DE1439088C - Control device for the magnetic flux in a controllable magnet arrangement - Google Patents

Description

1 2

The invention relates to a control device for specifically as a drop flap relay, the excitation earth Magnetic flux in a controllable magnetic magnetic circuit has a narrow point, which at higher arrangement that has a permanent main magnet response currents in the magnetic saturation higher Coercive force and two areas lying parallel to it falls and a corresponding characteristic magnetic circuit made of ferromagnetic material on-5 kink results in order for a certain setting, at least the main magnet in this area to achieve greater sensitivity Hold circles together and in one of the circles. A well-known magnetic pawl legs Auxiliary winding is arranged. Purpose of such is composed of two parallel magnetic controllable 'magnet arrangements is the practical circles between which a permanent magnet can be applied for adjustable magnets, for example io is arranged, with two separate exciter magnetic disks here as well or chuck to hold windings optionally to displace the magnet; Work pieces. This also includes devices for flux and thus to switch off the magnetic lead to magnetic handling and remote control pawl. Magnetvon are also known Locks or magnetic driver devices with an adjustable variable Devices, for example for motors, at 15 bias, with the excitation winding a Safety devices for brakes, relays, play- crystalline material with high coercive force adjustable tools, etc. controls, in conjunction with permanent

Devices are already known in which sintered magnets, which are arranged to be displaceable, the path of a-magnetic flux optionally free- Furthermore, facilities are controllable given or blocked, this magnetic 20 magnetic circuit known where the magnetic Flux from a permanent magnet creates a short circuit winding that is coupled to the yoke which is part of a magnetic yoke. the magnetic switching process by excitation., ·., It is also known to delay a short-circuit current in such a ma. Relay, preferred < I gnetic flux circuit moving core parts or also voltage relays with pre-polarized armature, To arrange movable permanent magnets, the 25 can be known to the setpoint of a vorgeden Change the path of the magnetic flux to the mean rest position according to the assigned measured variable. It is also known to set windings individually so that both switching positions of the NEN core parts to be attached and these by a relay of a deviation in the measured variable according to the conduct an excitation current to magnetize or correspond to one or the other side. A well-known one permanent magnets to demagnetize by 30 holding magnet system with electrically switchable the number of ampere turns dependent control processes holding force is inserted in a soft iron pot and trigger. It is also known to have two windings with a shunt gap between the pole of the on the same core part or on two permanent magnets and the bottom of the soft iron symmetrical To attach core parts in order to switch off through pots when an excitation current is applied Excitation current to saturate the core material. In 35 bar. Magnet arrangements for holding the work in place If a permanent trap is used, the magnetic flux will be displaced or by a working core part of the holding magnets concerned with the help of counter-excitation Device sent, while if the polarity is reversed, an electric current is clearly switched off; excitation of the magnetic flux in a closed one, so that no "sticking" of the material takes place, NEN short circuit initiated and one to the outside 40 There are also holding magnets known whose armature towards non-magnetic device is shown. against a return spring from a magnetic

A device with a controllable magnetic circuit is part of the known devices of this type, and as an alternating current interrupter, an additional excitation and two mutually symmetrical excitation by the alternating ( | saturation windings to be interrupted, with connected iron current itself takes place so that the interruption circuit is arranged at least one further magnetization process at the specified time of the alternating winding. Another known pre-current period sets in. Finally, also report works as a relay with a continuously known toggle relay with a three-legged magnetic magnetic flux The task of turning the magnetic circuit from the electrical current can be reversed by any core.Alternating between two of the two limbs, there is also an electromagnetic exciter close, which is located in the common middle limb of the system arrangement for the watch ichen or drop flaps, a permanent magnet is formed. In the remotely controlled by AC excitation this case, there are two excitation windings provided, and a movable magnetic armature ER- The known magnetic devices have 'but dependent excitation various control layers occupy 55 all have the disadvantage that for the Umkann. In the case of a known magnetic friction control from one state to the other, a magnetizable core in connection with neither mechanically moving parts is required, with one or more permanent magnets for which a corresponding effort, or generation of two magnetic circuits is required an electrical current cine magnetic braking force can be generated for one of two prescribed and depending on the size of an exciter 60 different controllable states. If excitation current needs that must remain switched on, polarized electromagnetic ones are also known to be able to fulfill its function, be it the control devices with a three-legged core, with magnetization of a core part or the saturation of the two air gaps with mechanically changeable material, which is known to be special high and permanently magnetized core parts must be bridged with 65 ampere turns. A well-known polarized magnet to avoid these difficulties and after-system has an armature on which parts in the idle state, the present invention has the task of an adjustable holding force acting, and serves as a basis for a control device for magnetic flux in

