KR101406613B1 - Variable valve lift system of engine and control method thereof - Google Patents

Abstract

According to the present invention, without the abnormal increase of the elastic force of a return spring returning the lock pin of a VVL mechanism, the undesired generation of a high-lift in the VVL mechanism can be prevented even in an area at a temperature less than or equal to low temperature or under a bad condition in which the viscosity of oil is raised by an oil deterioration factor such as excessive soot inside the oil; the operation of the VVL mechanism can be stably and properly operated in the whole operation area of an engine; and a smooth and stable lubrication performance for an HLA and other parts requiring lubrication can be secured, wherein the area at a temperature less than or equal to low temperature includes a room-temperature area.

Description

TECHNICAL FIELD [0001] The present invention relates to a VVL system and a control method for an engine,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a variable valve lift (VVL) system of an engine, and more particularly, to a control of a hydraulic VVL mechanism controlled by an oil control valve (OCV).

1 and 2 illustrate a structure of a conventional VVL mechanism to which the present invention is applied. A roller 502, which is in contact with a row cam 500, is rotatably mounted to the inner arm 504 And a hinge shaft 506 which surrounds the inner arm 504 and forms a hinge shaft 506. The hinge shaft 506 is connected to the hinge shaft 506 through a lobe lever 510, And a lock pin 512 for switching the state in which the lobe lever 510 and the inner arm 504 are interlocked with each other so as to protrude or sink into the inner arm 504, (HYDRAULIC LASH ADJUSTER: 515), which supports the HLA.

When the OCV is turned on, the lock pin 512 protrudes out of the elastic force of the return spring built in the inner arm 504 by the supplied oil pressure so that the loss lever 510 and the inner arm 504 The lock pin 512 is depressed inside the inner arm 504 by the return spring 520 so that the movement of the lost lever 510 is invalidated , The action of the low cam 500 acting as the roller 502 causes the inner arm 504 to relatively reduce the lift of the valve.

3 and 4 show the on / off state of the hydraulic circuit including the OCV 514 for driving the lock pin 512. When the solenoid of the OCV 514 is turned on, The oil pressure is applied to the lock pin 512 to realize a high lift state and when the OCV 514 is OFF, the hydraulic pressure supplied from the oil gallery does not act on the lock pin 512, thereby realizing a low lift state.

The orifice 516 of the hydraulic circuit is for securing the minimum hydraulic pressure to be supplied for the function of the HLA 515 and the lubrication of a part of the friction portion in the OCV 514 off state, The size is tuned to such a size that the minimum hydraulic pressure as described above can be secured.

However, since the orifice 516 can not actively control the size of the orifice 516, if the orifice 516 is formed to be relatively large so as to secure the minimum necessary hydraulic pressure in the high-temperature idle state, which is the most unfavorable hydraulic pressure supply state, In the low-temperature middle-speed region, which is an advantageous hydraulic pressure supply state, a high pressure is inevitably generated even when the OCV 514 is off.

In order to improve the high oil pressure in the OFF state of the OCV 514 as described above, a relief valve 518 is added to the line connected only in the OFF state of the OCV 514 as shown to maintain a certain low pressure state .

However, oil discharge performance through the relief valve 518 is limited in a region where the viscosity is extremely high due to an oil deterioration factor such as SOOT or the like in the oil at a low temperature or below including the normal temperature region, The protrusion of the lock pin 512 may occur unintentionally in the OFF state of the OCV 514, resulting in a high lift state.

As a conventional countermeasure for preventing the unintentional high lift state as described above, there is a method of increasing the elastic force of the return spring 520. However, in such a case, it is difficult to switch from the low-lift region to the high- The actual high-lift operation area is reduced, and the application of the VVL becomes meaningless.

It will be appreciated that those skilled in the art will appreciate that the described embodiments are provided merely for the purpose of promoting an understanding of the background of the present invention, It will not.

SUMMARY OF THE INVENTION The present invention has been conceived in order to solve the problems described above, and it is an object of the present invention to provide a VVL mechanism in which an elastic force of a return spring for returning a lock pin is not abnormally increased, The oil deterioration factor prevents unintentional high lift of the VVL mechanism even in the severe conditions where the viscosity of the oil is very high. In addition, it enables stable operation of the VVL mechanism in the entire operating range of the engine, And to provide a VVL system and a control method of an engine that can ensure a smooth and stable lubrication performance of a portion where other lubrication is required.

