RU68737U1 - DEVICE FOR COLLECTING INFORMATION FROM SENSORS FOR MONITORING SECURITY OBJECTS - Google Patents

Abstract

Refers to devices for collecting information about the status of monitoring sensors located at security facilities remote from the control center, and can be used to organize monitoring inside the inspection wells of telecommunication systems, cable facilities, etc.

The technical task is to ensure the reliability of the device and its speed when monitoring the inspection wells of underground utilities in the amount of several hundred while reducing the cost and simplifying the installation of the equipment used due to the matrix connection circuit of standard telephone cables with control sensors.

Essence: a device for collecting information from monitoring sensors of security objects connected by wires to a microprocessor controller that polls monitoring sensors according to a predetermined algorithm, in which the objects of protection are observation wells of telecommunication systems, telephone wires with a typical number of wires that are connected to these sensors serve as connecting wires control according to the matrix scheme, the number of rows m and columns n of which in total is equal to the number of telephone cable cores, while the microprocessor controller configured to interrogate monitoring sensors by applying a constant voltage alternately in columns n ₁ , n ₂ , n ₃ ... n _m , monitoring the state of rows m ₁ , m ₂ , m ₃ ... m _{n of the} matrix circuit and transmitting information about the state m × n control sensors in a control center.

A similar scheme can be used to monitor the allocated pairs of distribution wires. In this case, selected pairs of distribution cables closed at the opposite end, 1 sludge, can be used as monitoring sensors.

Description

The utility model relates to devices for collecting information about the state of monitoring sensors located at security facilities remote from the control center, and can be used to organize monitoring inside the inspection wells of telecommunication systems, cable facilities, etc.

A device for monitoring the status of objects of protection, monitoring the status of sensors made in the form of switching contacts and connected in a matrix circuit (RF Patent No. 2055401, G08B 23/00, 1996).

However, the known device is an abstract circuit that is not tied to the solution of a specific problem, and is not intended to control objects taking into account the climatic conditions in which the device operates, in particular, inspection wells of telecommunication systems located underground (underground communications).

Closest to the technical nature of the claimed is a data collection device designed to control geographically remote and linearly distributed objects, such as a system of observation wells of underground communications (RF Patent No. 63577, G08B 26/00, 2007)

The known device uses a two-wire communication line between the microcontroller and the objects of protection, the maximum number of address polling units on one pair of wires is 16, so the total number of monitored objects is 96. And the number of really monitored objects, such as cable viewing wells, is usually several hundred leading to significant

the rise in price and inconvenience of laying and fixing underground connecting wire systems.

At the same time, address polling units located directly in the wells, which are expensive electronic devices, are exposed to the negative effects of the environment (temperature, moisture, etc.) and are capable of damaging the entire information collection device.

In addition, the interrogation time of the monitoring sensors is at least 10 seconds, which is too long for short-term opening of security objects with subsequent sabotage in the form of artificial bringing the sensor to the “Closed” state.

The technical task is to ensure the reliability of the device and its performance when monitoring the inspection wells of underground utilities in the amount of up to several hundred, while cheapening and simplifying the installation of the equipment used due to the matrix connection circuit of standard telephone cables with control sensors.

The essence of the technical solution lies in the fact that in the device for collecting information from sensors for monitoring security objects connected by wires to a microprocessor controller that polls the sensors for monitoring according to a given algorithm, according to the utility model, the objects of protection are observation wells of telecommunication systems, telephone wires are telephone cables with a typical number of cores that are connected to the indicated control sensors according to the matrix scheme, the number of rows m and columns n of which in total is the number of telephone cable cores, while the microprocessor controller is configured to interrogate the control sensors by supplying direct voltage alternately in columns n ₁ , n ₂ , n ₃ ... n _m , monitoring the state of rows m ₁ , m ₂ , m ₃ ... m _n matrix diagrams and transmitting information about the state of m × n control sensors to a control center.

In addition, dedicated pairs of distribution cables closed at the return end can be used as monitoring sensors. In this case, a similar circuit may additionally

be used to monitor selected pairs of distribution wires.

The proposed scheme according to claim 1 is intended to organize the control of a large number of viewing wells (several hundred) using standard cables of a certain wire capacity (for example, 5, 10, 20-core, etc.) as connecting wires, which they are fixed inside the inspection wells by standard methods and devices for telecommunication specialists.

The core of the cable is connected to the sensors for opening the covers of the cable inspection wells according to the matrix scheme, in which the number of rows m and columns n in total is equal to the number of telephone cable cores, which makes it possible to exclude address polling units from their circuits, ensuring trouble-free operation of the device.

The functions of organizing a survey of control sensors are performed by the algorithm of the microprocessor controller located remotely from the wells on the telephone exchange, and not inside the wells. This algorithm allows the interrogation of control sensors by applying a constant voltage alternately in columns n ₁ , n ₂ , n ₃ ... n _m , monitoring the state of rows m ₁ , m ₂ , m ₃ ... m _{n of the} matrix circuit and transmitting status information m x n control sensors in a control center.

The figure shows a diagram of the inventive device according to claim 1 of the formula.

The device includes a microprocessor compressor 1, to which control sensors 2 are connected in a matrix circuit using cores (wires) 3 of a standard cable used in wired telecommunications. Sensors 2 are conditionally combined into groups I, II, III, IV, V, etc. At the same time, n ₁ , n ₂ , n ₃ ... n _m are the columns of the matrix circuit, m ₁ , m ₂ , m ₃ ... m _n are the rows of the matrix circuit that connects the indicated sensors 2. The decoupling circuits 2 are included diodes (not shown).

The device operates as follows.

A constant voltage of a given value is applied to one core, for example, a 10-core (5 pair) standard cable, which is column n _{1 of the} matrix circuit of the connection of the control sensors 2. Current

passes through the rows m ₁ , m ₂ , m ₃ , m ₄ , m _{5 of the} matrix circuit, interrogating the monitored group I of sensors 2. Based on the presence or absence of voltages at the corresponding inputs, the microprocessor controller 1 evaluates the state (closed or open) of each of the sensors of group 2 I and captures this information.

Then, the voltage is applied alternately to the following columns n ₂ , n ₃ , n ₄ , n ₅ and poll the connected groups of sensors 2 connected through the corresponding cable core until all m × n are polled, i.e. 100 sensors of control. The polling time will be 0.5-1.0 seconds.

The microprocessor controller 1 transmits the collected information via a communication channel to a dispatch center.

A similar scheme can be used to monitor the allocated pairs of distribution wires. In this case, any normally closed sensors, including dedicated pairs of distribution cables, closed at the opposite end, can be used as monitoring sensors.

Claims (2)

1. A device for collecting information from sensors to monitor security objects connected by wires to a microprocessor controller that polls control sensors according to a specified algorithm, characterized in that the objects of protection are observation wells of telecommunication systems, telephone wires with a typical number of wires that are connected to to said monitoring sensors according to a matrix scheme, the number of rows m and columns n of which in total is equal to the number of telephone cable cores, while microprocessor control The controller is configured to interrogate control sensors by applying a constant voltage alternately in columns n ₁ , n ₂ , n ₃ ... n _m , monitor the state of rows m ₁ , m ₂ , m ₃ ... m _{n of the} matrix circuit and transmit status information m × n control sensors in a control center. 2. The device according to claim 1, characterized in that the selected pairs of distribution cables closed at the opposite end can be used as control sensors.