DE2339656A1 - DEVICE FOR EXERCISING ELECTROMAGNETIC FORCE - Google Patents

Description

COHAUSZ & FLORACK PATENT AGENCY OFFICE Δ O «5 9 ODQ

4 DÜSSELDORF 8CHUMANN8TH. Ö7

PATCNTANWKLTE: Dipl.-I «·. W. COHAUSZ · Dipl.-Ing W. HOCAOC ■ Dipl.-ΐΛβ. R. KNAUF ■ Df.-Ing., Dipl.-Wirttch.-Ing. A. SHARED

Lucas Aerospace Limited

Well Street

Gl-Birmingham 2nd August 1--73

Device for exercising electromagnetic force

The invention relates to a door direction for exerting electromagnetic force with an electromagnet which has a yoke in which an air gap is formed between two spaced apart pa.rall ^a len "PlWichen, an armature for movement in the air gap in a direction parallel to dean. surfaces is stored.

With such force devices, it is important to ensure that that the anchor is at a constant distance from the in Is arranged spaced parallel surfaces. If, for example, the air gap is formed in a device in the form of a ring and the anchor is a Hing, any eccentricity of the anchor results in the Air gap to a side force exerted on the anchor, what au an increase in eccentricity tends to lead to it the device becomes unstable.

The invention is therefore based on the object of a device of the kind mentioned, in which this difficulty is at least addressed.

In a device for exercising electromagnetic force according to the invention, the armature is formed by a plurality of separate pieces supported by non-magnetic material ± m spacing, the spaces between the separate pieces extending transversely to the parallel surfaces.

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In the case of an annular air gap, the armature can have a plurality of separate Have segments attached to a carrier made of non-magnetic material are arranged (but not necessarily non-conductive Material). Alternatively, the anchor can consist of a plurality of separate lines consist of magnetic material arranged radially and connected to one another by any suitable binding material, in order to divide the armature both circumferentially and axially.

The reason the anchor is split in this way is because of the creation of preferred flow paths through the anchor prevent these flow paths entering the anchor at a point where the anchor is close to a surface and the anchor at a spaced point where the anchor is close on the other face.

The invention can also be applied to devices in which a rod-shaped armature is to be used in a straight-sided air gap. The anchor can be divided into soles , the planes of which are at right angles to the position of the gap, or it can be divided into fibers that extend over the air gap, as is the case with the device with the annular air gap.

The invention is explained in more detail below with reference to the drawings. In the drawings Bind »

Fig. 1 is a Aueführungsbeispiel a device for applying a force in accordance with the invention as applied to a pressure transducer,

Fig. 2 shows a detail in. Section through parts of the device shown in Fig. 1 for exercising traft,

Fig. 5 is a plan view of an anchor of the device for exercising of strength,

Fig. 4 is an electrical circuit of the transducer, Fig. 5 is a view of another form of armature, Fig. 6 is a section on line 6-6 of Fig. 5 and

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7 is a diagram of another embodiment of an apparatus for the exercise of electromagnetic force p-e-i according to the · "invention.

Referring initially to FIGS. 1 to 3, the valve shown consists of a body 10 which is made up of various parts. Arc body 10 is a lever 11 pivotally mounted, which is carried by a. ^^! Ζ ^ ριιτ - + ^ leaf spring-like C-hinge 12. Sin Enäo de * - H ^r b. ~ L? 11 is connected by a thin flexible metal strip 13 to an ann 14 which is supported on part of the body 10 by a crossed leaf spring hinge 15. The arm 14 is attached to a housing 16 which is fitted into a sealed, empty, flexible bellows 17 which has a further end piece 1fi at its opposite end which is attached to the body. 7) cr bellows 17 exert a force that depends on the pressure of the medium surrounding the bellows, namely on the lever 11 via the strip 15, which is thereby held in tension.

Sensor means in the Torrn of a capacitor plate 19, which is attached to the arm 1 <5 is and sits between two Kondeneatorplatten 20 and 21 is provided for learning the position of the lever 11. The one described so far Arrangement is the same as previously suggested.

