KR101361159B1 - Apparatus and method for controlling voltage of multi channel power supply system for plc - Google Patents

Abstract

The present invention relates to a programmable variable power control apparatus of a multichannel power supply system for PLC and a control method for the same. The programmable variable power control apparatus is connected to a multichannel power supply system for PLC for supplying a plurality of different power sources to at least one external device in the field, thereby monitoring a supply state of a power source supplied from the multichannel power supply system by channels and controlling the power supply. According to the present invention, the programmable variable power control apparatus can be connected to the multichannel power supply system in the field to monitor a power supply state thereof in real time and control the power supply in the field, thereby improving the stability of the multichannel power supply system for PLC by fast on-site power control. [Reference numerals] (301) Interface unit; (302) Determination unit; (3021) Arithmetic processing unit; (3022) Memory; (303) Output unit; (304) User control panel; (305) Access port; (306) F/W replacement line; (307) Independent power unit

Description

Programmable variable power supply control device for PLC multi-channel power supply system and its control method {APPARATUS AND METHOD FOR CONTROLLING VOLTAGE OF MULTI CHANNEL POWER SUPPLY SYSTEM FOR PLC}

The present invention relates to a PLC multi-channel power supply system, and more particularly, to a programmable variable power controller and a control method of a PLC multi-channel power supply system for monitoring and controlling the multi-channel power supply state.

The present invention is derived from the research conducted as part of the industry-university joint technology development support project of the Small and Medium Business Administration [task number: C0026759, project title: the development of industrial applications of PLC-based process input / output monitoring / management].

Programmable Logic Controllers (PLCs) are digital motion controllers that use programmable memory to perform specific functions such as logic, sequencing, timing, counting, and computation through digital or analog I / O modules and control various types of machines or processors. It is an electronic device.

In addition, the PLC performs the function of collecting various information together with the problem of the process as well as graphic monitoring of the site or graphic data processing.

On the other hand, PLC is applied to the multi-channel power supply system used in the industrial field, and it monitors and controls the power supply status for each channel.

Then, the configuration of the conventional PLC multi-channel power supply system will be described.

1 is a conceptual diagram of a conventional PLC multi-channel power supply system.

Referring to FIG. 1, a conventional PLC multichannel power supply system includes a PLC 1 that monitors and controls a power supply state for each channel, and a multichannel power supply that generates different voltages and supplies them to a plurality of channels. (2) and a plurality of external devices (3) driven by receiving power from the multi-channel power supply (2).

The multi-channel power supply 2 generates different voltages to supply voltages required by the external device 3 for each channel, and also supplies power to the PLC 1.

In this way, the PLC 1 is also driven by receiving power from the multi-channel power supply 2, and the PLC 1 is driven using a relatively low primary voltage level, and the external device 3 ) Is driven using relatively high secondary and tertiary voltages.

In other words, the PLC 1 adopts a method in which power is supplied from a multi-channel power supply 2 having a characteristic in which basic electrical characteristics such as an output voltage are fixed.

As a result, expensive PLC 1 internal circuits are destroyed due to misuse by the user, such as shorting of external terminals and connection to a power supply voltage that is much larger than the rated voltage during operation of the PLC multichannel power supply system.

In addition, the multi-channel power supply 2 having different fixed output voltages is mostly supplying a voltage about 5% higher than the rated voltage. When the high voltage is continuously supplied to the external device 3, the external device ( In addition to the excessive 3), a problem occurs that increases the power consumption of the entire PLC multi-channel power supply system. In addition, since it is difficult to recognize the power supply state before a problem occurs, the cause of failure of the multi-channel power supply 2 and the external device 3 when the external device 3 that exceeds the rated load capacity is continuously connected is caused. It can also be.

On the other hand, in the management of a PLC multi-channel power supply system, where a large-scale management is required, the PLC 1 and a personal computer (PC) are usually connected and managed remotely. However, this management method has a problem that it is difficult to apply where the management of small and medium size.

Republic of Korea Patent Publication No. 10-2009-0041134 (Published Date 2009.04.28.)

Accordingly, the present invention has been made to solve the above problems of the prior art, an object of the present invention is to monitor the PLC multi-channel power supply state using a plurality of different voltages when the power supply problem occurs power supply control The present invention provides a programmable variable power controller of a PLC multi-channel power supply system and a control method thereof, which enable the user to perform detailed properties such as voltage and current in the field in real time.

PLC multi-channel power supply system of the present invention for achieving the above object, the programmable variable power control device in the connection terminal of the multi-channel power supply of the PLC for performing a plurality of different power supply to at least one external device. It is characterized in that it is connected in the field, monitoring the power supply state supplied from the multi-channel power supply for each channel and performing power supply control.

