KR102277247B1 - The facility control system of pump performance data base and the method thereof - Google Patents

Abstract

The present invention relates to a facility control system based on pump performance data. More specifically, the present invention relates to a facility control system based on pump performance data, which is able to measure pressure, flow rate, water level, etc. by an organic connection of a sensor unit, on-site facility control system, or the like, classify the pump performance into normal, warning, and forced stop, and precisely control the pump operating timing point and the supply time extension timing point in accordance with the control of operation water level. The facility control system based on pump performance data comprises: an on-site facility control system which includes a sensor unit which includes a pressure measuring sensor and a flow rate measuring sensor, which are engaged with a fluid pipe, a water level measuring sensor engaged with a fluid storage, and an electric current measuring sensor engaged with an on-site control panel, and the on-site control panel which downloads and stores the value of performance data fitting the on-site pump from a server, and controls the on-site pump; and a central control system which includes the server which generates, modifies, and deletes sheet values of performance data of a plurality of on-site pumps which can be included in the on-site control panel, and a Web which communicates with the on-site control panel and the server, and has the performance, alert, and monitoring functions and the on-site facility control functions.

Description

The facility control system of pump performance data base and the method thereof

The present invention relates to a facility control system based on pump performance data, and more particularly, by measuring pressure, flow rate, water level, etc. by organic connection between a sensor unit and an on-site facility control system, normal, warning, and forced pump performance. It is related to a facility control system based on pump performance data that can be classified into stoppages and accurately control the timing of pump operation and extension of supply time.

As shown in FIG. 1, the control method for detecting the degradation of the pump part according to the prior invention is a pump 100 for operating a load source 300, and the pump 100, as shown in FIG. The temperature sensor 120 that measures the effective temperature of the windings and bearings of the motor coil constituting the motor in real time and transmits it to the control panel 200, and the current flowing into the pump 100 at the current supply terminal of the pump 100. It is configured to include a current measuring device 130 that measures and transmits to the control panel 200 .

At this time, the control panel 200 calculates the effective current value and the effective temperature through the signal conversion unit 210 and the operation unit 220 as shown in FIG. 2 , and the calculated effective current value and the effective temperature value are preset in advance. If it is greater than the maximum temperature value (Tmax) stored in advance in the storage unit 230, or is less than the minimum current value (Imin), it detects a decrease in the performance of the parts of the pump 100 and stops the operation of the pump 100 a stop signal is generated.

In the general pump 100, there is a technology configuration for preventing overcurrent, but a technology for recognizing this when the supply current is low due to abnormal symptoms of pump parts has not been implemented at all.

In order to solve the problems of the prior art, the present invention measures the effective temperature of the windings and bearings of the motor coil constituting the pump 100 in operation to supply the fluid to the load source 300 on one side of the pump 100 in real time. A temperature sensor 120 that measures and delivers to the control panel is installed, and the current supply terminal of the pump 100 is electrically connected to a current meter 130 that measures the current flowing into the pump 100 and delivers it to the control panel, , in the control panel 200, the effective current value and the effective temperature value transmitted from the temperature sensor 120 and the current measuring device 130 are greater than the maximum temperature value Tmax previously stored in the storage unit 230, or , or when it is smaller than the minimum current value Imin, a stop signal for stopping the operation of the pump 100 is generated by detecting the degradation of the components of the pump 100 .

In particular, in the control panel 200 according to an embodiment of the present invention, as shown in FIG. 2 , the analog current and effective temperature transmitted from the temperature sensor 120 and the current measuring device 130 are converted into a signal conversion unit 210 . ) to calculate the effective temperature value and the effective current value in the digital state, and the maximum temperature value (Tmax) and the minimum current value (Imin) stored in the storage unit 230 in advance through the operation unit 220 and After comparison, the on/off operation of the pump is selectively controlled.

However, the method of stopping operation by comparing the maximum temperature value (Tmax) and the minimum current value (Imin) had a problem in that it was difficult to diagnose the exact current state of the pump.

In addition, there was a problem in that it was difficult to accurately control the pump operation time and the supply time extension time due to the organic connection between the on-site facility control system and the central control system.

Korean Patent Registration 10-1936828

The present invention was made to solve the above problems, and the pump performance is divided into normal, warning, and forced stop by measuring pressure, flow rate, water level, etc. by organic connection between the field facility control system, the central control system, and the sensor unit. The purpose of this is to provide a facility control system based on pump performance data that can accurately control the pump operation time and supply time extension time.

In addition, the present invention creates and verifies a scenario in which the pump performance is normal if 80% or more compared to the value set by the administrator, a warning if it is 60% or more and less than 80%, and a forced stop when less than 60% is generated and verified in the field to suit the site situation. It aims to provide a facility control system based on pump performance data that enables accurate control.

