KR20080055471A - Variable valve control system - Google Patents

Abstract

A variable valve control system having a swing arm and a hydraulic tappet is provided to allow a locking pin of the swing arm to be operated according to the direction of oil pressure by forming two passages in the swing arm. A variable valve control system comprises a swing arm(60) and a hydraulic tappet(70) coupled to the swing arm. The swing arm is configured to operate in connection with on/off operations of CDA or VVL(Variable Valve Lift). The hydraulic tappet includes a supply passage(72a) and a return passage(72b). The swing arm includes a housing(61) having a mounting space(62) provided therein and an incision portion(67) communicating with the mounting space, a locking pin(63) received in the mounting space of the housing, and an incision receiving portion(66) coupled to the supply and return passages of the hydraulic tappet and having passages(65) formed at both side of the incision receiving portion.

Description

Variable valve control system with swing arm and hydraulic tappet

1 is a flow chart showing a conventional oil supply circuit.

Figure 2 is a cross-sectional view showing a conventional hydraulic tappet.

3 and 4 is a cross-sectional view showing a state of use of the conventional hydraulic tappet.

5 is a flow chart showing an oil supply circuit according to the present invention.

6 is a sectional view showing a hydraulic tappet according to the present invention.

7 and 8 are cross-sectional view showing a state of use in accordance with the present invention.

※ Explanation of code for main part of drawing

10: oil pan, 20: oil pump,

30: oil gallery, 40: oil flow control valve,

60: swing arm, 61: housing,

62: mounting space, 63: locking pin,

64: projection, 65: passage,

66: receiving portion, 70: hydraulic tappet.

The present invention relates to a variable valve control device having a swing arm and a hydraulic tappet to which a dual oil supply circuit for a CDA is applied. More specifically, VVL (Variable Valve Lift) is formed by forming two passages when supplying oil to a swing arm. It is related with a variable valve control device having a swing arm and a hydraulic tappet, which improves an oil supply circuit which improves operation time and reliability by operating a locking pin of the swing arm in the on / off direction of the oil pressure, respectively.

Recently, companies producing automobiles have used the CDA (cutting the cylinder cylinder in half in a certain section, that is, using fuel-efficient areas, which has high fuel efficiency) in order to improve fuel efficiency in gasoline.

In addition, the oil supply circuit of the CDA or VVL developed in the related art has a problem that the required oil pressure is large and the operating time of the oil is slow because it is a one-way oil supply circuit. This is because an oil pressure that overcomes the pressure of this return spring must be applied.

As a result, the required oil pressure is increased considerably compared to non-VVL, and the return spring is used to release the VVL, resulting in long operation time and difficulty in selecting the operating timing (spring constant, oil hole size, etc.)

1 is a flow chart showing a conventional oil supply circuit, and transfers the oil stored in the oil pan 100 to the oil caliper 300 using the oil pump 200 and the oil caliper 300 The oil is delivered to a VVL (Variable Valve Lift) engine or CDA (Cylinder Deactivation) via the oil flow control valve 400.

In this case, a hydraulic tappet 600 is mounted between the oil flow control valve 400 and VVL or CDA, and the hydraulic tappet 600 has CDA through one direction in which oil is introduced through both horizontal directions as shown in FIG. 2. Or it is delivered to the swing arm 500 associated with the VVL.

3 and 4, the force of the return spring 520 mounted to the swing arm 500 to push the locking pin therein is supplied to the chamber of the swing arm 500. To win, the oil supply pressure is required. At this time, the locking pin is supplied through the oil supply passage formed in the unidirectional direction of the hydraulic tappet 600 to be mounted inside the swing arm 500 to maintain the released state.

When the oil supply is released to the swing arm 500, the locking pin is advanced by the restoring force of the return spring 520 mounted to the swing arm 500. In this case, the time required for draining the oil is increased. The recovery time of the return spring 520 is also increased. In order to reduce this time, the tension of the return spring 520 must be increased, but when the tension of the return spring 520 is increased, the operating oil pressure must be increased, so that the capacity of the oil pump is also increased. There was a problem that should be.

