DE10016857A1 - On-line road control for energy distribution network, comprises load sensing and control unit in each consumer's premises, communicating with central management unit - Google Patents

Abstract

The energy supplied by the network to each consumer installation (20) is measured in a control unit (1) by tariff metering (5) comprising a power section (2) with an integrator (3) in conjunction with a memory (4). The unit also includes a communications module (7), transmitting data and receiving commands to and from the network's central management unit over power line carrier circuits (31), incorporated in the network, a memory (8) into which the management unit places and updates a threshold power setting, and a comparator (9) with output to an interruptor unit (14). The latter interrupts the consumer's supply through a circuit-breaker (13). This has a thermal delay feature (11), catering for short-term overloads, e.g. motor starting, whose characteristics are simulated by a filter (6) in the measured load input to the comparator to reflect the primary circuit conditions. An instantaneous overcurrent trip (12) is also fitted. The set threshold for each consumer's power demand, held in the control unit memory (8), is related to the network daily load curve, being reduced at peak load times and raised off-peak. Opt., the controller is arranged to initiate an audible or visible alarm as the threshold is approached; the consumer can then reduce his load to anticipate the interruption which will otherwise follow. Opt., also, the circuit-breaker controls selected load elements rather than the whole installation load.

Description

An energy distribution network, for example for the Ver division of electricity, water or gas is intended to summarizes a variety of consumer equipment, from at least be supplied with energy at a production center. Each System has a counter for the energy used and an interruption device, such as. B. an electrical Switch, a throttle valve or a gas valve or one Water tap.

The electrical counters to continue this example those who used to work mechanically are now working more and more electrically tronic, especially for reasons of accuracy and stability. In such electronic meters, can seen from the function of measuring the energy used gie, other functions such. B. remote reading or Remote control, be integrated, it is a remote commu nication center enable the energy consumed reading performance or the tariffing of the energy in the meter depending on the current period (night, day, etc.) to change.

The load of the network, i. H. that of the multitude of consumptions energy consumption, changes in  Passage of time. Low load times are determined, for example wise in the night when the load is low and high load times when the load is high and sometimes the maxi distribution capacity of the network.

To the consumption of electrical consumer systems and thus the risk of saturation of the energy distributed in the network to limit, each system has a threshold for the indi vidual consumable or available energy, whereby the The switch is intended to be above this threshold Switch off the system completely or partially.

However, the energy requirement increases more and more during the Power generation and distribution capacity limited today is and the development of new production centers and the Power distribution network require extremely high investments would.

The aim of the invention is to meet the increasing energy requirements to come without the need for the present To increase energy generation and distribution capacity.

For this purpose, the invention relates to an energy distribution network, which is a communication center, a variety of energy-consuming systems and for each of these systems Devices for measuring the energy consumed and on directions for communicating with the communication center has, and is characterized in that for each system Means for storing a threshold of the consumable Energy, facilities for comparing the energy used with the threshold of consumable energy and equipment provided to indicate that the threshold has been exceeded hen are controlled by the comparison devices be and enable the energy consumption of the plant belittle, and that the communications center and the  Communication facilities of each system are designed that they work together to the threshold of consumable Energy of the system in response to a control command from the control center to change.

Thanks to the invention, the load of the distribution network in the Time is regulated by the energy available for each plant is increased during low-load periods and / or by it is reduced during peak hours. The users of the Plants are stimulated by their consumption habits to change by less during peak hours Consume energy and more during low load times. The means of storing the threshold of consumption The energy of every plant can be on the side of this Plant.

Likewise, the facilities for comparing the ver needed energy with the threshold of consumable energy of each plant on the side of this plant.

The facilities for indicating the exceeding of the Threshold of consumable energy can be acoustic and / or have optical display devices.

The user of the system can in this way from one moderate energy consumption and be notified yourself decide the operation of an energy consuming element interrupt his facility to reduce his energy consumption belittling.

In a particular embodiment, the facilities include to indicate that the threshold of the ver usable energy facilities for at least partial Interruption of the system's energy consumption.  

