KR20080043521A - Continuous variable valve lift system using roller rocker arm type - Google Patents

Abstract

A continuous variable valve lift system using a roller rocker arm is provided to ensure a compact layout by simplifying the structure of a continuous variable valve lift system. A continuous variable valve lift system using a roller rocker arm comprises a cam(10) of a cam shaft(1) that rotates by driving force of an engine. A time change arm(20) is mounted at a rocker arm shaft(2) and rotates together with the cam of the cam shaft. A base arm is mounted at the rocker arm shaft and vertically moves as the cam of the cam shaft rotates. A valve(40) is opened and closed by the vertical movement of the base arm. A lost motion arm(50) is mounted at the rocker arm shaft to control lift timing and duration of the base arm according to rotary movement of the cam of the cam shaft.

Description

Continuous Variable Valve Lift system using Roller Rocker Arm Type}

1 is a view showing a variable valve timing lift apparatus of a conventional engine.

Figure 2 is an exploded perspective view showing a continuous variable valve lift system using a roller rocker arm type according to the present invention.

Figure 3 is a perspective view showing a continuously variable valve lift system using a roller rocker arm type according to the present invention.

Figure 4 is a side view showing a continuous variable valve lift system using a roller rocker arm type according to the present invention.

* Brief description of symbols for the main parts of the drawings *

1. Camshaft 2: Rocker Arm Shaft

10: cam 20: time change arm

30: base arm 40: valve

42: contact portion 50: lost motion arm

52: lost motion spring 52-1: connecting member

52-2: force transmission member 52-3: operating member

53: protrusion 54: lost motion bearing

56: lost motion return spring 60: eccentric cam

The present invention relates to a continuous variable valve lift system using a roller rocker arm type, and more particularly, by using one rocker arm axis without adding an axis, the lifting, duration, and timing of the variable valve of a simple and robust structure can be changed. A continuously variable valve lift system using a roller rocker arm type.

In general, the valve lift of the engine is a mechanism for changing the rotational movement of the camshaft up and down, the conventional variable valve timing lift device is rotated by the camshaft 100 receives the power transmission by the driving force of the engine as shown in FIG. The low speed cam 200 and the high speed cam 300 are arranged, and the first rocker arm 400, the intermediate rocker arm 500, and the first, which repeatedly transmits the rotational movement of these cams 200, 300 up and down. 2 rocker arm 600 is provided, the hydraulic piston device is built in the rocker arms (400, 500, 600).

When the engine speed is low in the above state, the intake and exhaust valves 700 and 800 are operated by the primary low speed cam 200 installed in the camshaft 100.

When the rotation speed of the engine reaches the high rotation range, the secondary valve is operated to operate the high speed cam 300 by the hydraulic piston device to change the valve lift and timing.

In such a conventional variable valve lift apparatus, two low speed cams 200 and a high speed cam 300 must be installed together on the cam shaft 100, and the first rocker arm 400 and the middle rocker on the rocker arm shaft. Since the arm 500 and the second rocker arm 600 have to be installed, not only the increase in the number of parts can be achieved, but also the variable control can not be performed without permission. Will have.

In addition, the conventional lift cam cannot change the valve lift and the duration, and the fixed lift and the duration must be fixed at a specific RPM, thereby optimizing fuel economy and output.

Therefore, competitors are actively developing mechanisms that enable the above functions. For example, BMW's Valvetronic (not shown) type is equipped with a mechanism that can change the valve lift in actual engines. Another valvetronic that will change lift and duration is planned to be developed and mass produced.

However, such a mechanism suffers from the following problems.

first. The competitors of the present technology attempt to optimize fuel economy and output by changing the valve lift, which is a product, but the variable valve lift systems have been found to have a very small practical effect compared to the existing expected effects. For example, in the case of EMV, the valve lift is the same, but the valve duration is variable to show a greater effect.

second. Conventional continuously variable valve lift mechanisms are complicated in structure and have various problems to be solved in order to implement a real system, and are difficult to apply to a real engine, and are currently being mass-produced in consideration of considerable cost only by BMW.

third. In the conventional continuous variable valve lift mechanism, as the valve lift becomes smaller, the opening speed of the valve decreases, which impedes air intake, which acts as an obstacle to the flow of intake air, thereby degrading the filling efficiency of the engine. .

fourth. Even if the technology of the conventional continuous variable valve lift mechanism is applied, there is considerable cost and considerable difficulty in engine development.

An object of the present invention for solving the above problems is to use a roller rocker arm type that can change the lifting, duration, and timing of the variable valve of a simple and robust structure by using one rocker arm axis without the addition of a separate axis. It is to provide a continuously variable valve lift system.

