DE2934032A1 - Drive system for any type of vehicle - has centrifugally propelled balls transferring impulse to vehicle and returned magnetically - Google Patents

Abstract

The engine has two rotors (2,3) spaced axially along a shaft. A motor between them turns them in opposite directions. Each rotor consists of two hollow tubes diametrically opposite each other. Their outer ends are turned to face tangentially into the direction of rotation. Heavy balls (18) are flung out from these ends and travel in the direction of motion of the vehicle to be caught in funnels (21,22) which conduct them to an impact tube (19). Their kinetic energy is absorbed and transferred to the vehicle. They are then returned to the centre of the rotor by a magnetic system along a central tube (23).

Description

description

The invention relates to a method for ballistic propulsion of Vehicles and aircraft on land, on and under water, as well as in the air, also in the airless and weightless space, with mass bodies by a torque to be applied are set in circular orbits in opposite directions, the mass bodies then at diametrically opposite points of the circular paths in such a way from the circular path be solved so that they are parallel in the same tangential direction in straight lines Remove mutually lying paths and transfer their kinetic energy to one as a driving force Acting impulse convert against arranged in the direction of travel of the vehicle, in Relative to the axis of rotation of the circular path, stops that can be swiveled impinge, the mass body be intercepted and braked when hitting the stops.

The invention is based on the object of a further development and Improvement of this method and this device for driving vehicle and airplanes on land, on water, in the air and also in a vacuum and weightless To create space that could be used for all types of movement mentioned.

The object is achieved by a method in which the braking the mass body takes place magnetically.

It is favorable if the braking of the mass body is elastic-mechanical Ways is carried out.

It is beneficial if the one not used directly for braking Energy for operating the drive motor is recovered.

It is useful if the entire procedure is reversed is operated, i.e. that gives the mass bodies a straight acceleration is, and these are then deflected into a circular path, the deflection pulse the mass body accelerated in a straight line into the circular path as a drive for a rotary movement serves.

It is advantageous if the method is designed so that as a mass body a liquid is used.

It is useful if the method is designed so that the Mass bodies or amounts of liquid in each case only after a certain distance of rotation be brought into the exit position.

It is advantageous if the device for performing the method is designed so that the mass body resp.

Liquid quantities through valves controlled by photo cells the pipe openings.

It is useful if the device is using mass bodies is designed so that the stop devices consist of at least two collecting funnels exist, so that in each case an empty collecting funnel for an incoming mass body is ready.

It is beneficial if the device is designed so that the Collecting funnels are provided with a magnetic braking device.

It is useful if the device is arranged so that the collecting funnels are provided with an elastic-mechanical brake cable ind.

It is advantageous if at least two collecting funnels are provided they become detached in the alternation of emptying and collecting It is useful if the device is designed in this way when using liquids as a mass body is that the braking device is designed as an impact wall.

It is useful if the device is used when a liquid is used is designed so that the return device is a liquid pump.

The method according to the invention and the device for carrying it out this ballistic propulsion method has the advantage of being independent from the frictional resistance formed with the Fahrmedillm, so that, for example in the case of road vehicles, the changed adhesive force in snow and black ice is not disadvantageous can affect the driving style, for example when cornering, with the possibility changing the direction of travel by pivoting the rotating body together with the Anchor devices as a unified whole achieve high cornering stability, and the weight of the entire vehicle is not important for cornering is.

It is also advantageous that the drive method according to the invention and the device for carrying out the same are environmentally friendly, as in the Power conversion no environmentally harmful exhaust gases or other products are produced.

It is also advantageous that the drive according to the invention without any Additional equipment for all types of transport for vehicles and aircraft Land, on and under water, as well as in the air, also in a vacuum and weightless Space, is usable.

In the drawing are exemplary embodiments of the subject matter of the invention shown.

1 shows the drive device according to the invention in a side view, FIG. 2 shows a plan view according to FIG. 1, FIG. 3 shows a view according to line 3-3 according to FIG. 1, FIG. 4 a section along the line 4-4 according to FIG. 1 and FIG. 5 a view according to Figure 1 in that position of the rotating body in which the balls from the Exit openings.