A filter for the Simu is advantageous for each system a sluggishness of interrupting energy consumption intended.

Especially in the case of an electricity distribution network the interruption devices take a thermal Electricity cut-off. In this case, the filter enables simulating a break inertia similar to that thermal inertia of a thermal circuit breaker, the it allows the electricity to flow only after a certain time switch off excessive consumption of electrical power, that of the strength of the current and of the switch itself Characteristics depends.

The invention further relates to a device for over monitoring the energy consumption of an energy-consuming Installation of the distribution network described above, the Einrich for measuring the energy consumed by the system and Devices for communicating with a distant communication has cation center, and is characterized in that They have facilities for storing a threshold of consumption energy, facilities for comparing the used energy Energy with the threshold of consumable energy and Has actuating devices which are intended to in response to a control command from the comparison devices directions to indicate that the threshold has been exceeded operate that allow the energy consumption of the Plant to reduce, the communication facilities are designed to communicate with the communications center cooperate to the threshold of the consumable energy of the Change the system in response to a control command from the control center.

A description follows for a better understanding their embodiment of the power distribution network and the  Device for monitoring the energy consumption of a ver consumer installation according to the invention with reference to the enclosed drawings. In these show:

Fig. 1 is an overall circuit diagram of the network according to the particular embodiment and

FIG. 2 shows a functional block diagram of a device for monitoring a system of the network from FIG. 1.

The network for the distribution of energy, in the present case of electrical energy, has a plurality of electrical consumer systems 20 , which are connected to a center 32 for generating electrical energy via an infrastructure 31 for transporting and distributing electrical energy, and a communication center 30 on.

Each consumer system 20 has a number of electrical energy-consuming elements and is connected to a device 1 for monitoring the energy consumption of the system 20 , which in turn is connected to an electrical circuit breaker or circuit breaker 14 .

In the device 1 , an electrical counter 5 is inte grated, which has a block 2 for measuring the electrical energy output consumed by the system 20 , an integrating element 3 and a memory 4 for storing the energy consumed by the system 20 . The integrating element 3 , which is connected to the measuring block 2 and the memory 3 , is designed to form the time integral of the electrical power consumed by the system 20 in order to determine the amount of electrical energy consumed, in other words, the energy consumption of the system 20 to determine.

The device 1 also has a block 7 for connection to the communication center 30 , a memory 8 for storing a maximum threshold of the consumable electrical power's rule and a comparator 9 with two inputs and one output.

The communication block 7 and the central communication unit 30 are connected to the transport and distribution infrastructure 31 which serves as a connecting web, and intended in this manner to each other via carrier flow on electricity transport cables via the infrastructure 31 to kommunizie ren.

The memory 8 , which is connected to the communication block 7 and to one of the inputs of the comparator 9 , serves to store a maximum threshold of the consumable electrical energy output, in other words a maximum value of the electrical output available for the system 20 . The measuring block 2 is connected to the other input of the comparator 9 via a filter 6 to simulate an inertia of the interruption of the energy consumption. The output of the comparator 9 is connected to a block 10 for actuating the disconnector 14 controlled by the comparator 9 .

An electrical disconnector of an energy consuming System which has a thermal protection shutdown element has a thermal inertia for the interruption of the System energy consumption. This inertia makes it possible the system, an energy output above a predetermined Threshold of consumable energy output during short Times, for example while starting an engine consume. In this way, the thermal interrupts Interruption element the electricity consumption in whole or in part only after a time of crossing the threshold by depends on the power consumed and which is the shorter, ever greater the power consumed.  

The filter 6 is intended to simulate the inertia of the interruption of the electrical energy consumption of a thermal protection shutdown element.

The isolating switch 14 , which is connected to the system 20 and to the actuating block 10 , comprises, in a known manner, a thermal protective interruption element 11 , a magnetic protective interruption element 12 and an interrupter 13 . Each of the two interruption elements 11 , 12 is intended to open the interrupter 13 in the event of overuse of the system 20 by electrical control. The thermal protection interruption element 11 has an interruption inertia, as has already been explained above. The opening of the breaker 13 is intended to switch off the system 20 , in other words to interrupt the electrical energy consumption of the system 20 .

