SU773767A1 - Rotary change-over switch - Google Patents

Description

(54) ROTARY SWITCH

The invention relates to electrical engineering, in particular to rotary switches, intended for switching electric circuits, in particular high-frequency circuits, used in radio-electronic and radar equipment. Known rotary switches containing a stator with holes for and dp mountings, a rotor with a latch, roller contacts and junction jl T are known. This switch provides a reliable alternating short circuit of electric circuits, but cannot ensure their alternate opening. In addition, the OS is difficult to manufacture. Rotary switches are also known that contain a stator with cylindrical holes in which current-carrying and current-collecting contacts are located, pressed by springs, a rotor that includes a current-carrying cylinder with an insulating element and a metal sleeve between which the insulating layer 2 Shsie switches are placed low switching capabilities and complex design. The purpose of the invention is to increase the switching capacity and simplify the design. To achieve this, a rotary switch contains a stator with cylindrical holes in which current-carrying and current-collecting contacts are located, which are pressed by springs, a rotor, an electrical conductor with an insulating element and a metal sleeve between which there is an insulating layer, the stator is provided with an insulating ring and is made with a longitudinal hole {and grooves, and spring contacts are made of plate, fixed with the specified insulating ring in the aforementioned longitudinal grooves and They are connected to the current lead and the current collector contacts, which are placed concentrically with respect to the rotor, while the free accumulations of these leaf springs are terminal points of the first switch. FIG. I schematically shows a rotary switch, general view, in section; in fig. 2 the same in terms of; in fig. 3 is a diagram of one of the options for the implementation of a rotary switch, namely, to turn the working shaft through a predetermined angle. The stator 1 of the rotary switch is made in the form of a sleeve of insulating material and has a flange 2 with openings for fastening it on the body of an electric mechanical drive. On the cylindrical surface of styo pa 1 there are longitudinal grooves with radially arranged cylindrical holes in which two current-carrying contacts 3 and current-collecting contacts 4 are installed, the number of which corresponds to the number of switching circuits. Codes 3 and 4 are clamped by plate springs 5, the free ends of which are terminal pins 6, while the plate springs are installed in the longitudinal grooves of stator I and fixed by an insulating ring 7 installed over the stator. 1. The rotor is a drum and consists of the conductor of a second cylinder 8, an insulating layer 9 having a protrusion 10 entering the hole of the conductor of the next cylinder 8, and a metal sleeve And with a hole for mounting, for example, on a drive shaft. The pattern of use of the rotary switch is shown in FIG. 3. And consists of a rotary switch 12, the current-carrying contacts 3 of which are connected via the electric motor 13 to the positive pole of the power source 14, and the current-collecting contacts 4 with the output contacts of the push-button switch 15, the input contacts of which are connected to the negative pole of the power source 14. Electric motor shaft 13 through the gearbox 16 with the Maltese cross 17 is connected to the working shaft 18, on which the rotary switch rotor is mounted tel 12, the Maltese cross 17 is designed to fix the position of the working shaft 18. The device works in the following way. When the power source 14 is connected, a positive voltage through the electric motor 13 and current lead 5 contacts 3 of the rotary switch is supplied to the conductive pin 8, and a negative voltage is fed to the input contacts of the button device 15. When one of the buttons (corresponding to the specified angle of rotation of the working shaft) is pressed, the push button the device 15, one of its output contacts closes and the voltage through the corresponding current collection contact of the rotary switch 12 is supplied to the conductive cylinder 8, the circuit power motor 13, which through the gearbox 16 and the Maltese cross 17 transmits rotation to the executive body 18, rtanpiBviep working shaft; turning the latter to a given angle. Simultaneously with the rotation of the working shaft 18, the rotor of the rotary selector 12 is rotated. on the rear corner, stop- ,. is. F. Formula of invention. Rotary switch, -containing a stator with cylindrical apertures, in which current-carrying and current-collecting contacts are placed, pressed by springs; a rotor including a conductive cylinder with an insulating element and a metal sleeve between which an insulating layer different from Tevi is placed, which, in order to increase switching capabilities and simplify the design, the stator is provided with an insulating ring and longitudinal grooves, and the springs that clamp the contacts are plate-shaped, fastened with a so-called insulating ring in the said longitudinal grooves and rigidly connected to the current-carrying and current-collecting contacts, which are placed concentrically from itelno rotor, wherein the free ends of the leaf springs are terminal output switch. Sources of information taken into account during the examination 1. USSR author's certificate No. 506О72, cl. H 01 I 19 / OO, 1976. 2. USSR author's certificate No. 129708, cl. H 01 H 19/56, 1959.

Claims (1)

Claim A rotary switch containing a stator with cylindrical holes in which are located the current-carrying and current-collecting contacts, preloaded by springs! a rotor including a conductive cylinder with an insulating element and a metal sleeve between which an insulating layer is placed, characterized in that, in order to increase the switching capabilities and simplify the design, the stator is equipped with an insulating ring and is made with longitudinal grooves, and the springs the contacts are made · lamellar, fixed by the indicated insulating ring in the aforementioned longitudinal grooves and rigidly connected to the current-carrying and current-collecting contacts, which are placed concentrically rotor, while the free ends of these leaf springs are terminal terminals of the switch.