DE102017222825A1 - Method for controlling a liquid pump / drive combination in a vehicle - Google Patents

Abstract

In a method for driving a fluid pump / drive combination in a vehicle, control signals are generated in a data cloud external to the vehicle.

Description

The invention relates to a method for controlling a liquid pump / drive combination in a vehicle.

State of the art

In the EP 0 758 716 A2 a vane pump is described, which is used to convey hydraulic oil. The vane pump is usually driven by an electric motor, wherein the vane pump and the electric motor form a coherent unit.

Disclosure of the invention

With the aid of the method according to the invention, a liquid pump / drive combination in a vehicle can be actuated which has a liquid pump and a drive unit driving the liquid pump. Such liquid pump / drive combinations can be used in vehicles for cooling, lubricating or switching e.g. a dual-clutch transmission, a planetary gear or a CVT transmission (continuous variable transmission) can be used.

In addition to the fluid pump and the drive unit, the fluid pump / drive combination comprises a communication interface via which control signals for actuating an actuator of the combination can be received by a data platform. This makes it possible to influence the mode of operation of the liquid pump / drive combination and to realize different operating strategies when operating the combination. The liquid pump / drive combination can have a control unit or a control unit in which the received control signals for controlling a component of the liquid pump / drive combination are processed.

The data platform is a data cloud that is located, in particular, outside the vehicle. In the data cloud, various information can be collected, which is processed into an operating strategy, which is transmitted via the communication interface in the form of control signals to the liquid pump / drive combination to influence their operation. This procedure makes it possible to continuously adapt the mode of operation of the liquid pump / drive combination to the current conditions and to react correspondingly flexibly to, for example, changed ambient conditions or new findings with regard to the operating behavior or the life of the combination. The data cloud can either be centrally controlled and supplied with information in order to modify control signals which are sent by the data cloud or to deposit a changed operating strategy. Additionally or alternatively, it is also possible for the data cloud to be in contact with a plurality of data generation sites that communicate with the data cloud and affect the control signals or operating strategy that is transferred from the data cloud to the fluid pump / drive combination.

Advantageously, in the data cloud information from a variety of liquid pump / drive combinations are evaluated. This makes it possible to base the control signals or operating strategy of the combination on a large amount of information about the same or similar fluid pump / drive combinations.

According to an advantageous embodiment, a data platform is also arranged in the vehicle. The data platform in the vehicle can communicate with the data cloud which is arranged outside the vehicle, with communication and data exchange possibly being possible in both directions-both from the data platform in the vehicle to the data cloud and from the data cloud to the data platform in the vehicle , The data platform in the vehicle may possibly be part of the liquid pump / drive combination. The data exchange from the data platform in the vehicle to the external data cloud makes it possible to transfer information about the liquid pump / drive combination installed in the vehicle to the data cloud and evaluate it there. In this way, if appropriate, information about the installed fluid pump / drive combinations can be evaluated by a large number of vehicles. However, it is also possible to transmit information directly from the liquid pump / drive combination to the external data cloud via the communication interface.

According to a further advantageous embodiment, the drive unit of the liquid pump / drive combination is designed as an electric drive, in particular as an electric motor, wherein the electric drive is electrically actuated via the control signals.

In a further advantageous embodiment, the drive unit is designed as a mechanical drive and is electrically actuated via the control signals an actuating unit of the mechanical drive. The mechanical drive is, for example, a pressure accumulator or a flywheel mass accumulator. For example, in the case of a pressure accumulator, an electromagnetic actuator can be controlled to control the flow of energy from the mechanical drive to the liquid pump or to control in the opposite direction.

According to a further advantageous embodiment, the liquid pump / drive combination can be used both in pump operation and in generator or recuperation operation. By a suitable combination of liquid pump and drive unit, for example, four different operating modes are possible, namely a circulation of the liquid pump in one or the other direction, a pump operation and a generator operation. Suitable types of pumps for such operation are, for example, gear pumps, GE rotors, radial piston pumps, axial piston pumps or Halbaxialpumpen.

In a further advantageous embodiment, however, only two different operating modes of the liquid pump / drive combination are possible, namely only one direction of rotation of the liquid pump and only one pump operation. As a pump for such operation, for example, a vane pump is considered.

