KR102072908B1 - Control method of multiple water pump start using soft starter - Google Patents

Abstract

The present invention relates to a plurality of water pump starting control method using a soft starter, when the water supply demand occurs when the pump is stopped and the pump is started for the first time, the water supply demand increases during operation by starting the pump using the soft starter. By switching the power supply of the running pump to the electric contactor (Magnet Contact) at the moment when the start of the additional pump is required, disconnect the soft starter and connect the pump to the additional starter, and then start the pump.
The present invention eliminates sudden start and stop of a pump to be started or stopped with one soft starter when the pump is additionally started or stopped depending on the water supply demand in the state of stopping or a plurality of pumps in parallel. There is a remarkable effect of saving energy by eliminating water shock and excessive starting current during the direct start or stop of the pump by the start or stop control method.

Description

Control method of multiple water pump start using soft starter

The present invention relates to a plurality of water pump starting control method using a soft starter, when the water supply demand occurs when the pump is stopped and the pump is started for the first time, the water supply demand increases during operation by starting the pump using the soft starter. By switching the power supply of the running pump to the electric contactor (Magnet Contact) at the moment when the start of the additional pump is required, disconnect the soft starter and connect the pump to the additional start, and then start the pump. It is an object of the present invention to provide a plurality of feed pump start control methods using a soft starter that saves energy by eliminating water shock and excessive start current during direct start or stop.

In general, in the operation method of a pump, the operation number control method of a general pump is a control method corresponding to the demand of water supply by controlling the number of starting and operating pumps.

1) When the number of operation increases from one unit to two and from two units to generations, the water pressure in the pipe increases rapidly.

2) On the contrary, when the number of operating units decreases, there is a problem that the water pressure of the pipes decreases rapidly.

3) The set pressure cannot be maintained accurately (within -0.2 ~ + 0.2),

4) When the pump is additionally started in parallel, there is a problem that it consumes 6 to 13 times more power than the rated power of the pump and wastes energy.

Built-in Frequency Converter, Variable Frequency Driver, Inverter (hereinafter VFD) to control the rotational speed of the pump. It is divided into one or more than one VFD. In other words, there is a problem of rising cost and an increase in size of the control panel.In the case of a load requiring more than one pump operation, a pump operating at rated operation (rated frequency of KEPCO) has a problem in that the power factor is lower than that of a general pump. .

As a prior art, Korean Patent Publication No. 10-1203883 includes two switch elements each provided with anti-parallel diodes, one of the two switch elements being positively conducted from an AC power source to a motor. A direction switch, the other being a negative direction switch element conducting in the negative direction, wherein the two switch elements are arranged in series; A driving command detection unit detecting a driving command of the driver; An input voltage current detector for detecting an input voltage of the AC power and an input current flowing into the motor; And if the input voltage and the input current detected by the input voltage current detection unit are positive so as to enable zero current switching when the operation command detection unit detects the operation command, the negative direction switch is turned off and the positive direction A switch is turned on, and if the detected input voltage is positive and the input current is negative, the positive switch is turned on; if the detected input voltage and the input current are negative, the positive switch is turned off and the Turn on the negative direction switch; And a gate driver for turning on the negative direction switch when the detected input voltage is negative and the input current is positive. .

In addition, Korean Patent Laid-Open Publication No. 10-2014-0067725 discloses whether an overload detection unit is in an overload detection unit installed on a main switching board to determine whether the generator is overloaded with a generator voltage, and outputs the generator's output voltage to the soft starter through the ACB. A ballast pump motor driving device configured to drive a ballast pump motor by supplying a power supply voltage, wherein a power supply voltage applied to each part due to an overload detection by installing a trip order delay circuit part having a predetermined time between the primary trip device and the ACB. When the voltage is supplied to the soft starter through the ACB is a drive element protection device in the soft starter for the ballast pump motor, characterized in that after the predetermined time by the trip order delay circuit unit is cut off.

However, the above-described prior arts still have disadvantages in that the starting is not smooth and the energy consumption is high.

