KR20200102225A - Operating method of load bank simulator - Google Patents

Abstract

The present invention relates to a method for operating a road bank simulator including: a case (100); a control unit (110) provided inside the case (100) and controlling the overall operation of a simulator; a power supply unit (120) provided inside the case (100) and supplying power to the simulator; and an adapter (130) for connecting a communication module of the control unit (110) and a remote controller. The method of the present invention comprises: a first step of installing a control program of a load bank in a control unit (110); a second step of connecting a remote controller to an adapter of a simulator; and a third step of confirming whether the remote controller and the control program are normally operated. The load bank simulator of the present invention does not consume a lot of time and power for operating a generator, a load bank, a control panel, etc., can set an environment the same as when the load bank is actually operated by the remote controller and can confirm a control value to reduce costs.

Description

Operating method of load bank simulator

The present invention relates to a method of operating a load bank simulator, and more particularly, to a method of operating a load bank simulator operating a simulator capable of testing a load bank.

In general, a load bank is a device designed to provide electrical loads for testing a power source such as a generator or an uninterruptible power supply (UPS), as described in the background art of Dongrok Patent Publication No. 10-1202782. It can be applied to the uninterruptible power supply test, battery system test and turbine plant test.

In other words, a load bank is a device for testing power generation devices such as generators, fuel cells, solar cells, and wind power generators, or power conversion devices such as batteries, UPS, inverters, and transformers, and loads such as heaters, resistors and reactors or capacitors. It consists of devices.

The load bank generally has a combination of a resistor and a reactor, and is manufactured by combining a resistor and a reactor in preparation for the case of testing pure rated output only with a resistor and testing the power factor load. .

According to the load bank parallel control system of Patent Publication No. 10-1202782 as a prior art, a heater array and a reactor array are composed of a load, a plurality of load banks consisting of a parallel circuit; A main PLC or a main microprocessor for independently controlling or group-controlling the load banks by the parallel circuit configuration of the load banks, and comparing the load setting value with the heater capacity and the reactor capacity to input or cut off the heater and the reactor; A power meter measuring current, voltage, power factor, and power values of each of the load banks and transferring them to a main PLC or a main microprocessor; And a load bank parallel including a main HMI that inputs an execution command to all load banks or outputs measurement values of all power meters, and independently inputs active power and power factor to be controlled for each load bank or distributes equally It is described as a control system.

As another prior art, according to the load input control method of the load bank parallel control system of Korean Patent Publication No. 10-1286747, a heater array and a reactor array comprise a load, and a plurality of load banks constituted by a parallel circuit; A main PLC or a main microprocessor for independently controlling or group-controlling the load banks by the parallel circuit configuration of the load banks, and comparing the load setting value with the heater capacity and the reactor capacity to input or cut off the heater and the reactor; A power meter measuring current, voltage, power factor, and power values of each of the load banks and transferring them to a main PLC or a main microprocessor; And a main HMI for inputting an execution command to the entire load bank or outputting measured values of all power meters, and independently inputting active power and power factor to be controlled for each load bank, or equally distributing and inputting the main HMI. In the parallel control system, the method of controlling the load input of a load bank having a heater array consisting of a plurality of heaters having different capacities (A1, A2,...,AN) as a load is: The heater value with the largest capacity (A1) Compared with the set load value (X) and the largest heater value is less than the set load value, the first step of electrically connecting and inserting the heater with the largest heater value, and the largest heater value is the set load value. If it is not smaller than the second step of comparing the second larger heater value (A2) with the set load value, and if the second larger heater value is less than the set load value, the heater with the second larger heater value is electrically connected and inserted. , When the heater with the largest heater value is input, the second largest heater value (A2) is compared with the value obtained by subtracting the largest heater value from the set load value (X-A1=X1), If it is less than the value (X1) minus the largest heater value from this set load value, the third step of electrically connecting and inserting the heater having the second largest heater value, and whether the second large heater value is less than the set load value. If not, the third large heater value is compared with the set load value, and if the third largest heater value is less than the set load value, a fourth step of electrically connecting and inserting a heater having the third largest heater value, and the two When a heater with the second largest heater value is inserted, the third large heater value (A3) is compared with the value obtained by subtracting the second large heater value from X1 (X1-A2=X2). The fifth step of electrically connecting and inserting the heater having the largest heater value, and the steps of repeating the fourth and fifth steps until the heater having the smallest heater value (AN) is electrically connected. It is described as a load input control method of a parallel control system of a load bank including.

