DE10327875B4 - Immersion anchor system with adjustable magnetic flux - Google Patents

Abstract

A dip anchor system (4, 4 ') for an electropneumatic pressure transducer (1, 1'), comprising a plunger (45, 45 '') and a core (48, 48 ') at least partially sheathing in a magnetic field line M,
wherein the plunger armature (45, 45 ') has at least one recess (45a, 45'a) on the side facing the core (48, 48') and / or the core (48, 48 ') has at least one first recess (48a, 48') 'a) on the side facing the plunger armature (45, 45') side,
an air gap (49, 49 ') is provided between the plunger armature (45, 45') and the core (48, 48 '), the air gap (49, 49') being formed by relative movement between the plunger armature (45, 45 '). ) and the core (48, 48 ') during which the plunger armature (45, 45') in the first recess (48 a, 48 'a) in the core (48, 48') and / or the core (48, 48 ') in the recess (45a, 45'a) in the plunger armature (45, 45') at least partially in or out of the same is movable, is adjustable,
the sheath at least a first sleeve ...

Description

The The invention relates to a dip anchor system for an electropneumatic Pressure transducer.

An electropneumatic pressure transducer with a Tauchankersystem is, for example, from the DE 41 10 003 C1 known. The known plunger anchor system comprises at least partially in a magnetic field lines M bundling sheath a plunger and a core, wherein the plunger at least one recess on the side facing the core and / or the core has at least a first recess on the side facing the plunger armature, and a Air gap is provided between the plunger armature and the core, wherein the air gap by relative movement between the plunger armature and the core, while the plunger anchor in the first recess in the core and / or the core in the recess in the plunger anchor at least partially or is movable out of the same, is adjustable, and the sheath comprises at least a first sleeve and a yoke, each with high magnetic permeability, wherein the first sleeve between the plunger and at least one coil and / or at least one magnet is arranged, and the air gap in a region between the first sleeve and the Yoke is arranged. In a chamber (mixing chamber) of the known electropneumatic pressure transducer, a mixing pressure is generated from a negative pressure at a first port and an ambient pressure at a second port, which is made available to a consumer at a third port. The inflow of ambient pressure into said chamber is regulated by a double-seated valve. In this case, the connection of the chamber with the vacuum side depends on the arrangement of a valve plate whose movement is supported by a prestressed compression spring, but can also be initiated only by activation of an electromagnet of the plunger anchor system. A connection of the chamber to the ambient pressure depends on the position of a plunger armature of the plunger anchor system. It is thus the movement of the valve plate initiated by pneumatic forces by the differential pressure between the pressure in the chamber and the ambient pressure over a defined area exerts a certain force on the plunger armature. During normal operation of the electropneumatic converter, an equilibrium state arises for all mixing pressures, which is characterized in that the sum of all forces acting on the plunger armature of the plunger-type armature system becomes zero. These forces are the spring force of the compression spring, the tensile force of the electromagnet and the pneumatic forces. It is therefore a regulated system that has a proportional / integral behavior. This results in the proportional behavior of the compression spring and the electromagnet, while the pneumatics contributed by the pressure building up in said chamber the integrating behavior. A clocked DC voltage with variable duty cycles applied to the electromagnet supplies the desired value of the control loop. Depending on the duty ratio, another effective current flows in one coil of the electromagnet, resulting in a different effective magnetic force. For each magnetic force, in turn, the electropneumatic pressure transducer regulates to a new mixing pressure and thus a new equilibrium state. This scheme can only be realized by a characteristic magnet in Tauchankersy system is used. This characteristic magnet comprises according to the DE 41 10 003 C1 two iron cores. In this case, the first iron core is displaceable relative to a magnetic force line bundling iron sheath and thus relative to a plunger, while the second iron core is displaceable relative to the first iron core, wherein the second iron core can protrude into a recess of the plunger anchor. Thus, the air gap between the plunger armature and the composite of the two iron cores, contour variable characteristic magnet can be set in two ways, the force generation in the plunger anchor system essential air gap. This double adjustability one and the same magnetic characteristic, namely the air gap between the plunger and the characteristic magnet and thus the field distribution, which due to the area ratios, the adjustment of the first iron core has greater influence than that of the second iron core, always takes place in interaction with each other. Disadvantageously, the two settings can therefore not be decoupled, which complicates a precise adjustment of the air gap and thus in particular a compensation of dimensional tolerances. Thus, although with the first iron core, an operating range of the characteristic magnet in a section of positive slope and thus positive stiffness set when the inflection point of the force-displacement curve is in the adjustment of the first iron core. Subsequently, a required quantitative relationship between duty ratio and mixing pressure can then be set via the second iron core, wherein this setting, as already mentioned, can not be performed decoupled from the first setting.

