WO1982002292A1 - Permanent dynamo - Google Patents

Abstract

A permanent dynamo in which a magnet motor rotated by electrical power from a battery drives a dynamo such that the dynamo generates more power than the power consumed in the magnet motor, the amount of power requisite for the magnet motor is recirculated back to the source battery of the magnet motor from the generated power, and the surplus power is permanently available for other purposes. A plural of pairs of magnet motors and dynamos are arranged to make a series multi-connection in the order of increasing power generation, such that all the electric power generated by each dynamo is fed to the dynamo of the next stage in the order of increasing power generation and, from the increased electric power generated by the dynamo of the final stage, the electric power required for the magnet motor of the primary stage is fed back to the source battery of the primary stage-magnet motor. Thus, it is made possible for an increased amount of electric power to be permanently available for other purposes without any change in the amount of power consumption.

Description

 Specification

 C. I.Mount dynamo technical field

 In the present invention, the generator is turned by the torque of the magnet motor.]? The power consumption of the magnet motor is reduced from the generator.

Generates ^Y that is greater than the power consumption, and returns the power consumed by the magnet motor from the obtained power to the battery, which is the power supply for the magnet motor. and, (c) ⁰ cormorants by you can use the excess power to other purposes - on while the value down door dialog Namo.何 what

—The killing motor also needs electric power to form a field on the stator side, so running a generator with this type of motor requires a relatively large amount of power consumption. On the other hand, a magnet motor that forms a field with the magnetic force of the permanent magnet and obtains a rotating force by an attraction reaction with the magnetic force of the electromagnet generated in the rotor. Requires more power to form a field, so compare it to a motor that has killed you.]? A special package that says you can get a certain amount of innocence with less power consumption Yes. This kishiki is a kishiden system that can obtain large output power with low power consumption by turning the generator using the above special features of the magnetic motor. The purpose is to provide Disclosure of the invention

 -The present invention is based on the fact that the generator is rotated by the magnet motor driven by the power supply from the power supply battery.]) Power consumption Generates the upper output power, and returns only the power required to destroy the magneto motor from the obtained power to the electric battery and the surplus power. Use it for other purposes, or in order.]? A magnet motor capable of obtaining a large output and multiple pairs of power generators that are directly connected to the generator The S power of each generator is used.]? The power is supplied to the magnet motor of the high-power device, and it is obtained from the final generator.]? Of these, it is necessary to recycle the primary magnet motor. を Only the power is supplied to the primary magnet motor. Reduced to Li, it was also a good-sized Ruru more than 剩電 force to the cormorant by Ru can be other eyes to use the.

 As described above, according to the present invention, the power consumption of the magnet motor is much smaller than the power consumption of the ordinary motor, which is required to obtain the same output as the killing motor. The power consumption of the magnet motor that rotates the generator from Kishi Electric is large because the power of the magnet motor directly rotates the generator. Power is generated, and of the obtained power, the power required by the magnet motor is

OM? I IPO The basic idea is to return to one side of the power source of the power generator and use the surplus power for other purposes, and furthermore, all the power obtained from the above generators Is another

]? Supply to a high-output magnet motor, and the high-power generator can be operated by the magnet motor.]) Large power can be obtained. It is a thing. Since the power consumption for obtaining the rated output of the magnet motor is smaller than the rated output, the power shortage is naturally supplemented by the permanent magnet force generated by the magnet. It is considered that the present invention utilizes the characteristics of the magnet motors and uses the characteristics of the magnet motors so that the rotation of the magnet motors, which have a large amount of work compared to the power consumption, can be performed. Since the power is used as the regenerative power of the generator, therefore, the generator must generate more power than the power consumed by the magnet motor. A part of the generated electric power, that is, the electric power required to rotate the magnet motor is supplied to the battery motor to supply electric power to the magnet motor. And the surplus electricity can be used for other purposes. In fact, the surplus power used for other purposes can be increased, and the energy source for generating this surplus power is permanent. It is considered to have been generated by force.

 In this way, the present invention obtains the required power semipermanently.

C? I

'VI ?. In addition to being able to do this, the supply power is also large.] 3 Large amounts of power are used as secondary flood power, and this is further amplified in the third and fourth orders. The means can be converted to the next larger ones.)) It is possible to obtain semi-infinitely large electric power.