The prior art described above has a disadvantage in that a lot of time and power are consumed to operate the load bank because there is no simulator.

Therefore, the present invention was conceived to solve the above problems, and the load bank simulator does not consume a lot of time and power to operate the generator, load bank, control panel, etc., and when the load bank is actually commissioned with a remote controller. This is to provide a method of operating a road bank simulator that reduces costs by setting the environment and checking the control value.

The present invention relates to a method of operating a load bank simulator, the case 100 and,

A control unit 110 provided inside the case 100 and controlling the overall operation of the simulator,

A power supply unit 120 provided inside the case 100 and supplying power to the simulator,

In the load bank simulator operating method comprising an adapter 130 connecting a communication module of the control unit 110 and a remote controller,

A first step of installing a load bank control program in the control unit 110;

A second step of connecting the remote controller to an adapter of the simulator;

A third step of checking whether the remote controller and the control program operate normally;

It characterized in that it consists of.

Therefore, the load bank simulator of the present invention does not consume a lot of time and power to operate the generator, load bank, control panel, etc., and it is possible to set the same environment as when actually commissioning the load bank with a remote controller and check the control values. There is a remarkable effect of reducing cost.

1 is a photograph of the present invention road bank simulator case
Figure 2 is a picture of the present invention road bank simulator interior
Figure 3 is a schematic diagram of the algorithm of the present invention load bank simulator

The present invention relates to a method of operating a load bank simulator, the case 100 and,

A control unit 110 provided inside the case 100 and controlling the overall operation of the simulator,

A power supply unit 120 provided inside the case 100 and supplying power to the simulator,

In the load bank simulator operating method comprising an adapter 130 connecting a communication module of the control unit 110 and a remote controller,

A first step of installing a load bank control program in the control unit 110;

A second step of connecting the remote controller to an adapter of the simulator;

A third step of checking whether the remote controller and the control program operate normally;

It characterized in that it consists of.

In addition, in the third step, a situation in which an abnormal operation of a fan (FAN) of the load bank or an abnormal change in load temperature is detected is input to the input signal switch 140.

In addition, the third step is characterized in that when the test load value is changed through the remote controller of the simulator, it is output to the output instruction lamp 150 so as to confirm the change in power application of the load.

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

1 is a picture of the present invention load bank simulator case, Fig. 2 is a picture inside the present invention load bank simulator, and Fig. 3 is an algorithm schematic diagram of the present invention load bank simulator.

The present invention relates to a load bank simulator operating method for operating a simulator capable of testing a load bank.

The present invention includes a case 100, a control unit 110 provided inside the case 100 and controlling the overall operation of the simulator, and a power supply unit 120 provided inside the case 100 and supplying power to the simulator. And, an adapter 130 connecting the communication module of the control unit 110 and a remote controller, an input signal switch 140 that outputs a control signal of the simulator, and a state of applying and controlling power of each load of the load bank It consists of an output instruction lamp 150 that outputs.

The case is a waterproof and dustproof type military hard case that can safely protect the equipment even in rainy weather or when moving and storing at sea, and a MIL type power-inlet is attached to the lower side of the equipment to realize a perfect waterproof function. .

In addition, it is possible to easily check load control and measurement value monitoring according to the control program by applying HMI, and it is configured to enable operation and monitoring from a distance by applying a soft connector cable.

The control unit is a main control component capable of controlling the overall operation of the simulator. It has a module configuration capable of RS-485 communication, and this communication module is connected to an adapter. The DIO (Digital-Input-Output) pin of the control unit is connected to each switch and output indication lamp of the simulator, and a 64-point DIO module is used to sufficiently use the pin.

The power supply unit receives 220V 60Hz voltage, which is a standard used in Korea, and converts it into 24V DC voltage used inside the simulator, and the converted voltage is supplied to the modules inside the simulator. SMPS (Switched-Mode-Power-Supply) was used as a voltage converter, and AC and DC volt meters were installed to check the input voltage and supply voltage.