Another immersion anchor system is in the DE 100 46 939 A1 described. Also in this Tauchankersystem two adjustable iron cores for adjusting a single air gap are used, with additional attenuators are arranged in the air gap, on the one hand to reduce the wear of the Tauchankersystems and on the other hand to increase the scope of the same ßern. Each attenuator reliably prevents a metallic stop of the plunger armature and core, without the need for a complex seal of the air gap; each attenuator also attenuates noise to reduce the noise emission of an electropneumatic pressure transducer employing the plunger armature system; and each attenuator is preferably formed of an elastomer having a low temperature dependence and thus increasing the range of use of the electropneumatic pressure transducer.

task The present invention is a Tauchanchersystem for a to provide electropneumatic pressure transducer, which has the disadvantages overcomes the state of the art, in particular the setting options expanded and simplified. Two are decoupled from each other settings to be provided.

These The object is achieved by A plunger anchor system according to claim 1.

preferred embodiments the Tauchankersystems invention are in the claims 2 to 14 described.

Of the Invention is thus the surprising finding underlying that in a Tauchankersystem the magnetic circuit in two ways, decoupled from each other is adjustable. In this case, according to the invention, both the necessary setting for determining an adjustment point of an electropneumatic pressure transducer in the range of positive stiffness as well as the setting for manufacturing a quantitative relationship between a clock ratio and a mixed pressure by a decoupled engagement in the magnetic River of Dive anchor system allows On the one hand, an iron core relative to a plunger anchor for adjusting an air gap between and on the other hand, separated thereof, an adjusting ring relative to an annular groove in a sleeve for Setting a magnetically effective length of the annular groove, namely as magnetic impedance, is moved.

Further Features and advantages of the invention will become apparent from the following Description, in the two embodiments the invention is explained in detail with reference to schematic drawings. Showing:

1 a sectional view through part of an electropneumatic pressure transducer with a first Tauchankersystem invention according to the invention;

2 an enlargement of section A of 1 ; and

3 a sectional view through a portion of an electropneumatic pressure transducer with a second Tauchankersystems invention.

As 1 it can be seen comprises an electropneumatic pressure transducer 1 , which can be used for example for a pneumatic control in a motor vehicle, a valve unit 2 coming from a membrane 3 and a Tauchankersystem invention 4 is pressed. About a first connection 5 supplied air at low pressure can be so with a second connection 8th supplied atmospheric air in a valve chamber 7 under control of the corresponding connections 5 . 8th mix that in the valve chamber 7 generated mixing pressure via a third port 6 can be supplied to a consumer. It can over the first connection 5 the intake pressure of an internal combustion engine of a motor vehicle are supplied, and the third port 6 be connected to an exhaust gas recirculation valve of the motor vehicle.

The immersion anchor system according to the invention 4 includes a coil 41 , with the interposition of a first sleeve 42 between a bracket 43 for the coil 41 and a plain bearing bush 44 a diving anchor 45 engages, along the plain bearing bush 44 is movable. Inside the holder 43 are in addition to the first sleeve 42 and plain bearing bush 44 a spacer 46 and a second sleeve 47 arranged. The second sleeve 47 at least partially surrounds an iron core 48 , which has a thread along the second sleeve 47 is movable. In the area of the spacer 46 there is an air gap 49 between the plunger anchor 45 and the iron core 48 in front. At the valve unit 2 opposite end of the bracket 43 are a yoke 50 and an adjusting ring 51 provided, wherein the adjusting ring 51 within the second sleeve 47 and the yoke 50 , along the second sleeve 47 via a thread movable, is stored. In addition, the first sleeve 42 , the holder 43 , the second sleeve 47 and the yoke 50 formed from a material of high magnetic permeability and in particular represent an iron sheath for bundling magnetic field lines.

