DE102007052004A1 - Internal combustion engine has cam track that has two parallel running grooves in cylinder sleeve of cylinder of cam track support, and pins that are guided in grooves, which are connected with respective piston rod - Google Patents

Abstract

The internal combustion engine has crankshaft-less power train, where pistons of facing piston pairs are arranged concentric and coaxial to a drive shaft, and are interconnected by a piston rod (7). A cam track support (11) has a cylinder, which is supported on the drive shaft in rotationally fixed manner. A cam track (11.1) has two parallel running grooves (11.2) in a cylinder sleeve of the cylinder of the cam track support. Multiple pins (9) are guided in the grooves, which are connected with respective piston rod.

Description

The The invention relates to an internal combustion engine with crankshaft-less Engine in the concentric-coaxially arranged cylinder and make a curved path a compact drive.

Such a curved path motor is known as Herrmann engine, built in 1935 as a test engine for aircraft in the United States. Two cylinder blocks, each with six concentric-coaxially arranged cylinders, are screwed together to form a single unit. Each two opposing pistons are connected to each other and engage with rollers on a sinusoidal cam. This turns away under the piston forces and drives the drive roller ( FH Friedberg. Prof. Stefan Zima, "Failed Motor Concepts - Unsuitable Constructions or the Change of Boundary Conditions" in MTZ 11/1997 p. 660 ff and 20.9.2007 under http // www.fh-friedberg.de / users / zima / konzept.html ). A disc which carries the curved path on which the rollers run, is arranged perpendicular to the direction of movement of the oscillating piston on the drive shaft.

Similarly, the internal combustion engine is after DE 879 624 C educated. In order to prevent deformations and uneven running caused by the continuing explosion shocks that must be transmitted from the rollers to the curved path, a resilient mounting of the cam is proposed here. Furthermore, the cam should be axially displaceable to allow compression adjustments.

In the DE 2500608 A describes a cam-driven and -controlled 4-stroke reciprocating engine with continuously adjustable cylinder chamber. The piston rods roll here on two concentric, equal shaped cam discs.

task the invention is the adjustability of an internal combustion engine, its oscillating piston movement via a curved path is converted into a rotary drive shaft movement to improve and be able to carry out load-dependent.

Solved This object is achieved with the features of the first claim, advantageous Embodiments are the subject of the dependent claims.

According to the invention in an internal combustion engine with a crankshaft-less engine, at the piston pairs of opposing concentric and arranged coaxially about a drive shaft and through each other a piston rod connected pistons are arranged, of the piston rods on an oscillating piston movement the drive shaft arranged Kurvenbahnträger with a Curved track is transferable and the drive movement is created by the cam track turns away under the piston forces, provided that the curved path carrier is a cylinder, the rotationally fixed is mounted on the drive shaft and the curved path from at least two parallel grooves in the cylinder jacket of the cylinder the curved path carrier is made, wherein in the grooves pin are guided, which are each connected to a piston rod are.

The Housing is preferably formed in three parts in this engine, namely a cylinder liner housing each outside and an engine housing disposed therebetween for the curved track carrier with the curved path and the guide parts for the guide pins, which engage in the groove of the curved path. The housing parts are interconnected, preferably bolted.

One such engine has a compact structure is simple controllable and has a high load-dependent Adjustment potential as explained in detail below becomes.

The Drive shaft, which passes through the housing centric, is divided in the preferred embodiment and symmetrical formed, wherein the two drive shaft parts mirror image arranged to each other, beginning in the region of the curved path carrier with a rack section, so through a corresponding Gearing in a centric bore of the curved path carrier the rotationally fixed connection between the curved path carrier and the drive shaft parts can be produced. In addition to appropriate Bearing parts is another rack section on the outside End of at least one of the drive shaft parts for receiving parts the valve timing gear, in particular the drive pinion for this gear, provided.

On the output side the valve control gear has a cam disc to operate the valves for the workspaces via the piston. It is part of the valve timing gear in a preferred embodiment, a toothed belt between the drive pinion and cam disk.

As shown above engage in the groove of the cam track guide pin one. The guide pins are in turn mounted in a guide pin carrier, which is coupled to the respective piston rod.

An advantageous embodiment now provides that this coupling is detachable, so that piston pairs are switched on or off, wherein they are in switched off position does not necessarily have to follow the curved path, but can even stand still.

Of the Guide pin carrier is on the piston rod arranged displaceable and lockable. In a preferred embodiment the piston rod has at least one circumferential groove, in which for producing a detachable connection between guide pin carrier and piston rod locking wedges, which are stored in the guide pin carrier, intervene. The control of the locking wedges can mechanically, electromotively, electromagnetically, pneumatically or hydraulically or a combination made of it.

