SU1721820A1 - Dc switch - Google Patents

Abstract

The invention relates to a pulse technique and can be used in switching devices. The aim of the invention is to increase the reliability of operation. The AC switch contains an AC source 1, a relay with windings 10, 11, and a switching contact group 4, a capacitor 5, control contacts 13, diodes 6, 9, first and second resistors 2, 3. Introduction of the third and fourth resistors 7, 8, the inclusion of capacitor 5 in the output diagonal of the bridge, whose shoulders form a resistor 2, resistor 3, resistor 7 connected in series with diode 6 and disconnecting contacts of group 4, resistor 8 connected in series with diode 9, and connecting the input diagonal of the bridge to the terminals of source 1 allow l is to reduce the number of contact elements. 1 il.

Description

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The invention relates to radio engineering and can be used in switching devices.

Known alternating current switches, which coincide by their technical nature, contain switching bodies connected in series with the load between the terminals of the power source and the control circuits of the switching element SL2.3.

The main disadvantage of 2, 3 is the complexity of the control circuits and the lack of state memory when disconnected from the power source. The AC key described in 2 also has a significant level of electromagnetic interference.

The closest to the claimed AC key in technical terms is the quasi-touch switch 1 selected as a prototype,

containing a self-holding two-winding relay, the closing contact of the first contact group of which is connected in series with the load between the terminals of the AC source, the starting circuit of the first resistor connected in series, the first and second diodes, the second contact group of the relay, normally open contacts of the button, the second resistor and capacitor connected in parallel, with the starting circuit connected between the terminals of the power supply.

A disadvantage of the known quasi-sensor switch is the need to use one contact group of relays to control the starting circuit, which excludes the possibility of using it to switch the load in parallel with other contact groups, as well as the presence of three conductors required for

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connecting a control button with circuit elements, and contacting the button contacts through a capacitor and winding the relay to one of the power supply terminals directly.

The aim of the invention is to increase the switching current of the relay, reduce the number of electrical connections of the control button and improve its isolation from the power source.

This goal is achieved by the fact that the self-holding relay is controlled by changing the direction of current flow from the starting circuit, switched by the working contact group of the relay, through series-connected relay coils.

As a switching body, relay contact groups are used with the possibility of their parallel connection. A comparative analysis of the proposed technical solution with the prototype shows that the claimed key is distinguished by the presence of additional divider resistors, the absence of a normally closed contact group in the control button.

Thus, the claimed key meets the novelty criterion.

Comparison of the proposed solution with known technical solutions shows that although the use of the principle of changing the direction of current recharging of the storage capacitor is widely known, the use of a resistive bridge controlled by the working contact group of the relay simultaneously with the load switching is used for this purpose , allowing to realize the control circuit of the switching body of the key in the form of a relay trigger with control of only one contact group of the control button with the possibility parallel connection of relay contact groups. This allows us to conclude that the technical solution meets the criterion of significant differences.

The drawing shows a schematic diagram of an AC key.

The AC key contains a switching element 4 connected in series with the load 14 between the terminals of the AC source 1, the control circuit consisting of the first 10 and second 11 windings of the relay, the storage capacitor 5 and the contact group 13 of the key control button in series.

The key works as follows. In the initial state between the load 14 and the AC source are normally open contacts 4 relays with

self-retention. Load disabled. The capacitor 5 is charged to the potential difference between the middle points of the resistive voltage dividers equal to the trigger voltage of the relay with self-holding 12 current flowing through the circuit, normally closed contacts 4 of relay 12, diode 6, resistor 7, right capacitor plate 5, left capacitor plate 5, resistor 3,

AC source 1, pins 4 relays 12.

After pressing the bar 13, the capacitor 5 is discharged through successively connected windings 10 and 11 of the relay with self-holding 12. The capacity of the capacitor 5 is chosen so that the accumulated energy is enough to activate the relay with self-holding 12. The operation of the relay 12 leads

to the closure of the normally open contacts 4 and the connection of the load 14 to the source 1. The diode 6 is disconnected from the source 1 and the voltage on the right plate of the capacitor 5 becomes zero. Starts

recharge capacitor 5 across the circuit: source 1, resistor 2, left capacitor plate 5, right capacitor plate 5, resistor 8, diode 9, alternating current source 1. Capacitor 5 is charged to a potential difference determined by the ratio of resistors 2 and 3, equal to the tripping voltage of the relay 12, but already in reverse polarity and the subsequent closure of the button 13, the discharge current of the capacitor 5 flows through the series-connected windings 10.11 of relay 12 in the direction opposite to the previous cycle, which will trigger the relay with self-holding 12 and the key is reset to the off state.

The proposed key scheme as compared with the prototype provides a higher isolation of the control button contacts from the power supply terminals,

reduces the number of electrical connections of the control button and, therefore, the level of electromagnetic changes, allows to increase the switching current of the load.

Formula-invention AC switch containing a self-holding two-winding relay, the closing contact of which is connected in series with the load between the terminals of the AC source, a capacitor, in parallel with which through the contacts of the control button are connected the self-holding windings of the first and second diodes,

The first and second resistors are distinguished by the fact that, in order to increase reliability, the third and fourth resistors are reduced, and the capacitor is included in the output diagonal of the bridge, whose shoulders form the first resistor, the second resistor, the third resistor connected in series with the first the diode and the break contacts of the relay, the fourth resistor connected in series with the second diode, the input diagonal of the bridge is connected to the terminals of the alternating current source, and the first and second diodes are connected according to the relative voltage AC source.

