DE1439494A1 - Magnetic force transmitter, especially with a permanent magnet - Google Patents

Description

OD
CT>

TBP 1537 October 7, 1964 Sohutzapparato-Goaollschaft Pari »+ Co mbH KQ, Schalksmühlc

Magnetlecher force transmitter, especially with a permanent magnet

The present invention relates to a new arrangement, in particular with a permanent magnet, which is advantageous instead of the mechanical Energy storage springs can occur, z. B. those that are general are used in electrical switches that are operated by sensitive electrical relays and a very weak and inadequate one Develop mechanical force in order to directly control their switch locks unlatch.

In general, relays work which are excited by very weak currents which, however, have to fulfill functions that require a fairly large mechanical force, e.g. the closing of contacts, monitor the strong currents, with the help of a force storage spring. The well-known disadvantage of these mechanisms is that their mechanical * time constant is greater (s · B * and in Sehaltern for Nominal currents ven 30 to 60 amps. In the order of magnitude ven 5 to 10/1000 sec.) Therefore, there is a need to have highly sensitive relays work directly on the Sehalter's shooting and let them work se train that they have a relatively high mechanical force develop, e.g. in switches with a nominal current of 30 up to 60 amps exceeds about 60 grams to protect people against electric saws, and where one tries to see the time between the occurrence of the fault current or the fault voltage and the disconnection of the damaged power supply to a minimum, very undesirable in addition is the mechanics of the highly sensitive power stores, see B · der, die ven forces of the order of 1 to 4 grams are applied, relatively complicated, so that the risk of their cancellation is increased.

The disadvantages mentioned are alleviated according to the invention by a new arrangement eliminated with a magnet, in particular permanent magnet, which has a relatively high mechanical force, e.g. in the order of magnitude of 100 grams due to a very weak control force (e.g. less than 1 gram) releases in a millisecond time. The invention is based on a known magnetic force transmitter, in particular with a permanent magnet, see e.g. triggers for automatic switches, such as Fenler

BAD OR'G! NA '.

H3949A

stromsehut! switch, whose main armature, loaded by a spring, is held in its tear-off position by the magnet, and whose auxiliary armature when a control force acts, i. B. a control current ··, a magnetic shunt sum Ha .ptanker sleeps and causes the latter to drop and to release the potential energy and to operate, which, however, due to its structure, the position of its armature and the course of the magnetic fluxes does not achieve the set goal IaBt. According to the invention, the difficulties are overcome in that the magnet, in particular the permanent magnet, forms a U- or C-shaped magnetic circuit with its two attached pole shoes, and that the main armature loaded by the spring and the two follower shoes are movable inside the magnetic circuit The auxiliary armature, which is held at a predetermined distance from the pole pieces and is movable and actuated by the control force, is approachable to the two pole pieces from the outside * Operating rod, and one end of the operating rod is used directly or indirectly when adjusting the main anchor in its working or * starting position as a lifting member for the auxiliary anchor. In one embodiment, the magnet consists of a permanent bar magnet with attached Ptlshoes, which together form the C-profile, in the interior of which the main armature is arranged on the actuating rod, which penetrates the neutral zone (center) of the bar magnet, and between the bottom surface of the bar magnet or the load spring is arranged on its support plate and an adjusting screw arranged on the actuating rod, and the controllable auxiliary armature, which is held at a distance from the outside against the pole pieces of the rod magnets, is guided on guides. In another embodiment, the permanent magnet has the shape of a flat, radially magnetized ring, is held in place from the foot end by means of non-magnetic wedges separated by segments that form pole pieces and a cylindrical hollow body, the oanse is held together by a band, and the hollow body is the durci Spring-loaded main armature arranged on the actuating rod "and outside the hollow body opposite the pole pieces of the auxiliary armature" According to a special embodiment of the invention, the auxiliary arm consists of two elastic, ferromagnetic lamellae lying in a magnetic shunt to the main armature, which are arranged one above the other under load of a gap, and the lamellas are preferably embedded in a control coil using an evacuated or inert Qae-filled oil tube. In this embodiment, the actuating

U39494

transmission rod opposite the main anchor on the outside of the permanent magnet a course key for «in short term course closings of the Permanent magnets bti the movement of the operating rod in order to switch on again dee power transmitter · arranged. Since hemetieeh completed The tube containing the movable armature can be made according to the type of Contact tubes can be built based on the Reed system, using technology de · Fernsvreehweaen · well known let the distance between the contacts is in the cross order of 0.2 to 0.3 mm, and its response time is approximately 1 ms. Due to the more detailed design, a • Very sensitive arrangement created, which is neither a difficult one Assembly still requires regulation.

