SU746760A1 - Magnetically-operated contact - Google Patents

Description

The invention relates to switching devices of electrical circuits and can be used in the design of relays, switches, switches and other switching devices with manual and mechanical control, used in various control systems, control, monitoring, control devices of various branches of engineering. The magnetically controlled contacts ferromagnetic contacts-parts, which are sunk into a sealed cylinder, are closed under the influence of a field of a certain size created by a winding or a permanent magnet 1. The disadvantage of such magnetically controlled contacts is their relatively low vibration and overload stability. The fact that the movable contacts-parts, made in the form of a console, under the action of inertial forces are mixed and closed. Magnetic-controlled contacts containing a sealed 6aJV-lon, ferromagnetic stationary contacts-parts welded into the opposite ends of the cylinder on opposite sides of its longitudinal axis with a gap and overlap relative to each other, are known, fixed to the ends of the cylinder and located along its longitudinal axis , and a ferromagnetic movable contact part, fixed in the middle part of the rod and forming a bridge type 123 contact with ferromagnetic stationary contact parts. The specified magnet Managed contact has a sufficiently high overload capacity, but it is complex in design and not technological. The aim of the invention is to simplify the design and improve the manufacturability of the Magnetically controlled contact. This is achieved by the fact that the middle part of the non-ferromagnetic rod is made with a symmetric zigzag

bending, and the movable contact part is located in the middle of the rod.

FIG. 1 shows a magnetic control loop ;, FIG. 2, section A-A of FIG. one.

Magnetic contact soderstones sealed cylinder 1 with fixed ferromagnetic contacts sunk into its opposite ends - parts 2 and 3 and non-ferromagnetic rod 4 with a zigzag bend in the middle, the middle part 5 of which is perpendicular to the longitudinal axis of the cylinder 1. In said middle part there is a ferromagnetic contact piece 6. Movable rod 4 is injected into cylinder 1 either without external leads (Fig. 1) or with external leads. Work contacts are set between contact part 6 and fixed contacts parts 2 and 3. ora o, f. The contact parts 2, 3 and 6 are made of a magnet of a soft material (for example, permallo), and the rod 4 is made of a non-ferromagnetic material (for example, phosphor bronze). Contact part 6 can be made either in a single piece or in the form of a soft magnetic material in the middle part of the rod 4. The cross-sectional shape of the contact-parts can be just rational for defining the desired shape of the working eases. The torsion design of the rod 4 does not allow the middle ei4 to be reversed under the action of the linear strengthless forces of any right-handed force, which allows the contacting of contact-parts-6 and fixed parts 6 and 3 to be fixed. , causing it inerdionnoe compulsiveness. Contact parts can only be closed at angular accelerations, HanpiBiBneHHbix around the longitudinal axis of the ballon 1. However, this mode of operation for all types of magnetically controlled contacts is C1C4. During flow of the control magnetic flux along the contact of the parts 2, 3 and 6 in the working gaps o, § develops tensile forces that rotate the middle part of the rod 4 around the longitudinal axis of the cylinder 1. The moving contact part 6 closes with the fixed

contacts, parts 2 and 3, switch control circuit. The role of elastic elements is performed by the longitudinal coaxial end sections of the rod 4 sealed in the cylinder 1.

Claims (2)

The magnetic energy expended to conduct the magnetic flux through each working gap is expended on the development of a torque twisting the elastic sections of the rod 4. Summing the developed torque needed to close the contact parts on the same elastic element doubles the sensitivity of the magnetic control. ontact. Therefore, the proposed magnetic control & t is much simpler in design and its manufacturability is higher. Claims of the invention: A magnetic contact containing a sealed cylinder, ferromagnetic stationary contact parts, w / o in the opposite ends of the cylinder on opposite sides of its longitudinal axis with a gap and overlap relative to each other, a non-ferromagnetic rod fixed at the ends of the cylinder and located along its longitudinal axes, an iferromagnetic movable contact part, fixed in the middle part of the core and forming a bridge-type contact with ferromagnetic stationary contact details, from l and h And in order to simplify the design and improve the manufacturability of the magnetically controlled contact, the middle part of the non-ferromagnetic rod is made with a symmetric zigzag-like bend, and the movable contact part is located in the said middle part of the rod. Sources of information taken into account in the examination 1. Dikovsky Ya. M., Kapralov I. I. Magnetically operated contacts. -M .: Energii, 1970. 2. Patent. USA number 2706756, cl. 335-154,1953.