In order to achieve the above-mentioned object, the VVL system of the present invention engine

OCV;

A lock pin which is supplied with hydraulic pressure under the control of the OCV and is operated to overcome the elastic force of the return spring;

An orifice through which the oil supplying the hydraulic pressure to the OCV and the lock pin passes;

An oil temperature sensor provided to measure the temperature of the oil supplied to the OCV and the lock pin;

A controller configured to receive the signal of the oil temperature sensor and to control the OCV;

A map of oil pressures according to input variables including oil temperature and engine speed;

And,

The orifice is formed to have a size capable of securing the minimum hydraulic pressure to be supplied for the function of the HLA and the lubrication of some frictional portions, in the operation region where the hydraulic supply state of the engine is the best;

The controller receives the oil temperature and the engine speed from the oil temperature sensor and calculates the oil pressure from the oil pressure map. If the oil pressure is such that the elastic force of the return spring can not be overcome even if the oil pressure acts on the lock pin, And to turn on the OCV.

In order to achieve the above object, a VVL system control method of an engine of the present invention includes:

An oil temperature measuring step of measuring the OCV of the VVL mechanism and the temperature of the oil supplied to the lock pin with an oil temperature sensor;

An oil pressure calculation step of calculating an oil pressure from the map according to the oil temperature and the engine speed measured in the oil temperature measurement step;

A step of forcing the OCV to turn on when the force acting on the lock pin by the oil pressure is smaller than the elastic force of the return spring elastically supporting the lock pin as a result of the oil pressure calculation step as a result of the oil pressure calculation step.

And a control unit.

The present invention can provide a VVL mechanism in which the viscosity of oil is extremely high due to oil deterioration factors such as SOOT or the like in a region below a low temperature including a room temperature region without abnormally increasing the elastic force of a return spring returning the lock pin of the VVL mechanism. Prevents unintentional high lift of VVL mechanism, ensures stable operation of VVL mechanism in the entire operating range of the engine, and ensures smooth and stable lubrication performance of HLA and other parts requiring lubrication. .

1 and 2 are views showing the structure of a conventional VVL mechanism to which the present invention is applied,
3 shows a hydraulic circuit of a conventional VVL system, which is a drawing of an OCV on state,
4 shows a hydraulic circuit of a conventional VVL system, which is a drawing of the OCV off state,
5 is a view showing a VVL system configuration of an engine according to the present invention,
6 is a diagram showing an embodiment of a method for controlling a VVL system of an engine according to the present invention.

5, an embodiment of the VVL system of the present invention engine comprises an OCV 1; A lock pin 5 which is supplied with hydraulic pressure under the control of the OCV 1 and is operated to overcome the elastic force of the return spring 3; An orifice 7 through which the oil for supplying hydraulic pressure to the OCV 1 and the lock pin 5 passes; An oil temperature sensor 9 for measuring the temperature of the oil supplied to the OCV 1 and the lock pin 5; A controller (11) configured to receive the signal of the oil temperature sensor (9) and to control the OCV (1); And a map (13) of oil pressures according to input variables including oil temperature and engine speed.

Here, the orifice 7 is formed to have a size capable of securing the minimum hydraulic pressure to be supplied for the function of the HLA and the lubrication of a part of the friction portion in the operation region where the hydraulic pressure supply state of the engine is the best, Receives the oil temperature and the engine speed from the oil temperature sensor 9 and calculates the oil pressure from the oil pressure map 13 so that the return spring 3 can be operated even if the oil pressure acts on the lock pin 5. [ The OCV 1 is turned on when the elastic force of the OCV 1 can not be overcome.

That is, the other configuration of the VVL system is the same as the conventional one, but as described above, the orifice 7 is reduced in size so as to be able to supply the required minimum hydraulic pressure under the condition that the hydraulic pressure supply condition of the engine is the best , The controller 11 measures the temperature of the oil pumped from the oil pump through the oil temperature sensor 9 and receives the engine speed at that time to calculate the oil temperature and the engine speed from the map 13 When the calculated oil pressure is judged to be small enough not to drive the lock pin 5, the OCV 1 is turned on so that the oil pressure can be smoothly supplied to the friction portion requiring HLA and other lubrication The lock pin 5 is not driven.

Therefore, without causing the elastic force of the return spring 3 for returning the lock pin 5 of the VVL mechanism to abnormally increase, it is possible to prevent the oil from leaking out of the oil due to an oil deterioration factor such as SOOT, It is possible to prevent unintentional high lift of the VVL mechanism even in extreme high viscosity conditions as well as to ensure stable operation of the VVL mechanism in the entire operating range of the engine and to ensure smooth operation of the HLA and other parts requiring lubrication It is possible to secure a stable lubrication performance, to sufficiently secure the operating range of the VVL mechanism, and to improve the durability of the HLA.

The operation region in which the hydraulic pressure supply state of the engine is the best is in the low temperature medium speed region of the engine and the engine is driven at a sufficiently low temperature and medium speed so that the supply of the relatively large amount of oil is not required Also, the oil pump associated with the engine means that it is driven at a speed capable of pumping sufficient flow rate of oil.

