DE102007024397A1 - Method for controlling injecting valve, involves flowing of electric current in injecting valve, whose current profile has retaining phase divided into two sections - Google Patents

Abstract

The method involves flowing of electric current in an injecting valve, whose current profile (16) has a retaining phase divided into two sections (28,30). The current profile of latter section is steered or regulated to a lower effective value that is provided at the former section. The effective value of the current is lowered by the former section to the latter section. Independent claims are also included for the following: (1) a device for controlling an injection valve (2) a computer program with a program code medium.

Description

The The invention relates to a method for driving an injection valve and means for controlling an injector as well a computer program and a computer program product.

State of the art

Injectors and in particular high pressure injection valves (HDEV), e.g. B. for the gasoline direct injection (BDE) or diesel direct injection in motor vehicles, are usually used to inject fuel directly into the combustion chamber of an engine. An injection valve is for this purpose by energizing a magnetic circuit of the injection valve opened. In this case, a magnetic force is generated, which leads to an opening of the Injector leads. aim the triggering is to use a power profile that both for the reliability of opening as also for the exact fuel metering represents an optimum. So far to a power profile with a so-called booster phase, a suit phase and a holding phase used. The booster phase has one steep rise of the current, at the suit phase takes a level of the current From and during the holding phase, the current is regulated to a constant current.

Disclosure of the invention

The Invention relates to a method for driving an injection valve, in which the injection valve with an electric current whose Current profile one in a first and second temporal section split holding phase includes, is energized, the current profile while of the second section to a lower effective value than during the first section is controlled or regulated.

In The rule is that the injection valve, the example. As High-pressure injection valve is formed by a power source is energized. It flows through the injection valve, an electric current whose current strength from a height or temporal change this current has resulting current profile. In design The invention provides that primarily the holding phase at least has two sections, in which provided for the injection valve Electric current to each one effective value or mean is regulated so that during the holding phase through the solenoid valve successively at least two streams with different flow of effective values. That can be done in one execution mean a transition the effective value from the first section to the second Section abruptly or stepwise while reducing the effective Value takes place. In a possible Variant is provided that the injection valve during the first section a current with a first effective, constant Setpoint is provided immediately after the injector while of the second section a current with a second effective, constant Setpoint provided. Such setpoints can be controlled by the respectively provided effective values are achieved.

With the method takes place in the control of the injection valve a so-called step deletion, at which the effective values to be provided during the Holding phase section for Section step-shaped lose weight. Accordingly, the mean and thus the setpoint of the Electricity for the injection valve from the first portion to the second portion lowered, reduced or minimized.

Farther are sums for the effective values of both sections greater than 0 amps. This can mean that a mean value to be regulated from the first is typically stepped down to the second section, wherein both mean values of a current of more than 0 amps. After completion of the holding phase is regularly scheduled, that the mean after a final stretch of the hold phase is lowered to 0 amps.

By This method is possible in a variant, a metering accuracy to control the injection valve. Furthermore, the current profile now so changed that an improvement of the metering accuracy is achieved.

To Start of a current during the holding phase, the injection valve is in an open Status. At the end of a current supply with the holding current or on a At the end of the holding phase, the injection valve is closed. At a Variant of the method is a transition from the first to the second section just before an end of an injection and thus towards the end of the holding phase.

The inventive device for controlling an injection valve is adapted to a Power profile for an electric current with which to fuel the injector is to provide such that the current profile in one comprises the first and second time periods divided holding phase, while doing the current profile during the second section to a lower effective value than during the first section to control or regulate and thus on this set lower value.

This device is typically called Control unit designed and can be designed to generate the current profile power amplifier module, which is designed as an integrated power amplifier module or discrete power amplifier circuit.

The Device can be designed to interact with a power source, the injector the electric current according to the current profile provides. This will be a provision of electricity from the Device so controlled and thus controlled and / or regulated, that the power source the injection valve, the current profile whose holding phase which has two sections with different mean values, provides. The power source may optionally act as a component of Device be formed.

With the device is the injection valve directly or indirectly over the Control power source and thus to control and / or regulate. For energizing the injector, the device typically provides one for a respective operating point of the injection valve suitable current profile ready. For this purpose, the device, the injection valve and others Engine components that interact with the injector and / or are dependent on a function of the injection valve, directly or indirectly monitor.

With The method is overall a control and thus a tax and / or regulating the injection valve and the current profile for the injection valve possible, so that the current profile with the method to a suitable, for one Each phase provided for value regulated and thus discontinued becomes. Accordingly, it can also be provided that the injection valve is controlled so that the desired current profile results. The proposed device for controlling the injection valve and of the current flow for the injection valve is further for controlling and / or regulating the Injector and the current flow suitable for the injection valve.

