KR20130097007A - Pump system for energy saving and it's control process - Google Patents

Abstract

The present invention relates to a pump system of the drainage, and more particularly, the energy-saving pump system for controlling the target flow rate and the target pressure required in the pipe by feedback control of the plurality of pumps in conjunction with the flow rate and pressure on the suction side; The control method is related.
The conventional pump system has a problem that the life of the pump is shortened and the efficiency of the pump is reduced because the pump is simply controlled on and off according to the target pressure without considering the flow rate and pressure at the suction side. To achieve the present invention, the pump system for sucking and pressurizing the fluid from the main pipe to deliver to the pipe through the discharge pipe, comprising: a connection pipe for transferring the fluid sucked in the main pipe to the pump side; The first branch pipe to the third branch pipe, each of which is provided with a first pump, a second pump, and a third pump so as to branch the fluid transferred through the connecting pipe into a plurality of paths and pressurize the fluid sucked into the inside. and; And a discharge pipe configured to collect the fluid pressurized by the first branch pipe to the third branch pipe and deliver the fluid to the outside. A first flow rate sensor for detecting a flow rate is provided, and the control unit selectively turns on the first pump to the third pump according to the suction side pressure detected by the first pressure sensor and the suction side flow rate detected by the first flow sensor. An energy saving pump system and a control method thereof are characterized in that the pump is continuously operated even if the suction side pressure exceeds the initially set target pressure by controlling the target pressure.
Therefore, the energy-saving pump system according to the present invention can reduce the energy by minimizing the starting current required for the operation of the pump system because the pump feedback control to change the target pressure in conjunction with the flow rate and pressure of the suction side is in progress. In addition, since the plurality of pumps are implemented in a manner that is selectively operated by the control unit, there is an effect of extending the life of the device by the pump on-off control of the degree corresponding to the target flow rate and the target pressure.

Description

Energy saving pump system and control method {Pump system for energy saving and it's control process}

The present invention relates to a pump system of a drain, and more particularly, by feeding back a plurality of pumps to continuously operate the pump even when the target pressure is exceeded by varying the target pressure of the pipe in conjunction with the flow rate and pressure of the suction side. It relates to an energy saving pump system for controlling and a control method thereof.

In general, water intake pipes used for water intake, water purification and pressurization stations, and tap water, water supply, and drainage pipes have a pump system for supplying a large amount of fluid by driving a pump.

In general, in the pump system, the number of pumps is increased or the number of rotations of the inverter provided in each pump is increased to meet the target pressure designed in advance according to the piping. Is driven.

At this time, the capacity of the pump generally has a maximum of one day, a maximum of time, an instantaneous maximum value, and the pump system designs the pump in consideration of the instantaneous maximum value.

FIG. 1 is a schematic diagram of a water pipe system installed on a terrain having a high and low difference, in which a fluid is stored in an absorption well 2 in a main pipe 1 in a low region, and a supply pipe in a high region through a pressure pump 4 is shown in FIG. Transfer to (4). In this case, the absorption well (3) is provided with a separate level sensor (3) is managed to maintain a constant level at all times.

The pump is designed in consideration of the hydrostatic head and the loss head according to the end of the pipe line so that the fluid stored in the absorption well (2) can be smoothly transported to a high region, and the pump gradient of FIG. This can be confirmed visually.

However, the conventional pump system is designed to maintain the target pressure required by the system without considering the flow rate and pressure of the suction side as a simple on-off control method according to the target pressure. If there is insufficient, there is a problem in that the efficiency of the pump is lowered because the fluid is not transferred even if the pump is operated, there is a problem that the operation of the pump system is suddenly stopped when the target pressure is quickly reached due to the high pressure on the suction side.

In addition, in the pump system provided in the absorption well, if the pump is temporarily operated to discharge a large capacity of less than the instantaneous maximum value at a time, the level of the absorption well will be drastically lowered. There was a problem that the pump is applied to the force.