The transducer also has a device 22 for exercising an electromagnetic Force on. This gate direction consists of two electromagnets 23, 24 and two anchor rings 25, 26, each of which is the two electromagnets are assigned and on a carrier ring 27 aue non-magnetic Material (e.g. brass) are arranged on the lever 11. The electromagnet 23 comprises a piece of BiBenker 28, dag a flange 29 has, and a jacket 30, which has the core and two windings 31 »32 nm Core encloses. The edge surface 33 of the flange 29 and an inner Surface 34 form an annular air gap in which the anchor ring is calibrated 25 is located. The surfaces 33 and 34 are cylindrical, and their By inserting it, conentricity becomes a? Rings 35 made of brass

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or another non-magnetic material in between. Pirihere · «= '- Btellt.

The core of the magnet 23 is hollow, as is the corresponding core of the magnet 24, which has an essentially identical construction with windings 36 and 57. The two electromagnets are connected to one another by a tube 38 which extends through the two cores, with holding in the required coaxial position in the A / Hstend by a Meesing Mstanzhülee 39, ie between the two paddles 35 sits.

The two anchor rings 25 and 26 are made of Veieheiser. and are through an epic adhesive or otherwise attached to the carrier ring 27. First each of the rings 25, 26 is a complete ring after assembly; with the carrier ring 27, however, is each made by several radial saw cuts cut completely through to a division into several separate segments to effect. The carrier ring 27 is as a result of this S?. * RenR with radial grooves, but this is not significant.

The circuit shown in FIG. 4 is identical to that already proposed. A Weoheelstrombrücke belongs to it, with the plate 19 in combination with the two stationary plates 20, 21 two changed such capacitors form two arms of the bridge. the Bridge is completed by two inductors 40, 41, and. a Drive takes place from a secondary winding 42 of a converter 13i de- ■ en Primary winding 44 is connected to an oscillator 45 1st. The AC output the bridge is fed to an AC amplifier 46, the output of which is a rectifier and a phase discriminator circuit 47 is fed, which is also a feed line for phase reference purposes from a second secondary winding 48 of the converter 43 received. Circuit 47 produces a DC output in one Size which corresponds to the imbalance of the bridge, i.e. the displacement of the plate 19 with respect to a reference position in the middle between the stationary plates 20 and 21, and with a polarity which depends on the phase of the bridge output with respect to the bridge input

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depends, ie on the direction of displacement of the middle plate 19 atiB 4er reference position. When the bellows 17 is pumped out, the plate 19 is always held above its reference position, as shown in FIGS. 1 and 4, so that a negative polarity signal always comes from the circuit 47.

The output from the circuit 47 is fed to an inverting Ve ^ - 49 which produces a maximum positive output when it receives no input, ie when the plate 19 is in its reference position and the bridge position is balanced. "The output from the amplifier 49, an NPN transistor 50 is applied to the control electrode, the emission electrode is connected to ground. The collector of transistor 50 is connected via the ^v ic * Vlungen? 2, 5 ⁷ and a resistor 51 in series with a Plusanschlußpol 52. A diode 55 is connected in parallel to the two windings, its anode being connected to the collector of transistor 50. The two windings 31-36 are connected in series to a constant current control 54, namely between terminal 52 and earth The two windings 32, 37 are connected in such a way that, during operation, the current flowing through them increases the flux in one electromagnet core, but decreases it in the other.

