KR20040050075A - Oil drain device of piston - Google Patents

Abstract

PURPOSE: An oil drain device is provided to avoid the excessive consumption of oil by suppressing the back-flow of oil in the upward stroke of a piston, to improve the combustibility in combustion, and to prevent abnormal combustion by suppressing the backward ascending of the residual combustion gas. CONSTITUTION: An oil drain device includes a drain hole(13) facing the upper portion of a piston pin(11). A drain groove(14) communicated with the drain hole is formed on the piston pin. A discharge groove(15) for easy drain of oil is extended from one side of the drain groove. The discharge groove is spaced apart from a pin boss(16). The drain groove is spaced apart from the upper center of the piston pin to be selectively communicated with the drain hole in the upper and lower movement of the piston.

Description

Oil drain device of piston

The present invention relates to an oil drain device of a piston, and in particular, to prevent backflow of oil when the piston rises, to prevent excessive consumption of oil, and to prevent the reverse rise of residual combustion gas, thereby improving combustion performance and preventing abnormal combustion during combustion. So that it relates to an oil drain device of one piston.

7 shows a conventional oil drain apparatus,

A ring groove 2 is formed in the top of the piston 1 for mounting the oil ring, and a drain hole 3 is formed in a horizontal direction from the inside of the ring groove 2 toward the inside of the piston 1, A drain groove 5 having a predetermined size is formed in the upper portion of the piston pin 6 coupled to the lower end of the piston 1, and an inclined flow hole for interconnecting the drain groove 5 and the drain hole 3 ( 4) is formed inside the piston (1).

In the conventional oil drain device, the oil ring installed in the ring groove 2 scrapes the oil remaining on the inner wall of the cylinder when the piston 1 repeatedly moves up and down in the cylinder. The collected oil ring flows into the piston 1 through the drain hole 3 and flows toward the lower oil pan or flows into the drain groove 5 through the inclined flow hole 4 and flows toward the oil pan. .

However, in the conventional oil drain device, since the drain hole and the drain groove for recirculating the oil scraped by the oil ring to the oil pan are always open, the oil or engine piston remaining in the piston or the piston pin when the piston is raised is lowered. That is, the oil splashing upward by the rotation of the oil pan and the crank shaft flows back to the outside of the piston along the drain groove and the drain hole, resulting in excessive oil consumption.

In addition, the oil ring scrapes oil from the engine cylinder inner wall only in the lower stroke of the piston. As the piston rises, there is almost no oil remaining on the inner wall of the cylinder. As the drain hole remains open even when the piston rises, as described above, the reverse flow of the oil, especially at the end of the upward stroke of the piston, that is, the speed of the piston decreases and the rising inertia force of the oil is maximum. There was a problem that the amount of backflow of the oil increases.

Therefore, the present invention for solving the above problems is to form a drain groove for communicating with the drain hole extending from the ring groove of the piston in the upper portion of the piston pin, the drain groove so as to be spaced at a certain angle from the center of the piston pin As the piston pin rotates by the inclination angle of the cone rod when rising, the drain groove is released from the drain hole, thereby preventing the back flow of oil when the piston rises, preventing excessive consumption of oil and increasing the residual combustion gas in reverse. It is an object of the present invention to provide an oil drain device of a piston that prevents combustion and improves combustion during combustion.

The present invention for achieving the above object,

An oil drain apparatus in which a drain hole is formed from an inner ring groove of a piston to an upper portion of a piston pin,

A drain groove is formed in the upper portion of the piston pin to communicate with the drain hole, and is formed to extend out of the pin boss on one side of the drain groove to extend the discharge groove to facilitate the discharge of oil,

The drain groove may be formed to be spaced apart from the upper center of the piston pin to one side so as to selectively communicate with the drain hole when the piston moves up and down.

The drain groove is characterized in that the piston pin is rotated by the inclination angle of the cone rod when the piston rises to escape from the drain hole.

In addition, first and second key grooves are respectively formed on the lower side of the center of the piston pin and the inner lower surface of the cone rod, and when the piston pin and the cone rod are coupled, a binding key is inserted into the first and second key grooves to allow Characterized in that the position is kept constant.

1 is a front view showing the oil drain device of the present invention.

2 is a cross-sectional view taken along the line A-A of FIG.

3 is a view showing a state of forming a drain groove applied to the present invention.

Figure 4 (a) ~ (c) is a view showing the piston pin and the cone rod.

5 and 6 are views showing the operating state of the present invention.

7 is a view showing a conventional oil drain device.

※ Explanation of code for main part of drawing

10: piston 11: piston pin

12: cone rod 13: drain hole

14: drain groove 15: drain groove

16: pin boss 17: the first key groove

18: second key groove 19: binding key

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings, FIGS. 1 to 6.

Reference numeral 10 denotes a piston that is driven up and down in the cylinder, and a plurality of drain holes 13 are formed from the inside of the ring groove formed on the outer circumference of the piston 10 to face the top of the piston pin 11. .

The inlet side of the drain hole 13 is formed in a plurality of places inside the ring groove, the output end is formed to be gathered in one place to be concentrated on the upper side of the piston pin (11).