The oil temperature sensor 9 may be installed on a hydraulic line such as an oil gallery or near the OCV valve, and the map 13 of the oil pressure according to the oil temperature and the engine speed may be predetermined, Or may be stored in the controller 11 and connected to the controller 11 so as to be accessible.

It is also possible that the map 13 of the oil pressure constitutes a map of the oil temperature, the engine speed and the oil pressure according to the load, with the load of the engine being an additional input variable.

An embodiment of the control method for controlling the VVL system of the engine of the present invention configured as described above is characterized in that the temperature of the oil supplied to the OCV (1) and the lock pin (5) of the VVL mechanism, (10) of measuring an oil temperature with the oil temperature sensor (9); An oil pressure calculation step (S20) of calculating an oil pressure from the map (13) according to the oil temperature and the engine speed measured in the oil temperature measurement step (S10); If the force acting on the lock pin 5 due to the oil pressure is smaller than the elastic force of the return spring 3 elastically supporting the lock pin 5 as a result of the oil pressure calculation step S20, And an OCV forced operation step S30 for turning on the OCV 1.

That is, the controller 11 normally receives the engine speed and the engine load, and determines the VVL operation region for each engine operation region accordingly. Then, when the valve lift operation is required, the OCV 1 is turned on, The control unit 10 controls the OCV 1 to be turned off when the lift operation is more suitable. In addition, the control unit 10 controls the OCV 1 to be controlled based on the estimated value obtained from the map 13 according to the input variables such as the oil temperature and the engine speed measured by the oil temperature sensor 9 When the force acting on the lock pin 5 by the hydraulic pressure is smaller than the elastic force of the return spring 3 elastically supporting the lock pin 5, the OCV 1 is turned on, So that the hydraulic pressure can be supplied.

That is, in the forced OCV operation step S20, the OCV 1 is controlled independently regardless of the speed of the engine or the implementation of the VVL function depending on the load, so that even in an oil supply situation in which the orifice alone is insufficient, So that sufficient oil can be supplied to the HLA.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the following claims It will be apparent to those of ordinary skill in the art.

One; OCV
3; Return spring
5; Rockpin
7; Orifice
9; Oil temperature sensor
11; controller
13; Map
S10; Oil temperature measurement step
S20; Oil pressure calculation step
S30; OCV forced operation step

Claims (5)

OCV (1);
A lock pin 5 which is supplied with hydraulic pressure under the control of the OCV 1 and is operated to overcome the elastic force of the return spring 3;
An orifice 7 through which the oil for supplying hydraulic pressure to the OCV 1 and the lock pin 5 passes;
An oil temperature sensor 9 for measuring the temperature of the oil supplied to the OCV 1 and the lock pin 5;
A controller (11) configured to receive the signal of the oil temperature sensor (9) and to control the OCV (1);
A map (13) of oil pressures according to input variables including oil temperature and engine speed;
And,
The orifice 7 is formed in a size that can ensure the minimum hydraulic pressure to be supplied for the function of the HLA and the lubrication of a part of the frictional portion in the operation region where the hydraulic supply state of the engine is the best;
The controller 11 receives the oil temperature and the engine speed from the oil temperature sensor 9 and calculates the oil pressure from the oil pressure map 13 so that even if the oil pressure acts on the lock pin 5, If the elastic force of the return spring 3 can not be overcome, the OCV 1 may be turned on
The VVL system of the engine. The method according to claim 1,
The operation region in which the hydraulic pressure supply state of the engine is the best is in the low temperature medium speed region of the engine and the engine is driven at a sufficiently low temperature and medium speed so that the supply of the relatively large amount of oil is not required Also, the oil pump connected to the engine is driven at a speed capable of pumping a sufficient amount of oil
The VVL system of the engine. The method according to claim 1,
The map 13 of the oil pressure assumes the load of the engine as an additional input variable and is stored in advance in a memory location accessible by the controller
The VVL system of the engine. An oil temperature measuring step (S10) of measuring the temperature of the oil supplied to the OCV (1) and the lock pin (5) of the VVL mechanism by the oil temperature sensor (9);
An oil pressure calculation step (S20) of calculating an oil pressure from the map (13) according to the oil temperature and the engine speed measured in the oil temperature measurement step (S10);
If the force acting on the lock pin 5 due to the oil pressure is smaller than the elastic force of the return spring 3 elastically supporting the lock pin 5 as a result of the oil pressure calculation step S20, (S30) for turning on the OCV 1;
Wherein the VVL system control method comprises the steps of: The method of claim 4,
In the OCV forced operation step S30, the OCV 1 is independently controlled independently of the implementation of the VVL function depending on the speed of the engine or the load
And the VVL system control method of the engine.

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