DE2746203A1 - Opposing paired cylinders of iC engine - are connected by common piston rod, with independent connecting rods providing swivel connection to crankshaft - Google Patents

Abstract

The internal combustion engine has counterposed cylinders with a crankshaft located between them. The pistons of the opposing cylinders (13, 14 & 15, 16), which are arranged in pairs, are connected to each other by common connecting rod (19, 22), and further connecting rods (23, 24) swivel connect them to the crankshaft. A further arrangement is for a common connecting rod to connect the piston pair to the crankshaft, and for the piston rods (19, 22) of each pair to be connected to rod frame, which is H-shaped, via a traverse, with the head of the common connecting rod to the crankshaft to be swivelable connected to this traverse.

Description

Title: Internal Combustion Engine

The invention relates to an internal combustion engine with an opposite one another Cylinders and a crankshaft arranged between them.

In engines of this type, which are also called boxer engines, is the piston of each cylinder with a connecting rod on a crank pin of the Crankshaft connected, with the crank pins facing each other Cylinders are usually offset from one another around 1800. Here each must The piston executing the working stroke passes the pistons of the remaining cylinders via the crankshaft drive in which the fuel-air mixture is sucked in, compressed or after its Combustion is emitted. As the crankshaft with several crank pins must be stored in several places, there are a large number of friction points, which result in loss of strength. Furthermore, the named engine type has the disadvantage that piston, connecting rod and crank pin come into line when a dead center is reached and the greatest for generating the highest compression Force would have to be transmitted to one of the opposing pistons.

The object of the invention is to avoid these disadvantages and a Internal combustion engine of the type explained in more detail at the outset to be designed in such a way that the losses reduced by bearing friction and inertial forces and simplified design and function and the motor can be manufactured at a lower cost.

This object is achieved with the invention in that the pistons of two cylinders facing each other in pairs through a common one Piston rod connected to each other and with a pivoting connecting rod are connected to the crankshaft.

This configuration has the advantage that in a four-cylinder engine a maximum of two crank pins and a maximum of three crankshaft bearings are required.

Each piston is separated from the piston of the opposite cylinder each driven directly via the common piston rod, none of which itself special storage is required. Nonetheless, with the appropriate transfer of the den Connecting rods of the respective pairs of pistons assigned to an almost complete crank pin Mass balancing can be achieved.

It is particularly useful when the piston rods of two pairs of pistons rigidly connected to each other and with a single connecting rod to the crankshaft are connected. In this configuration, the crankshaft requires a four-cylinder engine only a single connecting rod pin on which a single connecting rod acts, whose Mass can easily be balanced by counterweights. The crankshaft must then can only be stored twice.

The piston rods of two pairs of pistons can be crossed by a crossbeam be connected to an H-shaped linkage frame, with the head of the connecting rod is pivotably mounted on the traverse.

This embodiment is particularly simple and enables a special Cost-saving design, as the number of moving parts is reduced to a minimum is. The power is transmitted from the working piston to the piston of the the other three cylinders of a four-cylinder engine directly and without friction losses in the bearings of the crankshaft and in the bearing shells of the crank pin. Since less There are rotating and moving parts in rotary bearings, there is a smaller one Wear and tear and the engine becomes lighter in its entirety. It is useful to to forge or cast the H-shaped piston rod frame in one piece.

According to a further feature of the invention, it is useful at least to arrange four cylinders in one plane, as is known per se in boxer engines and the crankshaft is to be provided outside this plane. Then the crank pins for the connecting rods of two pairs of cylinders offset by 180 °, they achieve Pistons of one pair of cylinders are not to their front or rear dead center same time as the pistons of the other cylinder pair, but only after one certain little time difference. This allows the arrangement to be made that the working piston still exerts a torque on the crankshaft, when the compressing piston produces the greatest compression.

According to a further feature of the invention, at least four cylinders be arranged in the same plane as the crankshaft and the piston rods can have slots extending in the longitudinal direction of the piston rods, through which the connecting rod engages. This configuration has the advantage that the crankshaft can be arranged in the same plane as the pairs opposing cylinders. Here, the connecting rods of the pistons adjacent cylinder be connected to each other and on a common connecting rod pin attack the crankshaft. In another embodiment without piston rods it is also possible that the pistons of two opposite each other Cylinders connected connecting rods on a common connecting rod journal of the crankshaft to run.

The invention can be applied to almost all multi-cylinder engines, in particular in four-cylinder, six-cylinder and eight-cylinder engines. at For eight-cylinder engines, it is useful to have four cylinders each via an H-shaped linkage together and work both rods on the crankshaft via a connecting rod each to let whose crank pins then also appropriately offset against each other by 1800 are. It is also possible, with eight cylinders, to have four pairs of pistons with four connecting rods to be connected to the crankshaft in such a way that the crank pins are each 900 against each other are offset, as is known per se in eight-cylinder engines. Here will be the eight cylinders are expediently four in two planes on either side of the crankshaft arranged.

