SU340343A1 - MICRO SWITCH - Google Patents

Description

The invention relates to the field of electrical equipment and is intended for switching control circuits. Known microswitches containing fixed contacts and a movable contact located at the end of the contact spring, equipped with side cantilever blades on the side of the cops, the other end of which is reinforced between two U-shaped stops. The proposed microswitch differs from the known ones in that the contact spring F. The attachment zone is provided with side lobes, the ends of which are rigidly fixed on the U-shaped stops. Such implementation of the microswitch allows to increase the service life and reliability in operation. FIG. 1 shows the described microswitch, a cut; in fig. 2 shows a contact system; in FIG. 3 - contact spring. The microswitch consists of a housing /, from which contact pillars 2-4 are fixed, covers 5 with a pusher 6, having the ability to move freely in the cover with 1 gaps. Fixed contacts 7 and 5 are fixed on racks 3 and 4. An instantaneous mechanism is fixed to a rack 2 fixedly attached. bearing at least one movable contact 10, the lower and upper U-shaped plates 11 and 12, between which the contact spring is embedded and clamped using the locking elements 13 and 14, made in the form of a rod, bracket, etc. Contact spring close to coreform. It has an average oblong element 15, on both sides of which a pair of cantilever petals 16 and 17 are located towards each other on the side opposite to the contact zone and a pair of side lobes 18 and 19 on the side of the contact zone. At the ends of the cantilever ribbons 16 and 17 there are holes or grooves for the locking elements 13 and 14, by means of which the contact spring is connected with the rest of the elements of the instantaneous action mechanism. In the area of cantilever ribbons 16 and 17 at the end of element 15, a hole 20 is made of such a shape that allows free movement of the built-in section of the contact spring between the U-shaped plates and the impact of the pusher 6 on it. 2. In the initial position (see Fig. 1), the movable contact 10 is pressed against the upper fixed contact 7 due to the combination of the elastic effect of the cantilever petals IS and 17 of the element 15, stretched by compressed side lobes 18 and 19, which The latter tend to turn the spring relative to the pinching point of the cantilevered petals 16 and P.

When, under the influence of external forces, the pusher 6 presses the element 15 down, overcoming the upward combined forces of the remaining parts of the contact prulsins, the spring section embedded in the gaps of the U-shaped plates, tends to rise slightly upwards in the direction of the upper plastic 12.

Upon further movement of the pusher, the built-in section of the spring changes the direction of movement downward to the bottom plate 11 and the moment of the equilibrium of forces passes, the combined force of the remaining parts of the spring is reversed. The reversal causes the spring 9 of the movable contact 10 to quickly shift down to the lower non-moving contact 8. During the same period of time, the built-in spring section quickly changes the direction of movement back to the upper plate 12. This process occurs when the plunger 6 is working directly. the downward movement of the pusher after actuation of the built-in spring section changes the direction of movement to the opposite, i.e., towards the bottom plate 11.

When the pusher reverses, the element 15 accompanies it, and the built-in spring section moves upwards, then when the pusher passes the equilibrium point, changes the direction of movement to the opposite, and at further pusher movement (backward movement) again changes the direction of movement upwards to the upper plate. 12 and so on until the pusher, and with it the contact spring, take the initial position - rest state (see Fig. 1).

The spring section 9 embedded in the gaps of the plates 11 and 12, during operation of the microswitch, undergoes complex oscillations and deformations on relatively small sections of the path, which are caused both by the size of the gaps between the plates, their design and shape, and the shape and design

contact prulshny. With complex oscillations relative to the places of protection of the ground of cantilevered petals 16 and 17, this section of the spring does not come into contact with either the top or the 5 with the bottom plates 11 and 12, but freely fluctuates in the gaps between them. During periods of oscillation of the spring section of the microswitch, the movable contact 10 of the spring abrades its contact surfaces relative to the surfaces of the fixed contacts 7 and S. The transfer of force from the pusher 6 through the spring to its outer end (contact zone) inevitably deforms element 15 and leads to the accumulation of energy in it, which is released at the time of the reversal and increases the speed of movement of the contact 10. When the operating point for one of the directions is reached, the pressure of the back contact 10 to one of the fixed contacts such as are for 7 or

8 is zero. However, the time during which the zero pressure condition arises is so small and the reversal point is so precisely fixed that even with very slow movements of controllers

From the stops, for example, the micrometer screw in the measuring device, instantaneous opening of contact 10 with contacts 7 and 8 is observed.

The spring mechanism is protected by excessive overloads by means of a shoulder on the pusher 6, which rests on the blocks of the U-shaped plates of the mechanism of instantaneous action.

Subject invention

A microswitch containing fixed contacts and a movable contact located at the end of a contact spring equipped with side cantilever blades on the contact side, the other end of which is fixed between two U-shaped stops, characterized in that, in order to increase service life and reliability in operation, the contact The spring in the attachment zone is provided with side lobes, the ends of which are rigidly fixed on U-shaped stops.

five /; 12 b.

. / 2

Fig 2

15/9