DE202022104048U1 - Self propelled electric generator - Google Patents

Abstract

A self-propelled electric generator consisting of:
a frame (2);
Stator (1) secured in the frame (2), rotor (3) with magnets is mounted in a bearing with a shaft in the center of the stator (1) the bearing with screw to stator cover (4) and
Stator cover (4) is screw to stator (1) and a control unit driving self-propelled electric generator machine;
wherein stator (1) has two different types of slots numbered (5) and numbered (6);
Stator (1) slot (5) have tooth and two different winding coils of wire, winding 1 and winding 2;
Stator (1) slot (5) winding 1 coil wire drive self-propelled electric generator and generate electromagnetic field greater than generate electromagnetic field in stator (1) slot (5) winding 2 coils wire;
Stator (1) slot (5) winding 2 coil wire is used to start self-propelled electric generator and increase torque and speed during double rotation;
the electromagnetic fields generated in the stator (1) slot (5) winding 1 take over the rotational duel to the difference of the winding coils in the stator (1) slot (5);
Stator (1) slot (6) have two different slots, A and B and two different three-phase winding coils;
Three-phase winding coil wire is placed in stator (1) slot (6) A to generate electricity used internally to drive, battery charge, power controller cooling fans, boost speed and torque of rotor of self-propelled electric generator motor.
three-phase winding wire is in the stator (1) slot (6) B for generating electricity for external use

Description

TECHNICAL FIELD TO WHICH THE INVENTION RELATES

The present invention relates to automotive electrical generators and more particularly to the power industry, automotive, aerospace, marine, motorcycle, home use and anything that requires electricity to function.

BACKGROUND STATEMENT

A conventional self-propelled electric generator for power generation according to the in The prior art shown comprises a frame 2, a stator 1, a stator cover 4, a rotor, copper wires, magnets and a control unit; A stator 1 is located in the frame 2, rotor 3 is mounted in the center of the stator 1 with bearings to the stator cover 4.

Rotor 3 is rotated by the electromagnetic force in stator 1 slot 1.

Stator 1 slots 2 and 3 generate an electrical voltage for internal and external use.

The aim of the present invention is to provide an electric generator that is self-powered, generates electricity for external purposes and does not depend on external energy sources such as solar, biofuel, fossil fuels and other energies to generate electricity.

It propels itself and generates electricity for households, daily activities, industries, vehicles of all kinds in a better sustainable energy way.

Disclosure of Invention

According to the present invention, there is provided a self-propelled electric generator comprising a frame, a stator fixed in the frame, a rotor having a shaft mounted at the center of the stator with bearings to stator covers, and the rotor rotates by rotation of the shaft and control with the control unit. Advantageously, the self-propelled electric generator produces high voltage and electricity, works quietly and does not cause air pollution and harm our environment, powering industries, vehicles and homes.

Further advantages and advantages of the present invention will become apparent after a careful reading of the detailed description with appropriate reference to the accompanying drawings.

• ist eine perspektivische Ansicht eines selbstfahrenden elektrischen Generators gemäß der bevorzugten Ausführungsform der vorliegenden Erfindung.
• zeigt eine Statorplanansicht des selbstfahrenden elektrischen Generators.
• ist eine vordere Statorabdeckung, ein Stator und eine hintere Statorabdeckung für den selbstfahrenden elektrischen Generatorstator.
• ist eine Schaltplanansicht des selbstfahrenden elektrischen Generatorreglers.
• zeigt eine Rahmenansicht des selbstfahrenden elektrischen Generators.

In the drawings:

• 12 is a perspective view of a self-propelled electric generator according to the preferred embodiment of the present invention.
• Fig. 12 shows a stator plan view of the self-propelled electric generator.
• is a front stator cover, stator and rear stator cover for the automotive electric generator stator.
• Fig. 12 is a circuit diagram view of the self-propelled electric generator controller.
• shows a frame view of the self-propelled electric generator.

description

Regarding the drawings and first of all to the A stator 1 and a rotor 3 according to the preferred embodiment of the present invention comprises a frame 2, a stator fixed in the frame 2, a rotor 3 mounted in bearings with a shaft in the middle of the stator 1 to a stator cover 4 inside the frame 2 is.

A frame 2 with two part, part 1 and part 2

Part 1 was created for Stator 1, Stator Cover 4, Rotor 3 and Stator Fan. Part 2 is designed for controller, step-up transformer and fan. Stator 1 have two different types of slots, slot 5, slot 6.

Stator 1 Slot 5 is a toothed stator for winding coils and has two different three-phase windings.

