DE885786C - Two-cylinder two-stroke internal combustion engine with two scavenging pumps - Google Patents

Description

Two-cylinder two-stroke internal combustion engine with two scavenging pumps The invention relates to a two-stroke internal combustion engine with two working cylinders in a row, which are flushed with air by means of two piston pumps. The piston wash pumps are also in a row, at a fork angle, in a Y-shape opposite arranged in the row of working cylinders. The pump pistons are double-acting designed in such a way that they with the outer piston side of the purge air to the adjacent working cylinder and with the inner piston side the purge air to the Promote more widely distant working cylinder.

A B.rennkraftmaschine has been proposed in which the row of pump cylinders is arranged opposite to the direction of rotation of the crankshaft opposite the row of working cylinders with a fork angle α which is the same as the angle ß by which the pump pistons later reach their outer dead center position reach the inner dead center position as the working piston of the neighboring working cylinder. The crank pin or eccentric pin for driving the pump piston leads the crank pin for driving the adjacent working piston in the direction of rotation of the crankshaft by an angle y, which is determined by the formula: y = igö ° -2 a = i8o! ° '-a ß. The tilting moments of the masses moving back and forth in the pump cylinder row are made the same size as the tilting moments of the masses moving to and fro in the row of working cylinders. The stroke of the pump piston is much smaller than. the stroke of the working piston. The pump pistons can be driven by an eccentric. The tilting moments of both rows of cylinders result in a constant wobble moment that rotates with the crankshaft. It is fully balanced by counterweights on the crankshaft. These counterweights are arranged in the plane which bisects the angle between the crank pin and the associated eccentric pin arranged next to it, on the plane of the two pins. opposite side. These counterweights are combined with the counterweights for balancing the rotating masses of the crankshaft and the connecting rods and the eccentric rods. The present invention shows some embodiments and developments of this internal combustion engine. In the following the invention is shown and described with reference to three figures. Fig. I shows a cross-section of a two-cylinder two-stroke engine with the row of flushing pump cylinders arranged at 45 'to the row of working cylinders according to line II of Fig. 2. The working piston of the ranged working cylinder shown in Fig Associated pump piston driven by an eccentric drawn shortly before reaching the outer dead center position.

Fig. 2. shows a longitudinal section of the two-cylinder engine through the Row of working cylinders along line II-II in Fig. I. The left working piston is drawn in the upper and the right in the lower dead center position. the Outlet channels of the left working cylinder are to the left and those of the right working cylinder directed to the right.

Fig. 3 shows a horizontal section along the line III-III of Fig. I through the two working cylinders at the level of the flushing and outlet channels with a top view on the two piston flushing pumps with the pump covers removed.

In the Aibb. i Abis 3 i is the left and 2- the right working cylinder. A-B is the cylinder axis of the left and C-D that of the right working cylinder. 3 is the left and q. the right working piston. 5 is the left and 6 is the right Connecting rod, 7 the left and 8 the right crank pin for the working piston. the the two crank pins 7 and 8 are mutually offset by 180 °. a is the cylinder spacing of the two working cylinders.

9 are flushing channels and io out, laßkanäle of the working cylinder. ii is the crankcase, which here is cast together with the working cylinders. The working cylinders can also be inserted individually into the motor housing. 12 is the crankcase, which is not used to procure purge air. 13 is the crankshaft. It is stored here three times. Its direction of rotation is indicated by the arrow drawn as clockwise. 14 is the left and 15 is the right pump cylinder. 16 is the double-acting left pump piston designed as a conical disc piston and 17 is the right pump piston. 18 is the left and i9 is the right guide piston for the disc pistons, which have a much smaller diameter than the pump pistons. 2o is the cylinder liner for the left guide piston and 2i is the one for the right guide piston. These cylinder liners 2a and 21 are inserted separately into the engine housing so that the crankshaft with the two eccentric rods can easily be installed in the engine housing. Parts 16 and 18 are not visible in the figures. 22 in Fig. I is the eccentric and 23 is the eccentric rod for the pump piston 17. 24 is the axis of the right eccentric 22. The left eccentric is labeled 25. 27 is the left eccentric rod. EF is the cylinder axis of the left piston pump and GH that of the right piston pump. Their mutual longitudinal spacing is denoted by b. 28 are counterweights on. the crank webs 29 of the sink l crankpin 7 and 30 counterweights on the crank webs 3 i of the right crank pin B.

In Fig. I, 32 are common for the outer and inner pump side Suction slots halfway up the pump cylinder wall, alternating between the pump pistons be steered up. The piston skirt133, the disc piston of the piston pump is to measure the amount of this common. Suction slots shorter than its stroke. Appropriate the piston skirt has a sealing ring at the outer and inner end. 34 is the outer cover that is common to both pump cylinders.

