KR100728669B1 - Power Supply System Enable of Auto Power Control and the Auto Controlling Method for the Same - Google Patents

Abstract

The present invention relates to a power generation system capable of automatic power control and an automatic power control method, comprising: a self-generating power system for supplying power to at least one or more loads, and a commercial power supply for commercial power to a load supplied with power by the self-generator It consists of a power generation system and an automatic power cut-off that checks the power supplied by the self or commercial power generation system and the amount of power consumed by the load, and cuts off the power supplied to a specific load when the power consumption exceeds the supply power. Therefore, even if the power supply is not smooth in both power generation systems, power outages are prevented and power is stably supplied to important loads.

Self-Generation System, Cogeneration System, Commercial Power System

Description

Power supply system capable of automatic power control and its automatic power control method {Power Supply System Enable of Auto Power Control and the Auto Controlling Method for the Same}             

1 is a view showing the configuration of a conventional power generation system,

2 is a block diagram showing the internal configuration of a power generation system capable of automatic power control according to the present invention;

3 is a diagram illustrating a configuration of a self-power generation system 10 of FIG.

4 is a flow diagram illustrating an automatic power control method of a power generation system according to the present invention.

<Explanation of symbols on main parts of the drawings>

10: self power generation system 20: commercial power generation system

31,32,33: Load 40: Automatic power breaker

41: controller 42: relay

The present invention relates to a power generation system capable of automatic power control, and an automatic power control method thereof. In particular, the power supply is suddenly stopped in a self-contained or commercial power generation system in a system in which all power supplied from a self-generation system and a commercial power generation system is used. The present invention relates to a power generation system capable of automatic power control, and an automatic power control method thereof invented to prepare for the case.

In order to drive electric devices in homes or factory buildings, power is required. In general, homes are supplied with necessary power through commercial power generation systems such as KEPCO. However, in the case of factory buildings, it is often insufficient to supply power to all loads only by the power supplied from a commercial power generation system.

Even when equipped with a self-generating system, the power supplied from a commercial power generation system is usually used together. As shown in FIG. 1, when the load 1 consumes 200 mW, the self-generating system 2 is 100 It is common to generate power and to supply 100 kW through the commercial power generation system 3 to cover the power consumption.

On the other hand, between the load (1) and the self-generating system (2) and the commercial power generation system (3) it is common that the switchgear (4, 5) is established, if the power consumption of the load is only 100 kW It does not need to be powered from the system, thus preventing the power supply from unnecessary power generation systems.

However, in the power generation system configured as described above, when the power supply of one of the power generation system or the commercial power generation system is interrupted due to failure / repair, the power consumption of the load that is charged by the remaining normal power generation system is its capacity. Will be exceeded.

In other words, if the power generation system fails, KEPCO, which is a commercial power generation system, is designed to bear the customer side load alone. If the total load of the plant increases a certain amount, the power peak will be exceeded by the contracted amount. Can be. In addition, when the power supply of the commercial power generation system is stopped, if the building load increases by a certain amount or more, the power limit of the self-generating system may be exceeded, such that a power failure may occur.

And, in order to solve this problem, even if the capacity is designed to be large enough to the full load to the generator to accommodate the load, there is a problem that the cost is consumed and unnecessary energy is wasted.

The present invention has been made to solve the above problems of the prior art, the object of the system is to supply power through both the self-generation system and commercial power generation system, the failure of one power generation system or repair / repair of power supply line If the power supply is not smooth due to remodeling, even if the power consumption of the load exceeds the power supply of other power generation systems, the power generation system and automatic power control capable of automatic power control to prevent power failure and ensure stable power supply. To provide a control method.

According to a feature of a power generation system capable of automatic power control according to the present invention for solving the above problems, a self-generating system for supplying power to at least one or more loads, and commercial power to the load supplied by the self-generator Automatic power supply to check the commercial power supply system and the power supplied by the self or the commercial power generation system and the amount of power consumed by the load, and to cut off the power supplied to a specific load when the power consumption exceeds the power supply It is characterized by consisting of a breaker.