In operation, equal and opposite forces are exerted on the lever 11 by the effect of constant currents through the windings 31 and 36 exercised. When the bridge position is balanced, flows in maximum current through windings 32 and 37 »and a maximum downward set force is applied to anchor rings 25 and 26 exercised. As the plate 19 moves upwards, the flow of current increases through the windings 32 »37« Λ »dnd the downward force on the anchor is reduced accordingly. In equilibrium, the plate 19 takes a position such that the current flow in the windings 32, 37 is just enough to exert a Hettckraft on the anchors 25, 26 exert so that the downward force is balanced on the opposite end of the lever 11 through the bellows 17 is exercised. The moments of these two forces on the lever oind

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. equal and opposite. The force exerted by the bellows arises partly from the air or the other medium, or the pressure of which acts on the outside of the bellows, and partly as a result of the elastic deformation. Bellows? ^There is also a linear relationship between the drunk on the bellows and the current that passes through the windings J2,27. The output of the circuit is taken from the terminals 5 ^, 57 at opposite ends of the resistor 51. In an alternative direction of the door direction, the pressure i ™ can apply the rest of the bellows to the inside.

The separation of the anchor rings 25 »26 into separate segments is prevented the emergence of circumferential flow paths in the hangings when these are related should be eccentric on the air gaps.

In the in? Ig. 5 tind. 6 consists of the alternative version shown, each Hing 125 from a plurality of short lengths of soft iron wire laid radially and secured by a suitable binder, e.g. an epoxy resin, connected to each other. That way, the hung gets in at a distance lying zones divided from magnetic material, which are separated both peripherally and axially. That doesn't just make for one Compensation for an eccentricity of the hinge, but also for tilting same.

The In Pig ·. 7 finally know device shown a solenoid 200 that belongs to the a magnetic core 201 substantially in Hufeisenfora ISIT pole pieces 201a _t 201b, wherein spaced-apart parallel surfaces form an air gap and a winding is wound on the core 202nd An anchor 20? is movable in the air gap and is supported by means (not shown) for linear movement in the longitudinal direction of the air gap. The anchor has a large number of square white sheets which are separated by non-magnetic material, 3.B. a synthetic resin. Flow paths along the length of the anchor are prevented, and no couple of forces is exerted on the length of the anchor unless it is

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is exactly parallel to the pole faces.

Correspondingly, the armature 203 can be formed from pieces of solid iron wire which extend at right angles to the pole faces and are interconnected. That prevents the exercise of a significant I force pairs on the anchor, if it is at a small angle is rotated on its longitudinal axis.

It should be noted that it is not the object of the invention to prevent generation of eddy currents, which is the usual reason why iron cores of electromagnetic devices are stratified. Bar: material that separates the maf-neti parts can be electrically conductive and this does not prevent the desired results from being achieved.

Expectations

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Claims (7)

2339658 talks 1. Device for exercising electromagnetic force with an electromagnet, which has a high in which an air gap is formed between two spaced parallel surfaces, with an armature mounted for movement in the air gap in a direction parallel to «ΐ« η surfaces is characterized by the fact that !? The anchor is formed by a multitude of separate pieces, which are not connected to the table
are stored at a distance, the rooms zviscben the separate
ken extend ouer to the parallel surfaces. 2. Door direction according to claim 1, characterized in that the air gap is annular and the armature is formed by a number of separate segments which are attached to a carrier made of non-magnetic material
are arranged. 3. Door direction according to claim 2, characterized in that the carrier is formed from brass. 4. Torriohtung according to claim 3 »characterized in that the armature / carrier combination is made in that a ring of magnetic material is adhesively connected to the carrier and then radial slots are cut into the carrier and the ring, such that the
Ring · is divided into segments. 5. Gate direction according to claim 1, characterized in that the air gap is annular and the armature is formed from a beam of separate fibers of magnetic material which extend radially
and connected to one another by a suitable binding material. 6. Door direction according to claim 1, characterized in that the air gap is straight and the anchor is formed from a number of layers, the planes of which are at right angles to the length of the air gap lie. 7. gate direction according to claim 1, characterized in that the air-27 334 K * / ** 409808/0898 -2- BATH 2339658 is straight-sided and the anchor is formed on a multitude of fibers, di "* -ic ^ i ^ n reckon Vinkei κιι extend the plac ^ en of the yoke and through a gei-ifneter: Bindomate ^ ia ' ¹ Pit-'i are connected. 0 9808/0898 BAD ORIGINAL Blank page