DE2322949C3 - Electric switch - Google Patents

Description

In an embodiment of the invention, between the Actuating member and the tiltable contact unit have a leaf spring resting on their center

Preferably, the tiltable contact unit is provided with an elastic projection that with the Actuator is coupled.

Further refinements of the invention see stops on the tiltable contact unit and possibly also on the actuating member in front of which the elastic projection of the actuating member in the direction of movement comes to the plant. If the actuator is designed as a slide, the Side walls of the housing can expediently be laterally pulled forward essentially up to the level of the slide. In this way, unintentional involvement can be virtually ruled out.

Furthermore, it is provided according to the invention that the tiltable contact unit in a manner known per se is tiltably mounted centrally on a further contact piece, for which purpose the bearing axis is known per se pin may have, each in one of the inner walls of the housing formed cavity sit.

Embodiments of the invention are explained below with reference to the drawing. In it shows

F i g. 1 shows a cross section through a switch with contacts in the closed position.

F i g. 2 and 3 cross-sections of the Shah of FIG. 1 during or after switching to the oil position, _Jo

F i g. 4 shows a cross section of a modified switch in connection with a flush-mounted switch.

F i g. 5 is a plan view of the switch of FIG. 4 in Direction of arrow C,

F i g. 6 shows a sectional view along the line VI-VI in FIG. 4,

F i g. 7, 8 and 9 each show an oblique view of parts of a tiltable contact unit of a switch,

Fig. IO is an oblique view of the parts from F i g. 7 to 9 composite tiltable contact unit and

F i g. 11 is a sectional view similar to FIG. 4, however in a modified embodiment of a switch.

It can be seen from FIG. 1 to 3, that a switch has a housing 9 made of insulating material, on the bottom of which a first connection terminal 16 and a second connection terminal 17 made of magnetic material are attached in any conventional manner, to which connecting lines and electrical circuits are connected by means of screws 18 be able. At their ends located in the interior of the housing 9, the terminals 16, 17 carry fixed contacts 14 and 15, respectively. In addition, a tiltable Kontakteinhr-it 3 is provided, the contact piece of which bridges the fixed contacts 14, 15 in a first or closed position (FIG. 1) and can be moved into a second or open position (FIG. 3). Between the movable contact unit 3 and an actuating member 24 designed as a rocker is a permanent magnet 1, which is supported by a spring 26 on the actuating member 24 and can be moved together with the elements 24, 3, as well as with the fixed cones 14, 15 and / or other magnetic parts attached to the housing 9 cooperate in such a way that the tiltable contact unit 3 is held in one or the other of the above-mentioned positions with the respectively necessary contact pressure. On the permanent magnet 1 is made of non-magnetic material, for. B. copper, existing tiltable contact unit 3 fixed positively and / or cohesively. In contrast, the terminals 16, 17 are made of magnetic material, for example iron; outside of the bottom of the case, they wear attachment fasteners, which in the embodiment of FIG. 1 to 4 drawn as screws 18; are, but can be designed as a plug-in coupling, soldering lugs and the like in any other way.

The actuating member 24 is designed as a hollow rocker or lever between its inner wall 25 and the permanent magnet 1, the leaf spring 26 is inserted, which is on the rear side 27 of the permanent magnet 1 rests or is attached to it. The ends 28 of the spring 26 sit on the inner wall 25 of the actuating member 24.

Should the switch be compared to the one shown in FIG. 1 drawn Position are operated, an action, for example by finger pressure, in the area of the Point 29 of the actuating member 24. In a first movement phase presses the rocker 24 da.bei the spring 26 at its upper end 28 so that the latter at the rear 27 of the permanent magnet 1 comes to rest (FIG. 2). As soon as the force acting at point 29 the effective holding force of the permanent magnet 1 on the terminal 16 exceeds the tiltable Contact unit 3 from fixed contact 14 and goes into rapid tripping without movement instability the open position via (Fig. 3). It should be noted that the tiltable contact unit 3 can not be held back, even if you click on the actuator or on the rocker 24 accordingly seeks to influence. The permanent magnet lifted by the latter and pressed by the spring 1 can freely move into the position of FIG. 3 arrive. This is supported by the fact that the Transition from the closed to the open position, the attraction force of the permanent magnet 1 on the terminal 16 decreases inversely proportional to the square of the distance, while at the same time the Attractive force towards an upper stop 20. which is also made of magnetic material and on Housing is attached in the same way as the terminals 16 and 17, increases accordingly. As soon as so the permanent magnet 1 has reached a position. in which it has half its pivot angle has exceeded, then the force of attraction to the stop 20 prevails and increases sic'i while the attraction to the terminal 16 decreases more and more.

Should the described arrangement not be used with a breaker, but with a changeover switch it is sufficient to provide a further terminal in place of the stop 20, which is designed in exactly the same way and can be attached, if the lower connection terminal 16.

