DE102017219082A1 - Pump actuator for positioning and control tasks in a transmission of a motor vehicle - Google Patents

Abstract

Pump actuator for regulating and regulating tasks in a transmission of a motor vehicle comprising an electric machine, a pump, wherein the pump is drivingly connected to the electric machine, and a control arrangement, wherein the electric machine is controlled by the control arrangement, wherein the control arrangement at least one electric Voltage amplifier (1).

Description

Field of the invention

The present invention relates to a pump actuator for control tasks in a transmission of a motor vehicle comprising an electric machine, a pump, wherein the pump is drivingly connected to the electric machine, and a control arrangement, wherein the electric machine is controlled by the control arrangement, wherein the control arrangement has at least one electrical voltage amplifier.

State of the art

Dry and / or wet clutches are used in automated manual transmissions, double and multi-clutch transmissions as well as separable distributor and differential gearboxes. The actuation of the clutches takes place either electromechanically or hydraulically. One of the most common applications of a pump actuator is the hydraulic actuation of clutches in a transmission of a motor vehicle. Pump actuators include a pump and a drive to drive this pump. When dimensioning a pump actuator, on the one hand, pressure and volume requirements in conjunction with clutch cylinders as hydraulic consumers, on the one hand, must be maintained, on the other hand, they require sufficient supply of electrical power. The latter are in practice limited by the fact that an increase in the electrical components involved usually lead to disproportionate disadvantages in space requirements, weight and cost. In addition, a higher electrical power consumption means a higher CO ₂ emissions in the driving cycle. As a rule, this leads to a system design with a focus on stationary operating points and compromise-related restrictions with respect to dynamic processes.

• - Vergrößerung des Verdrängungsvolumens der Pumpe des Pumpenaktuators. Dies führt zu einer Erhöhung des Pumpenantriebsmoments und damit zu einer höheren Strombelastung auch in stationären Betriebspunkten mit den oben genannten Nachteilen bei den elektrischen Komponenten und der Leistungsaufnahme. Bekannte Getriebesteuergeräte und elektrischen Komponenten zum Betrieb von Pumpenaktuatoren lassen bereits kurzzeitige Stromüberhöhungen zu. Diese helfen in dynamischen Situationen jedoch nur für den sehr kurzen Moment des Hochbeschleunigens des Pumpenaktuators (wenige Millisekunden) bis zu einer Maximaldrehzahl des Pumpenaktuators, die sich wiederum aus der Auslegung der elektrischen Maschine ergibt.
• - Vergrößerung der Pumpe des Pumpenaktuators und Vergrößerung der elektrischen Maschine des Pumpenaktuators. Werden beide Komponenten, nämlich Pumpe und elektrische Maschine, größer dimensioniert, kann es gelingen, die Strombelastung gleich zu halten. Neben dem erhöhten Bauraumbedarf und dem erhöhten Gewicht ist mit gesteigerten Kosten des Pumpenaktuators zu rechnen.
• - Erhöhung der Maximaldrehzahl des Pumpenaktuators durch Anpassung der Drehzahl-Drehmoment-Charakteristik der elektrischen Maschine. Bei gleichem Bauraumbedarf geht diese Maßnahme mit einer höheren Strombelastung in stationären Betriebspunkten einher.
• - Einsatz eines schaltbaren hydraulischen Speichers. Dadurch kann das für dynamische Vorgänge zusätzlich erforderliche Volumen zwischengespeichert werden. Als nachteilig sind hier Bauraumbedarf, Gewicht und Kosten für einen hydraulischen Speicher, ein hydraulisches Ventil als Schaltelement, ein elektrisches Element, beispielsweise ein Elektromagnet, zur Betätigung des hydraulischen Ventils, sowie zugehörige hydraulische und elektrische Leitungsführungen zu nennen.

