SU1688267A1 - The protection level indicator - Google Patents

Abstract

The invention relates to the control and alarm systems and can be used in emergency alarm circuits of mine hoisting installations and in other mechanisms having a safety brake. The aim of the invention is to increase the reliability and expand the scope of the protection operation indicator. This is achieved in that a controllable generator, a digital polling and display unit, and a high-voltage anode switch with corresponding connections are added to the protection operation indicator, which contains n pulse cells, a power supply unit. The execution of pulsed cells allows to increase the reliability of the indicator in operation due to the introduction of galvanic isolation. Expansion of the field of application is achieved due to the fact that it is possible to indicate not only the first triggered cell, but also all the others triggered on the same indicator. 1 il. with SS

Description

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The invention relates to monitoring and alarm systems and can be used in emergency signaling schemes for mine hoisting installations and other mechanisms having a safety brake.

The purpose of the invention is to increase the reliability and expand the scope of the protection operation indicator.

The drawing shows the block diagram of the indicator.

The protection operation indicator contains a power supply unit 1, pulse cells 2, a controlled generator 3, a digital polling and indication unit 4, a high-voltage anode switch 5. Each pulse cell 2 contains a parametric stabilizer 6, a filter 7, a threshold voltage driver on a capacitor 8, threshold element on

single-junction transistor 9, galvanic isolation element 10, divider 11, adder 12. Indicator 13 is included in digital interrogation and display unit 4. The controlled generator 3 contains an operation mode switch 14.

The power supply unit 1 comprises a reset button 15. Pulse cells 2 are connected to the contacts of the power circuit 16 of the protection.

The protection operation indicator works as follows.

The output of each pulse cell 2 is connected to a normally closed contact of the protection power circuit 16, controlled by this pulse cell 2. When the protection power circuit 16 is triggered, the contact opens at its terminals and at the inputs of cell 2

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A constant voltage of 220 V, which is stabilized by the parametric stabilizer 6 and is fed through the filter 7 to the charging capacitor 8. When the charging capacitor 8 reaches the potential equal to the response threshold of the analog of the one-pass transistor 9, the voltage from the splitter 11 is removed. The discharge pulse opens the optocoupler 10 dynistor, which remains open due to the holding current, and a signal 1 appears at the input of the adder 12, giving permission for the high-voltage anode switch 5 to operate.

The polling and indication unit 4 is supplied with square-shaped pulses from the controlled generator 3. The polling signal from the output of block 4 enters the run of the adder 12 and where, as a result of the operations on the adder 12, it is already on duty 1, it issues a high-voltage anode switch 5, which, in turn, leads to the appearance of a voltage on the anode of the indicator 13, and the indicator 13 indicates the number of the triggered protection,

In test mode (switch 14 is open) with a frequency of 1 s, the numbers of all open contacts of the protection contacts are displayed. In Operation mode (switch 14 closed), indicator 13 fixes the number of the first triggered pulse cell. The indicator 13 is reset by the Reset 15 button. In this mode, the output of the first triggered pulse cell 2, the signal O is fed to the input of the controlled switch 3, which leads to a generation failure, and as a result, the number of the triggered cell 2 is constantly displayed. ,

Claims (1)

Invention Formula The protection operation indicator, containing the first and the second inputs of each of the pulsed cells 5, each of which are the inputs for connecting the first and second terminals of the corresponding monitored protection contact, the power supply unit whose first and second outputs are connected to the third and fourth pulsed cell inputs, what with In order to increase the reliability and expand the field of application of the protection operation indicator, a controlled generator, a digital interrogation and display unit and a high-voltage anode switch are entered into it, and each pulse cell contains a parametric stabilizer, divider, filter, voltage driver, threshold element the galvanic isolation element, the adder, the first and second inputs of the parametric stabilizer are the first and second inputs of the pulse cell, the first output of the parametric stabilizer is connected to The first input of the divider and the first input of the filter, the output of which is connected to the first output of the threshold voltage generator and the first output of the threshold element, the second output of which is connected to the first output of the galvanic isolation element, the second output of the parametric stabilizer of each pulse cell connected to the second output of the element galvanic isolation, with the second output of the threshold voltage generator, with the second input of the filter and with the second input of the divider, the output of which is connected to the third output of the threshold element, the third output of the galvanic isolation element is the third input of the pulse cell, and the fourth output is connected to the first input of the adder, the second input of which is the fourth input of the pulse cell, and the third input of the adder is the fifth input of the pulse cell, the output of the adder is the output pulse cell, the first output of the power supply unit is connected to the first input of the controlled generator, the output of which is connected to the clock input of the digital polling and display unit, the outputs of which are connected to the fifth inputs of the corresponding These pulsed cells whose outputs are connected to the second input of the controlled generator and to the first input of the high voltage anode switch, the output of which is connected to the control input of the digital polling and display unit, the third output of the power supply unit is connected to the second input of the high voltage anode switch. h: --- ln o i (Z WaW tfVQWrn -JL & DJ. CUZP avgotrnj