EP1805844B1 - Electrical switching device comprising magnetic adjusting elements - Google Patents

Description

The invention relates to an electrical switching device with magnetic adjusting elements.

One in the DE 101 03 814 A1 described prior art switching device is used in particular to turn off a power line for a high-frequency attenuator via different damping elements. For this purpose, it has an elongated switching element, which is movable transversely to its longitudinal direction by an adjusting element and is thereby brought with a contact surface at one end selectively out of contact or in contact with a mating contact surface. In the contact position, the conduction of the electrical current at the contact surfaces is dependent inter alia on the contact surface and the mating contact surface. Impurities or particles can significantly affect the power line, especially if the impurities or particles are made of electrically non-conductive material.

Particularly important is a trouble-free power line in attenuator lines, which are used for damping adjustment, e.g. of signal generators or network analyzers. Emissivity lines have e.g. several serially arranged four-pole switching devices on with input and output side equal and constant characteristic impedance and each adjustable calibrated damping.

In other prior art electrical high-frequency switching devices, as z. B. are typically used in high-frequency attenuator lines, the lateral switching movement of a switching element is achieved by means of external mechanical force by plunger, which thrust laterally against the switching element and it move. Due to the lateral pivoting movement, which performs the switching element and the linear thrusting movements of the plunger present on both sides of the switching element resulting in the contact region of the plunger and the switching element sliding, which lead to abrasion due to the resulting friction. In particular, when the switching device has a closed switching space, the risk of a contact failure by the abrasion generated by the friction is particularly large because the abrasion remains in the control room. But even with an open switch room there is a risk that the abrasion reaches between the contact surfaces and affects the electrical contact.

The technical further development is therefore based on attempts to eliminate or at least reduce the risk of damage to the electrical contact due to abrasion in the case of a previously described electrical switching device. In particular, the formation of abrasion in the vicinity of the contact surfaces should be avoided or at least reduced. In addition, a simple and small design is to be created, which can be integrated well and in a simple and cost-effective manner not only in the switching device, but also in or on a switching device receiving protective housing.

The invention is based on the finding that in a switching movement drive of the switching element with magnetic forces it requires no mechanical movement contact between the switching element and the adjusting elements and therefore in magnetic movements generated switching movements of the switching element in this respect neither a sliding friction takes place nor a resulting abrasion is generated.

In the JP 59086305 A an electrical switching device is described with a housing in which Cavity two elongated electrical switching elements are arranged linearly one behind the other, the mutually facing contact ends between two a transverse distance from each other having mating contact elements are arranged. The contact ends are movable by two arranged on the outer circumference of the housing magnet assemblies with an annular coil in an annular coil housing in each case against the associated mating contact elements. The coil housing and the coil therein surround the housing of the switching device.

This embodiment makes it possible to actuate each with a magnet arrangement both axially opposite switching elements. As a result, a four-pole switching device can be achieved in a simple manner, which is particularly suitable for a calibration line.

The invention is based on the object, a switching device according to the from JP 59086305 A removable state of the art in such a way that a high tightening performance of the magnet assemblies is ensured.

This object is solved by the features of claim 1. Advantageous developments of the invention are described in the subclaims.

In the switching device according to the invention, the switching element is at least partially made of magnetic material, and the adjusting elements are formed by two magnet arrangements, of which the magnetic force of one magnet assembly and / or the magnetic force of the other magnet assembly is either selectively reduced or increased, with respect to a cutting the magnet assemblies Transverse plane two switching elements are arranged opposite to each other and with their mutually facing contact ends in each case by a common magnet arrangement transversely against Both sides arranged mating contact elements are movable and wherein the axes of the magnet assemblies are directed transversely to the switching elements.

As a result, the switching device can be switched by reducing or increasing the magnetic force so that the laterally movable switching element is either moved to the arranged on one side mating contact element and held it or moved to the arranged on the other side mating contact element and held. This movement drive is non-contact and smooth, so that abrasion is avoided and therefore avoided a resulting impairment of the electrical contact and a good electrical contact is ensured. In this case, the invention is characterized by a simple and small construction, which can also be produced inexpensively and can be well integrated not only in the switching device itself but also in a protective housing surrounding the switching device.

