EP0302851A2 - Reciprocating piston internal combustion engine - Google Patents

Abstract

The invention relates to a reciprocating piston internal combustion engine, in which the piston draws in air or a fuel-air mixture on its underside on its way to top dead center via a flap valve or the like and, on its return movement, precompresses this gas via a further flap valve or the like a connecting line supplies the intake control elements of the internal combustion engine. In order to avoid the disadvantage of the known internal combustion engines of this type, which compress the fresh gas into the crankcase, which results in poor pre-compression efficiency of the engine piston due to the large damage space formed by the crankcase, the invention provides that the crankcase, which has a substantially circular cross-section, is provided (1) a ring slide (12) is rotatably mounted, through which the connecting rod (5), which has constant dimensions in the direction of the crankshaft axis (3 ') at least in the area of the ring slide (12), passes through with little play, and thus in the ring slide ( 12) form a suction (A) and a pressure chamber (B) of a separate connecting rod pump (P), and that the working space of a piston pump (K) formed by the piston (4), the liner (2) and the ring slide (12) is one Has suction (21) and an outlet channel (23) with associated diaphragm valves (22 and 24).

Description

The invention relates to a reciprocating internal combustion engine, in which the piston sucks fresh gas on its underside on its way to top dead center via a controlled opening and precompresses this gas when it moves back and supplies it to the cylinder of the internal combustion engine via a connecting line and a further controlled opening the connecting rod, which, including the large bearing eye, has the same dimensions in the direction of the crankshaft axis, and seals with its parallel end faces on flat counter surfaces in the crankcase and forms two separate spaces there, which form a connecting rod pump by means of control elements.

A two-stroke internal combustion engine of this type is described in DE-PS 710 288, in which the entire crankcase is connected to the intake openings when being sucked in by the crankcase pump, but when the pump charge is compressed, the crankcase is compressed by the connecting rod which also serves as the delivery piston in addition to the working piston is divided into two rooms. Of these rooms, only the space in the direction of rotation in front of the connecting rod serves to compress the load, the separation of the two spaces being carried out by tightly guiding the connecting rod on its side surfaces and its crank rod on the flat and circular inner surfaces of the crank arms. To seal the piston-side end of the connecting rod, a side extension is attached to it, with its side parts and its outer end on the inner walls of a bulge arranged at the transition from the cylinder to the crankcase and with a contour corresponding to the movement of the extension.

With this version of the crankcase pump for a two-stroke internal combustion engine, the efficiency, which is low per se, has only been increased slightly as a result of the large damaged spaces, and this with a relatively large structural size Expenditure. Piston and connecting rod pumps are connected via the crankcase space as a common suction and pressure chamber, so that the application is limited to two-stroke engines.

US Pat. No. 3,973,532 describes a four-stroke reciprocating piston internal combustion engine, the piston of which draws air or fuel-air mixture into the crankcase on the way to its top dead center and, on its return movement in the crankcase, conveys pre-compressed air to the intake members of the internal combustion engine. A poor pre-compression efficiency of the engine piston is particularly disadvantageous due to the large damage space formed by the crankcase. To achieve high air flow rates, e.g. for diesel engines, it is known from DE-OS 36 37 811 to arrange an additional auxiliary piston which can be driven by the crankshaft in the opposite direction to the working piston. On the one hand, this results in high friction losses and overall poor mechanical efficiency. Furthermore, the installation space dimensions increase in any case and there is a considerable additional effort.

The invention has for its object to avoid these disadvantages and also to create a versatile crankcase pump.

The invention is that a ring slide is rotatably mounted in the crankcase, which passes through the connecting rod with little play, so that the working space of a piston pump is formed by the piston, the liner and the ring slide, each having a valve-controlled intake and exhaust channel, and that the connecting rod seals over gaps on the one hand with the crank web and on the other hand with the end cover of the crankcase and thus form a suction and a pressure chamber of a separate connecting rod pump in the ring slide valve, each with a recess in the end cover of the crankcase, which is approximately mirror image of the one in the lower one Connecting rod standing dead center are arranged, each with subsequent, controlled inlet and outlet channels in connection.