The present invention relates to a pump system of the drainage, and more particularly, feedback control of a plurality of pumps in conjunction with the flow rate and pressure of the suction side, by changing the target pressure of the pipe energy-saving type to prevent intermittent pump on and off Its purpose is to provide a pump system and its control method.

An energy-saving pump system according to the present invention comprises: a pump system for sucking and pressurizing a fluid from a main pipe and then delivering the pipe to a pipe through a discharge pipe, comprising: a connection pipe transferring the fluid sucked from the main pipe to a pump side; The first branch pipe to the third branch pipe, each of which is provided with a first pump, a second pump, and a third pump so as to branch the fluid transferred through the connecting pipe into a plurality of paths and pressurize the fluid sucked into the inside. and; And a discharge pipe configured to collect the fluid pressurized by the first branch pipe to the third branch pipe and deliver the fluid to the outside. A first flow rate sensor for detecting a flow rate is provided, and the control unit selectively turns on the first pump to the third pump according to the suction side pressure detected by the first pressure sensor and the suction side flow rate detected by the first flow sensor. By controlling the target pressure by controlling, the technical feature is to continuously operate the pump even if the suction side pressure exceeds the initially set target pressure.

The energy saving pump system according to the present invention controls the pump operation so that the overload pressure is not reached while varying the target pressure required in the pipe in conjunction with the flow rate and pressure on the suction side, and pumps for the appropriate flow rate according to the target flow rate. Feedback control saves energy by minimizing the starting current required to operate the pump system.

In addition, since the plurality of pumps are implemented in a manner that is selectively operated by the control unit, there is an effect of extending the life of the device by the pump on-off control of the degree corresponding to the target flow rate and the target pressure.

Figure 1 is a schematic diagram showing the storage of fluid in the absorption well in the main pipe of the low area, and conveyed to the high area through the pump,
FIG. 2 is a hydraulic gradient diagram of a conduit according to the distance and the altitude at which the fluid is conveyed in FIG.
3 is a block diagram of an energy saving pump system according to the present invention;
Figure 4 is a flow chart for the control method of the energy saving pump system according to the present invention.

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The energy-saving pump system according to the present invention relates to a pump system that sucks and pressurizes a fluid from a main pipe and delivers it to a discharge pipe, and is applicable to both a line pressurizing station or an absorption well type pumping station of sewage or sewage lines.

As shown in FIG. 3, the present invention provides a connection pipe 20 for transferring the fluid sucked from the main pipe 10 to the pump side; The first pump 21, the second pump 22, and the third pump 23 branch the fluid transferred through the connecting pipe 20 into a plurality of paths and pressurize the fluid sucked into the inner part. First to third branch pipes 24 to 26 provided with; It comprises a discharge pipe 40 for collecting the fluid pressurized in the first branch pipe to the third branch pipe (24 to 26) to the outside, the first pump 21 and the second pump 22 And the third pump 23 controls the on / off operation of the control unit 30 according to the detection signals of the first pressure sensor 31 and the first flow sensor 33 to be described later. .

That is, one side of the connecting pipe 20 of the present invention is provided with a first pressure sensor 31 for detecting the pressure of the fluid to be sucked, the control unit 30 sets the target pressure previously set by the administrator in the first pressure sensor The first pump to the third pumps 21 to 23 are selectively turned on and off while varying according to the suction side pressure detected at 21.

This is a technical feature of the present invention, which is proposed to compensate for the problem of the conventional pump system in which the pump is stopped when the suction side pressure is higher than the target pressure. Since the adjustment is lower than the recognized overload pressure (usually two-thirds of the maximum pressure), varying the target pressure will not reduce the stability of the pipe.