According to yet another expedient embodiment, the liquid pump / drive combination is equipped with a sensor via which one or more operating and / or state variables of the liquid pump / drive combination can be determined. The sensor information is transmitted to the data platform in which the control signals are generated for realizing a possibly modified operating strategy, which in turn is transferred to the liquid pump / drive combination. With the aid of the sensors, for example, the pressure of the fluid, the pump speed, the volume flow of the fluid, the temperature of the fluid and / or the electrical current of the drive unit are taken into account. From one or more of these operating or state variables can be concluded, for example, the current state of wear of the liquid pump / drive combination. Accordingly, for example, adapted operating strategies can be implemented to ensure the longest possible service life of the liquid pump / drive combination.

Another aspect of the invention relates to a liquid pump / drive combination in a vehicle for carrying out the above-described method. The liquid pump / drive combination comprises the liquid pump, the drive unit driving the liquid pump, and the communication interface for receiving control signals, possibly also for sending information from or to the data cloud. The received control signals are used to control an actuator of the liquid pump / drive combination, for example an electric motor that drives the liquid pump, or an electrically actuatable control unit, which is part of the drive unit or the liquid pump. The liquid pump / drive combination can advantageously be equipped with a sensor system for detecting one or more operating or state variables.

• 1 eine schematische Darstellung einer Flüssigkeitspumpen-/Antriebskombination in einem Fahrzeug zum Antreiben, Kühlen oder Schalten einer Fahrzeugeinheit wie beispielsweise einem Automatikgetriebe, wobei die Flüssigkeitspumpen-/Antriebskombination über Steuerungssignale einer Datencloud angesteuert wird,
• 2 einen Längsschnitt durch eine Flüssigkeitspumpen-/Antriebskombination mit Datenanbindung an die Datencloud.

Further advantages and expedient embodiments can be taken from the further claims, the description of the figures and the drawings. Show it:

• 1 a schematic representation of a liquid pump / drive combination in a vehicle for driving, cooling or switching a vehicle unit such as an automatic transmission, wherein the liquid pump / drive combination is controlled by control signals of a data cloud,
• 2 a longitudinal section through a liquid pump / drive combination with data connection to the data cloud.

1 shows a schematic representation of a liquid pump / drive combination 1 in a vehicle, which is a liquid pump 2 and a drive unit 3 for the liquid pump 2 includes. At the liquid pump 2 It is, for example, a usable in reversible operation pump such as a gear pump, which is operable in both directions of rotation of the pump shaft. The liquid pump / drive combination 1 can be used both in pump mode and in generator mode. At the drive unit 3 used to drive the fluid pump 2 is used, it is in particular an electric motor, which may also be a mechanical drive into consideration.

The liquid pump / drive combination 1 drives a vehicle unit 4 on, for example, it is an automatic transmission in the vehicle. In generator mode, the liquid, in particular transmission oil, flows from the vehicle unit 4 back to the liquid pump 2 that is about their coupling with the drive unit 3 allows the generator operation.

The liquid pump / drive combination 1 is in signal communication with a data cloud 5 , which is located outside the vehicle and in the control signals for controlling the liquid pump / drive combination 1 be generated.

The data cloud 5 can evaluate information from a variety of equal or comparable fluid pump / drive combinations and on the basis of this information control signals for the realization of a possibly modified operating strategy for the operation of the liquid pump / drive combination 1 produce. This can, for example, the current environment are taken into account, in which the vehicle moves with the liquid pump / drive combination. Thus, it is possible, for example, to include the current traffic situation in the operating strategy and corresponding control signals for controlling the liquid pump / drive combination 1 to create. Additionally or alternatively, it is also possible to take into account type-dependent features of the liquid pump / drive combination, for example known weak points of the combination, and to generate control signals for realizing a modified operating strategy based on this, that of the liquid pump / drive combination 1 be supplied. This allows, for example, the liquid pump / drive combination 1 operate in a less prone to wear mode.

The liquid pump / drive combination 1 can be equipped with a sensor with which one or more operating or state variables of the liquid pump / drive combination are determined, for example, the current pressure of the liquid, which via the liquid pump 2 is promoted, the pump speed, the volume flow of the pumped liquid and the electric current of the drive unit 3 , The sensor data can be on the data cloud 5 be transmitted and evaluated there. By choosing from a variety of comparable fluid pump / drive combinations 1 from different vehicles sensor information on the data cloud 5 be transmitted, is in the data cloud 5 a correspondingly large number of sensor information available, which can be evaluated and made the basis of a possibly modified operating strategy.