It is provided that all Steps of the method for controlling the injection valve, in usually a high-pressure injection valve for an engine, and thus in total for control and thus for the control and / or regulation of the Injector be performed by the described device can. Individual functions of the device may be used as steps of the method according to the invention will be realized.

The Invention also relates a computer program with program code means to complete all steps of a inventive method perform, if the computer program is on a computer or equivalent Computing unit, in particular in a device according to the invention, accomplished becomes.

The Computer program product according to the invention with program code means stored on a computer-readable medium, is to run all steps of a method according to the invention, if the computer program is on a computer or equivalent Computing unit, in particular in a device according to the invention, is performed.

The Metering accuracy leaves improve in an embodiment of the method in that a Height or a level of holding current is reduced shortly before the end of injection and thereby a faster closing of the valve is made possible. There In this case, only the end of the current profile is changed, there are no Disadvantages in terms of opening behavior and keeping the valve open during the Injection. This current profile can either always be used be, or only in certain operating points, for. Idle, in which an increased Metering accuracy is necessary.

The To be set different levels of holding current during the Maintaining phase will be mainly by a maximum system pressure against which the high pressure injector is kept open after opening must be, and a static flow of injected Fuel determined.

The Current profile typically still has a first phase with a steep rise until reaching a maximum value as well as a second phase, which is also known as the suit phase. During the the first phase, the injection valve is opened and during the second phase, at an effective value compared to the maximum value achieved first phase decreases, kept open. The third phase is followed by the Holding phase, at the end of the injection valve is closed.

Further Advantages and embodiments of the invention will become apparent from the Description and attached drawing.

It it is understood that the above and the following yet to be explained features not only in the specified combination, but also in other combinations or alone, without to leave the scope of the present invention.

Brief description of the drawings

1 shows an example of a current profile according to the prior art.

2 shows a current profile provided according to an embodiment of a method according to the invention.

3 shows a schematic representation of an arrangement having an embodiment of a device according to the invention.

Embodiments of the invention

The Invention is based on embodiments schematically shown in the drawing and is below under Referring to the drawings described in detail.

This in 1 Diagram shown has a vertical current axis 2 on, along which a current across a horizontal time axis 4 is applied. In this diagram off 1 is a commonly used power profile 6 , which is used in the prior art for energizing injection valves in engines of vehicles registered. This power profile 6 is in three consecutive phases 8th . 10 . 12 divided. This is a first phase 8th as a so-called booster phase during which the injection valve is opened. During this first phase 8th includes the current profile 6 a steep climb 14 , in which a high, finally achievable amperage is provided in a short time. After the first phase 8th follows a second phase 10 , which is also referred to as tightening phase, during which the injection valve is kept open.

At the end of the third, final phase 12 , which is also referred to as a holding phase, the injection valve is closed. During this third phase 12 the current profile is set to a desired effective value 14 adjusted, which here by the zigzag course of the current profile 6 during the third phase 12 is shown. This effective value 14 is represented in the diagram by a section of a straight line. In a course of the current profile 6 along this line, the current provided to the injector would be constant.

An embodiment of a current profile according to the invention 16 is in 2 within a diagram along a vertical stream axis 18 for a value of amperage over a horizontally oriented time axis 20 applied. Similar to that on the basis of 1 described current profile 6 According to the prior art, the in 2 illustrated embodiment of the current profile 16 which is provided by an embodiment of the method according to the invention, in a first, second and third phase 22 . 24 . 26 divided. It is also in this diagram 2 the first phase 22 as a rise phase, the second phase 24 as the suit phase and the third phase 26 provided as a holding phase. The current profile to be provided by the method according to the invention 16 has during the first and second phase 22 . 24 largely the same course as the current profile known from the prior art 6 out 1 ,

However, the current profile to be provided by the method according to the invention differs 16 during the third phase 26 and thus the holding phase of the current profile known in the art 6 , It is provided that the holding phase in the present embodiment of the invention in two temporally immediately successive sections 28 . 30 is divided. This is followed by a first section 28 the holding phase to the second phase 24 , It is envisaged that the current profile during the first section 28 to a first mean 32 is regulated, which is represented here by a first straight line. At a transition from the first section 28 to the second section 30 becomes the first mean 32 gradually lowered and to a second average 34 regulated. The two different mean values 32 . 34 , which has the current profile during the hold phase, correspond to set values for the current that can be achieved by regulation. This regulation is during the first portion of the holding phase by the zigzag course of the current profile 16 around the first mean 32 clarified. This regulation will continue during the second section 30 the holding phase by the zigzag course of the current profile 16 around the second mean 34 clarified. As an alternative to regulation, the values can also be pre-controlled.