The present invention has been made in order to solve the above problems, forming two passages when supplying the oil to the swing arm to lock the swing arm in accordance with the oil pressure direction when the VVL (Variable Valve Lift) on / off, respectively It is an object of the present invention to provide a variable valve control device having a swing arm and a hydraulic tappet, which improves an oil supply circuit which improves operation time and reliability of operation.

In order to achieve the above object, the present invention, the oil stored in the oil pan is delivered to the oil gallery using an oil pump and the oil gallery is transferred to the swing arm for CDA or VVL via the oil flow control valve, In a structure in which a hydraulic tappet for adjusting the swing arm is mounted between the oil flow control valve and the swing arm, a swing arm is configured to operate in association with the on / off operation of the CDA or VVL, and the swing arm Is characterized in that it is coupled to the hydraulic tappet is formed to supply and return passages to operate according to the oil supplied to the on / off of the CDA or VVL.

Hereinafter, the configuration of the present invention with reference to the accompanying drawings, Figure 5 is a flow chart showing an oil supply circuit according to the present invention, Figure 6 is a cross-sectional view showing a hydraulic tappet according to the present invention.

The variable valve control device 1 having the swing arm and the hydraulic tappet of the present invention transfers the oil stored in the oil pan 10 to the oil calories 30 using the oil pump 20 and the oil calories ( 30 is transmitted to the swing arm 60 for CDA or VVL via the oil flow control valve 40, the control of the swing arm 60 between the oil flow control valve 40 and the swing arm 60 The hydraulic tappet 70 is configured to be mounted. Here, since the configuration except for the swing arm 60 and the hydraulic tappet 70 is similar to the conventional description, a description thereof will be omitted.

And a feature of the present invention is to configure the swing arm 60 to operate in conjunction with the on / off operation of the CDA or VVL, the swing arm 60 is oil supplied to the on / off of the CDA or VVL All oil pressure when connecting / disconnecting the locking pin 63 of the swing arm 60 to be installed by combining with the hydraulic tappet 70 in which the supply passage 72a and the return passage 72b are formed to operate according to It is characterized by shortening the operating time and reducing the required oil pressure.

The swing arm 60 operating according to the oil supplied along the supply passageway 72a or the return passageway 72 of the hydraulic tappet 70 is provided with a mounting space 62 therein and the mounting space (side) A housing 61 is formed in which a cutout 67 is formed in communication with 62.

In addition, the lock pin 63 accommodated in the mounting space 62 of the housing 61 operates forward and backward according to the oil supply of the supply passage 72a or the return passage 72b of the hydraulic tappet 70. In the vertical direction, the protrusions 64 protrude along the perimeter.

Here, the protrusion 64 of the locking pin 63 not only prevents the oil from moving to the left and right mounting spaces 62 during the forward and backward operations, and receives the pressure of the oil through the passage 65 to retreat the oil. It will play a role.

The incision accommodating portion 66 formed at one lower side of the housing 61 has a predetermined section cut inward, and the protrusion 64 formed at the locking pin 63 with the mounting space 62. As a reference, passages 65 are formed at both sides, respectively.

That is, the passage 65 may supply oil introduced along the supply passage 72a or the return passage 72b of the hydraulic tappet 70 to the mounting space 62 accommodated in the locking pin 63. It will serve as a guide.

Hydraulic tappet 70 for supplying a corresponding oil when the CDA or VVL on / off the swing arm 60 is supplied to the inlet receiving portion 66 of the swing arm 60, respectively, supply passage 72a and return The passage 72b is connected.

Here, the supply passage 72a and the return passage 72b formed in the hydraulic tappet 70 swing the oil introduced through the first passage 74a 74 and the first passages 74a and 74b into which oil flows. And second passages 76a and 76b, respectively, which are delivered to the incision receptacle 66 of the arm 70.

Referring to the accompanying drawings, an embodiment of the hydraulic tappet structure of the present invention configured as described above, Figures 7 and 8 are cross-sectional views showing a use state according to the present invention.

First, the supply passage 72a and the return passage 72b are respectively formed, and the supply passage 72a and the return passage 72b respectively include a first passage 74a 74 and a first passage 74a, through which oil is introduced. The oil introduced through the 74b) forms the hydraulic tappets 70 each of the second passages 76a and 76b, which are transmitted to the cutting receiver 66 of the swing arm 60.