Therefore, the present invention has been made to solve the above problems, when the water supply demand occurs in the pump stop state, when the pump is first started, by using the soft starter to start the pump during operation, the demand for water supply increases the additional pump Additional pump in the start control method to switch the power supply of the running pump to the electric contactor (Magnet Contact) at the moment when the start of operation is required, disconnect the soft starter, connect the pump to be started and then start the pump. If the current exceeds the allowable value of the rated current input at startup, disconnect the soft starter connected to the running pump and then change the connection time to the next pump to maintain smooth starting at the start of the entire pump. To start the pump as much as possible.

 Therefore, if water supply demand decreases while multiple pumps are operating, and the number of pumps is reduced, the soft starter is connected to the pump to be stopped, and then the existing magnet contact is disconnected and the pump is soft-stopped using the soft starter. In order to start and stop the pump by using the soft-starter, the timing to start and stop the pump is measured by measuring the water pressure of the pipe. It is to provide a method of controlling the start of a plurality of feed pumps using a soft starter to determine the connection of -starter.

The present invention relates to a plurality of water pump starting control method using a soft starter, when the water supply demand occurs when the pump is stopped and the pump is started for the first time, the water supply demand increases during operation by starting the pump using the soft starter. By switching the power supply of the running pump to the electric contactor (Magnet Contact) at the moment when the start of the additional pump is required, the connection to the soft starter is disconnected and then connected to the pump to be started additionally, and then the pump is started. .

Therefore, the present invention is to start and stop the pump to be started or stopped additionally with one soft starter without water shock when the pump is additionally started or stopped according to the water supply demand in the stopped state or in the case of a plurality of pumps in parallel operation. By eliminating the start or stop control method, there is a remarkable effect of saving energy by eliminating water shock and excessive starting current during the direct start or stop of the pump.

1 is a diagram illustrating a feedwater booster pump system in which a plurality of pumps of the present invention are connected in parallel to a conduit;
Figure 2 shows the start signal to the soft start Q11 after connecting the electric switch (MC) Q21 connected to the pump to be started for the first time in the situation where the water supply demand of the present invention occurs and the pressure of the pipe is to be started. Explanatory drawing for soft-starting pump 1 by applying

The present invention relates to a plurality of water pump starting control method using a soft starter, when the water supply demand occurs when the pump is stopped and the pump is started for the first time, the water supply demand increases during operation by starting the pump using the soft starter. By switching the power supply of the running pump to the electrical contactor (Magnet Contact) at the moment when the start of the additional pump is required, the connection to the soft starter is disconnected and then connected to the pump to be started additionally characterized in that the pump is started.

In addition, when the additional pump is detected and the current change is exceeded and the allowable value of the rated current is exceeded, the connection to the next pump after the soft starter connected to the operating pump is disconnected and the time to connect to the next pump is changed to start the entire pump. It characterized in that the pump is started so that a smooth start is maintained.

The present invention is described in detail by the accompanying drawings as follows.

1 is a diagram illustrating a water supply pressure booster pump system in which a plurality of pumps of the present invention are connected in parallel to a conduit pipe, and FIG. This is an explanatory diagram in which pump 1 is soft-started by connecting an electric switch Q21 connected to a pump to be started and then applying a start signal to the soft start Q11.

The present invention relates to a booster pump system of a pressurized water supply system for controlling a start and stop, parallel start and stop of a pump by using a single soft starter according to a water supply demand by connecting a plurality of pumps in parallel for the purpose of supplying a building. In that,

The core of the present invention is to solve the problem of suddenly starting the pump to be started or stopped additionally with one soft starter when the pump is additionally started or stopped depending on the water supply demand in the stopped state or the plurality of pumps in parallel operation. In this way, it is possible to save energy by eliminating water shock and excessive starting current during the direct start or stop of the pump in a start or stop control method that eliminates sudden stop.

 The soft starter is a device that smoothly raises the rated speed when the induction motor is started, such as the continuously variable shift of the SM5 2010 model.The difference from the inverter (Frequency COnverter, Inverter) is that the vehicle is started or stopped without speed control, but it is a continuously variable vehicle. It is a device that makes it like this.

