DE548460C - Power and working machine with a rotating rotor and a piston that can be moved back and forth in the rotor transversely to the rotor axis of rotation - Google Patents

Description

Power and working machine with a rotating rotor and in the rotor Piston displaceable back and forth transversely to the rotor axis of rotation The invention relates to a prime mover or working machine with a rotating rotor and in the rotor transversely to The axis of rotation can be moved back and forth in a straight line and has the particular purpose of the performance of such a machine is also suitable for larger capacities close. As the performance and dimensions increase, so does the higher The number of revolutions of these machines required that the masses moved and the occurring Suction and pressure forces are balanced. For this purpose, several pistons are in known way arranged on a cranked crankshaft and for example at a machine with two pistons offset by z8o °, whereby the weight of this Piston and the suction and pressure forces caused by the pistons balance each other out. This cranked crankshaft is arranged in a stationary manner and on one Side fixed in the lid, but with its free end and at different Bodies stored in the rotor itself. To make the rotor as small as possible in diameter to keep the crank legs of the crankshaft in a known manner within the working cylinder arranged. As a result, the rotor can move around almost the entire stroke the crankshaft can be made smaller in diameter. Despite its small dimensions and light weight, the performance of the machine is great. The rotor is called a conical cylinder open on both sides with cast-in transversely to its axis of rotation Working cylinders formed. The working cylinders have a transverse slot in the middle for inserting the crankshaft. The specified design of the rotor and cylinders enables good automatic cooling, which is particularly important with the rapidly rotating rotor important is. A propeller inside the housing on the rotor shaft is used for this purpose arranged, and the cover and rear wall of the housing are provided with openings. As the rotor rotates, the propeller inside the machine causes a creates a powerful air stream, which enters through the holes in the housing, the rotor and the cylinder walls completely washed around and through the holes in the cover again exit. It would of course also be possible to use a different cooling medium in the machine, z. B. oil to admit. In order to be able to lubricate the crank pins and the pistons pierced the crankshaft in a known manner and provided with transverse bores.

The drawing shows an example of an embodiment of a force or working machine shown.

Fig. I shows a longitudinal section through a machine with two pistons.

Fig. A shows a cross section according to II-II of Fig. I. Fig 3 shows a longitudinal section through a rotor with propeller.

The conical housing i widens towards the side closed by a cover 2. The other end of the housing i carries a hub 5 in which the shaft 4 of the rotor 3 runs on ball bearings ir, 12. For example, an elastic coupling B is used to drive the rotor 3. The axial adjustment of the rotor shaft q. takes place through axial ball bearings g, io, bush 6 and lock nut 7. In the cover: z the cranked crankshaft 14 is fixed by wedge 13 and nut 17, it penetrates the rotor 3 and is supported with its free end 15 by means of ball bearings 16 in the rotor. Pistons 18 and 18 'sit on the two offsets of crankshaft 14 offset by r8o °, they have slots ig, ig' and bearing bushes 2o, 2o 'with which they are mounted on journals 2i, 21' of crankshaft 1.1. The rotor is firmly connected to its drive shaft 4 and is supported with its free end by means of ball bearings 22 on a collar 23 of the stationary crankshaft 14. The crank legs 24, 24 ', 24 ", 2q"' lie within the cylinder. In order to be able to introduce the crankshaft 14 into the rotor 3, the cylinder walls 3 "of the rotor are provided with transverse slots 25. The housing has inlet openings 26 and outlet openings 27. The pistons consist of two cylindrical head ends 28, 28 'and 29, 2g', which are connected by webs 30, 30 ', in which the slots ig, ig' for the crankshaft journals 2i, 21 'sit.

The rotor 3 consists essentially of a conical cylinder 3 ' and the two working cylinders 3 ″ and 3 ″ cast perpendicular to the rotor axis of rotation 3 "'. This arrangement creates the free passages 3i, 31'. Through the hole 32 in the rear wall of the housing i, the coolant can be introduced and through the Hole 33 in the cover 2 can be left out again. The rotor 3 is in Fig.3 for example provided with a propeller 34 to increase the cooling effect. To the tread To be able to lubricate the housing i and the rotor 3, the housing i is provided with oil grooves and lubrication holes 35, 35 ', 35 ". The crankshaft 14 is provided with a longitudinal bore 36 and transverse bores 37 are provided.

Claims (3)

PATENT CLAIMS: i. Power or working machine with a rotating rotor and pistons displaceable back and forth in the rotor transversely to the rotor axis of rotation, thereby characterized in that the rotor (3) is set in rotation by the drive shaft (4) the pistons (18, 18 ') by means of slots (ig, ig') on a cranked crankshaft (14), it passes through the rotor in the middle and is independent of the drive shaft (4) is stored several times in the rotor (3). 2. prime mover or working machine Claim i, characterized in that the crank legs (24, 24 ', 24 ", 24'") lie within the working cylinder (3 ") and in the rotor walls for passage the crankshaft (14) the piston slots (ig, ig ') similar transverse slots (2,5) are provided are. 3. power or work machine according to claim i and 2, characterized in that that the rotor (3) is composed of a cylinder open on both sides (3 ') and one or more cast in perpendicular to the rotor axis of rotation, laterally completely closed piston cylinders (3 "), creating free passages (V, V ').