The plunger anchor 45 has a first recess 45a on his iron core 48 facing side up. The second sleeve 47 has a first recess 47a , preferably in the form of an annular groove, on its yoke 50 facing side up. The iron core 48 has a first recess 48a on his the plunger anchor 45 facing side and a second and third recess on the plunger anchor 45 on the opposite side. The adjusting ring 51 has a first recess 51a on the the iron core 48 facing side and a second recess 51b on the iron core 48 on the opposite side.

• i) Der Luftspalt 49 im Magnetkreis des Tauchankersystems 4 ist verkleinerbar, indem der Eisenkern 48 in einer ersten Drehrichtung über ein nicht dargestelltes Werkzeug, das in die dritte Ausnehmung 48c eingreift, gedreht und dabei auf den Tauchanker 45 zu bewegt wird. Dabei wird der Eisenkern 48 in die erste Ausnehmung 45a des Tauchankers 45 und der Tauchanker 45 in die erste Ausnehmung 48a des Eisenkerns 48 teilweise eingetaucht. Eine Drehung des Eisenkerns 48 in die der ersten Drehrichtung entgegengesetzten zweiten Drehrichtung sorgt in analoger Weise für eine Vergrößerung des ersten Luftspalts 49. Über die Größe des Luftspalts 49 kann ein Einregelpunkt nahe dem Wendepunkt der Kraft-Weg-Kennlinie des Tauchankersystems 4 mit positiver Steifigkeit eingestellt werden.
• ii) Ein gewünschter quantitativer Zusammenhang zwischen einem Taktverhältnis und einem Mischdruck ist zudem über den Verstellring 51 einstellbar, indem ein nicht gezeigtes Werkzeug in seine zweite Ausnehmung 51b eingeführt wird, um den Verstellring 51 weiter in den Eisenkern 48 hinein oder heraus zu drehen. Dabei wird die Größe der Überlappung der Ausnehmung 47a in der zweiten Hülse 47 von dem Verstellring 51 eingestellt, was eine Führung der Magnetfeldlinien M und somit Einstellung der magnetischen Durchflutung des erfindungsgemäßen Tauchankersystems 4, wie in der Vergrößerung des Ausschnitts A von 1 in 2 dargestellt, eingestellt. Mit an deren Worten wird die magnetisch wirksame Länge 1 der Ausnehmung 47a in der zweiten Hülse 47, also der magnetischen Impedanz, zur Einstellung der magnetischen Durchflutung des Tauchankersystems 4 ermöglicht.

The immersion anchor system according to the invention just described in construction 4 is adjustable as follows:

• i) The air gap 49 in the magnetic circuit of the plunger anchor system 4 is reducible by the iron core 48 in a first direction of rotation via a tool, not shown, in the third recess 48c engages, turned and thereby on the plunger anchor 45 to be moved. This is the iron core 48 in the first recess 45a of the plunger anchor 45 and the plunger anchor 45 in the first recess 48a of the iron core 48 partially immersed. A rotation of the iron core 48 in the opposite direction of rotation of the first second direction of rotation provides in an analogous manner for an enlargement of the first air gap 49 , About the size of the air gap 49 can an adjustment point near the inflection point of the force-displacement curve of the plunger anchor system 4 be set with positive stiffness.
• ii) A desired quantitative relationship between a clock ratio and a mixing pressure is also via the adjusting ring 51 adjustable by a tool not shown in its second recess 51b is introduced to the adjusting ring 51 further into the iron core 48 to turn in or out. In this case, the size of the overlap of the recess 47a in the second sleeve 47 from the adjusting ring 51 adjusted, which is a guide of the magnetic field lines M and thus setting the magnetic flux of the invention Tauchanchersystems 4 as in the enlargement of section A of 1 in 2 shown, set. With at their words, the magnetically effective length 1 of the recess 47a in the second sleeve 47 , ie the magnetic impedance, for setting the magnetic flux of the plunger anchor system 4 allows.

In 3 is a second embodiment of a Tauchankersystems invention 4 ' for an electropneumatic pressure transducer 1' shown. The components which correspond to those of the first embodiment, have the same reference numerals, but provided with an apostrophe.

