RU2017222C1 - Device for indication of pressure drop - Google Patents

Abstract

FIELD: electric communications. SUBSTANCE: terminal unit 1 of device has measuring unit 2, power supply 6, generator 15, discriminator 12, two chokes 10, 11, capacitor 13, emergency indicator 4, communication line fault indicator 16, double switch 3 which is connected to communication line 5. Each container 7 has indicator 8 with mercury contact and measuring resistor 9. Capacitor 14 is inserted at end of line 5. EFFECT: increased reliability due to permanent checking operating order of communication line. 2 dwg

Description

 The invention relates to telecommunications and can be used in containers of maintenance-free amplification or regeneration points (NUP, NRP) of linear paths of analog and digital transmission systems for signaling pressure reduction.

 A device for signaling a decrease in pressure in an NUP container is provided, comprising at the terminal station a measuring unit, an alarm indicator, a power source, a two-wire communication line, a dual switch, a container containing a signaling device with a mercury contact and a measuring resistor in series.

 The known device has reduced reliability due to the lack of continuous monitoring of the serviceability of the communication line, open or shorted wires which does not cause any reaction at the terminal station.

 As the operating experience of the linear paths of digital transmission systems of hydraulic structures of the type IKM-30 shows, the absence of constant monitoring of the communication line causes signaling failures and, as a result, the penetration of water into the containers due to air leakage from them and the absence of an alarm about it (containers NUP IKM- 30 are located in cable wells located below ground level and flooded with water during rains, snowmelt, etc.). Therefore, at present, to check the serviceability of the communication line for preventive purposes, it is closed at the opposite station and the serviceability of the communication line is monitored by the resistance of the loop measured from the station.

 The aim of the invention is to increase the reliability of the device due to continuous monitoring of the health of the communication line.

 The goal is achieved by the fact that in the device for lowering the pressure alarm, containing at the terminal station a measuring unit connected to the terminals with the first fixed contacts of the first and second contact groups of the dual switch, the second fixed contact of the first contact group of which is connected to the first output of the alarm indicator, and the fixed contacts the first and second contact groups are connected respectively to the first and second wires of the communication line, and the power source, and in each container the signaling device a mercury contact and a measuring resistor connected in series and connected respectively to the first and second wires of the communication line, the first and second chokes are connected, connected by one of the leads to the corresponding buses of the power source, and other leads, respectively, to the second terminal of the alarm indicator and to the second fixed contact of the second contact dual switch groups, a discriminator, the first input of which is connected to the second output of the alarm indicator, the first capacitor connected to the terminals of the indicator accident, the second capacitor connected to the ends of the first and second wires of the communication line, the generator, the first output of which is connected to the second fixed contact of the second contact group of the dual switch, and the alarm indicator of the communication line, while the second output of the generator is connected to the second input of the discriminator, outputs which are connected to the inputs of the alarm indicator of the communication line.

 In FIG. 1 is a structural diagram of a pressure reduction alarm device comprising, at a terminal station 1, a measuring unit 2 connected by terminals to the first fixed contacts of the first and second contact groups of the dual switch 3, the second fixed contact of the first contact group of which is connected to the first terminal of the alarm indicator 4, and the movable contacts of the first and second contact groups are connected respectively to the first and second wires of the communication line 5, and the power supply 6, in each container 7 pos edovatelno switch 8 connected to a mercury contact and the measuring resistor 9, the other terminals of which are connected respectively to the first and second wire link 5. The pressure reduction alarm device also includes the first and second chokes 10 and 11, connected by one terminal to the corresponding buses of the power supply 6, and by the other terminals, respectively, to the second terminal of the alarm indicator 4 and to the second fixed contact of the second contact group of the dual switch 3, discriminator 12, the first input of which is connected to the second terminal of the indicator 4 of the accident, the first and second capacitors 13 and 14, connected by the terminals respectively to the terminals of the indicator 4 of the accident and the ends of the first and second wires Odes of communication line 5, a generator 15 connected to the second output of the second contact group of the dual switch 3 by the first output, and an alarm indicator 16 of the communication line, the second output of the generator 15 connected to the second input of the discriminator 12 connected to the inputs of the indicator 16 of the communication line failure .

 The device operates as follows.

