RU72333U1 - DEVICE FOR MONITORING THE STATE OF TELEPHONE CABLES DETERMINING THE PLACE OF THEIR CLIP - Google Patents

Abstract

A device for monitoring the state of telephone cables and determining the place of their breakage, including a measuring unit located on an automatic telephone exchange, a control unit made in the form of a microcontroller connected to a computer of the control center, and a control pair of wires of the main cable, characterized in that the control pair of wires the trunk cable is connected to the selected pairs of multiple telephone distribution cables through a switch configured to alternately connect each The selected pair is connected to the control pair of wires of the trunk cable, and resistors with a given resistance are placed on each selected pair of telephone distribution cables and at the end of the control pair of wires of the trunk cable, while the microcontroller is capable of cyclically measuring the electrical parameters of the trunk cable and many telephone distribution cables and transmitting the values of these parameters to the computer of the dispatch center, as well as with the ability to determine the status of the master ceiling elements and distribution of telephone cables and calculating distances to the point of breakage.

Description

The utility model relates to devices for monitoring the integrity of connecting cables of wired telecommunications and can be used to detect in the shortest possible time places of telephone cable breakage of any length. The device is designed to monitor the condition of telephone cables and accurately measure the distance to the place of damage of the main and distribution telephone cables, in which the wires are twisted and paired, and the electric capacitance in them is evenly distributed.

A device for measuring the distance to the place of cable breakage due to the direct measurement of the discharge time of the electric capacity of the cable (RF Patent No. 1224753, G01R 31/08, 1986). The device provides for connection to a damaged cable core to a common bus and is intended to search for a place of partial damage to cable lines.

A disadvantage of the known device is that in case of complete damage to the cable and the absence of a working wire, it is unsuitable for use and inoperative. At the same time, the device cannot be operated in automatic mode without the participation of a person who requires a specialist to go to the scene of the accident, connect devices and take the necessary measurements.

The prototype of the claimed device is a device for measuring the distance to the breakage point of the main telephone cable when it is completely damaged by monitoring the state of the control pair of wires and measuring the residual electrical capacitance of the surviving cable section (Utility Model of the Russian Federation No. 57912, G01R 31/08, 2006).

A disadvantage of the known device is the impossibility of automated control of telephone distribution cables coming out of distribution cabinets (RS) and

connected to the PBX subscriber points. Distribution cabinets are located in an open space, which does not allow installing expensive object devices in them for monitoring the state of distribution cables and transmitting information to a dispatch center, i.e. to carry out automated control of telephone distribution cables in real time.

The technical task is to expand the functionality of the device due to the implementation of additional automated monitoring of the status of distribution telephone cables, as well as determining the breakage points of the main cable and distribution telephone cables of any length in real time.

The essence of the utility model is that in a device including a measuring unit located on an automatic telephone exchange, a control unit made in the form of a microcontroller connected to a computer of the control center, and a control pair of wires of the main cable, according to the formula of the utility model, a control pair of wires of the main the cable is connected to the selected pairs of many telephone distribution cables through a switch, made with the possibility of alternately connecting each selected a pair to the control pair of wires of the main cable, and on each selected pair of distribution telephone cables and at the end of the control pair of wires of the main cable there are resistors with a given resistance, while the microcontroller is capable of cyclically measuring the electrical parameters of the main cable and many distribution telephone cables and transmission the values of these parameters in the computer of the dispatch center, as well as with the ability to determine the state of the main and distribution telephone cables and calculating the distance to the place of their break. The figure shows a diagram of the inventive device. The device includes a measuring unit 1, located on an automatic telephone exchange (PBX) 2, connected to the computer 3 of the dispatch center (not shown). The measuring unit 1 contains a node

measuring the electric capacity 4 and the control unit 5, which is made in the form of a microcontroller connected to the computer 3 of the control center. The control unit 5 is connected to a pair of wires 6,7, selected as a control from a set of pair of twisted conductors of a multicore trunk cable (not shown). The control pair of wires 6.7 is connected in the outgoing section of the cable, i.e. from the side of the exchange 2 to the node for measuring the electric capacity 4. The control pair of 6.7 wires of the main cable is connected to the selected pairs of wires 8,9,10 ... N of a variety of distribution cables (for example, 16). Each selected pair has a resistor 11,12,13 ... n with a given resistance. The switch 14 contains the switches 15,16,17 ... m, allowing the alternate connection of each selected pair of 8,9,10 ... N to the control pair of 6.7 wires of the main cable.

