DE102010050444B4 - Process for fine oil filtration - Google Patents

Abstract

A method of Ölfeinstfilterung a vehicle characterized in that the Ölfeinstfilterung is activated only when a vehicle undergoes a deceleration, wherein only during a deceleration or deceleration of the vehicle, a high enough oil pressure for the ultrafine filter unit is delivered.

Description

The invention relates to a method for Ölfeinstfilterung a vehicle according to the preamble of claim 1, as it is used to avoid loading of the vehicle engine oil with suspended particles.

Motor vehicle engine oil is burdened in particular by frequent short journeys quickly with suspended particles, due to their small size, are not retained by the normal oil filter. Expensive oil often has to be changed much earlier. Precious resources are reduced faster.

There are ultrafine filters, connected to the oil pressure system of the engine, usually in front of the oil pressure gauge. The high-pressure oil is passed through an oil line to the ultrafine filter. A high oil pressure is necessary for Feinstfilterung because the filter material must be very dense. From the ultrafine filter, the oil is returned to the engine, z. B. in the oil pan. These superfine filters can also be designed as centrifuge and are usually driven by the flow of oil. However, the oil pressure for the engine lubrication drops slightly due to this discharge. In a motor driven separate device for oil pressure generation of the engine is more heavily loaded and the fuel consumption inevitably increases slightly. Can the engine oil through the Feinstfilterung z. B. remain twice as long in the engine, you have gained nothing by the accumulated higher fuel consumption in the rule.

Fine filtration is an additional process and requires additional energy, with the consequence mentioned, that additional fuel is needed. A constant Feinstfilterung is not necessary. The oil does not have to go through the ultrafine filtering process all the time, just to remove a few newly added particles.

In the US 2004/0031463 A1 is described an engine lubrication system with electrically controllable oil pump. By means of a variable valve system, an oil flow can be redirected in whole or in part to a cooling and oil treatment system, which may contain an additional oil filter in addition to an oil cooler. The first filter, the main filter, is also referred to as coarser filter, the other oil filter as a finer filter. The output from this additional filter goes back to the main power oil line. With a partial diversion, there is thus no great pressure difference between the filter input and the filter output. After the oil cooler is constructed with the other filter in series, the other filter can not be provided as a superfine filter. A modern oil fine filter has a high Duchflußwiderstand. Fine oil filtration could be effected here, with complete oil flow redirection. The Öldurchflußmenge but would be low and may be acceptable only for idling operation. But then there is no kinetic energy available. Engine braking delays are associated with high speeds and high oil flow requirements. This known system thus gives no teaching to use kinetic energy for a Ölfeinstfilterung.

The EP 0 933 506 A1 also shows a controllable electric oil pump to reduce oil pressure and oil flow rate when lower engine load is present. If, however, an oil fine filter were used as the main filter, economic operation would not be achievable here either.

Although conservation of resources has been a major concern for decades, especially petroleum, no methods and / or apparatus are known which include economic teaching in the present context.

The object of the invention is to provide a method for Ölfeinstfilterung of vehicle engine oil above type, which eliminates the disadvantages of oil pressure reduction and / or higher fuel consumption.

This object is achieved by a method having the features of claim 1. Further developments of the invention are specified in the subclaims.

The inventive method provides that the finest filtering is only performed when the vehicle is braked. An increased energy requirement means increased engine braking effect and is then only an advantage. The new method can be implemented by various devices. Once the normal oil pump can be made stronger or as a twin version in two levels. It then supplies the normal oil pressure to the engine, but also supplies the ultrafine filter unit with the necessary oil pressure. This applies to the time of braking. In normal driving z. B. reduces the load on the oil pump by means of valve control and dispenses with a Feinstfilterung. By valve control z. B. a tuned bypass to the turbine are switched, or a part of the oil pump is running freely, etc. The engine thus receives at any time the normal oil pressure. Only during deceleration processes, the oil pump is more heavily loaded and causes fine oil filtration. As a result, an increased fuel consumption is never generated for the fine oil filtration.

The method according to the invention can furthermore be realized by means of a second, smaller oil pump which is switched on only during deceleration. A power flow from the engine to the oil pump can, for. B. caused by a flywheel, or by electro-mechanical activation.

This second oil pump can also be designed as a small piston pump, wherein the power transmission takes place in places using oil. In a small cylinder, two pistons are arranged, head to head, separated by an amount of oil. The driving piston pushes the amount of oil on the working piston, which produces the desired oil pressure and flow of oil. Missing the amount of oil between the piston, no oil pressure is generated and thus no increased load. The space between the pistons may be connected to a thin oil line supplied by the normal oil pump. In this thin oil line, a valve may be included, in turn activated during decelerations by z. As flywheel, or electro-mechanical. The driving piston may be designed as a plunger, z. B. driven by a crankshaft part, such as the balancing mass.

However, the method according to the invention can also be realized by means of an oil pump driven by an electric motor. If the oil is to be finely filtered by means of a centrifuge, the turbine can also be driven by means of negative pressure. From the engine intake port, z. B. air filter housing, a pipe leads to the turbine and sucks outside air through the turbine with the engine rotating. Another pipe can also lead from the oil supply to the turbine. This will suck oil into the turbine. The design is tuned so that both a sufficiently large air flow is given, as well as a sufficiently strong flow of oil flows. By delimitations within the centrifuge design is ensured that no oil and no oil vapor enters the engine via the intake air. The sucked oil and oil vapors are completely returned to the engine room after the cleaning process. A slider can control the air intake flow so that during deceleration operations the normal air intake port is completely or partially closed and the opening to the turbine is open and this control reverses again during acceleration. The turbine housing may be part of an engine block.

Brief description of the drawing

1 shows a flow chart for activating and deactivating the oil fine filtering

Claims (5)

A method of Ölfeinstfilterung a vehicle characterized in that the Ölfeinstfilterung is activated only when a vehicle undergoes a deceleration, wherein only during a deceleration or deceleration of the vehicle, a high enough oil pressure for Feinstfiltereinheit is delivered. A method according to claim 1, characterized in that for the necessary oil pressure an oil pump stronger than without Ölfeinstfilterung necessary dimensioned, the full power of this oil pump is reduced in normal operation and is only fully taken during a deceleration process. A method according to claim 1, characterized in that for the necessary oil pressure, a vacuum turbine is used and this is activated by a controller during deceleration processes or works intensified. A method according to claim 1, characterized in that a second oil pump is used for the necessary oil pressure, which is activated only during a deceleration process. A method according to claim 4, characterized in that for the necessary oil pressure, the second oil pump is driven by an electric motor only during a deceleration process.

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