3 4

to create a controllable magnet arrangement which forms a permanent magnet 1 in the known

two clearly distinguishable operational geometrical arrangements of a double yoke according to

Positions ¹ can take without having to Fig. 1 the middle leg with the drawn

mechanically movable core parts or permanent magnetic poles S and N.

magnets required. In addition, this rule should 5 on the part of the permanent magnet 1 two similar

device the respectively occupied operating legs with the poles 2, 2 'and 4, 4' on, then

can maintain position even if the effect is this as pole pieces, and one has parallel

Excitation current switched off and no electrical to the permanent magnet 1 two completely equivalent

More power is applied, i.e. in the sense of an »air gap« in which the same number of ma-

real storage. io magnetic lines of force between poles 2 and 4

In order to solve this problem, the problem at hand is present as between poles 2 'and 4'. Invention of the well-known basic shape of a magnetic As soon as one now has a core leg 3 of the two magnetic double yokes, the middle branch of which approaches poles 2 and 4, this is attracted, the lower magnetic circuit is closed by a permanent main magnet and almost the coercive force is formed while one of 15 total magnetic fluxes through the two parallel magnetic circles. The consequence of this is that it is equipped with an auxiliary winding. In addition, the magnetic field between the two can surprisingly collapse with this arrangement with other poles 2 'and 4', a sufficiently high short-term excitation now approaching these two poles core limb 3 'pulse can achieve a clear reversal and no longer attracted can be, but only with two distinguishable control positions then after close contact, if a second mastromlos maintained, if according to the gnetiscfyer circle 2 ', 3', 4 'is closed, again invention the ferromagnetic material of both can absorb part of the power flow. This magnetic circuit has a coercive force which is greater, however, only if all the core legs mentioned are made of soft iron than those of steel, but less than those of permanent iron. If, on the other hand, one takes permanent main magnets, and that in the auxiliary magnetic circuit carrying a ferromagnetic material in the sense of the development for a short time or finding, then already after application of the pulse-like auxiliary magnetic potential excitable core leg 3 results in a premagnetization, which is the first, its size In comparison to that for the leg 3 'applied later, the magnetization or demagnetization of the main ₃₀ can no longer be canceled. From this effect, the present magnet required potential lower and invention is based. The leg 3 receives an exciter whose direction can be selected so that two vonein- winding 5, which is fed with a powerful current pulse in different stable magnetization states of such a number of ampere-turns that the one in one magnetic circuit as well as in the other, with leg 3 as an electromagnet approximately The permanent magnet 1 is equivalent to a magnetic circuit provided with a working air gap according to 35. With this preference, which can be set depending on the current direction, the working air gap in two different magnetization processes changes a state practically none and in to illustrate this clearly if one first leaves out the other state, approximately the double magne-core leg 3 ':

Table has a force of attraction compared to a ₄₀ Either the core leg 3 is polarized with the same otherwise similar, but with magnetic circuits of field strength and the same name as the magnet arrangement equipped with soft iron. This permanent magnet 1, then both want to face each other, is thus achieved by repelling instead of permanent. However, if one forces the arrangement of permanent auxiliary magnets or slightly magnetizing legs 1, 2, 3, 4 in the sense of FIG. 1, then baren core parts made of soft iron on certain ₄₅ are now two equally strong magnets parallel ge-points of the magnetic double yoke one material switches. As a result, the two uses that have a relatively high poles 2 'and 4' are now twice as much magnetic force-magnetic remanence, that is, neither form lines like the permanent magnet 1 is originally soft nor permanently magnetic. Hch generated at both pole pairs 2, 4 and 2 ', 4'