In order to improve the limited dynamics of pump actuators, countermeasures are necessary which increase the delivery volume in dynamic situations. For example:

• - Increasing the displacement of the pump of the pump actuator. This leads to an increase of the pump drive torque and thus to a higher current load even in stationary operating points with the above-mentioned disadvantages in the electrical components and the power consumption. Known transmission control units and electrical components for operating pump actuators already allow short-term current increases. These help in dynamic situations, however, only for the very short moment of accelerating the pump actuator (a few milliseconds) up to a maximum speed of the pump actuator, which in turn results from the design of the electric machine.
• - Enlargement of the pump actuator pump and enlargement of the electric actuator of the pump actuator. If both components, namely the pump and the electric machine, are dimensioned larger, it is possible to keep the current load the same. In addition to the increased space requirement and the increased weight is to be expected with increased costs of Pumpenaktuators.
• - Increasing the maximum speed of the pump actuator by adjusting the speed-torque characteristics of the electric machine. With the same space requirements, this measure is accompanied by a higher current load in stationary operating points.
• - Use of a switchable hydraulic accumulator. As a result, the additionally required volume for dynamic processes can be buffered. The disadvantage here are space requirements, weight and cost of a hydraulic accumulator, a hydraulic valve as a switching element, an electrical element, such as an electromagnet to call for the actuation of the hydraulic valve, as well as associated hydraulic and electrical wiring.

Summary of the invention

It is an object of the invention to improve the dynamics of pump actuators without negatively affecting the space requirement, the weight and the cost of the pump actuator.

The object is achieved by a pump actuator for setting and control tasks in a transmission of a motor vehicle comprising an electric machine, a pump, the pump is drivingly connected to the electric machine, and a control arrangement, wherein the electric machine is controlled by the control arrangement wherein the control arrangement comprises at least one electrical voltage amplifier.

The pump actuator according to the invention comprises an electric machine, a pump and a control arrangement.

The electric machine according to the invention is drivingly connected to the pump of the pump actuator. The pump of the pump actuator is thus drivable via the electric machine of the pump actuator and adjustable in terms of their speed. The pump of the pump actuator is further connected directly or indirectly drive effective, for example, with a coupling system of a motor vehicle.

The control arrangement of the pump actuator according to the invention is used to control the electric machine and thus the pump of the pump actuator.

According to the present invention, the control arrangement comprises at least one electrical voltage amplifier. In this way, the supply voltage of the electric machine and thus the maximum speed of the pump actuator can be increased if necessary, namely in dynamic operating points.

Further developments of the invention are specified in the dependent claims, the description and the accompanying drawings.

In an advantageous embodiment of the present invention, the electrical voltage amplifier is an electric DC-DC converter.

In a particularly advantageous embodiment of the present invention, the electrical voltage converter is an electric charge pump. The electric charge pump can be designed in one or more stages.

The electric charge pump advantageously has at least one electrical capacitor, at least one electrical diode and at least one electrical switch.

In a preferred embodiment of the present invention, the charge pump is designed such that in a first operating state of the charge pump, namely an operating state in which the electrical switch is in a first switching position, an output voltage at an output side of the charge pump of an input voltage at an input side of the charge pump equivalent. Furthermore, the electrical capacitor is charged to the input voltage of the charge pump minus a voltage drop across the electrical diode.

The output voltage at an output side of the charge pump corresponds to the supply voltage of the pump actuator, more precisely the electrical machine of the pump actuator.

Thus, the electrical machine of the pump actuator is supplied with a voltage corresponding to the input voltage of the charge pump.

Preferably, the charge pump is designed such that in a second operating state of the charge pump, namely an operating state in which the electrical switch is in a second switching position, an output voltage on an output side of the charge pump of the sum of an input voltage to an input side of the charge pump and a capacitor voltage of Condenser corresponds.

Thus, the electrical machine of the pump actuator is supplied with a voltage corresponding to the input voltage of the charge pump plus the capacitor voltage.

In an advantageous embodiment of the pump actuator, the control arrangement is integrated in a transmission control unit.

All components of the pump actuator, namely in particular the electric machine, the pump and the control arrangement, can be combined as a compact unit. However, an integration of the control arrangement of the pump actuator in a transmission control unit can be seen as advantageous.

list of figures

• 1 zeigt einen elektrischen Spannungsverstärker für eine Steueranordnung eines Pumpenaktuators.

The invention will now be described by way of example with reference to the drawings.

• 1 shows an electrical voltage amplifier for a control arrangement of a pump actuator.

Detailed description of the invention

1 shows an electrical voltage amplifier 1 a pump actuator according to the present invention.