In the invention, by decreasing or increasing the magnetic force of a side magnet assembly or both magnet assemblies, a magnetic force difference is created between the magnet assemblies that is so large that each magnet assembly having the larger magnetic force drives the switching member toward and against the same side Pull the mating contact element and hold it. The release of the mating contact element can then take place in that the magnetic force of the switching element on the adjacent mating contact element holding magnet assembly is reduced so much that the magnetic force of the opposite magnet assembly outweighs and solves the switching element and pulls to this magnet assembly out and contacted with the located on this page mating contact element or the magnetic force of this opposing magnet arrangement is increased so far that this magnetic force the Releasing switching element and moved to this side and contacted with the located on this side mating contact element.

In the context of the invention, it is not necessary that magnet arrangements with reducible or enlargeable magnetic forces must be present on both sides. In the context of the invention, it is sufficient if on one side of a magnet assembly is present, the magnetic force can be reduced or increased in order to release the switching element from the opposite mating contact element and to pull against the arranged on its side mating contact element or vice versa.

The reduction or increase in the magnetic force can be realized by providing an electromagnet which can be selectively switched on and off or whose magnetic force can be reduced and increased again. However, the desired magnetic force change can also be realized by combining an electromagnet and a permanent magnet in a substantially coaxial arrangement, wherein the permanent magnet can form an extension of the core of the electromagnet or form the core of the electromagnet. This configuration not only leads to a small construction, but it also makes it possible to superimpose by a Gleichpolige or gegenpolige arrangement of the electromagnet and the permanent magnet, the magnetic force of the permanent magnet in the sense of addition or subtraction of the magnetic forces. It is particularly advantageous to form the pole-changing solenoid, so that the magnetic force change can be changed by addition and subtraction of the magnetic forces. If the electromagnet is also designed to be switched off, a threefold change of the respective magnetic force can be achieved.

It is also advantageous to provide a permanent magnet with a magnetic force that is so large that the electromagnet can be switched off immediately after the contact of the switching element with the associated mating contact element and the switching element is held with the magnetic force of the permanent magnet on the mating contact element.

In the context of the invention is basically a switching element that can be moved in any way to the one and the other side. Particularly advantageous is formed by a spring tongue switching element which is laterally deflected against its elasticity based on elasticity restoring forces and automatically returns to a central position in the idle state, from which it can be selectively switched to one or the other side.

In the design cases in which the switching device according to the invention is arranged in a protective housing, the electromagnet can be mounted or installed in a lateral arrangement on the protective housing or by integration in the bottom portion of the protective housing while ensuring simple and small constructions.

Further development features of the invention lead to simple and small structures that can be produced inexpensively and also enable safe operation and contacting.

Fig. 1

eine erfindungsgemäße elektrische Schaltvorrichtung mit zwei SchaltvorrichtungsPaaren in prinzipieller Darstellung, wobei die rechte Figurhälfte mit dem rechten Schaltvorrichtungs-Paar eine abgewandelte Ausgestaltung zeigt;

Fig. 2

eine erfindungsgemäße elektrische Schaltvorrichtung mit zwei SchaltvorrichtungsPaaren in prinzipieller Darstellung in weiter abgewandelten Ausgestaltungen;

Fig. 3

ein Gehäuse mit einer erfindungsgemäßen Schaltvorrichtung mit einem SchaltvorrichtungsPaar in weiter abgewandelter Ausgestaltung;

Fig. 4

ein Gehäuse mit einer erfindungsgemäßen Schaltvorrichtung mit einem SchaltvorrichtungsPaar in weiter abgewandelter Ausgestaltung;

Fig. 5

ein Gehäuse mit einer erfindungsgemäßen Schaltvorrichtung mit einem SchaltvorrichtungsPaar in weiter abgewandelter Ausgestaltung;

Fig. 6

ein Gehäuse mit einer erfindungsgemäßen Schaltvorrichtung in weiter abgewandelter Ausgestaltung.

