provided to a spring force of the spring unit 10 and that of To adjust spring means 20.

The unit 12 comprises a hydraulic actuator 13, which is supplied via a pressure booster 14 with resources. The pressure booster is formed integrally with a Nachför- dereinheit 15, which tracks in case of leakage resources.

The hydraulic actuator 13 comprises an actuator piston 23, which is arranged in a cylinder head of an internal combustion engine and whose setting path is limited by a stop means 16 is. The limitation of an operating ^medium pressure in a working ^fluid pressure ^chamber 24 of the hydraulic actuator 13 he follows ^¬ by a pressure relief valve 17th

The brake unit 11 comprises a switching means 22, the unit 12 is activated in egg ^¬ nem braking operation, ie the operating medium-pressure chamber 24 is filled ^¬ with a resource ge and the actuator piston 23 moves against the spring force of the spring unit 10, whereby the spring force of the spring unit 10 is increased to a gas exchange valve 25.

The spring means 20 is supported at a first end on the actuator piston 23. With a second end, the spring means 20 is supported on a spring plate which is fixed to a shaft 28 of the gas exchange valve 25.

If, in a braking operation, the gas exchange valve 25 is opened by a cam follower unit 27 of the brake unit 11, the actuator piston 23 is retracted due to the equilibrium of forces between the spring force of the spring unit 10 and the operating medium pressure of the hydraulic actuator 13 until the actuator piston 23 has retracted completely. From this point, the spring force of the spring unit 10 increases. A resulting spring characteristic B is shown in FIG. In comparison, in Figure 3, a spring characteristic A of the spring unit 10 is shown outside the braking operation.

Further, the unit 12 may include a check valve 18 disposed in a resource supply passage 19 of the unit 12 and preventing operating fluid from flowing back toward the switching means 22. This creates a parallel to the spring characteristic A shifted spring characteristic R (Figure 3). As a result of different operating medium pressures in the operating medium pressure space 24, the unit 12 can set more than two spring settings of the spring unit 10. The adjustment of the actuator piston 23 is given by the resource pressure and leads to different spring characteristics of the spring unit 10, not shown.

The unit 12 adjusts the spring force of the spring means 20 depending on an operating parameter. This operating parameter is formed by an engine oil pressure. The operating medium pressure of the hydraulic actuator 13 is set via this operating parameter. Alternatively, other operating parameters which appear reasonable to the person skilled in the art can also be used, such as, in particular, an operating parameter formed by an engine speed.

The spring unit 10 consists of a spring means 20 whose spring force is adjusted via the unit 12. Alternatively, the spring unit 10 may also comprise two spring means 20, 21, wherein it is then provided that a spring force of the spring means 21 is independent of the unit 12, as indicated in FIG.

Between the cam follower unit 27 and the gas exchange valve 25, a conventional hydraulic valve play compensation unit 29 is arranged with a piston and cylinder unit not shown in detail, which compensates a valve clearance of the gas exchange valve 25 itself regulating.

When the braking operation is completed, the operating medium pressure is reduced and the spring unit 10, which serves as a restoring unit, returns the actuator piston 23 to its initial position.

Claims

claims

1. Gas exchange valve actuating device with at least one spring unit (10) and a brake unit (11), characterized in that the brake unit (11) has a unit (12) which is provided to adjust a spring force of the spring unit (10).

2. Gas exchange valve actuating device according to claim 1, characterized in that the unit (12) has at least one hydraulic actuator (13).

3. Gas exchange valve actuating device according to claim 1 or 2, characterized in that the spring unit (10) serves as a restoring unit of the hydraulic actuator (13).

4. Gas exchange valve actuating device according to one of the preceding claims, characterized in that the unit (12) comprises a pressure booster (14) which is intended to a resource pressure in the Unit (12) to reinforce.

5. Gas exchange valve actuating device according to one of the preceding claims, characterized in that the unit (12) has a Nachfördereinheit (15) which is intended to track operating means.

6. Gas exchange valve actuator according to one of the preceding claims, characterized in that the unit (12) comprises a stop means (16) which is intended to limit a Einstellweg.

7. Gas exchange valve actuating device according to one of the preceding claims, characterized by a pressure relief valve (17) which is provided to a

Limit operating fluid pressure in the unit.

8. Gas exchange valve actuator according to one of the preceding claims, characterized in that the unit (12) comprises a check valve (18) which is arranged in a Betriebsmittelzulaufkanal (19) of the unit (12).

9. Gas exchange valve actuating device according to one of the preceding claims, characterized in that the unit (12) is provided to adjust more than two Fe ^¬ dereinstellungen.

10. Gas exchange valve actuating device according to one of the preceding claims, characterized in that the unit (12) is provided to adjust the spring force of the spring unit (10) depending on at least one operating ^¬ parameters.

11. Gas exchange valve actuating device according to claim 10, characterized in that the operating parameter is formed by an engine speed and / or by an engine oil pressure.

12. Gas exchange valve actuating device according to one of the preceding claims, characterized in that the spring unit (10) comprises at least two spring means (20,21).

13. Gas exchange valve actuating device according to claim 12, characterized in that a spring force of at least one spring means (21) is independent of the unit (12).

14. Gas exchange valve actuating device according to one of the preceding claims, characterized in that the brake unit (11) has at least one switching means (22) which is provided for activating the unit (12).

15. Gas exchange valve actuating device according to one of the preceding claims, characterized by a valve clearance compensation unit (29).

16. Gas exchange valve actuating device according to claim 15, characterized in that the valve play compensation unit (29) is designed as a hydraulic unit.

17. Braking method with a Gaswechselventilbetätigungs- device, in particular according to one of the preceding claims, characterized in that the spring force of the spring unit (10) for at least one

Braking operation is adjusted.