DE3433624A1 - AUTOMATICALLY APPLICABLE, CURRENT-LIMITING SWITCH - Google Patents

Abstract

The switch has one or several stationary contacts (1, 2) and moving contacts (3 and 4), which make contact with one another in pairs, as well as two triggering devices (13, 14) which operate on the moving contacts (3, 4) and of which the first automatically cuts off the contacts when a short-circuit current occurs and the second when an overcurrent occurs. Furthermore, a switching-on device (15) is provided on the moving contacts (3, 4) which can be operated at will. In at least one contact pair (1-4) either the stationary contact (1, 2) or the moving contact is made of a contact material and, in an adjacent region (5) thereto, of a composite material which has arc-quenching properties. The moving contacts (3, 4) are operated in such a way that the closing of the switch can take place only above the coverage of the contact areas and the passage of a continuous current only below the coverage of the contact areas, which do not consist of the composite material, whereas the opening is effected in the case of short-circuit triggering by the separation of one region (5) consisting of the material of a first contact (1, 2) from the second contact (3, 4) of a pair of contacts.

Description

Description:

The invention is based on a switch with the in the preamble of Claim 1 specified features.

Miniature circuit breaker, which is also known as automatic circuit breaker are often used instead of fuses to protect electrical Installation cables used. They usually contain an overcurrent release device, which mostly works with a bimetal element, which is acted upon by the overcurrent generated electricity reacts and triggers thermally delayed. They also contain an instantly responsive short-circuit release device, which is mostly magnetic responds to a short circuit current, e.g. B. by means of a current-carrying coil, in which an armature influenced by the short-circuit current is displaceably arranged is. Furthermore, the circuit breakers usually contain a manual and release device, with which they can be switched on and off manually.

Because miniature circuit breakers control the electrical flowing in a line Should limit current and in the event of a short circuit very quickly reached very high currents the circuit breaker trips very quickly in the In the event of a short circuit, it is of particular importance.

With conventional miniature circuit breakers, the switching sequence from the occurrence of a short circuit to the extinguishing of the switching arc in the subdivide the following phases: 1.) Detection of the short circuit by a magnetic release (current-carrying coil) 2.) Enable the drive of the short-circuit release device 3.) Beginning of contact separation, with an arc drawn between the contacts 4.) Beginning of the arc movement 5.) Entry of the arc into the arc extinguishing system of the circuit breaker, whereby the current limitation becomes effective.

In order to reduce the short-circuit current to the smallest possible forward current limit, it is important to build up a high arc voltage as quickly as possible. Phases 1 - 5 should therefore all run out as quickly as possible.

The length of phases 1 - 3 is determined by the speed of response the short-circuit release device and can be achieved by a clever design of the release device can be kept small, in particular by using the drop anchor principle: thereby if the armature strikes a short-circuit current tripping coil on the movable one Switching contact of the line circuit breaker and separates it from the immobile Counter contact.

The invention is based on the object of a current-limiting To create a switch that responds very quickly and especially the duration of phases 4 and 5 is particularly short, so that the current limitation is very effective.

This object is achieved by a switch with the claim 1 specified features. Advantageous further developments of the invention are the subject of the subclaims.

It is an essential feature of the invention that in at least one Kontatkstückpaar of the switch either the immovable or the movable contact piece in a first area made of a common contact material and in one adjoining area consists of a composite material, which in addition contains one or more substances for a metal with good electrical conductivity, which have an arc-extinguishing effect.

Composite materials, which on the one hand have a metallic component good electrical conductivity and, on the other hand, additives with arc-extinguishing Effect are contained, for example, in US Pat. No. 4,011,426 and DE-OS 26 47 822 as well as in the older but not previously published German patent application P 33 12 852.9. Such composite materials have, on the one hand, arc-extinguishing Effect, namely by the fact that they release substances that release electronegative gases contain, such as sulfur, barium sulfate, iron ammonium sulfate, calcium fluoride, polytetrafluoroethylene, CH3SF5, sulfur hexafluoride or selenium hexafluoride, the latter e.g.

bound to molecular sieves or other adsorption substances or chemical compounds contained by arcing on sulfur, fluorine, etc. how polytetrafluoroethylene can be produced. You can also delete Switching arcs favor the fact that the composite material contains inorganic substances contains, which melt higher than the substances releasing electronegative gases, e.g. glass powder or calcium fluoride powder, and in particular silicon dioxide in Form of powdered quartz sand. On the other hand, the composite material has thereby an electrical conductivity that it is in particular silver or copper or nickel or contains iron or alloys of these metals.