Below, advantageous embodiments of the invention will be explained in more detail with reference to several embodiments and drawings. Show it:

Fig. 1

an inventive electrical switching device with two SchaltvorrichtungsPaaren in a schematic representation, the right half of the figure with the right Switching device pair shows a modified embodiment;

Fig. 2

an inventive electrical switching device with two SchaltvorrichtungsPaaren in a schematic representation in further modified embodiments;

Fig. 3

a housing with a switching device according to the invention with a SchaltvorrichtungsPaar in a further modified embodiment;

Fig. 4

a housing with a switching device according to the invention with a SchaltvorrichtungsPaar in a further modified embodiment;

Fig. 5

a housing with a switching device according to the invention with a SchaltvorrichtungsPaar in a further modified embodiment;

Fig. 6

a housing with an inventive Switching device in a further modified embodiment.

The designated in their entirety by 1 four switching devices of the two pairs of switching devices each have an electrical line 2 with a switch 3 and with a transverse to the electrical line 2 back and forth movable switching element 4, which serves to open the line 2 or close. The switching element 4 is an elongated element which is permanently connected at its base end 5 to the line 2 and at its other end has a contact end 6, with it after a transverse movement in its contact position on one of two transversely spaced at a distance mating contact elements 7a, 7b is present. An open position may result in the middle position shown, in which the contact end 6 has a lateral distance from the mating contact elements 7a, 7b.

In the embodiment, the switching device 1 is part of a so-called attenuator with parallel switchable attenuator sections 2a, 2b, which can be selectively switched with the switching element 4, wherein at least one attenuator section is attenuated and forms a damping line. In Fig. 1 two switching device pairs are shown, each with two mirror images of each other arranged switches 3, each of which a pair of switching devices forms a four-pin length calibration line longitudinal section. This is formed with two attenuator sections 2a, 2b and two switching elements 4 which are preferably identical to one another and are arranged on both sides of a transverse plane 8 extending transversely to the electrical line 2 and approximately centrally between the countercontact elements 7a, 7b in mirror image to each other, so that their contact ends 6 directed towards each other, which are each arranged between two laterally spaced mating contact elements 7a, 7b and are selectively movable against one or the other mating contact element 7a, 7b. Since the too both sides of the transverse plane 8 mirror image arranged switch 3 of in Fig. 1 left embodiment are essentially the same, only the switching device 1 will be described below, which is arranged with its switch 3 to the left of the transverse plane 8.

The switching element 4 is preferably laterally elastically bendable, wherein its base end 5 is held on a holder 9 which is fixed on a base 11. As a flexible switching element, a spring tongue in the form of a flat strip is particularly well, in Fig. 1 and 2 is shown in side view, so that its narrow side is visible and its two opposite broad sides facing the counter contact element 7a, 7b. The flat strip may also be formed by a thin film whose thickness is less than 1/10 mm and, for example, only a few microns.

To perform a switching operation in which the switching element 4 is laterally moved toward one or the other mating contact element 7a, 7b, on each side of the switching element 4 is a magnet assembly 12a, 12b for laterally moving the contact end 6 toward and against the one or the other mating contact element 7a, 7b provided.

According to the embodiment Fig. 1 on the left, the magnet assembly 12a is formed by an electromagnet whose magnetic force is selectively increased and decreased, or formed by a permanent magnet 13a and an electromagnet 14a with a coil 15, wherein the permanent magnet 13a and the electromagnet 14a are preferably coaxially integrated with each other, and wherein the rod-shaped Permanent magnet 13a forms the core of the electromagnet 14a.

The magnet assembly 12b is in the embodiment according to Fig. 1 each formed only by a permanent magnet 13b.

The magnet arrangements 12a, 12b with all three magnets 13a, 13b, 14a are arranged outside the lateral movement region B of the switching element 4 and directed with their directions of action on the associated broad side of the switching element 4 so that they do not hinder its movement and thereby magnetically on the switching element 4 act of magnetic material.

The permanent agent 13a, 13b may be arranged gleichpolig or unequal pole. In the present embodiment, the permanent magnets 13a, 13b with their north poles N face each other and the switching element 4.

In this case, the permanent magnets 13a, 13b arranged on the switching element 4 facing away from the sides of the Eichleitungsabschnitte 2a, 2b, wherein between each a fixed connection may be present, for. B. by gluing or soldering.

