DE3428519A1 - Electrical switch - Google Patents

Abstract

An electrical on/off switch is described having one or more pairs of contact pieces (8, 9) whose contact pieces for opening and closing the switch can move relative to one another and of which in each case one contact piece (9) consists of two sections (9a, 9b) which are arranged one behind the other in the movement direction (6) and of which the one is formed from a contact material having a high electrical conductivity while, in contrast, the other is formed from a composite material which contains both a contact material having high electrical conductivity and substances which are favourable for extinguishing the switching arcs. The switch is constructed as a rotary switch which supports the one or more movable contact pieces (9), at a distance from the switching shaft (5), on a rotor (7) and supports the one or more stationary contact pieces (8), at a corresponding distance from the switching shaft (5), on a stator (1). The switch has a directional lock which allows the rotor (7) to rotate only in one direction (6). In the contact pieces (9) which consist of two different sections (9a, 9b), their sequence with respect to the predetermined rotation direction (6) of the rotor (7) is selected such that switching on always [lacuna] by making contact between contact sections (8, 9a) having high electrical conductivity, and switching off always [lacuna] by contact separation of a [lacuna] consisting of the composite material ... Original abstract incomplete. <IMAGE>

Description

Description:

The invention is based on an electrical switch with the im Preamble of claim 1 specified features. One such switch is in the older, but not previously published patent application P 34 02 372.0. It is a switch which has two rod-shaped connection contacts Has electrodes which are coaxially opposed to each other and through one therebetween coaxially arranged insulator are connected to each other. One of the two electrodes consists of two consecutive sections of different, electrical conductive materials. The first section, adjacent to the isolator, consists made of a composite material, which in addition to a metal with good electrical conductivity also contains one or more substances with arc-extinguishing properties. This electrode exists in its second section adjoining the first section on the other hand, made of a common contact material, which is created with continuous current loading behaves favorably, in particular offers security against welding and no special, contains additives that favor the arc quenching.

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 included, for example, in U.S. Patent 4,011,426, in the DE-OS 26 47 822 as well as in the older, but not previously published German Patent application P 33 12 852.9 described. Have such composites on the one hand arc-extinguishing property, namely in that they are electronegative Contain gas-releasing substances such as sulfur, barium sulphate, iron ammonium sulphate, Calcium fluoride, polytetrafluoroethylene, CH3SFS, sulfur hexafluoride or selenium hexafluoride, the latter being bound e.g. to molecular sieves or other adsorption substances or by arcing on sulfur, fluorine, etc.

containing chemical compounds such as polytetrafluoroethylene can be. Furthermore, the extinguishing of switching arcs can be favored by that the composite material contains inorganic substances that melt higher than the substances releasing electronegative gases, e.g. glass powder or calcium fluoride powder, and in particular silicon dioxide in the form of powdered quartz sand. on the other hand the composite material has electrical conductivity in that it in particular Contains silver or copper or nickel or iron or alloys of these metals.

Such composite materials are made by having their Mixes ingredients in powder form with each other and with a binder to one Solid body united. As binders come first and foremost Plastics in consideration, especially curable one- and two-component resins and epoxy resins, Phenolic resins, urea resins, melamine resins and silicone resins. Suitable as a binder furthermore thermoplastics, as far as they can absorb fillers. 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 electrode section should be made from this composite material with arc-extinguishing properties. With the switch described in the patent application P 34 02 372.0 one achieves this by means of a specially designed and guided switching bridge, which is preferably surrounds the electrodes in a ring.

Because of the lower conductivity compared to pure metals of the composite material also runs the base of when the switch is opened drawn arc not on the electrode section made of this composite material, if the switch is opened by lifting the switching bridge from the other, none Electrode portion containing arc-extinguishing substances he follows. Rather, mechanical commutation must ensure that the switching bridge Before opening the switch, first make contact with the one made of the composite material Electrode section makes and then lifts from this.

Therefore, in the case of the switch described above, / is the training and Guide the axially displaceable switching bridge, which with both ends of the Electrodes resilient, a little difficult. Between the isolator, which between the two electrodes is inserted, and the jumper is an electrically insulating one Provided cams, which the switching bridge bridges.

If the switching bridge is pushed onto a slope of this cam, then one end of it lifts off one of the electrodes, causing a contact separation is effected. The arrangement is made so that the switching bridge of the Composite material with arc extinguishing property stands out while switching on always takes place on that electrode section which does not have any arc-extinguishing additives contains.

This leads in a desired manner to the fact that the arc when Lifting the switching bridge between this and the one electrode is pulled immediately burns on the material with arc-extinguishing properties and for extinguishing not - as is usually the case - be driven into a separate extinguishing device got to.

The invention is based on the object of an improved switch to create the type mentioned, which is simpler in mechanical structure is.

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.