The damage volume of the piston pump is very small and Pressure increases in this pump are therefore correspondingly large. The connecting rod divides the chamber enclosed by the ring slide into two continuously changing volumes, a suction and a pressure chamber. By working with the connecting rod as a displacement element, high pressure increases can be achieved due to complete sucking in and pushing out without significant damage volumes. The flow rate can be varied with the same stroke by changing the connecting rod width and thus adapted to different tasks. The small dead space created by this arrangement increases the pre-compression efficiency considerably. The air volume conveyed is used for purging a two-stroke engine and a four-stroke engine as pre-compressed charge air.

This invention thus provides a possibility of charging without an external flushing or charging blower for two- and four-stroke diesel or gasoline engines as well as for internal combustion engines that use other fuels e.g. Gas, are operated. Despite the high gain in delivery capacity of the engine piston, there is practically no increase in the volume compared to internal combustion engines with conventional crankcase purging.

A simple embodiment according to the invention results from the fact that the passage opening for the connecting rod in the ring slide is constant and the widths of the connecting rod are dimensioned over their length such that the play of the connecting rod with respect to the passage opening is approximately constant at all angular positions of the connecting rod.

According to the invention, it can be provided that the connecting rod pump draws in and compresses air and, together with the piston pump, conveys it into a collecting pipe arranged on the suction side. For certain applications, the connecting rod pump can advantageously serve as an independent pump for conveying foreign gases and the piston pump for supercharging the engine.

Frictional losses can be kept low by dynamically sealing gaps.

• Fig. 1 eine erfindungsgemäße Brennkraftmaschine im Schnitt nach der Linie I-I in Fig. 2 und
• Fig. 2 einen Schnitt nach der Linie II-II in Fig. 1, die
• Fig. 3 bis 6 schematische Darstellungen derselben Maschi­ne zur Erläuterung deren Wirkungsweise.

The invention is explained below with reference to the drawing. Show it:

• Fig. 1 shows an internal combustion engine according to the invention in section along the line II in Fig. 2 and
• Fig. 2 shows a section along the line II-II in Fig. 1, the
• 3 to 6 are schematic representations of the same machine to explain its operation.

The two-stroke internal combustion engine consists of the crankcase 1 with a cast liner 2, the crankshaft 3, the piston 4 and the connecting rod 5. The crankshaft 3 is mounted in the crankcase 1 by means of the roller bearing 6 and has a stepped crank web 7, which with its peripheral surface until it just touches the crankcase 1 or the liner 2 and carries the crank pin 8. This crank pin 8 is encompassed by the large bearing eye 9 of the connecting rod 5, the length of the crank pin being the same dimension of the connecting rod 5 in the direction of the crankshaft axis 3 '. The connecting rod 5, which is drivingly connected to the piston 4 via the piston pin 10, has two parallel end faces 5 'and 5', of which the end face 5 'seals with the crank arm 7 and the end face 5' with the end cover 11 of the crankcase 1 .

In the lower part of the crankcase, a ring slide 12 is rotatably supported by means of needles 13. Instead of the needle bearing, grooves running in the direction of the crankshaft axis can also be provided on one of the sliding surfaces. It is also conceivable to replace the ring slide with a knife gate valve.

The connecting rod 5 passes through the ring slide 12, which is centered on the shoulder 7 'of the crank arm 7 with the aid of the shoulder 12', in a slot 12 ', which is determined by the two rounded end edges 14 and 15 of the ring slide 12, with little play . So that this game remains the same in all positions of the connecting rod, the contour of the connecting rod 5 is adapted accordingly, as FIGS. 3 to 6 clearly show.

The connecting rod 5 divides the space enclosed by the ring slide 12 into the suction chamber A and the pressure chamber B, each of which has a kidney-shaped recess 16 and 17 in the end cover 11 with the inlet channel 18 and the outlet channel in connection. The inlet channel 18 is controlled by the membranes 20, which prevent backflow. Corresponding membranes are provided in the outlet channel 19, not shown.