The magnetic force generated by the electromagnet 14a superimposes the magnetic force of the permanent magnet 13a depending on the polarity. When the permanent magnet 13a and the electromagnet 14a are formed to be the same pole, their magnetic forces are added, so that the magnetic force of the permanent magnet 13a and the magnet assembly 12a is a low value when the solenoid 14a is turned off. When switched on, the magnetic forces add up to a high value.

When the electromagnet 14 a and the permanent magnet 13 a are arranged unequal-pole, the magnetic forces in the on state subtract to a low value, the z. B. can go to zero. In the off state of the electromagnet 12a, the magnetic force of the permanent magnet 13a is a low value.

The magnetic forces are designed so that the magnetic force of the permanent magnet 13b and the high value of the Magnetic force of the magnet assembly 12a are each capable of pulling the switching element 4 to itself and bring in contact with the associated mating contact element 7a, 7b and hold. This applies to the high value of the magnetic force of the magnet assembly 12a also in the existing effectiveness of the magnetic force of the permanent magnet 13b and the magnetic force of the permanent magnet 13b and also in the existing effectiveness of the low value of the magnet assembly 12a, which can go to zero depending on the design. A switching from the switching efficiency of the magnet assembly 12a to the switching efficiency of the permanent magnet 13b or vice versa can be done by a pole reversal of the electromagnet 12a causing current pulse.

When the poles N1, S1 of the electromagnet 14a are to be switchable, a pole-switching device 10 shown in a simplified manner is provided.

The embodiment according to Fig. 1 on the right, in the same or comparable parts are provided with the same reference numerals, differs from the embodiment according to Fig. 1 left in that the permanent magnet 13a and a core 16a of the electromagnet 12a and a core 16b of the electromagnet 12b are arranged substantially coaxially one behind the other, wherein the permanent magnet 13a or 13b disposed between the attenuating line section 2a and 2b and the core 16a and 16b is. The core 16a and 16b and the permanent magnet 13a and 13b may be fixedly connected to each other at their sides facing each other, for. B. by gluing or soldering.

Incidentally, the configuration and function of the embodiment according to Fig. 1 right substantially according to the embodiment according to Fig. 1 on the left, so that for reasons of simplification to further descriptions of the embodiment according to Fig. 1 can be waived right.

The embodiments according to Fig. 2 left and Fig. 2 on the right differ from the above-described embodiments only in that the permanent magnet 13b is also associated with an electromagnet 14b, which form the magnet assembly 12b. The magnet arrangements 12a, 12b are preferably the same and arranged in mirror image with respect to the line 2 or also formed, and it also preferably functions according to a mirror image.

In the embodiments according to Fig. 2 can be by switching the high value of the magnetic force of a magnet assembly and the low value of the magnetic force of the other magnet assembly of the magnetic force difference increase, substantially double, which contributes to reliability of the switching device 1, because the switching device 1 can be operated with effective magnetic forces, the resistance of the movement Switching element 4 and the low value of the respective opposite magnetic force significantly lower.

It is also advantageous in each case to provide a permanent magnet 12a or 12b with a magnetic force which is so great that the electromagnet 14a or 14b can be switched off immediately after the contact of the switching element 4 with the associated countercontact element 7a or 7b and the switching element 4 is held with the magnetic force of the permanent magnet 13a and 13b on the mating contact element 7a and 7b.

With respect to the line 2 opposite permanent magnets 13a and 13b can in the embodiment according to Fig. 1 be the same on the left and on the right.

In all embodiments, the switching element 4 is thus magnetically adjusted in the respective contact position and held in this position. It is omitted thus mechanically effective adjustment, which could generate an abrasion due to a pressure and friction contact that could get between the electrical contact surfaces and could affect the electrical contact.

In order to protect the mutually interacting electrical contact surfaces from contamination from the outside, it is advantageous to arrange the switching device 1 at least with respect to the contact surfaces having parts in the shelter 21 of a preferably sealed housing 22.

The embodiments according to Fig. 3 to 6 , in which the same or similar parts are also provided with the same reference numerals, such a housing 22 in a perspective view from above, wherein the shelter 21 through a lid 22a upper side can optionally be opened and closed.