Further features and advantages of the invention result themselves from the following description and the accompanying drawings of exemplary embodiments, in which the invention is explained in more detail. It shows: Fig. 1 the cylinder arrangement an engine according to the invention in a schematic representation in plan, FIG. 2 shows the object of FIG. 1 in a section along line II-II, FIG. 3 shows the object Fig. 1 in a side view along line III-III, Fig. 4 shows an engine according to the Invention in another embodiment in horizontal section, Fig. 5 a Another embodiment of an engine according to the invention in a schematic Horizontal section, FIG. 6 is a perspective, schematic illustration of the pistons with their piston rods and the connection to the crankshaft with a partial section by two cylinders, Fig. 7 shows a further engine according to the invention in one of the Fig. 2 or 3 corresponding, schematic representation and Fig. 8 is a schematic drawing the crankshaft of an eight-cylinder engine according to the invention.

1 to 3 is a four-cylinder boxer engine according to the invention shown schematically, which is a triple-bearing crankshaft 10 with two crank pins 11 and 12. On both sides of the crankshaft 10 are two cylinders 13, 14, 15, 16 arranged in a plane immediately above the crankshaft 10 are and of which two each, namely the cylinders 13 and 14 on the one hand and the cylinders 15 and 16, on the other hand, face each other in pairs. The pistons 17 and 18 of a pair of cylinders 13, 14 are through a piston rod 19 and the Pistons 20 and 21 of the second pair of cylinders 15, 16 are through a piston rod 22 rigidly connected to each other, so that there are two axially opposite one another Pistons 17 and 18 or 20 and 21 can only move together and in one direction.

In the embodiment shown in Figs. 1 to 3 is the pair of pistons 17, 18 with a connecting rod 23 and the pair of pistons 20 and 21 with a piston rod 24 connected to the two crank pins 11 and 12, respectively 1800 are offset from one another (Fig. 2 and 3). In the example shown here is the connecting rod 23 of the pair of pistons 17, 18 on the piston 17 and the connecting rod 24 of the pair of pistons 20, 21 are articulated on the piston 21. The firing order is given in FIG and is such that the fuel-air mixture in the illustration shown initially is ignited in the cylinder 13, while the already sucked in mixture in the cylinder 14 is compressed. The piston 17 executing the working stroke pushes the Piston 18, which compresses the mixture, directly via piston rod 19 into the cylinder 14, while the mixture is sucked into the cylinder 15 and out of the cylinder 16 burned mixture is emitted. The compressed one ignites during the next work cycle mixture in the cylinder 14, while the cylinder 15 is compressed and the cylinder 16 is sucked in. It can be seen that the piston 21 is already in its upper dead position during this working stroke has reached before the piston 18 executing the working stroke under the expanding Fuel gases has reached its extreme position in which the connecting rods 23 and 24 assume the positions shown in FIGS.

In the exemplary embodiment shown in FIG. 4, 25 is the Cylinder block 25 designated by a water jacket 26 for the cooling water 27 surrounded and closed at the end faces by the cylinder head plates 28 and 29 is. The crankcase 30 is located between four opposing pairs Cylinders 13, 14 and 15, 16 in which the pistons 17 and 18 or 20 and 21 are arranged are. In contrast to the embodiment according to FIGS. 1 to 3, all four are here Pistons 17, 1d, 20 and 21 rigidly to one another by means of an H-shaped piston rod frame 31 connected, which is forged or cast in one piece. On the transverse Traverse 32 of the H-shaped linkage frame is a single connecting rod 33 articulated, which in a manner not shown here on a crank pin which is not here crankshaft shown in more detail acts. The firing order is with numbers 1, 2, 3 and 4 indicated on the four pistons of the engine, the cylinders of which have hemispherical combustion chambers 13a, 14a, 15a and 16a in which the inlet and outlet valves 34 and 35 and the spark plugs 36 are arranged.

The embodiment shown in FIGS. 5 and 6 shows a four-cylinder engine with, for example, an air-cooled cylinder block 25 in its four cylinders 13, 14, 15 and 16, pistons 17 and 18 and 20 and 21, respectively arranged are. As in the embodiment according to FIGS. 1 to 3, the pistons 17 are and 18 of the one pair of pistons through the piston rod 19 and the pistons 20 and 21 of the second pair of pistons are firmly connected to one another by the piston rod 22. in the In contrast to the embodiment shown in FIGS. 1 to 3 is located the crankshaft 10, however, not below, but in the plane of the piston rods 19 and 22. So that crankshaft 10 and piston rods 19 and 22 are not mutually exclusive hinder, the piston rods 19 and 22 have extending in their longitudinal direction Slots 37 and 38, respectively, through which the crankshaft 10 passes.

