SU1145366A1 - Multiposition programmed selector switch - Google Patents

Abstract

MULTIPOSICAL SOFTWARE SWITCH containing stator, fixed contacts placed in pairs on the stator, moving contacts, rotor and contact fixing unit, characterized in that, with a circuit for extending operational capabilities, simplifying the design and reducing material consumption, it is equipped with a contact unlocking unit made in electromagnet with a bark and stops, the rotor is made with a cam, and the contact fixing unit is made in the form of spring-loaded locking elements, with stops and springs used According to the number of movable contacts, each movable contact is made in the form of a spring-loaded pivoting lever with a ledge and a shank with a hole and is installed on the stator with the possibility of turning and closing one pair of fixed contacts, the electromagnet, stops and spring-loaded storor elements are also installed on the stator, The measles of the electromagnet are mounted on the rotor, and one of the stops is associated with one of the spring-loaded locking elements, which has the possibility of being inserted into the opening (L needless tovika movable contact with the solenoid is mounted so that it has the ability to anchor the variable interacting with the stops and the cam is located on the rotor so that the variable has the ability to interact with ramped i4 movable contacts. ate with oh oh)

Description

I The invention relates to an element of electrical equipment, and more specifically to the design of multi-position switches with angular movement of controls intended for switching according to a given program of serial and parallel circuits, and can be used in the console, matching units of radio circuits, control panels and other devices. A rotary switch is known, containing groups of sub-contacts, placed on a stationary stator circumferentially copcentric to one another with a center on a rotary axis, a rotor rigidly fixed on a rotary axis and carrying movable contacts {However, this design is not reliable in operation, and the provision of only alternate (sequential) switching of parallel circuits eliminates the selectivity (i.e., work according to a given program) control of a large number of these circuits. In addition, the design of the device allows switching only in low-voltage electrical circuits. These drawbacks generally reduce the functional and switching capabilities of the device. Closest to the invention is a multi-position program switch comprising a stator, fixed contacts arranged in pairs in a stator, movable contacts, a rotor and a contact fixing unit 2. However, this device has the ability to switch only two groups of low-voltage electrical circuits, i.e. open one group of fixed contacts and close the other, act as a switch, which significantly reduces its operating capabilities, limits its use as a program switch. In addition, the execution of the contact fixing unit in the form of permanent magnets according to the number of pairs of fixed contacts complicates the design of the device and increases its material consumption. The aim of the invention is to expand the operational capabilities and simplify the design while simultaneously reducing the material intensity. 6 The goal is achieved by the fact that in a multi-function program switch; containing a stator, fixed contacts arranged in pairs on the stator, moving contacts, a rotor and a contact fixing unit, it is equipped with an uncoupling unit of contacts with an electric lock and stops, a rotor performed with a cam, and the fixing unit of the Contacts is made in the form of spring-loaded locking elements; in this case, stops and spring-loaded locking elements are used according to the number of moving contacts, each. The movable contact is made in the form of a spring-loaded pivoting lever with a ledge and xvstovikrm with a hole and mounted on the stator with the possibility of turning and closing one pair of fixed contacts, an electromagnet, stops and spring-loaded locking elements are also installed on the stator, and the electromagnet measles is mounted on the rotor, each Of the lugs, it is connected with one of the spring-loaded stop elements, which has the possibility of inserting a movable konghakt into the hole of the shank, the electromagnet is installed so that its measles and there is the possibility of alternating interaction with the stops, and the cam is located on the rotor so that it has the possibility of alternating interaction with the ledges of the movable contacts. Fig. 1 schematically shows a multi-position program switch, general view; in fig. 2 section A-A in FIG. 1; in fig. 3 is a section B-B in FIG. 1j in FIG. Fig. 4 shows a section of a B-Iv of FIG., Fig. 5 - a section of D-Y in Fig., 1. A multi-position program switch comprises a stator consisting of an upper 1 and lower 2 boards (Fig. 2) 5 fastened together with screws 3 screwed into sleeves 4, fixed in plate 2 (FIG. 4), rotor 5 with cam 6, rotor fixation unit 5, made in the form of rings 7 and 8, fixed respectively on the rotor 5 and on the lower stator plate 2 with screws 9 and 10. In the ring 7, the holes 11 (at least one hole) are made under the fixing ball 12, pressed by the spring 13, the contact release fixing unit The cotosh contains a coil 14, an electromagnet core 15 placed in the casing 16 and fixedly mounted on the stator coaxially with the rotor 5, spring-loaded with the aid of a return pin 17, mounted on the rotor 5 of the measles 18, and the stops 19. The contact locking mechanism consists of stoppers elements 2Q, compressed by springs 21,. A pair of fixed contacts 22 are located around the circumference of the stator (Fig. 2). Under the movable contacts 23 according to the number of pairs of fixed contacts 22 are installed with the help of axes 24 on the stator and made in the form of pivoting levers. One of the arms of each lever has the ability to contact a pair of fixed contacts 22, and the other arm is connected to a return spring 25 n and contains a ledge 26 and a tail 27 with a hole 28 Shank 2 when the movable contact 23 is open, acts on the stop element 20, spring-loaded spring 21 and The plate 29 is connected to the stop 1. The spring 21 is in a compressed state, and the locking element 20 is pressed into the lower plate 2. The compression force of the spring 21 is adjusted by a nut 30. A screw 31 serves to adjust the gap between the bark 18 and the core

