KR20100086927A - Variable valve mechanism - Google Patents

Abstract

PURPOSE: A variable valve mechanism is provided to adjust the opening degree of the valve by changing a pin hole into which a connection pin is inserted. CONSTITUTION: A variable motion valve mechanism comprises a control shaft(41), a control cam(42), and a control arm(43). The control cam is rotatable. The cross section of the control cam installed in the control cam has the shape of a circle. The control arm is expanded in the diametric direction of the control cam and is inserted into the control cam. The control arm supports the center of a power transmission mechanism(30) in the surrounding direction of the control cam to be shaken. The opening degree of the valve is adjusted by changing the pin hole into which a connection pin is inserted.

Description

Variable action valve mechanism {VARIABLE VALVE MECHANISM}

The present invention relates to a variable action valve mechanism for changing the opening and closing amount of the valve in accordance with the operating situation of the internal combustion engine.

Among the variable operation valve mechanisms, like the variable operation valve mechanism 90 shown in FIG. 8, a drive shaft 91 rotatably provided, a drive cam 92 provided on the drive shaft 91, and The power transmission mechanism 93 which transfers the power of this drive cam 92 to the valve 8, opens and closes this valve 8, and displaces the intermediate part of this power transmission mechanism 93, There is a thing comprised including the opening-closing variable variable mechanism 94 which changes the opening-closing amount.

[Prior Art Literature]

Patent Document: Japanese Patent Application Laid-Open No. 11-324625

By the way, in the said variable-acting valve mechanism 90, the opening / closing amount of the valve 8 will be totally out of a desired opening-and-closing amount by the deviation of the dimension of each component, etc., and there exists a possibility of leading to the fall of engine performance.

Therefore, an object of the present invention is to allow adjustment of the valve opening and closing amount even if the valve opening and closing amount deviates from the desired opening and closing amount as a whole.

In order to achieve the above object, the variable-actuating valve mechanism of the present invention provides a drive shaft rotatably installed, a drive cam provided on the drive shaft, and power to the valve to open and close the valve. A variable-actuating valve mechanism comprising a power transmission mechanism and a switching amount variable mechanism for changing an opening and closing amount of the valve by displacing an intermediate portion of the power transmission mechanism, wherein the opening and closing amount variable mechanism is configured to be rotatable. WHEREIN: The cross section shape provided in this control shaft is a round shape, the center of this round shape eccentrically extended from the axial center of this control shaft, and it extends in the radial direction of this control cam, and a rear end is externally rotatable to this control cam. A plurality of pin holes inserted into the front end and having different distances from the center of the control cam, respectively; One control pin protrudingly installed or attached to an intermediate portion of the power transmission mechanism is inserted into one of the pin holes, so that the intermediate portion of the power transmission mechanism is swingably supported in the circumferential direction of the control cam. It is configured to include an arm, characterized in that the opening and closing amount of the valve can be adjusted by changing the pin hole into which the connecting pin is inserted.

Here, the variable operation valve mechanism is not particularly limited, but in order to be able to simply adjust the opening and closing amount of the valve, the connecting pin is detachably attached to a predetermined attachment position of the intermediate portion of the power transmission mechanism, By disconnecting the connecting pin from the attachment position and extracting it from one of the plurality of pin holes, the connecting pin is inserted into the other one of the plurality of pin holes and reattached to the attachment position. It is preferable that neither the power transmission mechanism nor the opening / closing variable mechanism is configured to adjust the opening / closing amount of the valve without reassembling.

According to the present invention, as described above, the opening and closing amount of the valve can be adjusted by changing the pin hole into which the connecting pin is inserted.

(Form to carry out invention)

(Example)

The variable action valve mechanism 9 of the present embodiment shown in Figs. 1 to 6 is provided for two intake or exhaust valves 8 and 8 provided in the same cylinder, and the two The opening / closing amounts L of the valves 8 and 8 are continuously changed. The variable operation valve mechanism 9 includes a drive shaft 10, a drive cam 20, a power transmission mechanism 30, an opening / closing variable variable mechanism 40, and a rocker arm 50 shown below. 50).

[Drive shaft 10]

The drive shaft 10 is a shaft common to the plurality of variable action valve mechanisms 9 and rotates along the rotation of the internal combustion engine.