3 to 6, the operation of the connecting rod pump is illustrated. Starting from the neutral position shown in FIG. 3, in which the connecting rod 5 is in the top dead center position, according to FIG. 4, the pumped medium is already sucked into the suction chamber A and pushed out of the pressure chamber B. 5 shows the position in which the piston or the connecting rod 5 has reached its bottom dead center, the suction chamber A and the pressure chamber B being the same size. In Fig. 6 the pushing out of the medium is almost complete and the suction chamber A has almost reached its maximum value. In all positions of the connecting rod 5, the play between the connecting rod and the end edges 14 and 15 of the ring slide 12 has the desired same small value due to the adapted contour of the connecting rod.

As a result of the closure of its working space relative to the crankcase by the ring slide 12, the piston pump has only a very small clearance, as is readily apparent from FIG. 1. This piston pump sucks in air via the suction channel 21, which is controlled by the membrane 22, and conveys the compressed air through the outlet channel 23, which is controlled by membranes 24. The compressed air flows through the inlet slots 25 in the liner 2 into the cylinder space 26, as indicated by the dashed line 27. At the same time, the burned gases flow out through the outlet slot 28, as indicated by the broken line 29. The air flowing into the connecting rod pump is illustrated by the broken line 30 and the flowing air is shown by the broken line 31. In the event that it is a multi-cylinder machine, a manifold 32 can expediently be provided, into which both the connecting rod pump and the piston pump deliver.

Areas of application of the internal combustion engine according to the invention are both gasoline and diesel engines and gas engines in two and four stroke construction, in particular small engines for use e.g. for chainsaws, portable generators and pumps, moped engines and motors for motorcycles and aircraft propulsion e.g. Gliders. However, the design according to the invention can also be used for larger and larger engines, both in the single-cylinder and in the multi-cylinder design, with a corresponding structural design of the crankcase space.

Claims (4)

1. Reciprocating piston internal combustion engine, in which the piston draws fresh gas through a controlled opening on its underside on its way to top dead center and precompresses this gas when it moves back and feeds it to the cylinder of the internal combustion engine via a connecting line and a further controlled opening and in which essentially a circular cross-section crankcase, the connecting rod, which including the large bearing eye (9) has constant dimensions in the direction of the crankshaft axis (3 '), and seals with their parallel end faces (5, 5') on flat counter surfaces in the crankcase and there two separated Forms spaces which form a connecting rod pump by means of control elements, characterized in that a ring slide (12) is rotatably mounted in the crankcase (1), through which the connecting rod (5) passes with little play, so that the piston (4), the liner ( 2) and the ring slide (12) the working space of a piston pump pe (K) is formed, each having a valve-controlled intake (21) and outlet channel (23), and that the connecting rod (5) on the one hand with gaps to the crank arm (7) and on the other hand with the end cover (11) of the crankcase ( 1) seals and thus form a suction (A) and a pressure chamber (B) of a separate connecting rod pump (P) in the ring slide valve (12), each of which has a recess (16, 17) in the end cover (11) of the crankcase (1) , which are arranged approximately mirror images of the connecting rod standing in the bottom dead center position, are connected to each subsequent, controlled inlet (18) and outlet channels (19). 2. Reciprocating internal combustion engine according to claim 1, characterized in that the passage opening (12˝) for the connecting rod (5) in the ring slide (12) is constant and the widths of the connecting rod (5) over their length so are dimensioned so that the play of the connecting rod relative to the passage opening (12˝) is approximately constant at all angular positions of the connecting rod (5). 3. Reciprocating internal combustion engine according to claim 1, characterized in that the connecting rod pump (P) draws in air, compresses it and conveys it together with the piston pump (K) into a collecting pipe (32) arranged on the suction side. 4. Reciprocating internal combustion engine according to claim 1, characterized in that the connecting rod pump (P) serves as an independent pump for conveying foreign gases and the piston pump (K) for engine charging.

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