In addition, the programmable variable power supply control apparatus of the PLC multi-channel power supply system of the present invention is connected to the connection terminal of the multi-channel power supply of the PLC that performs a plurality of different power supply to at least one external device to perform the interfacing An interface unit; A determination unit for determining a power supply state by analyzing power supply state information transmitted through the interface unit; An output unit for outputting a power supply state transferred through the determination unit; And a user manipulation unit supporting a user manipulation for controlling a power supply state.

The determination unit includes a memory divided into a user program area, a data area, and a system area, and an operation processing unit that reads a program stored in the memory and performs a corresponding control.

A touch panel in which the output unit and the user manipulation unit are integrated can be used.

The drive may be performed by receiving power from the multi-channel power supply through the interface unit.

It is preferable to further include a connection port for connection including a PC for detailed control of the multi-channel power supply.

In addition, the programmable variable power control method of the PLC multi-channel power supply system of the present invention, the programmable variable power control device to the connection terminal of the multi-channel power supply of the PLC that performs a plurality of different power supply to at least one external device. Making a site connection; Receiving, by the programmable variable power controller, power supply state information for each channel of the multi-channel power supply; Transmitting a control signal from the programmable variable power supply controller to the multi-channel power supply in response to control for each channel based on the power supply state information; And controlling the multi-channel power supply in response to the control signal.

In this case, the programmable variable power controller may be driven by receiving power from the multi-channel power supply.

The control signal is generated by comparing basic information set in the multi-channel power supply and current power supply state information, and may be automatically controlled when the control signal leaves the set value range.

The control in the multi-channel power supply may include a first control step of dropping a set voltage within a predetermined range; And a secondary control step of shutting off power of a channel in which an overload is maintained after the primary control step.

As described above, according to the programmable variable power controller and the control method of the PLC multi-channel power supply system according to the present invention, the programmable variable power controller can be connected to the multi-channel power supply to monitor the power supply state in real time. In addition to being able to perform on-site control, the fast on-site control increases the safety of the PLC multichannel power supply system.

In addition, according to the present invention, since a connection such as a PC for remote control of the multi-channel power supply is unnecessary, there is an advantage that it is convenient to use.

In addition, according to the present invention, since it is manufactured in a portable form, it can be applied to all industrial sites and can minimize manufacturing costs and management costs.

1 is a conceptual diagram of a conventional PLC multi-channel power supply system.
2 is a block diagram of a PLC multi-channel power supply system according to an embodiment of the present invention.
3 is a block diagram of a programmable variable power supply control apparatus according to an embodiment of the present invention.
4 is a view showing a management interface screen displayed on the output unit (display device) of the programmable variable power supply control apparatus according to an embodiment of the present invention.
5 is a diagram illustrating a control interface screen for performing power control in an output unit according to an embodiment of the present invention.
6 is a flowchart of a programmable variable power control method of a PLC multi-channel power supply system according to an embodiment of the present invention.
7 is a flowchart illustrating a power supply control process according to an embodiment of the present invention.

Hereinafter, a programmable variable power supply control apparatus and a control method of a PLC multi-channel power supply system of the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram of a PLC multi-channel power supply system according to an embodiment of the present invention.

As shown in Figure 2, the PLC multi-channel power supply system of the present invention, the multi-channel power supply 10 for performing a plurality of different power supply, the same or different power supplied through the corresponding channel is driven It includes a plurality of external devices 20 and a programmable variable power control device 30 for monitoring the power supply state supplied from the multi-channel power supply 10 for each channel, and performs a power supply control.

In the present invention, a connection terminal for the connection between the multi-channel power supply 10 and the programmable variable power supply control device 30 should be provided.

In this manner, the programmable variable power controller 30 is connected to the multi-channel power supply 10 in the field in real time in a state where power is supplied from the multi-channel power supply 10 to each external device 20. Monitor and control the power supply state of each channel supplied from the multi-channel power supply 10.

3 is a block diagram of a programmable variable power supply control apparatus according to an embodiment of the present invention.

As shown in FIG. 3, the programmable variable power supply control apparatus 30 of the present invention includes an interface unit 301 for interfacing with the multi-channel power supply 10, and a power transmitted through the interface unit 301. Determination unit 302 for determining the power supply state by analyzing the supply state information, an output unit 303 for outputting the power supply state transferred through the determination unit 302, and user operation for power supply state control Supporting user operation unit 304 is included.

The interface unit 301 generally means a serial communication line.

The output unit 303 includes at least one of a display device, an alarm light, and a speaker. Meanwhile, a touch panel in which the output unit 303 and the user manipulation unit 304 are integrated may be used.

In addition, the programmable variable power supply control apparatus 30 of the present invention may further include a connection port 305 that can be connected to a movable PC, a mobile terminal, and the like, and an F / W replacement line 306. This is to enable the PC, mobile terminal, etc. to control the external device 20 for each channel. Here, the connection port 305 also means a serial communication line, the F / W replacement line 306 may be connected to the PC via the downloader.

