EP0160059A1

EP0160059A1 - Device for driving auxiliary members of an internal combustion engine

Info

Publication number: EP0160059A1
Application number: EP84903961A
Authority: EP
Inventors: Paul Rothenburger
Original assignee: Individual
Current assignee: Individual
Priority date: 1983-10-21
Filing date: 1984-10-22
Publication date: 1985-11-06
Also published as: FR2553828A1; FR2553828B1; WO1985001779A1

Abstract

Dispositif d'entraînement d'organes auxiliaires tels que par exemple un alternateur (14), d'un moteur (15) à combustion interne comportant une tubulure (16) d'évacuation des gaz d'échappement et une turbine (10) actionnée par ces gaz. Ce dispositif est caractérisé en ce qu'il comprend un réducteur à engrenages (11) et un réducteur à poulies (12) pour connecter la turbine (10) à l'alternateur (14), et pour entraîner cet alternateur en rotation avec la turbine. Utilisation: entraînement d'organes auxiliaires sur un moteur à combustion interne.Device for driving auxiliary components such as, for example, an alternator (14), an internal combustion engine (15) comprising a pipe (16) for discharging the exhaust gases and a turbine (10) actuated by these gases. This device is characterized in that it comprises a gear reducer (11) and a pulley reducer (12) for connecting the turbine (10) to the alternator (14), and for driving this alternator in rotation with the turbine. . Use: drive auxiliary components on an internal combustion engine.

Description

Device for driving auxiliary components of an internal combustion engine.

_j f> The present invention relates to a device for driving organs

5 auxiliaries of an internal combustion engine, comprising a manifold

^' * exhaust gas discharge and a turbine powered by these gases.

The use of one or more turbines actuated by the exhaust gases of an internal combustion engine is today frequent for

10 drive a compressor to supply air to the engine, whether it is of the Diesel, petrol or other type. In such a device, the turbine is mounted on the same shaft as the compressor, these two members being able to operate advantageously in the same range of rotation regimes.

15

On the other hand, a device of this kind is not used to drive other auxiliary members of an internal combustion engine or of a vehicle, such as a dynamo, an alternator, a fan for cooling the engine. , a cooling water circulation pump,

20 or any other member whose operation is linked to that of the engine. In fact, the speed of rotation of the turbines actuated by the exhaust gases, as they are usually produced, is much greater than the admissible speed for these auxiliary members. For example, a current model turbine works advantageously

25 has speeds of up to 100,000 revolutions / minute, while a current model alternator should not exceed a speed of around 10,000 revolutions / minute. Consequently, the auxiliary members have therefore been driven until now from the crankshaft of the engine, the rotation speed of which is of the same order of magnitude as that of the auxiliary members.

However, it would be advantageous to take from the exhaust gases, the power necessary for these auxiliary members, so as to recover a part of the residual energy of these gases instead of the

35 draw on the mechanical power delivered by the engine. The present invention proposes to fill this gap by providing a device for recovering part of the energy not used by the motor, to drive one or more organs.

39 engine auxiliaries. For this purpose, the device according to the invention is characterized in that it comprises transmission means for connecting the turbine to at least one of the auxiliary members, and for driving this member in rotation with it.

In a preferred embodiment, the transmission means comprise a speed reducer. Thus, it is possible to produce the device with conventional turbines, such. than those of current turbo¬ compressors, and with current auxiliary members, the rotational speed of which is significantly lower than that of the turbine. The speed reducer can be constituted by a gearbox whose reduction ratio is between 5 and 20, but preferably close to 10, so as to allow the use of advantageous rotation regimes as much on the turbine as on auxiliary devices of current model.

In order to reduce the dimensions and the masses of the gears, the reduction ratio of the gearbox can be limited to a value between 2 and 5, and preferably close to 3, by adding the speed reducer by a transmission consisting of two pulleys connected by a belt, the reduction ratio of the belt transmission being between 2 and 6, and preferably close to 4. It is thus possible to obtain an overall reduction ratio between 5 and 20, for example close to 10 to 12, depending on the speed characteristics of the various auxiliary members to be used.