[Drive cam 20]

The drive cam 20 is provided in the drive shaft 10 and rotates with the rotation of the drive shaft 10. The drive cam 20 has a circular cross-sectional shape, and its circular center A is eccentric from the shaft center Ao of the drive shaft 10.

[Power Transmission Mechanism 30]

The power transmission mechanism 30 transfers the rotational motion of the drive cam 20 to reciprocating motion and transmits it to the rocker arms 50 and 50, and opens and closes the valves 8 and 8 through the rocker arms 50 and 50. It is an appliance. The power transmission mechanism 30 includes a driving arm 31, an input rocking arm 32, a first lever 33, a second lever 34, and a pair of output rocking arms (shown below). 35 and 35). The driving arm 31 extends in the radial direction of the driving cam 20, has a rear end of a ring shape, the rear end of which is inserted into the driving cam 20 so as to be rotatable, and the front end thereof is an input rocking arm. The rear end portion 32 is pivotally rotatable through the first connecting pin X1. The input rocking arm 32 is rotatably externally inserted into the control shaft 41 described later in the longitudinal intermediate portion, and the front end portion pivotally rotates through the second connecting pin X2 at the rear end portion of the first lever 33. It is. The first lever 33 is pivotally attached to the rear end of the second lever 34 via a third connecting pin X3. The second lever 34 is pivotally attached to the rear end of the pair of output swing arms 35 and 35 so as to be rotatable through the fourth connecting pin X4. The pair of output rocking arms 35 and 35 is rotatably externally inserted in the longitudinal intermediate portion into the control shaft 41, and the tip portion abuts against the pair of rocker arms 50 and 50, respectively. The tip end portion of the third connecting pin X3 protrudes from the first lever 33 and the second lever 34, and the protruding portion is displaced in the circumferential direction by the opening / closing variable variable mechanism 40. Possibly supported.

Therefore, at the time of rotation of the drive shaft 10, as shown in FIG.3 (b), the drive cam 20 rotates with the rotation of this drive shaft 10, and the power is used for a drive. Arm 31, input rocking arm 32, first lever 33, second lever 34, a pair of output rocking arms 35, 35, a pair of rocker arms 50, 50, 1 It is transmitted in order of the pair of valves 8 and 8, whereby the pair of valves 8 and 8 are reciprocally driven by the opening / closing amount L in the opening and closing direction.

[Opening and closing variable mechanism 40]

The opening / closing variable variable mechanism 40 is a mechanism for changing the opening / closing amounts of the valves 8 and 8 by displacing the third connecting pin X3 in the middle portion of the power transmission mechanism 30. The opening / closing variable variable mechanism 40 is configured to include a control shaft 41, a control cam 42, and a control arm 43 shown next. The control shaft 41 is provided in parallel with the drive shaft 10, and is rotated by a rotating device (not shown). The control cam 42 is attached to the control shaft 41, and rotates with the rotation of the control shaft 41. The cross-sectional shape of this control cam 42 is a round shape, and the center B of this round shape is eccentric from the axial center Bo of the control shaft 41. The control arm 43 extends in the radial direction of the control cam 42, has a ring-shaped rear end, and the rear end thereof is rotatably inserted into the control cam 42 in a rotatable manner. At the distal end of the control arm 43, a plurality of pin holes 44, 44 ... are formed in the center of the center B of the control cam 42. Lined up in the direction slightly shifted from the circumferential direction R and R, it is provided. Therefore, these pinholes 44 and 44 are different from the center B of the control cam 42, respectively. Then, the protruding portion of the third connecting pin X3 is alternatively inserted into one of the plurality of pin holes 44, 44..., So that the control arm 43 has the front end thereof with the first lever 33. Is rotatably attached to the constriction portion between the distal end portion of the second lever 34 and the rear end portion of the second lever 34, whereby the condensation portion is pivotably supported in the circumferential direction of the control cam 42. In addition, a stopper 45 is attached to the third connecting pin X3 to prevent the third connecting pin X3 from being displaced in the longitudinal direction thereof.

Therefore, as shown in Fig. 4A, when the control shaft 41 rotates in one circumferential direction, the control cam 42 rotates together with the rotation of the control shaft 41, and the power thereof By passing in order of the control arm 43, the second lever 34, and the pair of output rocking arms 35, 35, the output rocking arms 35, 35 are the shaft center Bo of the control shaft 41. While swinging on the shaft, the shaft center Bo is rotated around the shaft Bo in one circumferential direction, and the opening and closing amount L of the valves 8 and 8 decreases. At the same time, the power of the control cam 42 is transmitted in the order of the first lever 33, the input rocking arm 32, and the driving arm 31, thereby driving the driving arm 31 for driving. It rotates to the opposite side to the rotation direction of the shaft 10, and by this, the timing which opens the valve 8, 8 to the maximum becomes quick.

