HYBRID VEHICLE AND CONTROL METHOD THEREOF

US 20090299560A1
Filed: 05/29/2009
Published: 12/03/2009
Est. Priority Date: 05/29/2008
Status: Active Grant

First Claim

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1. A hybrid vehicle having an internal combustion engine designed to output driving power and equipped with an exhaust gas recirculation structure arranged to recirculate an exhaust gas from an exhaust system to an air intake system, a motor designed to output driving power, and an accumulator designed to transmit electric power to and from the motor, the hybrid vehicle comprising:

a driving force demand setting module configured to set a driving force demand required for driving the hybrid vehicle, in response to a driver'"'"'s accelerator operation;

an engine power demand setting module configured to set an engine power demand required for the internal combustion engine, based on the set driving force demand;

a power decrease rate acquisition module configured to acquire a decrease rate of the engine power demand; and

a controller configured to control the internal combustion engine and the motor so that the internal combustion engine outputs a power equivalent to the set engine power demand with exhaust gas recirculation from the exhaust system to the air intake system by means of the exhaust gas recirculation structure and a driving power equivalent to the set driving force demand is ensured when a preset exhaust gas recirculation condition is satisfied and the acquired decrease rate of the engine power demand is not higher than a predetermined rate, the controller controlling the internal combustion engine and the motor so that the internal combustion engine outputs a power equivalent to the set engine power demand without the exhaust gas recirculation and the driving power equivalent to the set driving force demand is ensured when the preset exhaust gas recirculation condition is satisfied and the acquired decrease rate of the engine power demand is higher than the predetermined rate.

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Abstract

After completion of warm-up of an engine, upon satisfaction of an exhaust gas recirculation condition by setting the drive mode of a hybrid vehicle to a normal mode according to the driver'"'"'s accelerator operation, when a power difference ΔPe representing a decrease rate of a power demand Pe* required for the engine is less than a preset reference value α, the engine and motors MG1 and MG2 are controlled to ensure output of a power equivalent to the power demand Pe* from the engine with prohibition for exhaust gas recirculation via an EGR valve and to ensure output of a torque equivalent to a torque demand Tr* to a ring gear shaft or an axle (steps S300 to S330 and step S390).

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6 Claims

1. A hybrid vehicle having an internal combustion engine designed to output driving power and equipped with an exhaust gas recirculation structure arranged to recirculate an exhaust gas from an exhaust system to an air intake system, a motor designed to output driving power, and an accumulator designed to transmit electric power to and from the motor, the hybrid vehicle comprising:
- a driving force demand setting module configured to set a driving force demand required for driving the hybrid vehicle, in response to a driver'"'"'s accelerator operation;
  
  an engine power demand setting module configured to set an engine power demand required for the internal combustion engine, based on the set driving force demand;
  
  a power decrease rate acquisition module configured to acquire a decrease rate of the engine power demand; and
  
  a controller configured to control the internal combustion engine and the motor so that the internal combustion engine outputs a power equivalent to the set engine power demand with exhaust gas recirculation from the exhaust system to the air intake system by means of the exhaust gas recirculation structure and a driving power equivalent to the set driving force demand is ensured when a preset exhaust gas recirculation condition is satisfied and the acquired decrease rate of the engine power demand is not higher than a predetermined rate, the controller controlling the internal combustion engine and the motor so that the internal combustion engine outputs a power equivalent to the set engine power demand without the exhaust gas recirculation and the driving power equivalent to the set driving force demand is ensured when the preset exhaust gas recirculation condition is satisfied and the acquired decrease rate of the engine power demand is higher than the predetermined rate.
- View Dependent Claims (2, 3, 4, 5)
- - 2. The hybrid vehicle in accordance with claim 1, the hybrid vehicle further comprising:
    - a target engine rotation speed setting module configured to set a target rotation speed of the internal combustion engine, based on the set engine power demand and a predetermined drive point setting restriction;
      
      a target throttle opening setting module configured to set a target opening of a throttle valve included in the internal combustion engine, based on the set engine power demand and the set target rotation speed of the internal combustion engine; and
      