In 2 is a longitudinal section through a liquid pump / drive combination 1 with a liquid pump 2 and a drive unit 3 shown, which is designed as an electric motor. The liquid pump 2 points in a pump housing 6 pump components 7 upon actuation, a liquid flow under pressure in the direction of the vehicle unit 4 is promoted, which is for example an automatic transmission, which is switched by the liquid flow. The liquid flow is from the pump components 7 through flow channels 7 in a connection plate 8th passed to the pump housing 6 flanged and over which the liquid pump / drive combination 1 can be connected to a vehicle component. On the outside of the connection plate 8th there is a flat gasket 9 ,

The liquid used to operate the vehicle unit 4 is conveyed, flows after the vehicle unit 4 back again and is through a further flow channel in the connection plate 8th to the pump components 7 in the pump housing 6 directed.

The drive of the pump components 7 via a pump shaft 10 , at the same time the rotor shaft of the electric motor 3 forms. The electric motor 3 is an example of an electronically commutated synchronous motor with permanent magnets 11 on the wave 10 formed and includes stator windings 12 in the stator 13 that have a control unit 14 with a circuit board 15 be energized. The control unit 14 is located on one end face of the stator 13 on the liquid pump 2 opposite side.

On the housing of the control unit 14 is a communication interface 16 arranged over which the electrical connection to the control unit 14 he follows. Via the communication interface 16 The information exchange between the liquid pump / drive combination also takes place 1 and the data cloud 5 ,

In the pump housing 6 the liquid pump 2 is a radial seal 17 arranged the shaft 10 engages and moves in the transition of the pump housing 6 to the electric motor 3 located.

The activation of the liquid pump / drive combination 1 according to 2 takes place in the same way as in 1 described. In the data cloud 5 Control signals for the realization of a defined operating strategy are generated, which via the communication interface 16 on the control unit 14 of the electric motor 3 be transferred and over which the electric motor 3 is controlled accordingly. If in the liquid pump / drive combination 1 a sensor is included, the sensor information to the data cloud 5 be transmitted.

Via the communication interface 16 can the controller 14 the liquid pump / drive combination 1 also communicate with other control units or devices in the vehicle.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 0758716 A2 [0002]

Claims (10)

Method for controlling a fluid pump / drive combination (1) in a vehicle, comprising a fluid pump (2) and a drive unit (3) driving the fluid pump (2) and a communication interface (16) for receiving control signals for actuating an actuator of the fluid pump / Drive combination (1), wherein the control signals are generated in a data platform located outside of the liquid pump / drive combination (1) for realizing a defined operating strategy, wherein the data platform is an off-vehicle data cloud (5). Method according to Claim 1 , characterized in that in the data cloud (5) information from a plurality of liquid pump / drive combinations (1) are evaluated. Method according to Claim 1 or 2 , characterized in that a data platform is arranged in the vehicle. Method according to one of Claims 1 to 3 , characterized in that the drive unit (3) is designed as an electric drive and is electrically actuated via the control signals. Method according to one of Claims 1 to 4 , characterized in that the drive unit (3) is designed as a mechanical drive and via the control signals an actuating unit of the drive is electrically actuated. Method according to one of Claims 1 to 5 , characterized in that via a sensor in the liquid pump / drive combination (1) determines one or more operating or state variables and the control signals are generated in the data platform, taking into account the sensed operating or state variables. Method according to Claim 6 , characterized in that as operating or state variables of the pressure of the liquid, the pump speed, the volume flow of the liquid and / or the electric current of the drive unit (3) are taken into account. Method according to one of Claims 1 to 7 , characterized in that the liquid pump / drive combination (1) can be used both in pump operation and in generator or recuperation operation. Fluid pump / drive combination in a vehicle for performing the method after a Claims 1 to 8th with a fluid pump (2) and a drive unit (3) driving the fluid pump (2) and with a communication interface (16) for receiving control signals for actuating an actuator of the fluid pump / drive combination (1). Liquid pump / drive combination (1) according to Claim 9 , characterized in that the drive unit (3) is designed as an electric motor (3).

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