RU2680088C1 - Relay switch - Google Patents

Abstract

FIELD: astronautics.SUBSTANCE: invention relates to automation devices and can be used in critical equipment that has increased reliability requirements, for example, in control systems for rocket and space equipment (RSE). Relay switch contains three remote switches with two contact groups, a "-" power bus and four diodes, the first terminals of the on and off windings of the remote switches are combined and connected to the "-" power bus, the second terminal of the turn-on winding of the first remote switch is connected to the main input of turning on the relay switch and the anode of the first diode, the second output of the turn-on winding of the third remote switch is connected to the backup turn-on input of the relay switch and the anode of the second diode, the cathodes of the first and second diodes are combined and connected to the second output of the turn-on winding of the second remote switch, the second output of the switching winding of the first remote switch is connected to the main switching input of the relay switch and to the anode of the third diode, the second output of the switching winding of the third remote switch is connected to the backup turn-off input of the relay switch and to the anode of the fourth diode, the cathodes of the third and fourth diodes are combined and connected to the second output of the switching winding of the second remote switch; conclusions of the closing contact of the first and second contact group of the first remote switch and the output of the closing contact of the first contact group of the third remote switch are combined and are the switched input of the relay switch; outputs of the switching contact of the first contact group of the first and third remote switches, the output of the opening contact of the second contact group of the third remote switch and the output of the closing contact of the first contact group of the second remote switch are combined and are the technological output of the relay switch; switch contacts of the second contact group of the first and third remote switches are combined, the output of the switching contact of the first contact group of the second remote switch is connected to the closing contact of the second switching contact group of the third remote switch and is the output of the relay switch; output of the closing contact of the second contact group of the second remote switch is the telemetric input of the relay switch, and the output of the switching contact is the telemetry output of the relay switch.EFFECT: technical result is an increase in reliability.1 cl, 2 dwg, 1 tbl

Description

The invention relates to automation devices and may find application in critical equipment having increased requirements for reliability, for example, in control devices for rocket and space technology (RCT).

A redundant contact device is known that contains four contact groups, the contacts of which form a bridge circuit of the make and break contacts of the main and backup switching nodes, and the diagonal of the bridge circuit of the redundant make contacts is connected to the diagonal of the bridge circuit of the redundant make contacts (AS USSR No. 535618 class. H01H 47/00).

This contact device is also true in the case of using contact groups of remote switches. The disadvantage of this device is the excess in the number of remote switches used.

The closest to the claimed solution in terms of technical nature and the technical result achieved is a switching device containing the first, second, third, fourth remote switches with two contact groups, the power bus “-”, the first terminals of the on and off windings of the remote switches are combined and connected to the bus power supply “-”, the second leads of the first winding of the first and second remote switch are connected to the first main input of the switch, the second leads of the winding ki of the third and fourth remote switch are connected to the first redundant input of the switch, the second terminals of the disconnecting winding of the first and third remote switch are connected to the second main input of the switch, the second terminals of the disconnecting winding of the second and fourth remote switch are connected to the second redundant input of the switch; the terminals of the make contacts of the first and third remote switches are combined and are the switched input of the relay switch, the output of the changeover contact of the first remote switch is connected to the output of the make contact of the second remote switch, the output of the make contact of the third remote switch is connected to the output of the make contact of the fourth remote switch and fourth remote switch combined are the output relay switch (Express-1000H. Functional analysis of 765-AN-43210, the ISS-00105, JSC "ISS", Zheleznogorsk). This document is not secret, but is also not publicly available (Clause 11 of the Requirement). The essence of the device is described and given in the application for the claimed invention to ensure the requirements of general accessibility in the future.

The disadvantages of this device is the excessive number of remote switches used, which reduces reliability and increases the mass of the relay switch.

The objective of the invention is to increase the reliability of the device.