 Suppose that the dual switch 3 is set to I. The sinusoidal signal from the generator 15, made, for example, as an LC generator with self-excitation, passes through the discriminator 12 and then through the capacitor 13 and the contacts of the dual switch 3 into the communication line 5. Inductors 10 and 11 prevent the bypass signal of the generator 15 output impedance of the power source 6. The capacitor 13 bypasses the alternating current input of the indicator 4 accident, made, for example, in the form of a current relay. A sinusoidal signal passes through the communication line 5 and reaches the capacitor 14 connected at the end of the line. The capacitance of the capacitor 14 is selected to be much larger than the total capacity of the communication line 5, which is usually 20-50 nF / km for communication cables. Thereby, the magnitude of the alternating current flowing from the generator 15 through the communication line 5 and the capacitor 14 is determined by the capacity of the latter. When the communication line 5 is in good condition, there are no signals at both outputs of discriminator 12, the communication line failure indicator 16, made in the form of two LEDs, is de-energized. When the communication line 5 is disconnected, the alternating current flowing through the inputs of the discriminator 12 decreases, and a potential appears at its output I, causing the LED to “break” the LED for the “break” indicator 16 of the communication line accident. With a short circuit in the communication line 5, the current flowing through the inputs of the discriminator 12 increases, the potential at its output II causes the LED to "glow" the indicator 16 of the communication line failure.

 When the air pressure in any container 7 drops below the permissible limit, the mercury contact closes in the detector 8. At the same time, the DC circuit closes: "+" of the power supply 6, inductor 10, alarm indicator 4, contacts of the dual switch 3, one wire of line 5 connection, the resistor 9, the closed contact of the detector 8, the capacitor 14, the second wire of the communication line 5, "-" of the power supply 6. Indicator 4 of an alarm is triggered. The station personnel, having received an alarm signal, switches the double switch 3 to position II and, using, for example, an ohmmeter, the scale of which is calibrated in the container numbers, determines the number of the container 7, in which the air pressure drops below the permissible limit.

 In FIG. 2 shows an example of a discriminator 12 using a differential relay 17 and a bridge rectifier 18. The relay has contacts 19-21 and windings 22, 23. A signal from a bridge rectifier 18, the two inputs of which are the inputs of discriminator 12, is fed to the coil 22 of the relay 17. 23 of the relay 17 is supplied with direct current in such a direction that the magnetic fluxes of the windings 22 and 23 cancel each other when the communication line 5 is in good condition. Contact 19 is in the middle position, contacts 20 and 21 are de-energized.

 When the communication line 5 is broken, the current through the winding 22 of the relay 17 becomes equal to zero, the magnetic flux of the winding 23 causes the relay 17 to operate, and its contacts 19 and 20 are closed, causing the appearance of a positive potential at the output I of the discriminator 12.

 With a short circuit of the communication line 5, the current through the winding 23 increases above the initial value, causing the contact 19 of the relay 17 to move in the opposite direction. Contacts 19, 21 are closed and a positive potential appears at the output of II discriminator 12.

 When the communication line 5 is broken, the place of the break can be determined, for example, by measuring the capacitance of the communication line 5, the value of which is proportional to the length of the line from the terminal station 1 to the place of the break. Moreover, the numbers of containers 7 with air leakage, located from station 1 to the cliff, are determined in the same way. The place of a short circuit is determined by measuring the resistance of the loop of the communication line 5 in position II of switch 3, for which a separate scale graduated in ohms can be provided in the measuring unit 2 (ohmmeter).

 The technical and economic efficiency of the proposed device lies in the fact that the pressure reduction alarm provides increased reliability and reliability of the pressure reduction control in the containers of NUP due to the continuous monitoring of the serviceability of the communication line, thereby eliminating the need for time-consuming and costly preventive measures.

Claims (1)

 A PRESSURE REDUCTION SIGNALING DEVICE, comprising at the terminal station a measuring unit connected by terminals to the first fixed contacts of the first and second contact groups of the dual switch, the second fixed contact of the first contact group of which is connected to the first terminal of the alarm indicator, and the movable contacts of the first and second contact groups are respectively, with the first and second wires of the communication line, and the power source, in each container - a signaling device with a mercury contact and a measuring cut side, connected in series and connected respectively to the first and second wires of the communication line, characterized in that, in order to increase the reliability of the device by continuously monitoring the serviceability of the communication line, the first and second reactors are connected to it, connected by one output to the corresponding busbars of the power source and other conclusions, respectively, to the second terminal of the alarm indicator and to the second fixed contact of the second contact group of the dual switch, the discriminator, the first input of which dinen with the second output of the alarm indicator, the first capacitor connected to the terminals of the alarm indicator, the second capacitor connected to the ends of the first and second wires of the communication line, the generator, the first output of which is connected to the second fixed contact of the second contact group of the dual switch, and the communication line failure indicator , the second output of the generator is connected to the second input of the discriminator, the output of which is connected to the inputs of the alarm indicator of the communication line.

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