KR101372375B1 - Power generator control system and control method thereof - Google Patents

Abstract

The present invention relates to a power generator control system with improved user convenience and a control method thereof, which allows multiple terminals having predetermined orders of authority and inheritance to perform a control of a power generator. The power generator control system according to the present invention comprises: a power generator including an engine and generating electricity by converting power generated by the engine; a control unit controlling an operation of the power generator and monitoring a state of the power generator; and multiple control terminals connected to the control unit to receive information on the monitoring and send the control unit a command for controlling the operation of the power generator. [Reference numerals] (11) Engine; (12) Battery; (19) Circuit breaker; (20) Control unit; (AA) Load

Description

Generator Control System And Control Method Thereof

The present invention relates to a generator control system and a control method using the same, in particular, it is possible to control the monitoring and driving of the generator status by a remote terminal, and the control of the generator through a plurality of terminals with a predetermined authority and succession order It relates to a generator control system and a control method thereof that can be performed to improve the user's convenience.

Major facilities such as hospitals, large buildings, and government offices are equipped with emergency generators in preparation for fire and power outages to secure power in an emergency. The emergency generator is operated when a fire, disaster or power outage occurs, and generates power to supply power to a load determined as an emergency load.

Recently, in addition to securing emergency power, there is an increasing number of cases in which a generator is installed and used even when excessive use of electric power occurs or when a large amount of power is temporarily needed.

Such a generator generally includes an internal combustion engine engine and a generator connected to the engine, and when generating power is required, the generator generates power by operating the rotor of the generator by the driving force of the engine. This type of generator is used more than other devices such as photovoltaic power generation system and wind power generation system because of the immediate driving and generating power generation, power generation of desired voltage and frequency, and relatively low installation cost when needed.

In general, the control of these generators is done in the control panel that is configured with the generator. The control panel is composed of one side of the frame of the generator and a plurality of monochromatic light sources that indicate the operating status, and the minimum device for operating the generator such as switches, breakers, voltmeters, ammeters and frequency meters and checking the operating status. It is composed.

This makes it impossible for a conventional generator to monitor the condition of the generator remotely while the generator is running. Therefore, the user must always reside while driving the generator, there was a problem to check the control panel frequently.

Accordingly, an object of the present invention is to enable the remote terminal to monitor and drive the state of the generator, and to control the generator through a plurality of terminals with a predetermined authority and succession order, so that the user's convenience It is to provide an improved generator control system and its control method.

Generator control system according to the present invention for achieving the above object is provided with an engine, the generator for generating power generated by converting the power generated by the engine; A control unit for controlling an operation of the generator and monitoring a state; And a plurality of control terminals connected to the control unit to receive the monitoring information and to transmit a command for controlling the operation of the generator to the control unit.

The plurality of control terminals are designated with priority of command authority for operation control of the generator, and are divided into a main control terminal having the highest priority command authority and a sub-control terminal which is the remaining control terminal among the plurality of control terminals.

If it is determined that the main control terminal is faulty or incapable of communication, the controller changes the control terminal having a relatively highest priority among the sub-control terminals to the main control terminal.

The controller notifies the plurality of control terminals of the change when the main terminal is changed.

The controller compares the fuel introduced into the engine with the returned fuel, calculates the amount of fuel used, and compares the amount of fuel used with the output of the generated electric power to determine whether the engine generates soot.

The control unit detects the voltage of the battery included in the generator to determine whether the low voltage, and transmits the number of times of use of the battery and the low voltage detection information to the plurality of control terminals.

The control unit or the main control terminal controls any one or more of whether the breaker for starting, stopping, driving time, and generating power of the generator is input.

Therefore, the power generation control method according to the present invention comprises a control terminal designation step of designating a plurality of control terminals for transmitting a control command for controlling the operation of a generator for generating power generation by converting the power generated by the engine; A command transfer step of transmitting a control command for controlling the operation of the generator from any one of the plurality of control terminals to the controller; A control step of performing, by the control unit, any one or more of control of driving, stopping, inputting of a breaker, and blocking of a generator by the command; And a state reporting step of transmitting, by the control unit, the state according to the control process and result to the control terminal.

The control terminal designation step is a priority designation in which a priority is assigned to each of the plurality of control terminals, and a sub-control terminal other than the main terminal and the main control terminal to which command rights are granted to the plurality of control terminals according to the priority. Separated by.

The control terminal designation step further includes a main terminal change step of changing a control terminal having a relatively highest priority among the sub-control terminals to a main control terminal when a failure or communication failure of the main control terminal occurs.

