DE3802659C1 - Valve tappet guide - Google Patents

Abstract

In a valve tappet guide for lifting valves, actuatable against a spring force, in valve-controlled reciprocating piston internal combustion engines the guide bore, in order to compensate for valve tappet deformation in the longitudinal direction of the cam axis caused by a cam force, is recessed in an area of approximately half the peripheral length of the tappet guide about this direction. The guide bore is recessed on that side of the guide bore remote from a cam over half the height of the said bore.

Description

The invention relates to a valve lifter guide according to the Preamble of claim 1.

Such leadership is known from US-PS 28 82 878. The US-PS shows a device for guiding the valve pestle to compensate for tolerances in production and closing assembly of tappet, tappet guide and camshaft. It the proposal is made, one of the two parts, namely plunger or plunger guide, with a cylindrical Equip surface and the same on the other part moderate decrease in its peripheral area to enlarge the Match between these two parts. To this Way he can adjust the plunger and plunger guide be enough.

As the camshaft speed increases, the cam picks up force towards the valve lifter. This increasing cam force causes oval deformation, especially with tappets of the valve lifter in the longitudinal direction of the cam axis. The  Valve tappet pushes sideways as soon as the deformation increases than the guide game between valve lifter and guide drilling is resulting in an increase in frictional forces and thus the friction power results.

An enlargement of the leadership game on the whole scope area of valve tappet or tappet guide, as in the US-PS is proposed, however, leads to tilting of the valve lifter in the guide bore.

The object of the invention is to avoid the ge called disadvantages even with high cam forces low-practice operation between tappet and guide bore guarantee.

The task is inventively characterized in ning part of claim 1 mentioned features ge solves. Further configurations and advantages go out of the Subclaims and the description.

A cam operated against a spring force Valve tappet is guided in a tappet guide. With increasing cam speed takes the cam force and thus the Deformation of the valve lifter, especially a cup pestle, too. The plunger material gives way in its lower area in the longitudinal direction of the cam axis. If this deformation exceeds the leadership game between Valve tappet and tappet guide, this Ver formation significantly increases friction. Because a ver enlargement of the leadership game or a crowning of the Tappet in danger of tilting the valve tappet in the tappet guide entails in the invention resetting the guide surface of the valve tappet tion only in the area of the ram deformation. How already above  shown, there is a deformation of the plunger in Art an oval deformation only in an area around the longitudinal direction of the cam axis so that it is sufficient reset the ram guide in this area. As A reset of the Guide surface over half the circumferential length of the plunger leadership proven. A reset via the is also sufficient half the height of the ram guide, because - as mentioned above - the Deformation takes place only in the lower tappet part.

An exemplary embodiment of the invention is described below the drawing. It shows

Fig. 1 is a side view of a bucket tappet in its guide,

Fig. 2 is a side view of a plunger according to the invention lead,

Fig. 3 is a view of a plunger guide in the top view.

Fig. 1 shows a side view of a bucket tappet 1 in its guide bore 2. The bucket tappet is actuated by a cam 3 against the force of a spring, not shown here. The longitudinal axis of the cam or the cam axis is denoted by 4 . Due to the force exerted by the cam 3 on the cup tappet 1 , the latter deforms especially in its lower region in the longitudinal direction of the cam axis 4 , which leads to a pressure of the cup tappet 1 on the guide bore 2 in this area and thus an increased friction between them both parts. Wear also increases in this area.

In Fig. 2 is shown in a side view of a tappet guide fiction, how the surface of the guide bore 2 is reset about half the height of this guide bore 2 in an area 5 . This reset can e.g. B. done by clearing the guide hole 2 in this area 5 . As already mentioned above, this reset is not required over the entire height of the guide bore 2 , since the tappet deforms only in its lower region.

Fig. 3 shows the top view of a tappet guide according to the invention. The guide bore is again designated 2 . In order to compensate for the oval deformation of a bucket tappet, which is not shown here for the sake of partial play, the guide bore 2 is reset on its half circumferential length in the areas 5 , ie in the two areas each extending ± 45 ° to the longitudinal direction of the cam axis 4 . Since the tappet deforms under the influence of the cam force only in the longitudinal direction of the cam axis 4 , a reset of the surface of the guide bore 2 is only necessary in this direction. As a measure of the reset 0.1. . . 0.2 mm proved to be sufficient. Resetting the surface of the guide bore 2 in the loading areas 5 corresponds to an increase in the guide bore diameter in these areas.

Claims (2)

1. Valve tappet guide for actuatable against a spring force stroke valves in valve-controlled reciprocating internal combustion engines with a guide bore, which is formed on part of its circumference in an area facing the valve side of the tappet, with an increased play relative to the tappet, thereby in that the guide bore (2) is cleared at their extending in the longitudinal direction of the cam axis (4) regions (5) on half of its circumferential length. 2. Valve tappet guide according to claim 1, characterized in that the clearance extends over half the height of the guide bore ( 2 ).