The current profile 16 for the injection valve (HDEV) is adapted in an embodiment of the method so that shortly before the end of the injection, a level and thus the average value of the holding current is lowered, so that the injection valve, starting from a reduced current profile during the second section 30 is switched off. Thus, in addition to the first section 28 the second section 30 used with reduced holding current.

This power profile 16 can z. B. be generated by an integrated power amplifier module or by a discrete power amplifier circuit. The corresponding power profile 16 can z. B. be generated so that after a drive end of a microprocessor as a component of the device automatically a short-term reduction of the current profile 16 is generated by the power amplifier module, before the power is finally turned off.

A second way to generate the current profile is at one time 36 as a transition from the first section 28 to the second section 30 through the microprocessor one as Control device trained to send a second signal to the power amplifier module, so that the reduced level of the current is activated and then turned off at the end of the drive and the power.

3 shows an arrangement 42 , which is an embodiment of a device according to the invention as a control device 44 with a microprocessor 45 and a power amp module 46 , an injection valve 48 as well as a battery 50 and a capacitor 52 acting as power sources for the injector 48 are formed has.

The inventive device 44 is to control the injector 48 trained, the device 44 in this embodiment, a state of the injection valve 48 supervised. To realize an embodiment of the method according to the invention, it is provided that the device 44 a current profile 54 for a stream, with which the injection valve via the power sources 50 . 52 to energize is to provide such that this current profile 54 is divided into two temporally successive sections in a holding phase provided as a third phase, wherein the current profile is controlled or regulated during a second section at a lower effective value than during a first section. During the holding phase, the current supply of the injection valve takes place 48 through the battery 50 , which is controlled by the provided current profile such that the injection valve with a current that an effective target value according to the current profile 54 has, is energized. In the present embodiment, the current profile 54 through the power amp module 54 provided. This is the power amplifier module 54 by signals from the microprocessor 45 controlled. When a suitable time is reached during the holding phase, a step-by-step switching of the current profile takes place 54 from the first section to the second section, reducing the power to be adjusted or adjusted during the hold phase.

Claims (11)

Method for controlling an injection valve ( 48 ), in which the injection valve ( 48 ) with an electric current whose current profile ( 16 . 54 ) one into a first and second temporal section ( 28 . 30 ) is energized, the current profile ( 16 . 54 ) during the second section ( 30 ) to a lower effective value ( 32 . 34 ) than during the first section ( 28 ) is controlled or regulated. Method according to claim 1, wherein the effective value ( 32 . 34 ) of the flow for the injection valve ( 48 ) from the first section ( 28 ) to the second section ( 30 ) is lowered. Method according to Claim 1 or 2, in which amounts of the effective values ( 32 . 34 ) for the sections ( 28 . 30 ) are greater than 0 amps. Method according to one of the preceding claims, with which a metering accuracy of the injection valve ( 48 ) is controlled. Method according to one of the preceding claims, in which a transition from the first to the second section ( 28 . 30 ) occurs just before an end of an injection. Method according to one of the preceding claims, in which the injection valve ( 48 ) is closed at the end of the holding phase. Device for controlling an injection valve ( 48 ), which is adapted to a current profile ( 16 . 54 ) for an electric current, with which the injection valve is to be energized to provide such that the current profile ( 16 . 54 ) one into a first and second temporal section ( 28 . 30 ) divided holding phase, while the current profile ( 16 . 54 ) during the second section ( 30 ) to a lower effective value ( 32 . 34 ) than during the first section ( 28 ) or to regulate. Device according to claim 7, which is a device for generating the current profile ( 16 . 54 ) trained power amplifier module ( 46 ) having. Device according to claim 7 or 8, which is designed to interact with a power source which is connected to the injection valve ( 48 ) the electric current according to the current profile ( 16 . 54 ). Computer program with program code means for carrying out all the steps of a method according to one of Claims 1 to 6, when the computer program is stored on a computer or a corresponding arithmetic unit, in particular in a device ( 44 ) according to one of claims 7 to 9, is executed. A computer program product comprising program code means stored on a computer-readable medium for carrying out all the steps of a method according to one of claims 1 to 6, when the computer program is stored on a computer or a corresponding computing unit, in particular in a device ( 44 ) according to one of claims 7 to 9, is executed.