JP2014237426A - Power transmission mechanism for properly using driving wheel - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an eco-friendly car by which fuel consumption is improved in cruise and driving sensation unique to four-wheel drive and rear-wheel drive can also be enjoyed.SOLUTION: An engine 2 is placed, a transmission 3 is connected, and a drive shaft 4 is connected at a rear part of a car body 1. One rear wheel is constituted of: a main in-wheel motor 6; a wheel 5, fixed to a rotor by penetrating its case, the other rear wheel is constituted of: a sub in-wheel motor 8 for a rear wheel; a wheel 9, and both front wheels are constituted of: sub in-wheel motors 10 for front wheels; wheels 11. In cruise, a car drives by transmitting output of the engine 2 only to the wheel 5. Drive wheels to be driven are properly used by generating power with the main in-wheel motor 6 by using a part of the output of the engine 2 in the rear-wheel drive, by supplying the power to the sub in-wheel motor 8 for the rear wheel, and further supplying the power to the sub in-wheel motors 10 for the front wheels in the case of acceleration and a bad road.

Description

  The present invention is a power transmission mechanism that appropriately uses drive wheels.

  Various eco-cars are sold by various automobile manufacturers and are widely used.

  The performance of eco-cars has been improved at a fast pace, but there is a demand for further improvements in the world.

An engine 2 is placed at the rear of the vehicle body 1 and a transmission 3 is connected to it. A drive shaft 4 is connected to the transmission 3, and the drive shaft 4 passes through the case of the main in-wheel motor 6 and is fixed to the rotor, and connects the main in-wheel motor 6 and the wheel 5. The other rear wheel is constituted by a rear wheel sub-in-wheel motor 8 and a wheel 9. Both front wheels are constituted by a front wheel sub-in-wheel motor 10 and a wheel 11.
During cruising, if the engine 2 outputs only to the wheel 5 and travels, the drive mechanism can be configured to the minimum, and it can be expected to improve fuel efficiency by reducing manufacturing costs and minimizing mechanical friction loss.
During acceleration and rough roads, a part of the output of the engine 2 is used to generate power with the main in-wheel motor 6, and power is supplied to the rear-wheel sub-in-wheel motor 8 and front-wheel sub-in-wheel motor 10 to drive them. The four-wheel drive can be achieved without providing a generator dedicated to power generation, contributing to manufacturing cost reduction.
When you want to enjoy the driving sensation peculiar to rear wheel drive, power is generated by the main in-wheel motor 6 using a part of the output of the engine 2, and power is supplied to the sub-in-wheel motor 8 for the rear wheel to drive it. This makes it possible to drive two-wheel rear wheels without providing a generator, which contributes to reducing manufacturing costs.
When you want to enjoy the driving sensation unique to acceleration, bad roads, and rear wheel drive, the fuel efficiency will be poor, but it will be temporary.If the cruise occupies most of the driving time, you can expect a total improvement in fuel efficiency.

None

Wikipedia "Hybrid car" "Regenerative brake" "In-wheel motor" "Drive shaft" "Condenser"

Various eco-cars are sold by various automobile manufacturers and are widely used.
The performance of eco-cars has been improved at a fast pace, but there is a demand for further improvements in the world.

An engine 2 is placed at the rear of the vehicle body 1 and a transmission 3 is connected to it. A drive shaft 4 is connected to the transmission 3, and the drive shaft 4 passes through the case of the main in-wheel motor 6 and is fixed to the rotor, and connects the main in-wheel motor 6 and the wheel 5. The other rear wheel is constituted by a rear wheel sub-in-wheel motor 8 and a wheel 9. Both front wheels are constituted by a front wheel sub-in-wheel motor 10 and a wheel 11.
During cruising, if the engine 2 outputs only to the wheel 5 and travels, the drive mechanism can be configured to the minimum, and it can be expected to improve fuel efficiency by reducing manufacturing costs and minimizing mechanical friction loss.
During acceleration and rough roads, a part of the output of the engine 2 is used to generate power with the main in-wheel motor 6, and power is supplied to the rear-wheel sub-in-wheel motor 8 and front-wheel sub-in-wheel motor 10 to drive them. The four-wheel drive can be achieved without providing a generator dedicated to power generation, contributing to manufacturing cost reduction.
When you want to enjoy the driving sensation peculiar to rear wheel drive, power is generated by the main in-wheel motor 6 using a part of the output of the engine 2, and power is supplied to the sub-in-wheel motor 8 for the rear wheel to drive it. This makes it possible to drive two-wheel rear wheels without providing a generator, which contributes to reducing manufacturing costs.
When you want to enjoy the driving sensation unique to acceleration, bad roads, and rear wheel drive, the fuel efficiency is poor, but it is temporary. If the cruise occupies most of the driving time, you can expect a comprehensive improvement in fuel efficiency.

