DE10201932A1 - Internal combustion engine for four-stroke combustion process has camshaft with number of cam lobes distributed equally over circumference of cam, and crankshaft rotating at RPM which is dependent upon number of cam lobes - Google Patents

Abstract

The internal combustion engine for a four-stroke combustion process has a crankshaft-driven camshaft (2), the cams (1) of which each have a number of cam lobes (3) distributed equally over the circumference of the cam. The crankshaft rotates at a RPM which is 2 x Z that of the camshaft, where Z is the number of cam lobes and is at least 2. Therefore, with two lobes on the cam the crankshaft rotates at four times the RPM of the camshaft.

Description

The invention relates to an internal combustion engine for a Four-stroke combustion with a camshaft with cams and a crankshaft.

It is well known that in an internal combustion engine for a four-stroke combustion process, the camshaft to operate the gas exchange valves and / or the injection pumps with the half speed of the crankshaft rotates. This will be a Four-stroke combustion over two crankshaft revolutions allows. This translation to half the speed of Crankshaft is powered by a gear or when the Camshaft is arranged in the cylinder head, mostly by a Circumferential transmission shown. This is on the crankshaft a small wheel and twice as big on the camshaft Wheel arranged. The belt drive can as Toothed belt drive or be designed as a chain drive. By the big wheel on the camshaft reaches the engine a large height.

The object of the invention is to drive the valves and / or the injection pumps with less friction and less space display.

This task is accomplished by an internal combustion engine with the Characteristics of claim 1 solved.

The internal combustion engine according to the invention has a camshaft with cams on which are a number Z cam lobes located evenly around the circumference. To one To enable four-stroke combustion, the Turn crankshaft correspondingly faster, at Z Cam elevations exactly at a speed, the 2.Z the Camshaft speed corresponds. The number Z is an integer and greater than or equal to 2. In the known design for Four-stroke internal combustion engine Z is equal to 1. For each Z, the 2 or larger, the camshaft rotates slower. Because the Friction increases quadratically to the speed, it is beneficial to reduce the camshaft speed, and thus the friction in the so-called control drive, d. H. Camshaft with Drive, reduce.

In one embodiment of the invention (claim 2) rotates the camshaft with a quarter of the crankshaft speed. On Each cam of the camshaft are two cam lobes evenly distributed over the circumference, d. H. around 180 ° twisted against each other. This is the case for Z = 2. For two Cam lobes per cam, it is still relatively easy, the To distribute surveys over the circumference, without the Starting ramp of one survey with the ramp of the other Upset each other. For even more cam lobes For this reason, the base circle of the cam must be under Circumstances are increased. Two cam lobes, however do not require an enlarged base circle, but reduce at the same time the speed of the camshaft by half and so also the friction.

In a further embodiment of the invention (claim 3) between the crankshaft and the camshaft a gearbox with arranged at least two stages. By a two-stage Arrangement of the transmission is a space-saving design in terms of the length and height of the internal combustion engine easy represented by a small gear or sprocket on the Camshaft the height of the internal combustion engine at one for the Installation of the internal combustion engine in a motor vehicle crucial point is reduced.

In a further advantageous embodiment of the invention (claim 4), the ratio 11 of a first stage of the two-stage transmission is designed so that the speed after the first stage corresponds approximately to the speed of the camshaft. A second stage has a ratio 12 of approximately 1. The overall ratio i _g = i _1. I _{2 of} the transmission is so large that crankshaft speed 2 .Z is the camshaft speed. At Z = 2, ie two cam lobes per cam, the crankshaft rotates four times as fast as the camshaft. By the second gear ratio, which is about one, a small gear or sprocket is allowed on the camshaft, resulting in a low overall height of the internal combustion engine.

In a further advantageous embodiment of the invention (Claim 5) is an intermediate between the first and second gear stage driven an accessory. By the relatively low speed of the intermediate member can be Ancillaries, such as a refrigerant compressor or a power steering pump, drive directly. This can be a Belt drive for ancillaries are greatly simplified or completely eliminated if an electric water pump and a so-called starter-generator is provided.

In a further embodiment of the invention (claim 6) provided a step of the transmission as a belt transmission. For example, if the second stage of the transmission as Chain drive is running down, due to the almost halved chain speed the noise emission and the friction in the chain drive.

Further features and feature combinations emerge from the Description as well as the drawings. concrete Embodiments of the invention are simplified in the drawings shown and in the following description in more detail explained. Show it

Fig. 1 shows a cam according to the invention with two cam lobes and

Fig. 2 is a two-stage gearbox for driving the camshaft.

