JP2970091B2 - Hybrid car - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hybrid vehicle, and more particularly to improving the running performance and running distance of an electric vehicle.

[0002]

2. Description of the Related Art As a prior art of a hybrid vehicle, for example, there is one disclosed in Japanese Utility Model Laid-Open No. 58-31703. The conventional hybrid vehicle 80 will be described with reference to FIG. 4. An electric motor (hereinafter abbreviated as an electric motor) serving as a generator through an output shaft of a heat engine 81 via a one-way clutch 82.
The differential 83 is connected to the output shaft of the electric motor 83 via a transmission 84, and the wheels 87 are connected to the differential 85 via a drive shaft 86.

[0003] A control means 88 for determining whether to use the motor 83 as a generator or a motor controls the motor 83, and the motor 83 is connected to a battery 89 via the control means 88. The driving state of the heat engine 81 is controlled by an accelerator pedal 90.

[0004]

However, in the above-described conventional hybrid vehicle 80, the heat engine 81 and the electric motor 8 are not provided.
3 is connected by a one-way clutch 82, so that the driving force can be transmitted from the heat engine 81 to the electric motor 83, but not vice versa. Therefore, when starting the heat engine, a new starter motor must be provided in addition to the motor 83. In particular, when the heat engine is a Stirling engine, the capacity of the electric motor for the starter is required to be very large, which causes an increase in vehicle weight and may adversely affect the running performance (maximum speed, running distance, etc.) of the hybrid vehicle. Atsuta.

Further, an electric motor 83 and a differential 85
Are connected by a transmission 84, the rotation speeds of the output shaft of the heat engine 81 and the output shaft of the electric motor 83 depend on the rotation speed of the wheels 87. Therefore, when the hybrid vehicle is running at a low speed, even if the electric motor is used as a generator to charge the battery, the rotational speed of the heat engine 81 is controlled by the transmission 8.
4, the battery cannot be charged sufficiently, and the battery cannot be charged sufficiently.

Accordingly, an object of the present invention is to improve the running performance of a hybrid vehicle using a Stirling engine as a heat engine.

[0007]

Configuration of the Invention

[0008]

Means for Solving the Problems A first technical means of the present invention taken to solve the above-mentioned technical problem of the present invention is to use a Stirling engine and an electric motor serving as a generator as a driving drive source, In a hybrid vehicle in which a generator / motor is connected to a battery, an intermittent clutch is arranged between the Stirling engine and the generator / motor, and between the generator / motor and the differential of the hybrid vehicle. A continuously variable transmission is arranged, and when the Stirling engine is started, an intermittent clutch is connected and an electric motor that also serves as a generator is used as a starting motor. That is, an electric motor that is also used as a machine is used as a generator.

A second technical means of the present invention taken to solve the above-mentioned technical problem of the present invention is that a Stirling engine and an electric motor serving also as a generator are used as a drive source for driving, and a motor serving also as a generator is provided. In a hybrid vehicle connected to a battery, a fluid clutch is arranged between the Stirling engine and the electric motor also functioning as a generator, and a continuously variable transmission is arranged between the electric motor also functioning as a generator and the differential of the hybrid vehicle. When the Stirling engine is started, the Stirling engine is started by a motor that also serves as a generator via a fluid clutch. That is to use.

[0010]

According to the first and second technical means of the present invention, a Stirling engine can be started via an intermittent clutch or a fluid clutch by using a motor which also serves as a generator. No need to increase vehicle weight.

The output shaft of the electric motor also serves as a differential through a continuously variable transmission, and the speed change width is very large. Does not affect the number. Therefore, even when the hybrid vehicle is running at a low speed, the rotation speed of the Stirling engine connected to the electric motor also serving as the generator can be set high, and the battery can be sufficiently charged.

[0012]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment embodying the technical means of the present invention will be described below with reference to the accompanying drawings.

In a hybrid vehicle 10 according to a first embodiment of the present invention shown in FIG. 1, an electric motor (hereinafter referred to as a generator) is provided on an output shaft of a Stirling engine 11 through an intermittent clutch (for example, a dry clutch or a hydraulic multi-plate clutch) 12. , An electric motor) 13, and a clutch (for example, a dry clutch or a hydraulic multi-plate clutch) 14 and a continuously variable transmission (for example, CVT: Conti) are connected to an output shaft of the motor 13.
nuousVariableTransmissio
n etc.) 15 are connected to a differential 16, and wheels 18 are connected to the differential 16 via a drive shaft 17.

A control means 19 for deciding whether to use the electric motor 13 as a generator or an electric motor controls the electric motor 13, and the electric motor 13 is connected to the battery 20 via the control means 19.

The operation of the hybrid vehicle 10 having the above configuration will be described below with reference to FIG.

First, when the vehicle is completely stationary and the vehicle is going to travel, the intermittent clutch 12 is connected to supply electric power from the battery 20 to the electric motor 13 so that the electric motor 1
At 3, the Stirling engine 11 is started. The Stirling engine 11 cannot output for about 30 seconds after ignition due to its characteristics.

Next, when the vehicle stops, the control means 1
When the controller 9 determines that the battery 20 needs to be charged, the control means 19 disconnects the clutch 14 to keep the motor 13 and the differential 15 disconnected, and connects the intermittent clutch 12 to connect the Stirling engine 11. And electric motor 13
Are connected. At this time, the output speed of the Stirling engine 11 is controlled according to the power generation load, and the electric motor 13 is driven as a power generator to charge the battery 20. On the other hand, when the control means 19 determines that charging of the battery 20 is not necessary, the control means 19 disconnects both the intermittent clutch 12 and the clutch 14, and the Stirling engine 11 is kept in the idling state.