Had simple experiments with a permanent measure. One has a field strength four times as high in the middle branch of the known geometric between the two poles 2 'and 4', as there the original basic form of a double yoke results very initially, even without the core leg 3, clearly showing the mode of operation according to the invention and was. Thus, the control device now acts as the basic principle of the proposed one strong magnet with the poles 2 'and 4'.
Control device, which is described below ₅₅ Or the same excitation current is passed through winding 5 in the opposite direction, see above

In the drawing is the known yoke shape, the fact that the core leg 3 is now magnetized in opposite directions,

Equipment according to the invention with a ferro- attracted by the poles 2 and 4 and with the same

magnetic material relatively high coer- magnetic field strength as the permanent magnet

Zitivkraft as well as the magneti 60 which can be achieved in this way aligns with this one completely closed

in connection with a practical magnetic circuit. As a result, in

exemplary embodiment of the invention shown. It shows this case, no ^one magnetic lines of force more

Fig. 1 shows the geometrically known basic shape of a detour via the large air gap between the

Double yoke with excitation winding and both poles 2 'and. 4 'take. The magnet

Fig. 2 is a diagram for the magnetization of the 65 arrangement is in this state to the outside

both magnetic legs as well as neutral. This known magnetic control

Fig; 3 the associated embodiment can come into effect when using the invention

schematic representation. with a comparatively high coercive force

Claims (2)