Roller rocker arm type for simultaneously changing the lifting, duration and timing of the engine valve by using one rocker arm, according to an embodiment of the present invention for achieving the above object A continuously variable valve lift system comprising: a cam of a camshaft rotating by receiving a driving force of an engine; A time change arm mounted on the rocker arm and rotating by cam rotation of the cam shaft; A base arm mounted on the rocker arm shaft to move up and down by cam rotation of the cam shaft; A valve opened and closed by vertical movement of the base arm; And a lost motion arm mounted on the rocker arm shaft to control the lift timing and the duration of the base arm by cam rotational movement of the cam shaft.

According to an embodiment of the present invention, the lost motion arm is mounted on both sides of the lower side and receives the rotational movement of the cam to apply a force to the base arm, but the opening and closing duration can be adjusted by controlling the lifting and timing of the valve And a lost motion spring mounted on the lost motion spring, two lost motion bearings mounted on the lost motion spring to generate spring force, and a lost motion return spring mounted on the lower part of the protrusion to restore the lost motion arm to its original position. It is configured by.

According to an embodiment of the present invention, the lost motion spring is connected to the two springs on both sides, the connection member is mounted so as to provide a force, and by providing the elastic force by the force of the connection member to double the force The force transmission member for transmitting and one side is opened to enable the lost motion bearing to be easily mounted, and the actuating member for allowing the lost motion arm to move upward under the force of the force transmission member is integrally formed.

According to an embodiment of the present invention, a portion of the base arm and the contact portion of the valve to contact each other is made in a curved shape.

According to an embodiment of the present invention, the rocker arm axis and the time change arm are coupled to each other by an eccentric cam.

Hereinafter, a preferred embodiment of a continuous variable valve lift system using a roller rocker arm type according to the present invention will be described with reference to the accompanying drawings.

Figure 2 is an exploded perspective view showing a continuous variable valve lift system using a roller rocker arm type according to the present invention, Figure 3 is a combined perspective view showing a continuous variable valve lift system using a roller rocker arm type according to the present invention, Figure 4 is a side view showing a continuous variable valve lift system using a roller rocker arm type according to the present invention.

As shown in the figure, a roller rocker arm type for simultaneously changing the lifting, duration and timing of an engine valve by using one rocker arm shaft 2 according to the present invention The continuous variable valve lift system using the cam 10, the time change arm 20, the base arm 30, the valve 40, the lost motion arm 50, and the eccentric cam 60.

One side of the cam 10 protrudes and is mounted on the cam shaft 1 so as to be eccentrically rotated by receiving a driving force of the engine.

As the cam shaft 1 rotates, the cam 10 also rotates at the same time to drive the time change arm 20 which is in contact with the cam shaft through its rotational force.

The time change arm 20 is mounted on the rocker arm shaft 2 and is coupled to the eccentric cam 60.

The time change arm 20 serves to transmit the rotational force of the cam 10 to the rocker arm shaft 2.

In addition, the time change arm 20 is mounted to the rocker arm shaft 2 by the eccentric cam 60 to control and change the lift timing and duration of the engine valve 40 to be opened and closed by the rocker arm shaft 2. Play a role.

The base arm 30 is mounted on the rocker arm shaft 2 to receive the eccentric cam 60 by rotating the cam 10 of the cam shaft 1 to open and close the valve 40 while moving up and down. do.

In this case, the portion of the base arm 30 and the contact portion 42 of the valve 40 is in contact with each other, as shown in Figure 4, it is preferable to be made in a curved shape.

Therefore, since the angle change between the base arm 30 and the cam 10 occurs according to the phase change of the base arm 30 by the rotation of the rocker arm shaft 2, the end of the base arm 30 is connected to the valve ( The timing at which the upper end of the 40 is pressed is variable so that the timing of opening and closing the valve 40 can be adjusted.

The base arm 30 controls the lifting timing of the engine valve 40 through the eccentric cam 60 and the time change arm 20 subjected to the rotational movement of the cam 10 so that the opening and closing duration can be adjusted. Play a role.

The valve 40 is the base arm 30 through the eccentric cam 60 and the time change arm 20 to convert the rotational movement of the cam 10 and the rocker arm shaft 2 to the vertical movement as described above It is opened and closed by.

That is, the lift timing and duration for opening and closing the valve 40 are achieved by the eccentric cam 60, the time change arm 20, the base arm 30, and the lost motion arm 50 to be described next. .

The lost motion arm 50 is mounted on the rocker arm shaft 2 to receive the cam 10 rotational movement of the cam shaft 1 through the eccentric cam 60 and the time change arm 20. Control the timing and duration of the lift.

The lost motion arm 50 includes a lost motion spring 52, a lost motion bearing 54, and a lost motion return spring 56.

As shown in FIG. 2, the lost motion spring 52 is connected to two springs on both sides, and is connected to the connecting member 52-1 so as to be provided with a force, and the connecting member 52-1. The force transmission member 52-2 which receives the force by the force and provides the elastic force and doubles the force and transmits the force transmission member 52-2, and one side is opened so that the lost motion bearing 54 can be easily mounted and the force transmission member 52- The actuating member 52-3 which enables the lost motion arm 50 to move upward under the force of 2) is integrally formed.