The technical result is achieved due to the fact that the relay switch containing the first, second, third remote switches with two contact groups; power bus "-"; the first conclusions of the on and off windings of the remote switches are combined and connected to the “-” power bus; the second terminal of the winding of the first remote switch is connected to the main input of the relay switch; the second terminal of the winding of the third remote switch is connected to the backup input of the relay switch; the second terminal of the disconnecting winding of the first remote switch is connected to the main input of switching off the relay switch; the second terminal of the disconnecting winding of the third remote switch is connected to the backup input off relay relay; the output of the make contact of the first contact group of the first and third remote switches are combined and are the switched input of the relay switch, and the output of the make contact of the first contact group of the first remote switch is connected to the output of the make contact of the first contact group of the second remote switch; the output of the switching contact of the first contact group of the second remote switch is connected to the output of the relay switch, the first, second, third, fourth diodes are introduced; the cathodes of the first and second diodes are connected to the second terminal of the including winding of the second remote switch; the anode of the first diode is connected to the main input of the relay switch; the anode of the second diode is connected to the backup input of the relay switch; the cathodes of the third and fourth diodes are connected to the second terminal of the disconnect winding of the second remote switch, the anode of the third diode is connected to the main input of the relay switch disconnect; the anode of the fourth diode is connected to the backup input disconnect relay switch; the output of the switching contact of the first contact group and the output of the opening contact of the second contact group of the third remote switch are connected to the switching output of the first contact group of the first remote switch and the output of the closing contact of the first contact group of the second remote switch and are the technological output of the relay switch; the output of the make contact of the second contact group of the third remote switch is connected to the output of the relay switch; the conclusions of the switching contacts of the second contact group of the first and third remote switches are combined; the output of the make contact of the second contact group of the first remote switch is connected to the switched input of the relay switch; the output of the make contact of the second contact group of the second remote switch is the telemetric input of the relay switch, and the output of the switching contact is the telemetric output of the relay switch.

The essence of the invention is illustrated by drawings, where in FIG. 1 shows a functional diagram of a relay switch; in FIG. 2 is a connection diagram of contacts of contact groups of remote switches when using a relay switch as an opening device; table 1 presents data on the status of the windings and contacts of the remote switches of the relay switch, taking into account the fact that the input switched signal of the relay switch is constantly present.

The relay switch contains the first 1, second 2, third 3 remote switches (polarized relays) having respectively 1.1, 2.1, 3.1 first contact groups and 1.2, 2.2, 3.2 second contact groups; power bus "-E"; primary 4 and backup 6 including inputs of the relay switch; primary 5 and backup 7 disconnecting inputs of the relay switch; first 8, second 9, third 10, fourth 11 diodes; switched 13 input; technological output 12 and output 14 of the relay switch; telemetric input 15 and telemetric output 16 of the relay switch. Thus, in comparison with the prototype relay switch circuit, not four but three remote switches are used; at the same time, to implement the operation of the device and obtain the specified technical result, if there are fewer remote switches in the relay switch circuit, the connections between the elements are changed.

On the functional diagram of the relay switch, the diodes shunting the windings of the remote switches are conventionally not shown.

The proposed device operates as follows.

In the initial state, the contacts of the remote switches are open. It is possible to verify this by measuring the resistance between the technological output 12 and the relay switch input 13 switched between the technological output 12 and the relay switch output 14. If there is resistance between the technological output 12 and the relay switch input 13, it is necessary to apply a positive polarity voltage (short-term signal) to the main 5 disconnecting input of the relay switch, which is fed to the disconnecting winding of the first 1 and through the third 10 diode to the disconnecting winding of the second 2 remote switches . If in this case, the resistance has not changed, it is necessary to apply a positive polarity voltage (short-term signal) to the backup 7 disconnecting input of the relay switch, which is fed to the disconnecting winding of the third 3 and through the fourth 11 diode to the disconnecting winding of the second 2 remote switch.