 BEST MODE FOR CARRYING OUT THE INVENTION Next, a first embodiment of the present invention will be described. In this case, a lead wire for supplying power from a battery to a motor is connected. It is a direct connection between the S-force of the magnet motor and the input shaft of the electric wire, and a connection is made between the generator and the battery. Of the generated electric power, only the electric power necessary for the rotation of the magnet motor is supplied to the battery side via a guide, and the surplus electric power obtained by the generator is used for other purposes. It is intended to be used on a regular basis.

In the actual travel example of the pond of the present invention, a power supply lead is connected from the battery to the primary magnet motor, and the output shaft of the primary magnet motor is connected to the primary magnet motor. The primary shaft is directly connected to the input shaft of the primary generator, and the primary magnet motor can obtain a larger output than the primary magnet motor. The power from the power generation side of the secondary power generation is connected, and the power of the secondary magnet motor and the input power of the secondary power generation connection are corrected. From the next generation electric machine. This is a battery with a power supply wire connected to it.] 5, A secondary magnet module that turns all of the power generated by the primary generator into a secondary generator Power was supplied to the secondary magnet motor as power consumption and was obtained by the secondary generator.]? Of the large amount of power, it was necessary for the rotation of the primary generator. The power consumption of the primary magnet motor is reduced to the primary magnet motor driving battery and the surplus power is used for other purposes.

Yes.

 Still another example of the present invention is that each output shaft of three or more magnet motors capable of sequentially obtaining a larger output corresponds to the magnet motor.] By directly connecting the input shaft of the output generator, multiple pairs of power generators consisting of a magnet motor and a kishi electric connection are arranged in a different manner, and the first from the battery. A power supply lead is connected to the input side of the next magnet motor, and the output side of each generator excluding the next next generator is connected to the higher output magnet motor. The input side is connected to the power line by a conductor for power supply, and the input side of the battery, which is the power supply for the primary magnet motor, and the final order, that is, the highest output The output side of the power generation connection is connected by a conductor, so the battery is connected to the primary magnet motor from the battery. Cost power to Kyo铨, final following Mizunoto power next to the outside of all of the high output of magnesite by the output power to be Mizunoto students in each Mizunoto Denki

OM? R small ννα? Ο The electric power consumed by the primary motor is returned to the battery as well as the electric power consumed by the sub motor, and only the electric power consumed by the primary magnet among the electric power generated from the final generator is supplied to the battery. Large surplus power is used for other purposes.

 It is optional to interpose necessary intervening devices such as transformers and rectifiers as necessary for each of the above conductors.

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 Industrial applicability

 As described above, C of the present invention. One dynamo uses a magnet motor to run a generator. 1) It consumes less power.] It obtains a large amount of power, and the minus part of the obtained power is The power consumed by the battery is reduced to a single battery, and the remaining power is used permanently for the purpose of foaming, which has a significant effect on power saving.) The range of use is very large. In particular, it is used as a power generator for ships and the like, where power supply is difficult.

Claims

 The scope of the claims

-1. By connecting the power supply line to the magnet motor from the battery and connecting the output shaft of the magnet motor and the input shaft of the generator directly. ]? The power consumption of the magnet motor from the generator is also large.]? A large amount of power is generated, and of the obtained power, the power required for rotation of the magnet motor is generated. It is characterized in that the amount is returned to the battery via a lead wire connected to Kishi Electric, and the surplus power can be used for other purposes. c ⁰ - while the value down door dialog Na Mo

 2. Connect a power supply lead from the battery to the primary magnet motor, and connect the output shaft of the primary magnet motor and the primary generator. The input shaft is directly connected, and all of the power generated by the primary generator is the output of the primary magnet motor.]? The input ^ of the motor is supplied via a conductor, and the output shaft of the secondary magnet motor and the input shaft of the secondary generator are fixed. Of the large amount of electric power generated by the generator, the amount of electric power required for the rotation of the primary magnet motor is reduced through the lead to the above-mentioned battery, and the surplus electric power is measured by the ^ C-Mount Dynamo, which is specially designed to be used

 3. Sequentially)) It is possible to obtain a large force-three values or more

OMPI _ ν ι? Ο Λ Each magnet motor is connected to each output shaft of the magnet motor above.

By connecting the input shaft of the high-power generator directly, multiple pairs of magnet motors and generators are arranged in a multiple system, and the battery A power supply wire is connected to the primary magnet motor, and power is supplied from the output side of each generator other than the final generator to the input side of the higher-output magnet motor. All of the power generated in each of these power generation connections is supplied to a high-output magneto motor, and the primary power generated by the next- The amount of power consumption required for the rotation of the magnet motor is reduced to the battery via a lead wire, and excess power can be used for the purpose of foaming. Special one-mount dynamo

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