During cruising, if the engine 2 outputs only to the wheel 5 and travels, the drive mechanism can be configured to the minimum, and it can be expected to improve fuel efficiency by reducing manufacturing costs and minimizing mechanical friction loss.
During acceleration and rough roads, a part of the output of the engine 2 is used to generate power with the main in-wheel motor 6, and power is supplied to the rear-wheel sub-in-wheel motor 8 and front-wheel sub-in-wheel motor 10 to drive them. The four-wheel drive can be achieved without providing a generator dedicated to power generation, contributing to manufacturing cost reduction.
When you want to enjoy the driving sensation peculiar to rear wheel drive, power is generated by the main in-wheel motor 6 using a part of the output of the engine 2, and power is supplied to the sub-in-wheel motor 8 for the rear wheel to drive it. This makes it possible to drive two-wheel rear wheels without providing a generator, which contributes to reducing manufacturing costs.
When you want to enjoy the driving sensation unique to acceleration, bad roads, and rear wheel drive, the fuel efficiency is poor, but it is temporary. If the cruise occupies most of the driving time, you can expect a comprehensive improvement in fuel efficiency.

FIG. 1 is a conceptual diagram of a power transmission mechanism of the present invention. FIG. 2 is an explanatory diagram of the power transmission mechanism of the present invention during cruising. FIG. 3 is an explanatory diagram of the power transmission mechanism of the present invention during acceleration and during a rough road. FIG. 4 is an explanatory diagram of the power transmission mechanism according to the present invention when the rear wheels are driven. FIG. 5 is an explanatory diagram at the time of deceleration of the power transmission mechanism of the present invention. FIG. 6 is an explanatory diagram when the power transmission mechanism of the present invention is used as an electric vehicle.

  An engine 2 is placed at the rear of the vehicle body 1 and a transmission 3 is connected to it. A drive shaft 4 is connected to the transmission 3, and the drive shaft 4 passes through the case of the main in-wheel motor 6 and is fixed to the rotor, and connects the main in-wheel motor 6 and the wheel 5. The other rear wheel is constituted by a rear wheel sub-in-wheel motor 8 and a wheel 9. Both front wheels are constituted by a front wheel sub-in-wheel motor 10 and a wheel 11.

An engine 2 is placed at the rear of the vehicle body 1 and a transmission 3 is connected to it. A drive shaft 4 is connected to the transmission 3, and the drive shaft 4 passes through the case of the main in-wheel motor 6 and is fixed to the rotor, and connects the main in-wheel motor 6 and the wheel 5. The power cord of the main in-wheel motor 6 is connected to the inverter 7. The other rear wheel is constituted by a rear wheel sub-in-wheel motor 8 and a wheel 9, and the power cord of the rear wheel sub-in-wheel motor 8 is connected to the inverter 7. Both front wheels are constituted by a front wheel sub-in-wheel motor 10 and a wheel 11, and a power cord of the front wheel sub-in-wheel motor 10 is connected to the inverter 7. The inverter 7 is connected to a battery capacitor.
During cruising, if the engine 2 outputs only to the wheel 5 and travels, the drive mechanism can be configured to the minimum, and it can be expected to improve fuel efficiency by reducing manufacturing costs and minimizing mechanical friction loss.
During acceleration and rough roads, a part of the output of the engine 2 is used to generate power with the main in-wheel motor 6, and power is supplied to the rear-wheel sub-in-wheel motor 8 and the front-wheel sub-in-wheel motor 10 via the inverter 7. It can be driven by four-wheel drive without providing a dedicated generator for power generation, contributing to manufacturing cost reduction. Further, at the time of acceleration, the acceleration power can be increased by combining the electric power from the battery capacitor 12. Or at the time of acceleration, it can also accelerate only with the electric power from the battery capacitor 12. FIG.
When you want to enjoy the driving feeling peculiar to the rear-wheel drive, power is generated by the main in-wheel motor 6 using a part of the output of the engine 2, and power is supplied to the sub-in-wheel motor 8 for the rear wheel via the inverter 7. Can be driven without using a dedicated generator, which contributes to manufacturing cost reduction.
When you want to enjoy the driving sensation unique to acceleration, bad roads, and rear wheel drive, the fuel efficiency is poor, but it is temporary. If the cruise occupies most of the driving time, you can expect a comprehensive improvement in fuel efficiency.
During deceleration, the main in-wheel motor 6, the rear-wheel sub-in-wheel motor 8 and the front-wheel sub-in-wheel motor 10 are used as a power generator for regenerative braking, and the battery / capacitor 12 is charged and stored via the inverter 7.
When you want to use it as an electric car, you can use it as an electric car by adopting a clutch in the transmission 3 and disengaging the clutch.

