SE537017C2 - Range extenders for electric vehicles - Google Patents

Description

537 017 second coupling and closed connectable first coupling are converted approx. 70 to 80% of the mechanical energy generated by the internal combustion engine and to the connectable first coupling available mechanical energy to electrical energy for charging the battery on the side of the electric vehicle.

When the second coupling is opened, the entire mechanical power generated on the side of the internal combustion engine is available for generating electrical energy for charging the battery on the side of the electric vehicle.

If the generator can be controlled by means of a four-quadrant actuator in such a way that the internal combustion engine can be started by means of the generator which then functions as an electric motor, a separate electric starter motor or the like can be dispensed with.

In the case of the range extender according to the invention, in the operating state in which the connectable first clutch is closed and the connectable second clutch is opened, the entire power of the internal combustion engine is available for generating electrical energy for charging the battery on the electric vehicle side. If the battery on the side of the electric vehicle has a sufficient state of charge, it is possible to open the connectable first coupling and to close the connectable second coupling, so that the climate compressor can be operated electrically. This is of great advantage in corresponding situations, since no exhaust gases are formed in this operating condition.

In a method according to the invention for operating a climate compressor in an air conditioning system in an electric vehicle, the climate compressor is supplied from a battery on a side extender rechargeable by means of an internal combustion engine via a generator, whereby the generator as an electric motor converts it to the led electrical energy to mechanical drive energy for the air compressor.

For module resp. the construction unit, by means of which the range extender is formed, in the case according to the invention also belongs to the climate compressor, i.e. the climate compressor is, so to speak, integrated in the range extender.

In the following, the invention is commented on in more detail by means of an embodiment with reference to the drawing, in the only figure of which an embodiment of a range extension according to the invention for electric vehicles and a battery cooperating with it on the side of the electric vehicle.

An embodiment of a range extender 1 according to the invention for electric vehicles shown in the single figure has an internal combustion engine 2, a generator 3, which can also be operated as an electric motor, and a connectable first clutch 4, which is arranged between the internal combustion engine. 2 and the generator 3.

Between the climate compressor 5 on the one hand and the generator 3 on the other hand, a connectable second coupling 6 is arranged. 537 017 A battery 7 on the side of the electric vehicle is connected to the range extension 1's generator 3.

This battery 7 on the side of the electric vehicle is rechargeable by means of the combustion engine 2 of the range extender 1 when connected resp. closed first connection 4 via generator 3.

The internal combustion engine 2, which e.g. can be designed as a wobble motor, is in the illustrated embodiment so constructed that in its nominal operating condition at the closed resp. coupled first coupling 4 to the power output of the range extender 1 generator 3 is sufficient to drive the generator 3 with its rated power. The generator 3, on the other hand, is designed so that its nominal power is about three to four times as large as the maximum mechanical power received by the range-extended climate compressor 5.

In the embodiment shown in the only fi clock, the range extender 1's generator 3 and climate compressor 5 fl are adapted to a common fl end detail for these. In the drive connection between the generator 3 on the one hand and the air compressor 5 on the other hand, in which the clutchable second clutch 6 is arranged, there is also - in the embodiment shown - a V-belt drive 9. The clutchable clutch 2 is in the shown the exemplary embodiment arranged between the V-belt drive 9 and the air compressor 5.

The generator 3 of the range extender 1 can be controlled by means of a four-quadrant actuator not shown in the figure in such a way that the internal combustion engine 2 can be started by means of the generator usable as an electric motor.

With the range extender 1 described above, it is possible to increase the range of the battery 7 on the side of the electric vehicle. To this is connected resp. the connectable first clutch 4 arranged between the internal combustion engine 2 and the generator 3 is closed. In this operating state, the connectable second clutch 6 arranged between the generator 3 and the air compressor 5 is opened resp. not connected. In this operating state, the entire drive power, which is generated by the combustion engine 2 of the range extender 1, is available for generating electrical energy for charging the battery 7 on the side of the electric vehicle.

In addition, if in the pre-connected operating state of the range extender 1 the connectable second coupling 6 is connected resp. is closed, a proportion of the mechanical energy available to the connectable first coupling 4 is used for the operation of the air compressor 5. In the above-described construction of the internal combustion engine 2 resp. generator 3, it is ensured that in this operating state there are still approx. 70 to 80% of the mechanical energy available to the connectable first coupling 4 for generating electrical energy for charging the battery 7 on the side of the electric vehicle.

If the state of charge of the battery 7 on the side of the electric vehicle is sufficiently high, by opening the connectable first clutch 4 and closing the connectable second clutch 6, an operating state can be achieved in which the air compressor 5 is electrically driven. The driving energy of the climate compressor 5 then comes exclusively from the battery 7 on the side of the electric vehicle 537 017, which is in a sufficient state of charge, the generator 3 arranged between the battery 7 on the side of the electric vehicle on the one hand and the climate compressor 5 on the other acting as an electric motor. In this operating state no exhaust gases are generated due to the operation of the air compressor 5.

Claims (6)

10 15 20 25 30 537 017 PATENT CLAIMS Range extension for electric vehicles, with an internal combustion engine (2), a generator (3), which can be connected to a battery (7) on the side of the electric vehicle, and a connectable first coupling (4), which is arranged between the internal combustion engine (2 ) and the generator (3), characterized in that the range extender (1) as modular resp. construction unit shows a climate compressor (5), that between the generator (3) and the climate compressor (5) a connectable second coupling (6) is arranged, and that with sufficient charge state of the battery (7) on the side of the electric vehicle and uncoupled first coupling ( 4) the air compressor (5) can be driven from the battery (7) on the side of the electric vehicle via the second coupling (6) connected via the generator (3) which functions as an electric motor in this state. Range extender according to claim 1, in which the internal combustion engine (2) is designed as a Wankel engine. Range extender according to Claim 1 or 2, the internal combustion engine (2) of which is designed in such a way that by means of it in its nominal operating state when the first clutch (4) is connected, the generator (3) can be driven with its nominal power. Range extender according to one of Claims 1 to 3, the generator (3) of which is designed so that its rated power is three to four times the maximum mechanical power received by the air compressor (5). Range extender according to one of Claims 1 to 4, in which the generator (3) can be controlled by means of a four-quadrant actuator in such a way that the internal combustion engine (2) can be started by means of the generator (3) acting as an electric motor. Method for operating a climate compressor (5) in an air conditioning system in an electric vehicle, in which the climate compressor (5) is supplied with driving energy from a combustion engine (2) of a range extender (1) via a generator (3) rechargeable battery (7) on the side of the electric vehicle, whereby the generator (3) as an electric motor converts the electrical energy supplied from the battery on the side of the electric vehicle into mechanical drive energy for the air compressor (5).