SU546030A1 - Multipoint switch - Google Patents

Description

ladies of the cylindrical base of the stator, pivotally fixed by both rings in the stator slots, the springs turned each other at an equal angle. The rotating rotor is made of insulating material in the form of a regular polyhedral rectangular prism. With the number of lateral faces, the number of contact springs is equal to, and the distances from the center of the shaft to the faces and contact springs are equal. The rotor positions are fixed by the stator contact system. In the proposed switch, the mechanical and electrical functions of the contact springs are separated, i.e., the contact springs supporting the rotor; in one of the positions, they interact with the contact element of the stator, which, in turn, has a beneficial effect on the reliability of the switch as a whole. The proposed switch koistruktivtso and tehnols-gicheoki simple. The use of plastic molding for the manufacture of parts makes it possible to eliminate errors in the assembly of the contact stator field and ensures the repeatability of the electrical parameters during serial production. The proposed switch is free of fasteners and does not require contact adjustment. On f:; g. I shows a general view of the described switch, a section; pas figs. 2 is a section along A-A in FIG. one; in fig. 3 - general view of the rotor switch; in fig. 4 - sections; in BB and B-B in FIG. 3

The switch consists of a stator / and a rotor 2 enclosed in the housing 3. The stator 1 includes L-shaped cylindrical spring contacts 4, "common contact 5, which are housed in the holes 6 of the base 7. L-shaped contact contacts (FIELD The stator / allows the use of both volumetric and printed wiring. The number of contacts 4 and 5, locally taken, corresponds to the number of rotor positions (for example, the number of Positions is equal to ten and the number of contacts is equal to ten). 5 located in different areas on equal chords of polo The cylindrical base 7 is rotated relative to each other at an equal angle. The ends of the L-shaped contacts 4 and 5 are located in the openings 8 formed in the "morning surface of the ascorpus 3 and the outer surface of the base 7. The outer parts of the contacts 4 and 5 serve as conclusions for connecting

with switchable electrical circuits. The base 7 and the body 3 are made of an insulating material and are in the form of cylindrical glasses. The rotor 2 carries a contact element 9 having contact surfaces 10 and 11 (for example, semi-cylindrical).

The insulator part 12 of the rotor 2 has the shape of a regular polyhedral rectangular prism. The number of side faces of prism 12 corresponds to the number of (switch positions. The combination of the prism 12 and the contact field of the stator 1 formed by the L-shaped contacts 4 and 5 is a fixture of the operating positions of the proposed switch.

The contacting surface 10 of the contact element 9 located ino to the entire height of the contact stator, which is a continuation of the contact surface 11, contacts in series with all the contacts 4 when the rotor is rotated .2. Contact surface 11 is in contact only with -contact 5 in any working position of the rotor. In one of the positions of the rotor 2, the contact surface 10 is located opposite the contact 5 and does not interact with any of the contacts 4. All other contacts 4 fix the position of the rotor 2.

If you need to have another scheme

The switching changes the configuration of the contact element 9 of the rotor 2 accordingly.

Claims (2)

1. Copyright certificate № 425230, M. Cl.2 HiOl H 21/76, 1971. 2. Patent of Germany No. 259638, cl. 21 a, 72/02, 1952 (prototype). i-I A-A 2 / ten  t-1  3 3 - 8 if