As shown in Fig. 4B, when the control shaft 41 rotates in the other circumferential direction, the control cam 42 rotates together with the rotation of the control shaft 41, and the power thereof By passing in order of the control arm 43, the second lever 34, and the pair of output rocking arms 35 and 35, the output rocking arms 35 and 35 are the shaft center Bo of the control shaft 41. ) Is rotated in the other circumferential direction with the axis Bo as the axis, while the opening and closing amount L of the valves 8 and 8 increases. At the same time, the power of the control cam 42 is transmitted in the order of the first lever 33, the input rocking arm 32, and the driving arm 31, thereby driving the driving arm 31 for driving. It rotates to the rotation direction side of the shaft 10, and the timing which opens the valve 8, 8 to the maximum by this delays.

[Rocker arms 50, 50]

One rocker arm 50, 50 is provided for each valve 8,8. Each rocker arm 50 is pivotally supported by the lash adjuster 59 at its rear end, and has a roller 51 which abuts on the leading end of the output rocking arm 35 in the longitudinal middle portion thereof. Press the stem end of (8). Each valve 8 is provided with a valve spring (not shown) for closing the valve 8 so that the distal end of the rocker arm 50 displaces in the direction away from the stem end of the valve 8. have.

Next, using the variable operation valve mechanism 9 of the present embodiment, the state at the time of adjusting the opening / closing amount L of the valves 8 and 8 is adjusted to reduce the opening / closing amount at the time of {1} reduction adjustment. And divided by {2} increment adjustment time to adjust so that it demonstrates below.

{When decreasing adjustment}

First, the stopper 45 is separated from the third connecting pin X3, and the third connecting pin X3 is condensed between the distal end of the first lever 33 and the rear end of the second lever 34. It separates from the predetermined attachment position in the position (shifts in the range which is not cancelled | released), and it extracts from the pin hole 44 inserted. Next, the third connecting pin X3 is inserted into another pin hole 44 whose distance from the center B of the control cam 42 is shorter than the pin hole 44 into which the third connecting pin X3 has been inserted. It returns to the attachment position of and attaches the stopper 45 again, and attaches again to this predetermined attachment position. As a result, as shown in FIG. 6A, the condensation portion between the front end of the first lever 33 and the rear end of the second lever 34 approaches the center B of the control cam 42. Is slightly shifted, and the output rocking arm 35 is slightly shifted in one rotational direction around the axis Bo of the control shaft 41, so that the opening and closing amount of the valve 8 is slightly reduced.

{In incremental adjustment}

First, the stopper 45 is separated from the third connecting pin X3, and the third connecting pin X3 is condensed between the distal end of the first lever 33 and the rear end of the second lever 34. It separates from the predetermined attachment position in the position (shifts in the range which is not cancelled | released), and it extracts from the pin hole 44 which was inserted. Next, the third connecting pin X3 is inserted into another pin hole 44 whose distance from the center B of the control cam 42 is longer than the pin hole 44 into which the third connecting pin X3 has been inserted. The stopper 45 is reattached by returning to the attachment position of and reattached to this predetermined attachment position. Thereby, as shown to FIG. 6 (b), the constriction part of the front-end | tip part of the 1st lever 33 and the rear end of the 2nd lever 34 is a little in the direction separated from the center B of the control cam 42. FIG. The output rocking arm 35 is shifted slightly in the other rotational direction centering on the shaft center Bo of the control shaft 41, whereby the opening and closing amount of the valve 8 slightly increases.

According to this embodiment, by changing the pin hole 44 into which the connecting pin X3 is inserted, the valves 8 and 8 are not reassembled without reassembling parts other than the connecting pin X3 (and the stopper 45). The amount of opening and closing can be adjusted easily. Therefore, parts precision can be relaxed and the ease of manufacture improves. Moreover, since there are three or more the pinholes 44 and 44 ..., it can adjust in multiple stages and can adjust it precisely.

In addition, this invention is not limited to the structure of the said Example, It can also be changed and actualized in the range which does not deviate from the meaning of invention.

