DE937712C - Snap switch - Google Patents

Description

Snap-action switch For switching tasks where because of the large switching capacity no creeping switching is possible, on the other hand the switching capacity is not Snap switches are so large that it is worth using contactors applied. For this purpose, snap switches are known, inter alia, in which the movable Switching piece is arranged on a resilient element, which when actuated has the property to snap over to one side or the other over a dead center position. In principle, all known resilient elements consist of a leaf spring whose a part is kept under tension, namely by having one or more parallel for this part provided legs of the spring under a certain bias in corresponding cutting edge bearings are supported. Snap springs are also known those made up of two or more juxtaposed, connected at both ends There are leaf springs, at least one of which is shortened by bending so that that the others emerge resiliently from the plane common to the ends. Such Springs do not require cutting edge bearings.

Subject of the described below, in Figs. I to q. shown Invention is a snap switch with a novel snap spring, which is also No cutting edge bearings or the like. Required. This spring is known per se Way from a coherent die cut with three longitudinal stripes on both Ends are connected by two transverse strips. The two transverse strips are according to the invention so at their ends in opposite directions bent, that the spring curves into a snap spring.

Compared to the known springs with bends in the longitudinal strips the spring according to the invention has the advantage of being much simpler and more accurate Production. In Fig. I the snap spring is shown in three dimensions, in Fig. 2 it is Stamp shown before bending. The snap spring i consists of a spring-loaded Sheet made from the longitudinal strips i, and ib and the transverse strips i, and 1d formed closed frame with a median strip ie. The one end crosspiece i, is preferably the width of the two outer strips i "and ib around one Requirements corresponding angle, preferably 45 °, upwards and the other End transverse id bent downwards by preferably the same angle. These bends cause the outer strips to twist in opposite directions. The resulting The interplay between compression, tensile and torsional forces is created by a curvature of the snap spring result. Since now the twisted outer strips with equal bending angles of the End cross-bars each have a zone approximately in the middle, which is parallel to the plane of the median strip and act like a spring joint, the snap spring always snaps into the curvature position, that of the location of the plane of the median above or below the plane of the parallel corresponding to lying zones. The snap spring is actuated by pressure by means of an actuating part on the median strip at a point between the attached end of the snap spring and the zones parallel to the median of the twisted outer strips. By choosing the position of this point, the actuation path between snapping and snapping back and the actuation force within small limits can be varied. It goes without saying that actuation by pressure in the opposite direction is also possible Direction of the two outer strips in their zones parallel to the median possible as it only depends on the relative position of the parallel zones to the median arrives. To influence the contact pressure forces and the actuation force can the spring can be bent slightly in the width of the end cross-section.

In Fig. 3 is an embodiment for one designed as an opener Snap switch shown with a snap spring according to the invention.

The snap spring i carries the switching piece 2 and at one end is at its other end by means of a screw 3 on the metal part 4, which is expedient is designed to accommodate the electrical connection, attached. In the rest position is the 2 on the fixed mating contact piece 5, which also acts as a terminal lug can be formed. The Isö, lierkörper 6 contains the stop 7 and the guide of the actuating part B. When the actuating part 8 is pressed, the snap spring snaps from the fixed contact 5 to the stop 7 and when the load is relieved again to the fixed Contact 5. The path of the actuating part 8 is extremely small in relation to the path of the contact piece. The snap @ switch can also be designed as a normally open contact j by swapping the fixed contact 5 and stop 7. Furthermore is it is possible to arrange a second fixed contact piece instead of the stop, so that the switch can be used as a changeover switch.

In many cases it is desirable that when you open the contact pieces the contact pressure reduction does not fall below a specified value and the contact separation only takes place in the area of high snapping speed. This is achieved in the switch according to the invention in that the fixed Switching pieces are resiliently arranged in a manner known per se.

Fig. 4 shows the example of such a contact piece. The contact piece 5 is io by a leaf spring to one of the desired ratios Dependent distance pushed out, whereby the attached spring io-serves as a stop. The moving contact piece of the snap spring presses when actuated or relieved in turn against the contact piece 5 and overcomes the spring io, so that now the Head 5a of the contact piece 5 serves as a stop.

If the snap spring is caused to snap back into the other position, so the contact 5 follows accordingly when the pressure of the snap spring is released its pressure; but the new position corresponds to an advanced snap spring position, so that now the snapping takes place. So in this way it becomes the contact pressure according to the spring io maintained until the moment of contact separation and the contact separation relocated to the area of the high snapping speed.

The snap spring according to the invention is not on snap switches limited, in which the spring directly controls a moving contact and is itself energized. Rather, it can also be used in snap switches, in which they, without being live, indirectly generate an independent electrical power Contact apparatus controls. It can also be used as a control element for valves or others Control apparatus are used.

Claims (5)

PATENT CLAIMS: i. Snap switch for direct or indirect Control of electrical contact devices or valves or other mechanical ones Control apparatus with an actuated by a preferably pin-shaped actuating part Snap spring made of resilient sheet metal, which consists of a closed Rafimen with a Median strip is formed, characterized in that the one end transverse (i,) at its end parts, preferably in the width of the two outer strips, by one Angle of about 45 ° upwards, while the other end transverse (id) in the same Way is bent downwards by preferably the same angle. 2. Snap switch with snap spring according to Claim i, characterized in that the Snap spring with one end preferably on one at the same time as a terminal lug formed metal part fastened by one or more suitable fastening elements is and on its other, between a fixed contact piece and a stop with Snap action moving end carries a contact piece that by means of a pressure when pressed Actuator on the median near the attached end of the Snap spring moves from rest to work position with a snap action and when the actuator is depressurized, it snaps back into the Moving rest position. 3. Snap switch according to claim i and 2, characterized in that that it is designed as a normally closed contact or as a normally open contact or as a changeover switch by da: s equipped with the movable contact piece, movable with a snap action the snap spring in the idle state or or and in the working state with a through the sheet metal thickness of the spring and the geometrical dimensions of the contact pressure force that can be determined in advance rests on a fixed contact piece. q .. Snap switch according to claims i to 3, characterized in that the snap spring for influencing the contact pressure forces and the actuation force at the attached end in the width of the end crossbar something is kinked. 5. Snap switch according to claim i to q., Characterized in that that by a suitable, known per se resilient arrangement of the fixed contact piece the snap action of the snap spring is supported and the contact separation in the area of high speed is relocated so that the desired contact pressure even in the position of the contacts immediately before switching off or after is practically retained after switching on. Referred publications: German patent specification No. 458 899; Austrian patent specification No. 168 52I.