On the other hand, the programmable variable power supply control device 30 is driven by receiving power from the multi-channel power supply 10 through the interface unit 301, and can also independently drive the programmable variable power supply control device 30 independently. It is also preferable to form the power supply unit 307 further.

The configurations of the programmable variable power supply controller 30 will be described in more detail.

First, the interface unit 301 performs a function of transferring a signal transmitted from the multi-channel power supply 10 to the determination unit 302. The signal transmitted may include direct current, alternating current, voltage, current, analog signals, counting signals, and the like. In addition, the interface unit 301 performs a function of transferring a control signal transmitted from the determination unit 302 to a relay, a transistor, a solid state relay (SSR), and the like. The transmitted control signal may include a contact control signal, a voltage control signal, an analog signal, and the like.

The determination unit 302 includes an operation processing unit 3021 and a memory 3022.

The operation processing unit 3021 reads the program stored in the memory 3022 and performs the corresponding control.

The memory 3022 includes a read only memory (ROM) and a random access memory (RAM), and is divided into a user program area, a data area, a system area, and the like and stored in a ROM or a RAM.

The user program area is the area where the program written by the user is stored according to the system standard to be controlled, and the data area stores the information such as input / output relay, auxiliary relay, timer and counter contact status, setting value and current value. The system area is an area in which a system program created by the manufacturer that manufactures the programmable variable power supply control device 30 is stored.

4 is a view showing a management interface screen displayed on the output unit (display device) of the programmable variable power supply control apparatus according to an embodiment of the present invention, Figure 5 is a power control in the output unit according to an embodiment of the present invention A diagram showing a control interface screen for performing.

4 and 5, the programmable variable power supply control apparatus 30 of the present invention transmits power supply status information for each channel from the multichannel power supply 10 through a connection with the multichannel power supply 10. It determines whether it is normal, and outputs the corresponding information so that the user can check the power supply status for each channel, and control the power supply status for each channel as necessary. For example, when a state such as overload, overheat, overcurrent, overvoltage, etc. is detected for each channel, the user controls the power supply state for each channel using the programmable variable power controller 30 in response to the PLC multi-channel power supply. Stabilize the power supply of the supply system.

Next, a description will be given of the programmable variable power control method of the PLC multi-channel power supply system of the present invention using the programmable variable power control device of the PLC multi-channel power supply system configured as described above.

6 is a flowchart of a programmable variable power control method of a PLC multi-channel power supply system according to an embodiment of the present invention.

As shown in FIG. 6, when the programmable variable power controller 30 is connected to the multi-channel power supply 10 by the user (S1), power is supplied from the multi-channel power supply 10 and driven and initialized. (S2). In the present exemplary embodiment, the programmable variable power controller 30 is driven by receiving power from the multi-channel power supply 10, but may be operated with its own independent power source.

The programmable variable power controller 30 performs initialization and then performs recognition processing for the multi-channel power supply 10 (S3). By this recognition process, the information about the multichannel power supply 10 and the external device 20 connected to it is confirmed.

Subsequently, the programmable variable power controller 30 receives power supply state information for each channel of the corresponding multichannel power supply 10 through the interface unit 301 (S4). Here, it is preferable to assign and manage individual IDs for each channel using each voltage, and the maximum allowable set values of current voltage / current / power consumption and voltage / current / power consumption for each channel power supply, and voltage for each channel. Periodically check for overheating, normal communication, and power off. That is, the power supply state information includes information such as overload, overheating, overcurrent, and overvoltage for each channel.

The output unit 303 of the programmable variable power supply controller 30 outputs power supply state information (S5), and the user identifies a channel requiring control. The power supply state information is output through the display unit of the programmable variable power control device 30, and performs control through a user operation unit or a display unit (touch panel) (S6). Accordingly, the present invention can intelligently and actively control a PLC multi-channel power supply system independently without a PC connection.

When a user performs power supply control using the user manipulation unit 304 or the touch panel of the programmable variable power supply control device 30, a control signal is transmitted to the multi-channel power supply 10 to control the power supply of the multi-channel power supply 10. The setting is changed (S7).

Therefore, by monitoring the power supply status for each channel to determine whether it is in a normal state (S8), if the power supply state is not normal, repeats the manual control by the user operation and automatic control by the predetermined logic, and the power supply state In the normal state, the programmable variable power controller is separated from the multi-channel power supply 10 (S9).

On the other hand, in the present embodiment, the manual control method by the user operation is described mainly, in the case of overload, overheating, overcurrent, overvoltage, etc. for each channel, the power supply voltage after the alarm occurs when the overload is detected in response to the active operation without the user operation It can be reduced to within 8% of the rating and responds first, and if the overload is still detected after the first response, the secondary response can be performed to cut off the power from the channel with the largest load power. As an example, automatic control may be performed by comparing current setting information and power supply state information of the multi-channel power supply 10.