Such composite materials are manufactured, for example, by that you mix their components in powder form with one another and with a binder to a solid united. As binders come first Plastics line under consideration, especially one- and two-component curable resins as well as epoxy resin, phenolic resins, hemp resins, melamine resins and silicone resins. as Thermoplastics are also suitable binders if they are fillers be able to record. Examples are polyamides, polypropylene, polyethylene terephthalate and polybutylene terephthalate.

In addition to organic binders, there are also inorganic binders into consideration, e.g. water glass or low-melting enamels.

Unfortunately, such composites have arc-extinguishing properties Properties but not as high a current carrying capacity as pure contact materials, so that switching on and conducting continuous current does not occur on the composite material should be carried out with an arc-extinguishing effect.

Because of the lack of ampacity of the composite material with the arc-extinguishing effect is provided according to the invention that the closing of the switch takes place exclusively via contact pieces or contact piece areas, which do not consist of this composite material, whereas the opening of the switch in the event of a short circuit by separating one of this composite material area of a first contact piece from the second contact piece of a contact piece pair The continuous current is carried either only via contact pieces or contact piece areas, which do not have an arc-extinguishing composite material, or partly via contact pieces or contact piece areas. This is how the arc extinguishing composite material becomes not inadmissibly loaded either when switching on or when carrying continuous current; in the event of a short circuit however, the contact separation takes place in such a way that the switching electric arc burns from the beginning on the composite material with the arc-extinguishing effect; he therefore does not have to go to a separate extinguishing device for deletion - as is usually the case be driven in and can therefore be driven much faster than before with miniature circuit breakers possible to be deleted.

In the event of overcurrent tripping, circuit breakers in As a rule, special arc quenching measures are not yet required. at the switch according to the invention can therefore open in the event of an overcurrent release of the switch take place by separating contact pieces or contact piece areas, which do not contain an arc-extinguishing composite. But it would also be possible, with the overcurrent release as with the short-circuit release the switch by separating an area consisting of the composite material from a first To effect contact piece from the second contact piece of a contact piece pair.

The necessary control of the movement of the movable contact pieces can one in the switch according to the invention by an appropriate mechanical guide and assignment of the movable contact pieces to the tripping devices and to the Achieve switch-on device, for which examples are given below.

What was said above for the overcurrent release applies accordingly for the arbitrary triggering of the switch, because also with the contact separation under Rated currents are usually not special measures for miniature circuit breakers required for arc quenching, so that the contact separation is preferably between Contact pieces or contact piece areas takes place, which the arc extinguishing Composite not included.

