KR200392653Y1 - circuit for supplying power in a water treatment apparatus - Google Patents

Abstract

The present invention relates to a power supply circuit of a water treatment device comprising a water treatment facility, a sensor unit for sensing an operation state of the water treatment facility, and a PLC controlling the water treatment facility and the sensor unit, and the AC supply for supplying commercial AC power. A power supply unit and a DC conversion unit that converts power of the AC power supply unit into DC power; An AC power supply device is connected to the AC power supply unit, and a plurality of DC power supply devices are connected to each DC power terminal branched in parallel from the '+' terminal. As a result, the power supply can be stabilized by separating the device operating by receiving the AC power and the DC power according to the use and supplying power, and by connecting the devices operating with the DC power in parallel.

Description

Circuit for supplying power in a water treatment apparatus

The present invention relates to a water treatment device, and more particularly, to a power supply circuit of a water treatment device for stably supplying power.

In general, steel mills use a large amount of water for each process, and each process is provided with a water treatment facility.

The system for managing such a water treatment facility is provided in a central control room to monitor various equipment and electrical devices using a programmable logic controller (PLC) that automatically controls various equipment and electrical devices, and data processed by a programmable logic controller (PLC). It consists of a desk panel.

On the other hand, in order to supply power of various steelmaking facilities, the high-voltage power supplied from the power plant is lowered through a transformer to be separated into a plurality of main power, the predetermined main power (6600V) is shown in Figure 1, It is input to a high pressure plate (not shown), low pressure plate (not shown) and the MCC unit 109, and supplies power to the constant voltage supply (UPS) (107). The motor control center (MCC) unit 109 converts the main power into power required for various water treatment driving devices, and supplies the main power to the main power by 4400V, 220V, and 110V by a transformer (not shown). Switch to the power supply. The MCC unit 109 supplies power to the generator motor 110 that generates emergency power when the main power is abnormal. The constant voltage supplier 107 detects when the power to the MCC unit 109 is cut off and supplies the internal battery power to the PLC 106.

The power of the AC 110V power supply 101 of FIG. 2 is a power generated by the motor control center (MCC) unit 109, and is supplied to the PLC 106, various sensors, the desk panel, and the like. That is, the power of the AC 110V power supply 101 is converted into DC power through the DC power conversion unit 112 and supplied to a desk panel (not shown) for monitoring the operation state of the water treatment facility, and the power of the AC power operation sensor It was converted into DC power through the DC power converter 113 branched from the supply line and supplied to various DC power operation sensors. In addition, it is converted into DC power through a DC power converter 114 branched from the operating power supply line of the PLC 106 and supplied to control power such as an IN / OUT card for input / output of the control signal of the PLC.

However, as shown in FIG. 2, since the power of the water treatment desk panel and the PCL IN / OUT card are all directly connected to the AC 110V power supply 101, when the breaker 115 connected to the 110V power supply 101 is turned off. Alternatively, the entire equipment may malfunction due to grounding or disconnection on the DC power line.

Therefore, the present invention was devised to solve the above problems, and it is necessary to supply power by separating a device that operates by receiving AC power and DC power for each use, and by connecting a device that operates with DC power in parallel. The object is to provide a power supply circuit of a water treatment plant that can stabilize the supply.

The present invention for achieving the above object is, in the power supply circuit of the water treatment device consisting of a water treatment facility, a sensor unit for detecting the operating state of the water treatment facility, and the PLC to control the water treatment facility and the sensor unit. An AC power supply for supplying commercial AC power, and a DC converter for converting power of the AC power supply into DC power; An AC power supply unit is connected to the AC power supply unit, and a plurality of DC power supply units are connected to each DC power terminal branched in parallel from the '+' terminal.

The DC power supply device includes an input / output card for inputting and outputting a signal in the PLC, a plurality of sensors driven by a DC power supply, and a desk panel for displaying and operating an operation state of the water treatment facility. It is preferable.

A fuse type circuit breaker or an ELB type circuit breaker is connected to each power terminal branched from the DC power terminal, and an NFB type circuit breaker is connected to an output '+' terminal and a '-' terminal of the DC converter.

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

3 is a power supply circuit of the water treatment plant according to the present invention. Since the present invention relates to a power connection structure of a device operating with a DC power source, the AC power terminal connected to the 110V AC power supply unit 1 is omitted in FIG. 3. As shown in FIG. 3, the DC power converter 2 is connected to the 110V AC power supply 1 through an NFB type breaker. A breaker 3 is connected to the output '+' terminals 24P and 2a and '-' terminals 24N and 2b of the DC power converter 2, respectively, to protect the entire facility. In addition, the '+' terminals 24P and 2a provided on the output side of the DC power converter 2 have various sensors operating with DC power in the water treatment plant, IN / OUT cards of PLCs (Programmable Logic Controllers), and water treatment. The power stages are branched and connected in parallel to indicate the operating status of the equipment and supply them to the desk panel for manual operation.

The circuit breaker 5 connected to the output '+' terminal 2a and '-' terminal 2b of the DC power converter 2 is an NFB type circuit breaker, and the switch for turning on and off each DC power supply is a separate fuse type. It is preferable to be a breaker or a breaker of an ELB (leakage breaker) type.

The NFB type circuit breaker 5 is a circuit breaker which cuts out an overcurrent, and an ELB type circuit breaker is a circuit breaker which cuts out an overcurrent and a short circuit.

According to this configuration, by collecting and operating the devices in the DC power conversion unit in parallel to the DC power supply, the internal power supply of the water treatment device branched in parallel to the AC110V power supply through the circuit breaker to connect the entire power supply when the main power is cut off It is possible to prevent the occurrence of malfunction.

As described above, according to the present invention, a device operating by receiving AC power and DC power can be separately supplied for each use, and power can be supplied, and power supply can be stabilized by connecting devices operated by DC power in parallel. A power supply circuit for a water treatment plant is provided.

1 is a configuration diagram of a power supply system of a conventional water treatment apparatus;

2 is a power supply circuit diagram of a conventional water treatment apparatus;

3 is a power supply circuit diagram of a water treatment device according to the present invention,

<Description of Symbols for Major Parts of Drawings>

1: AC 110 power supply unit 2: DC conversion unit

3: NFB breaker 5: ELB breaker

Claims (4)

In the power supply circuit of the water treatment device composed of a water treatment facility, a sensor unit for sensing the operation state of the water treatment facility, and PLC controlling the water treatment facility and the sensor unit, AC power supply unit for supplying commercial AC power, A DC conversion unit for converting power of the AC power supply unit into DC power; An AC power supply unit is connected to the AC power supply unit, and a plurality of DC power supply units are connected to each DC power terminal branched in parallel from the '+' terminal. The apparatus of claim 1, wherein the DC power supply device comprises an input / output card for inputting and outputting signals from the PLC, a plurality of sensors driven by the DC power supply, and an indication of the operating state of the water treatment facility and manual operation. And a desk panel for the power supply circuit of the water treatment apparatus. The power supply circuit of claim 1, wherein a fuse type breaker or an ELB type breaker is connected to each power supply branch branched from the DC power supply terminal. The power supply circuit of a water treatment apparatus according to claim 1, wherein an NFB type circuit breaker is connected to the output '+' terminal and the '-' terminal of the DC converter.