DE102007030223A1 - Method for determining pick-up current distance for magnetic valve, involves repetitive opening of magnetic valve for particular opening duration, and closing of magnetic valve that is introduced after particular opening duration - Google Patents

Abstract

The method involves a repetitive opening of a magnetic valve (10) for a particular opening duration. A closing of the magnetic valve is introduced after the particular opening duration. The magnetic valve is activated by a solenoid coil for a varying time duration (Hv) after introducing closing of the magnetic valve for a particular pick-up current. An independent claim is also included for a measuring device for determining a pick-up current distance for a magnetic valve.

Description

The The invention relates to a method for determining a Holstromabstands for a solenoid valve with an anchor plate. Furthermore the invention relates to a measuring device for setting a Holstromabstands for a solenoid valve with an anchor plate according to the inventive method.

The problem underlying the invention is described below with reference to the 1 explained. 1 shows a conventional solenoid valve 10 , for example, is part of a fuel injector, not shown, and is used for filling a fuel in an internal combustion engine. The solenoid valve 10 has a valve body 12 in which an anchor space 14 is trained on. In the anchor room 14 is an anchor 16 arranged, which consists of an anchor bolt 18 and an anchor plate 20 is composed. The anchor plate 20 is along a longitudinal axis 22 of the anchor bolt 18 displaceable. Optionally, around the anchor bolt 18 around an anchor spring 24 be arranged, which is the anchor plate 20 towards one above the anchor 16 arranged valve spring 26 suppressed. The valve spring 26 pushes the entire anchor 16 against one at an upper end of an outlet throttle 28 of the valve 10 arranged valve ball 30 , In this way prevents the valve spring 26 an independent opening of the solenoid valve 10 ,

In 1 is the anchor 16 shown in its closed position. Is the anchor 16 in this closed position, so is the solenoid valve 10 closed and there is no fuel from a fuel tank 34 in a valve control room 36 flow. To open the solenoid valve 10 is on the of the drain throttle 28 opposite side of the anchor 14 a magnetic coil 32 arranged. Using a current flow through the solenoid 32 a magnetic field can be built up, which causes movement of the entire armature 16 away from the valve ball 30 causes. This is the entire anchor 16 as if by an arrow 38 shown shifted by an armature stroke AH and transferred from its closed position to an open position. This causes a compression of the valve spring 26 , The solenoid valve 10 is opened and a fuel supply from the fuel tank 34 in the valve control room 36 is now possible.

Will the current flow through the solenoid coil 32 interrupted, this builds up from the current flow through the solenoid coil 32 caused magnetic field. The anchor 16 is thus due to the force of the compressed, decompressing valve spring 26 in the direction of the outlet throttle 28 postponed. The interruption of the current flow through the magnetic coil 32 initiates closing of the opened solenoid valve 10 one. To those by the abutting anchor 16 on the valve ball 30 To limit acting force, the anchor plate can 20 independent of the anchor bolt 18 along the longitudinal axis 22 an overstroke ÜH on the valve ball 30 to be moved, as in 1 through an arrow 40 outlined. This movement of the anchor plate 20 independent of the anchor bolt 18 buffers the abutment of the anchor 16 to the valve ball 30 from. Has the anchor plate 20 about the overtravel ÜH on the valve ball 30 To move, so she comes to a lower stop 42 and gets vibrated.

However, it is desirable to use the anchor plate 20 before energizing the solenoid 32 for opening the solenoid valve 10 to have in a fixed initial position. To ensure this is done after interrupting the flow of current through the solenoid coil 32 to close the solenoid valve 10 a Holstrom through the solenoid 32 directed. This Holstrom has a current that is well below the current of the current flow to open the solenoid valve 10 lies. By means of the magnetic coil 32 Guided Holstrom a magnetic field is generated, which is a force on the anchor plate 20 exerts, through which the anchor plate 20 towards the solenoid 32 is moved without the anchor bolt 18 thereby being moved. The anchor plate 20 is in contact with an upper stop by the Holstrom 44 brought and is now in its default starting position. Because of the Holstrom also the vibrations of the anchor plate 20 after abutting the lower stop 42 are attenuated, it is advantageous if the Holstrom as soon as possible after initiating a closing of the solenoid valve 10 is activated. Hereinafter, the time interval between initiating closing of a solenoid valve by interrupting a current flow through a solenoid and activating the spar current will be referred to as a holstrom distance.

