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So my father has this patent, and I'm not entirely sure how a certain aspect of it is supposed to be working. I understand how it can be useful, but I don't understand how such a seemingly simple concept has not yet been applied.

The part labelled 119 is an eccentric cam, and as it rotates it can advance or retard the timing of the valve opening. Does it achieve this by changing the leverage? He claims it's "pre-loading" the spring so that the rocker assembly doesn't need as much force to open the spring, and thus it opens sooner. But, don't springs have a constant force?

I'm not familiar with patent drawings, but I'm fairly sure there is an additional piece holding up part 101 that has what was described as a "float spring" , that will not allow 101 to pivot until it is bottomed out.

I've asked him these questions, but he's not an educated man and I'm no engineer.

Link to Patent

Image of Patent US9732639B1

tldr; how does part 119 advance/retard valve timing?

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  • $\begingroup$ Without understanding how 101 is restrained, it is too hard to answer. How 101 moves completely affects what the mechanism does. $\endgroup$
    – Tiger Guy
    Feb 22 '20 at 1:46
  • $\begingroup$ I will see if I can get some pics asap $\endgroup$
    – Aww_Geez
    Feb 25 '20 at 14:32
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The rotation of shaft 119 with the cam changes the load on the valve springs, but it also changes the location of the fulcrum of the lever assembly parts 101, 103 and 104.

As the bulk of the cam moves closer to the pivot 104, the travel at the right end of 101 will be increased compared to the travel when the bulk of the cam is on the opposite side.

You can exaggerate the movement by considering that the cam is all the way to the left. Pushing up on 103 or 104 only a small amount causes the other end to travel a great distance. With the cam all the way to the right, 103/104 movement would have to be substantial.

In levers and other mechanical devices, it's sometimes easier to get a grasp on the action by enlarging or exaggerating it for a moment.

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