F i g. 4 shows the simple application of a switch in an industrial electrical installation and precision switches particularly suitable for domestic use. A housing made of insulating material 31 is designed as a one-piece element that ensures insulation from all metallic parts, the terminals 16, 17 with the fixed Koniakten 14, 15 and the stop 20 hold for the Movable contact unit 33 defines the necessary guide and the contact points, the egg actuation member 65 leads and hold and finally forms the cover 51 of a box 52, which is used as a Unuxputzinstallation

can be embedded in the wall.

The parts of the tiltable contact unit 33 with the permanent magnet 34 are shown in FIGS. 7 to 9 drawn out in perspective in order to show the differences from the embodiment according to FIG. 1 to 3 to clarify. Fig. 10 shows the assembled tiltable contact unit 33 by itself. It has an actuating member or a rocker 32 with two bearing pins 35 and projections 36, which fix the tiltable contact unit 33 in its position , which engages lugs 37 thereon in the middle. The tiltable contact unit 33 has tabs 38 which are bent back and which enclose the permanent magnet 34 on its end faces 39, 40. For assembly, the permanent magnet 34 is placed on the tiltable contact unit 33, whereupon these two parts are brought together into the actuating member or the rocker 32 (FIG. 10). The distance between the projections 36 and the outer surface or plane 41 of the rocker 32 is equal to the sum of the thickness dimensions of the permanent magnet 34 and the contact unit 33. The actuating member 32 consists of elastically flexible material, for example an acetal resin. During the assembly of the contact unit 33: and the permanent magnet 34, the side walls 42, 43 widen in order to snap into their end position after the permanent magnet 34 and the contact unit 33 have engaged and to securely hold the movable contact unit as a whole (FIG. 10).

The actuator or rocker 32 is provided with a spring tongue 44, the angled handles 45, 46, 47 and consists of a solid, at the same time elastic material. As a result of training this leg 45, 46, 47, the tongue 44 has spring properties. It! Can only be pressed in one direction, which it is against one of the edges or side surfaces 48 and 49 moved so that the tongue 44 has two locking positions which their displacement in the Limit opening of the actuating member 32.

The in F i g. The contact unit 33 shown in FIG. 10 is inserted into the insulating housing 31 (FIGS. 4 and 6) in such a way that the bearing journals 35 snap into recesses 50. On the side facing away from the connection terminals 16, 17, the housing 31 is closed by the cover or the cover plate 51. This covers the cavity of the box 52, which is let into the wall and, via an insertion tube 53, receives electrical lines or cables 54 which are fixed to the terminals 16, 17 with the screws 18. The insulating housing 31 is fastened to the wall with the cover 51, for example by means of screws 55 which engage in threaded holes of angles 56 which are attached in the box 52 (FIG. 6).

The cover 51 has an interior 57 which is delimited by walls 58 to 63 and 69 (FIG. 4) and 58 and 64 (FIG. 6). As soon as the housing 31 is provided with the movable contact unit 33, a a slide formed actuating member 65, which occupies the interior space 57, secured to mounting of the actuating member 65 it is pushed under the wall 61, pressed against the wall 59 and then deformed by any tool that the edge portion 66 passes the inner space 57, which ai viicM. ·! · Sielk (is limited amphibian the wall 62nd NaCl 65 accepts the insertion of the actuating member in the inner space 57 of this return to its original For η in which g in F i. 4 and 6 is shown. It can be seen Since it is locked into the interior 57 and cannot slide out because its length is greater than the distance between the walls 59/62 and 60/69. In the interior 57, the actuator 65 can slide freely, whereby it in its position between walls ei 86 and 67 is held and sits in recesses wel before the walls 58 and 61 are limited. The walls 59, 60 of the interior 57 form limiting stops. Nutenwändc 68 jump towards the inside of the actuating member 65 and engage on the leg 47 egg spring tongue 44, by means of which the tiltable Koniakteinheit 33 can be actuated.

Fig. 4 shows the trained as an interrupter!

Switch in the closed position of its contacts. For the Transition to the open position is sufficient. on the grill surface of the actuator 65 a force in Actuate direction of movement 71 to exercise. In a first movement phase of the actuator 65 is there in dii The spring tongue 44 is deformed until it reaches the edge or Be ten surface 48 comes to the plant. From there onwards:

Actuating member 65 directly on the movable contact unit 33, so that it snaps around the fixed contact 15 as a pivot point or pivot point in the actuating device 72. As soon as the ^! 3ciäti supply process applied force the effective holding force of the permanent magnet 34 on the previously closed fixed contacts 14. 15 overshoots. the contact unit 33 tilts in the actuation direction T.

and thus in the open position, which that of Fig.

is equivalent to. Similar to the exemplary embodiment drawn there, the transition from the closed position to the open position of the contacts takes place without the tiltable contact unit 33 being able to be held up or held back when the operating process is initiated Spring 2 ((Fig. 1 to 3) or the spring tongue 44 (Fig. 7 and 10 takes over, is shown in Fig. 11. In contrast to Fig. 4, the actuating members 65 and 32 Here a different construction. Instead of a spring tongue 44, the rocker 32 has a slot-shaped recess delimited by walls 73.7 For the operating process, it is sufficient for the actuating member 65 to be actuated as explained above with reference to FIG . 4, the tongue 75 producing the same effects as the spring tongue 44.