1. 1. Stator Steckplatz 5 Wicklung 1 ist eine dreiphasige Wicklungsspule zum Antrieb des selbstfahrenden elektrischen Generators, die Wicklungszahl der Spulen ist größer als die von Stator1 Steckplatz 5 Wicklung 2 Spulen.
2. 2. Stator Steckplatz 5 Wicklung 2 ist eine dreiphasige Wicklungsspule zum Starten des selbstfahrenden elektrischen Generators, der als Drehmoment- und Drehzahlverstärker dient; Die Anzahl der Wickelspulen in Stator 1 Steckplatz 5 Wicklung 2 Spulen ist geringer als in Steckplatz 5 Wicklung 1 Spulen.
3. 3. 6 Hall-Effekt-Sensoren sind im Schlitz 5 mit 45 Grad voneinander entfernt platziert und sie sind ausgerichtet und mit drei verbunden, um den Südpol zu erkennen, der Drei-Südpol-Detektor ist 90 Grad voneinander entfernt und arbeitet mit der Motorsteuerung 2 der Startersteuerung.
4. 4. Die anderen drei im Nordpoldetektor sind 90 Grad voneinander entfernt und mit der Motorsteuerung 1 der Antriebssteuereinheit verbunden.

Winding 1 and winding 2 and 6 hall effect sensors.

1. 1. Stator Slot 5 Winding 1 is a three-phase winding coil to drive the self-propelled electric generator, the winding number of coils is larger than that of Stator1 Slot 5 Winding 2 coils.
2. 2. Stator Slot 5 Winding 2 is a three-phase winding coil for starting the self-propelled electric generator, which serves as a torque and speed booster; The number of winding coils in stator 1 slot 5 winding 2 coils is less than in slot 5 winding 1 coils.
3. 3. 6 hall effect sensors are placed in slot 5 45 degrees apart and they are aligned and connected with three to detect south pole, three south pole detector is 90 degrees apart and works with motor controller 2 the starter control.
4. 4. The other three in the north pole detector are 90 degrees apart and connected to the motor control 1 of the propulsion control unit.

Stator 1 slot 6 is divided into two slots, slot 6A and slot 6B.

Stator 1 slot 6A is a 3-phase winding coil that generates electricity for the internal use of the self-propelled electric generator.

The three-phase wires are connected to the control unit of the self-propelled electric generator.

Stator 1 Slot 6B is a 3-phase winding coil that generates power for external use of the self-propelled electric generator.

The 3-phase coils are connected to the 3-phase step-up transformer input in frame 2 part 2.

The three-phase transformer output is connected to the external load.

Stator 1 is screw with stator cover 4 and place in frame 2 part 1. Rotor 3 has shaft and 10 magnets; The magnet bars are arranged in pairs and are placed in the middle of stator 1 in frame 2 part 1.

Rotor 3 is mounted in a bearing and the bearings are bolted to stator cover 4.

1. 1. Der Starterteil der Steuereinheit.
2. 2. Der treibende Teil der Steuereinheit.
3. 3. Der interne Verwendungsteil der Steuergeräte.

Control unit received stator slot 5 and slot 6A winding coil wires, it is divided into three parts.

1. 1. The starter part of the control unit.
2. 2. The driving part of the control unit.
3. 3. The internal use part of the control units.

The starter portion of the control unit consists of battery, motor control driver 2, metal toggle switch 3 pin ON/OFF/ON positions.

The starter part of the control unit is connected with a positive and negative wire of the motor controller 2 to the OFF pin of the metal toggle switch and the motor controller 2 is connected with three output wires ABC to stator 1 slot 5 winding 2 coil.

The metal toggle switch connects to one of the IN to 12 volt batteries.

The metal toggle switch is connected to the other IN to AC to DC buck converter output.

The AC to DC buck converter input is connected to row 2 of the stator 1 slot 6A wound coil wire.

The driving part of the control unit is connected to the motor controller 1 with AC to DC step-down converter output.

The AC to DC step down converter input is connected to row 1 of the stator 1 slot 6A winding coil wire.

Internal use is connected from row 3 of the stator 1 slot 6A winding coil wire to AC to DC buck converter input.

The AC to DC step-down converter output is connected to the battery charger, which charges the self-propelled electric generator engine starter battery, connected to the control unit cooling fan, and connects frame 2 lights of the self-propelled electric generator.

When the metal toggle switch is moved from the OFF to the ON side of the battery, the self-propelled electric motor rotor begins to spin and this spin generates electricity in Stator 1 slot 6A and 6B.
the power generated in Stator 1 slot 6A is transmitted to AC to DC step-down converter and then to motor controller 1 of the drive part of the control unit.

The motor controller 1 uses the signal from the hall effect sensor to align itself with the north pole of the magnets rotating in the rotor, and the motor controller 1 then sends a pulse width modulation signal to the stator 1 slot 5 winding 1 coil wires.

Rotor 3 speed and power increases and self-propelled electric generator keep propelling itself.

