DE1476086B1 - Cylinder for two-stroke internal combustion engines - Google Patents

Description

The invention relates to a cylinder for two-stroke internal combustion engines with at least one outlet seat released by the piston in the area of bottom dead center, and several overflow ducts running upwards in the cylinder wall, obliquely to the longitudinal axis of the outlet, for a mixture feed from the crankcase.

The purging of combustion gases from the cylinder of two-stroke engines has long been a practice Problem.

As is known, the combustion gases are purged from the cylinder bore through exhaust ports in that part of the cylinder wall which is not covered by the piston during the last part of its downward stroke. This is effected by a flowing flushing medium which is fed into the cylinder through the inlet slots also in that part of the cylinder wall which is released by the piston during its downward stroke . ao

The inlet and outlet slots are when using the fuel air. Mixture as detergent arranged so that the greatest possible detergent effect is achieved with the lowest possible loss of detergent, which affects the overall efficiency of the machine, as

The manufacture of cylinders for such two-stroke machines becomes expensive because machining of the slots is required.

To simplify the processing, it is necessary to provide slanting transfer ports in the cylinder wall is known (French patent 1 092 282), which end at the same level as the outlet port so that takes place upon release of the slots in each case, a uniform flow over the whole covered with slots Überströmbreite.

It has been shown, however, that with this arrangement of overflow wires, which can be produced in a simple manner the scavenging effect in the cylinder wall is poor, d. H. either combustion gases in Cylinders remain or combustible kraitstodluigeniisch gets into the outlet slot.

The task on which the invention is based is such a cylinder for two-stroke Brennkniftmaschinen to create, in which, without increasing the cost of processing and processing best possible spray effect without loss of fuel lift mixture is achieved.

According to the invention, this is achieved in that the overflow channel * in a manner known per se end approximately at the same height below the upper edge of the outlet slot and that of the outlet slot the closest overflow channel is shorter for a later opening of the overflow opening than the other overflow channel is.

Through this positive arrangement it opens in a known manner the outlet slot first, and in connection therewith the spill flow first is terminated at the side of the piston head opposite the outlet port /, thus preventing that pulpable mixture from the outlet slot flows out even when a full flush is performed.

I) L * Fifindiin · ', is used in the following on the basis of the Drawings explained in more detail on an all-guide example. It shows

1 shows a longitudinal section through the upper part of the machine with a cylinder according to the invention, with the piston approximately at bottom dead center

F i g. 2 one of the P i g. 1 corresponding section showing the piston during the upstroke of the fan cylinder when the slots are closed,

F i g. 3 a longitudinal section through the cylinder with the piston approximately at top dead center,

F i g. 4 shows a section through the cylinder liner along the line 4-4 in FIG. 1,

F i g. 5 shows a cross section through the cylinder liner along the line 5-5 in FIG. 4 and

6 shows an axial section through the machine at right angles to FIG. 1.

In the drawing is the upper part of a two-stroke internal combustion engine It is shown with a cylinder block 11 and the upper part 12 of the crankcase 14th

The cylinder block is provided with a plurality of cooling fins 15. The cylinder head 16 is Shown in one piece with the cylinder block, but can of course also be a separate component his, which is attached to the cylinder block in a known manner. The cylinder head also has cooling fins 17 and contains a combustion chamber 18 on its inside.

A cylinder liner 20 is cast into the cylinder block 11.

The cylinder liner 20 formed by a wall 22 has a bore 21 which is open on both sides. On one side, the cylinder liner 20 is provided with an eye 24 which has some outlet slots 25 which are connected to the bore 21 of the cylinder liner 20 through outlet openings 26. While two outlet slots 25 are shown and described, it is of course also possible to provide only one such slot or more than two. These outlet slots 25 are attached to the cylinder liner 20 so that they are controlled by the piston 28 reciprocating in the bore 21.

On the opposite side of the cylinder liner 20 there is an eye 29 with an inlet slot 30 which is connected to the bore 21 of the cylinder liner 20 through an inlet opening 31. The inlet slot 30 is arranged below the outlet slot 25 so that it is also controlled by the piston 28 and is exposed in the upper stroke range of the piston 28.