The contact pieces that make up the arc-extinguishing composite may be attached to the rotor or the stator. The arrangement will be like this made that in relation to the predetermined direction of movement of the rotor, the contact sections, which do not contain any arc-extinguishing substances, in each case in front of the contact sections are made of the arc-extinguishing composite material. Achieved in both cases one in a very simple way that with a rotation of the rotor in the predetermined Direction of rotation closes the switch by making contact between contact surface areas takes place, which have no arc-extinguishing substances, while to open of the switch by turning the rotor further, the contact point between two each other touching contact pieces initially migrates into a contact surface area, which arc extinguishing Has substances and from this then the contact separation takes place, so that a switching arc is created on each Case is based on the composite material with arc-extinguishing properties.

Preferably, the arc extinguishing composite is only seen in a contact piece of each pair of contact pieces; basically it is, however possible to make both contact pieces of a contact piece pair from two sections, one made of an arc extinguishing composite and the other made of a contact material that does not contain any arc-extinguishing substances In such an embodiment, the contact pieces are arranged on the rotor and on the stator in the same way as described above on p. 8, lines 13-18.

The directional lock to be used in the switch according to the invention can have a structure like that of conventional rotary switches that do not have any contact pieces with arc-extinguishing properties is state of the art. Preferably the directional lock is designed as a ratchet lock that puts the rotor in the ON position of the switch can only click into place as long as one or more pairs of contact pieces which the switch contains, the contact is not made on a contact section from the Composite material with arc deleting property takes place. This ensures that when the switch is switched on, the Do not flow current through the contact portions with the arc-extinguishing composite flows, so that this is not exposed to continuous current load, but only during the switch-off process is loaded.

The switch according to the invention can in the simplest case as a single pole ON / OFF switch and then only needs one for a single interruption single contact piece pair. However, it can also be designed as a multi-pole switch be which, depending on the number of phases to be switched, several pairs of contact pieces contains; these pairs of contact pieces can be at regular intervals along the circumference be arranged by the rotor and stator, but they can also be in the direction of the switching axis (which coincides with the rotor axis) arranged one behind the other at a distance be, e.g. in such a way that the switch axially one behind the other several rotor disks or arms and a corresponding number of stator rings on which the various contact pieces are arranged. The latter arrangement recommends especially when the switch can cause a double break should: In this case, it is advisable to have two diametrically opposed on the rotor and two on the stator to arrange opposite contact pieces, which the double interrupting contact piece pairs form. When the switch is closed, the current path runs from one in this case the contact pieces of the stator over the rotor to the opposite one Contact piece of the stator, and this current path becomes double when the rotor rotates interrupted. To set up a multi-pole switch with double break assigns you have two pairs of contact pieces in a corresponding manner in the direction of the switching axis at a distance one behind the other.

The formation of the switch with two diametrically opposed each Contact pieces for double interruption results in large ones in a very simple manner Contact separation distances in air and gives the switch a correspondingly high dielectric strength.

The type and arrangement of the contact pieces can be chosen so that of two contact pieces touching each other when the rotor rotates one rolls on the other, e.g. in such a way that a metallic Roll as a bridge over two contact pieces attached to the stator, which one behind the other a section without and a section with arc-extinguishing Have substances; however, the contact pieces are preferably used as sliding contacts executed. An advantageous development of the switch with sliding contact is thereby characterized in that the contact pieces with the arc-extinguishing composite material are designed as contact blades, which when switched on in the gap of the Counter-contact forming contact spring pairs are introduced. This allows one very simple and safe commutation and ensures the necessary contact force; Besides that Under no circumstances can an undesired withdrawal of contact take place, rather If there is a short-circuit load, there is even an increase in the contact pressure.

The switch according to the invention is characterized by extraordinary Simplicity, enables high separation distances between the contact pieces, is thanks to its open design, which favors the removal of soot particles, not prone to sooting, and can be used wherever you can can work with sliding contacts or rolling contacts.

Embodiments of the invention are in the attached, very schematic Drawings shown.

FIG. 1 shows, partially in section, a plan view of a single pole Switch with double break in the open state, Figure 2 shows the same Switch in the closed state, Figure 3 shows the same switch during the Opening movement, Figure 4 shows the cross-section IV-IV through the closed switch according to FIG. 2, FIG. 5 shows the sectional view as a detail on a somewhat enlarged scale V-V through the closed switch according to Fig. 4, Figure 6 shows a representation corresponding to FIG. 1 of a somewhat modified switch, and FIG 7, as a detail, a directional lock for use in the switches described.

The switch shown in Figs. 1 to 5 has an annular, electrically insulating stator 1, which by means of bolts 2 on a not shown Housing is attached. The stator 1 carries two diametrically opposite one another Contact spring pairs 3, which are continued outside the stator 1 in terminals 4. The contact spring pairs are L-shaped in plan view, the short ones Point the leg of the L of a pair of contact springs in the opposite direction like that of the other contact spring pair.

In a concentric arrangement within the stator 1 is located a rotor 7 rotatable about a switching axis 5 in the direction of arrow 6 a two-legged lever, the two lever arms of which are each L-shaped with the two short legs of the L pointing in opposite directions.