The adapter is an adapter that connects the communication module of the control unit to the remote controller, and operates by receiving DC 24V. Since a separate switch is connected, it is possible to turn ON / OFF separately from using the simulator. This is to be able to operate the remote controller after initial setting of the load bank simulator.

The input signal switch is a toggle switch and is used for inputting a control signal of a load bank simulator. When using an actual load bank, a notification should be displayed on the remote controller if there is an abnormality in the fan operation or the load temperature rises abnormally. However, in order to test this, the actual implementation of the fan and temperature rise in the simulator is not appropriate due to the characteristics of the simulator, so it was designed to be simulated by implementing it with a toggle switch.

The output indication lamp is an LED lamp that can check the power application state and various control states of each load. The color of the lamp was made different to distinguish between the heater load and the reactor load.

On the other hand, the operation method of the present invention will be described in detail as follows.

First, a load bank control program is installed in the control unit 110.

After that, the remote controller is connected to the adapter of the simulator.

After that, it is checked whether the remote controller and the control program operate normally.

At this time, a situation in which an abnormal fan operation of the load bank or an abnormal change in load temperature is detected is input to the input signal switch 140.

In addition, when the test load value is changed through the remote controller of the simulator, it is output to the output instruction lamp 150 so as to check a change in power application of the load.

In addition, the same control unit that is installed on the actual load bank control panel can be installed to check the actual program as it is, and an actual load operation signal output from the control unit is displayed as an output instruction lamp.

When the load capacity to be controlled through the remote controller and the LED of the output indication lamp do not match, or when an emergency situation is given through the input signal switch, the appropriate response to this cannot be confirmed in the remote controller and the output indication lamp. In this case, it is determined that this is an error of the control program, so that the error can be corrected in advance or that there is no error before applying it to the actual site.

Meanwhile, as another embodiment of the present invention, an algorithm by which the simulator is operated is as follows.

First, a load bank control program is installed in the control unit 110.

After that, the remote controller is connected to the adapter of the simulator.

After that, command to apply a specific capacity load to the HMI remote controller.

After that, check whether the specified capacity load application command value and the output instruction lamp status match.

When the specific capacity load application command value and the output instruction lamp state match, an emergency situation is given to the input signal switch.

Conversely, if the specific capacity load application command value and the output instruction lamp status do not match, modify the program, reinstall the program in the simulator control unit, and then issue a specific capacity load application command to the HMI remote controller.

And if an emergency situation is given with the input signal switch by matching the specific capacity load application command value and the output command lamp status, check whether the appropriate response to the remote controller and the output command lamp appears.

When the appropriate response to the remote controller and the output instruction lamp appears, the simulator stops operating.

On the contrary, if a suitable response to the remote controller and the output instruction lamp does not appear, a command is given to apply a specific capacity load to the HMI remote controller after re-installing the program in the simulator controller after modifying the program.

Therefore, the load bank simulator of the present invention does not consume a lot of time and power to operate the generator, load bank, control panel, etc., and it is possible to set the same environment as when actually commissioning the load bank with a remote controller and check the control values. There is a remarkable effect of reducing cost.

100: case 110: control unit (PLC)
120: power unit 130: adapter (HMI-Adapter)
140: Input signal switch
150: Output indicator lamp

Claims (3)

With the case 100,
A control unit 110 provided inside the case 100 and controlling the overall operation of the simulator,
A power supply unit 120 provided inside the case 100 and supplying power to the simulator,
In the load bank simulator operating method comprising an adapter 130 connecting a communication module of the control unit 110 and a remote controller,
A first step of installing a load bank control program in the control unit 110;
A second step of connecting the remote controller to an adapter of the simulator;
A third step of checking whether the remote controller and the control program operate normally;
Road bank simulator operation method, characterized in that consisting of
The method of claim 1,
The simulator includes an input signal switch 140 for detecting a situation in which an abnormal operation of a fan of the load bank or an abnormal change in load temperature is detected.
The method of claim 2,
In the case of changing a test load value through a remote controller, the simulator includes an output instruction lamp 150 to check a change in power application of the load.

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