KR101840207B1 - Pressure pump system and control methdod for water supply resorvoir - Google Patents

Abstract

The present invention relates to a water supply reservoir pressure pump system and a control method thereof, which can automatically adjust a level of a reservoir until repair is completed, when a level sensor or a communication line is broken in the water supply reservoir pressure pump system. The water supply reservoir pressure pump system of the present invention comprises: a pressure station including a pressure pump, a pressure pump control device controlling the pressure pump, a pressure gauge measuring pressure of an outlet of the pressure pump; and the reservoir in which a reservoir inlet and the level sensor are installed. The reservoir inlet is formed on a side surface of the reservoir. When the pressure pump control device is in a normal state, the pressure pump control device receives a measuring value of the level sensor and controls operation of the pressure pump by using the measuring value. When the pressure pump control device is in a failure state which cannot receive the measuring value of the level sensor, the pressure pump control device controls the operation of the pressure pump by using a measuring value of the pressure gauge.

Description

TECHNICAL FIELD [0001] The present invention relates to a pressure pump system and a control method for a water supply reservoir,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water supply pump pressurization pump system and a control method thereof, and more particularly to a water supply pump water pump system and a control method thereof, which can cope with a failure of a communication device informing measurement values of a water level sensor, .

Generally, city water is produced in a water purification plant, then stored in a high-level reservoir, and then supplied to the customer's demand. At this time, the water produced in the water purification plant is sent to the reservoir through the pressure pump.

Patent Document 1 is an example of a water supply reservoir pressurization pump system (a system for sending a constant water produced in a water purification plant to a water supply reservoir through a pressure pump).

Fig. 1 of Patent Document 1 shows a configuration diagram of a system for sending a constant water produced in a water purification plant 3 to a water reservoir 5 (a reservoir) of a high altitude via a pressurization pump 4.

In a conventional water depot pressure pump system, a water level sensor is installed on a reservoir to measure the level of the reservoir, and the pressure pump is controlled so that the water level of the reservoir becomes a proper value. That is, the control apparatus of the pressurizing pump controls the pressurizing pump so as to stop the operation of the pressurizing pump when the water level of the reservoir reaches the predetermined upper limit value and restarts the operation of the pressurizing pump when the water level of the reservoir reaches a predetermined lower limit value. .

A communication line is required to send the water level sensor value of the reservoir to the pressure pump control unit.

The communication line may be a communication line of KT (KT Co., Ltd.) or a wired / wireless line may be implemented by other methods.

However, when the water level sensor or the communication line fails, the water level can not be automatically adjusted until the repair is completed. In other words, if the water level sensor does not provide accurate water level information or can not measure the water level, or if the communication line between the pressure field and the reservoir fails and can not transmit the water level information, the water level can not be automatically adjusted.

Conventionally, when the water level sensor or the communication line has failed, a method has been used in which a person directly goes to check the water level of the drainage pipe until the repair is completed, and then controls the operation of the pressure pump using the result of the check.

However, if it is difficult for the person to go directly to the reservoir when the reservoir is difficult to access, there is a risk that the water supply will be insufficient or the water volume will be too high due to too many reservoirs. However, when the supply of water is insufficient, the dissatisfaction of the water user becomes very high, so that the supply of the water to the reservoir is made more abundant so that the shortage of the water is not caused, and a part of the remaining water is supplied to the overflow drain pipe There was also an informal way to overflow.

However, if the constants are overflowed through the overflow drain pipe, not only a waste of cost but also various problems such as flooding in the vicinity of the reservoir may occur.

Patent Document 1: KR 20-0446721 Y1 (Registered Date: Nov. 17, 2009)

The present invention is intended to automatically adjust the level of a drainage pipe until a repair is completed when a water level sensor or a communication line fails in a water supply drainage system pressure pump system.

The water supply reservoir pressure pump system according to the present invention includes a pressure pump, a pressure pump control device for controlling the pressure pump, a pressure field including a pressure gauge for measuring a pressure of the pressure pump outlet, And a drainage inlet formed on the side of the drainage pipe. In a normal state, the pressure pump controller receives the measured value of the water level sensor, and then, using the measured value, And controls the operation of the pressurizing pump by using the measured value of the pressure gauge when the pressurization pump control apparatus is in a failure state in which it can not receive the measured value of the water level sensor.

