SU1277245A1 - Differential ferreed switch - Google Patents

Abstract

The invention relates to automation and switching technology and can be used in automatic control systems, control. measurement and communication of various branches of technology as a pulsed electromagnetic switching device with memory. The purpose of the invention is to simplify device control by controlling from a single generator of unipolar pulses and expanding the field of application. In the initial state, the windings are de-energized, the contact parts (CDs) of the gezacons are demagnetized, the load R is switched off. The first control pulse of current 1 from the generator of unipolar pulses (GI), arriving at the input B ,, of the device, will pass from the positive terminal through the main section VD, I of the first winding, its additional section V, to the negative terminal. At the same time, the MDS sections of the first winding will develop consonant magnetic fluxes and φ, respectively, in the CD of the gezacons. The cumulative effect of these flows is sj vi IsD SL

Description

(КФ; + Ф Kj4, p, where Кз is the safety factor for actuation, will cause consonant magnetization of the CDs of the Geza-Sons to their design and their operation (short-circuit). Gezak G connects to the input B of section Кь /, and И, the second winding, and gezak G will turn on

load R ,,. In this state, oral

The behavior can be indefinitely long before the next control pulse arrives. The second controlling impulse current 1, „, arriving at the input B of the device, passes through the circuit of the first winding and is parallel through closed CDs of the gezacon G along the main circuit No. 5

W sections of the second winding to the negative terminal. Two pairs of counter-included winding sections will develop counter-magnetic fluxes in the CD of the gezacons C and r, j, respectively, and + F, ,,,, from where {K + 1) (F, -F,) F ,,, If the numbers of turns of the sections are equal the windings WW and KV7 W of the CD of the gezacons are demagnetized by vehicle and open. In this case, the gezak G will disconnect from the GI section of the second winding, and the gezak G will turn off Fvj. Further, the cycles will be repeated. The intervals of the off and on states of the load are determined by the duty cycle of the control pulses GI. 2 Il.

Claims (1)

The invention relates to automation and switching technology and can be used in automatic control, monitoring, measurement and communication systems of various branches of technology as a pulsed electromagnetic switching device with memory. The object of the invention is to simplify the control of the device by controlling from a single generator of single-pole pulses and expanding the field of application. FIG. 1 shows a diagram of the device; in fig. 2 - the cyclogram of its functioning. The device consists of two locking G-laws G, one of which IT commits its own control windings, the second Gd - switching load R. On the indicated G-laws G and G install: two control windings, of which two have windings sections: the main with the number of turns KW, and Ci / ", where K 1, and additional with the number of turns, respectively. The coefficient K usually ranges from 2 to 3. The main and additional sections of each winding are located on opposite parts of the hezzacon cylinders relative to them worker Azor. In this case, the main and additional sections of each winding are connected in series and according to, i.e. the end of the main section is connected to the beginning of the additional one, providing the consonant magnetic fluxes KF, IF, when triggered (% p) and additionally KF and V when released (F J, the latter are directed oppositely to the main one, since the main sections are included oppositely. A magnetic gap (MS) made of magnetically soft material is installed in the working gap of the geza-lawn to shunt magnetic fluxes during operation. The device is structurally made as a separate element of a cylindrical shape, for example, of the RES-55 type with It’s extremely compact and technologically advanced. The device works as follows. Let the windings be de-energized in the initial state, the contact parts of the gezacons are demagnetized, the load is turned off. The first control current pulse is 1y, from the generator of single-pole pulses ( GI), having entered the input of the device, will pass from the positive terminal through the main section of the first winding, its additional section W, to the negative terminal. In this case, the MDS section of the first winding will develop in contact details of the gezacons consonant magnetic fluxes КФ and 9, respectively. The cumulative effect of these flows (QF n-T), p, where K is the safety factor for actuation, will cause a consonant magnetization of the contact parts of the hexagons before saturation and their actuation (short circuit). Gezakon G, connects to the input section of the second winding W and W, and gezakon G will include the load RO (Fig. 2). In such a state, the device can last as long as it takes until the next control pulse arrives. The second control current pulse Iijj, arriving at the device input, passes through the first winding circuit described above and in parallel through the closed contact parts of the gezacon G, along the main circuit Kkl and additional W sections of the second winding to the negative terminal. Two pairs of colliding sections of the windings will develop counter-magnetic fluxes in the contact details of the G and G respectively, G5: Lg / From Location (K + 1) (I, F.) F „rn When the number of turns of the section is equal windings W Vr2 and KSh, Wg the contact details of the gezakon will demagnetize the vehicle and open. In this case, the gezakon Ef will disconnect from the GI section of the second winding, and the gezakon G. will switch off the external load R, (Fig. 2). Further, the cycles will be repeated. The intervals of the off and on states of the load are determined by the duty cycle of the control pulses GI. DETAILED DESCRIPTION OF THE INVENTION Differential ferride containing at least one locking gezakon, a ferromagnetic shunt and two oppositely wound control windings, each of which consists of two sections - the main one with the number of turns KI / K / and the ADDITIONAL with the number of turns W, located at different parts x of a gezacon cylinder with respect to its working gap, characterized in that, in order to simplify the control of the ferride by controlling from a single generator of unipolar pulses and expanding the field of application, the main and complementary The winding sections of each winding are connected in series and according to, the beginning of the main section of the first winding is connected to one contact of the law and to the terminal for switching on the positive terminal of the generator of unipolar control pulses. The beginning of the main section of the second winding is connected to another contact of the specified gezacon, and the ends of the additional sections of both windings are connected to a terminal for connecting the negative terminal of the pulse generator.