KR980009946A - Operation control device of water feed pump - Google Patents

Abstract

[0001] The present invention relates to an operation control device for a feed water pressurizing pump, in which an amount of water can be controlled in large units by controlling each pump by using an electromagnetic switch, but it is impossible to finely control the operation and a large inrush current issuance The life of the pump is shortened and many problems arise in the control due to the noise generation. Further, since the pump can not be finely operated, even if water is required for a small amount of time, a pump is required to operate. Accordingly, the present invention adopts an inverter to control the amount of fine water, prevents inrush current by soft starting to improve reliability and prolongs the life of the pump, and alternately operates one inverter, The inverter is operated at regular intervals to disperse the load and to act as a main pump evenly so as to prevent aging of the pump.

Description

Operation control device of water feed pump

FIG. 1 is a system view of a conventional water supply pressure pump. FIG.

FIG. 2 is a circuit diagram of a conventional water supply pressure pump. FIG.

3 is a circuit diagram of the operation control device of the water supply pressure pump of the present invention.

FIG. 4 is a flow chart of the operation of the water feed pump according to FIG.

DESCRIPTION OF THE REFERENCE NUMERALS

10: microcomputer 20:

30: Flow sensor 40: Pressure sensor

50: Operation control unit 50a:

50b: Inverter drive P1 to P4: Pump

MS: electromagnetic switch

The present invention relates to an operation control device for a feed water pressurizing pump, and more particularly, to an apparatus for controlling operation of a feed water pressurizing pump, in which an inverter is used to control the amount of fine water and prevents inrush current by soft starting, And an operation control device for a water feed pump.

As shown in FIG. 2, the operation control device circuit configuration of the conventional water supply pressurizing pump includes n pumps (P1 to P4) for supplying water to a customer by installing a water tank; A flow rate sensor 30 for sensing a flow rate of water supplied to the customer through the pumps P1 to P4; A pressure sensor 40 for sensing the pressure of water supplied to the customer through the pumps P1 to P4; The microcomputer 10 reads the current flow rate value and the pressure value from the flow rate sensor 30 and the pressure sensor 40 to calculate the current supply quantity and the required quantity and outputs a drive signal according to the calculated value, Wow; A computer (10); And electromagnetic switches MSA1 to MS4 according to signals output from the microcomputer 10. [

The conventional technique configured as described above will be described as follows.

Unlike the high-priced water tank system where a water tank is installed on the roof of the water supply pressurization pump and water is supplied to the customer, a pump is installed in the underground shield to calculate the required amount of water and the maximum instantaneous water amount of the building, The water usage pattern of the next building, that is, the water usage pattern for each hour and hour for 24 hours, determines the capacity and installation number of the pump.

The microcomputer 10 reads the current flow rate value and the pressure value using the rain sensor 30 and the pressure sensor 40 after installing the determined pump, and compares the presently supplied quantity with a predetermined value.

As a result of comparison, in order to turn on all of the pumps P1 to P4 when the water quantity is the maximum, the microcomputer 10 sets the driving signal .

The driving unit 200 controls the electromagnetic switches MS1 to MS4 according to the driving signals received from the microcomputer 10 to turn on corresponding pumps among the electric pumps P1 to P4 to supply water to the customers.

This type of water supply pressurization system can supply water to the upper part of the basement and adjust the amount of water according to the fluctuating pressure. Therefore, in the case of the apartment, it is possible to solve the problem that the upper- It is economically advantageous because it does not require a separate water storage tank and operates the pump according to the amount of water used.

However, in the conventional art as described above, it is possible to control the amount of water by a large unit by controlling each pump by using an electromagnetic switch, but it is impossible to finely adjust the pump and the large inrush current at the time of pump on / There is a problem in control due to noise generation, and furthermore, there is a problem in that it is not economical because it is necessary to operate one pump even if a little water is needed because micro operation is impossible.

Therefore, it is an object of the present invention to solve the problems of the prior art, and it is an object of the present invention to provide a water supply pump which can control the amount of fine water by using an inverter, prevent inrush current by soft start, Of the operation control device.

Another object of the present invention is to provide a method of controlling the operation of a water supply pressure pump that prevents the aging of the pump by alternately operating one inverter to disperse the load by all the pumps operating at a constant cycle, And a control device.