In order to solve the above problems, the present invention provides a sensor unit including a pressure measuring sensor and a flow measuring sensor coupled to a fluid pipe, a water level measuring sensor coupled to a fluid reservoir, and a current measuring sensor coupled to a field control panel; A field facility control system comprising: a field control panel that controls the field pump by downloading and storing a value of performance data suitable for the field pump from the following server; and the performance of a plurality of field pumps that can be included in the field control panel A central control system including; a server having a function of creating, modifying, and deleting data sheet values, and a Web having performance, alarm, monitoring functions and field facility control functions of field facilities through mutual communication with the field control panel and the server; is made of

The pressure measuring sensor of the sensor unit measures the pressure of the fluid coming out of the field pump, the flow measuring sensor measures the flow rate of the fluid coming out of the field pump, the water level measuring sensor measures the height of the fluid reservoir storing the fluid, and the current The measurement sensor measures the load current of the field pump and compares and analyzes the pressure, flow, water level, and current values and the performance data of the field pump.

The on-site control panel measures the pressure, flow, and current values of the on-site pump through the sensor unit and compares the values of the pump performance data with the values set by the administrator. If the pump performance is 80% or more, normal, 60% or more and less than 80% It includes a back-side warning and an alarm alarm function to forcibly stop according to an abnormal situation when it is less than 60%.

The on-site control panel includes a function of measuring the amount of water level change according to time of the on-site pump through the sensor unit, and alarming the pump on/off and alarming when it is greater than or less than a value set by an administrator.

The on-site control panel includes a function of adjusting the operating water level of the pump by measuring the water level in the fluid reservoir over time through the sensor unit.

The on-site control panel measures the pressure, flow, and current values of the on-site pump through the sensor unit and includes a function of diagnosing normal operation of the pump when the pump performance is 80% or more.

The on-site control panel includes a function of comparing the measured data value of the on-site pump with the performance of the pump through the sensor unit, and transmitting it to the server when an abnormal situation occurs and sending an alarm to the administrator.

The server transmits and sets performance data according to the conditions of each field pump using wireless communication to the field control panel, collects field measurement data and transmits it to the Web, and controls field facilities through the Web.

In the present invention, the pressure measuring sensor measures the pressure of the fluid coming out of the on-site pump, the flow measuring sensor measures the flow rate of the fluid coming out of the on-site pump, the water level measuring sensor measures the height of the fluid reservoir storing the fluid, and the current Measuring the load current of the field pump by the measuring sensor; The on-site control panel compares the data value of the on-site pump flow rate from the flow measurement sensor and the pump performance data value from the pressure measurement sensor with the value set by the administrator. If the pump performance is 80% or more, normal, 60% or more 80 % if less than a warning, if less than 60%, the step of forcibly stopping according to the occurrence of an abnormal situation; includes.

The present invention further includes; measuring the height of the fluid reservoir in which the water level sensor stores the fluid over time and automatically adjusting the operating water level of the on-site pump.

The present invention further includes the server collecting field measurement data using wireless communication to the field control panel, transmitting it to the Web, and controlling the field equipment through the Web.

The present invention made as described above can accurately control the pump operation time and the supply time extension time by organic connection between the on-site facility control system and the central control system.

In addition, according to the present invention, it is possible to accurately control the number of starts of the pump according to the change amount of the water level in the fluid reservoir according to the field situation.

In addition, the present invention can optimize the life span and energy consumption of the pump by accurately controlling the number of starts of the pump according to the amount of change in the water level of the fluid reservoir.

In addition, the present invention generates and verifies a scenario of forcibly stopping according to the occurrence of an abnormal situation in the field, so that accurate control is possible according to the field situation.

1 is a view showing a pump control system according to the prior art.
2 is a diagram specifically showing the configuration of an on-site facility control system and a central control system according to an embodiment of the present invention.
3 is a view showing the function of each configuration according to an embodiment of the present invention.
4 is a graph showing a pump operation time point and a supply time extension time point according to another embodiment of the present invention.

In order to fully understand the present invention, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. This example is provided to more completely explain the present invention to those of ordinary skill in the art. Accordingly, the shape of elements in the drawings may be exaggerated to emphasize a clearer description. It should be noted that the same members in each drawing are sometimes shown with the same reference numerals. In addition, detailed descriptions of well-known functions and configurations determined to unnecessarily obscure the gist of the present invention will be omitted.

As shown in FIG. 2 , the present invention is largely divided into a field facility control system 10 and a central control system 20 .

The field facility control system 10 includes a sensor unit 15 and a field control panel 16 .