In the control terminal designating step, when a change of the main terminal occurs, the control unit notifies the plurality of control terminals of the change.

The performing of the control may include: calculating, by the controller, the amount of fuel used by comparing the fuel introduced into the engine with the returned fuel; And comparing the output of the used fuel amount with the output of the generated power to determine whether the engine generates smoke.

The performing of the control may include: detecting, by the controller, whether the low voltage is measured by measuring a battery voltage of the generator; Counting the number of times of use of the battery; And transmitting the count information of the use frequency and the low voltage information to the plurality of control terminals.

The generator control system and its control method according to the present invention enable the remote terminal to monitor the state of the generator and control the driving, and perform the control and monitoring of the generator through a plurality of terminals whose authority and succession order are predetermined. It is possible to improve the user's convenience.

1 is an exemplary view for explaining the configuration of a power generation control system according to the present invention.
2 to 5 are exemplary views showing examples of generator control performed by the power generation control system.
6 is an exemplary view for explaining a generator control method using a power generation control system according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. In the accompanying drawings, it should be noted that the same reference numerals are used in the drawings to designate the same configuration in other drawings as much as possible. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. And certain features shown in the drawings are enlarged or reduced or simplified for ease of description, the drawings and their components are not necessarily drawn to scale. However, those skilled in the art will readily understand these details.

1 is an exemplary view for explaining the configuration of a power generation control system according to the present invention.

Referring to FIG. 1, the power generation control system according to the present invention includes a generator 10, a controller 20, and a control terminal 70.

The generator 10 generates the generated power in accordance with a command transmitted from the controller 20. To this end, the generator 10 is configured to include an engine 11 for producing power. The engine 11 is driven by fossil fuels such as diesel, gasoline, and gas to provide power for rotating the power shaft of the generator 10. The engine 11 includes a battery 12 for driving a generator.

The control unit 20 transmits a command for the operation of the generator 10 to the generator 10, detects the driving state of the generator 10, determines whether there is an abnormality, and controls the driving state information and the occurrence information of the control terminal ( To pass). To this end, the control unit 20 is connected to the plurality of control terminals 70 by wired or wireless communication. In addition, the control unit 20 performs a control operation such as driving, stopping, inputting, and shutting off the generator 10 according to a command transmitted from the main control terminal among the plurality of control terminals 70.

To this end, the control unit 20 is assigned a priority of the command authority set by the user for each of the plurality of control terminals 70. Specifically, the power generation control system of the present invention includes a plurality of control terminals 70. These control terminals 70 may be composed of various devices such as a mobile phone, a personal computer, a mobile terminal, a notebook. That is, the control terminal 70 may be configured in plural, and the control unit 20 controls the control terminal 70 to select a command to be processed among commands that may occur by overlapping or mixing from the control terminals 70. The priority of is stored.

The controller 20 performs only a command from the highest priority control terminal 70 when a plurality of commands are input at the same time, or when a command is transmitted from the control terminal 70 instead of the highest priority control terminal 70. Ignored to perform the control of the generator (10).

In addition, the control unit 20, if it is determined that the main control terminal 71, the highest priority control terminal 70 does not respond to the communication, or is a failure, the next priority control terminal of the sub-control terminals 72: 72a, 72b, 72c ... 70 is changed to the main control terminal 71, and the control terminals 70 are notified that the main control terminal 71 has been changed.

The controller 20 performs a smoke detection function and a battery state detection function. Specifically, the control unit 20 calculates the amount of fuel consumed in the generation of power generation, compares the calculated amount of fuel consumption with fuel amount consumption information according to a pre-stored output, and determines whether or not smoke is generated and the amount of smoke is generated. It is transmitted to the control terminal 70.

In addition, the controller 20 counts the number of times of use of the battery 12 required for driving the generator 10 and the age of use, and periodically detects the voltage of the battery 12 to determine whether or not the low voltage is determined. The net result is transmitted to the control terminal 70.

The control terminal 70 is composed of a plurality. The control terminal 70 is configured to include a control panel configured in various mobile devices such as mobile phones, computers owned by the administrator and the control unit 20. The control terminal 70 generates a command for performing various operations such as driving, stopping, power generation, and blocking of the generator 10, and transmitting the generated command to the control unit 20, and a state transmitted from the control unit 20. Information and alarms are output to the user.