Since · construction and work principles of the facilities according to the invention are shown schematically in FIGS. 1 to 9. (j

The permanent magnet AP, which according to the embodiment of FIG and 3 is in the form of a flat bar magnet is S-N at each pole end extended by pole piece 1, 2 made of soft iron or better made of ferrite, whose thickness is approximately the same as that of the permanent magnet AP; the oanse results in a C-profile or U-profile, within which the movable anchor is located.

In another AuefUhrungsboispiel, which is in the figure & and geseigt 9, the magnetic AP has the form of a ring which is magnetized in the radial direction and is in a sylindrischon magnetic Qeftfi, commonly in a vertical section with said Magnoten the the same C-profile shown in Fig. 2 result. The holder always consists of halves A and B together, which are held in place by a strap 23 in suspension, so that the apparatus can be attached to any base on the same side. The two in question are primarily made of ferrite The halves are separated by two non-magnetic wedges 24. In each of these two halves A and B a bracket 29 or 30 is inserted, which with the help of the cover plate 31 and the bracket 26 that guides the rod 21 of the auxiliary anchors 3, the

Take over the fastening of the magnet AP.

In the immorom of the Magnot body created in this way, during normal work - «or main anchor 4 against the two pole ends la, 2a (Figures 3» β)! so "· *, the feet odor oim wonig movably connected to the rod 7 let, \ penetrating ihrereeits Magmeten the AP and in the direction of the arrow (Figure 3) g 'g * n the Ansugskraft of said magnet medium AP · the

BATH ORIGINAL

" ⁴ " U39A94

Helical spring 6, which is the same as the regulating screw tf and the magnet AP or its closing disk 31 (Fig. 8) is tensioned, amounts to will.

The two pole faces opposite the two surfaces la, 2a Ib, 2b, the help anchor 3 is approached to a distance that ι. B. is moved by relay 20 (Fig · 2) · The two in question Standing anchors 3 and 4 can be used in the example shown in Fig.

2 and 3 through the guide rods 5-5 (Fig. 2), which with the pole pieces 1 and 2 feet are connected · In the example embodiment according to FIGS and the disk 28, which is held by the two halves A and B of the already mentioned pole pieces. A very weak feather 25 presses said armature 3 against the sum setting of the gap d £ serving regulating screw 27

The magnetic circuit of pole pieces 1 and 2, as well as that of the armature

3 and 4, are dimensioned in such a way that eie do not reach the point of saturation during normal work, ie when the main anchor is sucked in or a very small distance dl (Fig. 2) Ton the ^{1 pole surfaces la, Ib.} By setting the gap dl between the armature 4 and the surfaces la, Ib of the pole pieces (in the sehlieslage) av / about 30 microns and by constructing a gap between the auxiliary armature 3 and the pole faces Ib, 2b on the one hand to a maximum of 500 microns and a sum FIuA 12 parallel flufies II (Fig. 1) to a size of 1600 max. to obtain a suction force Ρχ on the armature 3 of 100 grams on the other hand, one can use the diagram according to the drawing to obtain the suction force · Pi and ? Z $ that act on armature 3 and 4 when the coil ·· dg changes from 500 to 30 microns, calculate or tap.

It can be seen from this that with this arrangement the suction force Pa * which sinks on the auxiliary armature 3 »which van the pole faces Ib, 2! JQO microns removed, acts, in the ratio of the force Pi - 100 ora, insignificant iet (in the order of magnitude 0.4 Gr & a »), and the zone of reduction of the column df is 2QE and 30 microns (I to II hatched ^ the distribution of the parallel flows Ii, I2, which the suction force Pi, determined on dta anchor? 4, is changed perceptibly, and that the force in our example drops from 100 to 32 grams at the moment in which the auxiliary anchor 3 is sucked in becomes (d2 - 30 microns). Consequently, it is not necessary to make the gap d2 with the usual

BATH

H3949A

Precision set up of sensitive relays to prevent armature loosening 4 call out, whose return spring 6 s.B. can be dimensioned so that their force P'l is 60 to 70 Jt of Pl. At the moment when P »l * Pl, the armature 4 by the spring 6 from the pole surfaces la, Ib torn off and goes through the small, necessary path d3 (Fig. 2, approximately 1.5 to 3 mm) in order to achieve the desired mechanical opeqfrion su E.g. the unlocking of a quick and easy lock. on the other hand, the end of the way of the armature 4 causes the strong leakage flux, the from the permanent magnet AP originates from a susätsliche suction force, See the addition of spring 6 (Fig. 3) · So one also adds towards the end of the travel of the trigger 19 a relatively increased meohanisehe force iu.

