RU2114480C1 - Ferride - Google Patents

Abstract

FIELD: electrical engineering; miscellaneous switching devices. SUBSTANCE: ferride has storage element of remnant material carrying two windings connected in parallel opposition and reed relay joined with storage element and carrying third winding enabling its operation as counter. EFFECT: reduced power requirement. 1 dwg

Description

 The invention relates to switching devices and may find application in control systems, monitoring, measurement, communication devices and other devices of various industries.

 A device is known, described, for example, in [1], containing a memory element made in the form of a bracket made of a remanent material with two opposing windings placed on it and a reed switch installed in conjunction with a bracket and having one winding, as well as two diodes that decouple the chains of two inputs.

 The disadvantages of such a device include the lack of a counting mode in its operation, that is, the appearance of one signal at the output when two serial signals are input.

 A device is also known, described, for example, in [2], containing a memory element made in the form of a bracket made of a remanent material and a bracket made of soft magnetic material with two on-board control windings placed on them. Between the combined ends of the brackets are installed closing and switching reed switches.

 The disadvantages of this device include the design complexity, increased power consumption, size and weight.

 As a prototype adopted the device described in [2].

 The aim of the present invention is to simplify the design, reducing its energy consumption, size and weight.

 This goal is achieved by the fact that the control winding of the reed switch is installed directly on it and connected counter to one of the control (including) windings located on the memory element.

 The drawing shows a design diagram of a ferride.

 The device contains a memory element 1 in the form of a bracket made of a remanent material with the first 2 (turning on) and second 3 (turning off) counter-connected control windings installed on it, the ends of which are connected to the negative bus. A reed switch 4 is mounted to the ends of the bracket with its contact details, with the third control winding 5 placed on it and turned on counter to the first control winding 2. The beginning of the third control winding 5 is connected to the beginning of the first control winding 2, terminal 6 for connecting the control signal source and one contact - part 7 of reed switch 4, the second contact part 8 of which is connected to the beginning of the second control winding 3 and terminal 9 for connecting the load, and the end of the third control winding 5 is connected to the negative bus.

 The use of one control winding installed on the reed switch and turned on in the opposite direction of the first (including) control winding, located on the memory element, was not found in the sources.

 The operation of the ferride is carried out in the following sequence.

The first control signal supplied to the input terminal 6, a first developing means (consisting of) the control winding two magnetic flux Φ _1, magnetizing the memory element, and the third control winding 5 - counter to it the magnetic flux Φ _2. In this case, the total magnetic flux Φ = Φ ₁ -Φ _{2 is} less than the magnetic flux Φ Φ _{sag of the} reed switch 4, as a result of which the reed switch does not work. The magnetic flux Φ ₂ does not demagnetize the memory element 1, since it is made of a remanent material. After the end of the first control signal, the magnetic flux Φ ₂ disappears and the reed switch 4 is triggered by the magnetic flux Φ ₁ , which is greater than the magnetic flux of the operation of the reed switch. When the reed switch 4 is activated, its contact parts 7 and 8 are closed and the second control winding 3 is connected to terminal 6. An output signal appears at terminal 9. The second control signal supplied to pin 6 creates a current flowing through the contact parts 7 and 8 and demagnetizes the magnetic flux Φ ₃ , counter and equal to the flux Φ ₁ . Memory element 1 is soaked. At the same time, winding 5 again creates a stream Φ ₂ , which keeps the reed switch in the operating state for the duration of the second control signal. After the end of the second control signal, the flux Φ ₂ disappears and the reed switch releases, opening contact parts 7 and 8 and turning off the winding 3. At pin 9, the output signal disappears. Upon subsequent receipt of control signals, the operation cycles of the ferride are repeated.

 Thus, for every two input signals, only one appears at the output of the ferrite, i.e. ferrid works in counting mode.

For the ferride to work, the difference between the fluxes Φ ₁ and Φ _{2 is} no more than the operation of the reed switch (Φ ₁ -Φ ₂ <Φ _srab ) and the equality of the fluxes Φ ₁ and Φ ₃ (Φ ₁ = Φ ₃ ). .

Sources of information
1. Kharazov K.I. Automation device with magnetically controlled contacts. M.: Energy Publishing House, 1990, p. 158, fig. 5.14 (or aut. USSR N 1387068, HO 1 H 51/27, 51/28).

 2. Kharazov K.I. Automation device with magnetically controlled contacts. M.: Energy Publishing House, 1990, p. 224, fig. 9.4a (or aut. USSR N 1392599, HO 1 H 51/27, 51/27).

Claims (1)

 A ferride containing a memory element in the form of a bracket made of a remanent material with the first and second onboard control windings installed on it, the ends of which are connected to the negative bus, a reed switch installed by contact parts is aligned with the ends of the memory element, an output for connecting a source of control signals and an output to connect the load connected to one of the contact parts of the reed switch, characterized in that the third control winding is installed on the reed switch, the beginning of which is connected to the beginning of the first winding her terminal for connecting a source of control signals and a reed contact pieces, second contact piece which is connected to the start winding and the second control terminal for connecting a load, and the control end of the third winding is connected to the negative bus.