DE4234941C2 - Internal combustion engine - Google Patents

Description

The invention relates to an internal combustion engine, in particular Two-stroke engine, with the features of the generic term of Main claim.

Such a structure of an internal combustion engine is from the the following publications are known: DE 41 00 256 A1, DE 34 47 663 A1, DE 32 18 311 C2, US 4,512,291, US 4,373,474, DE 41 10 945 A1 and US 2,354,357.

In these engines there is between the piston and the crankshaft a separate antechamber is provided, the volume of which is determined by the Piston movement is changed. Because the crankshaft is outside this antechamber, the dead volume, which at conventional engines unchanged by the piston movement remains, can be significantly reduced. The dead volume can be in In extreme cases reduced to the volume of the overflow channel become. This creates the possibility that already in the prechamber the fresh gas to a much higher level Pressure is pre-compressed than in the known Internal combustion engines. This flows to a high pressure pre-compressed fresh gas into the combustion chamber, it will not  only achieved a better cylinder filling, but also one more effective cylinder flushing achieved. The residual gas content in The combustion chamber can be reduced to a minimum. Does that exist? Fresh gas only from intake air, so it can be purchased be taken that part of this in the combustion chamber incoming compressed air again via the outlet channel occurs outdoors, which has the advantage that the Exhaust gases from the combustion chamber to an even greater extent be rinsed out. Still remains due to the relatively high Pressure of the pre-compressed fresh gas the filling volume high.

The US 2,354,357 shows an engine in which the between Piston and the crankshaft boundary wall can be shifted by a gear. It is because of that Pre-compression ratio changeable, however constructive effort for this very high.

Can be considered disadvantageous in such a motor structure be that the pre-compression of the fresh gas in the Antechamber is limited to a fixed value, or high structural precautions in accordance with US 2,354,357 must be taken in order to increase the pre-compression ratio to change.

The invention is therefore based on the object To provide an internal combustion engine of the type mentioned at the outset, optimal pre-compression in a simple way  can be adjusted and easily adjusted.

This object is achieved by the characterizing Features of the main claim solved.

The arrangement of the cover in the piston Pre-compression set to the desired value. Should he If the value of the precompression is changed, only the Piston against another piston with a different arrangement Lid can be replaced. In addition, the serves from Piston plate and cover enclosed space as Isolation room that an undesirable heating of the in the Pre-chamber gas is prevented.

In a further training it is provided that the Boundary wall is provided in the area of the cylinder base. This will move the entire cylinder from the piston into the Antechamber and divided into the stroke and combustion chamber. Their respective volumes depend directly on the position of the piston in the Cylinder and depending on the position of the cover. The densifications both in the antechamber and in the displacement and combustion chamber therefore take place exclusively in the cylinder.

The side facing away from the displacement and combustion chamber is advantageous of the piston locked. This closed side forms a boundary wall for the antechamber. The piston can be hollow, which has the advantage that this cavity as  thermal insulator between the displacement and combustion chamber and the Antechamber serves.

In a preferred embodiment, the Internal combustion engine designed as a boxer engine, wherein in particular at least two cylinders are opposite each other. This has the advantage that the energy for the main compression, Pre-compression and for suction directly over the Transfer the piston rod from one piston to the other piston without having to interpose the crankshaft. At the crankshaft, only the one to be delivered is then omitted Power. This enables bearings of all drive units be dimensioned smaller, since only the one to be dispensed Power is diverted from the piston-piston rod system.

The piston rod preferably engages in the middle of the piston. As a result, a symmetrical flow of force is achieved Tilt tendencies of the piston reduced to a minimum. this has the advantage that the piston itself is relatively flat can be, although in extreme cases it is only as a die Washer receiving piston ring is formed.

The piston rod is preferably via sealing elements, for. B. sealing a shaft seal or the like in the boundary wall guided. These sealing elements allow optimal Sealing the prechamber so that it is already relatively high Pressures can be achieved. Sealing the  Crankcase against overpressure is only so far required that no fluids emerge from the crankcase can. The crankcase can also be vented be provided.

For the transfer of the output to be output to the output is the piston rod with a backdrop, swing arm or the like connected to the crankshaft. The back and forth over this backdrop movement of the piston rod into a rotary movement implemented.

In one embodiment, the prechamber is a Inlet valve having inlet valve, and at a Training of the stroke and combustion chamber with an exhaust valve provided outlet channel. Via the valves, the inflowing or outflowing gases can be precisely controlled so that no backflow occurs. The valves are advantageous designed as check valves or flaps.

