JPS5928871A - Mechanism with power machine for operating driven unit by principle of loading-back method - Google Patents

Abstract

PURPOSE:To operate a driven unit while regenerating electric power by rotating the stator side of a generator with the generator as a power transmission, mounting the drive unit on a shaft and inputting power. CONSTITUTION:An engine shaft 1, a motor rotor 2, a generator stator 4 supported by bearings 7, 8, and a generator rotor 3 rotating therein are coupled directly to a mounting base 6 to mount a driven unit on a shaft 5, and engine power is inputted to generator electric power. Generated electric power is again inputted through a slip ring 9 to the motor 2. The generators 3, 4 in which generated powers are consumed increase electromotive forces to become output torque for operating the driven unit mounted on the shaft 5, and the regenerative electric power engine power energy can be saved by reusing as the regenerative power the balancing energy between the load of the driven unit mounted on the shaft 5 and the power for the motor 2.

Description

[Detailed Description of the Invention] The returned load method is a method used for DC machine testing, but the principle of operation of the present invention and the returned load test method are the same, or the purpose of use is different, so there is only one method. In order to use the motor to operate the driven body as in the invention, the 9th generator ■■ is used as a power transmission device also known as a power generation clutch. By attaching the driven body to the shaft (■) and inputting power, the driven body will operate while regenerating electric power. This is the principle of Metulism, which operates as a power machine.

Connect the engine 7 shaft Q) to the mounting base (6) and the generator stator ■ which is supported by the motor rotor ■ and the bearing ■■. Install the
When engine power is input, the power rotates the shaft - motor rotor - generator rotor - and generates electricity.

The generated power is taken out to the outside with a slip link.
Re-manpower to motive ■ and consume at 7. The generated power is consumed by the generator■■d The electromotive force is increased, and the electromotive force that would normally be a load is made into a single rotating body! In the case of the present invention, which is a Lil1 force transmission device, it can be converted into effective torque and used, so it becomes the output torque that operates the driven body attached to the shaft (■), and the load and power of the driven body attached to the shaft (■) are combined. By regenerating the balanced amount as regenerative power and reusing it in the motor ■, engine power energy can be saved by 9 regenerated power, so it is possible to create a motor based on the principle of the return load method. When the engine shaft ■ is turned across from the dotted line 0, the power switch is set to 0, and the electric motor ■ is used as the main power.

It can be used as a power machine to understand the principle of the cup method of the return load method.

[Brief explanation of the drawing]

Figure (c) is a simplified sectional view of a mechanical mechanism in the return tendency method, which is in the same state as the mechanism of the Pofuginos method, but uses a driven body as a power machine. 0) Engine shaft ■Electric motor rotor C3) Generator rotor ■Generator national constantor ■Output shaft ■Mounting base ■■Bear link ■Slip link 0 variable resistance (qq■t8+force machine switch 0 (company) ■Continued publication IS patent applicant Shoji Hatakeyama

Claims (1)

[Claims] In order to use the principle theory of the return load method as a mechanism to operate the driven body, the power generated by the generator is used as a power transmission device, also known as a two-generation clutch, and the power generated by the generator is returned and re-input as a dynamic cylinder key, saving energy by the amount of regenerated power. Therefore, a mechanism method based on logic that uses a driven object as a power machine to actuate it.