SU813041A1 - Cam mechanism - Google Patents

Description

one

The invention relates to mechanical engineering, in particular to cam mechanisms that convert reciprocating movement of the pusher into rotary movement of the cam.

Known cam mechanism, comprising a housing, a shaft mounted therein with a cam attached thereto, a roller interacting with the cam, mounted on a fork. The plug is made in the form of a cup in which the rod l is located.

The disadvantage of this mechanism is the friction sliding in the place of contact of the bar with the fork, which leads to a decrease in the durability of the mechanism.

The closest to the proposed technical essence and the achieved result is a cam mechanism, comprising a housing, a shaft mounted therein with a cam fixed on it, a roller pusher, a fork with an additional roller cooperating with the cam 2.

The disadvantage of this mechanism is its low durability, due to the rapid wear of the additional roller, since it is affected by unbalanced forces.

on the side of the cam and roller puller, as well as increased wear of the roller of the pusher, since it does not rotate, but only periodically rolls over the surface of the fork.

The purpose of the invention is to increase the durability of the mechanism.

This goal is achieved by the fact that the axis of the additional roller in

The middle and extreme positions are located on opposite sides relative to the axis of the pusher, and the rollers interact with each other.

FIG. 1 shows the mechanism, a general view; in fig. 2 - fastening rollers in the pusher and fork.

The cam mechanism comprises a housing 1, a shaft 2 installed therein with a cam 3 fixed on it, a piston 4 with a roller 5, a fork 6 with an additional roller 7, a dimming cam with a cam 3. The rollers 5 and 7 interact with each other and performed in

5 kind of needle bearings. The piston 4 is installed in the cylinder 8, closed by a lip 9. In the bosses 10 of the piston 4, a roller 5 is mounted on the piston shaft 11. In the skirt 12 of the piston 4 there are

0 transverse grooves 13, covering flats 14, made on axis 15, on which roller 7 and one end of the fork are mounted. B. The other end of the fork b is fixed on the axis 16. The axis 15 of the additional roller 7 is in the middle and extreme positions on opposite sides of the axis OO of the pusher.

Cam mechanism works as follows.

At that moment, when roller 7 is on the falling branch of cam 3, i.e. when the roller rolls from the cam radius to the smaller one, a gaseous working fluid is fed into the cylinder 8 of the engine. Under the pressure of the gaseous working fluid, the piston 4 moves downwards. In this case, the force is transmitted through the rollers 5 and 7 to the cam 3. From the cam 3, the force is transmitted further to the shaft 2 of the engine, which performs useful work. Then the inlet of the working fluid is stopped and, when the roller / 7 is on the minimum radius of cam 3, the release of the working fluid from the cylinder 8 begins. The cam mechanism provides small lateral forces on the walls of the cylinder. Point . the contact of the rollers 7 and 5. is located on the straight line connecting their centers. When the pusher is displaced along its axis OO, the rotation of this line turns out to be quite small, since the axis of the roller 7 deviates symmetrically from the axis of the OOL, cylinder 8.

As a result, the lateral force on the pusher is insignificant, which increases engine durability.

In this case, since the roller 7 is in contact on one side with the cam 3, and on the other with the roller 5 of the piston 4, the total force acting on the roller bearing 7 is small, which contributes to increasing its durability.

Claims (1)

1. IT patent, cl. 74-54, 1964. 2i Artobolevsky I.I. Mechanisms in modern technology, v.5, M., Science, 1976, p. 264 of FIG. 385 (prototype).