If the desired mechanical operation is similar to the above-described device once done 1st (Fig. 3) use one di stollen, be it e.g. with a push button, be it automatically o in the closing element, which by the force of the Stteksugsfcdera the movable Kentakte dos switch is operated, which in the sense of dos Pfei-1 ·· Fl acts on dom Aneehlag 19, (not shown)

Thus, the main anchor 4 is sucked in again by the pole pieces 2a, la remains, it is also necessary to put the auxiliary anchor 3 in its auxiliary position surfing. (In our example on a distance of 300 to 500 microns) · Biosos Siel is, always according to the invention, by the Arrangement of a small play d2 (Fig. 4) of the anchor 4 * on the rod 7 reached, on which he saw “wipe two stops 10 and 11 move | can, (Fig. 4) which are firmly connected to the rod 7.

FIGS. 5a, 5b, 5c show schematically the various phases for restarting the arrangement. In the normal position (Fig. 5a working position), in which the rod 7 is pressed by the spring 6 in the direction of the arrow F2, against the suction force Pi (Fig. 1), see the stop 10 against the anchor 4 · Kaoh Fig 5b, the adjacent auxiliary anchor 3 causes the main anchor 4 to be released, and the rod 7 ^ completes the desired mechanical actions through its trigger 19, e.g. unlocking the lock of a switch. As a result, the Büoksugsfedern the movable contacts dos switch £ J move the trigger 19 in the direction of the arrow Fi in ^OT, the position shown in Fig. 5o by some arrangement. The stop U takes the armature 4 o with it, while the end 10 of the rod 7, towards the end of its path, guides the aid armature 3 back to the distance d2 - d * 2 (Fig. 4) * As soon as the off · *

BATH ORIGINAL

Solder 19 separated from the switch-on arrangement, *. B. when closing The switch is located again in the in Fig. 5a reproduced position

How to z. B. found on the diagram, it is possible to use the one described Arrangement by very weak forces, which move noticeably less than a gram aind, au, pre-checked that the anchor 3 (detten Thickness according to the example below is about 0.35 mm) mechanically balanced (ε. B. by a counterweight) to mechanical shocks su resist · Apart from the fact that the response to the new arrangement is very course (in the size of 1 mt), this success can su acceptable ring tone medium storage springs cannot be reached

You see Figures 6 and 7 oino further development of the described magnetic arrangement gomäl the invention with a novel polar! animal tone relay with open armature, deeeen air gap smaller old 150 Micron tein can

According to the AutfUhrungtbeltspiel according to the invention, the auxiliary tanker is formed by two magnetic leaf springs 14 »15 arranged one above the other, which form a gap dg of 150 bit 200 microns, and which can be arranged in a smooth vessel 13 in the manner of Kontakton according to Rood. Bio ends of the two springs 14 »15», which are attached to the tube 13, are attached to the magnetic pole pieces l'a, 2 »a (analogous to parts Ib, 2b according to FIG. 3) and are magnetically shunted to the main armature 4 · Bio both leaf springs 14 »15 and the magnetic circuit l ^f a, 4» 2 * a are traversed by the flux that comes from the permanent magnet AF.

Bat glass tube 13 itt inserted into the Srrogortpulo η, which from the stream, which produces the desired mechanical effect with the aid of the magnetic arrangement described, is traversed »i. B. from a « Residual current of a lifforensial switch. In normal operation, the Coil η not energized · Boron FIuA fttr the suction that flows through the armature 4 and the polar station tfIuA 15 »d2, 14 are distributed similarly to that Diagram according to FIG. 1. As soon as the coil η is excited, the magnetic FIuA of this coil η sum adds up to the branch 14 »d2» 15 flowing through weak foliar tation flow, but counteracts the parallel flow flowing through the main anchor 4. This results in a look of the magnetic springs 14, 15 and a strong reduction in the vague resistance, which is referred to as the branch 14, d2, 15 and a1 * sequence

also alna reduction of the suction force acting on the main anchor 4 (old i ² ), which is consequently loegerieeen by the fader 6, which at the same moment by the sucked in main anchor 4 locks the magnate IP. When τοη alternating current is supplied to the coil η, the swelte half-wool of the last automatic causes the lamellas 14 to 15 to loosen (with the gate being opened to ensure that the flux of the magnet AP through the main anchor 4, which is in its position 4 *, enough cattle 1st.)