The sensor unit 15 includes a pressure measuring sensor 11 and a flow measuring sensor 12 coupled to a fluid pipe, a water level measuring sensor 13 coupled to a fluid reservoir, and a current measuring sensor 14 coupled to a field control panel. include

Conventionally, a temperature sensor that measures the effective temperature of the windings and bearings of the motor coil constituting the on-site pump in real time and transmits it to a control panel, and a current meter that measures the current flowing into the on-site pump from the current supply terminal of the on-site pump are electrically However, the present invention divides the pump performance into normal, warning, and forced stop through the measurement of pressure, flow rate, water level, etc., and determines the stop water level, the operating water level, and the low water level according to the status classification for the measured water level information It can be controlled by designating the time of pump operation at the operating water level and the time of extending the supply time at a certain point between the operating water level and the low water level.

3 , the on-site control panel 16 controls the on-site pump by downloading and storing performance data suitable for the on-site pump from the server.

The central control system 20 includes a server 21 having a function of creating, modifying, and deleting performance data sheet values of a plurality of field pumps that can be included in the field control panel 16, and the field control panel 16 and the server 21 ) and the Web (22) having a field facility performance, alarm, monitoring function and field facility control function through mutual communication; includes.

The pressure measuring sensor 11 measures the pressure of the fluid coming out of the on-site pump, the flow measuring sensor 12 measures the flow of the fluid coming out of the on-site pump, and the water level measuring sensor 13 is a fluid reservoir for storing the fluid. The height (stationary water level, operating water level, low water level) is measured, and the current measuring sensor 14 measures the load current of the field pump.

As shown in Fig. 3, the field control panel 16 measures the pressure, flow rate, and current values of the field pump and compares the values of the pump performance data with the values set by the administrator. If the pump performance is 80% or more, it is normal, If it is more than 60% and less than 80%, it is a warning, and when it is less than 60%, it includes an alarm function to forcibly stop according to an abnormal situation.

Alternatively, if the pump performance is 60% or more and less than 80%, it can be transmitted to the server 21 to send an alarm to the manager and to manually control the field equipment through the Web 22 .

In addition, when the pump performance is less than 60%, it is possible to prevent the performance degradation of parts by forcibly stopping according to the occurrence of an abnormal situation.

In order to generate the respective numerical values (80% or more, 60% or more, less than 80%, less than 60%) as an embodiment, the on-site control panel 16 generates an operation scenario based on the actual operation situation of the pump, After executing the driving logic according to the driving scenario based on the driving scenario, the driving logic is finally confirmed based on the execution result.

Because it is possible to operate the pump according to the exact scenario only after the actual pump is operated after installation on site, a certain percentage is entered arbitrarily and at this time, the operation logic written by the engineer is checked to see if it operates as desired.

In addition, the operation logic may be verified by comparing an expected value when the operation logic is normally executed with a result value executed through the pump.

Therefore, as shown in FIG. 4 , even if the performance of each pump is different, it is possible to accurately adjust the pump operation time and the supply time extension time based on the operation scenario.

The on-site control panel 16 measures the amount of water level change (stationary water level, operating water level, low water level) according to time of the fluid reservoir through the sensor unit 15, and when it is above or below the value set by the administrator, pump on/off and It includes a function to alert the alarm.

In addition, as shown in Fig. 4, by measuring the amount of change in the water level according to time in the fluid reservoir, it includes a function of adjusting the operating water level according to the situation and controlling the on-site pump.

The on-site control panel 16 measures the pressure, flow, and current values of the on-site pump through the sensor unit 15 and includes a normal operation diagnosis function of the pump when the pump performance is 80% or more.

The on-site control panel 16 includes a function of comparing the measured data value of the on-site pump with the performance through the sensor unit 15, transmitting it to the server 21 when an abnormal situation occurs, and sending an alarm to the manager.

The server 21 transmits and sets performance data according to the conditions of each field pump using wireless communication to the field control panel 16, collects field measurement data and transmits it to the Web 22, and the Web 22 ) to control field facilities.

Hereinafter, a control method using a pump performance data-based facility control system for carrying out the present invention will be described in detail.

First, the pressure measuring sensor 11 measures the pressure of the fluid coming out of the on-site pump, the flow measuring sensor 12 measures the flow of the fluid coming out of the on-site pump, and the water level measuring sensor 13 is a fluid reservoir for storing the fluid. Measuring the height of the current measurement sensor 14 measures the load current of the field pump.

The on-site control panel 16 measures the pressure, flow, and current values of the on-site pump from the flow measurement sensor 12 and compares the values of the pump performance data with the values set by the administrator so that the pump performance is 80% or more If it is normal, if it is more than 60% and less than 80%, it is a warning, and if it is less than 60%, it is forced to stop according to an abnormal situation.