15 electromagnet. A bracket 32 is fixed to the rotor 5 with a pulley 33 for manual or electro-mechanical rotation of the rotor. Multi-position program re-35 wives in

key works as follows

In the initial position, all contacts are open and the rotor 5 from arbitrary turning relative to the stator is fixed by a spring-loaded ball 12..

Manually or from an external drive, a rotational motion is transmitted to the rotor 5 with the cam 6 via the pulley 33. Rotating, the rotor 5 with its cam 6 engages with the ledge 26 of the movable contact 23, and, overcoming the force of the return spring 25, rotates the movable contact 23 around the axis 24 to close it with the stationary pair of contacts 22. Simultaneously with the stirring of the ledge 26 moves and a shank 27 with an opening 28 of the movable contact 23. This shank 27, moving, slides along the end face of the locking element 20. At the moment of exit from the hook 23, the initial (open) position is returned.

Thus, when the rotor is rotated from one fixed-floor contact. In each fixed position, the rotor makes a stop, necessary for information processing (ado or not need this contact

close) If it is necessary - the rotor, turning it over, closes the next contact; if it is not necessary - the signal goes to the i electromagnet, when activated, the discharging system

rolling contact, and the spring-25 opens the contacts.

The control signals to the coil 14 of the electromagnet are pulsed either in advance

program, or according to other laws, for one rotor of the rotor 5 360 ° left one group of contacts in a closed state, and others in the open state. The duration of the control signal pulses is synchronized with the angular velocity of rotation of the rotor 5. A lazy cam 6 of the rotor 5 with a ledge 26 a sliding contact 23 reliably closes a pair of stationary contacts 22, and the center of the hole 28 of the shank 27 coincides with the center of the locking element 20, which is under the action of the spring 21. enters into the opening 28 of the shank 27, thereby ensuring reliable locking of the movable contact 23 in a closed position with a fixed contact 22. Similarly, all the fixed contacts 22 are closed when the rotor 5 is turned to Zbo, if and no external control signal is applied to the coil 14 of the electromagnet. When a control signal is applied to the coil 14 of the electromagnet at the moment when the cam 6 comes out of engagement with the step 26 of the moving contact 23, the core 15 of the electromagnet, overcoming the force of the return spring 17, attracts the measles 18, the free end of which acts on the stop 19. The last one the turn, through the plate 29, acts on the stop element 20, which, compressing the spring 21, exits the hole 28 and under the influence of the return spring 25, the movable kondrue is jammed

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Claims (1)

MULTIPOSITION SOFTWARE SWITCH containing a stator, fixed contacts placed in pairs on a stator, movable contacts, a rotor and a contact fixing unit, characterized in that, in order to expand operational capabilities, simplify the design and reduce material consumption, it is equipped with a contact release unit made in the form an electromagnet with an anchor and stops, the rotor is made with a cam, and the contact fixing unit is made in the form of spring-loaded locking elements, with the stops and spring-loaded with axial elements according to the number of movable contacts, each movable contact is made in the form of a spring-loaded swing arm with a ledge and a shank with a hole and is mounted on the stator with the ability to rotate and close one pair of fixed contacts, an electromagnet, stops and spring-loaded side elements are also installed on the stator, and the electromagnet anchor is mounted on the rotor, with each of the stops connected to one of the spring-loaded locking elements, which has the possibility of introducing a movable shank into the hole The contact / electromagnet is installed so that its anchor has the ability to alternately interact with the stops, and the cam is located on the rotor so that it can alternately interact with the ledges of the movable contacts.