In these constructions, the base 11 is formed by a housing bottom 22b and two opposing side walls 22c, the lid 22a mounted thereon, and two opposed end walls 22d frontally attached and screwed to the housing bottom 22b and the side walls 22c. Preferably, the end walls 22d project beyond the side walls 22c, so that they can also receive the cover 22a between them and also be screwed thereto. In order to improve the sealing of the inside flat-fitting end walls 22d, they are each sealed by a sealing ring 23 made of elastically compressible material such as rubber or plastic, which preferably sits in an annular groove 24 in the contact surface of the end walls 22d and the contact surface slightly surmounted.

In the central region of the end walls 22d, in each case a passage 25 for the electrical line 2, each with a sleeve-shaped cable gland 26, is arranged, which protrudes outwards, and through which the electrical line 2 extends into the shelter 21 and is sealed, eg screwed, is.

In the protective space 21 are preferably in the end regions, the holder 9 for the switching elements 4. The holder 9 may each be formed by a clamping device with jaws, between which the associated switching element 4 is clamped.

In addition, the embodiments according to Fig. 3 to 6 following features. The construction according to Fig. 3 that according to the embodiment Fig. 1 corresponds to the left or right, the solenoid 14 a is mounted laterally on the housing 22 with its coil 15. For this purpose, a housing 31 are used, in which the electromagnet 14 a is arranged and is secured thereto with the associated side of the housing 22, for. B. by a screw connection. The housing 21 is preferably open on the underside and on the top, which not only saves material and weight, but also an automatically effective air cooling is achieved, which works on the principle of natural convection. Such a housing 31 may have a side mounting wall 31a, two side walls 31b and a rear wall 31c, between which the electromagnet 14a is arranged and secured approximately coaxially with the permanent magnet 13a.

The permanent magnets 13a, 13b are preferably recessed in top transverse grooves 22e, wherein the depth of the transverse grooves 22e is smaller than the height of the permanent magnets 13a, 13b, so that they can project from the housing 22 on the top side. In this case, in the bottom of the lid 23 matching transverse grooves 22f are arranged, into which project the protruding portions of the permanent magnets 13a, 13b. The length of the permanent magnets can be adapted to the width of the housing 22 so that their laterally outer ends with the Outer sides of the housing 22 substantially complete, as in Fig. 3 is shown.

According to the embodiment Fig. 4 the solenoid 14a is integrated with its coil 15 in the housing 22, wherein it is located under the switching device 1 and z. B. is arranged and fixed in a housing recess 32, the z. B. down and open at the side.

In this embodiment, lateral and z. B. U-shaped core parts 16 b are provided which connect the cores of the permanent magnets 13 a, 13 b with the designated 16a and 16b core of the electromagnet 14 a, to form up to the area of the switching device 1 a ring-shaped common core.

In the context of the invention, at least one of the permanent magnets 13a, 13b may not be arranged in the housing 22 but in the cover 22a. Such an embodiment shows Fig. 5 in which in the lid 22a an open at least on the underside, z. B. vertical through recess 33 is arranged for the located on this side permanent magnet 13 b, which is shown in the recess 33 suggestively.

Instead of a permanent magnet in the lid 22a and a plurality of permanent magnets may be arranged therein, as it Fig. 6 by way of example, in which two permanent magnets 13b next to the associated switching device 1, 3 are arranged in the lid 22a in associated recesses 33 and positioned therein. In the embodiments according to Fig. 5 and 6 the line sections 2b are arranged on permanent magnet parts 13c, which are in magnetic operative connection with the permanent magnets 13b.

In the context of the invention, a plurality of switching devices 1 in the protective space 21 of the housing 22 in the Longitudinal direction of the line 2 to be arranged one behind the other.