The positive and / or non-positive connection between the Piston rod and the guide pin carrier is done while at a piston position in the upper or lower Dead center of the piston, since the movement here approximates the value zero is.

advantageously, The piston rod groove also has an outward opening prismatic cross-section on, allowing for manufacturing the engagement of the locking wedges in the piston rod groove a larger Time window results. If between the locking wedges and the piston rod groove positive locking is manufactured, the piston pair is in the optimal Working position. Additional adjustment options the locking wedges z. B. by twisting or changing options between locking wedges create additional possibilities for an optimization of the engine control.

In A further embodiment provides that the piston opposite the piston rod have an axial clearance.

The axial play can in one embodiment by an axial Piston bearing causes the piston rod on the inside of the piston become. The piston bearing consists of a piston carrier in the form of a disc, which is centrally connected to the piston rod is and on the inside of the piston preferably flat rests, with the possible piston housing inside Bearing surface> is as the disk surface and the disk through a body, preferably one in the piston housing screwed Inner ring is covered, which has a through hole for has the piston rod which is larger than the cross-sectional area of the piston rod itself.

embodiments will be explained with reference to the drawings. Show it

1 the engine structure in an exposed form,

2 the work cycles,

3 a valve control,

4 Guide pin carrier and piston rod and

5 the bearing of the piston on the piston rod

In 1 is shown in an Exposedarstellung the internal combustion engine with a crankshaft-less engine. The housing 1 is formed in three parts, a cylinder liner housing 2 and 3 in each case on the outside and an engine housing arranged between them 4 , The housing parts 2 . 3 . 4 are interconnected, preferably by screwing.

The internal combustion engine is concentric with piston pairs of opposing and coaxial about the drive shaft 16 arranged and together by a piston rod 7 connected pistons 5 . 6 equipped, with the pistons 5 . 6 in the cylinder liner housings 2 respectively. 3 move.

From the piston rods 7 is the oscillating piston movement on the on the drive shaft 16 arranged curved track carrier 11 with the curved path 11.1 transferred and the drive movement is created by the curved path 11.1 turns away under the piston forces. The curved track carrier 11 is located in the engine housing 4 ,

The illustrated curved path 11.1 consists of four parallel grooves 11.2 in the cylinder jacket of the cylinder of the Kurvenbahnträgers 11 , being in the grooves 11.2 spigot 9 are guided, each with a piston rod 7 via a guide pin carrier 8th are connected.

Next to the curved track carrier 11 with the curved path 11.1 are also the leadership parts 10 for the guide pin carrier 8th in the engine case 4 ,

From the illustration it is also apparent that the drive shaft 16 divided and formed symmetrically and the two drive shaft parts 16.1 and 16.2 are mirror images of each other, in the region of the curved path carrier 11 starting with a rack section 12 , So that by a corresponding toothing in a centric rule bore of the Kurvenbahnträgers 11 the rotationally fixed connection between the curved path carrier 11 and the drive shaft parts can be produced.

Another rack section 13 is at the other ends of the drive shafts 16.1 and 16.2 arranged and serves to receive parts of the valve timing gear 17 , in particular the drive pinion 17.1 ,

It is also shown that the connection between the piston rod 7 and the guide pin 9 over one on or at the piston rod 7 arranged guide pin carrier 8th will be produced. Here is the guide pin carrier 8th on the piston rod 7 arranged displaceable and lockable. This opens up the possibility of removing or connecting piston pairs from engine operation.

2 shows the working cycles of the example of an internal combustion engine with four pairs of pistons of concentric and coaxial concentrically around the drive shaft 16 arranged and together by a piston rod 7 connected pistons 5 and 6 , The pistons 5 . 6 move in the cylinder liner housings 2 respectively. 3 , From the piston rods 7 is the oscillating piston movement on the in the engine housing 4 on the drive shaft 16 arranged curved track carrier 11 with the curved path 11.1 transferred by the curved path 11.1 under the piston forces transmitted by the guide pins 9 turns away.

3 shows an advantageous valve control via a valve timing gear 17 on one side with the drive shaft 16 coupled and on the other side with a cam disk 17.3 for actuating the valves 17.4 , Part of the valve timing gearbox 17 is a timing belt 17.2 , the interposition of another gear, the movement of the drive pinion 17.1 , on the drive shaft 16 arranged on a cam disc 17.3 transfers. In this illustration, each of the valves of each working space of a piston 5 or 6 via a separate toothed belt 17.2 with the drive shaft 16 coupled.