At this time, the controller 30 controls the pump system so that the suction side flow rate detected by the first flow rate sensor 33 does not exceed the limit compared to the target flow rate for stability of the pump system 21 and the second pump 22. And the on-off operation of the third pump 23 is controlled. This is to supplement the stability of the absorption well in the pump system equipped with the absorption well described below, and in the pump system without the absorption well, the target flow rate may be varied according to the suction side flow rate as well as the target pressure that varies according to the suction side pressure.

(As a general rule, the pressure on the suction side and the flow rate on the suction side are proportional to each other, so that the pump system is controlled to discharge a lot when it is introduced in a range where the stability of the pipe is not significantly impaired.)

Meanwhile, as another embodiment of the present invention, a separate absorbent tablet 2 may be connected between the connecting pipe 20 and the first, second, and third branch pipes 21 and 22 (23).

That is, the absorbent well 2 stores the fluid sucked through the connecting pipe 20 until it reaches a predetermined level, and then detects that the target level is reached by the water level sensor 32 provided therein. In accordance with the control signal of 30, the first branch pipes to the third branch pipes 24 to 26 are transferred. Such absorption well (2) is an essential component for improving the stability in the pump system with a small amount of fluid inflow on the input side.

In addition, as another embodiment of the present invention, one side of the discharge pipe 40, the second pressure sensor 34 for detecting the pressure of the fluid discharged to the outside and the second flow sensor for detecting the flow rate of the discharged fluid ( 35) is provided, and the measured pressure detected by the second pressure sensor 34 reaches the overload pressure of the pipe set in advance or the measured flow rate detected by the second flow sensor 35 has reached the target flow rate In this case, it may be configured to selectively control the on-off of the first pump to the third pump (21 to 23) according to the control signal of the controller 30.

Hereinafter, the input side pressure measured by the first pressure sensor 31 provided in the connection pipe 20 of the present invention and the input side flow rate measured by the first flow sensor 32 and the water level sensor 33 of the absorption well 2 will be described. The process of feedback control of the plurality of pumps in the control unit 30 according to the current level measured in step) will be described step by step through the flow chart of FIG.

First, when the manager manually sets the target pressure and the target flow rate (S10) and starts the pump system, the controller 30 measures the input side pressure and the flow rate of the connecting pipe 20 (S20).

At this time, the input side pressure measured by the connecting pipe 20 is compared with the overload pressure of the pipe 40, and if the input side pressure is lower than the overload pressure, the first pump 24, the second pump 25 and the third pump By sequentially driving the pump 26, the target pressure is varied to maintain the pump operation (S50).

In addition, the input flow rate measured by the connecting pipe 20 is compared with the target flow rate of the pipe (S60), and if the input flow rate is less than the target flow rate is fed back to S50 and the first pump 24 and the second pump 25 and The operation of the third pump 26 is maintained, and when the target flow rate is reached, the first pump 24, the second pump 25, and the third pump 26 are sequentially stopped (S70).

Finally, the output pressure and the flow rate measured in the discharge pipe 40 is compared with the overload pressure and the target flow rate of the pipe (S80), and if the output pressure of the discharge pipe 40 is greater than the overload pressure or the output flow rate is greater than the target flow rate S70 Proceed to step, otherwise the feedback to step S50.

Meanwhile, between step S20 and step S40, a step S30 of determining whether the fluid transferred from the connecting pipe 20 is stored in the absorption well 2 is added. At this time, the absorption well (2) proceeds to the next step for the pump operation only when the current water level of the absorption well (2) is higher than the predetermined level through the step (S31) by measuring the current water level and comparing it with a predetermined level. do.

Therefore, the present invention is operated in a manner of varying the target pressure to the input side pressure to efficiently control the on-off operation of the pump in accordance with the inlet conditions of the pump, to control the on-off operation of the pump by comparing the input flow rate with the target flow rate By adding the process, the stability of the pump system can be improved.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims and their equivalents. will be.