Basically you can in the switch according to the invention for each line to be interrupted manage with a pair of contact pieces in which a contact piece is fixed and one is movably arranged, for. B. in such a way that the movable Contact piece is attached to the end of a movable switching arm, which by Guiding in a setting and actuation by one or two control spools in can be moved in the desired manner. However, it is particularly advantageous to use Current-limiting switches with two or more interruptions of the current-carrying ones Management and this can be achieved particularly easily if you have two immovable Contact pieces (electrodes), which are used to supply or discharge the current, through a movable bridge that can be lifted off the two contact pieces connects. Such Bridge is expediently close by at least one, preferably by two the ends of the bridge arranged scenes guided and in these by the release devices as well as shifted by the switching device, expediently by an or two linearly movable control spools, which are suitably equipped with drivers and inclined or curved surfaces are provided for moving the bridge. At a Switch, in which only the immovable contact pieces a range from the Have arc-extinguishing composite material, one combines with advantage Two immovable contact pieces each through two parallel bridges, one of which is closed Switch one to the composite areas and the other to the areas from the contact material rests, and these two bridges are pushed through two coupled slides that can be moved relative to one another to a limited extent by their sliding movement the bridges can be lifted off the contact pieces. The backdrops can be two Slots which are perpendicular to the surface of the immovable contact pieces, and the slides are profiled in such a way that when operated by the Short-circuit release device first the one on the contact material and then the one Lift off the bridge resting on the composite material while actuating it through the overcurrent release device or when switching off manually first the Lift off the bridge from the composite material and then the bridge from the contact material. In addition, the two slides are arranged and designed so that when they close of the switch in any case first the one bridge on the one made of the contact material Place the existing area of the immovable contact pieces and only then the Place the second bridge on the area made of the composite material. Appropriately the bridges lie on opposite contact surfaces of the fixed contact pieces so that the slides are located between the bridges and between them be pushed through, because this makes the two bridges more independent move from each other. It is also preferred to design the slides in such a way that that they move in the opposite direction if the switch is short-circuited be moved as in the case of an overcurrent release or a manual release. Farther it is preferred that the slide is also in the manner with the switch-on device are connected that they moved in the same direction by this when switched on are like a short-circuit release. This has the advantage that when it is switched on under short-circuit conditions, the renewed shutdown after detection of the short-circuit in particular takes place quickly because the slide is already in the same during the switch-on movement Direction are accelerated in which it moves when the short circuit is triggered must be, so that after the short-circuit detection only further acceleration is necessary. Opposite known miniature circuit breakers is this a significant advance, because with the well-known miniature circuit breakers in this case a reversal of the contact movement is necessary to trigger a short circuit.

Instead of the arc-extinguishing composite material in areas To provide the immovable contact pieces, one can each two immovable, from Usual contact material existing contact pieces by two parallel bridges connect with each other, one of which at least in their contact-making areas from the arc-extinguishing composite material, the other from a contact material exists, and these two bridges can then be used, as already described, in backdrops lead and by two coupled slides that can be moved relative to one another to a limited extent move in such a way that in the event of a short-circuit release, the contact material first existing bridge and then the composite material having bridge of the immovable contact pieces is lifted while closing the switch first the bridge made of the contact material and then the bridge with the composite material makes contact with the immovable contact pieces. The continuous current is carried in this embodiment of the switch over both contact bridges, the larger Part of the electrical current because of the lower electrical resistance the bridge from the contact material flows. Inadmissible heating of the composite material is therefore avoided and takes place overall through the distribution of the electrical Current on two contact bridges a thermal relief of the current-carrying parts in the counter.

A slide can also be used to move a pair of bridges instead of having two coupled sliders, if one is to guide the two Bridges different shaped backdrops used at a and force a different path for one bridge than for the second bridge. The shape of the scenery is to be chosen and based on the Match the shape of the slide that always one of the bridges when triggering the Switch is the first to lift off from the immovable contact pieces and when it closes of the switch first makes contact with the immovable contacts; if the immovable contact pieces do not contain an arc-extinguishing composite material, but one of the bridges is made of such a composite material, then it should be the other bridge that lifts first and when the switch closes makes contact again; if both bridges do not have an arc-extinguishing composite have, but the immovable contact pieces are equipped with it, then makes that bridge, which takes off first, in no phase of its movement is in contact with the composite material, while the second bridge is the contact area when the switch is closed from the composite material or in the course of the release process by the Slide initially pushed onto an area containing this composite material before it takes off.

Instead of a bridge limited by two, they can be moved relative to each other To move sliders, you can move them by just one slider and they lead it in a backdrop, which is coupled to the slide and in the same direction as this is limited relative to this. In Connection with immovable contact pieces, which areas from the arc-extinguishing Have composite material, you come with a bridge made of a contact material from which in the event of a short-circuit release by the slide on the immovable Contact pieces initially from the material on the composite is moved and then lifted off, while it is switched on immediately with Areas of the immovable contact pieces, which are free from the composite material are, make contact.

Instead of using a bridge that is only parallel to itself is moved, you can also use a bridge, which is both parallel to itself and is displaceable in its longitudinal direction and this bridge can in sections from a contact material and an arc-extinguishing composite material produce and with her two immovable contact pieces, which only made of contact material exist, connect in such a way that when switched on and under the guidance of continuous current the bridge makes contact with its areas consisting of the contact material, while they initially shifted in their longitudinal direction in the event of a short-circuit release until it makes contact with its areas made of the composite material and only then takes off. With a slide that can be moved across the bridge is, a longitudinal movement of the bridge can be forced if you split it on two lateral inclined guides can run up.