Claims (4)

The invention relates to radio engineering and can be used in switching devices. Known keys of alternating current, coinciding in technical essence, containing switching bodies, connected in series with the load between the terminals of the power source and the control circuits of the switching element [C [ 2], [ 3]. The main disadvantage [2], [3] is the complexity of the control circuits and the lack of memorization of the state when disconnected from the power source. The alternating current switch described in [2] also has a significant level of electromagnetic interference. The closest in technical essence to the claimed AC key is a quasi-sensor switch [1] selected as a prototype, containing a self-holding bi-winding relay, the closing contact of the first contact group of which is connected in series with the load between the terminals of the AC source, the starting circuit from the first resistor connected in series , the first and second diodes, the second contact group of the relay, normally open button contacts, the second resistor and capacitor, are connected x in parallel, with the starting circuit connected between the terminals of the power source. A disadvantage of the known quasisensor switch is the need to use one contact group of the relay to control the starting circuit, which eliminates the possibility of using it to switch the load in parallel with other contact groups, as well as the presence of three conductors necessary for 1721820 A1 4 · the connection of the control button with the circuit elements, and the connection of the button contacts through the capacitor and the relay winding with one of the terminals of the power source directly. The aim of the invention is to increase the switching current of the relay, reducing the number of electrical connections of the control button and improving its isolation from the power source. This goal is achieved by the fact that the relay with self-holding is controlled by changing the direction of the current flow from the starting circuit, switched by the working contact group of the relay, through series-connected relay windings. Contact groups of relays with the possibility of their parallel connection are used as a switching body. A comparative analysis of the proposed technical solution with the prototype shows that the claimed key is distinguished by the presence of additional resistors of the dividers, the absence of a normally closed group of contacts in the control button. Thus, the claimed key meets the criterion of novelty. A comparison of the proposed solution with the known technical solutions shows that although the use of the principle of changing the direction of the current of the overcharge of the storage capacitor is widely known, the use for this purpose of a resistive bridge controlled by a working contact group of the relay simultaneously with the switching of the load reveals its new properties that allow implementing the control circuits of the switching body a key in the form of a relay trigger with control of only one contact group of the control button with the possibility of pairs llelnogo connection Relay contacts. This allows us to conclude that the technical solution meets the criterion of significant differences. The drawing shows a schematic diagram of an AC key. The AC key contains a switching body 4, connected in series with the load 14 between the terminals of the AC source 1, a control circuit from the first 10 and second 11 windings of the relay, the storage capacitor 5 and the contact group 13 of the key mode control button, connected in series. The key works as follows. In the initial state, between the load 14 and the AC source, there are normally open contacts 4 of the self-holding relay. The load is disconnected. The capacitor 5 is charged to the potential difference between the midpoints of the resistive voltage dividers, equal to the response voltage of the relay with self-holding 12 current flowing through the circuit, normally closed contacts 4 of the relay 12, diode 6, resistor 7, the right lining of the capacitor 5, the left lining of the capacitor 5, the resistor 3, AC source 1, pins 4 of relay 12. After clicking on the bar 13, the capacitor 5 is discharged through the series-connected windings 10 and 11 of the relay with self-holding 12. The capacity of the capacitor 5 is selected so that the accumulated energy is enough for the relay to operate with self-holding 12. The operation of the relay 12 leads to the closure of normally open contacts 4 and connection load 14 to the source 1. The diode 6 is disconnected from the source 1 and the voltage on the right side of the capacitor 5 becomes equal to zero. The recharging of capacitor 5 begins on the circuit: source 1, resistor 2, left side of capacitor 5, right side of capacitor 5, resistor 8, diode 9, AC source 1. Capacitor 5 is charged to the potential difference determined by the ratio of resistors 2 and 3 equal to voltage relay 12, but already in reverse polarity and with the subsequent closure of button'13, the discharge current of the capacitor 5 flows through the series 11 windings of relay 12 in the direction opposite to the previous cycle, which will trigger the relay with self zhaniem 12 and the key will return to the original state is off. The proposed key circuit in comparison with the prototype provides a higher isolation of the control button contacts from the terminals of the power source, reduces the number of electrical connections of the control button, and therefore, the level of electromagnetic changes, allows to increase the switching current of the load. Formula Inventions An alternating current key containing a self-holding two-winding relay, the make contact of which is connected in series with the load between the terminals of the alternating current source, a capacitor, in parallel with which the self-holding relay coils are connected in series and counterclockwise, the first and second diodes, the first and second resistors I distinguish between 1721820 and the fact that, in order to increase the reliability of operation, the third and fourth resistors are introduced, while the capacitor is included in the output diagonal of the bridge, e- 5 whose form a first resistor, a second resistor, a third resistor connected in series with the first diode and relay disconnect contacts, a fourth resistor connected in series with the second diode, the input diagonal of the bridge is connected to the terminals of the AC source, and the first and second diodes included according to the voltage of the AC source.