5 6 equipped material axes in a very corresponding way, but each time the same distance between the curve points 7 and T and the two sizing impulse in the excitation winding 5 reaches the curve points 9 and 9 ', which of those are, with now also that Material of the poles 3 corresponds to magnetization, which emanates from the permanent and 4 and the core leg 3 a corresponding 5 main magnet 11 and according to the invention has magnetic remanence that is retained in the current without electrical such a high coercive force of the material. Of course, the permanent magnet 11 should be selected so that it has a sufficiently higher coercive force of the permanent magnet 1, which is introduced alternately, so that it can practically not be influenced by the switching,
processes not or practically not demagnetized io The in F i g. 3 illustrated embodiment can be. This means that the permanent magnet 1 in the control device according to the invention is usually stronger than the remanent magnet- full compensation of the force line flux generated by the permanent magnet 11 in the parts magnetized according to the invention in one switch, however, these have a considerably larger position designed for this that one of the two lengths of the series-connected magnetic magnet 15 magnetic circuits made of a material of larger Koerterials. Even the geometrically known arrangement zitivkraft exists as the other, whereas the other according to FIG. 1 thus acts as a circuit according to the invention has a greater magnetic permeability, control device if one imagines the core and that the auxiliary magnetic flux in the circle leg 3 'as a piece of soft iron which is excited by the integrally curved core 12, 13, In any case, in a switching state, it forms with a stronger force 20 14, which is attracted by the greater coercive force than by the permanent measurement. This dimensioning has the advantage that a mulled 1 alone, during its magnetically long flux path from pole 7 to the pulling force in the other case practically extinguished, pole 7 'for the magnetization and thus a lost (\ a soft iron core piece 3' of the two equally high remanence is available, poles 2 'and 4' is not attracted, and also 25 if the excitation winding 15 is applied to over the pole 7 and 7 'called this yoke 3' over the air gap In this case applied between the two poles 2 'and 4', a small part of the actual magnetic flux can only be partially absorbed by the yoke 3 'and only then with the pole pieces 13' and 13 "if the magnetic field strength of the permanent magnet 1 can be used to increase the magnetic field strength of the permanent magnet 1. In addition, for the remanent magnet parts 2, 3 and 4, practical reasons d he permanent magnet 11 in or vice versa. Distance from the air gap 16 are arranged and F i g. 2 shows specifically for the practical implementation - this with its neutral central zone as opposed to the example of the magnetic control according to the invention. The control arrangement according to FIG. 3 is thus the device according to FIG. 3 the course of the magneti- 35 the optimal training with regard to the geometric sizing in a diagram. From the dimensions denoted by 0, including the air gap 16, to the area drawn in at the intersection of the abscissa F i g. 1 basic arrangement shown,
and coordinate two extend to each other The material, the dimensions and the magnetisymmetric hysteresis curves. These denote in sierungsimpuls are in the embodiment F i g. 2 not the magnetization of the material, but 40 according to FIG. 3 dimensioned so that after madern that of the two poles 7 and 7 'after energizing the air gap 16 is free of lines of force following magnetization by a current pulse of the exciter winding 15 for an unlimited time when the current is switched off. The arrangement is thus neutral, and point 7, measured on the ordinate, the magnetic workpiece 6 from the air gap 16 represents neither an- * - \ table remanence of the material. The pole 7 was drawn 45 nor held. However, as soon as the opposite \ J , starting from point 9, is initiated via point 6 on the pulse, the air gap 16 works magnetized with the beginning of the saturation line 10. After the pole pieces 13 'and 13 "made of a material with the highest possible magnetic permeability generated by the winding 15 being switched off as a magnetic field, the induction of the pole 7 is from the strong permanent magnet, which transfers its magnetic force from point 6 to point 7 in FIG 2. Back. With a 50 stored powerlessly. One can therefore save the opposite magnetization in the known inventively two clearly distinguishable measures of point 8, and after switching off again the gnetisierungsbedingungen currentless and without damaging the electromagnetic field moves the application of mechanically movable parts , production back from point 8 to point 9. In none of the numerous constructions depending on the polarity of the magnetization 55 of the previously known type was possible.
impulses is the pole 7 in each case alternately
Points 7 and 9 in Fig. 2. Claims: Correspondingly, in the case of the mentioned measures 1. Control device for the magnetic flux in gnetisierungsvorgänge the pole 7 'from point T in a controllable magnet arrangement, which one F i g. 2 magnetized via point 8 'and reaches 60 permanent main magnets of high coercivity after switching off the field point 9 'as well as force and two parallel magnetic with opposite magnetization initially has the circles made of ferromagnetic material, Point 10 'and then again point 7'. At least the main magnet belongs to these two so in each case the Punktpaarc7 and T or 9 and 9 'circles together and one in one of the circles to the same operating status. Since Fig. 2 does not have the auxiliary winding arranged, this The usual Hyslercsiskurvc of a material condition, indicates that the ferromagnetic but the actual magnetization of the two materials of both magnetic circuits is a coercive I ¹ C) Ic, there is no symmetry to the force that is greater than that of steel, however lower than that of the permanent main magnet, and that in the magnetic circuit (2, 3, 4 or 12, 13, 14) carrying the auxiliary winding, a magnetic auxiliary potential can be excited briefly or in pulses, the size of which is in comparison to that for the magnetization or demagnetization of the Main magnet required lower potential and whose direction can be selected so that two different stable magnetization states in one magnetic circuit (2, 3, 4 or 12, 13, 14) as well as in the other magnetic circuit provided with a working air gap (2 ', 3' , 4 'or 7, 13', 13 ", T) can be set at will, which differ from each other, that the working air gap is practically none in one state and approximately in the other state has twice the magnetic force of attraction compared to an otherwise similar, but magnet arrangement equipped with magnetic circuits made of soft iron. 2. Control device according to claim 1, characterized in that one of the two magnetic circuits consists of a material with a greater coercive force than the other, whereas the other Circle has a greater magnetic permeability, and that the auxiliary magnetic flux in the Circle is excited (12, 13, 14), which has the greater coercive force. 1 sheet of drawings 309 634 420