When using a bridge, a double interruption is achieved, when using two bridges you can have a quadruple break in the switch reach. For this purpose one uses in the switch besides one immovable Electrode for the power supply and an immovable electrode for the power dissipation expediently a third immovable electrode as an intermediate electrode, which by one or two bridges with the lead electrode and with one or two more bridges are connected to the lead electrode. The order of the arc-extinguishing composite and the operation of the bridges in corresponding In the same way as with switches with double break.

An advantageous development of one with one or more bridges equipped switch is characterized in that the bridge or bridges are arranged parallel to an opposing current-carrying conductor. This arrangement has the advantage that the bridge or

the bridges in the event of a short-circuit release from the immobile ones more quickly Contact pieces can lift off because conductors flowing through in opposite directions repel one another. This effect can also be used directly to trigger a short circuit, i.e. This means that the bridges through which the rising short-circuit current flows lift automatically as a result of the electromagnetic repulsion caused by its own magnetic field from the immovable contact pieces, whereby a bridge is desired, which makes contact with an area made of arc-extinguishing composite material, later lifts off as a bridge, which does not involve an area of arc-extinguishing Composite material makes contact because of its higher electrical resistance of the composite material, the electromagnetic repulsion occurring there is lower is.

The novel current-limiting switches have compared to conventional Miniature circuit breakers have the advantage that when the contacts are separated, the arc burns directly on a material with an arc-extinguishing effect and does not must first be driven into an extinguishing system; also is the arc voltage already very large immediately after the contact has been separated (it reaches values of approximately 200 volts), while with conventional miniature circuit breakers it immediately follows the contact separation is still much lower at around 20 volts and only in the course of the process the arc migration to values of 220 to 250 volts increases. The switch according to the invention is therefore able to reduce the short-circuit current more effectively than is the case with conventional miniature circuit breakers. By The switch according to the invention is also constructive in that it does not have its own extinguishing system become simple, which translates into reduced manufacturing costs. Included the triggering of the switch does not present any particular difficulties in terms of construction and with the use of bridges a double interruption is possible in a simple manner. Moving the bridges by means of a slide is structurally simple because the Slide can be integrally connected to the armature of a trip coil, so that an increasing short-circuit current can act on the bridges without delay. Through this, that with the switch according to the invention short-circuit currents are limited to lower values can be as with conventional circuit breakers, can be with such Current-limiting switches in power distribution networks provide improved selectivity reach, d. that is, in the event of a short circuit in a branch of a distribution network higher-level current-limiting switches no longer respond as often as before, because due to the limited short-circuit current, the response threshold of the higher-level Switching devices is often no longer reached.

Some embodiments of the invention are shown in the accompanying drawings Drawings are shown schematically and are described below.

FIG. 1 shows the elements essential for understanding the invention a current-limiting switch in plan view, Figure 2 shows the section II-II through the switch shown in Figure 1, Figure 3 shows the Section III-III through the switch shown in FIG. 1, FIGS. 4 A-4 G show in representations according to FIG. 2, the various switching phases of the in the figures 1-3 shown switch, Figure 5 shows in a representation similar to the figure 1 shows a further embodiment of a current-limiting switch, FIG the section VI-VI through the switch shown in Figure 5, Figure 7 shows a Representation according to FIG. 5 of a modified switch with longitudinally and transversely movable Bridge, Figure 8 A shows the arrangement of the contact pieces in a current-limiting Switch with quadruple interruption in the view, namely in the switch position for conducting continuous current, Figure 8 B shows the arrangement of the contact pieces as in Figure 8 A, but in the switch position after a short-circuit release, the characters 9 A and 9 B show the arrangements of the contact pieces according to Figure 8h and 8B, respectively in plan view, and FIG. 10 shows one for a current-limiting switch further arrangement of the contact pieces, wherein a bridge is arranged so that they current flowing through it in opposite directions is like another current-carrying part of the switch.

In the various exemplary embodiments are the same or one another Corresponding components have been given the same reference numerals.