A solenoid valve, as described in the upper sections, is for example in the DE 10 2006 043 680 disclosed. However, such solenoid valves, which are operated in the manner described in the upper sections, only a relatively low Einfüllgenauigkeit. Frequently, when the solenoid valve is opened and after the following activation of the charging current, a predetermined desired filling amount of the fuel is exceeded. In this case, since more fuel than necessary is charged in an internal combustion engine, the power consumption of the internal combustion engine is increased, which is costly for a user.

It would be desirable to ensure a more accurate compliance with a desired target filling quantity in a generic solenoid valve th.

The Invention provides a method with the features of the claim 1 and / or by a measuring device with the features of claim 6.

The The present invention is based on the recognition that the inaccuracy while maintaining a desired target amount in a generic solenoid valve on a unfavorable given Holstromabstand due is. By too early activation of the Holstrom becomes delayed the closing movement of the anchor. This Delaying the closing movement of the anchor prevents a fast closing of the solenoid valve. As the solenoid valve in this case, longer than intended in the open Condition is more fuel in an internal combustion engine filled.

Around the metering accuracy of a solenoid valve, as in the upper Paragraphs is described, to improve, the time must be to activate the Holstrom be chosen so that the Solenoid valve is just closed when activated the Holstrom is started. This ensures that that the closing movement of the anchor is not activated by the Holstrom is delayed. The Holstromabstand depends however, of the particular type of solenoid valve, as well as device-specific Factors of a single solenoid valve, such as deviations the weight of the anchor or the distances between a valve seat and a solenoid, from. The present invention However, provides a method and a measuring device, with which is a Holstromabstand for both a solenoid valve type as well as having a single solenoid valve easily determined. In this case, a filling amount by an open Solenoid valve at a constant opening duration of the solenoid valve measured as a function of a varying Holstromabstandes. As optimized Holstromabstand is the minimum of varying Holstromabstände determined in which during the activation phase of the Holstrom only a flow of mass within a predetermined maximum amount through the solenoid valve occurs. This ensures that the solenoid valve at the time the activation of the current was almost closed.

In a preferred embodiment of the invention Procedure, the maximum amount is set so that during of the activated farm stream, no medium flow from a first volume in a second volume occurs. In this way, the Holstromabstand so determined that the solenoid valve at the time of activation the farm stream is currently closed.

Preferably will set the constant opening duration so that between a start of opening the solenoid valve and a Initiate a closing of the solenoid valve a predetermined Target amount through the solenoid valve from the first volume in the second volume flows. In this way, to determine during the activated Holstrom from the first volume in the second volume filled amount a lot of the medium between the beginning of opening of the solenoid valve and a subsequent deactivation of the Holstroms flows through the solenoid valve from the first volume into the second volume, be measured, and the measured amount with the predetermined target amount be compared. This allows the flow of medium during simply determine the activation phase of the current flow.

In Another preferred embodiment is for opening of the solenoid valve a predetermined opening current the solenoid is activated and to initiate the closing the solenoid valve of the predetermined opening current is deactivated. This ensures a high degree of accuracy Compliance with the times for opening the solenoid valve and the Eileiten a closing of the solenoid valve.

Further Possible applications and advantages of the invention result from the following description of exemplary embodiments, which are shown in the drawings.

It demonstrate:

1 a structure of a conventional solenoid valve;

2 a profile of a current conducted by a solenoid of the solenoid valve current; and

3 a coordinate system for setting a Hoistromabstands according to the inventive method for the solenoid valve; and

4 a structure of a preferred embodiment of the measuring device according to the invention.

2 shows a profile of a current flow through a solenoid of a solenoid valve. The structure of the solenoid valve corresponds to the 1 , The solenoid valve thus has an armature which is composed of an anchor bolt and an anchor plate.

In the coordinate system of 2 is an abscissa t the time axis and an ordinate I a current strength depending on the time again. At a time T1 to open the solenoid valve, a current flow through a magnetic coil of the magnet Valves activated. The activated current flow has from a time T2 on a current that is above a minimum current IO to open the solenoid valve. Due to the current flow with the minimum current IO, a magnetic field is built up in the magnetic coil, which moves the armature of the solenoid valve from its closed position to its open position. From a point in time T3, the current intensity of the current flow through the magnet coil is reduced to a current value IC which ensures that the armature of the magnet valve remains in its open position.

