DE666717C - Rotary valve control for internal combustion engines - Google Patents

Description

Rotary slide control for internal combustion engines The invention relates to a rotary valve control for two-stroke internal combustion engines with one for only one Cylinders determined rotary valves arranged between the crank chamber and the cylinder.

There are rotary valve controls for two-stroke internal combustion engines known, in which the overflow of the fresh gas mixture from the crankcase into the cylinder chamber takes place during the upward movement of the piston. With these the rotary valve has only a single passage, so that the crank chamber does not have a long enough time is connected to the cylinder space. This has the consequence that the filling of the explosion space with fresh gases does not take place to the desired extent, since reloading is mediated the flow energy of the overflow gas is as good as impossible.

The correct overflow times alone could with the help of a Slide with only one opening in connection with the piston in the desired Way can be achieved, and it could suck the fresh gas into the crank chamber for example, as usual by a piston window o. The like. Controlled. the Control of the fresh gas inlet through the piston has the disadvantage that the The opening and closing times are symmetrical about the dead center positions of the piston. It is therefore not possible to achieve a fresh gas inlet, the beginning of which at the end of the exhaust collapses, so very considerably behind the bottom dead center position while the end is reached shortly after the top dead center position.

Furthermore, controls are known in which the inlet of the fresh gas is controlled by the working piston, while closing is controlled by a rotary valve he follows. In these arrangements, too, the fresh gas only begins to flow over after bottom dead center, so when the piston is up, so that too no reloading takes place.

The invention provides a rotary valve control with which has a relatively long overflow time of the fresh gas and thus an effective one Reloading is achieved. This measure has a significant increase in efficiency of the engine. The advanced effect is achieved through one another independent starting points that are at the dead center positions at any control angle and termination points of the inlet and overflow of the fresh gases. The essentials The feature of the invention is that the two independent channels own rotary valve with one channel only the gas inlet in, the crank chamber and with the other channel the overflow of the fresh gas from the crank chamber controls in the cylinder so that the transfer port later than that through the Piston released outlet, but before bottom dead center, is opened while the closure of the overflow channel after closing the outlet by the piston and after opening the inlet of the fresh gases into the crankcase takes place through the piston and the inlet port after the top dead center position of Y, 0: bens is completed. This way the cylinder can be reloaded properly scored3 '.' In the figures, the invention is shown for example at = `. They show: Fig. I a longitudinal section through the two-stroke internal combustion engine, Fig. 2 a schematic view of the rotary valve housing with the inlet and outlet openings, Fig. 3 a section through the rotary valve along the line A-A of Fig. 2, Fig: q. a section through the rotary valve along the line B-B of Fig. 2, Fig. 5 the Diagram of the control according to the invention, Fig. 6 and 7 different crank and Slide positions.

Between the crankcase i and the cylinder 2 is parallel to the crankshaft 3 a rotary valve q. switched; the one with the same speed as the crankshaft rotates and is driven by this by gears or chain drive. The rotary valve q. is designed as a hollow cylinder, one end of which is closed off by a base 5 while the other end is connected to the carburetor 6. The casing of the rotary valve is indented at one point, so that a trough-shaped depression 7 is created, and at an underlying point it has a rectangular opening 8, the Size determines the inflow time of the fresh gas from the carburetor 6 to the crankcase i. In the rotary valve housing 9 a channel io is provided which opens into the crankcase, and also a channel ii, to which an overflow channel leading to the cylinder 2 is located 12 connects. The upper end edge 13 of the overflow channel 12 is higher than the upper end edge 14 of the outlet channel 15, so that the overflow channel i2 still is somewhat open when the piston 16 has already covered the outlet channel 15. Further the rotary valve housing also has a third channel 17, which is also in the crank chamber i opens.

The mode of operation of the two-stroke engine with rotary valve control is the following: Assuming the piston 16 is in its lower dead position (Fig. i), the pre-compressed fuel-air mixture is already flowing out of the crank chamber i through the channel: [o via the trough 7 of the rotary valve into the overflow channel 12 and in. The cylinder 2, while the exhaust gases exit through the outlet 15 or purged will. When the piston 16 is upward, first the outlet 15 and then the overflow channel-12 covered. Meanwhile the piston in the crank chamber goes up creates a negative pressure so that by about the time of the outlet closure entering connection between the carburetor 6 and the crankcase i via the ': -Open 8 and channel 17 fresh gases on. jgQsucked. After completing the Over: flow channel 12 takes place in the usual way, the compression of the gases, their Ignition and combustion. The gas inlet into the crank chamber extends somewhat beyond the upper piston dead position. When the piston goes down, this is in the Crank chamber contained, relatively large volume of gas precompressed so that a lot of gas can enter the cylinder during the following overflow period, especially since the discharge period is shorter in time and is favorably shifted.

Fig. 6 shows the position of the motor crank and the rotary valve at the beginning of the overflow, Fig. 7 at the end of the overflow.

The advantages of the invention emerge clearly from the control diagram according to Fig. 5. The lines emanating from the center of the circle each indicate the crank position of the engine, namely EA means the inlet beginning, EE the inlet end, UA the overflow beginning, ÜE the overflow, AA the outlet start and AE the outlet end.

As can be seen, EA to EE encompasses a relatively large angle, which is mainly before reaching the top dead center, so that during a large part of the piston upward gear fresh gases sucked in from the carburetor will. This amount of gas, which is compressed during the downward gear, is then made possible later when overflowing into the cylinder it is filled with more gas than is the case with the known ones Arrangements is the case, so that the performance of the engine is significantly increased will.

This greater filling of the cylinder is also achieved by that the overflow period stored more favorably than in the previously known engines is. As can be seen from the diagram, the control according to the invention takes place first shut off the outlet and only then cover the overflow channel, so that more fresh gas gets into the cylinder and good reloading is achieved. The upper end edge 13 of the overflow channel does not act as a. Control edge.

Claims (1)

PATENT CLAIM: Rotary valve control for two-stroke internal combustion engines with one intended for only one cylinder, between the crank chamber and the cylinder arranged rotary valve, characterized in that the two mutually independent Rotary valves with channels with one channel only. Gas inlet into the crank chamber and with that the flow of fresh gas from the other channel Controls the crank chamber in the cylinder so that the transfer passage later than the the outlet released by the piston, but before bottom dead center, opened is, during the completion of the overflow channel after closing the outlet through the piston and, after opening the inlet of the fresh gas into, the crankcase takes place through the piston and the inlet channel after the top dead center position of the piston is completed.