In the current-limiting switch shown in Figures 1-3 are two angular electrodes 1 and 2 in a housing (not shown) firmly arranged.

They are used to supply and discharge electrical current and are at their angled legs by two parallel bridges 3 and 4 with each other tied together. The bridges are on opposite sides of electrodes 1 and 2 arranged. Both electrodes have an end section 5 made of a composite material with arc extinguishing effect; Incidentally, the electrodes consist of a common one Contact material with good electrical conductivity, e.g.

made of copper or an alloy of copper with silver or for example made of a layer material made of copper, which in its contact-making area a contact pad particularly suitable for the intended use, for example Silver or silver-containing contact materials. The arrangement of the bridges 3 and 4 is chosen so that one bridge 3 corresponds to the end section 5 the end the arc-extinguishing composite and the other bridge 4 is an adjoining one Section from the contact material rests. The two bridges 3 and 4 are on their two ends in scenes 6 and 7 stored and guided and can of the electrodes 1 and 2 are lifted vertically against spring force. For this purpose is between the bridges 3 and 4, a slide 8 is arranged, which in its longitudinal direction in right angle to the bridges is movable. With the slide 8 is an auxiliary slide 9 coupled, which limits in the direction of movement of the slide 8 relative to this is movable; this limited mobility is brought about by a longitudinal running elongated hole / in the auxiliary slide, in which a pin 11, which laterally is attached to the slide 8, engages, as well as by another, laterally on Slide 8 attached pin 12, which as a driver for the auxiliary slide 9 serves and strikes against the front end of the auxiliary slide 9.

One end of the slide 8 is an anchor in an electrical Coil 13, which is connected in series with the electrode 2, so that they is traversed by the current conducted via the switch. In the event of a short circuit the short-circuit current flows through the coil 13 and moves the slide 8, whereby the bridges 3 and 4 are lifted from the electrodes 1 and 2, which is based on the Figure 4 will be explained in more detail. Grasp the opposite end of the slide 8 the drive of an overcurrent release device 14 and a handle 15 with which the switch can be opened and closed manually.

The slide 8 has on both of its sides facing the bridges two longitudinally opposite one another 15 and 17 put cuts, Iweche are limited by inclined surfaces 16 a and 16 b and 17 a and 17 b. The inclination the inclined surfaces is chosen so that the bridges 3 and 4 when they hit them Inclined surfaces slide over these and thus lifted off the electrodes 1 and 2 can be. The auxiliary slide 9 acts only with its front end one of the bridges, namely on bridge 4.

The function of the current-limiting switch is now based on the figure 4 explained. Figure 4 0 shows the switch in its on position, in which it is suitable for carrying continuous current. In this switch position takes the slide 8 a middle position, both bridges 3 and 4 are in the incisions 16 and 17 of the slide 8 and its pin 11 is located on front end of the elongated hole 10, d. that is, that the auxiliary slide 9 with respect to the slide 8 is in its retracted position.

If a short circuit occurs, starting from the switch position pass through the phases shown in FIGS. 4E, 4F and 4G in FIG. 4D. The slide 8 is drawn into the coil 13 by the increasing short-circuit current and takes the auxiliary slide 9 with the pin 11. The location of bridges 3 and 4 and the inclined surfaces 16 a and 17 a is coordinated so that the slide 8 first reaches the bridge 4 with its inclined surface 17a and lifts it off (FIG 4 E) and only then does it reach the bridge 3 with its inclined surface 16 a and lifts this also from the electrodes 1 and 2 (Figure 4 F); the one between the Bridge 3 and the arc drawn on electrodes 1 and 2 burns on the sections 5 made of the arc-extinguishing composite material and is therefore very quickly clears and thereby the short-circuit current interrupted. The slide 8 is moved forward so far that both bridges 3 and 4 overcome the inclined surfaces 16 a and 17 a and on the parallel side surfaces of the slide 8 come to rest (Figure 4 G).