To at a later time T4, the solenoid valve should again getting closed. The time T4 thus ends with the time T1 starting opening period ΔTO of the solenoid valve. To initiate the closing of the solenoid valve, at the time T4 the current flow through the solenoid interrupted. this happens within a power reduction phase P1. By interrupting the current flow through the magnetic coil is caused by the flow of current magnetic field degraded and the armature of the solenoid valve is back in the direction moved to its closed position.

To the At time T5, the anchor is just against a its closed position limiting component of the solenoid valve. To buffer the abutment of the anchor is the anchor plate designed so that they are independent of the anchor bolt along a longitudinal axis of the armature is set into vibration. However, it is advantageous to oscillate the anchor plate quickly dampen, to prevent the anchor plate the anchor swings too far into an overhang ÜH. For this reason, it is advantageous if at the time T5 a Holstrom IH is activated by the solenoid. As the anchor at the time T5 is already in its closed position, does not have to be feared that the closing movement of the Ankers is slowed down by the current flow IH. The Holstrom distance H is set so that an exact adherence to a desired Target filling quantity is guaranteed. The Holstrom IH has a current that is significantly below the current levels IO and IC is. That way an opening of the solenoid valve due to a too large selected Holstrom's IH can be prevented.

To a predetermined damping period .DELTA.TD is the Current flow through the solenoid at time T6 then interrupted again and comes to a halt after a power-down phase P2. At a later time Time T7 can be reset by activating the current flow through the solenoid with a minimum current IO the be repeated procedures described.

3 shows a coordinate system for setting the Holstromabstands H for the solenoid valve. The abscissa of the coordinate system gives it varying Holstromabstände Hv again. The coordinate shows the fill quantities Q (Hv) which are measured when the solenoid valve is operated at the varying Holstromabstände Hv. The filling amounts Q (Hv) are measured, for example, with an injection quantity indicator as a function of the varying Holstromabstandes Hv. In this case, an opening duration of the solenoid valve, which is defined by a time difference between a start of activating a current flow through the magnetic coil and a second time for interrupting the current flow, is maintained constant in all measurements. The opening duration is selected to be 230 .mu.s at a rail pressure of 1600 bar so that a desired target influence quantity QS flows during the opening period in a measuring volume.

Based on 3 It can be seen that at a Holstromabstand Hv below a critical Holstromabstands HC the measured filling quantity Q (Hv) increases. This means that at a Holstromabstand Hv below the critical Holstromabstands HC the Holstrom the brake plate already during valve closing and not as desired only in the overstroke brakes. This leads to the unwanted increase in the measured filling quantity Q (Hv).

However, if the Holstromabstand Hv is greater than the critical Holstromabstand HC, the predetermined target influence amount QS is maintained within a range of deviation. The desired influencing quantity QS is also observed if the activation of a quench current is dispensed with. The critical Holstromabstand HC thus reflects the time required by the anchor to move from its open position to its closed position. The critical Holstromabstand HC thus reflects the Holstromabstand again, which should preferably be used to activate a Holstrom through the solenoid of the solenoid valve. The Holstrom is thus set with the smallest possible Holstromabstand HC, which leads to no increase in the measured filling quantity Q (Hv) on the desired desired influence amount QS. In 3 the determined Holstromabstand is 96 μs.

4 shows a structure of a preferred embodiment of the measuring device according to the invention. This embodiment of the measuring device comprises a holder 50 , a storage device filled with a medium 52 , a measurement volume 54 , a control device 56 , a sensor device 58 and an evaluation device 60 , Using the bracket 50 can be a solenoid valve 10 so between the storage device 52 and the measurement volume 54 be attached that with open Ma gnetventil 10 a medium flow 62 from the storage device 52 into the measuring volume 54 is possible. In the measuring volume 54 is the sensor device 58 appropriate. The sensor device 58 measures a time-dependent liquid level in the measuring volume 54 and determines therefrom the amount that is consumed by the storage device during a particular time interval 52 into the measuring volume 54 flows.

The control device 56 serves to actuate the solenoid valve 10 , It is designed to hold the solenoid valve 10 repeatedly by applying a current flow through an unspecified solenoid of the solenoid valve 10 can open for a fixed predetermined opening time ΔTO. After each opening of the solenoid valve 10 sets the controller 56 a fixed predetermined Holstrom to the magnetic coil of the solenoid valve 10 at. In this case, the Holstromabstand Hv varies within a predetermined range of values.