Among other things, the general arrangement ait its relay in the Auegangelage surttek su, one has to remove the main armature · 4 from «a position · 4 'in the course of the course, otherwise the resilient lamellas 14, 15 would otherwise be replaced by the flul the said magnates are sucked in. Among other things, the aim swaitar auxiliary anchor 17 ″ is seen, which is located in the moral position on the permanent magnet (air gap ά ± Fig. 7) TST. His task is as, for the AP magnate at the moment of the anchorage of the main anchor 4, as is the case with the wing. 7 follows, close the course. While the rod 7 and the main anchor 4 move freely with the stops 10 and 11, the secondary auxiliary anchor 17 is secured by a weak spiral spring 18, which is attached to the bracket 16, which is on the same side for the adjustment of the fader 6 old of its regulating screw 8 and serves to guide the rod 7, pressed against the stop 22. While the arrangement is switched on again (the main anchor is located in the rest position 4), the stop 11 runs through a free path, when it attacks aa main anchor 4, after the auxiliary anchor 17, which is pressed by the fader 16, the magnet AP (τοη because the anchor 4 opposite string) has closed course. As a result, the AP magnet is on course during a very fast tent due to the two anchors 4 and 17, which calls for the two magnetic springs 14 and 15 to be completely separated. When the restart is complete, the rod 7 old takes the armature 4 old with the help of its stop 11 and guides it against the pole pieces 1 * a and 2 * a Normal position.

π la is amea aiglleh, a known to »I ·· relay old open anchor see below

Si BIa name arrangement is very simple and particularly advantageous for

ο alna Fllelaendfabrikatieji suitable. Irkannen can also be found in

^{There is} no event that the permanent magnet would be demagnetized, triggering

4 ·· container · took place when it was possible to · remove it again

•"keep.

OFUGlNAL

Claims (6)

It goes without saying that the permanent magnet can also be replaced by an electromagnet which is excited by an auxiliary power source. 1) Magnetic force transmitter, especially with a peranenta magnet, z. B. triggers for circuit breakers, such as residual current circuit breakers, whose main armature loaded by a spring from the magnet in e a tear-off position is held, and its help anchor when acting a control force, ζ. B. a control current closes a magnetic shunt aum main armature and the latter to fall off and to deliver the potential energy and to actuate, characterized in that the magnet, in particular the permanent magnet (AP) with its two attached pole shoes forms a cross-sectionally U- or C-shaped magnetic circuit that inside the Magnetic curvature of the main armature (4) loaded by the spring (6) is movable and the two pole pieces can be approached and the two pole pieces from the outside at a predetermined distance from the pole pieces HUf sanker (3), which is held and movable and actuated by the control force. 2) Magnetissher force transmitter according to claim 1, characterized in that that the main anchor (4) on one the actuation, for. B. a switch rolling operating rod (7) between at a distance arranged Ansehlägen (10, 11), and that one end of the Bofestigungsstab (7) directly or indirectly when adjusting the main anchor (4) in its working or starting position as a lifting member serves for the auxiliary anchor (3). 3) Magnetic force transmitter according to claims 1 and 2, characterized in that the magnet (AP) consists of a permanent bar magnet with attached pole pieces, which together form the C-prefil, ο inside the main anchor (4) on the operating rod (7) f _D is arranged, which penetrates the neutral zone of the bar magnet (AP) ; ° that penetrates between the bottom surface of the bar magnet or its -. Support plate and one arranged on the actuating rod (7) κ) adjusting screw (8) de loading spring (6) is arranged, and '§. that the controllable auxiliary armature (3), which is kept at a distance from the outside against the pole shoes of the bar magnet, is guided on guides (5). BAD ORJSU - 'Ai " ⁹ " H3949A 4) Magnetic force transducer according to claim 1 and 2, characterized in that because the permanent magnet (AP) di · Fora «in ·· flat radial magnetized ring ·· «Tom Fußend · sweior by means of non-magnetic Wedges (24) separated Segaiente (AB), the pole shoes and one form a cylindrical hollow body, is held by the Qanse a band is held together, and that in the hollow body by the Spring (6) loaded main anchor (4) is arranged on the actuating rod (7) and outside the hollow body opposite the PoI-soles the help anchor (3) 5) Magnetic force transmitter according to claims 1 to 4 »characterized in that that the auxiliary anchor (3) consists of two in a magnetic shunt On the main anchor (4) lying elastic, ferromagnetic see lamella »($ 14, $ 1) is made under load of a gap (d2) are arranged one above the other, and that the lamellae (14, 15) The filed glass tube (13) is embedded in a control coil, preferably using an evacuated wire with inert are· 6) Magnetic force transmitter according to claim 5, characterized in that dai on the actuating rod (7) opposite the main armature (4) on the outside of the permanent magnet (AF) a course link armature (17) for a brief »short-circuiting of the permanent magnet (AF) when moving the operating rod (7) «to switch on again of the force transducer is arranged * 009822/0296