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A start-up control method of a micro-hybrid system for an unmanned aerial vehicle

A hybrid power system and unmanned aerial vehicle technology, which is applied in the direction of motor starting, engine starting, engine control, etc., can solve the problems of short acceleration stroke and difficult starting of the piston assembly, so as to improve the starting success rate and increase the acceleration. effect of itinerary

Active Publication Date: 2021-10-19
扬州翊翔航空科技有限公司
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  • Abstract
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  • Application Information

AI Technical Summary

Problems solved by technology

[0005] The purpose of the present invention is to provide a starting control method for a micro-hybrid system for unmanned aerial vehicles, which solves the problems of short acceleration stroke and difficult starting of the piston assembly in the hybrid system

Method used

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  • A start-up control method of a micro-hybrid system for an unmanned aerial vehicle
  • A start-up control method of a micro-hybrid system for an unmanned aerial vehicle
  • A start-up control method of a micro-hybrid system for an unmanned aerial vehicle

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Embodiment Construction

[0027] Such as figure 1 As shown, a method for starting control of a micro-hybrid system for an unmanned aerial vehicle, the specific steps are:

[0028] ECU obtains signals from crankshaft position sensor and camshaft position sensor; figure 2 As shown, the obtained crankshaft and camshaft position sensor signals are pulse signals, wherein the crankshaft position signal has a wider timing signal, and the camshaft position signal has a timing signal generated simultaneously with the crankshaft position signal (top dead center In addition to the signal), a top dead center signal will be generated every 180°.

[0029] The motor driving the hybrid system reverses the preset angle;

[0030] Drive the motor of the hybrid system to rotate the mechanical angle of 150° to 180° according to the opposite direction of rotation during normal operation. The brushless motor with Hall position sensor driven by the six-step commutation method is the preferred example. The coding array of ...

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Abstract

The invention provides a starting control method of a micro-hybrid system for an unmanned aerial vehicle, comprising: an ECU acquires signals from a crankshaft position sensor and a camshaft position sensor; The position signal and the crankshaft motion state determine the position of the piston assembly, and drive the motor to reverse to the determined position; drive the motor normally, start the hybrid system, and the control process ends. The invention solves the problems of short acceleration stroke and difficult starting of the piston assembly in the hybrid system.

Description

technical field [0001] The invention belongs to the technical field of start-up control of a hybrid system, and in particular relates to a start-up control method for a micro-hybrid system for an unmanned aerial vehicle. Background technique [0002] For the evaluation of the overall performance of the hybrid system, its starting success rate is one of the evaluation conditions. If the starting resistance is too large, the piston assembly cannot cross the top dead center when starting. In addition to starting failure, it may also cause reverse or recoil phenomenon. For some equipment or occasions where the main shaft is prohibited from reversing, there is an immeasurable effect. hazards and hazards. [0003] The micro drone hybrid system can effectively solve the problems of short battery life and weak load capacity of electric drones. The micro-hybrid system for drones is mainly composed of a small-displacement two-stroke piston engine and a generator. Because the power ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F02N11/08F02D45/00
CPCF02D45/00F02N11/0803
Inventor 闫凤军李宝民涂楷费冬青
Owner 扬州翊翔航空科技有限公司
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