  Manufacture and sales can be considered as a new power transmission mechanism.

1
Body
2
engine
Three
transmission
Four
Drive shaft
Five
wheel
6
Main in-wheel motor
7
inverter
8
Sub-in-wheel motor for rear wheels
9
wheel
Ten
Sub-in-wheel motor for front wheels
11
wheel
12
Battery / Capacitor

An engine 2 is placed at the rear of the vehicle body 1, a transmission 3 is connected to the engine 2, a drive shaft 4 is connected to the transmission 3, and the drive shaft 4 passes through the case of the main in-wheel motor 6 and is fixed to the rotor. The main in-wheel motor 6 and the wheel 5 are connected to constitute one rear wheel, the other rear wheel is constituted by a rear wheel sub-in-wheel motor 8 and a wheel 9, and both front wheels are both wheels. A power transmission mechanism that selectively uses a driving wheel constituted by a sub-in-wheel motor 10 and a wheel 11 for a front wheel,
During cruising, the engine 2 outputs only to the wheel 5 and travels.
During acceleration and rough roads, a part of the output of the engine 2 is used to generate power by the main in-wheel motor 6 to supply power to the rear-wheel sub-in-wheel motor 8 and the front-wheel sub-in-wheel motor 10. Drive and
When driving the rear wheels, a part of the output of the engine 2 is used to generate power by the main in-wheel motor 6 and supply power to the rear-wheel sub-in-wheel motor 8 to drive the power wheels. And
When accelerating, on bad roads, and driving two rear wheels, the fuel efficiency is poor, but it is temporary, and when cruising occupies most of the driving time, compared to the conventional two-wheel drive or four-wheel drive mechanism, Improvement in fuel consumption can be expected by reducing mechanical friction loss.

An engine 2 is placed at the rear of the vehicle body 1, a transmission 3 is connected to the engine 2, a drive shaft 4 is connected to the transmission 3, and the drive shaft 4 passes through the case of the main in-wheel motor 6 and is fixed to the rotor. The main in-wheel motor 6 and the wheel 5 are connected to constitute one rear wheel, the other rear wheel is constituted by a rear wheel sub-in-wheel motor 8 and a wheel 9, and both front wheels are both wheels. A power transmission mechanism that selectively uses a driving wheel constituted by a sub-in-wheel motor 10 and a wheel 11 for a front wheel,
During cruising, the engine 2 outputs only to the wheel 5 and travels.
During acceleration and rough roads, a part of the output of the engine 2 is used to generate power by the main in-wheel motor 6 to supply power to the rear-wheel sub-in-wheel motor 8 and the front-wheel sub-in-wheel motor 10. Drive and
When driving the rear wheels, a part of the output of the engine 2 is used to generate power by the main in-wheel motor 6 and supply power to the rear-wheel sub-in-wheel motor 8 to drive the power wheels. And

  When accelerating, on bad roads, and driving two rear wheels, the fuel efficiency is poor, but it is temporary, and when cruising occupies most of the driving time, compared to the conventional two-wheel drive or four-wheel drive mechanism, Improvement in fuel consumption can be expected by reducing mechanical friction loss.