In order to achieve the above object, the operation control device of the present invention is characterized in that the operation condition is determined according to a signal inputted to control the multi-stage pumps P1 to P4 as shown in FIG. 3, A driving unit (20) for outputting a signal for turning on / off the electromagnetic switches (MS1 to MS4) for controlling the operation of the pump by a control signal; A pressure sensor (30) installed on the side of the discharge part for sensing the operation state of the pump and sensing the pressure of the water and delivering it to the microcomputer; A flow rate sensor 40 installed on the suction side of the pump for sensing the amount of water to be sucked and delivering it to the microcomputer; And a driving control unit 50 for alternately driving the pump in accordance with the control output of the microcomputer 10.

The operation and effect of the present invention will be described in detail as follows.

First, when pump driving is started, if one pump is designated as the main pump, the microcomputer 10 turns on the electromagnetic switch MS11 connected to the designated pump so that the operation speed can be varied according to the variable frequency.

At this time, all the electromagnetic switches other than the electromagnetic switch designated by the main pump maintain their off state.

That is, only one pump driven by the inverter is applied.

For example, when the pump is started and the pump P1 is designated, the microcomputer 10 turns on the electromagnetic switch MS1 connected to the designated pump P1. To the inverter driving unit 50b of the operation control unit 50,

The inverter driving unit 50b generates a frequency corresponding to a signal transmitted from the microcomputer 10 to turn on the electromagnetic switch MS11 and control the operation speed.

All the electromagnetic switches MS21 to MS41 other than the electromagnetic switch MS11 designated by the main pump maintain the off state.

After the main pump P1 is soft-started and operated for a predetermined time, the discharge portion pressure value pi is detected through the pressure sensor 40 provided at the discharge portion side and compared with the set pressure value po (S1).

If the set value is larger than the detected pressure value (po ?? pi), the main pump P1 is set and then the pump P2 is turned on to increase the supply of water (S2). If the set value is smaller than the detected pressure value, The amount of the supplied water is sufficient, so that the speed of the pump is changed to the inverter in response to the change in the pressure value to adjust the amount of the supplied water (S3).

Here, when the pump P2 is turned on, the microcomputer 10 turns on the electromagnetic switch MS2 corresponding to the pump P2 to turn on the pump P2 through the driving unit 20. [

When the two pumps P1 and P2 are turned on, the discharge pressure value of the present pump becomes low when the amount of the used water is high. In this case, if the amount of water used is increased by increasing the number of pumps, Reduce the supply of water.

The above operation is repeated to adjust the amount of water supplied, and the operation process is as shown in FIG.

Each pump can be configured according to user's requirements as required (1 horsepower, 5 horsepower, 10 horsepower, 20 horsepower .......) This is possible.

When the capacity of each pump is determined and the installation number is determined, the number of operation is controlled by controlling each pump according to the flow rate used. In the case where the change in the use flow rate is small, the rotation speed is varied by using the inverter application pump, Can be adjusted.

In the present invention, the amount of the feed can be adjusted by using four pumps, but the capacity and the quantity of the pump can be freely adjusted according to the maximum demanded amount of the user and the water usage pattern.

As described above in detail, according to the present invention, an inverter is employed in a water supply pressurizing pump to perform a variable speed operation, and the amount of feed water is finely adjusted as necessary, thereby achieving economical and soft starting. As a result, It is possible to prevent shortening.

In addition, by alternately operating the inverter, one of the multiple pumps is alternately operated by the main pump and driven by the inverter at regular intervals, thereby dispersing the loads applied to the respective pumps, thereby preventing the aging of the pump and extending the service life have.

Claims (2)

N pumps for supplying water to the customer, a flow rate and pressure sensor for sensing the flow rate and pressure of the supplied water, and a current flow rate and pressure value from the flow rate and pressure sensor to calculate the current supply quantity and the required quantity And controlling the n electromagnetic switches according to the calculated values to operate the pump to control the amount of water. In accordance with the control output of the microcomputer, one of several pumps is alternately operated by the main pump Wherein the operation control means includes means for controlling the operation of the water supply pump. The inverter control apparatus according to claim 1, wherein the operation control means comprises inverter drive means for outputting an inverter drive signal in accordance with a control output of the microcomputer, and frequency generating means for generating a frequency for controlling on / off operations of the n electromagnetic switches according to the inverter drive means Wherein the water pump is constituted by an inverter. ※ Note: It is disclosed by the contents of the first application.