Next, when the vehicle speed exceeds 0 km / h,
In a region up to a set speed (for example, about 20 km / h), the control means 19 disconnects the intermittent clutch 12 and connects the clutch 14. Therefore, the vehicle is the motor 1
3 drive through a clutch 14 and a continuously variable transmission 15.

Next, the vehicle speed is changed from the first set speed A1 (for example, about 20 km / h) to the second set speed A2 (for example, 5 km / h).
(About 0 km / h), when the control means 19 determines that the battery 20 needs to be charged, the control means 1
9 connects the intermittent clutch 12 and the clutch 14 together. At this time, the motor 13 acts as a generator to charge the battery 20, so that the output of the Stirling engine 11 is used for driving the vehicle and also for driving the motor 13 as the generator. The output speed of the Stirling engine 11 is controlled according to the running load and the power generation load of the vehicle. On the other hand, the control means 19
When it is determined that zero charging is not necessary, the control means 19 disconnects the intermittent clutch 12, the Stirling engine 11 is kept in the idling state, the clutch 14 is connected, and the vehicle is driven by the electric motor 13.

Next, when the control means 19 determines that the battery 20 needs to be charged in the range of the vehicle speed from the second set speed A2 to the third set speed A3 (for example, about 90 km / h), the control means 19 Connects the intermittent clutch 12 and the clutch 14 together. At this time, the motor 13 acts as a generator to charge the battery 20, so that the output of the Stirling engine 11 is used for driving the vehicle and also for driving the motor 13 as the generator. The output speed of the Stirling engine 11 is controlled according to the running load and the power generation load of the vehicle. On the other hand, when the control means 19 determines that the battery 20 does not need to be charged, the control means 19 connects the intermittent clutch 12 and
The vehicle is driven by a Stirling engine 11. However, the motor 13 acts as a generator, but the battery 2
Since the control means 19 cuts the charging line to 0, the battery 20 is not charged.

Finally, in a region exceeding the third set speed A3, the control means 19 connects the intermittent clutch 12 and the clutch 14 together. At this time, the output of the Stirling engine 11 is always in the maximum output state, and the motor 13 supplements the output exceeding the maximum output.

FIG. 3 is a diagram showing a main part of a hybrid vehicle 40 according to a second embodiment of the present invention. The difference from the first embodiment is that a fluid clutch 41 is used in place of the intermittent clutch 12. The other parts are the same as those of the first embodiment, and are denoted by the same reference numerals and description thereof is omitted. The operation of the second embodiment is also described in the case of the intermittent clutch 1.
2 replaces the fluid clutch 41, and the fluid clutch 41 only slides when the intermittent clutch 12 is disconnected.

[0023]

As described above, according to the present invention, the Stirling engine and the generator / motor are connected intermittently or by a fluid clutch, and at the same time, the connection between the generator / motor and the differential is established. Connected by a continuously variable transmission, when starting the Stirling engine, the Stirling engine can be started by an electric motor that also serves as a generator via intermittent or fluid clutch, so that a separate starter electric motor is not required. Weight can be reduced. In addition, since the shift width of the continuously variable transmission is very large, by utilizing this characteristic, the Stirling engine can maintain a high rotation speed even when the vehicle is running at low speed, and the battery is charged using the electric motor as a generator. it can.

[Brief description of the drawings]

FIG. 1 shows a configuration diagram of a hybrid vehicle 10 according to a first embodiment of the present invention.

FIG. 2 shows a characteristic diagram of a steady running curve in FIG.

FIG. 3 is a configuration diagram of a main part of a hybrid vehicle 40 according to a second embodiment of the present invention.

FIG. 4 is a configuration diagram of a conventional hybrid vehicle 80.

[Explanation of symbols]

 10, 40 hybrid car, 11 Stirling engine, 12 intermittent clutch, 13 electric generator / motor, 15 continuously variable transmission, 16 differential transmission, 20 battery, 41 fluid clutch.

──────────────────────────────────────────────────の Continuation of the front page (51) Int.Cl. ⁶ Identification code FI F02N 11/04 (56) References JP-A-2-101903 (JP, A) JP-A-58-69403 (JP, A) JP-A-57-155121 (JP, A) JP-A-54-132929 (JP, A) JP-A-58-46202 (JP, U) (58) Fields investigated (Int. Cl. ⁶ , DB name) B60K 17 / 04 B60L 11/14 F02G 1/045 F02N 11/04 B60K 9/00

Claims (2)

(57) [Claims] 1. A hybrid vehicle in which a Stirling engine and a generator / motor are used as driving power sources, and wherein the generator / motor is connected to a battery, a hybrid vehicle is provided between the Stirling engine and the generator / motor. An intermittent clutch is arranged, and a continuously variable transmission is arranged between the electric motor also serving as a generator and a differential of the hybrid vehicle. When the Stirling engine is started, the intermittent clutch is connected to the generator. A hybrid vehicle using a dual-purpose electric motor as a starting motor, and using the surplus output of the Stirling engine as the generator when the hybrid vehicle is running at a low speed. 2. A hybrid vehicle in which a Stirling engine and a generator / motor are used as driving sources, and wherein the generator / motor is connected to a battery, a hybrid vehicle is provided between the Stirling engine and the generator / motor. A fluid clutch is arranged, and a continuously variable transmission is arranged between the electric motor also serving as a generator and a differential of the hybrid vehicle. When the Stirling engine is started, the generator is also used as the generator via the fluid clutch. The hybrid vehicle according to claim 1, wherein the Stirling engine is started by the electric motor, and when the hybrid vehicle is running at a low speed, the electric motor serving also as a generator is used as a generator by using an excess output of the Stirling engine.