      a throttle controller configured to control the throttle valve to make an opening of the throttle valve sufficiently close to the set target opening.
  - 3. The hybrid vehicle in accordance with claim 1, the hybrid vehicle further comprising:
    - a target recirculation amount setting module configured to, when a preset exhaust gas recirculation condition is satisfied and the acquired decrease rate of the engine power demand is not higher than a predetermined rate, set a target recirculation amount of the exhaust gas, which is to be recirculated from the exhaust system to the air intake system by means of the exhaust gas recirculation structure, based on a load and a rotation speed of the internal combustion engine.
  - 4. The hybrid vehicle in accordance with claim 1, the hybrid vehicle further comprising:
    - an electric power-dynamic power input output structure connected with an engine shaft of the internal combustion engine and with a preset axle and configured to input and output power from and to the engine shaft and the preset axle accompanied with input and output of electric power and dynamic power and to transmit electric power to and from the accumulator,wherein the motor is arranged to input and output power from and to either the preset axle or another axle different from the preset axle.
  - 5. The hybrid vehicle in accordance with claim 4, wherein the electric power-dynamic power input output structure includes:
    - a motor for power generation designed to input and output power; and
      
      a three shaft-type power input output assembly connected with three shafts, the preset axle, the engine shaft of the internal combustion engine, and a rotating shaft of the motor for power generation, the three shaft-type power input output assembly configured to input and output power from and to one remaining shaft, based on input and output of powers from and to any two shafts selected among the three shafts.

6. A control method of a hybrid vehicle having an internal combustion engine designed to output driving power and equipped with an exhaust gas recirculation structure arranged to recirculate an exhaust gas from an exhaust system to an air intake system, a motor designed to output driving power, and an accumulator designed to transmit electric power to and from the motor, the method comprising the steps of:
- (a) setting a driving force demand required for driving the hybrid vehicle, in response to a driver'"'"'s accelerator operation;
  
  (b) setting an engine power demand required for the internal combustion engine, based on the driving force demand set in the step (a); and
  
  (c) controlling the internal combustion engine and the motor so that the internal combustion engine outputs a power equivalent to the engine power demand set in the step (b) with exhaust gas recirculation from the exhaust system to the air intake system by means of the exhaust gas recirculation structure and a driving power equivalent to the driving force demand set in the step (a) is ensured when a preset exhaust gas recirculation condition is satisfied and the acquired decrease rate of the engine power demand is not higher than a predetermined rate, the step (c) controlling the internal combustion engine and the motor so that the internal combustion engine outputs a power equivalent to the engine power demand set in the step (b) without the exhaust gas recirculation and the driving power equivalent to the driving force demand set in the step (a) is ensured when the preset exhaust gas recirculation condition is satisfied and the acquired decrease rate of the engine power demand is higher than the predetermined rate.

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Current Assignee
DENSO Corporation, Toyota Jidosha Kabushiki Kaisha (Toyota Motor Corporation)
Original Assignee
DENSO Corporation, Toyota Jidosha Kabushiki Kaisha (Toyota Motor Corporation)
Inventors
Harada, Takeshi, Tomatsuri, Mamoru

Granted Patent

US 8,620,499 B2
Time in Patent Office

Days
Field of Search
US Class Current

701/22
CPC Class Codes

F02D 2250/18   Control of the engine outpu...

F02D 41/0005   during deceleration

F02D 41/005   according to engine operati...

F02D 41/1498   measuring engine roughness

F02M 26/35   with means for cleaning or ...

F02M 26/47   the characteristics being t...

Y02T 10/40   Engine management systems

HYBRID VEHICLE AND CONTROL METHOD THEREOF

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

24 Citations

6 Claims

Specification

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HYBRID VEHICLE AND CONTROL METHOD THEREOF

First Claim

1 Assignment

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Subscription Required

0 Petitions

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Accused Products

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Abstract

24 Citations

6 Claims

Specification

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Use Cases

Quick Links

Others