DE2908196A1 - Crankless four-stroke piston engine - has piston working in guide forming four quarter-ellipses for controlling stroke - Google Patents

Abstract

The crankless four-stroke piston engine performs a complete working cycle with one revolution of the main shaft. The suction stroke is smaller than the power stroke, and spark- or compression-ignition can be used. Due to the longer power stroke, the piston uncovers outlet ports (4) at bottom dead centre, through which part of the gas can escape, while the whole of the rest is forced out through the exhaust valve. The piston works in a guide comprising four quarter-ellipses and determining its stroke.

Description

Internal combustion engine

The internal combustion engine is a four-stroke piston engine without a crankshaft, which completes every 4 cycles with one rotation of the main shaft.

The engine is made up of a housing (11), cylinder (3) and pistons (5), cylinder attachment (7), piston guide in drawing I (9), in drawing II wreath (8), main shaft (10), which is firmly connected to the piston guide (9) and cylinder head (3) with inlet and outlet valves <1).

The piston (S) is connected to the piston guide (9) by a large roller (6) and two small rollers (8) connected. The big role rolls on the outer one Path of the piston guide. The small rolls roll on the inner two Orbits.

The upper part of the piston is cylindrical with sealing and oil control rings provided and moves in the cylinder.

The lower part with its sliding surfaces moves in the cylinder base and takes on the time pressure. The valves are driven by the cams on the Main shaft driven.

In drawing I: the piston guide moves counterclockwise and the piston is at the lowest dead point. With a further rotation of 900 it opens the outlet valve and the piston push the gases out completely. At top dead center the inlet valve opens and pure fuel air mixture is sucked in at the further IJmtl revolutions around 900.

The suction stroke is smaller than the expansion stroke. The two hatches can be chosen at will.

With the further rotation m 900, the gases are compressed according to the Desired degree of compaction. Ignition now takes place and the gases expand the end. The force is transmitted through the piston, large roller, piston guide to the Axis in circling motion.

At the bottom dead center, the piston passes the outlet openings and some of the gases escape. The pressure in the cylinder almost falls BTS to atmospheric Pressure.

This function is possible due to the structure of the piston guide, the Has 4 different center distances.

Advantages over the Otto engine: 1. The gear of the piston is at the same as for the Otto engine in all 4 strokes, which means that residual gases remain in the cylinder. In our engine, the nhas are completely ejected and it becomes a pure fuel-air mixture sucked in. This results in better combustion and a higher temperature.

2. The Aursdehntlngsrrolumen is larger than the suction volume, thereby one can better utilize the remaining energy of the exhaust gases and the efficiency is increased.

3. Because the exhaust gases can escape at the lowest part of the cylinder, the temperature in the cylinder falls and the engine needs less cooling.

4. In the Otto engine, each piston has a connecting rod and one Crankshaft. With our engine you can use a piston guide or a ring connect several pistons to achieve additional efficiency.

5. In the Otto engine, the reciprocating masses are very large. With our engine, the reciprocating masses are very small. You correspond just the weight of the piston.

6. With the Otto engine you need an additional one for the valve drive System. In our engine, the valves are only activated by 2 cams on the main shaft driven.

7. Our engine has no lubrication problems, because all parts that are lubricated are inside the housings. The parts lubricate themselves by atomizing the oil, which is obtained by immersing the piston guide forms in the oil.

8. The structure of our engine is easier than the Otto engine, lighter and cheaper, the weight is lower and the size of the engine is more space-saving. Ignition is also easier.

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Claims (1)

Claims 1. Our four-stroke piston engine, which with one revolution the main shaft completes the entire work cycle is characterized by that each piston executes different paths in the cylinder for all four strokes. Cycle I) S ou ting The suction stroke is smaller than the working stroke Act II) D i c h t e n The compression can be chosen so that foreign æundunq and self-ignition can occur. Diesel process is also possible. Cycle III) M e r b r e n u n g In the case of combustion, the path is the Piston larger than in the case of the intake, which means that there are outlet openings at the bottom dead center (4) through which some of the gases can escape. Cycle IV) S e ctiv e by opening the exhaust valves the gases are completely expelled by the piston. These 4 cycles form a new one Method that is characterized by the fact that the piston guide is made up of 4 different 1/4 T-like Elypses is put together, all 4 different center distances that determine the movement of the piston. 2. The K o 1 b e n is characterized in that it is through a large roller ((;) and connected to the piston guide (9) by two small rollers (8) is. The piston head is cylindrical at the top with compression rings and an oil control ring attached, which guide the piston in the 7ylinder approach. 3. The Z y 1 i n d e r a n s a t z is characterized in that it has 4 sliding surfaces that guide the piston and absorb the lateral pressure. 4. Our ore winding is characterized in that when drawing I the piston is outside the piston guide and in drawing 11 the Piston is inside the piston guide. In drawing II, the control can be through inlet and outlet slot take place. Model is available. 5. Our invention is characterized in that one Piston guide can connect multiple pistons with cylinders. 6. Our invention is characterized in that on the Hau @ ptwelle 2 cams are attached that control all inlet and outlet valves. 58. Our invention is characterized in that the lubrication of the piston and all internal parts by immersing the piston guide in the deepest Point in the oil takes place and thus causes atomization.