The speed reducer can also be constituted only by a belt transmission as described above, the smallest of the pulleys being mounted on the same axis as the turbine. In this case, the overall reduction support is weaker than above, for example less than 10, which may require installing an additional device to limit the speed of rotation of the turbine, so as to avoid too high speed of the auxiliary members and of the belt transmission. For example, the exhaust gas pipe can be arranged to lead to the turbine only a fraction of the gas flow rate, and may include a member for adjusting the flow rate or the pressure of the gases admitted to pass through the turbine.

OM The device as described can be used to drive one or more of the auxiliary members of an engine, such as are used in particular on motor vehicles. The preferred embodiment consists in driving an electric current generator, for example an alternator, which can deliver the electrical energy necessary for other auxiliary components of the engine or of the vehicle.

Among the other members capable of being actuated by the proposed device, mention should be made of an engine cooling fan, as well as a cooling water circulation pump. Driven by the exhaust gases, these members will have the advantage of operating at high speed when the gas flow is large, that is to say when the engine is running at high power, and will therefore provide cooling whose power is always related to the power of the engine.

It is important to note that the devices as proposed can be arranged to drive either a single auxiliary member, or several of these members separated or combined with one another. For example, a belt drive can drive multiple pulleys mounted on separate members.

The present invention will be better understood with reference to an exemplary embodiment and to the appended drawing illustrating in a dry view a partially cut view of a preferred embodiment of the device.

Referring to the figure, the device essentially consists of a turbine 10 of a gear reducer 11, and of a pulley reducer

12 whose output shaft 13 is connected to auxiliary member 14, as _Ue q p _ar example an alternator, an internal combustion engine 15. The turbine 10 is a turbine of the type commonly used on engines turbo compressor. It is mounted on the exhaust pipe 16 of the engine 15, and rejects the exhaust gases through an axial pipe 17. The output shaft 18 of the turbine 10, carried by a bearing 19 mounted in a housing 20 , constitutes the input of the gear reducer 11. In the example described, this reducer consists of a small pinion 21 mounted on the shaft 18, and of a large pinion 22 whose axis 23 carries the small pulley 24 of the pulley reducer 12. The pulley 24 is connected to a pulley 25 mounted on the axis 13 and coupled to the pulley 24 by a trapezoidal belt 26.

Thanks to the double reduction stage, it is possible to connect a turbine of the known type rotating at speeds of the order of 100,000 revolutions per minute, to a traditional alternator which can rotate at maximum speeds of the order of 10,000 revolutions /. minute. The double reduction stage makes it possible to obtain a reduction of the order of 10. However, it is understood that this reduction is only necessary insofar as one wishes to adapt the speeds of a known alternator to that of a traditional tur¬ bine. It would be possible to envisage the production of turbines rotating at speeds lower than 10 000 revolutions / minute, and alternators whose maximum speed of use is higher than 10 000 revolutions / minute. This would eventually make it possible to interpose a reducer whose reduction factor is less than 10, or even to completely eliminate the reducer.

Furthermore, in the example shown, the reducer has two stages, one of which is a gear reducer and the other of which is a pulley reducer. It would be conceivable to produce a gear reducer with one or more reduction stages, or a pulley and belt reducer with 1 or more reduction stages. Finally, the reducer could be mounted in a housing secured to the casing of the turbine.

Although in the example shown, the auxiliary member is constituted by an alternator, this auxiliary member could be constituted by any other element such as the cooling fan, the water pump, a servo compressor etc. In addition, the device according to the invention could be combined directly with a turbo _¬ compressor system of known type and fitted in series on certain vehicles.

O PI

Claims

claims

1. Device for driving auxiliary components of an internal combustion engine, comprising a turbine driven by the exhaust gases from the engine and a pipe leading these gases from the engine to the turbine, characterized in that it comprises transmission means comprising a speed reducer (11, 12) for connecting the turbine (10) to at least one of the auxiliary members (14), and for driving this member in rotation with it.

2. Device according to claim 1, characterized in that the auxiliary member (14) comprises an electric current generator.

3. Device according to claim 1 or 2, characterized in that the au¬ xiliary member comprises a cooling fan.

4. Device according to any one of claims 1 to 3, characterized in that the auxiliary member comprises a pump for circulating water for cooling.

WIPO fa IPO