2: Absorption well 4: Pressure pump
1, 10: main pipe 20: connector
21: first branch engine 22: second branch engine
23: third branch engine 24: first pump
25: second pump 26: third pump
30 control unit 31 first pressure sensor
3, 32: water level sensor 33: first flow sensor
34: second pressure sensor 35: second flow sensor
40: discharge pipe

Claims (5)

In the pump system for sucking and pressurizing the fluid from the main pipe, and delivers the pipe through the discharge pipe,
A connection pipe 20 for transferring the fluid sucked from the main pipe 10 to the pump side; The first pump 24, the second pump 25, and the third pump 26 branch the fluid transferred through the connecting pipe 20 in a plurality of paths and pressurize the fluid sucked inward. First to third branch pipes 21, 22, 23 provided with; It comprises a discharge pipe 40 for collecting the fluid pressurized in the first branch pipe to the third branch pipe (21, 22, 23) to the outside,
One side of the connecting pipe 20 is provided with a first pressure sensor 31 for detecting the pressure of the fluid sucked, and a first flow sensor 33 for detecting the flow rate of the fluid,
The control unit 30 according to the suction-side pressure detected by the first pressure sensor 31 and the suction-side flow rate detected by the first flow sensor 33, the first pump to the third pump (24, 25, 26) Energy saving pump system, characterized in that the pump is continuously operated even if the suction side pressure exceeds the initial target pressure by varying the target pressure by selectively turning on and off).
The method of claim 1,
Between the connecting pipe 20 and the first branch pipe to the third branch pipe (21) (22) (23) absorbing well for storing until the fluid supplied through the connecting pipe 20 reaches a certain level ( 2) is provided,
The control unit 30 and the first pump 24 installed in the first branch pipe 21 only when the current level is detected by the water level sensor 32 installed on one side of the absorption well 2, Energy-saving pump system, characterized in that for driving the second pump (25) installed in the second branch pipe (22), and the third pump (26) installed in the third branch pipe (23).
The method of claim 1,
One side of the discharge pipe 40 is provided with a second pressure sensor 34 for detecting the pressure of the fluid discharged to the outside and a second flow sensor 35 for detecting the flow rate of the fluid,
The controller 30 detects the discharge pressure and the discharge flow rate detected by the second pressure sensor 34 and the second flow sensor 35 each time the first pump is detected to reach a preset overload pressure or a target flow rate. Energy saving pump system, characterized in that the operation of the 24 and the second pump (25) and the third pump (26).
In the control method of the pump,
Manually setting a target pressure and a target flow rate (S10);
Measuring an input side pressure and a flow rate of the connection pipe 20 (S20);
Comparing the input side pressure measured by the connecting pipe 20 with the overload pressure of the pipe (S40);
Maintaining the pump operation by changing the target pressure by sequentially driving the first pump 24, the second pump 25, and the third pump 26 until the input side pressure is lower than the overload pressure (S50);
Comparing the input flow rate measured by the connection pipe 20 with a target flow rate of the pipe (S60);
When the input flow rate is less than the target flow rate, the flow is fed back to S50 to maintain the operation of the first pump 24, the second pump 25, and the third pump 26, and when the target flow rate is reached, the first pump 24 and Stopping the second pump 25 and the third pump 26 sequentially (S70);
Comparing the output side pressure and the flow rate measured in the discharge pipe 40 with the overload pressure and the target flow rate of the pipe (S80);
If the output side pressure of the discharge pipe (40) is greater than the overload pressure or the output flow rate is greater than the target flow rate proceeds to step S70, otherwise the control method of the energy-saving pump system, characterized in that fed back to step S50.
5. The method of claim 4,
Between step S20 and step S40 is a step (S30) of determining whether the fluid transferred from the connecting pipe 20 is stored in the absorption well (2),
In the absorption well (2) is to proceed to the next step for the pump operation only when the current level of the absorption well (2) is higher than the predetermined level through the step (S31) by measuring the current water level and comparing it with a predetermined level. Control method of the energy-saving pump system characterized in that.

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