DE852181C - Forced cam drive for injection pumps - Google Patents

Description

Positive Cam Drive For Injection Pumps This invention relates to a cam drive to drive the pistons of injection pumps in internal combustion engines, whose cams have at least two elevations (multiple cams) and that of him driven engine part inevitably moved.

In known cam drives of this type, there is not all rotational positions of the multiple cam a backlash-free connection between the cam and that of it driven engine part. However, these known drives are slow-running Pumps for conveying lubricants have been proposed or applied at which it is not necessary that the cam drive in every rotational position of the cam is free of play. A use of the known cam drives for high-speed Pumps, e.g. B. in injection pumps for internal combustion engines, but is not possible since this requires a drive that is free of play in all positions, if an early one Knocking out the engine parts should be avoided.

The invention is based on the object of creating a multiple cam drive for injection pumps which results in a backlash-free connection between the cam and the part of the engine driven by it in all rotational positions of the cam. According to the invention, this is achieved in that the inevitably moving engine part has two parallel surfaces arranged perpendicular to its direction of movement and the multiple cam engages at least one of these directly and that in the case of a) a cam with three or a higher odd number of elevations this acts directly on both parallel surfaces of the inevitably moving part and that the diameter of the base circle is the same where h = cam lift, n = number of cam lobes, r = smallest cam radius; b) a cam with two elevations which, apart from one of the two parallel surfaces of the inevitably moving part, acts on two surfaces; which form an angle of 60 ° symmetrically to the direction of movement and belong to a part which is arranged displaceably on the other of the two parallel surfaces, and that the diameter of the cam base circle is the same where h = cam lift, y = smallest cam radius; c) a cam with four elevations this engages except on one of the two parallel surfaces of the inevitably moving part on two surfaces that. Form an angle of 60 ° symmetrically to the direction of movement and belong to a part which is arranged displaceably on the other of the two parallel surfaces, and that the diameter of the cam base circle is the same is, where h = cam lift, y = smallest cam radius.

Cam drives of this type are known per se, but in the case of injection pumps has not yet been used. But you have injection pumps that run very quickly the advantage of noiselessness and need in contrast to the well-known Actuators with spring-loaded plungers do not have a spring that occurs when running very quickly Pumping would have to be very powerful and would therefore take up a lot of space. The engine according to the invention allows an upward unlimited speed while Drives with spring-loaded plungers, when the plunger pops off, an upper one Have speed limit, which is also due to changes in the dimensions of the engine parts can only be exceeded insignificantly.

The drawing shows two exemplary embodiments of the subject matter of the invention shown.

FIG. I shows a view of the first example with a triple cam and FIG. 2 shows a section along line II-II in FIG. I; 3 shows a view of the second example with a double cam and FIG. 4 shows a section along line IV-IV in FIG is driven by a cam 4 with three elevations (triple cams). This cam engages two parallel surfaces 5 and 6 of part 3 which are arranged perpendicular to the direction of movement of engine part 3. The diameter d $ of the base circle of the triple cam is the same Here, h = cam lift, n = number of cam lobes, in this case equal to three, y = smallest radius of the cam track.

In a T-shaped groove 7 of the engine part 3 is only partially shown piston 8 of the injection pump with a correspondingly shaped approach g hung up.

Instead of the triple cam, another multiple cam can also be used can be installed with an odd number of cams.

The second example according to FIGS. 3 and 4 differs from the first only by a prism-shaped part io with two faces ii and 12 making an angle of 6o °. This part io is displaceable on the surface 6 of the engine part 3 arordered.

A double cam 14 engages one surface in this example 5 of the engine part 3 and on the two surfaces ii and 12 of the prism-shaped part io on.

The diameter d, of the base circle of the double cam is the same where h = cam lift, r = smallest radius of the cam track.

Instead of the double cam, a quadruple cam can also be installed in this version, the base circle diameter of which is calculated according to the equation where h = cam lift, r = smallest radius of the cam track.

Claims (1)

PATENT CLAIM: Cam drive, in particular for driving the pistons of injection pumps in internal combustion engines, the cam of which has at least two elevations (multiple cams) and which inevitably moves the engine part driven by it, characterized in that the inevitably moving part has two parallel surfaces arranged perpendicular to its direction of movement and the cam engages at least one of these directly and that in the case of a) a cam with three or a higher odd number of elevations this engages directly on both parallel surfaces of the inevitably moving part and that the diameter of the cam base circle is the same where h = cam lift, n = number of cam lobes, y = smallest cam radius; b) a cam with two elevations which, in addition to one of the two parallel surfaces of the inevitably moving part, engages two surfaces which form an angle of 60 ° symmetrically to the direction of movement and belong to a part that is displaceable on the other of the two parallel surfaces is arranged, and that the diameter of the cam base circle is the same where h = cam lift, r = smallest cam radius; c) a cam with four elevations which, in addition to one of the two parallel surfaces of the inevitably moving part, engages two surfaces that form an angle of 60 ° symmetrically to the direction of movement and belong to a part that is displaceable on the other of the two parallel surfaces is arranged, and that the diameter of the cam base circle is the same is, where h = cam lift, r = smallest cam radius. Attracted pamphlets from Reuleaux's book "Theoretical Kinematics" 1 875, p. 131, ISI, 566 to 568.