As already related to 1 described includes the electropneumatic pressure transducer 1' a valve unit 2 ' , a membrane 3 ' , three connections 5 ' . 6 ' and 8th' as well as a valve chamber 7 ' , The diving anchor system of interest here 4 ' again comprises one of a holder 43 ' held coil 41 ' , which in turn is arranged around an iron sheath, in addition to the bracket 43 ' a first sleeve 42 ' , a second sleeve 47 ' and a yoke 50 ' includes. The first sleeve 42 ' is with the interposition of a plain bearing bushing 44 ' at least a part of a diving anchor 45 ' arranged around. Between the first sleeve 42 ' and the second sleeve 47 ' is a spacer 46 ' made of a material of low magnetic permeability. The second sleeve 47 ' embraces an iron core 48 ' and an adjusting ring 51 ' , at least in certain areas.

The plunger anchor 45 ' , the iron core 48 ' as well as the adjusting ring 51 ' of the 3 differ so far from the plunger anchor 45 , the iron core 48 and the adjusting ring 51 of the 1 and 2 than that the respective recesses 45'a . 48'a and 48'b respectively. 45a . 48a and 48b are executed differently. However, there is still an immersion of the plunger anchor 45 ' in the iron core 48 ' possible. However, it has proved to be particularly advantageous, the second recess 48'b of the iron core 48 ' and also the iron core 48 ' facing side of the adjusting ring 51 ' beveled, resulting in an increase of the adjustment range for the magnetically effective length of the recess 47'a the second sleeve 47 ' leads.

The functioning of the plunger anchor system 4 ' corresponds to that of the plunger anchor system 4 with a decoupled adjustability, namely a rough adjustment on the adjustment of the air gap 49 ' and a fine adjustment on the setting of the magnetically effective length of the recess 47'a the second sleeve 47 ' as magnetic impedance.

Consequently allows the plunger anchor system according to the invention for the first time two decoupled settings with simple Construction and ease of use for precise tuning of the magnetic circuit in the plunger anchor system of a regulated electropneumatic pressure transducer.

1, 1'

pressure transducer

2, 2 '

valve unit

3, 3 '

membrane

4, 4 '

Solenoid plunger system

5, 5 '

Connection

6 6 '

Connection

7, 7 '

valve chamber

8th, 8th'

Connection

41 41 '

Kitchen sink

42 42 '

shell

43 43 '

bracket

44 44 '

plain bearing bush

45, 45 '

plunger

45a, 45'a

recess

46 46 '

spacer

47 47 '

shell

47a, 47'a

recess

48 48 '

iron core

48a, 48'a

recess

48b, 48'b

recess

48c, 48'c

recess

49, 49 '

air gap

50, 50 '

yoke

51 51 '

adjusting

51a, 51'a

recess

51b, 51'b

recess

A

neckline

M

magnetic field line

l

magnetic effective length the ring groove

Claims (14)

