DE202005020486U1 - Electric motor has engine designed as impulse vector electromagnet engine with which winding arrangement and permanent magnet arrangement are combined for torque generation in both stator and rotor - Google Patents

Abstract

Electric motor has a stator winding arrangement and a stator permanent magnet arrangement. The engine is designed as impulse vector electromagnet engine with which the winding arrangement and permanent magnet arrangement are combined for torque generation in both the stator and the rotor. In each case several permanent magnets provided with windings are present.

Description

The The invention relates to an electric motor having a stator winding arrangement and a stator permanent magnet assembly having stator and a a rotor winding assembly and a rotor permanent magnet assembly having rotor.

such Electric motors are assumed to be known. It must be for each decreased power a relatively high electrical input power supplied which are relatively expensive Energy sources are required.

Of the Invention is based on the object, an electric motor ready to ask for its operation a lesser effort to provide the energy is required.

These The object is achieved with the features of claim 1. in this connection it is envisaged that the motor is designed as a pulse vector solenoid motor is, in which for torque generation both in the stator and in the Rotor the winding assembly and permanent magnet assembly in the manner are combined, that in each case several provided with windings permanent magnets available. The construction and operation allow, with relatively little Effort enough input power ready to provide a required output power.

The Timing of the magnetic forces over the Windings leaves in combination with the magnetic forces the permanent magnets a precise tunable torque generation to.

The simplified provision of the input energy is supported by the fact that the electric motor an additional Voltage generator is assigned to a square geometry based.

in this connection is advantageously provided that the additional voltage generator in the way is trained that he has an electron-neutrino resonance uses.

One better Structure consists in the fact that the additional voltage generator to several a polygonal shape arranged, provided with a winding rod-shaped permanent magnets square Cross-section, with unlike poles follow each other. For example, you can six rod-shaped Permanent magnets are assembled into a hexagonal shape.

With the measures, that the additional voltage generator several round wound capacitors are assigned to the triggered loading and Entla are connected and aligned, in addition to increase contributed to the torque.

For one high efficiency is advantageous in that the permanent magnet arrangements bar magnets made of rare earth materials, wherein as rare earth materials neodymium-iron-boron or Cobalt-samarium magnetic materials are advantageous.

For the function the engine are also the measures of advantage that the Permanent magnets and windings of the stator and the rotor rectified to each other and thereby partially aligned radially and partially obliquely are.

One in terms of energy utilization and operability, advantageous construction is further achieved in that by means of a control element in his waveform variable rectangular wave generator for different Control and torque generation is provided.

The The invention will be described below with reference to the drawings explained in more detail. It demonstrate:

1 an electric motor in the form of a so-called pulse vector solenoid motor in a schematic axial view,

2 an electric motor after 1 in lateral view,

3 a central part of the electric motor after 1 schematically in axial view,

4 a part of the electric motor after 1 in schematic view and

5 an explanatory illustration of the force effect of the magnetic fields occurring in the engine.

• A: Stabelektromagnet Stator, 8 Stück, M: Rechteckwellengenerator
• B: Stabelektromagnet Rotor, 8 Stück
• C: Hallinduktionsstromerzeuger Stator, 8 Stück
• D: Hallinduktionsstromerzeuger Rotor, 4 Stück
• E: Kondensatoren rund gewickelt Rotor, 8 Stück
• F: Elektronen-Neutrino Resonanz Quadratgeometrie-Spannungserzeuger
• G: Potentiometer
• H: Kondensatoren rund gewickelt Stator, 8 Stück
• I: Triacdiodenventile, 2 Stück Rotor, 2 Stück Stator
• J: Schalter K: Magnetische Schwingkreisinduktionsspule L: Lampe
• RO: Rotor
• ST: Stator

In the drawings:

• A: Stable electromagnet stator, 8 pieces, M: square wave generator
• B: Stable electromagnet rotor, 8 pieces
• C: Hall induction current generator Stator, 8 pieces
• D: Hall induction current generator rotor, 4 pieces
• E: capacitors wound around rotor, 8 pieces
• F: electron neutrino resonance square-geometry voltage generator
• G: potentiometer
• H: capacitors wound around stator, 8 pieces
• I: Triac diode valves, 2 pieces rotor, 2 pieces stator
• J: Switch K: Magnetic resonant circuit inductor L: Lamp
• RO: rotor
• ST: Stator

How out 1 can be seen, the rod-shaped permanent magnets with the respective applied windings, ie the rod electromagnets B of the rotor RO (see also 4 ) and the rod-shaped permanent magnets with winding applied, ie the rod electromagnets A of the stator ST with respect to the radial direction and also tangential direction obliquely. Further rod-shaped permanent magnets and applied windings in the form of Hall Induction current generators D and C of the rotor RO and the stator ST are radially aligned. This outer region of the electric motor is used to generate a rotating field for operating the engine, as is known in a similar manner from other electric motors. The windings are provided with magnetic field shields, as in 4 shown. The polarity of the magnets and windings is also apparent from FIGS.