In addition, according to a feature of the automatic power control method of the power generation system according to the present invention, a first power supply comparing the power supply amount of the power generation of the self-generation system and commercial power generation system that supplies power to at least one or more loads and the power consumption of the load; And a second step of shutting off power supply to a specific load among the loads when the power consumption in the first step is greater than the supply power.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram showing the internal configuration of a power generation system capable of automatic power control according to the present invention. As shown, the power generation system according to the present invention includes a self-generating power generation system 10 for generating and outputting power itself, a commercial power generation system 20 for generating and outputting commercial power such as KEPCO, and the self Check whether the power is properly supplied from the power generation system 10 and the commercial power generation system 20, and compare the power supply with the power consumption of the at least one or more loads 31, 32, and 33. 33) is composed of an automatic power circuit breaker 40 to cut off the power supplied to a specific load.

At this time, the automatic power circuit breaker 40, as shown, the relay 42 that can cut off the power supplied to the specific load 31 of the plurality of loads, and the on / off of the relay 42 It consists of a controller 41 for controlling. The relay 42 is preferably configured as a magnetic relay that is turned on / off in accordance with the control signal output from the controller 41.

In addition, the specific load 31 refers to the air conditioner in the present embodiment, since the air conditioner generally has the largest load in summer and thus determines the peak power. However, it is not necessary to be an air conditioner, and the load to which the relay 42 is connected may be all of the plurality of loads 31, 32, and 33. The controller 41 checks the most power-consuming load of the plurality of loads 31, 32, and 33 at that time so that the power supplied to the most power-consuming load is cut off.

Meanwhile, if different priorities are set in the plurality of loads 31, 32, and 33, the controller 41 stops power supply from the load having the lowest priority when the power consumption is greater than the supply power. can do.

In this case, the controller 41 and the plurality of loads 31, 32, and 33 are configured to enable RS-485 communication, and the controller 41 is configured to control the loads of the plurality of loads 31, 32, and 33. If information on power consumption or priority is set, the information on priority can be checked.

In addition, the power generation system according to the present invention further comprises a switch 11 capable of cutting off power supplied from the self-generating power generation system 10 and a switch 12 capable of cutting off power supplied from the commercial power generation system 20. It is configured to include. When both the switches 11 and 12 are turned on, the power supplied from the self and commercial self generators 10 and 20 is distributed and supplied to the loads 31, 32 and 33.

In addition, basically, each of the loads are connected to the circuit breakers 34 and 35 which are manual switches, and the circuit breakers 34 and 35 are supplied to the loads 32 and 33 separately from the automatic power breaker 40. If the power is above the set level, the power supply is cut off to prevent the short circuit.

The controller 41 determines whether the switches 11 and 12 are turned on and off, and if the switches 11 and 12 are turned on, the amount of power supplied from the self and commercial power generation systems 10 and 20. Check it. If one of the switches 11 and 12 is turned off or all of the switches are turned on, the supply power is compared with the power consumption of the loads 31, 32, and 33 when the power is monitored.

If the power supply is larger than the power consumption of the loads 31, 32, and 33, the controller 41 does not need to cut off the power supply to the loads 31, 32, and 33.

However, if the power supply is less than the power consumption of the load (31, 32, 33), the controller 41 has a specific load (power consumption is the highest or priority among the load (31, 32, 33) The power supply to the specific load 31 is cut off by turning off the relay switch 42 connected to the lowest;

Therefore, even when the power supply is insufficient in the system that must be simultaneously supplied power from the original self-commercial power generation system, the system can operate normally without power failure. The controller 41 continuously checks the power supply amounts of the self / commercial power generation systems 10 and 20 and turns on the relay 42 which has been turned off if it is determined that the power supply is normally performed.

On the other hand, the controller 41 is not supplied with power through the self-generation system 10 or commercial power generation system 20 is supplied with power using a separate independent power source. Accordingly, the self / commercial power generation system 10 or 20 may operate smoothly even when the power supply is not normally operated or the power supply is interrupted.