7 is a flowchart illustrating a power supply control process according to an embodiment of the present invention.

Referring to FIG. 7, in order to stably adjust and save electric energy of a PLC multi-channel power supply system, after selecting a channel (S11), a user simply displays a user control unit 304 and a touch panel (icon). Power saving mode function to operate by lowering 8% of the rated voltage within the allowable values of the multi-channel power supply 10 and the external device 20 by using It is possible to stably save and supply (S12).

When the power supply state is normal, the green lamp is turned on (S13), otherwise the red lamp is turned on and the corresponding value is output (S14).

On the other hand, if the overheat state of each channel is monitored, for example, when it is determined that the detected temperature at the time of overheat detection is 50 ~ 75 ℃ that the normal operation of the electronic device (S15), the set time, for example, every 15 seconds Induces an alarm to induce a user operation to input a control value (S16), and if the normal operation of the electronic device is more than 75 ℃ difficult to reach 85 ℃ or after the above two conditions that the set time has elapsed after 75 ℃ When there is a condition to meet the power supply for all the channels of the multi-channel power supply 10 is cut off (S17).

On the other hand, when a PC, a mobile terminal, or the like is connected to the connection port 305 of the programmable variable power supply control device 30, the programmable variable power supply control device 30 is connected to the PC, mobile terminal, etc. in serial communication or wireless communication. By transmitting power supply status information for each channel to a PC, a mobile terminal, and the like, the power supply status can be checked and controlled by a program executed in the PC, the mobile terminal, and the like.

On the other hand, the multi-channel power supply 10 of different manufacturers may also be used intelligently by replacing the firmware to enable the use of the programmable variable power supply control device 30 of the present invention.

As described above, the present invention enables the real-time field monitoring and power switching and power control of the PLC multi-channel power supply system using the portable variable power supply control device 30 of the portable type with respect to the multi-channel power supply 10. Accordingly, the programmable variable power supply controller 30 has its own interface unit 301 so that the serial communication with the multi-channel power supply 10 can be performed, and a separate connection port 305 is provided to provide a connection port. A portable PC, a mobile terminal, etc. are connected to the 305 to monitor and control the power supply. The programmable variable power controller 30 is configured to control the maximum permissible set value of voltage / current / power consumption for each channel, overheating of each channel voltage part, normal communication, and power off from the multi-channel power supply 10 through serial communication. It receives the judgment for stable operation and performs active response to control or cut off the power.

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, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

10: Multichannel Power Supply
20: external device
30: programmable variable power control device
301: interface unit
302: judgment
3021: arithmetic processing unit
3022: Memory
303: output unit
304: user control panel

Claims (10)

delete An interface unit connected to a connection terminal of a multi-channel power supply of a PLC that performs a plurality of different power supplies to at least one external device, and performs interfacing;
A determination unit for determining a power supply state by analyzing power supply state information transmitted through the interface unit;
An output unit for outputting a power supply state transferred through the determination unit; And
It includes a user control panel for supporting a user operation for power supply status control,
Programmable variable power supply control device of a PLC multi-channel power supply system is driven by receiving power from the multi-channel power supply through the interface unit.
3. The method of claim 2,
The determination unit may include a memory divided into a user program area, a data area, and a system area, and an operation processor configured to read a program stored in the memory and perform a corresponding control. Device.
3. The method of claim 2,
And a programmable variable power supply control apparatus for a PLC multi-channel power supply system using a touch panel in which the output unit and the user operation unit are integrated.
delete 3. The method of claim 2,
Programmable variable power supply control device of a PLC multi-channel power supply system further comprises a connection port for making a connection including a PC for the detailed control of the multi-channel power supply.
Making a field connection of the programmable variable power control device to a connection terminal of a multi-channel power supply of a PLC that performs a plurality of different power supplies to at least one external device;
Receiving, by the programmable variable power controller, power supply state information for each channel of the multi-channel power supply;
Transmitting a control signal from the programmable variable power supply controller to the multi-channel power supply in response to control for each channel based on the power supply state information; And
Controlling the multi-channel power supply in response to the control signal;
The programmable variable power control device is a programmable variable power control method of a PLC multi-channel power supply system is driven by receiving power from the multi-channel power supply.
delete The method of claim 7, wherein
The control signal is generated by a comparison between the basic information set in the multi-channel power supply and the current power supply state information, the programmable variable power supply control method of the PLC multi-channel power supply system that is automatically controlled when the setting value range.
The method of claim 7, wherein
The control in the multi-channel power supply,
A first control step of lowering a set voltage within a predetermined range; And
Programmable variable power supply control method of a PLC multi-channel power supply system including a secondary control step of shutting off the power of the channel that continues to be overloaded after the primary control step.

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