The microcontroller 5 is configured to cyclically measure the electrical parameters of the trunk cable and a plurality of N telephone distribution cables (not shown) and transmit the values of these parameters to the computer 3 of the control center. The microcontroller 5 is also configured to determine the state of the trunk and multiple telephone distribution cables and calculate the distance to their breakage points. The outgoing ends of the distribution cables are located in the distribution cabinet (RS) 18, and the incoming ends are on the other end of the subscriber line of the PBX 2. The resistor 19 is located in the RS 18 at the ends of the control pair 6.7 and serves to determine the length of the trunk section L _M.

Before starting work, the value of the total length of the control pair of the main cable L _M in meters, as well as the values of the total lengths of the selected pairs of all distribution cables 8,9,10 ... N, were entered into the computer memory 3.

The device operates as follows.

The measuring unit 1 performs (N + 1) measurements of the electrical capacitance C and the resistance R of the electrical circuits.

The first measurement is carried out with the switches 15,16,17 ... m off. If the measured value of the resistance R _{1 of the} electric circuit corresponds to the value of the resistance R _{p of the} resistor 19, then the section

The control pair of the trunk cable of length L _{M is} not damaged. The measured value of the electrical capacitance of the integral control pair of the main cable C _m is transmitted to the microcontroller 5 and the computer 3 is stored.

The second measurement is carried out with switch 15 on. If the measured resistance R ₂ corresponds to the resistance value of the resistors 19 and 11 connected in parallel, then the selected pair of wires 8 of the distribution cable is intact. The measured value of the electric capacitance C _{ISM 1} is the sum of the total electric capacitance of the control pair 6.7 of the trunk cable Cm and the electric capacity of the allocated pair 8 of the distribution cable C ₁ :

C _{meas 1} = C _m + C ₁

The value of C _{ISM 1 is} also transmitted to the microcontroller 5 and the computer 3 is stored.

The next cycle of the device is as follows. The switch 15 is turned off and the switch 16 is turned on, then the resistance value R ₃ in the circuit is measured. If the value of R ₃ corresponds to the resistance value of the parallel connected resistors 19 and 12, then the selected pair of distribution cable 9 is intact. In this case, the electric capacitance C _{ISM 2} = C _m + C ₂ , the value of which is stored in the computer 3.

In the same order, the state of the remaining selected pairs of distribution cables 10 ... N is monitored, N + 1 values of the electric capacitance C _{meas. N + 1} are obtained.

In the event that, during the initial measurement of the parameters, the value of the measured circuit resistance exceeds the resistance value of the resistor 19, this means that the control pair 6.7 of the main cable is cut off. The measured value of the residual electric capacitance C _{oost m is} recalculated by the computer 3 into the residual length L _{oost m of the} control pair according to the formula:

L _{OST M} = L _M × S _{East m} / S _m

If, when measuring the parameters of the selected pairs of distribution cables 8,9,10 ... N, a significant excess of the resistance value in the circuit over the resistance value is found

parallel-connected resistors 19 and for example 11, then this means that the severed pair of wires Dedicated distribution cable 8. Measured value C _{ost N} equals the sum of the values of electrical capacitance couples the reference trunk cable C _m and residual capacitance C _{p ost} own dedicated pair 8 distribution cable.

The value of C _{ostr is} calculated by the formula C _ostr = C _{ost N} - C _m , then the residual length of the selected pair 8 of the distribution cable L _ost = L _{ost m} - L _{m is} calculated, indicating the place of breakage of this cable.

These measurements are carried out by measuring unit 1, are transmitted to the microcontroller 5 and computer 3 of the control center in a continuous cyclic mode, which allows you to track seasonal changes in the parameters of the controlled cables.

Claims (1)

A device for monitoring the state of telephone cables and determining the place of their breakage, including a measuring unit located on an automatic telephone exchange, a control unit made in the form of a microcontroller connected to a computer of the control center, and a control pair of wires of the main cable, characterized in that the control pair of wires the main cable is connected to the selected pairs of many telephone distribution cables through a switch configured to alternately connect each The selected pair is connected to the control pair of wires of the trunk cable, and resistors with a given resistance are placed on each selected pair of telephone distribution cables and at the end of the control pair of wires of the trunk cable, while the microcontroller is capable of cyclically measuring the electrical parameters of the trunk cable and many telephone distribution cables and transmitting the values of these parameters to the computer of the dispatch center, as well as with the ability to determine the status of the master ceiling elements and distribution of telephone cables and calculating distances to the point of breakage.