Conceivable Depending on use, space requirements and setting requirements are different Transmission.

4 shows a Schitt through the guide pin carrier 8th and the piston rod 7 , The guide pin carrier 8th is on the piston rod 7 arranged displaceable and lockable and provides not shown here guide pin 9 the constant engagement with the curved path 11.1 of the curved path carrier 11 Her, so that the oscillating piston movement on the arranged on the drive shaft cam carrier 11 takes place by the cam track turns away under the piston forces.

The piston rod 7 has at least one circumferential groove 15 , in the manufacture of a releasable connection between guide pin carrier 8th and piston rod 7 Locking wedges 14 in the guide pin carrier 8th are stored, intervene.

In the lower half illustration are the locking wedges 14 engaged with the piston rod groove 15 ie, the oscillating piston movement is applied to the drive shaft 16 transfer.

In the upper half illustration the connection is piston rod 7 - Guide pin carrier 8th interrupted. When the engine is running, the guide pin carrier follows 8th the movement of the cam track, so to speak idling, because the pistons 5 . 6 This pairing stand together with the connecting rod 7 Silent, this piston pairing has been taken out of engine operation.

By the engagement of the locking wedges 14 in the piston rod groove 15 is the positive and / or non-positive connection piston rod 7 - Guide pin carrier 8th manufactured, the piston mating is switched on.

The production of this positive and / or non-positive connection between the piston rod 7 and the guide pin carrier 8th preferably takes place at a piston position in the region of top dead center of the piston 5 and bottom dead center of the piston 6 or vice versa, since their movement here approximates the value zero.

In a preferred embodiment, it is provided that the pistons 5 . 6 opposite the piston rod 7 have an axial game. Such an embodiment is in 5 shown.

The axial play is by an axial piston bearing 18 the piston rod 7 on the inside of the piston 5 . 6 causes. The piston bearing 18 consists of a piston carrier 18.2 in the form of a disc, which is centered with the piston rod 7 is connected and on the piston housing 18.1 rests flat on the inside, wherein the possible bearing surface is> as the disc surface and the disc by a body, preferably one in the piston housing 18.1 screw-in inner ring 18.3 is covered, the one through hole for the piston rod 7 which is larger than the cross-sectional area of the piston rod 7 ,

Vibrations of the motion transmission mechanisms Piston rod 7 - Guide pin carrier 8th and guide pin carrier 8th - guide pin 9 - Curved track carrier 11 so will not on the pistons 5 . 6 transferred (piston tilting). Furthermore, the demands on the manufacturing tolerances and the assembly tolerances between the housing parts need 2 . 3 . 4 so not be overstated. These are other significant benefits.

Be as shown between the inside ring 18.3 and the underside of the disc of the piston carrier 18.2 more slices, preferably three slices 18.4 arranged, the bearing surfaces at least one pair with one to the drive shaft 16 includes inclined surface and the passage opening for the piston rod 7 is greater than the cross-sectional area, additionally act Selbstzentrierungskräfte of the piston housing 18.1 based on the piston carrier 18.2 , It is advantageous if at least one disc 18.4 externally supported elastically on the piston housing inside.

In The embodiments of the engine variant is described. Of course, this engine can also be operated as a compressor become.

1

casing

2

Cylinder liner housing

3

Cylinder liner housing

4

Engine casing

5

piston a mating

6

piston a mating

7

piston rod

8th

Guide pin carrier

9

spigot

10

guide part

11

Curved path carrier

11.1

cam track

11.2

groove

12

Rack section

13

Rack section

14

Locking wedges

15

Kolbenstangennut

16

drive shaft

17

Valve control gear

17.1

pinion

17.2

toothed belt

17.3

cam

17.4

valves

18

piston bearing

18.1

piston housing

18.2

piston carrier

18.3

inner ring

18.4

slices

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 879624 C [0003]
• - DE 2500608 A [0004]

Cited non-patent literature

• - FH Friedberg. Prof. Stefan Zima, "Failed Motor Concepts - Unsuitable Constructions or the Changing Peripheral Conditions" in MTZ 11/1997 p. 660 ff [0002]
• - http // www.fh-friedberg.de / users / zima / konzept.html [0002]

Claims (16)