Figure 1 and Figure 2 show two on a common axis 1 in certain mutual spaced rotating body 2 and 3, which by a motor 4 of any type of drive each rotated in opposite directions to one another will. Each of these rotating bodies consists essentially of two on one through the axial center point 5 extending imaginary, straight lying, aligned with each other Pipe sections 6, 7 or 6 ', 7'. The ends of the pipe sections facing the center of the axis 6, 7 or

6 ', 7' have stubs 8 which are each rounded outwards Feed openings 9. The outer free ends of the pipe sections 6, 7 or 6 ', 7 'are provided with guides 10 and 11 which are rounded in the direction of rotation. The on The outlet openings 16 and 17 located at the outer ends are provided by means of flaps 12 can be closed via a lever linkage 13, one of which is a winding lever 14 with a fixed cam stop 15 cooperates in such a way that the outlet openings 16 or

17 of each of the mutually spaced rotating bodies 2 or 3 can be opened at the moment in which the up to the guides 10 or

11 brought up by the centrifugal force of the rotating body Balls 18 are released, so that these balls 18 forming the mass bodies in the same tangential direction in straight and parallel paths in Exit direction of travel and against a, provided with a collecting funnel 21 or 22 Strike stop device 19 and 20, where their kinetic energy in convert an effective driving force impulse, which the vehicle with each When a ball hits, it receives a movement impulse.

After the balls 18 have given up their kinetic energy this by means of a feedback device 23 or 24 to the feed openings 9 of the pipe sections 6, 7 or 6 ', 7' supplied and fed into this, whereupon the cycle repeats.

The feedback device 23 or 24 consists of a tube in which the balls 18 either mechanically by means of a driver of a conveyor chain or pneumatically or also on magnetic path by means of a linear motor to the feed openings 9 of the pipe sections 6, 7 or 6 ', 7' are fed back.

The balls 18 are at such a mutual distance Feed openings 9 of the pipe sections 6, 7 or

6 ', 7' of the rotating body 2, 3 supplied that if possible a mutual Touching the balls or rolling of the balls is avoided in order to thereby to avoid resulting frictional losses.

The fixed cam stops 15, which via the lever linkage 13 the outlet openings 16, 17 open, are to be arranged in such a position that the opening of the flaps 12 should take place at the moment in which a tangential exit movement of the balls 18 from the rotating body 2 or 3 exactly is guaranteed in the direction of travel. The balls 18 are less due to the centrifugal force but mainly due to the centrifugal force caused by the orbital movement after opening of the flaps 12 is ejected from the rotating body 2 and 3, respectively.

The one for applying the necessary torque to drive the rotating body 2, 3 motor 4 used can be a motor of any type of drive; it can for example an accumulator-powered electric motor or an internal combustion engine or a motor of any other type of drive, for example magnetic action, be used.

According to a further exemplary embodiment not shown in the drawing the acceleration device is designed as an electrically controllable linear motor, whose stand is designed in the form of a flat spiral, which ends at its Ends in a straight line. At the beginning of this straight stretch the winding of the stator is interrupted; the continuation of the straight stretch is then again equipped with windings and serves as a braking section, on whose End of the stand arched in another plane to the beginning of the spiral Route is returned, so that an endless circulation route is created. In orbit several runners designed as heavy mass bodies are arranged, the respective are highly accelerated in the spiral orbit and then after a short time straight-line flight in the braking section to a low return speed to be brought.

A second mirror-inverted orbit becomes with the first firmly connected, so that the braking distances of these two orbits in the same Show direction. With synchronous rotation, the same number of as rotor designed mass bodies is each a double impact impulse on the entire Apparatus achieved by both mass bodies in the same direction. That The torque generated in each spiral path is mirrored by the arranged second spiral path canceled. The braking of the mass bodies can be done magnetically.

The deceleration of the mass body can also be elastic-mechanical Paths are carried out and the energy not directly used during braking can be recovered for operating the drive motor.