In a preferred development, the volume is Antechamber changeable. This can Compression ratio or the absolute pressure in the combustion chamber be set to optimal values. In particular are for Diesel engines can achieve extremely high pressures.

The volume of the displacement and combustion chamber preferably corresponds to that 0.5 to 2 times the volume of the antechamber.

Advantages, features and details of the invention emerge from the following description, in which with reference to the drawing particularly preferred embodiments in individual are reproduced. Show:

Figure 1 is a partially sectioned side view of a piston-cylinder unit of a first embodiment of the invention.

FIG. 2 shows a view according to FIG. 1 of a piston-cylinder unit according to the prior art;

Fig. 3 is a view according to Figure 1 with a cut piston.

FIG. 4 shows a view according to FIG. 3 of a second embodiment;

5 shows a longitudinal section through a constructed as a two-cylinder piston engine combustion engine. and

Fig. 6 shows a section VI-VI of FIG. 5 through the output unit.

In Figs. 1 to 4, a designated 1 piston-cylinder unit is reproduced. 2 and 2 'is a cylinder, 3 and 3' is a piston and 4 and 4 'is a cylinder head. The piston 3 executes linearly oscillating movements in the cylinder 2 in the usual way. He divides the cylinder interior into a stroke and combustion chamber 5 located in front of the piston 3 and a space located behind the piston 3 . In stroke and the combustion chamber 5, the combustion takes place, wherein a spark plug 6, and if necessary may project an injection nozzle 7 in the lifting and combustion chamber. 5 Furthermore, an inlet channel 8 and an outlet channel 9 are provided, each of which can be closed via a valve 10 or 11 . The valves 10 and 11 can be designed as check valves or flaps. On the piston 3, a connecting element 12 engages, which connects the piston 3 with a in FIGS. Crankshaft 13 schematically shown in Figure 5 and 6. Such a structure is usually used in two-stroke engines.

The connecting element 12 in FIG. 2, in which the prior art is shown, is designed as a connecting rod 14 which transmits the oscillating movements of the piston 3 to the crankshaft 13 . The connecting rod 14 carries out pivoting movements around the piston pin bearing 15 and oscillating movements in a known manner. For this purpose, the connecting rod 14 requires a space to be kept clear or dead space behind the piston 3 . The space 16 located behind the piston is connected to the stroke and combustion chamber 5 via an overflow channel 17 when the piston 3 assumes its bottom dead center.

In the first exemplary embodiment of the invention shown in FIG. 1, the connecting element 12 is designed as a piston rod 18 , which connects the piston 3 to the crankshaft 13 . This piston rod 18 only performs linearly oscillating movements in the direction of arrow 19 . No additional space next to the piston rod 18 is required for this, which is also easy to see from FIG. 1. It can also be seen that the space located behind the piston 30 is closed off by a boundary wall 20 , as a result of which a prechamber 21 is formed. This prechamber 21 is therefore enclosed by the piston 3 , the rear end of the cylinder 2 and the boundary wall 20 . The overflow channel 17 opens into this antechamber 21 . A sealing of the piston rod 18 in the boundary wall 20 takes place via a sealing element 22 which, for. B. is a shaft seal.

In Fig. 3, in which the piston 3 is shown in section, it can be seen that the piston foot is closed by a cover 23 . This lid 23 is, for. B. welded and is used for additional support of the piston rod 18th The volume of the antechamber is reduced by means of the cover 23 by separating the space 24 located in the piston 30 . This space 24 can be used as a thermal insulation space.

In the embodiment of FIG. 4, the cover 23 is located approximately in the middle of the piston, as a result of which the space 24 is reduced and the volume of the prechamber 21 is increased.

In the basic diagram of an embodiment of the internal combustion engine according to the invention shown in FIG. 5, it is designed as a boxer engine. The two cylinders 2 and 2 'are opposite each other and the two pistons 3 and 3 ' are connected by a common piston rod 18 . From Fig. 5 it is clear that no side forces or tilting movements act on the pistons 3 and 3 'and that the inertial forces are significantly reduced by the lack of connecting rods. In addition, the boxer design of the internal combustion engine results in a design that is smaller by the connecting rod bearing width. In addition, a link 25 with a sliding insert 26 is attached to the piston rod 18 , with which the oscillating movements are transmitted to the crankshaft 13 .