Plunger anchor system ( 4 . 4 ' ) for an electropneumatic pressure transducer ( 1 . 1' ) comprising at least partially in a magnetic field lines M bundling sheath a plunger ( 45 . 45 '' ) and a core ( 48 . 48 ' ), whereby the plunger anchor ( 45 . 45 ' ) at least one recess ( 45a . 45'a ) on the core ( 48 . 48 ' ) facing side and / or the core ( 48 . 48 ' ) at least a first recess ( 48a . 48'a ) on the plunger anchor ( 45 . 45 ' ) facing side, an air gap ( 49 . 49 ' ) between the plunger anchor ( 45 . 45 ' ) and the core ( 48 . 48 ' ), the air gap ( 49 . 49 ' ) by relative movement between the plunger ( 45 . 45 ' ) and the core ( 48 . 48 ' ) while the plunger ( 45 . 45 ' ) in the first recess ( 48a . 48'a ) in the core ( 48 . 48 ' ) and / or the core ( 48 . 48 ' ) in the recess ( 45a . 45'a ) in the plunger anchor ( 45 . 45 ' ) is at least partially movable in or out of the same, is adjustable, the sheath at least a first sleeve ( 42 . 42 ' ) and a yoke ( 50 . 50 ' ), each with high magnetic permeability, wherein the first sleeve ( 42 . 42 ' ) between the plunger anchor ( 45 . 45 ' ) and at least one coil ( 41 . 41 ' ) and / or at least one magnet is arranged, and the air gap ( 49 . 49 ' ) in a region between the first sleeve ( 42 . 42 ' ) and the yoke ( 50 . 50 ' ), and the sheath a second sleeve ( 47 . 47 ' ) with high magnetic permeability between the first sleeve ( 42 . 42 ' ) and the yoke ( 50 . 50 ' ), the at least one recess ( 47a . 47'a ) on its the core ( 48 . 48 ' ) facing away from the yoke to bundle magnetic field lines (M) 50 . 50 ' ) to the core ( 48 . 48 ' ) and relative to that in the region of the recess ( 47a . 47'a ) the yoke and / or an adjusting member with high magnetic permeability for setting the magnetically effective length ( 1 ) of the recess ( 47a . 47'a ) of the second sleeve ( 47 . 47 ' ) is movable. Diving anchor system according to claim 1, characterized in that the air gap ( 49 . 49 ' ) in a region between the first sleeve ( 42 . 42 ' ) and the second sleeve ( 47 . 47 '' ) is arranged. Diving anchor system according to claim 1 or 2, characterized in that between the first sleeve ( 42 . 42 ' ) and the second sleeve ( 47 . 47 ' ) a spacer ( 4b . 46 ' ) is arranged low magnetic permeability. Diving anchor system according to one of the preceding claims, characterized in that the core ( 48 . 48 ' ) at least one second recess ( 48b . 48'b ) at the plunger anchor ( 45 . 45 ' ) facing away from the side and / or the adjusting member ( 1 ) at least a first recess ( 51a . 51'a ) at the core ( 48 . 48 ' ) facing side, wherein the magnetically effective length ( 1 ) of the recess ( 47a . 47'a ) of the second sleeve ( 47 . 47 ' ) for the targeted bundling of the magnetic field lines (M) by relative movement between the core ( 48 . 48 ' ) and the adjusting member, during which the core ( 48 . 48 ' ) in the first recess ( 51a . 51'a ) in the adjusting member and / or the adjusting member in the second recess ( 48b . 48'b ) in the core ( 48 . 48 ' ) at least partially in or out of the same is movable, is adjustable. Diving anchor system according to one of the preceding claims, characterized in that the core ( 48 . 48 ' ) at least a third recess ( 48c . 48'c ) at his the plunger anchor ( 45 . 45 ' ) facing away from the end of the engagement of a tool for adjusting its position and / or the adjusting at least a second recess ( 51b . 51'b ) at the core ( 48 . 48 ' ) facing away from the engagement of a tool for adjusting its position. Diving anchor system according to one of the preceding claims, characterized in that the casing has a holder ( 43 . 43 ' ) for the coil ( 41 . 41 ' ) or the magnet and at least one sliding bearing. Diving anchor system according to claim 6, characterized in that the holder ( 43 . 43 ' ) has a high magnetic permeability and / or the sliding bearing has a high magnetic permeability. Diving anchor system according to claim 6 or 7, characterized in that the plain bearing for the plunger anchor ( 45 . 45 ' ) between the plunger anchor ( 45 . 45 ' ) and the first sleeve ( 42 . 42 ' ) is arranged. Diving anchor system according to one of the preceding claims, characterized in that the core ( 48 . 48 ' ) and / or the adjusting member via a thread relative to the second sleeve ( 47 . 47 ' ) is movable. Dive anchor system according to one of the preceding Henden claims, characterized by a first attenuator in the first recess of the plunger armature, and / or a second attenuator in the first recess of the core, and / or a third attenuator in the second recess of the core, and / or a fourth attenuator in the first Recess of the adjusting member. Dive anchor system according to claim 10, characterized in that that this first, second, third and / or fourth attenuator made of an elastomer is formed or are. Diving anchor system according to one of the preceding claims, characterized in that the casing in the form of an iron casing and the core ( 48 . 48 ' ) is formed in the form of an iron core or magnetic core. Diving anchor system according to one of the preceding claims, characterized in that the recess of the plunger anchor, the first and / or second recess ( 48'b ) of the iron core ( 48 ' ) and / or the adjusting ring ( 51 ' ) on its iron core ( 48 ' ) is bevelled to the facing side to increase the setting range. Diving anchor system according to one of the preceding claims, characterized in that the adjusting element in the form of an adjusting ring ( 51 . 51 ' ) is trained.