KR101761837B1 - The control method of pump burn-out damage and sensing damage - Google Patents

Abstract

The present invention relates to a method for controlling the burn-out of a pump and a method for controlling the risk of a pump which stops the operation of the pump in order to prevent burn-out of the pump when the current value and the temperature of the pump are measured in real-
Conventionally, since the maintenance of the pump installed inside or in the water pipe becomes very difficult to manage, it has been demanded in the field practice to prevent the failure of the pump in advance.
In order to solve this problem, the present invention provides a control method of a pump including a temperature sensor on one side of a pump, a current measuring device electrically connected to a current supply terminal of the pump, and a relay for shutting off an overcurrent, And a current measuring unit for converting the measured value from the signal converting unit into data, and comparing the measured value with a set value including a temperature and a limit current value of a stored temperature / current correlation table in advance through a calculating unit, The current correlation table is a data table in which the limit current value per temperature is stored at a constant temperature at a certain temperature. When the temperature of the pump is higher than the limit temperature value, the control panel immediately stops When the temperature of the pump is within a certain range, the temperature / The limit current value of the correlation table is specified and a stop signal for stopping the operation of the pump is generated in order to prevent burn-out of the pump when the current value converted by the control unit and measured by the pump is larger than the limit current value We propose a method to control the burnout and risk detection of the pump.
The method of controlling the burn-out and the risk of the pump according to the present invention is to control the current value and the temperature of the pump in real time and to stop the operation of the pump in order to prevent burn- There is an advantage that it can be prevented in advance. In addition, the present invention detects the excessive operation of the pump in order to maintain the load source of the pipe broken through the detected current value and the temperature value, and predicts the pipe breakage, thereby improving the maintenance convenience of the water pipe have.

Description

[0001] The present invention relates to a method of controlling a pump,

The present invention relates to a method of controlling a pump used in piping. More particularly, in the case where a current value transmitted to a pump and a temperature of the pump are measured in real time and a preset stability range is exceeded, And a method for controlling the risk detection.

Particularly, the present invention takes a long time to detect the breakage of the pipeline from the outside in case of breakage of the pipeline, and it is possible to prevent the pump from being burned in advance by sensing that the pump is excessively operated to maintain the load source of the broken pipeline .

Generally, in a water piping system, a pump is used to transfer the fluid, which is divided into a rectification system and a hydraulic system.

In the rectifier system, the entire flow rate is always supplied regardless of the variation of the load through the pump, and the flow rate supplied from the pump changes at any time according to the load variation in the oil flow rate system. In particular, the variable-flow system uses a variable-speed pump to control the number of revolutions or a number of pumps to control the number of revolutions.

The variable volume control apparatus of the conventional variable volume control system "Variation amount control apparatus and control method of booster pump system" (Patent Registration No. 10-1131394) uses a lead pump and a lag pump installed in parallel, The fluid pressure of the discharge pipe was controlled by controlling the electric frequency supplied to the lead pump according to the fluid pressure of the discharge pipe.

However, in the conventional oil-flow control system, the variation of 40 to 100% of the required load due to the characteristics of the pump is relatively high even when the inverter is used to control the amount of oil, but when the load is reduced to 40% There is a problem in that energy loss is large because the performance of the pump suddenly falls and the operation of the pump is stopped or the surplus flow rate is bypassed by the whole amount.

On the other hand, a relay (relay) is used to control the overcurrent flowing in the pump.

The relay means an electric switch that divides the circuit into two parts in the electric circuit and controls the operation of the other circuit according to the signal. The relay includes an electromagnet, a spring, and a terminal.

However, since the relay only plays a role of turning on or off the switch according to the preset voltage and current, there is a problem that the relay can not cope with a situation change (for example, a high temperature of the pump).

Particularly, when foreign matter adheres to the impeller of the pump, the amount of motor current rapidly increases, the temperature of the motor winding (coil) rises, and when the resistance of the load source becomes small due to breakage of the channel, There is a problem that the amount of motor current increases.

Furthermore, since the maintenance of the pump installed inside the water pipe or in the water becomes very difficult to manage, it has been urgently required in the field practice to prevent the failure of the pump in advance.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to solve the above problems by providing a pump disconnection device for stopping the operation of a pump in order to prevent a burnout of the pump when the current value and the temperature of the pump are measured in real- And a risk detection control method.