The crankshaft 10 is mounted in the crankcase 30, carries outside of the crankcase, the flywheel 38 and has a inside of the crankcase 30 single crank pin 39. A connecting rod 40 engages on this crank pin, which forks into two arms 40a and 40b, one of which is on the piston pin 41 of the piston 18 and of which the other on the one not shown here The piston pin of the piston 20 is pivotably mounted. As a result, the and forwards movement of the cylinders, which are all due to the arrangement shown move simultaneously in the same direction and by the same amount of the connecting rod 40 rotates the crankshaft 10, the flywheel 38 smoothing the movement and balances. To balance the mass of the connecting rod 40, the crank webs 42, in which the crank pin 39 is mounted, on the one opposite the crank pin Side provided with extensions 43, which serve as a counterweight.

All three embodiments can be used for multi-cylinder engines, which have an even number of cylinders. The embodiment according to FIGS. 1 to 3 can for two-, four-, six-, eight-cylinder engines etc. be used, while the embodiment of FIG. 4 on the one hand and after the 5 and 6, on the other hand, preferably for four-cylinder and eight-cylinder engines are intended.

In Fig. 7, an eight-cylinder boxer engine is shown schematically in a longitudinal section shown. The eight cylinders are each four in two, one on top of the other, arranged horizontal planes that extend above and below the crankshaft 10 are located. Assuming that the type shown in FIG. 4 is used finds connecting rod 33 of the top four, through an H-shaped linkage frame 31 interconnected pistons opposite the connecting rod 33 'of the lower four Cylinder connected to crankshaft 10 offset by 1800. The arrangement is then hit in such a way that the rod frames 31 resp.

31 'interconnected pistons of the top four cylinders at each Crank rotation in the opposite direction to the piston of the lower cylinder, so that a good mass balance is achieved. Of course it is also possible for everyone to arrange eight cylinders next to each other in one plane, whereby then something like the 2 and 3 results in the image shown.

Will only ever have two pistons opposite one another with one Combined piston rod, it is useful in eight-cylinder engines that are shown in Fig. 8 indicated cranking of the crankshaft to choose, in which the connecting rods one attack each piston pair offset by 900 on the crankshaft 10.

The invention is not limited to the exemplary embodiments limited. For example, it is also possible for two-cylinder and six-cylinder engines to connect two opposing pistons positively with one another and to act together on a crank pin of a crankshaft without this exceeds the scope of the invention.

Claims (10)

Title: Combustion engine T e p r ict: 1. Combustion engine with opposing cylinders and one arranged between them Crankshaft, characterized in that the pistons of two each other in pairs opposite cylinders (13, 14 or 15, 16) by a common piston rod (19 or 22) connected to each other and with a pivotally mounted connecting rod (23 or 24) are connected to the crankshaft (10). 2. Motor nacti claim 1, characterized in that the piston rods (19, 22) of two pairs of pistons (17, 1. and 20, 21) s-tarr connected to one another and connected to the crankshaft (10) with a single connecting rod (33 or 40) are. j, engine according to claim 1 or 2, characterized in that the Piston rods (19, 22) of two pairs of pistons each through a traverse (32) to one H-shaped linkage frame (31) are connected and that the head of the connecting rod (40) is pivotably mounted on the cross member (32). 4. Motor according to one of claims 1 to 3, characterized in that dab the H-shaped piston rod frame (31) forged or cast in one piece is. 5. Motor according to one of claims 1 to 4, characterized in that that at least four cylinders (13, 14, 15, 16) are arranged in one plane and the crankshaft (10) is outside this plane. 6. Motor according to one of claims 1 to 4, characterized in that that at least four cylinders (13, 14, 15, 16) are arranged in the same plane like the crankshaft (10) and that the piston rods (19, 22) extend in the longitudinal direction the piston rods have extending slots (37, 38) through which the crankshaft (10) reaches through. 7. Motor, in particular according to one of claims 1 to 6, characterized in that dab on the pistons (17, 18 or 20, 21) of two opposite each other Cylinders connected connecting rods on a common connecting rod journal of the crankshaft (10) run. 8. Motor according to one of claims 1 to 7, characterized in that daX the connecting rods (40a and 40b) of the pistons (18, 20) of adjacent cylinders (14, 15) are connected to each other and on a common connecting rod pin (39) of the crankshaft (10) attack. 9. Motor according to one of claims 1 to 8, characterized in that that each of two opposing cylinders (13, 14 and 15, 16) exist Pairs of cylinders of multi-cylinder engines in two parallel planes are arranged on both sides of the crankshaft (10). 10. Motor according to one of claims 1 to 9, characterized in that that with Melr cylinder engines two pairs of pistons connected by piston rods (17, 18 or 20, 21) with their connecting rods (33 or 40) offset by 1800 on the crankshaft (10) are connected.