When the operation of the pressurizing pump is controlled by using the measured value of the pressure gauge in a faulty state in the water supply reservoir pressurization pump system, when the measured value of the pressure gauge reaches a predetermined reference value or more, the operation of the pressurizing pump is stopped, The operation of the pressurizing pump can be started after a predetermined time.

In the water supply reservoir pressurization pump system, the predetermined time from when the operation of the pressurization pump is stopped to the start of operation of the pressurization pump can be determined using the average time from the stoppage of the pressurization pump to the operation after the stoppage of the pressurization pump in the steady state .

A water supply pump control method for a water supply reservoir according to the present invention includes a pressure pump, a pressure pump control device for controlling the pressure pump, a pressure field including a pressure gauge for measuring a pressure of the pressure pump discharge port, A water supply pump control method for a water supply reservoir using a water supply reservoir pressurization pump system including a drainage inlet formed on a side surface thereof and a drainage sensor provided with a water level sensor, wherein when the pressure pump control device receives a measured value of the water level sensor A first step of controlling the operation of the pressurizing pump by using the measured value; And a second step of controlling the operation of the pressurizing pump by using the measured value of the pressure gauge when the pressure pump controller is in a failure state in which the measured value of the water level sensor can not be received.

According to the present invention, when the water level sensor or the communication line is broken in the water supply pumping system, the water level of the water storage can be automatically adjusted until the repair is completed.

FIG. 1 is a conceptual diagram of a water supply reservoir pressure pump system according to the present invention.
Fig. 2 shows an example of a graph of a change in the water level of a reservoir in a steady state
FIG. 3 is a flowchart showing an example of a control method according to the present invention.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise.

1 is a conceptual diagram of a water supply reservoir pressure pump system according to the present invention.

The water supply reservoir pressurization pump system according to the present invention includes a pressurization field (100) and a reservoir (200). A pressure sensor 110 and a pressure pump controller 120 and a pressure gauge 130 are installed in the pressure field 100. The water level sensor 210, the drainage inlet 220, the drainage outlet 230, Respectively.

The constant water supplied to the reservoir 200 is supplied to the reservoir through the reservoir intake 220 formed at the side of the reservoir and discharged out of the reservoir through the reservoir outlet 230.

The water level sensor 210 installed in the reservoir 200 measures the water level of the reservoir and transmits the measured value to the pressure pump controller 120 through a wired or wireless communication line.

The pressurization pump controller 120 determines whether the pressurization pump is operating using the water level measurement value of the reservoir. For example, the operation of the pressurization pump is stopped when the water level of the reservoir reaches a predetermined upper limit due to a rise in the water level, and control is started so that the operation of the pressurization pump is started when the reservoir water level becomes low and reaches a predetermined lower limit value.

The pressure gauge 130 is a device for measuring the pressure (water pressure) at the outlet of the pressurizing pump. The pressure gauge 130 of the present invention can automatically transmit the measured value to the pressure pump control device although the conventional pressure gauge is used to display the pressure (water pressure) at the outlet of the pressure pump on the instrument panel so that the human can see the pressure. .

In the present invention, when the communication line and the water level sensor operate normally, the pressure pump control device 120 is operated in the normal operation mode.

However, if the communication line or water level sensor fails and the pressure pump controller can not normally receive the measured value of the water level sensor, it switches to the pressure operation mode.

In the pressure operation mode, the pump stop command is issued when the measured value of the pressure gauge is equal to or greater than a predetermined reference value, and the operation of the pressure pump can be restarted when the measured value of the pressure gauge falls below a predetermined reference value. Also, when the operation of the pressurizing pump is started, it can be set to be maintained in the operating state for a predetermined time or longer.

In FIG. 1, when the water level of the reservoir gradually increases and becomes higher than the drainage inlet 220, the pressure of the outlet of the pressurization pump 110 for supplying the water to the reservoir becomes higher, so that the measured value of the pressure gauge 130 becomes larger. It is determined that there is a risk of overflowing water in the reservoir when the measured value is larger than a predetermined reference value, and the operation of the pressurizing pump can be stopped.

 When the measured value of the pressure gauge is less than a predetermined reference value, the operation of the pressurizing pump can be restarted immediately. However, when the operation of the pressurizing pump is started, the operation can be maintained for a predetermined time or longer. The operation time may be determined using the average value of the pressurization pump operation time in the steady state.

Fig. 2 is an example of a graph of a water level change at a steady state.