It can be seen that the switch has a novel movement mechanism Be The actuator 6; does not project beyond the cover 511, so that practically eil accidental switching neither too close Before beigehen nor lean, abutting od. like mög lent The required for the switching operation Actuate the supply may in this case in the wall plane, in the vertical Rich tung 71 ( F i g. 4).

For this purpose 2 sheets of drawings

Claims (3)

Patent claims: 1. Electrical switch, in particular installation switch, with an actuator and with at least two made of magnetizable material fixed contact pieces that are rigidly connected to terminals or in one piece and in a housing made of insulating material opposite a tiltable one having a permanent magnet Contact unit are arranged so that the latter is pulled into one of its two permanent positions and iFt fixed therein releasably with contact pressure, thereby characterized in that d'e movable contact unit (3, 33) unier interposition an elastic connecting member (26, 44, 75) movably connected to the actuating member (2, 32, 65) is. 2. Switch according to claim 1, characterized in that between the actuating member (2) and the tiltable contact unit (3) has a leaf spring (26) resting at its center (Figs. 1 to 3). 3. Switch according to claim 1 or 2, characterized in that the tiltable contact unit (33) is provided with an elastic projection (44). which is coupled to the actuator (65) (Fig. 7). 4. Switch according to claim 3, characterized in that that the tiltable contact unit (33) has stops (48, 49) to which the elastic Projection (44 or 46) comes to rest in the direction of movement (71, 72). 5. Switch according to claim 1 or 2, characterized in that that the actuator (65) designed as a slide and with an elastic Projection (46, 75) is provided which is coupled to the tiltable contact unit (33) (Fig. 4 until 6). b. Switch according to Claim 5, characterized in that that the tiltable contact unit (33) has stops (73, 74) to which the elastic Projection (46, 75) of the actuating member (65) comes to rest in the direction of movement. 7. Switch according to claim 6, characterized in that that the actuator (65) stops (76.77) for its elastic projection (46.75). 8. Switch according to one of claims I to 7, characterized in that the side walls of the housing (9, 31) laterally essentially up to the level of the actuating member designed as a slide (65) are preferred (Figs. 4, 6 and 7). 9. Switch according to one of claims 1 to 8, characterized in that the tiltable contact unit (33) is mounted tiltably in the center on a further contact piece (15) in a manner known per se is. 10. Switch according to claim 9, characterized in that that the Lagerachsc of the tiltable contact unit (3. 33) known pin (5, 35) has, each in a cavity formed by the inner walls of the housing (9, 31) (10. 57) sit. 65 The present invention relates to an electrical switch, in particular an installation switch. with an actuator and with at least two fixed contact pieces made of magnetizable material, which are rigidly connected to terminals or in one piece and are arranged in a housing made of insulating material opposite a tiltable, permanent magnet having contact unit so that the latter is drawn into one of its two permanent sticks and therein is releasably set with contact pressure. Such a switch is described in FR-PS 13 29 674. In this case, the speed of the manual actuation directly influences the switching process. If, for example, the interruption process occurs slowly, an electrical arc of longer duration occurs, which leads to contact erosion. This not only reduces the useful life of the switching contacts _f and thus of the entire device, but also affects other disturbances, for example the generation and transmission of voltage and current surges in the form of radio interference signals that affect other devices connected to the same electrical network, z. 3. Radios, televisions, etc. The generation of sparks and electric arcs can sometimes be the cause of significant difficulties, such as operating a switch in a gas-filled room, which can even be devastating with flammable gas. The object of the invention is to provide a switch with simple, economical means that is used in cheaper production and quick assembly ensure long, reliable operation and both a Rapid release of the contact control mechanism as well as ensuring the required contact pressure. In an electrical switch of the type mentioned at the beginning Art is provided according to the invention that the movable contact unit with the interposition an elastic connecting member is movably connected to the actuating member. The elastic connection made possible by this allows pressure-wise actuation for opening as well as to close the connected circuit, namely with the one caused by the magnetic field of the moving contact predetermined speed and regardless of the speed of the Manual actuation of the switching element. As a result, an electrical switch is realized by the invention, when / wiping the contacts, no electrical arc of appreciable duration occurs, when the switching element is operated slowly. Therefore a burn-off of the contacts is avoided and a long service life of the switch guaranteed. The element that causes the jerky closing or opening which triggers contacts is completely independent of which organ is the correct one Causes contact pressure. In addition, the switch according to the invention satisfies all safety requirements despite much cheaper series production compared to conventional technology. The inventive elastic coupling of the actuator with the tiltable contact unit in such a way that the course of movement the triggered sound process is completely independent of the actuation speed, has proven particularly useful in precision devices, microswitches, thermostats, limit switches. Pressure switches etc. proved to be desirable or extremely advantageous.