In addition, a housing 61 in which a mounting space 62 is provided at an upper portion of the hydraulic tappet 70 and a cutout portion 67 communicating with the mounting space 62 is formed at one side of the hydraulic tappet, and the housing ( 61 is accommodated in the mounting space 62 of the hydraulic tappet 70 in accordance with the oil supply of the supply passage (72a) or the return passage (72b) of the forward and backward operation and the projection portion 64 along the circumference in the center vertical direction Lock pin 63 is projected, and the supply passage 72a and the return passage 72b formed in the hydraulic tappet 70 are connected to the mounting space 62 of the housing 61. On the basis of the projections 64 formed on the 63, the swing arm 60 including the incision accommodating portion 66 in which the passages 65 are formed on both sides is formed.

Next, the hydraulic tappet 70 and the swing arm 60 are transferred to the oil gallery 30 using the oil pump 20, and the oil stored in the oil pan 10 is transferred to the oil gallery 30. When the hydraulic tappet 70 is mounted between the swing arm 60 interlocked with the CDA or VVL via the flow control valve 40, the assembly of the variable valve adjusting device 1 having the swing arm and the hydraulic tappet is completed. .

When the oil is supplied along the supply passageway 72a from the hydraulic tappet 70 in the above state and transferred to the swing arm 60, the oil passes through the incision receiving portion 66 and the passage 65 to the right mounting space ( 62 is supplied to the lock pin 63 to the left to maintain the cam and released state (Fig. 7).

At this time, the oil passing through the right mounting space 62 is returned through the return passage (72b) of the hydraulic tappet (70).

When the oil pressure is released in the above state (shown in FIG. 7), when the oil is supplied along the return passage 72b of the hydraulic tappet 70 and transferred to the swing arm 60, the oil is cut in the receiving portion ( 66 and the passage 65 is supplied to the left mounting space 62 to push the locking pin 63 to the right to limit the movement of the cam (Fig. 8).

 At this time, the oil passing through the left mounting space 62 is returned along the supply passageway 72a of the hydraulic tappet 70.

According to the present invention, two passages are provided when supplying oil to the swing arm, so that the locking pins of the swing arm operate in accordance with the oil pressure direction when the VVL (Variable Valve Lift) is on or off, respectively, thereby improving the operation time and reliability of the operation. There is an effect that can be improved.

Claims (3)

The oil stored in the oil pan 10 is transferred to the oil gallery 30 using the oil pump 20, and the oil gallery 30 passes through the oil flow control valve 40 and swing arm for CDA or VVL. In the structure that is delivered to 60, the hydraulic tappet 70 for adjusting the swing arm 60 is mounted between the oil flow control valve 40 and the swing arm 60, The swing arm 60 is configured to operate in conjunction with the on / off operation of the CDA or VVL, and the swing arm 60 may operate according to the oil supplied to the on / off of the CDA or VVL. The variable valve control device having a swing arm and a hydraulic tappet, characterized in that coupled to the hydraulic tappet 70, the supply passage (72a) and the return passage (72b) is formed. The method of claim 1, wherein the swing arm 60, A housing 61 in which a mounting space 62 is provided inside and a cutout 67 formed in communication with the mounting space 62 at one side thereof; It is accommodated in the mounting space 62 of the housing 61 is operated forward, backward according to the oil supply of the supply passage (72a) or the return passage (72b) of the hydraulic tappet 70 and along the circumference in the center vertical direction A locking pin 63 to which the protrusion 64 protrudes, The supply passage 72a and the return passage 72b formed in the hydraulic tappet 70 are connected to each other, and the mounting space 62 of the housing 61 is based on the protrusion 64 formed on the locking pin 63. The variable valve control device having a swing arm and a hydraulic tappet, characterized in that it comprises a cut-out receiving portion (66) formed with passages (65) on each side. The method of claim 1, The supply passage 72a and the return passage 72b formed in the hydraulic tappet 70 may pass the oil introduced through the first passage 74a 74 and the first passages 74a and 74b into which the oil flows. Variable valve control device having a swing arm and a hydraulic tappet, characterized in that each consisting of a second passage (76a, 76b) to be delivered to the incision receiving portion (66) of (60).

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