KR100836917B1 - Structure of cam follower for variable valve lift apparatus - Google Patents

Abstract

A cam follower structure of a variable valve lift apparatus is disclosed. The cam follower structure of the disclosed variable valve lift apparatus includes an outer body; An inner body installed to contact the valve in the outer body; A locking pin installed on the inner body and the outer body such that the inner body and the outer body are integrated with each other; And a lost motion spring installed on the locking pin to control the outer body during low lift.

According to the present invention, it is possible to control the outer body even when the inner body and the outer body move independently during low lift.

Cam Followers, Low Lift, VVL

Description

CAM FOLLOWER FOR VARIABLE VALVE LIFT APPARATUS}

1 is a perspective view schematically showing the configuration of a cam follower structure of a variable valve lift apparatus according to the prior art.

Figure 2 is a perspective view schematically showing the configuration of the cam follower structure of the variable valve lift apparatus according to the present invention.

<Description of the symbols for the main parts of the drawings>

31.Outer Body

32. Inner Body

32a. stopper

33. Locking Pin

34. Lost Motion Spring

The present invention relates to a cam follower structure of a variable valve lift apparatus, and more particularly, to a cam follower structure of a variable valve lift apparatus for enabling a valve lift to be implemented as a low lift and a high lift.

VVL (Variable Valve Lift) engine or CDA (Cylinder Deactivation) engine controls the movement of cam follower, which transfers the cam movement to the valve, to adjust the lift of the valve or prevent the valve from operating. .

That is, the cam follower used in such an engine consists of a cam follower which always moves according to the profile change of the cam, and a valve actuating part which transmits this movement to the stem end of the valve. It has a mechanism that allows the valve lift to be adjusted by moving together or by moving apart from each other.

On the other hand, in a typical swing arm method, a valve lift is always formed by applying one cam lobe to one valve.

In addition, the outer body 23 and the inner body 22 may be separated and operated from the cam followers of the swing arm type variable valve lift apparatus VVL as shown in FIG. 1.

In this case, since the inner body 22 is in contact with the valve, the movement of the inner body 22 can be controlled by a valve spring.

However, when the outer body 23 is locked by the inner body 22 and the locking pin 24, the control of the force of the valve spring like the inner body 22 is controlled. (Under control) in the case of low lift (low), the outer body 23 and the inner body 22 operates independently so the device that controls the movement of the outer body 23 Is needed.

In FIG. 1, reference numeral 21 denotes a roller in contact with a low lift cam, 25 denotes a pad in contact with a high lift cam, and 28 denotes a spring.

The present invention has been made to solve the above problems, to provide a cam follower structure of a variable valve lift device that can control the outer body even when the inner body and the outer body moves independently during low lift. There is this.

Cam follower structure of the variable valve lift apparatus of the present invention for achieving the above object, the outer body; An inner body installed to contact the valve in the outer body; A locking pin installed on the inner body and the outer body such that the inner body and the outer body are integrated with each other; And a lost motion spring mounted to the locking pin to control the outer body during low lift.
At this time, one end of the lost motion spring is supported and installed by a stopper formed in the inner body, the stopper is characterized in that consisting of a protrusion formed protruding to the upper edge of the inner body.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a perspective view showing the configuration of the cam follower structure of the variable valve lift apparatus according to the present invention.

Prior to the description, the same reference numerals as in FIG. 2 denote the same members.

Referring to the drawings, the cam follower structure of the variable valve lift apparatus according to the present invention includes an outer body 31, an inner body 32 provided to be in contact with the valve in the outer body 31, and the inner body ( 32 and a locking pin 33 provided on the inner body 32 and the outer body 31 so that the outer body 31 is integrated with the outer body 31, and the outer body when the low lift is installed on the locking pin 33. And a lost motion spring 34 to control 31.

And the lost motion spring 34 is installed on both sides of the inner body 32, respectively.

In addition, one end of the lost motion spring 34 is supported and installed by a stopper 32a formed on the inner body 32.

The stopper 32a is formed of a protrusion formed protruding from the upper edge of the inner body 32, and the protrusion has a triangular shape.

In addition, the other end of the lost motion spring 34 is supported and installed on the inner wall of the outer body (31).

Referring to the operation of the cam follower structure of the variable valve lift apparatus according to the present invention having the configuration as described above are as follows.

Referring again to the drawings, the cam follower structure of the variable valve lift apparatus according to the present invention is a cam follower structure of the swing type VVL, and the valve is always in contact with the inner body 32. That is, the inner body 32 has a behavioral stability by the valve spring.

In the case of the high lift, the outer body 31 and the inner body 32 are integrated by the locking pin 33, and when the high body lift moves, the outer body 31 and the inner body 32 are controlled by the valve and the valve spring connected to the inner body 32. Can be.

However, in the low lift, the inner body 32 and the outer body 31 operate differently.

Therefore, the inner body 32 may be controlled by the valve spring, but the outer body 31 must be artificially controlled.

Therefore, the lost motion spring 34 employed in the present invention is a device for controlling the outer body 31 in this case.

In the absence of the lost motion spring 34, the inner body 32 and the outer body 31 are separated at the time of low lift, and thus the operation is impossible.

As described above, the cam follower structure of the variable valve lift apparatus according to the present invention has the following effects.

Even when the inner body and the outer body move independently during low lift, the outer body can be controlled.

Therefore, the valve lift can be implemented as a low lift and a high lift.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent embodiments are possible. Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

Claims (6)

An outer body; An inner body installed to contact the valve in the outer body; A locking pin installed on the inner body and the outer body such that the inner body and the outer body are integrated with each other; And a lost motion spring mounted to the locking pin to control the outer body during low lift. At this time, one end of the lost motion spring is supported and installed by a stopper formed in the inner body, the stopper is a cam follower structure of the variable valve lift device, characterized in that consisting of a protrusion formed protruding to the upper edge of the inner body . delete delete delete The method of claim 1, The protrusion is a cam follower structure of the variable valve lift apparatus, characterized in that consisting of a triangular shape. delete

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