If the switch is triggered manually or by the overcurrent release device 14 after exceeding a predetermined limit value of the current intensity, the slide 8 in the opposite direction starting from the position shown in FIG. 4D shifted and runs through the shown in Figures 4G, 4B and 4A Phases. The position of the bridges 3 and 4 and the position of the inclined surfaces 16 b and 17 b are coordinated in such a way that initially the inclined surface 16 b the bridge 3 hits and it lifts off the electrodes 1 and 2 (Figure 4 C) and that only then does the inclined surface 17 b meet the bridge 4 and this from the electrodes 1 and 2 lifts off (Figure 4 B). The switching arc drawn in the process burns between the bridge 4 and an area of the electrodes consisting of the contact material 1 and 2, but does not affect sections 5 of the arc-extinguishing composite material, so that this is not burdened. Since the overcurrent release or manual release of the switch occurring currents are lower than in the event of a short circuit, is a Rapid arc extinction guaranteed even without the influence of active extinguishing materials.

When going through the phases shown in Figures 4C and 4B the auxiliary slide 9 remains at rest. The slide 8 is moved until its pin 11 to the rear end of the elongated hole 10 and its pin 12 to the front Push the end of the auxiliary slide 9 (FIG. 4A.); in this position the bridges have 3 and 4 the inclined surfaces 16 b and 17 b overcome and are at rest the opposite parallel sides of the slide 8.

To turn on the switch manually from the one shown in Figure 4A Position out the slide 8 is moved in the direction of arrow 18, whereupon the phases shown in FIGS. 4B, 4C and 4D are passed through; doing it first the bridge 4 (Figure 4 C) and only then the bridge 3 (Figure 4 t) contact with the electrodes 1 and 2, so that the sections 5 from the arc extinguishing Composite material not involved in making contact during the switch-on process and cannot be loaded by the inrush current. To the switch Starting from the position in FIG. 4 G, one does not go through the in Figure 4 F, 4 E and 4 D shown phases, but transfers the switch initially from the position shown in FIG. 4 G to that shown in FIG. 4 A. Position and then runs through - as described - the phases according to Figure 4B, 4C and 4 D. The transfer of the switch from the position shown in Figure 4G into the position shown in Figure 4 A is done by moving the slide 8 in the direction of arrow 19; the auxiliary slide remains during this shifting movement 9 initially at rest until the slide 8 with its driving pin 12 against the Auxiliary slide 9 pushes; the auxiliary slide prevents in this way that the bridges 3 and 4 dip into the incisions 16 and 17 of the slide 8 and make contact prematurely do with electrodes 1 and 2.

If the switch shown is switched on under short-circuit conditions, then the automatic release takes place particularly quickly because the slide 8 when Switch-on process is already being moved in the same direction in which it is also through the coil 13 is moved when the short circuit is triggered, so that the coil 13 him only has to accelerate further.

The switch shown in Figures 1 to 4 can to that effect be modified so that the electrodes 1 and 2 are made exclusively of contact material, So produces free of arc-extinguishing composite material and instead a of the bridges, namely the bridge 3, made of an arc-extinguishing composite material manufactures.

The switch shown in Figures 5 and 6 differs of the switch shown in Figures 1 to 4 only in that the auxiliary slide 9 has been omitted. Instead, the scenes 6 and 7 are designed in a special way, as FIG. 6 shows. They have different shapes for bridges 3 and 4 Guide slots 20 and 21, in which the bridges in the longitudinal direction of the slide 8 shifted and at the same time lifted off the electrodes at a predetermined point can be. Since the slopes over which the bridges are lifted off in the scenes, the inclined surfaces, which in the first embodiment the cuts 16 and 17 of the slide limited, are replaced by right-angled end faces 16 c and 16 d or 17 arranged to the direction of movement of the slide c and 17 d.

Figures 5 and 6 show the switch in its on position, in which it is suitable for carrying continuous current. Are in this position the two bridges 3 and 4 are parallel to each other in contact with exclusively Areas of the electrodes 1 and 2 consisting of contact material, d. i.e. that the Sections 5 with the arc-extinguishing composite at the point of contact do not involved. When a short circuit occurs, the slide 8 is in the direction of the arrow 18 accelerates and then hits with its end faces 16 c and 17 c Open bridges 3 and 4 and take them with you. The arrangement tion of the End faces 16 c and 17 c are matched to the position of bridges 3 and 4, that first the bridge 4 is taken along and lifted off the electrodes 1 and 2. The slope in the guide slot 21 is placed so that the bridge 4 lifts off, before it reaches the end portion 5 of the electrodes. The other guide slot 20 is designed so that the bridge 3 before lifting from the electrodes 1 and 2 slides onto the end section 5 made of the arc-extinguishing composite material.