Internal combustion engine with a crankshaft-less engine, arranged in the piston pairs of opposing concentric and coaxial about a drive shaft and mutually connected by a piston rod pistons, wherein the piston rods of the oscillating piston movement can be transmitted to a arranged on the drive shaft cam carrier with a curved path and the Drive movement is created by the cam track turns away under the piston forces, characterized in that the curved path carrier ( 11 ) is a cylinder which is rotationally fixed on the drive shaft ( 16 ), the curved path ( 11.1 ) of at least two parallel grooves ( 11.2 ) in the cylinder jacket of the cylinder of the curved path carrier ( 11 ), wherein in the grooves ( 11.2 ) Pins ( 9 ) are guided, each with a piston rod ( 7 ) are connected. Internal combustion engine according to claim 1, characterized in that the housing ( 1 ) is formed in three parts, a cylinder liner housing ( 2 . 3 ) each outside and a between them arranged engine housing ( 4 ) for the curved path carrier ( 11 ) with the curved path ( 11.1 ) and the leadership parts ( 10 ) for the pins ( 9 ), which enter the groove ( 11.2 ) engage and the housing parts connected to each other, preferably screwed. Internal combustion engine according to claim 1 or 2, characterized in that the drive shaft ( 16 ) and formed symmetrically and the two drive shaft parts ( 16.1 . 16.2 ) are arranged mirror images of each other, in the region of the curved path carrier ( 11 ) starting with a rack section ( 12 ), so that by a corresponding toothing in a central bore of the Kurvenbahnträgers ( 11 ) the rotationally fixed connection between the curved path carrier ( 11 ) and the drive shaft parts can be produced, and a further rack section ( 13 ) at at least one other end of one of the drive shafts ( 16.1 ) for receiving parts of the valve timing gear ( 17 ), in particular the drive pinion ( 17.1 ). Internal combustion engine according to one of claims 1 to 3, characterized in that the valve control via a valve control gear ( 17 ), which on one side with the drive shaft ( 16.1 ) and on the other side with a cam disc ( 17.3 ) for actuating the valves ( 17.4 ). Internal combustion engine according to claim 3 or 4, characterized in that part of the valve timing gear ( 17 ) a toothed belt ( 17.2 ) Internal combustion engine according to one of claims 1 to 5, characterized in that the connection between the piston rod ( 7 ) and the guide pin ( 9 ) via one on or on the piston rod ( 7 ) arranged guide pin carrier ( 8th ) is made. Internal combustion engine according to claim 6, characterized in that the guide pin carrier ( 8th ) on the piston rod ( 7 ) is arranged displaceable and lockable. Internal combustion engine according to claim 6 or 7, characterized in that the piston rod ( 7 ) at least over a circumferential groove ( 15 ), in which for the production of a releasable connection between guide pin carrier ( 8th ) and piston rod ( 7 ) Locking wedges ( 14 ), which in the guide pin carrier ( 8th ), intervene. Internal combustion engine according to claim 8, characterized in that the piston rod groove ( 15 ) has an open to the outside prismatic cross-section. Internal combustion engine according to one of claims 6 to 9, characterized in that the detachable connection between the piston rod ( 7 ) and the guide pin carrier ( 8th ) is a positive and / or non-positive connection. Internal combustion engine according to one of claims 6 to 10, characterized in that the positive and / or non-positive connection between the piston rod ( 7 ) and the guide pin carrier ( 8th ) at a piston position in the region of top dead center of the piston ( 5 ) and the bottom dead center of the piston ( 6 ) or vice versa can be produced. Internal combustion engine according to one of claims 1 to 11, characterized in that the pistons ( 5 . 6 ) opposite the piston rod ( 7 ) have an axial play. Internal combustion engine according to claim 12, characterized in that the axial play by an axial piston bearing ( 18 ) of the piston rod ( 7 ) on the inside of the piston ( 5 . 6 ) is effected. Internal combustion engine according to claim 12 or 13, characterized in that the piston bearing ( 18 ) from a piston carrier ( 18.2 ) in the form of a disc which is centered with the piston rod ( 7 ) and on which the piston housing ( 18.1 ) preferably flatly rests on the inside, wherein the possible piston housing inner side bearing surface is> as the disk surface and the disc by a body, preferably one in the piston housing ( 18.1 ) screw-in inner ring ( 18.3 ), which has a passage opening for the Piston rod ( 7 ) having. which is larger than the cross-sectional area of the piston rod ( 7 ). Internal combustion engine according to claim 14, characterized in that between the body, preferably in the form of an inner ring ( 18.3 ) and the underside of the disc of the piston carrier ( 18.2 ) at least one disc, preferably three discs ( 18.4 ) are arranged, whose bearing surfaces at least one pairing with one to the drive shaft ( 7 ) inclined surface and the passage opening for the piston rod ( 7 ) is greater than their cross-sectional area. Internal combustion engine according to claim 15, characterized in that at least one disc ( 18.4 ) is elastically supported on the outside of the piston housing.