Energy recovery controlling method and device for range extending electric automobile

An electric vehicle, energy recovery technology, applied in the direction of electric vehicles, control drive, transportation and packaging, etc., can solve the problems of high charging power, vibration of the vehicle power cabin, and inability to effectively recover braking energy, so as to improve charging efficiency and ensure The effect of normal output

Active Publication Date: 2015-06-10
BEIJING ELECTRIC VEHICLE
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] In the existing range-extended electric vehicles, when the range extender is performing power generation processing, if the vehicle coasts or brakes at the same time, the braking energy cannot be effectively recovered, which has obvious limitations
When the braking energy is recovered, the charging power will be too high, and the working state of the range extender will be changed when the charging power is limited.
However, the NVH performance of the whole vehicle such as the vibration and noise of the range extender of the two-cylinder engine is poor. When the working condition of the range extender is changed, it will cause vibration in the vehicle power compartment and affect driving comfort.

Method used

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  • Energy recovery controlling method and device for range extending electric automobile
  • Energy recovery controlling method and device for range extending electric automobile
  • Energy recovery controlling method and device for range extending electric automobile

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Embodiment 1

[0044] In the embodiment of the present invention, braking energy recovery control is added to the extended-range electric vehicle. The NVH performance of the whole vehicle such as the vibration and noise of the range extender is poor. When limiting the braking energy recovery, first limit the braking energy recovery to ensure the stable operation of the range extender.

[0045] The braking energy recovery control strategy in the embodiment of the present invention consists of figure 1 The multiple controllers shown are coordinated together, and the main controller is the range extender controller. Among them, the main function of the vehicle controller, ABS (Anti-lock Braking System, anti-lock braking system), and battery controller is to provide the range extender controller with the required signal for control. After being processed by the range extender controller, the control quantity (capacity recovery command and motor output torque) is sent to the motor for capacity r...

Embodiment 2

[0065] This embodiment provides an energy recovery control device for an extended-range electric vehicle, and its specific structure is as follows: Figure 4 As shown, the following modules are included:

[0066] The generating power calculation module 41 of the range extender is used to obtain the generating power P of the range extender of the electric vehicle according to the vehicle speed information of the electric vehicle when the range extender of the electric vehicle is working. zc ;

[0067] The braking recovery power calculation module 42 is used to calculate the braking recovery power P under braking or reverse coasting conditions zd ;

[0068] The currently used braking regenerative power determination module 43 is used to convert the generated power P of the range extender to zc and the brake recuperation power P zd Add up to get the pre-charge power P yc , the precharge power P yc and the maximum allowable charging power P of the power battery yx Comparing...

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Abstract

The embodiment of the invention provides an energy recovery controlling method and device for a range extending electric automobile. The method mainly comprises the following steps: when a range extender of the electric automobile operates, acquiring the generated output of the range extender of the electric automobile Pzc and the braking recovery power Pzd under braking or backing up sliding working conditions according to automobile speed information of the automobile; adding the generated output of the range extender Pzc and the braking recovery power Pdz to obtain precharge power Pyc; comparing the precharge power Pyc and maximal permitted charge power of a power battery Pyx; confirming current applied braking recovery power of the range extender of the electric automobile according to the comparison result. According to the invention, charge power under a range extending working mode is supervised and limited according to rated permitted charge power; when precharge power is higher than the rated permitted charge power, energy recovery is conducted by gradient limitation; normal output of the range extender power is ensured while efficiently protecting the charging power of the power battery to be within a safe range; the range extender is enabled to work in optimal operating state as far as possible.

Description

technical field [0001] The invention relates to the technical field of energy recovery of electric vehicles, in particular to an energy recovery control method and device for an extended-range electric vehicle. Background technique [0002] In order to improve the energy utilization rate of the whole vehicle, electric vehicles usually use braking energy recovery technology. During the process of vehicle deceleration, coasting and braking, the driving motor of the electric vehicle is switched to the power generation state, and part of the kinetic energy of the vehicle is converted into electric energy and fed back to the power. battery, so as to achieve braking and energy recovery and reuse. In the range-extended electric vehicle, the range extender will be mainly used for power generation to supplement the power of the power battery and effectively increase the cruising range. In the case of different temperatures and different SOC (State of Charge, state of charge), the ba...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B60L15/00B60L7/20
Inventor 周金龙黄殿辉易迪华
Owner BEIJING ELECTRIC VEHICLE
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