Then move the metal toggle switch from battery ON to second ON from AC to DC output and use

the current generated in slot 6A line 2 to give the rotor more speed and power.

Although the invention has been explained in relation to its preferred embodiment(s) as mentioned above, it is to be understood that many other possible modifications and variations can be made without departing from the scope of the present invention.

It is therefore contemplated that the appended claim or claims cover such modifications and variations as fall within the true scope of the invention.

Claims (4)

A self-propelled electric generator consisting of: a frame (2); Stator (1) secured in the frame (2), rotor (3) with magnets is mounted in a bearing with a shaft in the center of the stator (1) the bearing with screw to stator cover (4) and Stator cover (4) is screw to stator (1) and a control unit driving self-propelled electric generator machine; wherein stator (1) has two different types of slots numbered (5) and numbered (6); Stator (1) slot (5) have tooth and two different winding coils of wire, winding 1 and winding 2; Stator (1) slot (5) winding 1 coil wire drive self-propelled electric generator and generate electromagnetic field greater than generate electromagnetic field in stator (1) slot (5) winding 2 coils wire; Stator (1) slot (5) winding 2 coil wire is used to start self-propelled electric generator and increase torque and speed during double rotation; the electromagnetic fields generated in the stator (1) slot (5) winding 1 take over the rotational duel to the difference of the winding coils in the stator (1) slot (5); Stator (1) slot (6) have two different slots, A and B and two different three-phase winding coils; Three-phase winding coil wire is placed in stator (1) slot (6) A to generate electricity used internally to drive, battery charge, power controller cooling fans, boost speed and torque of rotor of self-propelled electric generator motor. three-phase winding wire is in the stator (1) slot (6) B for generating electricity for external use Self-Propelled Electric Generator claim 1 : a stator (1) with two different slots (5) and (6); Stator (1) slots (5) and (6) have two different windings; Stator (1) has a longer wall than slot (5) and (6); Stator (1) slots (5) and slot (6) are located within the stator wall (1); Slot (5) is shorter than slot (6) and has a stator tooth; Slot (5) has two three-phase winding coils on the tooth, winding coil 1 and winding coil 2; Slot (5) winding coils 2 are on top winding coil 1 stator (1) slot (5) winding 1 is a three-phase winding coil to drive the self-propelled electric generator, the coil winding number is larger than stator (1) slot (5) winding 2 coils; Stator (1) Slot (5) Winding 2 is a three-phase winding coil for starting the self-propelled electric generator, which also serves as a torque and speed booster; The number of winding coils in stator (1) slot 5 winding 2 coils is less than in slot 5 winding 1 coils; Stator (1) slot (6) is longer than slot (5), and stator (1) slot (6) is divided into two slots, slot (6)A and slot (6)B, where slot (6)A and Slot (6)B have a three-phase winding spiral; Slot (6)A have 3-phase alternator winding coils that generate power for internal use of self-propelled electric generator; Slot (6)B have 3-phase alternator winding coils that generate power for external use of the self-propelled electric generator. Self-Propelled Electric Generator claim 1 : a rotor with magnets and rotating with double electromagnetic field from stator (1) slot (5) winding 1 and winding 2; the rotor rotates in dual-speed mode, which gives the rotor more torque and speed; The magnetic field of the rotor magnets is detected by 6 Hall effect sensors by directing the electromagnetic field to the poles of the rotor magnets; The north pole detects through 3 hall effect sensors and the south pole detects through 3 hall effect sensors. Self-Propelled Electric Generator claim 1 , wherein: a control unit for self-propelled electric generator, self-propelled equipment with a method and a wiring diagram; The control unit is connected to motor controller 1 and motor controller 2, where motor controller 1 with output A, B, C is connected with stator (1) socket (5) winding 1 coil wire and connected with input to AC to DC step-down converter output; The input of the AC to DC step-down converter is connected to row 1 of the stator slot (1) (6) A winding coil 1 wire and the voltage and current drive self-propelled electric generator; Motor controller 2 is connected to the output wire A, B, C with stator (1) slot (5) winding 2 coil and connected to the input to the OFF pin of a metal toggle switch; The metal toggle switch connects to one IN to 12 volt battery and the other IN to AC to DC buck converter. The AC to DC step down converter is connected to row 2 of the stator slot (1) (6) A generator winding coils wire. When the metal toggle switch is moved from the OFF to the ON side of the battery, the self-propelled electric motor rotor begins to spin and this spin generates electricity in stator (1) slots (6)A and (6)B. the power generated in stator (1) slot (6)A is transmitted to AC to DC step-down converter and then to motor controller 1 of the drive part of the control unit. Move the metal toggle switch from the battery ON to the second ON from AC to DC output and use the current generated in slot (6)A line 2 to give the rotor more speed and power.

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