The function of the internal combustion engine is briefly described below. From its way from the bottom dead center toward the top dead center of the opening into the lifting and combustion chamber 5 openings of the overflow channel 17 and the outlet channel 9 are closed and the piston compresses in a conventional manner The spa located in the lifting and combustion chamber 5 fresh gas. After igniting the compressed fresh gas and after the piston 3 has passed top dead center, it is pressed into its bottom dead center position. On the one hand, the fresh gas drawn into the pre-chamber 21 is precompressed, the valve 10 having been closed beforehand. In addition, the piston 3 'is moved from its bottom dead center toward top dead center. The power transmission from the piston 3 to the piston 3 'takes place directly via the piston rod 18 without the intermediary of the crankshaft 13 . In the area of the bottom dead center, the exhaust gas located in the lifting and combustion chamber 5 is expelled and the fresh gas pre-compressed in the prechamber 21 is blown into the lifting and combustion chamber 5 via the overflow channel 17 . Since the fresh gas flows into the lifting and combustion chamber 5 at a relatively high pressure, optimal purging is achieved. If no fuel has yet been added to the fresh gas, this can in part also be blown out again via the blow-out channel 9 to further improve the purging. In any case, the high pre-compression of the fresh gas causes the stroke and combustion chamber 5 to be filled quickly and thoroughly after the valve 11 is closed .

A further improvement in the filling can be achieved in that the fresh gas via a charging device, for. B. an exhaust gas turbocharger or the like. Is promoted in the prechamber 21 .

The released torque is transmitted to the crankshaft 13 via the link 25 and the sliding insert 26 . The sliding insert 26 slides in the link 25 in the view shown in FIG. 5 in the vertical direction and the link 25 itself oscillates in the horizontal direction.

In FIG. 6, the gate 25 is shown in section and the sliding insert 26, 27 of the crankshaft 13 engages around the connecting rod designed in the manner of storage, clearly visible. The two oscillating movements of the link 25 and the sliding insert 26 overlap for the rotary movement of the crankshaft 13 .

Claims (11)

1. Internal combustion engine, in particular two-stroke engine, with at least one cylinder ( 2 ), a reciprocating in the cylinder ( 2 ), a reciprocating, a stroke and combustion chamber ( 5 ) delimiting piston ( 3 ), a crankshaft ( 13 ) and one crankshaft (13) with the piston (3) coupling connecting element (12), wherein a connected via an overflow channel (17) with the lifting and combustion chamber (5) pre-chamber (21) is provided behind the piston (3), wherein at least one Section of the connecting element ( 12 ) is designed as a linearly oscillating piston rod ( 18 ) that the piston rod ( 18 ) is guided through a boundary wall ( 20 ) arranged between the piston ( 3 ) and the crankshaft ( 13 ), and that the piston ( 3 ), a part of the cylinder ( 2 ) and the boundary wall ( 20 ) enclose the prechamber ( 21 ), the crankshaft ( 13 ) being outside the prechamber ( 21 ), characterized in that the piston ( 3 ) essentially consists of one There is a piston skirt, a piston crown and a cover ( 23 ) provided in the area of the piston base, the piston crown and cover ( 23 ) enclosing a space ( 24 ). 2. Internal combustion engine according to claim 1, characterized in that the boundary wall ( 20 ) is provided in the region of the cylinder base. 3. Internal combustion engine according to claim 1 or 2, characterized in that the side of the piston ( 3 ) facing away from the stroke and combustion chamber ( 5 ) is closed. 4. Internal combustion engine according to one of the preceding claims, characterized in that it is designed as a boxer engine, and in particular at least two cylinders ( 2,2 ') are opposite each other. 5. Internal combustion engine according to one of the preceding claims, characterized in that the piston rod ( 18 ) engages in the middle of the piston ( 3 ). 6. Internal combustion engine according to one of the preceding claims, characterized in that the piston rod ( 18 ) via sealing elements ( 22 ), for. B. a shaft seal or the like. In the boundary wall ( 20 ) is sealingly guided. 7. Internal combustion engine according to one of the preceding claims, characterized in that the piston rod ( 18 ) is connected to the crankshaft ( 13 ) via a link ( 25 ), rocker arm or the like. 8. Internal combustion engine according to one of the preceding claims, characterized in that the prechamber ( 21 ) is provided with an inlet valve ( 10 ) having an inlet channel ( 8 ). 9. Internal combustion engine according to one of the preceding claims, characterized in that the lifting and combustion chamber ( 5 ) is provided with an outlet valve ( 11 ) having an outlet channel ( 9 ). 10. Internal combustion engine according to one of the preceding claims, characterized in that the volume of the prechamber ( 21 ) is variable. 11. Internal combustion engine according to one of the preceding claims, characterized in that the volume of the lifting and combustion chamber ( 5 ) corresponds to 0.5 to 2 times the volume of the prechamber ( 21 ).