Claims (18)

1. Electrical switching device (1), in particular highfrequency switching device, with an elongate electrical switching element (4) which is disposed with one contact end (6) between two transversely spaced mating contact elements (7a, 7b) and can be moved transversely to its longitudinal direction towards either the one or the other mating contact element (7a, 7b) by two displacement elements disposed on both sides next to the switching element (4),
   wherein the switching element (4) consists at least partly of magnetic material and the displacement elements are formed by two magnet arrangements (12a, 12b),
   wherein the magnetic force of one magnet arrangement (12a) and/or the magnetic force of the other magnet arrangement (12b) can in each case be optionally reduced or increased,
   wherein two switching elements (4) are disposed opposite one another relative to a transverse plane (8) intersecting the magnet arrangements (12a, 12b) and can in each case be moved with their mutually facing contact ends (6) transversely towards mating contact elements (7a, 7b) disposed on both sides by a common magnet arrangement (12a, 12b),
   wherein the magnet arrangement (12a) with the variable magnetic force comprises an electromagnet or a permanent magnet (13a) and an electromagnet (14a) and
   wherein the axes of the magnet arrangements (12a, 12b) are directed transversely to the switching elements (4),
2. Switching device according to Claim 1,
   characterised in
   that the reducible magnetic force of the respective magnet arrangement (12a or 12b) can be reduced to an extent such that the magnetic force of the magnet arrangement in each case lying transversely opposite is sufficient to move the switching element (4) to the associated mating contact element (7a or 7b) and to hold it thereon.
3. Switching device according to Claim 2,
   characterised in
   that the difference between the reduced magnetic force of the respective magnet arrangement (12a or 12b) and the reduced magnetic force or the increased magnetic force of the respective opposite magnet arrangement (12a or 12b) is sufficient to move the switching element (4) to the associated mating contact element (7a or 7b) and to hold it thereon.
4. Switching device according to any one of Claims 1 to 3,
   characterised in
   that the increasable magnetic force of the respective magnet arrangement (12a or 12b) can be increased to an extent such that it is sufficient to move the switching element (4) to the associated mating contact element (7a or 7b) and to hold it thereon.
5. Switching device according to Claim 4,
   characterised in
   that the difference between the increased magnetic force of the respective magnet arrangement (12a or 12b) and the reduced magnetic force or the increased magnetic force of the respective opposite magnet arrangement (12a or 12b) is sufficient to move the switching element (4) to the associated mating contact element (7a or 7b) and to hold it thereon.
6. Switching device according to Claim 1,
   characterised in
   that the magnetic force of one magnet arrangement (12a) can be reduced to an extent such that the magnetic force of the other magnet arrangement (12b) is sufficient to move the switching element (4) to the mating contact element (7a) associated with the other magnet arrangement (12b) and to hold it thereon.
7. Switching device according to any one of the preceding Claims,
   characterised in
   that the magnetic force of one magnet arrangement (12a) can be increased to an extent such that it is sufficient to move the switching element (4) to the mating contact element (12a) disposed on the side of the latter and to hold it thereon.
8. Switching device according to either of Claims 6 and 7,
   characterised in
   that the other magnet arrangement (12b) comprises a permanent magnet (13b).
9. Switching device according to any one of the preceding Claims,
   characterised in
   that a magnet arrangement (12a, 12b) with electromagnets or with a permanent magnet (13a, 13b) and an electromagnet (14a, 14b) is disposed on both sides of the switching element (4).
10. Switching device according to any one of Claims ,
    characterised in
    that the permanent magnet (12a) and the electromagnet (14a) are disposed coaxially with one another.
11. Switching device according to Claim 10,
    characterised in
    that the permanent magnet (13a) or an extension of the permanent magnet (13a) forms a core (16a) of the electromagnet (14a),
12. Switching device according to Claim 11,
    characterised in
    that the electromagnet (14a) has changeable poles.
13. Switching device according to any one of the preceding Claims,
    characterised in
    that the switching element (4) is elastically flexible in the transverse direction.
14. switching device according to Claim 13,
    characterised in
    that the switching element (4) is formed by a spring tongue whose broad sides face the mating contact elements (7a, 7b) .
15. Switching device according to any one of the preceding Claims,
    characterised in
    that the switching elements (4) are disposed in the protective space (21) of a housing (22),
16. Switching device according to Claim 15,
    characterised in
    that the electromagnet (14a) is disposed next to or below the protective space (21).
17. Switching device according to Claim 16,
    characterised in
    that the electromagnet (14a) is disposed to the side of the housing (22) or in a recess (32) in the bottom (22b) of the housing (22).
18. Switching device according to any one of the preceding Claims 15 to 17,
    characterised in
    that the housing (22) comprises a cover (22a), and at least one permanent magnet (13b) is disposed in a recess (33) of the cover (22a).

Images