NO802536L - Rotary power GENERATOR. - Google Patents

Description

The present invention relates to a rotary power generator.

A mechanical-pneumatic device is known which does

it is possible to transform a constant unidirectional energy into a constant kinetic energy, where the source of the unidirectional energy is a permanent magnet inserted between two pole pieces. This system, which interacts with a planar ring-shaped part that terminates the magnetic field, is attached to a base plate of the device via means that serve to regulate the air gap, and which are arranged in radial pairs at angular distances of 120°, and one pair of which is arranged in line with the primary axes of a swashplate carrying a crankshaft with an inclination of 15° in relation to the vertical axis through the center of the swashplate. This device must be recharged so that the fluid in a certain number of pneumatic chambers is compressed, while the other chambers here receive negative pressure. These pressures and negative pressures cause the swash plate to be exposed to thrust forces and drive the crankshaft in rotation.

The aforementioned device is complicated, as it requires

a rotating distributor and chambers that must be practically completely sealed.

The purpose of the present invention is to provide instructions for a rotary power generator of simple design which does not require energy supplementation, is quiet and does not cause pollution of the atmosphere with escaping gases.

An embodiment of the machine according to the invention is shown in the drawing. Fig. 1 is a ground plan of the machine with the upper part of the capsule partly worn away.

Fig. 2 shows a section along the line II-II in fig. 1, but

without cutting through the rotating disc and the magnetic mask.

Fig. 3 shows a section along the line III-III in fig. 1, and

fig. 4 is a perspective view of the machine with parts of the capsule cut away to show the location of the permanent magnets on the rotating disc and on the lower part of the capsule.

The machine shown comprises a capsule composed of a lower part 1 and an upper part 2. A rotatable disk 3 is placed in the chamber between parts 1 and 2 and is via a ball bearing 4 centered on a rotatable shaft 5 which is eccentric in relation to a power take-off shaft 6 which is stored in ball bearings 7 and provided with a pulley 8. The turntable 3; which on both of its broad sides carries movable permanent magnets 9 which form polar magnetic fields, is under the influence of an attractive force from a similar system of fixed permanent magnets 10 firmly connected partly to the lower part and partly to the upper part 2 of the capsule. This device provides a downward force on the front part and an upward force on the rear part of the turntable 3 at opposite points where the air gap is more strongly reduced between the fixed permanent magnets 10 and the movable permanent magnets 9. The resultant is a torque which causes torque ning of a flywheel 11 which is fixedly connected to the eccentric axis 5, but connected to the power take-off shaft 6. This wing carries and carries with it a magnetic mesh 12 which surrounds the rotating disk 3 over two opposite sectors of 90° (fig. 1) and whose function consists in short-circuiting the two magnetic attraction zones which -• lie behind the perpendicular on the eccentric shaft 5, and thus defining a magnetic attraction zone which lies exclusively in the front part of the said perpendicular. The rear point of the perpendicular on the eccentric shaft 5 is defined by a downward slope and thus determines the direction of rotation of the machine.

The capsule's lower and upper parts 1 and 2, respectively, which carry the fixed permanent magnets 10/ have inclined surfaces whose angle of inclination is the same as that of the rotating disk 3, so that the air gap will have constant parallelism at the opposite upper and lower points where the movable permanent magnets 9 on the turntable 3 lies exactly opposite the fixed permanent magnets 10 on the lower part 1 and the upper part 2 and closest to these.

In its lower part, the magnetic mask 12 is fixed between a clamping ring 13 and a ball bearing 14 inserted in a bearing in the lower part 1. The tip of the eccentrically supported shaft is brought back to the machine's axis (the axis of the shaft 6) and is brought into contact with a bearing 15 formed by a stone placed in a socket 16 which is screwed into the lower part 1.

The parts that carry the fixed permanent magnets 10 and the movable permanent magnets 9 consist of magnetic material. The shafts 5 and 6, the flywheel 11 and the clamping ring 13 are preferably of steel, and the magnetic mask 12 is made of a metal having a maximum paramagnetism coefficient combined with a similar mechanical stiffness. It must be very thin to provide a reduced air gap. To stabilize the machine, a balancing mass (not shown) is mounted opposite the eccentric point of the shaft 5 and in fixed connection with the flywheel 11.

The arrangement of the fixed permanent magnets 10 is chosen so that the movable permanent magnets 9, when they arrive at the area where the air gap is most strongly reduced, correspond exactly (cf. Fig. 1). The movable permanent magnets 9 on one side of the turntable 3 are all polarized in the same way and oriented in the same direction. They are in magnetic opposition to those on the opposite side of the disc. The fixed permanent magnets 10 are likewise all polarized in the same way and oriented in the same direction. However, they have the opposite polarity to the moving permanent magnets 9.

Thanks to the described device becomes. where a continuous turning movement is achieved from a unidirectional, magnetic energy source in that the turntable 1, centered on the eccentric shaft 5, is exposed to a downward-acting attraction force in front and an upward-acting attraction force behind the perpendicular to the eccentric tip of the shaft 5 which carries the disc, which causes a release of this which is centered at the foot and out of center above in relation to the power take-off shaft 6. (the machine shaft). This twisting effect causes rotation of the magnetic mask 13 which is carried by the power take-off shaft 6. The magnetic mask 13 short-circuits a zone of the turntable 3 and forces it to undergo a magnetic attraction from the permanent magnets 10 only in the machine's direction of rotation. This magnetic mask, which is fixed to the flywheel 11 in the axis of the machine, is not subjected to a force opposite to the force on the turntable 3, and therefore does not inhibit its movement. The magnetic force taken out by the pulley 8 depends on the eccentricity of the eccentric shaft 5 and on the air gap between the movable permanent magnets 9 and the fixed permanent magnets 10. Changing these factors can serve to regulate or interrupt the force.

Claims (4)

1. Rotational power generator, characterized in that it comprises a capsule lower part (1) and upper part (2), a rotatable disc (3) which is accommodated in the capsule (1, 2) and is mounted on a rotatable shaft (5) which is eccentric in relation to a power take-off shaft (6), but whose free end is guided into the axis of this shaft, movable permanent magnets (9) placed on both broad sides of the turntable (3), fixed permanent magnets (10) fixed in the lower and upper part of the capsule (1, respectively 2), a flywheel (11) which is in fixed connection with the eccentric shaft (5 ) and is connected to the power take-off shaft (6), and which carries a magnetic mesh (12) that surrounds the turntable (3) over two opposite sectors of 90° to short-circuit the two magnetic attraction zones located behind the perpendicular on the eccentric shaft ( 5)^ and defines a magnetic attraction zone exclusively in the part in front of this perpendicular. 2. Power generator as stated in claim 1, characterized in that the capsule's (1, 2). inner surfaces are inclined at an angle corresponding to the inclined surfaces of the turntable (3) mounted on the eccentric shaft (5) in order for the air gap to have constant parallelism in the places where the movable permanent magnets (9) on the turntable (3) are exactly opposite the fixed permanent magnets . (10) on the lower and upper part of the capsule (1, resp. 2). 3. Power generator as stated in claim 2, characterized in that the magnetic mask (12) in its lower part is fixed between a clamping ring (13) and a ball bearing (14) fixed in a bearing in the lower part (1). 4. Power generator as stated in claim 3, characterized in that the free end of the eccentric shaft (5) bears against a bearing (15) arranged in a support part (16) which is screwed into the lower part (1) of the capsule.