In Fig. 1, a cam 1 of a camshaft 2 with two cam lobes 3 is shown in cross section. The two cam lobes 3 are arranged rotated by 180 ° on the cam 1 . As a result, the gas exchange valves, not shown, are operated twice per revolution of the camshaft 2 . If, in addition, an injection pump is driven by cams 1 of the camshaft 2 , their actuation also takes place twice per revolution of the camshaft. An advantage of two cam lobes 3 on a cam 1 is that no forces and moments arise due to eccentric mass distribution in the cam. This causes a quieter running of the camshaft 2 and thus the noise reduction is beneficial.

FIG. 2 shows a two-stage transmission 4 for driving a camshaft 2 from a crankshaft 5 . The crankshaft 5 is mounted in a crankcase, not shown, and carries at its front end a first gear. 6 The first gear 6 drives a second gear 7 , which has four times the number of teeth of the first gear and therefore rotates at a quarter of the crankshaft speed. On the second gear 7 is rotationally fixed a first sprocket 8 . The bearing of the second gear 7 and the first sprocket 8 takes place, for example, in the crankcase, not shown. From the first sprocket 8 , a chain 9 leads to the second sprocket 10 , which has the same number of teeth as the first sprocket and is rotationally fixed on the camshaft 2 . On the camshaft 2 , the cam 1 with two cam lobes 3 are arranged. By this two-stage ratio, the camshaft 2 rotates at a quarter of the rotational speed of the crankshaft. 5 Due to the double cam lobes 3 , however, a four-stroke combustion method is possible, which repeats cyclically after two revolutions of the crankshaft.

The low gear ratio (1: 4) in the first gear stage with the gears 6 , 7 enables a 1: 1 gear ratio in the second gear stage, whereby the second gear stage chain 9 moves at a speed that is only half the speed is that prevails in a conventional chain drive to the camshaft. This and the lower half speed of the camshaft 2 reduce the friction in the drive of the valve control of the internal combustion engine substantially. Since the chain 9 runs slower, it does not need to be so much attenuated or guided due to lower vibrations, which additionally reduces the friction in the chain drive. At the same time, a slow chain 9 is quieter than a fast chain.

The sprocket 10 on the camshaft 2 is designed with a very small number of teeth due to the 1: 1 ratio of the second gear stage, and therefore very small in diameter. The number of teeth depends only on the minimum number of teeth for sprockets and for the minimum diameter, which is necessary on the camshaft 2 for fixing the sprocket 10 . Due to the small wheel diameter of the sprocket 10 , it is possible to make a hood or cover, not shown, low and flat over the sprocket and the camshaft 2 , whereby the outline of the internal combustion engine at an exposed point, which, for example, the contour of a vehicle engine bonnet, significantly reduced.

The gear 7 and the sprocket 8 are mounted on a common shaft 11 in the crankcase, not shown. The shaft 11 additionally drives an auxiliary unit 12 , such as a refrigerant compressor or a power steering pump. Due to the low speed of the shaft 11 (1/4 of the speed of the crankshaft 5 ), a direct drive of the above-mentioned auxiliary unit 12 is possible, ie without further translation. By driving the auxiliary unit 12 , z. B. a coupled arrangement of refrigerant compressor and power steering pump, from the shaft 11 from a simpler belt drive is possible, or the belt drive can be omitted entirely when a water pump is electrically driven and a generator is driven directly from the crankshaft 5 . As a result, the overall length of the internal combustion engine is shortened. For this arrangement of the shaft 11 with an auxiliary unit 12 , a lateral position of the shaft in the crankcase is advantageous.

Claims (6)

1. internal combustion engine for a four-stroke combustion with a crankshaft driven camshaft with cam, characterized in that on the cam ( 1 ) a number Z cam lobes ( 3 ) are evenly distributed over the circumference of the cam and that the crankshaft ( 5 ) with a 2.Z-fold speed of the camshaft ( 2 ) rotates, where Z is integer and at least 2. 2. Internal combustion engine according to claim 1, characterized in that on the cam ( 1 ) two cam lobes ( 3 ) are distributed uniformly over the circumference of the cam and that the crankshaft ( 5 ) rotates at a four times the speed of the camshaft ( 2 ). 3. Internal combustion engine according to claim 1 or 2, characterized in that between the crankshaft ( 5 ) and the camshaft ( 2 ) an at least two-stage gear ( 4 ) is arranged. 4. Internal combustion engine according to claim 3, characterized in that in a first stage of the transmission ( 4 ) a ratio with a gear ratio i ₁ of about 1 / 2.Z and in a second stage, a gear ratio with a ratio i ₂ of about 1 carried out is such that the total ratio i _g = i ₁ .i ₂ gives exactly 1 / 2.Z. 5. Internal combustion engine according to claim 3 or 4, characterized in that in the transmission ( 4 ) an auxiliary equipment ( 12 ) driving intermediate member is arranged. 6. Internal combustion engine according to one of claims 3 to 5, characterized in that a step of the transmission ( 4 ) is a belt transmission.