Furthermore, the isolating switch or circuit breaker 14 has a user manual control for closing the interrupter 13 .

The actuator block 10 is intended to open the switch 14 by electrical control, as has been described above ben.

The operation of the distribution network and the device 1 will now be described.

On the side of each installation 20, the measuring block 2 measures the electrical energy output consumed by the installation 20 . The integrating element 3 determines the energy consumed by the system 20 by integrating this power in time. This energy is stored in the memory 4 of the counter 5 .

When the electrical power consumed by the system 20 exceeds a set and fixed threshold value, the magnetic protective interruption element 12 opens the interrupter 13 of the disconnector 14 , thereby causing the electrical energy consumption of the system 20 to be interrupted in a known manner.

In the event of a slight overload of the electrical power consumed by the installation 20 during a time which exceeds a thermal inertia time, the thermal interruption element opens the interrupter 13 and thereby causes an interruption in the consumption of the installation 20 of electrical energy.

In addition, the comparator 9 compares at any time the stored in the memory 8 of the usable energy power with the consumption of the system 20 and filtered by the filter 6 electrical energy.

If the consumed and filtered electrical power exceeds the threshold of the consumable energy output, the comparator 9 commands the actuation block 10 to actuate the disconnector 14 . The actuation block 10 now opens the interrupter 13 by means of electrical control and thereby interrupts the consumption of the system 20 by electrical energy.

Characterized in that the disconnector 14 is intended to switch off the system 20 in the event of an energy consumption, it ultimately forms an indication of the exceeding of the threshold of the consumable energy, which is controlled by the comparator 9 via the actuating block 10 .

In order that the system 20 can again consume electrical energy, a user closes the interrupter by manually actuating the closing control of the interrupter.

The threshold of the consumable energy output, which is stored in the memory 8 , can be changed. It can vary around a reference value S ₀ , which was previously stored in a memory of the communication block 7 , as will now be explained.

The load of the network for the distribution of electrical energy, in other words, the total amount of the plurality of Consumer equipment consumed energy changes over the course currently. This load lies far during the low load times below a maximum load value acceptable to the network, and it is close to this value during peak periods.

At the beginning of the low-load time, the communication center 30 transmits a control command to the communication block 7 of each installation 20 to increase the threshold of the energy output that can be consumed by the installation 20 , in the present case by a given percentage p ₁ . The communication block 7 now increases the threshold of the consumable energy output stored in the memory 8 by the prescribed percentage p ₁ .

At the beginning of a high load period, the communication center transmits a control command to the communication block of each installation 20, in order to lower the threshold of the energy output that can be consumed by the installation 20 by a given percentage p ₂ . The communication block 7 now lowers the stored in the memory 8 of the consumable energy performance by the prescribed percentage p ₂ .

Outside the low-load and high-load times, the communication center 30 transmits to the communication block 7 of each installation 20 a command for resetting the threshold of the energy output that can be consumed by the installation 20 to the reference value S ₀ . The communication block 7 now increases or decreases the threshold of the consumable energy output stored in the memory 8 in order to set it to the reference value S ₀ .

In this way, the load of the network becomes dynamic during the run the time depending on the type of time (low load, High load or normal).

It should be noted that the communication center 30 and the communication block 7 of each installation 20 cooperate in order to change the threshold of the energy power consumable by the installation 20 stored in the memory 8 in response to a control command from the communication center 30 .

Instead of the electrical actuation block of the isolator switch can also verge a mechanical actuation block be seen who has, for example, an electromagnet, one finger in motion to open the breaker transferred.

One can in the device for monitoring the energy ver also need an acoustic indicator and / or an opti provide for the scoreboard, which is displayed by the comparator over the Actuator block is controlled to exceed the Display threshold of consumable energy and on it Way to enable a user to save energy Plant by reducing at least one of the energy ver switches off the necessary elements.  

