DE932641C - Multi-cylinder internal combustion engine - Google Patents

Description

Multi-cylinder internal combustion engine The invention relates to a multi-cylinder Air- or mixture-compressing internal combustion engine with a combustion air or the mixture receiving and with the delivery lines of several axial or radial fans or. with the delivery line of only one blower connected collecting line.

In internal combustion engines of this type, the Pre-combustion air in the manifold or the mixture as a result of it periodically taking place excitation to vibrations, which spread over the feeder line for the medium to have a disruptive effect on the fan or fans and their work orphans under certain circumstances to an inadmissibly strong extent. In view of the conveying characteristics peculiar to the centrifugal fans, according to which when they are reached a certain counter pressure the fan no longer works stably, but in the performance drops, it can happen that due to vibrations in the manifold caused periodic pressure fluctuations occurring in the delivery line Force the blower to change periodically once, stable and the other time to work in the unstable area. The disturbing ones. Vibrations develop naturally then particularly strong when the natural frequency of the gaseous medium in the closed, imaginary collecting line in resonance with the machine speed or a multiple thereof. The object of the invention is seen in to prevent the effect of the disruptive vibrations on the conveyor fan (s). This goal is achieved in that the arrangement of the sampling lines on the Manifold for the medium to be supplied to the cylinders so taken and / or for the internal combustion engine such an ignition sequence is selected that during operation by knot formation in the manifold as a result of the periodically occurring Skim occurring vibrations one or more rexe none or only small pressure fluctuations subject zones arise and that the feed takes place in the manifold in the area of this anger. The structural design the internal combustion engine according to the invention can have any suitable shape.

In an embodiment of the invention, for example, the collecting line have a longitudinal partition or wall for the combustion air or the mixture, wherein the one subspace is in communication with the conveying device and the extraction lines .are connected to the other sub-space. The partition is in the area of the broken through one or more zones of the low pressure fluctuations. The subspace to which the Entnaluneleiiungen are connected can still: one or have several transverse walls.

Furthermore, the collecting line can also be designed as a ring line be. In particular -in those cases, finally, in which the collecting line between If there is two rows of cylinders, it is advisable to put the feed line in the collecting line and to provide openings in the area of the mentioned zones. To save rarity, it can sometimes be advantageous to use the pressure line of the Fan and the collecting line, separated by the cylinder row to be supplied, to lead along the latter and through one or more, preferably between to connect lines leading through the cylinders. As part of the Invention, guide vanes for the inflowing can be used in the area of the feed zones Medium to be attached with advantage.

In the drawing there are some show pictures to explain the. The nature of the invention and some embodiments are shown schematically, for example.

Fig. I shows a tube closed on both sides, the gaseous one Content carries out vibrations; Fig. 2 to 4 represent explanatory sight line pictures to the course of the vibrations in the pipe according to Fig. z- dar; Fig.5 to iö represent schematically various embodiments for the manifold of an internal combustion engine according to the invention represent.

If one looks at the lines along the cylinders of a multi-cylinder internal combustion engine leading collecting line .as a pipe closed on both sides as shown in Fig. 1, via its Length of the sampling lines symmetrically or approximately symmetrically in compliance equal or approximately equal distances from one another are distributed, the individual molecules of the medium in the collecting line during operation of the internal combustion engine in vibrations of a different character depending on the firing sequence offset. With an appropriately chosen firing order lead, for example, in the pipe according to. Fig. I all partially punctiform indicated particles of the enclosed Medium in the longitudinal direction of the pipe at every point in time rectified and, over Plotted over time, sinusoidal oscillations, whose amplitudes, over the Plotted length of the collecting line, the sight line V in Fig. 2 can be seen. Since it is known that with such vibration processes in those pipe sections in To whom the. Molecules of the medium vibrate with the greatest amplitude, the pressure a minimum and vice versa, the speed curve V is a pressure curve P with the from Fig. 2 assigned course. This pressure curve P shows that. de combustion air or the mixture in the pipe alternately like one towards its ends approaching. A surge of water swings. When these fundamental vibrations are excited, how Fig. 2 shows that there is a zone of constant pressure in the middle of the pipe, into which the feed, while avoiding pressure fluctuations in the delivery line of combustion air or a mixture. One can now choose one other Firing order or, if the firing order is given, by arranging the connections accordingly for the sampling lines in the collecting line also a different form of oscillation force.

Fig.3, for example, shows the course of the speed and the Pressure curve when the first harmonic is excited, and Fig. 4 the course of the two curves when the second harmonic is excited. At the suggestion of the first Harmonic, the pressure curve goes twice and when the second harmonic is excited three times through zero, i.e. H. in the first case there are two and in the second case -three Feed-in zones are available. When designing an internal combustion engine in the sense According to the invention, the calculation bases customary in vibration calculations can be used be brought into approach.