The control terminal 70 is divided into a main control terminal 71 and a sub control terminal 72: 72a, 72b, 72c .... The main control terminal 71 and the sub control terminal 72 are divided by the priority set in advance by the user, and the main control terminal 71 is selected as the control terminal 70 having the highest priority. In particular, the main control terminal 71 and the sub-control terminal 72 can be changed, this change can be carried out by the control unit 20 or the main control terminal 71. Specifically, if the control unit 20 attempts to communicate with the main control terminal 71 and the communication is not performed more than a predetermined number of times, or if a failure is determined by performing a series of procedures for determining the failure, the control unit 20 determines the current main control. The authority of the terminal 71 is released and the next-order control terminal 70 of the sub-control terminal 72 is changed to the main terminal 71.

2 to 5 are exemplary diagrams showing an example of generator control performed by the power generation control system.

2 to 5, the control unit 20 and the control terminal 70 controls the driving of the generator, and serves to supply or stop generating power. The control unit 20 and the control terminal 70 can be driven or stopped remotely by the control terminal 70.

For example, as shown in FIG. 2, when the control terminal 70 is connected to the control unit 20, the input and interruption functions of the breaker 19 according to the driving and stopping of the generator 10 and the production of generated power are provided. The user connected to the control unit 20 using the control terminal 70 drives the generator 10 by this function, the breaker 19 is injected, or the generator 10 which is cut off and driven by the breaker 19. Can be stopped.

In particular, even if the user is located far away from the generator 10, it becomes possible to control the driving of the generator 10 as needed.

In addition, the control unit 20 may provide operation state information of the generator 10 to the user through the control terminal 70. Specifically, as shown in FIG. 3, status information may be provided in various items such as power generation monitoring, waveform monitoring, engine monitoring, contact monitoring, and status monitoring, and the user may select and confirm desired information or acquire data. It is possible to check and manage the status of the generator.

For example, in the power generation monitoring, the control unit 20 provides information such as voltage, current, frequency, power factor, distortion, and power generation amount to the user, and generates an alarm when the measurement value exceeds or falls below a predetermined value and provides the user. Done.

In addition, such information may be more finely measured and output as shown in FIG. Specifically, the control unit 20 may calculate the effective / reactive power, voltage unbalance, load factor and information through the measured information, and transmit the calculated / informed power to the control terminal 70 to provide the user.

On the other hand, in addition to the control unit 20, as shown in FIG. 5, it is possible to provide the user with information that requires attention according to the operation of the generator 10 and the generation of generated power. Specifically, the control unit 20 may provide information such as overload, overcurrent, overvoltage, overfrequency, low frequency, oil temperature, oil pressure, voltage unbalance of the generator 10, and may provide such information as alarm, caution, and normal. It can be divided and provided in stages.

In particular, as shown in Figure 5 in consideration of the failure of the control unit 20 by providing a reset function to the interface in the form of a button can be restarted or stopped by restoring the state of the generator 10 to the initial state when an abnormality occurs.

In particular, the control unit 20 stores reference values for determining the operation information provided to the user, the normality of the state information, and the caution alarm level. Therefore, the control unit 20 may compare the reference value and the measured value, and determine a failure site of the generator 10 through this, and notify the user of this.

On the other hand, Figure 6 is an exemplary view for explaining a generator control method using a power generation control system according to the present invention.

Referring to Figure 6, the power generation control method according to the present invention, the control terminal designation step (S10), command delivery step (S20), command determination step (S30), control execution step (S40), status reporting step (S50) It is configured to include.

Control terminal designation step (S10) is a step of designating a plurality of control terminals for the control of the generator 10, and selecting the priority of each control terminal 70. In this step S10, the user inputs the control terminal 70 which can be connected to the control unit 20 and the priority of each control terminal 70. The controller 20 selects and determines the main terminal 71 and the sub-control terminal 72 in consideration of the priority of the input control terminal 70.

Command transfer step (S20) is a user command to perform the control, such as driving, stopping, breaker input, breaker breaker of the generator to the control unit 20 using a plurality of control terminal 70, in particular, the main control terminal (71). It is the stage of delivery.

The command determination step S30 is a step in which the control unit 20 confirms the transferred command. In this command determination step (S30), the control unit 20 checks the priority of the control terminal 70 that transmitted the command and checks whether the command is from the main control terminal 71. In addition, when it is confirmed that the transferred command is a command from the main terminal 71, the control unit 200 performs the control execution step (S40).

The control execution step (S40) is a step in which the control unit 20 performs control such as power generation control, circuit breaker input control, and state detection according to the transmitted command. To this end, the control execution step S40 further includes a power generation control step S41, a breaker input control step S42, and a state detection step S43.