The disconnector can also be designed so that it The system's power consumption is only partially interrupted by just scarf some energy-consuming elements of the system tet.

In the above description, the memory 8 for storing the threshold of consumable energy and the comparator 9 are located on the plant 20 side. Provision can also be made to arrange these elements on the side of the communication center 20 .

Claims (15)

1. Power distribution network, which a communication center ( 30 ), a variety of energy-consuming systems ( 20 ) and for each of these systems ( 20 ) devices ( 2 ) for measuring the energy used and devices ( 7 ) for communicating with the communication center ( 30 ) points, characterized ,
that for each installation ( 20 ) means ( 8 ) for storing a threshold of consumable energy, means ( 9 ) for comparing the consumed energy with the threshold of consumable energy and means ( 14 ) for indicating the exceeding of the threshold are provided by the comparison devices ( 9 ) are controlled and make it possible to reduce the energy consumption of the system,
and that the communication center ( 30 ) and the communication facilities ( 7 ) of each system ( 20 ) are designed so that they cooperate to change the threshold of the usable energy of the system ( 20 ) upon a command from the control center ( 30 ) . 2. Network according to claim 1, characterized in that the means ( 8 ) for storing the threshold of the usable energy of each system are on the side of the system ( 20 ). 3. Network according to one of claims 1 and 2, characterized in that the means ( 9 ) for comparing the ver consumed energy with the threshold of the consumable energy of each system ( 20 ) are on the side of the system ( 20 ). 4. Network according to one of claims 1 to 3, characterized, that the facilities for indicating the exceeding of the Threshold of consumable energy audible indicator directions include. 5. Network according to one of claims 1 to 4, characterized, that the facilities for indicating the exceeding of the Consumable energy threshold optical display directions include. 6. Network according to one of claims 1 to 5, characterized in that the means for indicating the exceeding of the threshold of the consumable energy comprise means ( 14 ) for at least partially interrupting the energy consumption of the system. 7. Network according to claim 6, characterized in that a filter ( 6 ) for simulating an inertia of the interruption of the energy consumption is provided for each system ( 20 ). 8. Network according to one of claims 6 and 7, characterized in that for each system ( 20 ) devices ( 10 ) for electrical control of the interruption devices ( 14 ) are seen before, which are controlled by the comparison devices ( 9 ) ge. 9. Network according to one of claims 6 and 7, characterized in that devices for mechanical actuation of the interruption devices are provided for each system ( 20 ), which are controlled by the comparison devices. 10. Device for monitoring the energy consumption of an energy-consuming system ( 20 ) of the distribution network according to claim 1, the devices ( 2 ) for measuring the energy consumed by the system ( 20 ) and devices ( 7 ) for communicating with a remote communication center ( 30 ) , characterized in that it includes means ( 8 ) for storing a threshold of consumable energy, means ( 9 ) for comparing the consumed energy with the threshold of consumable energy and actuating means ( 10 ) intended to respond to a control command the comparison devices ( 9 ) to actuate devices ( 14 ) for indicating that the threshold has been exceeded, which make it possible to reduce the energy consumption of the installation ( 20 ), the communication devices ( 7 ) being designed to be connected to the communication center ( 30 ) work together to the threshold of consumable energy to change the system ( 20 ) in response to a control command from the control center ( 30 ). 11. The device according to claim 10, characterized, that facilities for acoustic indication of the overreaching least the threshold of consumable energy is provided are. 12. The device according to one of claims 10 and 11, characterized, that facilities for visually indicating the exceeding the threshold of consumable energy is provided. 13. Device according to one of claims 10 to 12, characterized in that
that the actuating devices ( 10 ) are designed so
that they operate devices ( 14 ) for at least partial interruption of energy consumption. 14. Device according to one of claims 10 to 13, characterized in that a filter ( 6 ) is provided for simulating an inertia of the interruption of the energy consumption. 15. The device according to one of claims 10 to 14, characterized in that integrating devices ( 3 ) are provided for forming the time integral grail of the energy consumption by the system ( 20 ).