In the steady state, when the water level of the reservoir reaches the upper limit value, the operation of the pressure pump is started. When the water level of the reservoir reaches the lower limit value, the operation of the pressure pump is started.

Therefore, in Fig. 2, the operation of the pressurizing pump is started at times t1 and t3, and the operation of the pressurizing pump is stopped at time t2 and t4. Therefore, in FIG. 2, the operation times of the two pressurizing pumps are t2 - t1 and t4 - t3, respectively.

If the average value of the operating time in the steady state is 8 hours and 50% of the steady state operating time average value is set as the pressure pump operating time, the pressure pump is operated for 4 hours after the start of the pressure pump in the pressure operating mode, Stopped. In this embodiment, 50% of the average value can be changed to another reference value (for example, 30%, 70%). However, if the reference value is changed to a value close to 100% or 100%, the sudden decrease in the amount of water used on the demand side of the station increases the risk of flooding the reservoir, which is not desirable.

The method of controlling a pressurized water pump of a water supply reservoir using a water supply reservoir pressurization pump system according to the present invention includes the following two steps.

(1) First step: when the pressure pump controller receives the measured value of the water level sensor, when the normal state, controlling the operation of the pressure pump using the measured value;

(2) Step 2: Controlling the operation of the pressurizing pump by using the measured value of the pressure gauge when the pressurization pump control device is in a failure state where it can not receive the measured value of the water level sensor

3 is an example of a flowchart of a control method according to the present invention.

3, if the pressure pump control device can normally receive the measured value of the water level sensor, it is converted to the normal operation mode. If the pressure pump control device can not normally receive the measured value of the water level sensor, do.

In the pressure operation mode, when the pump is in the starting state and the measured value of the pressure gauge reaches a predetermined reference value or more, a pressure pump stop command is issued.

100: Pressure field
110: pressure pump
120: Pressure pump control device
130: Pressure gauge
200: Reservoir
210: Water level sensor
220: Reservoir inlet
230: Reservoir outlet

Claims (4)

A pressure pump including a pressure pump, a pressure pump controller for controlling the pressure pump, and a pressure gauge for measuring a pressure of the pressure pump outlet;
A reservoir having a drainage inlet and a water level sensor;
Lt; / RTI >
The reservoir inlet is formed on the side of the reservoir,
In a normal state, the pressure pump controller receives the measured value of the water level sensor, and controls the operation of the pressure pump using the measured value,
The operation of the pressurizing pump is controlled by using the measured value of the pressure gauge when the pressure pump control device is in a failure state in which the measured value of the water level sensor can not be received,
When the operation of the pressurizing pump is controlled by using the measured value of the pressure gauge when the pressure pump control device is in a failure state in which the measured value of the water level sensor can not be received, the water level of the reservoir becomes higher and becomes higher than the drainage inlet, The control unit stops the operation of the pressurization pump based on the determination that there is a danger that the water in the reservoir overflows when the pressure measurement value of the reservoir becomes larger than the predetermined reference value.
The method according to claim 1,
Wherein when the operation of the pressurizing pump is controlled by using the measured value of the pressure gauge in a failure state, operation of the pressurizing pump is started after a predetermined time has elapsed after the operation of the pressurizing pump is stopped.
The method of claim 2,
Wherein the predetermined time from when the operation of the pressurizing pump is stopped until the operation of the pressurizing pump is started is determined by using an average time from the stoppage of the pressurizing pump to the operation after the pressurizing pump is stopped in the steady state.
A pressure pump including a pressure pump, a pressure pump controller for controlling the pressure pump, and a pressure gauge for measuring a pressure of the pressure pump outlet; A water supply pump control method using a water supply reservoir pressurization pump system including a drainage inlet formed on a side surface thereof and a drainage port provided with a water level sensor,
A first step of controlling the operation of the pressurizing pump by using the measured value after the pressure pump controller receives the measured value of the water level sensor when the pressure pump is in a normal state;
And a second step of controlling the operation of the pressurizing pump by using the measured value of the pressure gauge when the pressure pump control device is in a failure state in which the measured value of the water level sensor can not be received
In the second step, when the operation of the pressurizing pump is controlled by using the measured value of the pressure gauge when the pressure pump controller is in a failure state in which the measured value of the water level sensor can not be received, the water level of the reservoir gradually increases, The control unit stops the operation of the pressurizing pump based on the determination that there is a danger that water in the reservoir overflows when the pressure measurement value at the outlet of the pressurization pump becomes larger than the predetermined reference value.

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