The. Outlet channels io of the two working cylinders are towards the ends of the cylinder block and at an oblique angle to the side of the pump cylinder mangled. This gives according to the invention the advantage that the cylinder spacing of the Working cylinder is small and that those located on the pump side of the cylinder block Scavenging channels 35 in the longitudinal direction of the engine as possible in the longitudinal center of the cylinder bank and therefore far from the cylinder axis of the associated pump cylinder are so that the scavenging air from the outer pump chamber through a separate pressure line 36 can be guided unhindered to these flushing channels. The outer flushing channels 37 receive the scavenging air from their outer pump chamber through a second scavenging air line 38, which is guided under the outlet channels to these flushing channels. The right working cylinder and the pump cylinder is a mirror image of the left working and pump cylinder and also has a supply channel 39 for the flushing channels on the pump side and a second, 40, for the flushing channels on the opposite side. 41 is a partition between the scavenging air pressure lines and scavenging channels of the left and right working cylinder. 42, is a connecting channel between the outer Pump chamber of the left piston pump and the inner pump chamber of the right piston pump. In the same way, ¢ 3 is a connecting channel between the outer pump chamber of the right piston pump and the inner pump chamber of the left piston pump. These connecting channels lie in the space between the two pump cylinders. The interconnected pump rooms work together. Due to the double action of the pump piston can. their diameter and their stroke can be kept relatively small.

It is also possible to use the pump piston instead of an eccentric pin To drive crank pins that have a smaller stroke than that for .the working piston exhibit and are normally arranged between two crank webs. The disc piston the piston pump is detachably screwed to the guide piston, so that the guide piston is accessible and can be easily installed and removed. The pump cylinder is here also cast together with the motor housing like the working cylinder. the Working cylinders can also be individually installed in the motor housing with a surface underneath the flushing and outlet channels are used.

Due to the lag angle of the pump piston compared to the working piston of 30 to 60 ° crankshaft rotation angle, in the present example of d.5 ', the height of the scavenging ducts can be more than 25% of the working piston, for example 30% and more compared to the height of the Flushing channels of 20 '/ o with in-phase movement of pump and working piston. As a result, the cross-section of the flushing channels is 1.5 times larger, the duration of the flushing process is 1.5 times larger and the time cross-section is 1.7 times larger, so that the engine speed can be increased by 70% with the same flushing pressure .

The invention is equally suitable for gasoline as it is for diesel engines because of their good mass balance and because of the possibility of using higher ones and large flushing and exhaust channels for high speeds and power, so in particular for drive motors of road vehicles.

Claims (1)

PATENT CLAIMS: i. Two-stroke internal combustion engine with two working cylinders in a row and with purging by air by means of two piston pumps, which also arranged in a row at a fork angle to the row of working cylinders are, characterized in that the working cylinders are designed with reverse flushing are, in which the flushing channels are on both sides next to the outlet channels and direct the scavenging air onto the cylinder wall opposite the outlet channels or are directed so that the scavenging air on the opposite of the outlet channels Cylinder half flows to the cylinder head, and that the exhaust ports of the. Front Working cylinder after the front end and that of the rear working cylinder after the rear end of the working cylinder row are directed. z. Two-stroke internal combustion engine according to claim i, characterized in that from the outer pump side both a separate rinsing air pressure line to the rinsing channels on the side of the pump cylinder as well as a separate scavenging air pressure line to the scavenging channels on the pump cylinders opposite side of the adjacent and associated working cylinder leads. 3. Two-stroke internal combustion engine according to claims i and 2, characterized in that that the flushing air pressure line to the flushing channels on the pump cylinder side each Working cylinder is arranged in the space between the two pump cylinder axes and that the scavenging air pressure line to the scavenging ducts from the pump cylinders remote side of the working cylinder row of each working cylinder from the ends the pump cylinder bank goes out and passes under the outlet channels. q .. two-stroke internal combustion engine according to claims: en i to 3, characterized in that the outlet channels of the working cylinder at an oblique angle to the ends of the cylinder bank and to the side the pump cylinders are too directed. 5. Two-stroke internal combustion engine according to the claims i to q., characterized in that the pump cylinder is made in one piece with the Motor housing are cast. 6. Two-stroke internal combustion engine according to claims i to 5, characterized in that the guide cylinder of the guide piston of the piston pumps are detachably inserted into the motor housing. 7. Two-stroke internal combustion engine according to claims i to 6, characterized in that the outer pump chamber each Pump with the inner pump chamber of the other pump through a connecting channel is in constant communication and that the two intersecting connecting channels are arranged in the space between the two pump cylinders. B. two-stroke internal combustion engine according to claims i to 7, characterized in that counterweights on the crankshaft are arranged on both cheeks of each crank pin for the working cylinder.