This application claims priority from German patent application serial no. 10 2012 206 041.3 filed Apr. 13, 2012.
The present invention concerns a method and device for controlling an auxiliary pump for a transmission.
It is known in the vehicle technology that hybrid transmissions utilize an electric auxiliary pump to guarantee the hydraulic supply or rather oil supply. The auxiliary pump is actuated if the oil supply cannot be covered by means of a main pump on the transmission side because the transmission input rotational speed is too low. It is hereby assumed that the electric auxiliary pump can immediately start the oil supply when switched on. However, it requires that the intake port and the intake duct are filled with oil so that no air and no oil foam are present. Otherwise, unwanted air intake takes place when the auxiliary pump is again switched on, so that the oil supply of the transmission during that time interval is below the necessary level and therefore shift elements, for instance, cannot be activated.
For instance, known from the publication DE 10 2008 040 667 A1 is a hydraulic system with a transmission device having a main transmission pump and an auxiliary pump, as well as a method to operate the hydraulic system. In the known hydraulic system, to avoid unwanted outflow of the hydraulic fluid or rather oil, in the area of the auxiliary pump into an unpressurized area or into an oil sump, an additional switch-over valve is required which separates the auxiliary pump from the secondary pressure circuit. This not only requires a larger construction effort but it is also costly.
The present invention has therefore the task to propose a method for controlling of an auxiliary pump and a device to execute the method of the previously described type, through which the intake of air can be avoided without additional constructive effort and therefore with lesser cost.
The task which is based on the invention is solved through a method for controlling or rather turning on or off an auxiliary pump, in which the auxiliary pump, after the elapse of a predetermined time interval of a non-activation, meaning when the auxiliary pump is not needed for the hydraulic supply or oil supply, respectively, is turned on for a predetermined duration to avoid an air build up in the intake area of the auxiliary pump. Thus, air intake during a later desired turning on of the auxiliary pump to supply oil is safely prevented, because the inventive actuation of the auxiliary pump prevents the build-up of air or of oil foam at the intake port in the area of the auxiliary pump. Construction changes at the hydraulic system of the hybrid transmission are not required due to the inventive method. Therefore and independent of the respective construction or drive condition, respectively, negative effects caused by the build-up of air or oil foam at the auxiliary pump can be avoided.
Within this inventive method, the electrically operated auxiliary pump can, for instance, be turned on or turned off in accordance with a determined or randomly selected time pattern or time interval, respectively, when the auxiliary pump has not been actuated over a certain duration of time. The duration of the time interval of the activation or non-activation of the auxiliary pump can be empirically calculated, for instance, through tests. This kind of calculation can be preferably used when there is no knowledge about the creation of foaming. These time intervals can be selected, for instance, as an activation time point or deactivation time point stored for instance in a control device for controlling of the auxiliary pump.
If for instance the information is available regarding which events or operating modes, respectively, a build-up air or oil foam might be created in the intake area of the auxiliary pump, it is possible in accordance with the invention that the triggering or activation or deactivation of the auxiliary pump is executed depending on the creation of events that are favorable for the intake air. These events can be for instance a high-speed drive, a longer uphill drive, or similar.
When such events are present, simultaneously when the auxiliary pump is turned off, another embodiment of the invention can provide that a timer or timer/counter, respectively, is started whereby after a completed count-down of the time in the timer, the auxiliary pump is actuated to possibly apply suction for an air build-up in the intake area. If the auxiliary pump, after the expiration of the predetermined time interval and activation, is turned off and the recognized event is still present at this time, the timer/clock can be again restarted, to again turning on the auxiliary pump device after a time duration has expired. As an alternative, the auxiliary pump can remain turned on until the event is no longer present.
To limit activation of the auxiliary pump due to the recognition of events, a so-called blocking timer or blocking time relay, respectively, can be implemented as part of the invented method. Thus, the activation of the auxiliary pump is prevented for a predetermined time duration, if for instance the event in which the suction of air or foam is expected, was already present and the auxiliary pump has already been turned on. In this case for instance, the blocking time relay can be started after the activation of the auxiliary pump due to a recognized event, so that a turning on of the auxiliary pump is prevented for a determined time duration, and that the timer is again started thereafter if the event is still present.
The activation of the auxiliary pump can also take place, in accordance with the inventive method, depending on a build up of unwanted air or foam, as detected by a sensor, at the intake area of the auxiliary pump. For this purpose for instance, the signals of a special oil foam creation sensor can be used.
The task which is the basis for this invention is also solved by a device which can execute the method, in particular the previously described inventive method. Thus, a device is needed which comprises of a control device for the activation of an auxiliary pump whereby the control device is connected with the electrical auxiliary pump in particular with the control or signals, respectively. Also, the control device can be connected through signals with a detection sensor to detect the threatening suction of air. The described and proposed controlling of the auxiliary pump can therefore be realized in accordance with the device.
In the following, the present invention is further explained based on the drawings. These show:
The
In the context of the proposed method, as well as with the proposed device for executing the method, a manner of controlling the auxiliary pump is presented to avoid the suction of air, for instance through foaming transmission oil or similar, without the need for any constructive actions.
In the time controlling course as shown in
The timing course of the auxiliary pump presented in
Finally,
1 Auxiliary Pump activation time duration, or rather interval, or Start of Event
2 Auxiliary Pump deactivation time duration, or rather interval, or End of Event
t Time
t1 Time Point
t2 Time Point
t3 Time Point
t4 Time Point
t1A Time Point
t2A Time Point
t3A Time Point
t4A Time Point
t1B Time Point
t2B Time Point
t3B Time Point
t4B Time Point
t5B Time Point
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Number | Date | Country | Kind |
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10 2012 206 041.3 | Apr 2012 | DE | national |