If there is resistance only between the technological output 12 and the output 14 of the relay switch, it is enough to apply a voltage of positive polarity to the main 5 or backup 7 disconnecting input of the relay switch.

The relay switch can be controlled by the main inputs or by the backup, as well as by the main and backup inputs.

To turn on the relay switch through the main inputs to the main 4, the switching input must be supplied with a voltage of positive polarity (short-term signal), which is supplied to the switching winding of the first 1 and through the first 8 diode to the switching winding of the second 2 remote switches. The contacts 1.1, 1.2, 2.1, 2.2 of the first 1 and second 2 remote switches are closed, which form conductive circuits between the switched 13 input and output of the 14 relay switch, as well as between the telemetric input 15 and the telemetric output 16 of the relay switch.

To turn off the relay switch to the main 5 disconnecting input, it is necessary to apply a voltage of positive polarity (short-term signal), which is fed to the disconnecting winding of the first 1 and through the third 10 diode to the disconnecting winding of the second 2 remote switches. Contacts 1.1,1.2, 2.1, 2.2 of the first 1 and second 2 remote switches open. Thus, the circuit between the switched input 13 and the output 14 of the relay switch and between the telemetric input 15 and the telemetric output 16 of the relay switch are opened.

The relay switch can be switched on by redundant inputs, for this purpose it is necessary to apply a positive polarity voltage (short-term signal) to the redundant 6 switching input, which is fed to the disconnecting winding of the third 3 and through the second 9 diode to the disconnecting winding of the second 2 remote switches. The contacts 3.1, 3.2, 2.1, 2.2 are closed, respectively, of the third 3 and second 2 remote switches, which form conductive circuits between the switched 13 input and output of the 14 relay switch, as well as between the telemetric input 15 and the telemetric output 16 of the relay switch.

To turn off the relay switch via the backup input, it is necessary to apply a positive polarity voltage (short-term signal) to the backup 7 disconnecting input, which is fed to the disconnecting winding of the third 3 and through the fourth 11 diode to the disconnecting winding of the second 2 remote switches. Contacts 3.1, 3.2, 2.1, 2.2 of the third 3 and second 2 remote switches open. Thus, the circuit between the switched input 13 and the output 14 of the relay switch and between the telemetric input 15 and the telemetric output 16 of the relay switch are opened.

The parallel-serial connection of the contacts of the remote switches of the proposed relay switch allows you to parry the failure of any one remote switch (relay failure, open terminals of the windings or contacts).

A more detailed status of the windings and contacts of the remote switches of the relay switch is given in the truth table (Table 1), provided that the signal (1) is constantly applied to the switched input 13. The relay switch allows you to fend off two faults, for example:

1) open circuit of the disconnecting winding of the second 2 remote switch and open circuit of the switching winding of the third 3 remote switch;

2) open circuit of the winding of the second 2 remote switch and open circuit of the disconnect winding of the third 3 remote switch.

In the first case, the contact group 3.1 and 3.2 will be constantly in the open state, and the contact group 2.1 and 2.2 will be constantly in the closed state, and the on / off contact group of the relay switch will be determined by turning on / off the first 1 remote switch. In the second case, the contact group 2.1 and 2.2 will be constantly in the open state, and the contact group 3.1 and 3.2 will be constantly in the closed state, and the on / off contact group of the relay switch will also be determined by turning on / off the first 1 remote switch. In addition, a break in the terminals of the contact group 2.1 and 3.1 or 1.1 and 3.2 will also enable the on / off contact group of the relay switch.

Thus, the device allows for high reliability while reducing one remote switch in comparison with the known solution.

When using a relay switch as an opening device, it is necessary to turn on the contacts of the contact groups of the remote switches according to the circuit shown in FIG. 2.

In case of using “+ E” as a power bus in a relay switch, it is necessary to switch on the diodes to the opposite.

The free second contact group of the second remote switch can be used as an indicator of the status of the relay switch.