The lost motion spring 52 is mounted on both lower sides of the lost motion arm 50 to apply a force to the base arm 30 by receiving the rotational movement of the cam 10, thereby controlling lift tightening and duration of the valve. The opening and closing duration of the valve 40 is mounted to be adjustable.

The lost motion bearing 54 is composed of two, it is mounted to the lost motion spring 52 serves to allow the spring force to occur.

The lost motion return spring 56 is mounted under the lost motion arm 50 protrusion 53 to restore the lost motion arm 50 to its original position.

Looking briefly at the operating state of the continuous variable valve lift system using a roller rocker arm type consisting of the above configuration.

When the engine is operated, the camshaft 1 receives the driving force thereof, and the cam 10 transmits the rotational force to the rocker arm shaft 2.

Looking at the process of transmitting the rotational force of the cam 10 to the rocker arm shaft 2, the time change arm 20 and the eccentric cam 60 in contact with the cam 10 is rotated. Thereafter, the rocker arm shaft 2 coupled to the time change arm 20 is rotated by the rotation of the eccentric cam 60, and the lost motion arm 50 is operated by the rotational force.

When the lost motion arm 50 is operated, the base arm 30 coupled thereto controls the opening and closing of the valve 40 by moving up and down, but through the lost motion spring 52, and changing the eccentric operation time. The lift timing and duration of the valve 40 can be adjusted and changed through the arm 20.

Through the configuration and operation as described above, the continuous variable valve lift system according to the present invention can be implemented in the same head height of the conventional in a compact design, by using a single rocker arm shaft without the addition of a separate shaft This is possible, as well as changing the lift timing and duration of the valve at the same time, there is an advantage that easy to manufacture each part.

Although the above has been shown and described with respect to the preferred embodiments of the present invention, the present invention is not limited to the above-described embodiment, in the technical field to which the present invention pertains without departing from the spirit of the invention as claimed in the claims. Various modifications can be made by those skilled in the art, and such changes will fall within the scope of the claims set forth.

According to the continuous variable valve lift system using the roller rocker arm type according to the present invention as described above, the following effects can be obtained.

first. The simple mechanism and structure improve the convenience of securing a compact layout in design compared to other variable mechanisms.

second. The number of moving parts is small compared to other instruments, and it can be directly combined with existing developed parts, which reduces the parts / processes.

third. Valve lift, duration and timing can be adjusted at each PM and load condition, so even torque and output improvement in all areas is expected. To improve performance.

Claims (5)

In the continuously variable valve lift system using a roller rocker arm type for simultaneously changing the lifting, duration and timing of the engine valve by using one rocker arm, A cam 10 of the cam shaft 1 which is rotated by receiving a driving force of the engine; A time change arm (20) mounted to the rocker arm shaft (2) to rotate by rotation of the cam (10) of the cam shaft (1); A base arm (30) mounted to the rocker arm shaft (2) to move up and down by rotation of the cam (10) of the cam shaft (1); A valve 40 opened and closed by the vertical movement of the base arm 30; And And a lost motion arm (50) mounted to the rocker arm shaft (2) to control the lift timing and duration of the base arm (30) by rotating the cam (10) of the cam shaft (1). Continuously variable valve lift system using roller rocker arm type. The method of claim 1, wherein the lost motion arm 50, Lost motion spring 52 mounted on both sides of the lower part to apply the force to the base arm 30 by receiving the rotational movement of the cam 10, and to control the lifting and timing of the valve to adjust the opening and closing duration 52 )and, Two lost motion bearings 54 mounted to the lost motion spring 52 to allow a spring force to be generated; A continuous variable valve lift system using a roller rocker arm type, comprising a lost motion return spring (56) mounted on a lower portion of the protrusion (53) to restore the lost motion arm (50) to its original position. The method of claim 2, wherein the lost motion spring 52 is connected to the two springs on both sides, the connection member 52-1 is mounted so as to provide a force and by the connection member 52-1 The force transmission member 52-2 which receives the force and provides the elastic force to double and transmit the force, and one side is opened so that the lost motion bearing 54 can be easily mounted and the force transmission member 52-2. Continuous variable valve lift system using a roller rocker arm type, characterized in that the actuating member (52-3) to be able to move upwards by the lost motion arm (50) is formed integrally. The continuous variable valve lift system using a roller rocker arm type according to claim 1, wherein a portion of the base arm (30) and the contact portion (42) of the valve (40) is in a curved shape is formed. 2. The continuously variable valve lift system according to claim 1, wherein the rocker arm shaft (2) and the time change arm (20) are coupled to each other by an eccentric cam (60).

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