DE886484C - Electrical snap switch - Google Patents

Description

Electrical Snap Switch There are a large number of snap switches and snap mechanisms known; most of them require one to operate large actuation work (actuation work = actuation pressure X actuation travel), others have a contact pressure that goes back to zero up to the snap point.

The snap switch according to the present invention avoids this Disadvantage.

Fig. I shows the most essential part of the snap switch, the snap spring. It is formed from the five longitudinal strips ia to ie, of which the two outer longitudinal strips ia and ib and the three central longitudinal strips ic, i d and ie are connected at one end by a transverse web 2 a and 2 b , respectively an outer longitudinal strip ia or ib are connected to its neighboring ic or id at its other end by a short transverse web 2c or 2d, which carry the movable contact pieces or the bearings for them. The crossbar 2 a contains two short tongues 3, q. for the lateral limitation in the cutter bearing, and in the crosspiece 2 b, a slot-shaped hole 5 is provided for receiving a transmission element for the actuating pressure.

Fig. 2 shows an example of the structure of a snap switch according to the invention. The insulating housing with the fixed contact is not drawn.

The snap spring i is in the cutting edge bearings with the crossbar 2a 6 and 6 a of a bearing bracket and is supported by the part 7, which is the side spring represents and is tensioned by the screw 8, kept under pressure so that in the two outer stripes i a and i b and the central longitudinal stripe i e longitudinal print, while in the other two (i c and i d) there is a longitudinal pull. On one crossbar 2 d the bearing g for the bridge contact = o is arranged, the in the position shown (rest position) from below against two not shown Contacts with the contact pressure is pressed. The other short crosspiece 2 c lays in the other position (actuated position) from above with one of the contact pressure corresponding pressure against the counter pressure screw ir. The pressure generated by screw 12 adjustable stop 13 with its two legs = 3a, = 3b limits the movement the snap spring on its crosspiece 2b. The actuating spring 14 presses with a storage effect via the connecting part 15 on the crosspiece 2 b. You won't even by one drawn pen-shaped actuating part at a distance from its support, which makes up about a third of the length of the actuating spring, brought into effect.

The mode of operation of the snap switch should be based on the schematic Drawings Fig. 3 and 4 and the diagram Fig. 5 will be explained.

Figure 3 shows the system in the rest position. But it already works Force P on the actuating spring, which is just not big enough Causing snap.

Fig. 4 shows the system in the actuated position. In the diagram Fig. 5 shows the forces on the snap spring (on the point of application K of the actuation reduced, the pivot point is the left cutter bearing 6, 6a) on the vertical axis shown, while the path of the point of attack 5 is shown on the horizontal axis is. The rest position shown in Fig. 3 corresponds to the left side of the diagram.

In this position, the component of the side spring has its greatest value corresponding to the sine of the angle a between the connecting line of the knife edge bearings 6, 6a with the knife edge bearing on the part? and the longitudinal strip of the snap spring. With a sufficiently small starting angle, about 8 °, it decreases in a straight line to zero up to the angle o ° (curve b). This state should be reached on the right side according to path a. In the rest position, the component causes the contact pressure force on the transverse web 2 d and also a force on the transverse web 2 b, which in the rest position is absorbed by the stop z3 a. The contact pressure force increases, as shown in the diagram by curve c, up to half the way o to to zero and then opens according to the way to a. At the point uses the second contact pressure spring 2c, which, if no second contact is desired as in this example, only has to supply the counter pressure at the stop i = and reaches its full force in the end position corresponding to point a, since this force turns to the left, it is applied downwards. These forces (curve b and c) result in a resulting force (curve d) which must be overcome by a corresponding opposing force (curve e) if the system is to move.

If a force P (Fig. 3) acts via a spring 14 as a force K on the snap spring and force K increases up to K1 corresponding to P, where K, is greater than the minimum force (see diagram curve e), then snaps the system in the final position when the spring characteristic is flat, the force DAB _K, at any point of the path o ... a smaller than the associated minimum force. However, if the force P, in the end position (Fig. 4) decreases to the force P and thus force K, to K, which is smaller than the minimum force in the end position a, the system snaps into its starting position o, as the force According to the constant of the spring, K does not increase so much that it becomes greater than the minimum force at all points along the way.

The snap switch can be designed as a changeover switch, on or off switch will.

Claims (3)

PATENT CLAIMS: e.g. Electrical snap-action switch with one-piece, flat snap spring made of resilient sheet metal in combination. with a side spring and an actuating spring, characterized in that the snap spring consists of five Longitudinal strips are formed, of which the two outer longitudinal strips and the three middle longitudinal strips connected at one end by a cross web are, while in each case the outer longitudinal strips at their other end with the adjacent inner strip through a short each of the moving contact pieces or their bearings supporting transverse web are connected, and that the connecting the outer longitudinal strips Cross web on the one hand and the middle longitudinal stripe on the other hand in cutting lean are stored, in a manner known per se by the resilient force of the middle Strip itself and / or a side spring, the two outer ones and the middle one Longitudinal strips are under longitudinal pressure and the other two are placed under longitudinal tension, so that the snap spring connects to the two outer longitudinal strips Cross webs and the point of attack connecting the three central longitudinal strips for the actuation containing crossbar from the flat shape into one of the two Moved end positions limited by stops or fixed contact pieces. 2. Electric Snap switch according to Claim z, characterized in that the side spring is through a tongue of the bearing frame is formed. 3. Electrical snap switch after Claim z and 2, characterized in that it is used as a switch, switch or Changeover switch is formed.