At this time, the on-site control panel 16 receives an operation scenario based on the actual operation situation of the pump, executes the operation logic according to the operation scenario based on the operation scenario, and then executes the operation logic based on the execution result. It further includes the step of final confirmation by verifying.

In addition, the on-site control panel 16 measures the amount of change in the water level according to time of the fluid reservoir through the sensor unit 15, and when it is above or below the value set by the administrator, the pump on/off and an alarm alarm are performed.

In addition, the on-site control panel 16 measures the amount of change in the water level in the fluid reservoir over time through the sensor unit 15 to adjust the operating water level according to the on-site situation and controls the on-site pump.

In addition, the on-site control panel 16 measures the pressure, flow, and current values of the on-site pump through the sensor unit 15 and drives the pump normally if the pump performance is 80% or more.

In addition, the field control panel 16 compares the measured data value of the field pump with the performance through the sensor unit 15 , and transmits it to the server 21 when an abnormal situation occurs to transmit an alarm to the manager.

Finally, the server 21 transmits and sets performance data according to the conditions of each field pump using wireless communication to the field control panel 16, collects field measurement data and transmits it to the Web 22, (22) to control the on-site equipment.

10: field facility control system
11: pressure measuring sensor
12: flow measurement sensor
13: water level sensor
14: current measuring sensor
15: sensor unit
16: field control panel
20: central control system
21 : Server
22 : Web

Claims (9)

a sensor unit 15 including a pressure measuring sensor and a flow measuring sensor coupled to the fluid pipe, a water level measuring sensor coupled to the fluid reservoir, and a current measuring sensor coupled to the field control panel; A field facility control system (10) comprising: a field control panel (16) for controlling the field pump by downloading and storing the value of performance data suitable for the field pump from the following server;
a server 21 having a function of creating, modifying, and deleting sheet values of performance data of a plurality of field pumps that may be included in the field control panel 16;
A central control system 20 including a Web 22 having a performance, alarm, monitoring function and on-site facility control function of the field facility through mutual communication with the field control panel 16 and the server 21;
The pressure measuring sensor 11 of the sensor unit 15 measures the pressure of the fluid coming out of the on-site pump, the flow measuring sensor 12 measures the flow of the fluid coming out of the on-site pump, and the water level measuring sensor 13 Measuring the height of the fluid reservoir that stores the fluid, the current measuring sensor 14 measures the load current of the field pump, and compares and analyzes the pressure, flow rate, water level, current value and the value of the performance data of the field pump,
The on-site control panel 16 measures the pressure, flow, and current values of the on-site pump through the sensor unit 15 and compares the values of the pump performance data with the values set by the administrator. If the pump performance is 80% or more, it is normal , When it is 60% or more and less than 80%, it is a warning, and when it is less than 60%, it has an alarm function to force stop according to the occurrence of an abnormal situation.
The pump performance is divided into normal, warning, and forced stop by measuring the pressure, flow rate, and water level of the on-site pump through the sensor unit 15, and according to the status classification for the measured water level information, the stop water level, the operating water level, By determining the low water level, the pump operates at the operating water level, and at a certain point between the operating water level and the low water level, the supply time extension time is specified and adjusted.
The on-site control panel 16 receives an operation scenario based on the actual operation situation of the pump to generate each numerical value (80% or more, 60% or more, less than 80%, and less than 60%) of the pump performance, and executes the operation scenario. Pump performance data-based facility control system, characterized in that after executing the operation logic according to the operation scenario as a basis, the operation logic is verified and finalized based on the execution result. delete delete The method according to claim 1,
The on-site control panel 16 measures the amount of water level change over time of the on-site pump through the sensor unit 15 to adjust the operating water level, and when it is above or below the value set by the administrator, pump on/off and alarm alarm A facility control system based on pump performance data, characterized in that it includes a function. The method according to claim 1,
The on-site control panel 16 measures the pressure, flow, and current values of the on-site pump through the sensor unit 15, and if the pump performance is 80% or more, pump performance, characterized in that it includes a normal operation diagnosis function of the pump Data-based facility control system. The method according to claim 1,
The on-site control panel 16 compares the measured data value of the on-site pump with the performance of the pump through the sensor unit 15, and transmits an alarm to the server 21 when an abnormal situation occurs. Pump performance data-based facility control system, characterized in that it comprises. The method according to claim 1,
The server 21,
By using wireless communication to the on-site control panel 16, performance data is transmitted and set according to the conditions of each on-site pump, collected on-site measurement data is transmitted to the Web 22, and the on-site facility is accessed through the Web 22 Pump performance data-based facility control system, characterized in that to control. delete delete

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