In addition, the self-generation system 10 can be configured as a cogeneration system as shown in FIG. The cogeneration system is a system that generates power using a cogeneration generator and simultaneously uses waste heat. An engine 12, a cogeneration generator 13 that generates electric power using a rotational force output from the engine 12, and the engine And heat supply means 14 for supplying the waste heat of (12) to a heat source such as a hot water supply or an air conditioner. The power generated by the cogeneration generator is used to operate various electric devices such as a lamp or an air conditioner. The heat supply means 14 recovers the waste heat of the cooling water cooling the engine and the waste heat of the exhaust gas exhausted from the engine and supplies it to the hot water supply or air conditioner.

In the cogeneration system, the generator 13 is driven by the engine 12, and the RPM of the engine 12 is controlled by the engine controller 15. The power generation controller 16 transmits a control signal to the engine controller 15 to increase / decrease the RPM of the engine 12 and to increase / decrease the total power generation amount.

Meanwhile, the engine 12 operates using LNG gas, and the waste heat generated as a result of the operation of the engine 12 may be used as a heat source such as a preheater of a plurality of loads 31, 32, and 33, such as the air conditioner. To be supplied. Thus, its energy efficiency increases throughout the power generation system.

4 is a flow diagram illustrating an automatic power control method of a power generation system according to the present invention. As shown, the controller 41 of the automatic power circuit breaker 40 of the power generation system according to the present invention checks whether power is normally supplied from the self / commercial power generation system in the first step (S1).

If the power is normally supplied, in the second step, the automatic power circuit breaker 40 does not operate so that the relay of the automatic power circuit breaker 40 is in an on state, and the plurality of manual switches 34 and 35 are the same as before. The overcurrent supply is blocked by the method (S2).

However, if the power is not normally supplied, in the third step, the controller 41 of the automatic power circuit breaker 40 checks whether the power supplied from the power generation system is greater than the power consumption of each load 31, 32, 33 ( S3).

If the power supply is larger than the power consumption, the process returns to the second step.

However, when the power supply is less than the power consumption, the automatic power circuit breaker 40 operates in step 4 (S4).

As the automatic power breaker operates, the relay 42 is turned off in the fifth step and power supply to the specific load 31 is stopped (S5). Therefore, even if the power supply is insufficient, a power failure does not occur and a high priority electric device can be continuously supplied with power.

Power generation system capable of automatic power control and automatic power control method of the present invention configured as described above is a self-generating system for supplying power to at least one or more loads, and the commercial power supply to the load supplied by the self-generator A commercial power generation system and an automatic power cut-off device which checks the power supplied by the self or the commercial power generation system and the amount of power consumed by the load, and cuts off the power supplied to a specific load when the power consumption exceeds the supply power Even if the power supply is not smooth in both power generation systems, power outages are prevented and power is stably supplied to important loads.

Claims (10)

A self-generating system for supplying power to at least one load; A commercial power generation system supplying commercial power to a load through which the self-generator supplies electric power; Comprising an automatic power circuit breaker that cuts the power supplied to a specific load when the power consumption exceeds the power supply by comparing the power consumption confirmed through communication with the load and the power supplied by the self or the commercial power generation system , The automatic power circuit breaker includes a relay capable of cutting off power supplied to a specific load of the load; Compare the amount of power supplied by the self or commercial power generation system with the amount of power consumed by the load, and turn off the relay when the power consumption exceeds the supply power, and is independent of the power supplied by the self or commercial power generation system. A power generation system capable of automatic power control, characterized in that it comprises a controller that uses power. delete delete delete The method of claim 1, And the controller is configured to block power supply to a load consuming the most power among the loads when the power consumption exceeds the supply power. The method of claim 1, And the controller is configured to block power supply to a lower priority load among the loads when the power consumption exceeds the supply power. The method of claim 1, The self-generating system includes an engine; A generator driven by the engine to generate electricity and supply the generated electricity to at least one load; It is composed of a power generation controller for controlling the power generation amount of the generator by controlling the engine speed, And a cogeneration system using waste heat of the engine as a heat source of a specific load among the loads. delete delete delete

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