The manifold 7 shown schematically in Fig. 5 is for the Attachment to a non-illustrated, air-compressing six-cylinder internal combustion engine intended. The manifold 7 has a shape closed at both ends Tube and six symmetrically distributed extraction openings 1, 2, 3, 4 5 and 6. At an ignition sequence 1, 6 'to 2, 5 to 3, 4 is the first harmonic in the collecting line stimulated, so that the pressure curve takes a pure course according to Fig. 3 and two non-reactive Feed zones for the combustion air are available. This wrath becomes the Combustion air through openings 8 and 9 via two of the pressure line i o one Axial fan i i branching lines 12 and 13 supplied. It goes without saying even that even a feed through the opening 8 or 9 alone is successful ensures. It would also be conceivable for a special fan to be assigned to each zone is.

The collecting container 14 shown in FIG. 6 for a six-cylinder internal combustion engine according to the invention is divided into two spaces 16 and 17 by a longitudinal partition 15. In the space 16 the mixture or the combustion air is liineingefördert and exits through openings 1 8 and i9 in the space 17 above, connected to the sampling lines 2o. are. The openings 18 and 9 are arranged in the area of the feed zones of the room 17.

The manifold 21 shown in Fig. 7 differs from the collecting line according to Fig. 6 in that the subspace 22 to which the extraction lines 23 of the cylinders are connected, divided by a transverse wall 24 and in the area of the transfer openings 25 and 26 in the partition wall 27, guide vanes 28 are arranged are.

AbbA shows one designed as a ring line by means of a partition 29 Manifold.

Fig.9 shows a manifold for a twelve-cylinder internal combustion engine. It is an internal combustion engine with six cylinders in a row and two rows of cylinders are arranged in a V-shape to one another. The collection container 30 is arranged in the V-space between the cylinders. It encloses the delivery line 31 for the mixture or the combustion air. This occurs from the delivery line 31 Medium through openings 32, 33, 34 35 in the area of the feed zones in the collecting container above.

A six-cylinder internal combustion engine is shown schematically in Fig shown in the top view. The cylinders are labeled 36, 37, 38, 39, 40 and 41. On one side of the cylinder row along the manifold 42 leads from the exit from the sampling lines to the individual cylinders, and on the other The side of the cylinder bank carries the one coming from a fan (not shown) Delivery line 43 along. The delivery line 43 and the collecting line are through two pipes 44 and 45 connected to one another. Both pipes lead between two cylinders each and open into the collecting line according to the invention in the area of the feed zones ..

The application of the invention is not to the embodiments described above limited, but also with all other types of collecting lines or collecting tanks possible. The invention would also be advantageously applicable to multi-cylinder piston compressors, who work under the same or similar conditions with regard to the air supply such as the multi-cylinder internal combustion engines on which the invention is based.

Claims (1)

PATENT CLAIMS: i. Multi-cylinder air or mixture compressing Internal combustion engine with your receiving the combustion air or the mixture and with the delivery lines of several axial or radial fans or with the delivery line manifold connected to only one fan, characterized in that that the arrangement of the extraction lines on the manifold for the cylinders medium to be supplied .so taken and / or one for the internal combustion engine Firing sequence is selected that during operation by knotting the in the Collective line as a result of the periodically occurring removal vibrations one or more zones subject to no or only slight pressure fluctuations. arise and that the feed into the manifold takes place in the area of these zones. z. Internal combustion engine according to claim i, characterized in that the collecting line has a longitudinal partition for the combustion air or the mixture, wherein the one subspace is in communication with the conveying device and the extraction lines are connected to the other sub-space, and that the partition in the area of a or optionally several zones of low pressure fluctuations is broken. 3. Internal combustion engine according to claim 2, characterized in that the subspace, to which the extraction lines are connected, has one or more transverse walls. 4. Internal combustion engine according to claim i, characterized in that the collecting line is designed as a ring line. 5. Internal combustion engine according to claim i, characterized characterized in that the collecting line encloses the line that brings the medium to it and the latter is broken through in the area of the zones of slight pressure fluctuations. 6. Internal combustion engine according to claim i, characterized in that the pressure line the fan and the collecting line, separated by the cylinder row to be supplied, guided along the latter and by one or more preferably between the Cylinders through lines are connected to each other. 7. Internal combustion engine according to one of claims i to 6, characterized in that in the area of the feed zones There are guide vanes for the inflowing medium.