A piston pin 11 for connecting the piston 10 and the cone rod 12 to each other is coupled to the lower side of the piston 10. The middle portion of the piston pin 11 is the cone rod 12 (small end). ) Is inserted and mounted.

A drain hole 13 is formed at both ends of the piston pin 11 to communicate with the outlet side of the drain hole 13, and the discharge groove 15 is extended from one side of the drain hole 13. The end portion of the discharge groove 15 is out of the pin boss 16 into which the piston pin 11 is inserted so that oil flowing out through the drain groove 14 and the discharge groove 15 can be easily pistoned. (10) It was made to flow downward.

On the other hand, the drain groove 14 is formed wide so that the piston pin 11 can communicate with the output end of the drain hole 13 even if rotated by a certain angle, the discharge groove 15 is smaller than the drain groove 14 It is desirable to have a diameter.

At this time, the drain groove 14 is spaced at an angle from the upper center of the piston pin 11, the range in which the drain groove 14 is spaced apart from the output side of the drain hole 13 in the upper center of the piston pin (11) When it is present, as shown in (a) of FIG. 4 to be spaced apart from the upper center of the pispon pin 11 by the inclination angle (θ) of the cone rod 12 during the upstroke of the piston (10) , When the piston pin 11 is mounted on the piston 10, the piston pin 11 is coupled to be in the same state as in FIG.

To this end, a first key groove 17 is formed in the lower center of the piston pin 11, and the first key groove 17 is opposed to the center of the inner bottom surface of the cone rod 12 into which the piston pin 11 is inserted. The second key groove 18 is formed to be held, and the first and second key grooves 17 and 18 coincide with each other after the piston pin 11 is inserted into the cone rod 12. Insert 19 so that the formation position of the drain hole 13 is maintained as shown in FIG.

That is, (c) of FIG. 4 illustrates a state in which the piston pin 11 is inserted into the cone rod 12, and the piston pin 11 and the cone rod 12 are positioned in position by the binding pin 19. As it is coupled to the drain hole 13 formed in the upper portion of the piston pin 11 it can be seen that the state is set to a predetermined angle (θ) spaced apart from the center.

Referring to the operation of the present invention configured as described above is as follows.

When the piston 10 is lowered, as shown in Fig. 5, the cone rod 12 is moved from the center to the right angle by a certain angle θ, whereby the piston pin 11 is rotated counterclockwise (left side in the drawing). ), The output terminal of the drain hole 13 is in communication with the drain groove 14.

Therefore, when the piston 10 is lowered, oil scraped by the oil ring flows through the drain hole 13 to be collected in the drain groove 14, and the oil collected in the drain groove 14 is discharged from the drain groove 15. By moving along it will be discharged to the lower side of the piston (10).

On the other hand, when the piston 10 rises, as shown in Fig. 6, the cone rod 12 moves from the center to the left in the drawing by an angle θ, whereby the piston pin 11 moves clockwise (in the drawing). Right side), the drain groove 14 is released from the output end of the drain hole 13, the oil flow passage is blocked.

Therefore, even if the oil existing in the piston 10 or the oil splashing from the oil pan is raised by inertia when the piston 10 rises, the drain groove 14 and the drain hole 13 are blocked from each other. Therefore, the piston 10 will not flow back.

As described above, as the backflow of oil does not occur when the piston 10 rises, not only can reduce the oil consumption, but also prevent the backburn of unburned gas remaining in the piston to prevent abnormal combustion during combustion, and The effect of improving the characteristics can be expected.

As described above, in the present invention, a drain groove for communicating with a drain hole extending from the ring groove of the piston is formed on the upper part of the piston pin, and the drain groove is spaced at an angle from the center of the piston pin to raise the piston. As the piston pin rotates as much as the inclination angle of the cone rod, the drain groove is released from the drain hole, preventing the back flow of oil when the piston rises, preventing excessive consumption of oil, and preventing the reverse rise of residual combustion gas during combustion. The effect of providing an oil drain device of the piston to improve the combustibility and to prevent abnormal combustion can be expected.

Claims (3)

In the oil drain apparatus in which the drain hole 13 is formed so as to face the upper portion of the piston pin 11 from inside the ring groove of the piston, A drain groove 14 is formed in the upper portion of the piston pin 11 to communicate with the drain hole 13, and one side of the drain groove 14 is formed to be out of the pin boss 16 so that oil is discharged. To extend the discharge groove 15 to facilitate, The drain groove 4 is oil of the piston, characterized in that formed to be spaced apart from the upper center of the piston pin 11 to one side so as to selectively communicate with the drain hole 13 when the piston 10 moves up and down Drain device. The method of claim 1, The drain groove 14 is an oil drain device of the piston, characterized in that when the piston pin 11 is rotated by the inclination angle of the cone rod 12 when the piston (10) ascends from the drain hole (13). The method according to claim 1 or 2, First and second key grooves 17 and 18 are respectively formed on the lower side of the center of the piston pin 11 and the inner lower surface of the cone rod, and the first when the piston pin 11 and the cone rod 12 are coupled to each other. And a binding key (19) inserted into the second key groove (17, 18) to maintain a constant position of the drain groove (14).