The anchor devices can consist of at least two collecting funnels exist, so that in each case an empty collecting funnel for an incoming mass body is ready.

According to a further exemplary embodiment not shown in the drawing the mass bodies are replaced by a liquid. The outlets are replaced by magnetic valves or mechanical slides that control the Allow a certain amount of liquid to escape. The mass body or the Liquid quantities can be discharged from the pipe openings through valves controlled by photo cells be solved.

The brake chamber is replaced by a simple impact wall and the The feedback device is replaced by a liquid pump. The mass bodies or the quantities of liquid can only be achieved after a certain distance of rotation be brought into the exit position.

According to a further exemplary embodiment not shown in the drawing the entire principle described is operated in reverse order. So it will instead of the collecting funnel, a straight acceleration device for masses used. The balls 18 used as a mass body are then after a short flight caught in the pipe sections 6, 7 or 6 ', 7' and cause a Rotary motion. The recoil that occurs when it hits is used as a movement impulse utilized. After the flight of the mass bodies ends in a circular path, there is no Compensation as in a closed system, but a movement of the system in the recoil direction. The rotation resulting from the catching of the mass bodies The pipe piece is converted into electrical energy, which again accelerates it the mass body is used. This allows a very high proportion of the created Energy can be converted into motion.

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Claims (13)

Method for ballistic propulsion of vehicles and aircraft and device for performing the method Claims 1. Ballistic propulsion method from vehicles and airplanes on land, on and under water, as well as in the air, too in a vacuum and weightless space, with mass bodies by a torque to be applied ground the mass bodies in circular orbits in opposing orbital motion to each other at diametrically opposite points of the circular paths in such a way from the circular path be solved that they are in the same tangential direction in straight lines and remove parallel orbits and convert their kinetic energy into converting an impulse acting as a driving force against in the direction of travel of the vehicle Arranged stops that can be pivoted in relation to the axis of rotation of the circular path impinge, the mass bodies being intercepted and braked when they hit the stops will, d a d u r c h e k e n n n z e i c h n e t that the Abbremsug the mass body takes place magnetically. 2. The method according to claim 1, d a d u r c h g e -k e n n z e i c h n e t that the braking of the mass body takes place in an elastic-mechanical way. 3. The method according to claim 1 or 2, d a d u r c h g e k e n n z e i c h n e t that during braking the not directly used drive energy for the actuation of the drive motor is recovered. 4. The method according to any one of the preceding claims, d a d u r c It should be noted that the entire process was operated in reverse order , i.e. that the mass bodies are given a straight acceleration and this e is then deflected into a circular path, the deflection pulse being the rectilinear accelerated mass body on the circular path serves as a drive for a rotary movement. 5. The method according to any one of the preceding claims, d a d u r c It should be noted that a liquid is used as the mass body 6. The method according to any one of the preceding claims, d a d u r c h g e k e n n z e i c h n e t that the mass bodies or amounts of liquid in each case only after The certain distance of rotation can be brought into the exit position. 7, device for carrying out the method according to one of the preceding Claims that the mass body resp. Liquid quantities from the pipe openings through valves controlled by means of rctocells be solved 8 device according to claim 7, when using mass bodies, d a d u r c h g e k e n n n z e i c h -n e t that the anchor device is made of at least there are two collecting funnels, so that an empty collecting funnel for one incoming mass body is ready. 9. Device according to claim 8, d R d u r c h g e n n n z e i c N e t that the collecting funnel is provided with a magnetic braking device are 10. Apparatus according to claim 8 or 9, d a d u r c h g e k e n n z e i c h n e t that the collecting funnel with an elastic-mechanical braking device are provided. 11. Device according to one of claims 8 to 10, d a d u r c h g it is not indicated that at least two collecting funnels are provided, which alternate between emptying and collecting. 12. The device according to claim 7, when using liquids as a mass body, d a d u r c h g e -k e n n n z e i c h n e t that the braking device is designed as an impact wall. 13. The apparatus of claim 12, d a d u r c h g e k e n n z e i c h n e t that the return device is a liquid pump.