Approximately at right angles to the eyes 24 and 29 for the outlet and inlet slots 25, 30, the cylinder liner 20 is provided with diametrically arranged projections 33, each of which forms an overflow channel. One or a number of overflow channels can be provided. In the exemplary embodiment, three overflow channels 35, 36 and 37 are provided. The upper ends of these channels lie essentially at the same height in a horizontal plane below the level of the upper end of the outlet slits 25. The lower ends of the channels 35, 36 and 37 lie above the lower end of the bore 21.

The piston 28 has a piston head 28α and a Kolbenmautel 28 /), the ports 28 c on diametrically ilen projections 33 opposite Seitin, wherein the openings c 28 so located that they at various piston positions with a 'gene or with all the transfer ports 35 , 36 and 37 come into contact.

i 476

When the machine is in operation and the piston 28 is at bottom dead center, the openings are open 28 c in piston 28 in connection with all overflow channels 35, 36 and 37. A fuel-air mixture that has been sucked into the interior of the crankcase s 14 by the downward movement of the piston 28 compressed. At this time, the inlet slot 30 is closed by the piston skirt 28 ύ and the outlet slot 25 is open.

The transfer channels are at the first 45 ° to 70 ° of the crank rotation from bottom dead center 35, 36 and 37 open so that the fuel-air mixture can flow out of the crankcase 14, can flow through the overflow channels 35, 36 and 37 around the piston 28 in the cylinder. Between 55 ° to 90 ° of the crankshaft rotation from bottom dead center, the outlet slots 25 are open, so that the combustion gases can escape.

When the piston 28 moves further upwards, the upper ends of the transfer channels 35, ao 36 and 37 covered. As soon as the piston head 28 a closes the overflow channels 35, 36 and 37, is the flow of the fuel-air mixture upwards into the upper part of the cylinder is interrupted. this takes place before the piston head 28 a reaches the upper ends of the outlet slots 25, so that these remain open longer than the overflow channels 35. 36 and 37. If the piston head 28 a the upper Reached the edge of the outlet slots 25, these are also closed and the fuel-air mixture in the cylinder Above the piston 28 is compressed by the further upward movement of the piston 28 In Fig. 2 shows the piston 28 in the position in which it closes the outlet openings 26.

If the piston 8 continues to move upwards from this position, while the fuel-air mixture is compressed in the upper part of the cylinder above the piston 28 in the combustion chamber 18, by the piston 28 the inlet port 31 is released, which is connected to the carburetor or other device is connected to mixture formation. The upward movement of piston 28 builds in the crankcase 14 a vacuum, and as soon as the piston skirt 28 ft, the inlet opening 31 is released fresh fuel shift mixture through the inlet port 31 into the lower part of the cylinder and the related crankcase 14 sucked.

When the piston, as shown in Fig. 3, its has reached top dead center and the fuel-air mixture in the upper part of the cylinder and in the Combustion chamber 18 is fully compressed, is ignited by a spark plug 18 a. When the piston is down moves, it first reaches the outlet slots 25 and begins to open them, so that the combustion gases begin to escape. At the same time, the piston 28 has closed the inlet port 31 and the fuel-air mixture begins to compress in the crankcase 14.

With the further downward movement of the piston 28, the overflow channels 35, 36 and 37 are opened and, since the openings 28 c in the piston skirt 28 b are in connection with the overflow channels, the fuel-air mixture compressed in the crankcase 14 flows through the openings 28 c and the overflow channels 35 , 36 and 37 upwards into the top of the cylinder. Because of the inclination of the overflow ducts 35, 36 and 37 in the opposite direction in the outlet slots 25, the fuel-air mixture flows in the upper part of the cylinder away from the outlet openings and circulates so that the combustion gases in the upper end of the cylinder and the combustion chamber 18 are flushed out and along the side of the cylinder can be discharged downwards through the outlet slots.

Claims (1)

Claim: Cylinder for two-stroke internal combustion engines with at least one outlet slot released by the piston in the area of the bottom dead center and several overflow ducts running upwards obliquely to the cylinder longitudinal axis in the cylinder wall for a mixture feed from the crankcase, characterized in that the overflow ducts (35 , 36. 37) end in a manner known per se at approximately the same height below the upper edge of the outlet slot (25) and that the overflow channel (35) closest to the outlet slot (25) is shorter than the others for later opening of the overflow openings Overflow channels (36, 37) is. 1 sheet of COPY drawings