Generation control step (S41) is a general of the generator, such as driving the generator, stop, change the generation frequency, change the generation voltage, control the generation power, adjustment of the driving time according to the generation control command transmitted from the control terminal 70 It is a step in which drive-related control is performed.

The breaker input control step (S42) is a step of supplying the generated power to the load by cutting the breaker according to the cutoff control command transmitted from the control terminal 70, or cutting off the generated power supplied by blocking the breaker 19.

In addition, the state detecting step S43 is a step in which the control unit 20 detects various states according to the driving of the generator 10. In this state detection step (S43), the control unit 20 detects the state of the battery as described above, or detects various states such as voltage, current, power, power factor, voltage unbalance, and load rate according to the determination of generation of smoke and generation of smoke. Done.

Status reporting step (S50) is a step in which the control unit 20 delivers the result of the control performed to the user through the control terminal 70. In this case, the control unit 20 may provide different levels of information, detailed information, and types of information provided to each control terminal 70 according to the priority of the control terminal 70, thereby providing the present invention. It is not limiting. In this ecological reporting step (S50), the control unit 20 may transmit the information determining the failure of the generator 10, the alarm information according to the operation to the control terminal 70.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, . ≪ / RTI > Accordingly, such modifications are deemed to be within the scope of the present invention, and the scope of the present invention should be determined by the following claims.

10: generator 11: engine
12: battery 19: breaker
20: control unit 70: control terminal
71: main terminal 72: sub-control terminal

Claims (13)

A generator having an engine, the generator generating power by converting power generated by the engine;
A control unit for controlling an operation of the generator and monitoring a state; And
And a plurality of control terminals connected to the control unit to receive the monitoring information and to transmit a command for controlling the operation of the generator to the control unit.
The control unit
Comparing the fuel flowed into the engine and the returned fuel to calculate the amount of fuel used, and comparing the amount of fuel used and the power output of the generator control system, characterized in that to determine whether the smoke generation of the engine. The method of claim 1,
The plurality of control terminals are assigned priority of command authority for operation control of the generator, and are divided into a main control terminal having the highest priority command authority and a sub-control terminal which is the remaining control terminal among the plurality of control terminals. Generator control system. 3. The method of claim 2,
And the controller is configured to change the control terminal having a relatively highest priority among the sub-control terminals to the main control terminal when it is determined that the main control terminal is faulty or incapable of communication. The method of claim 3, wherein
And the controller notifies the plurality of control terminals of the change when the main terminal is changed. delete The method of claim 1,
The control unit detects the voltage of the battery included in the generator to determine whether the low voltage, the generator control system, characterized in that for transmitting the number of times of use of the battery and low voltage detection information to the plurality of control terminals. 3. The method of claim 2,
The control unit or the main terminal
Generator control system, characterized in that for controlling any one or more of the start, stop, driving time of the generator, the input of the breaker for the input of the generated power. A control terminal designation step of designating a plurality of control terminals for transmitting a control command for controlling an operation of a generator that generates power generation by converting power generated by an engine to a control unit;
A command transfer step of transmitting a control command for controlling the operation of the generator from any one of the plurality of control terminals to the controller;
A control step of performing, by the control unit, any one or more of control of driving, stopping, inputting of a breaker, and blocking of a generator by the command; And
And a state reporting step of transmitting, by the control unit, the state according to the control process and result to the control terminal.
The control execution step
And calculating, by the controller, the amount of fuel used by comparing the fuel introduced into the engine with the returned fuel; and comparing the amount of fuel used with the output of generated power to determine whether the engine generates smoke. Control method using a generator control system, characterized in that. The method of claim 8,
The control terminal designation step
A priority is designated for each of the plurality of control terminals, and the plurality of control terminals are divided into sub-terminals other than the main-terminal terminal to which the command right is granted according to the priority and the main-terminal. Control method using a generator control system. The method of claim 9,
The control terminal designation step
And a main control terminal change step of changing a control terminal having a highest priority among the sub-control terminals to a main control terminal when a failure or communication failure of the main control terminal occurs. Control method used. 11. The method of claim 10,
The control terminal designation step
And the control unit notifies the plurality of control terminals of the change when the main control terminal changes. delete The method of claim 8,
The control execution step
Sensing whether the controller measures a low voltage by measuring a battery voltage of the generator;
Counting the number of times of use of the battery; And
And transmitting the count information and the low voltage information of the number of times of use to the plurality of control terminals.

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