The switch is switched on again by sliding the Slide 8 counter to the direction of arrow 18. The bridges 3 and 4 taken through the end faces 16 d and 17 d of the incisions 16 and 17.

The position of the end faces 16 d and 17 d is so on. the location of the bridges 3 and 4 matched that the slide first reaches the bridge 4 and this up to make contact with electrodes 1 and 2, before the other bridge 3 is pushed through the end face 16 d onto the end portion 5 of the electrodes.

The arrangement shown has the advantage that the switching arcs that occur narrowed by the coulisse running on both sides of the electrodes and the slide and thus can be deleted more quickly.

The switch shown in Figures 5 and 6 can to this effect be modified so that the electrodes 1 and 2 are made exclusively from a contact material, that is, without any arc-extinguishing substances and instead one of the bridges, namely the bridge 3, made of an arc-extinguishing composite material.

Another possible modification of that shown in FIGS Switch consists in the elec- 1 and 2 trod completely is made from a contact material and uses one or two bridges instead, which in sections consist of a contact material and a composite material, as shown in Figure 7; the areas made of the composite material are denoted by the reference number 22.

When the switch position shown in Figure 7 is closed the bridge 3 the electrodes 1 and 2 with their areas consisting of contact material while the areas 22 made of the composite material are not connected to the Contacting are involved. If a short circuit occurs, bridge 3 moved by the slide 8 in the direction of arrow 18 and takes the bridge with, which at the same time is shifted laterally by two inclined surfaces 23, that the areas 22 with the composite come into contact with the electrodes, before it is lifted off by the link guide.

The embodiments described above each showed Switch with a double break. In most cases this will be sufficient be. An improved dielectric strength can be achieved with a quadruple interruption. A possible electrode arrangement for a lock without illicit interruption is shown in Figures 8A, 8R, 9A and 9B. For supply and discharge are two angular electrodes 1 and 2 are provided, as in the first embodiment wear at their end sections 5 arc-extinguishing composite material. The angled A U-shaped central electrode is opposite the legs of the electrodes 1 and 2 24 fixedly arranged, which also have end sections 25 at both ends arc extinguishing material. The two electrodes 1 and 2 are with the Center electrode 24 connected by two parallel bridges 3 and 4, Which in the case of continuous current (switch-on position), those made of contact material Areas of electrodes 1 and 2 and the center electrode 24 are in contact (Figure 8 A), while they initially focus on areas 5 and 25 in the event of a short-circuit release the arc-extinguishing composite and then moved by lift it off (Figures 8B and 9B). Triggering, shifting and guiding the Bridges can be made using sliders and scenes as in the examples described above take place.

Based on the illustration in Figure 9A it can be seen that with this arrangement the two bridges 3 and 4 flowed through in opposite directions by the current are. In the event of a short circuit, this enables particularly rapid contact separation, because electrical conductors flowing in opposite directions repel each other.

This effect cannot only be used with a switch with two bridges but also with a switch with only one bridge, like the one in Figure 10 shows electrode arrangement shown.

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Claims (15)