An engine 2 is placed at the rear of the vehicle body 1, a transmission 3 is connected to the engine 2, a drive shaft 4 is connected to the transmission 3, and the drive shaft 4 passes through the case of the main in-wheel motor 6 and is fixed to the rotor. The main in-wheel motor 6 and the wheel 5 are connected to constitute one rear wheel, the other rear wheel is constituted by a rear wheel sub-in-wheel motor 8 and a wheel 9, and both front wheels are both wheels. A power transmission mechanism that selectively uses a drive wheel constituted by the front-wheel sub-in-wheel motor 10 and the wheel 11.

An engine 2 is placed at the rear of the vehicle body 1 and a transmission 3 is connected to it. A drive shaft 4 is connected to the transmission 3, and the drive shaft 4 passes through the case of the main in-wheel motor 6 and is fixed to the rotor, and connects the main in-wheel motor 6 and the wheel 5. The power cord of the main in-wheel motor 6 is connected to the inverter 7. The other rear wheel is constituted by a rear wheel sub-in-wheel motor 8 and a wheel 9, and the power cord of the rear wheel sub-in-wheel motor 8 is connected to the inverter 7. Both front wheels are constituted by a front wheel sub-in-wheel motor 10 and a wheel 11, and a power cord of the front wheel sub-in-wheel motor 10 is connected to the inverter 7. The inverter 7 is connected to a battery capacitor.
When cruising, if the engine 2 outputs only to the wheel 5 and travels, it can be expected to improve fuel efficiency by reducing mechanical friction loss compared to conventional two-wheel drive or four-wheel drive mechanisms.
During acceleration and rough roads, a part of the output of the engine 2 is used to generate power with the main in-wheel motor 6, and power is supplied to the rear-wheel sub-in-wheel motor 8 and the front-wheel sub-in-wheel motor 10 via the inverter 7. Can be driven to provide four-wheel drive. Further, at the time of acceleration, the acceleration power can be increased by combining the electric power from the battery capacitor 12. Or at the time of acceleration, it can also accelerate only with the electric power from the battery capacitor 12. FIG.
When it is desired to drive two rear wheels, the main in-wheel motor 6 uses a part of the output of the engine 2 to generate power, and the inverter 7 supplies power to the rear-wheel sub-in-wheel motor 8 to drive it. The rear wheel can be driven by two wheels.
When accelerating, on bad roads, and driving two rear wheels, the fuel efficiency is poor, but it is temporary, and when cruising occupies most of the driving time, compared to the conventional two-wheel drive or four-wheel drive mechanism, Expected to improve fuel efficiency.
During deceleration, the main in-wheel motor 6, the rear-wheel sub-in-wheel motor 8 and the front-wheel sub-in-wheel motor 10 are used as a power generator for regenerative braking, and the battery / capacitor 12 is charged and stored via the inverter 7.
When you want to use it as an electric car, you can use it as an electric car by adopting a clutch in the transmission 3 and disengaging the clutch.

Claims (1)

An engine 2 is placed at the rear of the vehicle body 1 and a transmission 3 is connected to it. A drive shaft 4 is connected to the transmission 3, and the drive shaft 4 passes through the case of the main in-wheel motor 6 and is fixed to the rotor, and connects the main in-wheel motor 6 and the wheel 5. The other rear wheel is constituted by a rear wheel sub-in-wheel motor 8 and a wheel 9. Both front wheels are constituted by a front wheel sub-in-wheel motor 10 and a wheel 11.
During cruising, if the engine 2 outputs only to the wheel 5 and travels, the drive mechanism can be configured to the minimum, and it can be expected to improve fuel efficiency by reducing manufacturing costs and minimizing mechanical friction loss.
During acceleration and rough roads, a part of the output of the engine 2 is used to generate power with the main in-wheel motor 6, and power is supplied to the rear-wheel sub-in-wheel motor 8 and front-wheel sub-in-wheel motor 10 to drive them. The four-wheel drive can be achieved without providing a generator dedicated to power generation, contributing to manufacturing cost reduction.
When you want to enjoy the driving sensation peculiar to rear wheel drive, power is generated by the main in-wheel motor 6 using a part of the output of the engine 2, and power is supplied to the sub-in-wheel motor 8 for the rear wheel to drive it. This makes it possible to drive two-wheel rear wheels without providing a generator, which contributes to reducing manufacturing costs.
When you want to enjoy the driving sensation unique to acceleration, bad roads, and rear wheel drive, the fuel efficiency is poor, but it is temporary. If the cruise occupies most of the driving time, you can expect a comprehensive improvement in fuel efficiency.