In the central region, a voltage generator F is additionally arranged, which has in cross-section square bar magnets and windings applied thereto, such as 3 , in the lower right shows closer. The voltage generator F makes use of an electron-neutrino resonance, to which end, for example, the arrangement according to the in 3 is used in the diagram below. The bar magnets provided with windings are arranged alternately with unlike poles N, S in a hexagonal shape; Other polygonal shapes are possible with a different number of wound permanent magnets. The voltage generator F has as carrier in the present case an insulating square plate on which further in the arrangement shown around wound capacitors E are stored. In addition, at least one square wave generator M for generating variable rectangular voltage signals and at least one magnetic Schwingreisinduktionsspule K and, if desired, an indicator lamp L are present. 1 further shows triac diode valves E1, E2 and other round wound capacitors H of the stator ST, the connecting lines to the stator components are not shown for clarity.

The rod-shaped Permanent magnets are advantageous from rare earth materials, especially neodymium-iron-boron alloys or cobalt-samarium alloys and have a corresponding high energy density. The coils are, as can be seen from the figures, wound in opposite directions to produce the desired torques.

In 5 is explained by the triggered triggering of the windings of the electromagnets A, B achievable repulsive or attractive force effect, which allows in combination with the force of the permanent magnets precise tuning to the torque generation of the engine. In the drawing a), the attraction is explained using the example of a left-handed and right-handed threaded shaft (spin of electron neutrinos, unlike magnetic poles), while sub-image b) shows the repulsion force using two identically rotating, eg clockwise threaded shafts (same pole). Part c) shows a permanent magnet with pole cap connection and primary and secondary winding of copper enameled wire and the magnetic field shield.

Additional information about the Fig .:

In 2 is also shown how a main shaft Z 'of the electric motor is mounted circumferentially in a magnetic bearing ML or spherical roller bearings.

To 3 the two upper spools of the six spools shown are wound on the right, the two lateral spools Spli are each wound on the left and the two lower spools on the spool are again wound on the right. The frequency of the magnetic resonant circuit is 1323 Hz. The coil structure shown below right with a core square or rectangular cross-section has a paper insulation between magnet and copper wire. The windings are tied tight.

In 4 is shown a sector cutout with stator ST and rotor RO. In addition, the magnetic field shield MFS can be seen. At the magnetic poles north / north of the same name, as usual, a polarity impulse is produced.

In 5 is the force effect between the electromagnetic pole caps of the electromagnets A and B explained. In the upper part of the picture a), a left threaded shaft pitch is provided on the left, while right a right threaded shaft pitch is provided. Since unlike poles attract, it is associated with a pull or an opposite rotation. The spin corresponds to a counter-clockwise threaded shaft or a right-handed threaded shaft. The partial image b) shows how the electron neutrinos rotate along the thread. Since poles of the same name repel, a repulsion pressure or an equal rotation arises. The spin results in each case a clockwise threaded shaft. In the sub-picture c) a round in cross-section magnet, for example, a neodymium iron Bormagnet is shown. In the triggered or pulsed electromagnet A in plan view can be seen a Polkappenanschluss PA, a copper wire with Polkappenanschluss KPA on the round magnet, a magnetic field shield MFS a primary coil PR and a secondary coil SE.

To the functioning and to the structure becomes further stated:
By matching the frequency, square dimensions and geometric design of the six oppositely wound copper wire neodymium-boron-Fe round rod magnetic coils matched to the electron neutrinos, a coupling of the Maximaloberwellenamplitude, and the minimum sub-amplitude is achieved (power triangle = potential gradient). Furthermore, by the adjustment (approximation) by superposition of the waves, a resonance of both systems can be generated.

at two systems that are in their resonant frequency, can be quickly transfer energy potential potential difference states into the dual system. At resonance tuning of 1320 Hz, the clockwise starts Electron neutrinos turn in at the pole ends and generate thereby a charge shift. Electrons flow in the coil winding. Furthermore, left-handed electron neutrinos begin to turn around at the north pole coil ends and thereby generate an opposite charge shift. It flow Positrons in the coil winding.