"Automatically responding, current-limiting switch" claims: 1. Automatically responding, current-limiting switch, especially miniature circuit breaker, with one or more immovable contact pieces and one or more movable ones Contact pieces which make contact in pairs with the immovable contact pieces, with two tripping devices acting on the moving contact pieces, from which the first the contact pieces when a short-circuit current occurs and the second it automatically disconnects when an overcurrent occurs, as well as with one The switching device acting on the moving contact pieces, characterized in that that in at least one pair of contact pieces (1,2,24; 3,4) either the immovable or the movable contact piece (1, 2.24 or 3.4) in a first Area made of a contact material and in an adjacent area (5; 25) consists of a composite material, which in addition to a highly electrically conductive Metal contains substances that have an arc-extinguishing effect, and that the movable ones Contact pieces (3,4) out in the way and in the way the tripping devices (13,14) of the switching device (15) are assigned that the closing of the switch exclusively via and the continuous current conduction at least with the participation of the contact pieces or contact piece areas that do not consist of the composite material, whereas the opening of the switch by means of the triggering device which responds to a short circuit (13) by separating an area (5; 25) made of the composite material a first contact piece (1,2; 24) from the second contact piece (3,4) of a contact piece pair he follows. 2. Switch according to claim 1, characterized in that the movable Contact pieces (3, 4) out in the way and in the way the responsive to overcurrent Trip device (14) are assigned that when an overcurrent occurs Opening the switch by separating contact pieces or contact piece areas takes place, which do not consist of the composite material. 3. Switch according to claim 1 or 2, characterized in that one Arbitrarily actuated release device (15) is provided, which the movable Contact pieces (3,4) are assigned in such a way that the opening of the switch by Separation of contact pieces or contact piece areas takes place, which are not the end consist of the composite material. 4. Switch according to one of claims 1 to 3, characterized in that that two immovable contact pieces (1,2; 1,24; 2,24;) by one or more movable bridges (3, 4) that can be lifted off these two contact pieces are connected, which are guided in one or two scenes (6,7) and by the release devices (13,14) and can be displaced by the switch-on device (15). 5. Switch according to claim 4, characterized in that only the immovable Contact pieces 1,2; 24) an area (5; 25) from the arc-extinguishing agent Have composite material. 6. Switch according to claim 5, characterized in that two immovable Contact pieces (1,2) are connected by two parallel bridges (3,4), one of which with the switch closed, one of the areas (5) made of the composite material and the other rests on the areas of the contact material, and that these two Bridges (3, 4) by means of two coupled slides that can be moved relative to one another to a limited extent (8,9), can be lifted off the contact pieces (1,2). 7. Switch according to claim 4, characterized in that two immovable, no arc-extinguishing composite material having contact pieces by two parallel bridges are connected, one of which at least in their contact-making areas made of the arc-extinguishing composite material, the other however, consists of a contact material, and that these two bridges through two coupled, limited to one another other sliding slider can be lifted off the contact pieces. 8. Switch according to claim 4, characterized in that two immovable Contact pieces (1,2) are connected by two movable bridges (3,4) which in Scenes, (6,7) are performed, which are designed differently in the way and on the shape of a single slide (8) are matched to one of these bridges (3, 4) always first in the event of a short-circuit tripping of the immovable contact pieces (1,2) lifts off and is the first to close the switch with the immovable contact pieces (1,2) makes contact (Figures 5 and 6). 9. Switch according to claim 6, 7 or 8, characterized in that the bridges (3, 4) on opposite contact surfaces of the fixed contact pieces (1,2) rest and that the slide or slides (8,9) are arranged between the bridges (3,4) are. 10. Switch according to one of claims 6 to 9, characterized in that that the slide or slides (8,9) are assigned to the release devices (13,14) in the manner are that they move in the opposite direction in the event of a short-circuit release as in the case of an overcurrent release and a manual release. 11. Switch according to claim 10, characterized in that the or the slide (8,9) through the switching device (15) in the same direction (18) moved like a short-circuit release. 12. Switch according to claim 5, characterized in that two each immovable contact pieces by a movable bridge connected are, which can be displaced by a slide and thereby guided in a backdrop which is coupled to the slide and relative in the same direction as this is limited to this. 13. Switch according to claim 4, characterized in that two each immovable, non-arc-extinguishing composite contact pieces are connected by one or more bridges (3), at least one of which in sections made of contact material and of arc-extinguishing composite material, both is displaceable in its longitudinal direction as well as transversely thereto and is guided in such a way that that they are made of contact material when the switch is closed and when there is continuous current flow makes contact with existing areas, while initially in the event of a short-circuit release is shifted lengthways until they are made of composite material areas (22) Makes contact before she picks up (Figure 7). 14. Switch according to one of claims 4 to 13, characterized in that that the bridge (3) or the bridges (3, 4) parallel to a current-carrying one in opposite directions Head (4 or 2) is or are arranged (Figure 9 a and 10). 15. Switch according to claim 14, characterized in that the opposite directions current-carrying conductor (4) is also a bridge (Figure 9 a).