After each application of a current to the solenoid of the solenoid valve 10 gives the controller 56 the Holstromstrom the preceding Holstromabstand Hv to the evaluation 60 out. In addition, the evaluation device receives 60 from the sensor device 58 the amount of filling Q (Hv), which during the activated Holstroms in the measuring volume 54 flowed. The evaluation device 60 then determines from the different varying Holstromabständen Hv and their associated measured Einfüllmengen Q (Hv) the smallest Holstromabstand Hv, for which a filling amount Q (Hv) is measured within a predetermined comparison range. The evaluation device then sets this smallest Holstromabstand Hv, for which the filling amount Q (Hv) is measured within the predetermined comparison range, as Holstromabstand H for the solenoid valve 10 firmly. Subsequently, the solenoid valve 10 to be replaced by another. The functions performed by the various institutions are then repeated. In this way, within a relatively short time, a Holstromabstand for a given number of solenoid valves 10 be determined.

QUOTES INCLUDE IN THE DESCRIPTION

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Cited patent literature

• - DE 102006043680 [0006]

Claims (6)

Method for determining a Holstromabstands (H) for a solenoid valve ( 10 ) with an anchor plate ( 20 ) with the steps: - Repeated opening of the solenoid valve ( 10 ) for a predetermined, constant opening duration (ΔTO), wherein after the predetermined, constant opening duration (ΔTO), a closing of the solenoid valve ( 10 ) and after expiration of a varying period of time (Hv) after initiation of closing of the solenoid valve ( 10 ) a predetermined, constant Holstrom (IH) by a magnetic coil ( 32 ) of the solenoid valve ( 10 ) is activated; Determining one during the activated Holstrom (IH) from a first volume ( 34 . 52 ) into a second volume ( 36 . 54 ) filled medium before each reopening of the solenoid valve ( 10 ) and allocating the measured amount of filling to the time period (Hv) preceding the activated Holstrom (IH); - determining the shortest amount of time (Hv) in which the assigned fill quantity is within a predetermined maximum amount; and determining the determined shortest time duration (Hv), in which the assigned filling quantity lies within the maximum quantity, as the Holstromabstand (H) for the solenoid valve ( 10 ). A method according to claim 1, characterized in that the maximum amount is set so that during the activated Holstroms (IH) no medium flow from the first volume ( 34 . 52 ) into the second volume ( 36 . 54 ) occurs. A method according to claim 1 or 2, characterized in that the constant opening duration (ΔTO) is set such that between a start of opening of the solenoid valve ( 10 ) and initiating a closing of the solenoid valve ( 10 ) a predetermined set amount (QS) through the solenoid valve ( 10 ) from the first volume ( 34 . 52 ) into the second volume ( 36 . 54 ) flows. A method according to claim 3, characterized in that for determining during the activated Holstroms (IH) from the first volume ( 34 . 52 ) into the second volume ( 36 . 54 ) filled amount of an amount (Q (Hv)) of the medium between the beginning of the opening of the solenoid valve ( 10 ) and a subsequent deactivation of the Holstroms (IH) by the solenoid valve ( 10 ) from the first volume ( 34 . 52 ) into the second volume ( 36 . 54 ), is measured, and the measured amount is compared with the predetermined target amount (QS). Method according to one of the preceding claims, characterized in that for opening the solenoid valve ( 10 ) a predetermined opening current (IO, IC) through the magnetic coil ( 32 ) is activated and for initiating the closing of the solenoid valve ( 10 ) the predetermined opening current (IO, IC) is deactivated. Measuring device for determining a Holstromabstands (H) for a solenoid valve ( 10 ) with an anchor plate ( 20 ) - with a control device ( 56 ), which is adapted to the solenoid valve ( 10 ) repeatedly for a predetermined, constant opening duration (ΔTO) to open, in each case after the predetermined, constant opening duration (.DELTA.TO), a closing of the solenoid valve ( 10 ), and after expiration of a varying period of time (Hv) after initiating a closing of the solenoid valve ( 10 ) a predetermined, constant Holstrom (IH) by a magnetic coil ( 32 ) of the solenoid valve ( 10 ) to activate; With a sensor device ( 58 ), which is designed to generate a first volume during the activated flow stream (IH) ( 34 . 52 ) into a second volume ( 36 . 54 ) filled medium before each reopening of the solenoid valve ( 10 ) and to associate the measured amount of filling with the time (Hv) preceding the activated Holstrom (IH); and - an evaluation device ( 60 ), which is designed to determine the shortest time (Hv) in which the assigned filling amount is within a predetermined maximum amount, and the determined shortest period (Hv), in which the assigned filling amount is within the maximum amount, as a Holstromabstand (H ) for the solenoid valve ( 10 ).