This device is used in spacecraft control equipment. The relay switch is made on small-sized relays (remote switches) RPS45-1 and diodes 2D104A.

Of the sources of information and patent materials known to the authors, the totality of features similar to the totality of features of the claimed subject matter is not known.

Relay switch

Where:

x ₁ , x ₂ - input enable signals, respectively, of the primary and secondary enable inputs of the relay switch; 0 - no signal, 1 - signal.

x ₃ , x ₄ - input trip signals, respectively, of the main and backup turning off inputs of the relay switch; 0 - no signal, 1 - signal.

x ₅ , x ₆ , x ₇ - the state of the inclusion of the windings, respectively, of the first, second, third remote switch; 0 - relay is disabled (in the initial state), 1 - relay is on, 0 - malfunction (open).

x ₈ , x ₉ , x ₁₀ - the state of the turn-off windings, respectively, of the first, second, third remote switch; 0 - relay is disabled (in the initial state), 1 - relay is on, 0 - malfunction (open).

Z1.1, Z2.1, Z3.1 - the state of the contacts of the first switching group, respectively, of the first, second, third, remote switch; 0 - contact open, 1 - contact closed, 0 - malfunction (open), 1 - malfunction (contact does not open).

Z1.2, Z3.2 - state of contacts of the second switching group, respectively, of the first, third remote switch; 0 - contact open, 1 - contact closed, 0 - malfunction (open), 1 - malfunction (contact does not open).

X _in - input switched signal of the relay switch; 0 - no signal, 1 - signal.

In _in - state of the output relay switch; 0 - open, 1 - closed,

0 - no reaction to turn on, 1 - no reaction to turn off, 1 or 0 - correction of the previous state to short circuit or open, respectively.

tm (Z2.2) - telemetry status of the relay switch; 0 - open, 1 - closed, 0 - does not correspond to the state of V _in opening, 1 - does not correspond to the state of V _in for closing.

Note. The table is presented taking into account the fact that the input switched signal of the relay switch is constantly present (log. 1).

Claims (1)

A relay switch comprising first, second, third remote switches with two contact groups; power bus "-"; the first conclusions of the on and off windings of the remote switches are combined and connected to the “-” power bus; the second terminal of the winding of the first remote switch is connected to the main input of the relay switch; the second terminal of the winding of the third remote switch is connected to the backup input of the relay switch; the second terminal of the disconnecting winding of the first remote switch is connected to the main input of switching off the relay switch; the second terminal of the disconnecting winding of the third remote switch is connected to the backup input off relay relay; the output of the make contact of the first contact group of the first and third remote switches are combined and are the switched input of the relay switch, and the output of the make contact of the first contact group of the first remote switch is connected to the output of the make contact of the first contact group of the second remote switch; the output of the switching contact of the first contact group of the second remote switch is connected to the output of the relay switch, characterized in that the first, second, third, fourth diodes are introduced; the cathodes of the first and second diodes are connected to the second terminal of the including winding of the second remote switch; the anode of the first diode is connected to the main input of the relay switch; the anode of the second diode is connected to the backup input of the relay switch; the cathodes of the third and fourth diodes are connected to the second terminal of the disconnect winding of the second remote switch, the anode of the third diode is connected to the main input of the relay switch disconnect; the anode of the fourth diode is connected to the backup input disconnect relay switch; the output of the switching contact of the first contact group and the output of the opening contact of the second contact group of the third remote switch are connected to the switching output of the first contact group of the first remote switch and the output of the closing contact of the first contact group of the second remote switch and are the technological output of the relay switch; the output of the make contact of the second contact group of the third remote switch is connected to the output of the relay switch; the conclusions of the switching contacts of the second contact group of the first and third remote switches are combined; the output of the make contact of the second contact group of the first remote switch is connected to the switched input of the relay switch; the output of the make contact of the second contact group of the second remote switch is the telemetric input of the relay switch, and the output of the switching contact is the telemetric output of the relay switch.

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