The short legs of the L represent both the contact spring pairs 3 and the rotor 7, the contact pieces 8 and 9, the contact pieces of the Rotor are divided into two sections 9a and 9b, which in relation to the direction of rotation 6 are arranged one behind the other.

The contact pieces 8 and 9a consist of a conventional contact material without any arc extinguishing Additions, whereas the sections 9b of the contact pieces 9 made of a composite material with arc-extinguishing additives exist. The arrangement is made so that when the rotor rotates in the direction the arrow 6 closes the switch by making contact between the contact sections 9a of the rotor and the contact pieces 8 of the contact springs 3 takes place, so that on the Making contact the sections 9b of the rotor are not involved; the latter are included closed switch - as shown in Fig. 2 - still outside the area of action the contact springs 3 and are not subject to any continuous current load. However, if the Rotor 7 is rotated further in the direction of arrow 6 to open the switch, then migrate the contact portions 9b with the arc-extinguishing composite material in the area of action of the contact springs 3 and at the same time the contact sections migrate 9a of the rotor out of the area of action of the contact springs 3, so that the contact separation finally takes place between the contact pieces 8 and the contact sections 9b, a resulting arc therefore on the composite material with arc-extinguishing Properties is based.

To make it easier for the rotor to run into the contact spring pairs 3, are these on their input side - as shown in Fig. 5 - open wedge-shaped.

The modification shown in FIG. 6 of the FIG.

1 to 5 switch shown is characterized in that the Rotor contact pieces 18 made of conventional contact material without any arc-extinguishing Contains additives, whereas the contact pieces are divided at the ends of the contact springs 3 are in a section 19a made of a common contact material without arc-extinguishing Additions and a section 19b made of a composite material with arc-extinguishing Additives.

A multipole switch can be put together by adding several the arrangements of rotor and stator shown in the figures in the direction of Switching axis 5 arranged one behind the other and through the bolts 2 and the switching axis 5 connects to a structural unit.

A directional lock 17 for use in those described above Fig. 6 shows switches. It consists of a rotatably mounted on the axis 5 Ratchet wheel 10, which has four locking recesses 11 arranged in a 90 ° position, which on the one hand by a radially extending shoulder 12 and on the other hand by a convex inclined surface 13 are limited. In a rigidly connected to the stator 1 Bushing 14 is a plunger 15, which by a spring 16 against the peripheral surface of the ratchet wheel 10 is pressed and cooperates with this as a pawl. at Rotation in the direction of arrow 6, the pawl 15 is through the Inclined surface 13 pushed back into the socket 14 until it exceeds the next shoulder 12 snaps into the adjoining recess 11. When reversing the direction of rotation the ratchet wheel runs with the shoulder 12 against the pawl 15 and is blocked. If the pawl 15 is in one of the recesses 11, the switch is either switched on (Fig. 2) or switched off (Fig. 1).

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Claims (6)

"Electrical switch Claims: 1. Electrical ON / OFF switch with one or more pairs of contact pieces, the contact pieces for opening and closing of the switch are movable relative to one another and each of which has a contact piece consists of two sections arranged one behind the other in the direction of movement, of one of which is formed from a contact material with high electrical conductivity while the other is formed from a composite material which both contains a metal component as well as substances which the erasure of the Schaltli.chtbogen favor, characterized in that the switch is designed as a rotary switch is which one or more movable contact pieces (9, 18) at a distance from the switching axis (5) on a rotor (7) and the one or more immovable Contact pieces (8, 19) with a corresponding distance from the switching axis (5) on one Stator (1) carries that a directional lock (17) is provided, which rotation of the rotor (7) allowed only in one direction (6), and that in the off two different sections (9a, 9b; 19a, 19b) existing contact pieces (9,19) their order with regard to the predetermined direction of rotation (6th) of the Rotor (7) is chosen so that switching on is always through contact between Contact sections (8, 9a; 18, 19a) with high electrical conductivity and that Always switch off by separating the contact with one made of the composite material Contact section (9b; 19b) takes place. 2. Switch according to claim 1, characterized in that the directional lock (17) is designed as a locking mechanism, which the rotor (7) in the ON position of the switch can only click into place as long as the contact piece pair (s) (8, 9; 18, 19) the contact is not made on a contact section (9b; 19b) made of the composite material takes place with arc-extinguishing property. 3. Switch according to claim 1 or 2, characterized in that the Rotor (7) and stator (1) each two diametrically for the purpose of double interruption opposite contact pieces (8,9; 18,19) wear. 4. Switch according to one of the preceding claims, characterized in that that he arranged several in the direction of the switching axis at a distance one behind the other Has contact pairs. 5. Switch according to one of the preceding claims, characterized in that that the rotor (7) the one or more contact pieces (9) with the arc-extinguishing Composite material bears. 6. Switch according to one of the preceding claims, characterized in that that the contact pieces (9) with the arc-extinguishing composite material as a contact knife are formed, which when switching on in the gap of the mating contact forming Contact spring pairs (8) are introduced.