The exemplary electrical voltage amplifier 1 is as an electric charge pump 1' formed and includes an electrical charge storage, namely an electrical capacitor 2 , an electrical diode 3 as well as an electrical switch 4 , The components of the electric charge pump 1' namely, the capacitor 2 , the diode 3 and the switch 4 , are arranged such that an input voltage by flipping the switch 4 from a first switch position to a second switch position to an increased output voltage at an output side 5 the electric charge pump 1' can be brought.

The input voltage at an input side 6 the charge pump 1' is set by the vehicle-side on-board voltage at a level of, for example, 12V, 24V or 48V.

The electric machine of the pump actuator is connected to the output of the electrical voltage amplifier 1 , in this example of the electric charge pump 1' , connected.

In a first operating state, namely for stationary and less dynamic requirements, the electrical switch remains 4 in a first switching position as shown in FIG. 1, so that the output voltage of the electric charge pump 1' the input voltage of the electric charge pump 1' corresponds and the capacitor 2 on input voltage minus voltage drop across the diode 3 is charged. Thus, the electric machine of the pump actuator becomes voltage equal to the input voltage of the electric charge pump 1' , in the present example with on-board voltage of the motor vehicle supplied.

In a second operating state, namely for highly dynamic requirements, the electrical switch 4 transferred to a second switching position, so that the input voltage and the voltage of the electric capacitor 2 (Capacitor voltage) are connected in series, which increases the output voltage at the output side 5 the electric charge pump 1' increased accordingly by the capacitor voltage. Thus, the electric machine and thus the pump of the pump actuator can reach significantly higher speeds than when the electric machine of the pump actuator with a voltage corresponding to the input voltage of the electric charge pump 1' is supplied. This will increase the dynamics of the pump actuator until it becomes the electrical capacitor 2 unloading is significantly increased.

The electric charge capacity of the electric capacitor 2 is tuned to the pump actuator in its entirety. The electrical charge capacity of the capacitor 2 on the one hand determines the charging time of the capacitor 2 and on the other hand, how long the voltage gain is to increase the dynamics.

LIST OF REFERENCE NUMBERS

1

Electric voltage amplifier

1'

Electric charge pump

2

Electric capacitor

3

Electric diode

4

Electric switch

5

Output side of the charge pump

6

Input side of the charge pump

Claims (8)

Pump actuator for control tasks in a transmission of a motor vehicle comprising - an electric machine, - a pump, wherein the pump is drivingly connected to the electric machine, and - a control arrangement, wherein the electrical machine is controlled by the control arrangement, characterized the control arrangement has at least one electrical voltage amplifier (1). Pump actuator after Claim 1 , characterized in that the electrical voltage amplifier (1) is a DC electrical converter. Pump actuator after Claim 1 or 2 , characterized in that the electrical voltage amplifier (1) is an electric charge pump (1 '). Pump actuator after Claim 3 , characterized in that the electric charge pump (1 ') is designed in one or more stages. Pump actuator after Claim 3 or 4 , characterized in that the electric charge pump (1 ') at least one electric capacitor (2), at least one electric diode (3) and at least one electrical switch (4). Pump actuator after Claim 5 , characterized in that the charge pump (1 ') is designed such that in a first operating state of the charge pump (1'), namely an operating state in which the electrical switch (4) is in a first switching position, an output voltage at an output side (5) the charge pump (1 ') corresponds to an input voltage at an input side (6) of the charge pump (1') and the electrical capacitor (2) to the input voltage of the charge pump (1 ') minus a voltage drop across the electrical diode (3) is charged so that the electrical machine of the pump actuator is supplied with a voltage corresponding to the input voltage of the charge pump (1 '). Pump actuator after Claim 5 or 6 , characterized in that the charge pump (1 ') is designed such that in a second operating state of the charge pump (1'), namely an operating state in which the electrical switch (4) is in a second switching position, an output voltage at an output side (5) the charge pump (1 ') corresponds to the sum of an input voltage at an input side (6) of the charge pump (1') and a capacitor voltage of the capacitor (2), so that the electrical machine of the pump actuator with a voltage corresponding to the input voltage of the charge pump ( 1 ') plus the capacitor voltage is supplied Pump actuator according to one of the preceding claims, characterized in that the control arrangement is integrated in a transmission control unit.

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