For example, in an internal combustion engine of two or more parallel plural cylinders, about one cylinder, the control arm 43 is substantially the same as the variable operation valve mechanism 9 of the present embodiment. The other variable operation valve mechanism 69 is provided in that only one pin hole 44 is provided (that is, it does not have an adjustment function of opening and closing amount), and the variable operation valve of this embodiment is applied to all other cylinders. Install the mechanism (9). In this case, the opening and closing amounts of the valves 8 and 8 by the variable operation valve mechanism 9 of the present embodiment are adjusted in accordance with the opening and closing amounts of the valves 8 and 8 by the other variable operation valve mechanism 69. Can be. Therefore, more accurate valve timing can be tuned between cylinders, which can contribute to an improvement in engine performance.

(Explanation of the sign)

8 valve

9 variable action valve mechanism

10 Drive shaft

20 Drive Cam

30 power train

40 opening and closing variable mechanism

41 Control Shaft

42 Control Cam

43 Control Arm

44 pin hole

Shaft center of Bo control shaft

Center of B control cam

X 3 3rd connection pin

1 is a perspective view showing a variable action valve mechanism of an embodiment of the present invention.

2 is an exploded perspective view showing the variable operation valve mechanism of the embodiment.

Fig. 3 is a side cross-sectional view of the variable-actuating valve mechanism of the embodiment in (a), and a state in operation thereof in (b).

Fig. 4 is a side cross-sectional view showing the state when the opening / closing amount of the variable-actuating valve mechanism of the embodiment is decreased in (a), and the state when the opening is increased in (b).

Fig. 5 is a partially enlarged side sectional view showing the variable action valve mechanism of the embodiment.

Fig. 6 is a partially enlarged side cross-sectional view showing a state in which the opening / closing amount of the variable-actuating valve mechanism of the embodiment is reduced and adjusted as a whole, and a state in the case of increasing and adjusting in (b).

FIG. 7 is a perspective view showing another variable operation valve mechanism provided for one cylinder when the variable operation valve mechanism of this embodiment is provided for all other cylinders except one cylinder of an internal combustion engine of a parallel multiple cylinder. FIG. .

Fig. 8 is a side sectional view showing a variable action valve mechanism of the prior art.

Claims (4)

The drive shaft 10 rotatably provided, the drive cam 20 provided in this drive shaft, and the power transmission mechanism 30 which transmits the power of this drive cam to the valve 8, and opens and closes this valve. And an opening and closing amount variable mechanism 40 for displacing the intermediate portion of the power transmission mechanism to change the opening and closing amount of the valve. The opening / closing variable variable mechanism 40 has a control shaft 41 provided so as to be rotatable, and a cross-sectional shape provided on the control shaft is a round shape, and the center B of the round shape is formed from an axis center Bo of this control shaft. A plurality of pins eccentrically extending to the control cam 42 and the radial direction of the control cam, the rear end of which is rotatably externally inserted into the control cam, and having different distances from the center B of the control cam at the distal end; A hole 44 is provided, and one of the plurality of pin holes is selectively inserted into one of the connecting pins X3 protrudingly attached or attached to an intermediate portion of the power transmission mechanism 30, thereby providing this power transmission. It comprises a control arm 43 which pivotably supported the intermediate part of the mechanism 30 in the circumferential direction of the said control cam 42, A variable-acting valve mechanism, characterized in that the opening / closing amount of the valve (8) can be adjusted by changing the pin hole (44) into which the connecting pin (X3) is inserted. The method of claim 1, wherein the connecting pin (X3) is detachably attached to a predetermined attachment position of the intermediate portion of the power transmission mechanism 30, The connecting pin X3 is detached from the attachment position, pulled out from one of the plurality of pin holes 44, and then inserted into the other one of the plurality of pin holes 44, and at the attachment position. By attaching again, the variable action valve mechanism characterized by being configured to adjust the opening and closing amount of the valve (8) without reassembling any of the power transmission mechanism (30) and the opening and closing amount variable mechanism (40). 2. The plurality of pin holes 44 are provided in a line in a direction slightly shifted from the circumferential direction R of a circle about the center B of the control cam 42. Variable action valve mechanism. 2. A variable action valve mechanism according to claim 1, wherein a stopper (45) is attached to said connecting pin (X3) for preventing the connecting pin (X3) from displacing in the longitudinal direction thereof.

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