RU158209U1 - DEVICE FOR AUTOMATIC CONTROL OF EXTERNAL LIGHTING LINES - Google Patents

Abstract

A device for automatically controlling outdoor lighting lines, comprising a housing with a door, a communication module, a multifunctional electricity meter connected via power circuit breakers to power supply circuits, a housing door opening sensor, electromagnetic starters, automatic load switches and an operation mode switch, characterized in that the multifunctional electricity meter used has a tele-alarm input, remote control outputs, a temperature meter inside the meter a sensor, a magnetic field impact sensor, while the control circuits of the electromagnetic starters are connected to the output of the operating mode switch, the first input of which is connected to the manual control circuit, the second input of the operating mode switch is connected to the telecontrol outputs of the electricity meter, to the tele-signaling input of which the housing door open sensor is connected , and the output / input of the communication module is connected to the communication input / output of the meter, and the multifunctional electricity meter has up to Additional functions, namely: the function of relay control for turning on / off the load according to the schedule, the function of storing the schedule for controlling outdoor lighting lines, the function of recording and storing events in the process of changing currents, capacities, voltages, temperatures.

Description

The utility model relates to the field of automatic control of electric lighting equipment and is intended, in particular, to turn on and off outdoor lighting lines in automatic mode.

A device for automatically controlling the inclusion of outdoor lighting lines [1], comprising a housing with a door, circuit breakers, network three-pole electromagnetic starters, a processor control unit with an integrated communication module with a predetermined annual schedule of daylight hours, connected in parallel through a mode select switch to network three-pole electromagnetic starters. Manual control circuits that are connected to electromagnetic coils of three-pole starters are connected to the switch for selecting operating modes.

The disadvantage of this device is the unreliability of work due to the lack of control of emergency situations, which is caused by the lack of functional units that control the currents consumed by the load, power, temperature inside the device and unauthorized access to the device.

A multifunctional electric energy meter [2] is known, which has additional functions, for example, a relay control function for turning on / off a load according to a schedule, a schedule storage function for relay control for switching a load on / off, a function for recording and storing events in the process of changing measured values (currents, capacities stress, temperature). To perform additional functions, the meter also has a telealarm input, remote control outputs, a temperature meter inside the meter, and a magnetic field sensor.

The closest in technical essence to the proposed solution is a device for automatically controlling the inclusion of outdoor lighting lines [3]. The device comprises a housing with a door, start-up equipment, including circuit breakers, three-pole network electromagnetic starters and control circuits connected to the load, a control processor unit with a predetermined annual schedule of daylight hours, connected in parallel through a mode selection switch to three-pole electromagnetic starters, manual control circuits that are connected to electromagnetic coils with tevyh three-pole contactors, per phase is connected to a single-pole circuit breakers. To the electromagnetic coils of the network three-pole electromagnetic starters, the output circuits of the processor control unit with an integrated communication module connected to the fire-heat detector, additional status contacts of the circuit breakers and network three-pole electromagnetic starters, and a door open sensor are connected. Inside the device is a multifunctional electric energy meter connected to power supply circuits.

The described device has the following disadvantages: reduced reliability and service life, the increased cost of the described device and the increased cost of its maintenance.

These shortcomings are caused by the following reasons.

The reason for the decrease in reliability and service life is that the described device monitors emergency currents by changing the state of additional contacts on the circuit breakers after the current value exceeds the threshold of the circuit breaker, that is, the described device does not allow to determine the pre-emergency increase of current operating personnel were able to take action to prevent an emergency.

The second reason for the decrease in the reliability and service life of the described device is that the fire-heat detector is triggered by a fire inside the device and does not allow you to monitor the temperature increase inside the device before a fire, that is, it does not allow you to identify a pre-emergency situation and prevent damage to equipment.

The increased cost of the device and the costs of its maintenance are caused by a large number of functional units included in the device, such as a processor control unit, a fire-heat detector, and status contacts of circuit breakers. In addition to the cost of these functional units, their presence increases the dimensions and price of the housing of the described device and increases the range of spare parts for servicing the device.

The technical result that manifests itself when using the proposed utility model is to improve the characteristics of the device for automatic control of outdoor lighting lines, such as increasing the reliability and longer service life, reducing the cost and maintenance costs, using new functions.

The implementation of the specified technical result in the proposed utility model is achieved through the use of a multifunctional electricity meter with the functions of tele-control, tele-alarm and relay control of switching on / off the load on schedule, by using the maximum number of functions of the used electricity meter, by changing the connections between functional units and reducing the number functional units of the proposed utility model.

Moreover, the proposed device for automatic control of outdoor lighting lines, comprising a housing with a door, a communication module, a multifunctional electricity meter connected through power circuit breakers to power supply circuits, a housing door opening sensor, electromagnetic starters, automatic load switches and an operation mode switch, characterized in that the multifunctional electricity meter used has a tele-alarm input, tele-control outputs, a t meter the temperature inside the meter, a magnetic field sensor, while the control circuits of the electromagnetic starters are connected to the output of the operating mode switch, the first input of which is connected to the manual control circuit, the second input of the operating mode switch is connected to the telecontrol outputs of the electricity meter, to the tele-alarm input of which the opening sensor is connected the door of the case, and the output / input of the communication module is connected to the communication input / output of the counter, moreover, a multifunctional electronic meter Electricity has additional functions, namely: the function of relay control for turning on / off the load according to the schedule, the function of storing the schedule for controlling outdoor lighting lines, the function of recording and storing events in the process of changing currents, capacities, voltages, temperatures.