In the water supply pressure booster pump system in which a plurality of pumps of FIG. 1 are connected in parallel to a conduit, the electric switchgear connected to the pump to be started for the first time in a situation in which the water supply demand in FIG. After connecting Q21, apply soft start Q11 to soft start pump 1. If only one pump is running, run the pump with a soft-starter.

If the demand for water supply continues to increase beyond the flow rate of one pump, compare the load current with the pipe pressure value, determine that the pump will be started further, connect Q22 and then disconnect the Q11 of the soft-starter. At this time, if the load current is continuously detected and monitored, if the load current changes more than a certain range, the speed at which the pressure in the pipe decreases is detected and calculated, the MC Q31 is connected, and a start signal is applied to the MC Q11 to add a pump. Activate

If the demand for water continues to increase, the above procedure is applied repeatedly to start up a plurality of pumps connected to the conduit sequentially.

If the water supply decreases and the pump is to be stopped while a plurality of pumps are operating, connect the pump power supply MC x2 connected to the pump that was started last, and then disconnect the soft-starter Q11 and start the pump with the fastest starting order. Connect MC Qx1 for Soft-starter connected to the power supply, start soft-starter to supply power, cut off MC Qx2 for direct power supply, and apply the stop signal to soft-starter to shut off the pump and stop the pump. Let's do it.

If the water supply continues to decrease, repeat the procedure to stop the pump to control the number of pumps in operation according to the water supply.

Therefore, in the present invention, the time difference between disconnecting the magnet contact after connecting the soft-starter is detected by controlling the current change and reflecting it in the next connection.

Therefore, the present invention is to start and stop the pump to be started or stopped additionally with one soft starter without water shock when the pump is additionally started or stopped according to the water supply demand in the stopped state or in the case of a plurality of pumps in parallel operation. By eliminating the start or stop control method, there is a remarkable effect of saving energy by eliminating water shock and excessive starting current during the direct start or stop of the pump.

10: control panel 20: discharge confluence pipe
30: pressure sensor 40: pump
50: suction conduit

Claims (2)

When the pump is in the stopped state and the water supply demand occurs, the pump is started for the first time. When the pump is started by using a soft starter, the power supply of the running pump is switched on at the moment when the demand for water supply increases during operation. In the multiple water pump start control method using a soft starter that switches to (Magnet Contact) and disconnects the soft starter and then connects to the pump to be started additionally and starts the pump.
When the additional pump detects a change in current and exceeds the allowable value of the input rated current, the connection time to the next pump is changed after disconnecting the soft starter connected to the running pump. To start the pump so that a smooth start is maintained,
The booster pump system of a pressurized water supply system in which a plurality of pumps are connected in parallel to control start and stop, parallel start and stop of a pump by using one soft starter according to a water supply demand, is a stationary state or a plurality of pumps are connected in parallel It is a start or stop control method that eliminates sudden start and stop of the pump to be started or stopped with one soft starter without additional shock when the pump is additionally started or stopped according to the water supply demand in the running state.
In the water supply pressure booster pump system in which the plurality of pumps are connected in parallel to the conduit, the electric switch (Q21) connected to the pump to be started for the first time should be connected when the pressure of the pipe is reduced due to water supply demand. After that, the pump 1 is soft-started by applying a start signal to the soft starter Q11.
If the water supply demand continues to increase beyond the flow rate of one of the pumps, it is determined that the pump will be further started by comparing the load current with the pipe pressure value, and then connecting the electric switch Q22 and then connecting the soft starter Q11. If the load current changes more than a certain range, it detects and calculates the speed at which the pressure in the pipe decreases, connects the electric switch Q31, and starts the soft starter Q11. Applying a signal to start additional pumps, and if the demand for water continues to increase, it is applied repeatedly to start a plurality of pumps connected to the conduit in order.
The time difference of disconnecting the electrical contactor (magnet contact) after connecting the soft starter (Q11) is controlled by detecting a change in the current reflected in the next connection control of the water supply pump start using a soft starter Way delete

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