Now it is possible, decoupling energy from electron neutrinos. Upon actuation of the Switch W on the rotor results in a voltage V across the capacitors in the rotor. The now flowing Current or the voltage V can now in the eight outer rotor capacitors be cached. When switching on the square wave generator M.2 flows now a Storm or results in the voltage V at the first potentiometer.

ever after setting the potentiometer: Idling 1. Pot. position - partial load 2nd pot position - full load 3. Potstellung becomes the voltage V in conjunction with the square wave generator or the voltage signal at the electromagnets B.1 to B.8 triggered (pulsed), As a result, the rotor starts to move away from the electromagnets A.1 to A.8 repel.

As well bump The neodymium-iron-boron magnets of B and A also decrease. be noted Furthermore, it holds that the capacitors (E.Rotor) in the triggered Discharge a pulse vector to the positive pole and release the right spin (Turn the rotor to the right). It should be mentioned that at the B. electromagnet at the coil in the rotor also to the positive pole yields a vector thrust, the right spin of the Rotor doubles. A summation of the positive pole impulse vectors elevated the effectiveness the pulse vector electromagnetic motor.

The contained in the rotor D. Hall pulse induction double coil voltage generator deliver n = 1000 rpm when the speed starts. enough tension V and power A to keep the rotor in rotation and the capacitors recharge. By connecting a coupled electromagnetic Oscillating circuit disconnects more and more potential (excess amount). The stator circuit is formed by the clockwise rotation of the rotor in C. Hall pulse induction double coil voltage generator a voltage V stored in E.1-8 capacitors.

By the potentiometer signal full load, the C. electromagnets are switched on, whereby the clockwise thrust vector is set to the maximum electromotive force output value KW increased becomes (highest Torque and highest power generation).

at Poti mode full load all electromagnets A. and B. work as well Capacitor thrust vector, discharge electrospray vector in rotor towards the plus pole interlocking. A and B have electric coils in full load mode the shortest Wave Generator Triggering in Delta t Voltage V In and Out: Charging and unloading.

By the potentiometer control in relation to the signal triggering and the power requirement, the two triac valves regulate the ratio of Charging and discharging of the capacitors, as well as the triggered Charging depending on idling - partial load - full load signal of the potentiometer the electric coils and the speed n = 1 / min, Power output KW, torque curve of the electromagnetic motor. The Antiparallelschaltung two thyristors allows a low-loss Control of alternating power. Each thyristor controls each a half wave. The summary of both thyristors to one Component is referred to as bidirectional thyristor or tirac.

Operation area:

Automobiles, Truck, aviation (aircraft turbines), decentralized energy supply, industrial manufacturing machines, space travel.

Claims (8)

Electric motor having a stator winding arrangement and a stator permanent magnet arrangement having stator (ST) and a rotor winding arrangement and a rotor permanent magnet arrangement having rotor (RO), characterized in that the motor is designed as a pulse vector solenoid motor in which the winding arrangement and permanent magnet arrangement are combined in such a way for generating torque both in the stator (ST) and in the rotor (RO) that in each case a plurality of permanent magnets provided with windings are present. Electric motor according to claim 1, characterized that the electric motor an additional Voltage generator (F) is assigned to a square geometry based. Electric motor according to claim 2, characterized that extra Voltage generator (F) is formed in such a way that it has an electron-neutrino resonance uses. Electric motor according to claim 2 or 3, characterized in that the additional one Voltage generator (F) several arranged in a polygonal shape, square-shaped permanent magnets provided with a winding Cross-section, with unlike poles follow each other. Electric motor according to one of claims 2 to 4, characterized that the additional voltage generator (F) are associated with several round wound capacitors (E), the connected and aligned for triggered loading and unloading are. Electric motor according to one of the preceding claims, characterized in that the permanent magnet arrangements are bar magnets from rare earth materials exhibit. Electric motor according to one of the preceding claims, characterized characterized in that the permanent magnets and windings of the stator (ST) and the rotor (RO) rectified to each other and thereby to Part radially (C, D) and partly obliquely (A, B) are aligned. Electric motor according to one of the preceding claims, characterized characterized in that a means of a control member in its waveform variable square wave generator (M) for different control and torque generation is provided.