The technical result, which consists in increasing the reliability of operation and increasing the service life, reducing the cost of the device and reducing the maintenance costs of the automatic control device, increasing the number of functions performed, namely: fixing attempts to steal electricity by exposure to a magnetic field, fixing pre-emergency situations detected by increasing current, power, voltage and (or) temperature is achieved due to:

- the use of a multifunctional electricity meter having additional functions,

- removal of functional units whose functions are performed by the applied multifunctional electricity meter with additional functions, namely: a processor control unit, a fire heat detector, additional contacts of circuit breakers;

- changes in the relationships between the remaining functional nodes.

The utility model is illustrated in the drawing, which shows a functional diagram of a device for automatic control of outdoor lighting lines.

The proposed device for automatic control of outdoor lighting lines, shown in the drawing, contains a communication module 1, a housing door open sensor 2, in which the proposed device is connected to which external power supply circuits 3 are connected, a circuit breaker 4, a multifunctional electricity meter with additional functions 5, electromagnetic starters 6, circuit breakers 7 and power circuit load 8 (outdoor lighting lines), and the control circuit 9 electro magnetic starters 6 are connected to the output of the operating mode switch 10, to the first input of which the manual control circuits 11 are connected, the telecontrol outputs of the counter 5 are connected to the second input of the operating mode switch 10, the sensor 2 of opening the cabinet door is connected to the telealarm input, and to the communication input / the output of the counter 5 is connected to the output / input of the communication module 1, and the multifunctional electricity meter 5 has additional functions, namely: the function of relay control on / off the scheduled load, the schedule storage function for controlling outdoor lighting lines, the function of recording and storing events in the process of changing the measured currents, capacities, voltages, temperature, to perform additional functions, the counter has a telealarm input, remote control outputs, a temperature meter inside the meter, an exposure sensor magnetic field.

The proposed device for automatic control of outdoor lighting lines works as follows.

When the time comes when, according to the schedule stored in the counter 5, the load (lighting lines) must be turned on / off, or when a command is received from the control center through the communication module 1, the signals of the telecontrol outputs of the counter 5 appear on the communication inputs of the counter 5 through the operating mode switch 10, they are supplied to the control circuit 9, the electromagnetic starters 6 are turned on / off and the supply voltage is supplied / removed to the load power circuits 8.

If the values of current and (or) power measured by the multifunction counter 5 are greater than the minimum threshold and less than the maximum threshold, then counter 5 registers and records the event that the load is receiving current, that is, the electromagnetic starters 6 are turned on normally.

If the values of current, power and (or) temperature inside the case measured by counter 5 exceed the maximum thresholds, then counter 5 registers and records the event that a pre-emergency situation has occurred and sends a signal to the telecontrol output to turn off the electromagnetic starters 6.

If the signal from the sensor 2 opens the door to the input of the signaling system of the counter 5 or the counter detects the effect of an external magnetic field, the counter registers and records the event that unauthorized access is taking place.

Information about the measured values and recorded events is transmitted from the counter 5 through the communication module 1 to the operator of the dispatch center to monitor the functioning of the proposed device.

Thus, the reliable operation of the device for automatic control of outdoor lighting lines is ensured at a reduced cost, a reduced maintenance cost, and an additional protection function against theft of electricity.

Information sources

1. Patent for utility model RU 25963 U1. IPC: Н02В 1/00. Device for automatically controlling the inclusion of outdoor lighting lines. Publ. 10/27/2002.

2. Electric energy meters MIR S-04, MIR S-05, MIR S-07. Operation manual, (http://mir-omsk.ru/support/downloads/pub_files/Operational-docs/7713.html)

3. RF patent for utility model RU 134384 U1. IPC: Н05В 37/02. Device for automatically controlling the inclusion of outdoor lighting lines. Publ. 11/10/2013.

Claims (1)

A device for automatically controlling outdoor lighting lines, comprising a housing with a door, a communication module, a multifunctional electricity meter connected via power circuit breakers to power supply circuits, a housing door opening sensor, electromagnetic starters, automatic load switches and an operation mode switch, characterized in that the multifunctional electricity meter used has a tele-alarm input, remote control outputs, a temperature meter inside the meter a sensor, a magnetic field impact sensor, while the control circuits of the electromagnetic starters are connected to the output of the operating mode switch, the first input of which is connected to the manual control circuit, the second input of the operating mode switch is connected to the telecontrol outputs of the electricity meter, to the tele-signaling input of which the housing door open sensor is connected , and the output / input of the communication module is connected to the communication input / output of the meter, and the multifunctional electricity meter has up to additional functions, namely: the function of relay control of turning on / off the load according to the schedule, the function of storing the schedule for controlling outdoor lighting lines, the function of recording and storing events in the process of changing currents, capacities, voltages, temperatures.

Images