Cooling system for an internal combustion engine

Internal-combustion engines – Cooling – With liquid coolant circulating means

Reexamination Certificate

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Reexamination Certificate

active

06318307

ABSTRACT:

BACKGROUND OF THE INVENTION
The present invention relates to a cooling system for an internal combustion engine with an electrically driven coolant pump designed to circulate a coolant through the internal combustion engine and through a radiator designed to dissipate the heat, wherein a safety device is provided which has a device for recognizing cases of emergency and an emergency operating device, wherein the device for recognizing cases of emergency is devised to detect a perturbation in the area of the electrically driven coolant pump.
Usually, the coolant pump for internal combustion engines is directly driven by the internal combustion engine via a driving belt. This entails that the speed of the coolant pump is proportional to the speed of the internal combustion engine. With the commonly utilized radial pumps, the flow rate and with it the required driving power increases superproportionally with the speed. When designing the coolant pump, the range of low speed is critical. As a result, in a conventional coolant pump that is properly designed for the range of low speed, the flow rate in the range of high speed is considerably greater than it would be necessary. That is why the power needed to drive the coolant pump at high speed has to be graded, for the most part, as genuine power loss.
An electrically driven coolant pump whose speed is inherently independent of the speed of the internal combustion engine has the advantage to be capable of adjusting, for each operational state of the internal combustion engine, the minimum flow rate needed in each case. This makes it possible to considerably reduce the energy demand of the coolant pump which becomes particularly noticeable in the range of high speed, low load and when the engine is cold. Wide spread use of electrically driven coolant pumps for internal combustion engines was hereto before hindered by the fact that a coolant pump is an extremely critical component part. In case the coolant pump breaks down, operation of the internal combustion engine has to be stopped immediately in order to prevent destruction due to overheating.
DESCRIPTION OF THE PRIOR ART
DE 41 16 496 A discloses a safety device for an internal combustion engine cooled by a circulating coolant. This safety device detects breakdown of an electric coolant pump and, depending on this detection, ignition timing or adjustment of the quantity of injected fuel is brought about. Overheating of the internal combustion engine can thus be prevented. JP 57-193 716 suggests a similar solution. Such solutions only permit very limited operation of internal combustion engines subjected to low thermal load. Such solutions however cannot reliably prevent overheating of the internal combustion engine when the coolant pump breaks down before thermal load occurs.
DE 40 38 695 A discloses a drive assembly for an auxiliary unit of an internal combustion engine. Here, the starter or the rotor of an electric motor is fixed on a pivoted part driven by the internal combustion engine and the auxiliary unit is driven by the other part of the electric motor. This makes it possible to drive a fan or the like with relatively little expenditure of energy and to still regulate its power. It does not mention the difficulties associated with the breakdown of an electric coolant pump. DE 26 31 121 A relates to a liquid cooled internal combustion engine provided with a directly driven coolant pump on one side and with an additional circulating pump on the other so that the flow of the cooling agent can be matched to the requirements of the moment. Here too, no mention is made of the problem arising when an internal combustion engine, which is normally only supplied by an electrically driven coolant pump, breaks down.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide a cooling system that permits to exploit the advantages of an electrically driven coolant pump on one side and to allow for the need of the most comprehensive possible dependability of the internal combustion engine.
To achieve these objects, the emergency operating device is designed to bring about, in case of a breakdown in the area of the coolant pump, a mechanical connection of the coolant pump with a component part driven by the internal combustion engine.
The essential point of the invention is that the operation of the electrically driven coolant pump is being monitored. When a failure has been noticed, a mechanical connection of the coolant pump with the internal combustion engine is established in order to ensure emergency service. Depending on the space available, it may be done by the driving belt that drives the generator, the compressor of the air-conditioning unit or the like. It is particularly advantageous when the emergency operating device establishes a connection of the coolant pump with a driving belt that is driven by the internal combustion engine. A particularly simple design is obtained when the electrically driven coolant pump is provided with an engine of the type of an external rotor motor in which a rotor encompasses a stator on its outer periphery. In this case, the outer peripherical surface of the rotor may be used as a plane of action for the component part driven by the internal combustion engine.
In a particularly preferred embodiment of the invention, the emergency operating device is provided with a frictional wheel that can be moved into mesh with a rotating part of the coolant pump and with a component part driven by the internal combustion engine by spring force. Such a frictional wheel permits transmission of a driving power that is sufficient for emergency operation of the coolant pump. Since minimal demands are made upon useful life of the frictional wheel, selection of the corresponding materials can be very free.
In an alternative embodiment of the invention, the electrically driven coolant pump is movably supported and can be moved into mesh with a component part that is driven by the internal combustion engine by the emergency operating device. Thus, a rotatable component part of the coolant pump can be moved directly into mesh with a driving belt or the like, thus simplifying the layout.
In another alternative embodiment of the invention, the emergency operating device can have a magnetic coupling by means of which the coolant pump can be directly driven by the internal combustion engine. Thereby the coolant pump is arranged coaxially with another unit or component part that is driven by the internal combustion engine, like for example the generator, the oil-pump or the pulley for driving a camshaft.
It is particularly advantageous when the device for recognizing emergency cases is provided with a temperature probe that detects the temperature of the internal combustion engine and/or of the cooling agent. It is thereby presumed that an unacceptable increase of the coolant's temperature or of the temperature of the internal combustion engine is occasioned by a failure in the area of the coolant pump. As an alternative or in addition thereto the device for recognizing emergency cases can be provided with a sensor devised to detect the speed of the coolant pump. Thus, emergency operation may be prevented from being triggered in cases of extreme operation of the internal combustion engine when the coolant pump itself is still operative.
In order to increase operational reliability of a motor vehicle equipped with a cooling system according to the invention, the emergency operating device can also be designed in such a manner that a mechanical connection of the coolant pump with a component part driven by the internal combustion engine, once established, can only be undone at the shop and that a monitor indicates the condition of the emergency operating device. Thus, the emergency system is prevented from being run for a longer period of time and from finally becoming overloaded.
The present invention also relates to an internal combustion engine equipped with the cooling system described above.
The present invention will be described more explicit

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