In addition, the present invention detects the excessive operation of the pump in order to maintain the load source of the damaged pipeline and stops the operation of the pump, thereby extending the service life of the pump and preventing pump accident and danger detection There are other purposes in providing a control method.

The method for controlling the burn-out and the risk of the pump according to the present invention is characterized in that a temperature sensor is provided on one side of the pump, a current measuring device is electrically connected to the current supply terminal of the pump, and a relay for interrupting the over- , The control panel converts the measured value transferred from the temperature sensor and the current measuring device into data from the signal converting section and compares the measured value with the set value consisting of the temperature and the limit current value of the stored temperature / The temperature / current correlation table is a data table in which a limit current value for each temperature is stored at a constant temperature at a predetermined temperature. When the temperature of the pump is equal to or higher than the limit temperature value, And if the temperature of the pump is within a certain range, the calculated temperature And a stop signal for stopping the operation of the pump is generated in order to prevent burn-out of the pump when the current value converted from the control panel measured by the pump is larger than the limit current value As a technical feature.

The method of controlling the burn-out and the risk of the pump according to the present invention is to control the current value and the temperature of the pump in real time and to stop the operation of the pump in order to prevent burn- There is an advantage that it can be prevented in advance.

In addition, the present invention detects the excessive operation of the pump in order to maintain the load source of the pipe broken through the detected current value and the temperature value, and predicts the pipe breakage, thereby improving the maintenance convenience of the water pipe have.

FIG. 1 is a block diagram of a method for controlling a pump burnout and a risk detection according to the present invention.
FIG. 2 is a block diagram showing the operation of the control panel of FIG. 1;
FIG. 3 is a graph of power according to the flow rate and pressure of the water pipe,
4 is a flow chart of a method for controlling pump burnout and risk detection according to the present invention.

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

As shown in FIG. 1, the method for controlling the pump burnout and the danger detection according to the present invention includes a pump 100 for operating the load source 300, and a controller 100 for measuring the temperature of the pump 100 in real time, And a current measuring unit 130 for measuring the current flowing into the pump 100 and delivering the measured current to the control panel.

2, the control panel 200 receives the current value and the current value from the temperature sensor 120 and the current meter 130 through the signal converter 210 and the calculator 220, And to prevent the pump 100 from being burned if the calculated current value and the temperature value are greater than preset values (limit temperature value or limit current value) stored in advance in the storage unit 230 A stop signal for stopping the operation of the pump is generated.

In the general pump 100, the relay 110 for blocking the overcurrent is already provided. However, since the relay 110 only blocks the flow of more than a predetermined current value when the pump is turned on / off, Since the starting current flows 4 to 12 times the rated current at the time of starting the pump, the relay 110 prevents the flow of more than the starting current. Therefore, the rated current is lower than the starting current but the rated current If it is above current, it can not be controlled.

In other words, in the piping system, the load circle 300 as shown in the power graph of Figure 3, - -, the pressure P ₂ the flow rate Q _2, the power '①' is required, and "flow rate Q ₁ the pressure P ₁ ' The power is ②.

However, since the pressure in the pipe is high the flow rate is reduced, and when the flow rate increases reduces the pressure in the piping, and to use the power, such as a pump 100 in order to adjust this, the usual case the flow rate Q ₁ and pressure P ₁ , The motor is suitable to maintain the power '②' due to the breakage of the channel, etc., so that the overcurrent exceeding the rated current flows to increase the risk of motor burnout.

In order to solve the problems of the related art, the present invention is characterized in that a temperature sensor (not shown) for measuring the temperature of the pump 100 during operation in order to operate the load source 300 on one side of the pump 100, A current meter 130 for measuring a current flowing into the pump 100 and transmitting the current to the control panel 200 is electrically connected to the current supply terminal of the pump 100, When the current value and the temperature value transmitted from the temperature sensor 120 and the current meter 130 are greater than preset values, a stop signal for stopping the operation of the pump 100 is generated .

2, the controller 200 controls the signal converter 210 to convert the current and the temperature of the analog state transmitted from the temperature sensor 120 and the current meter 130, And compares the temperature value and the current value in the digital state with the stored temperature / current correlation table value stored in advance in the storage unit 230 through the operation unit 220, And to selectively control the operation.

That is, the temperature / current correlation table is a data table in which a limit current value for each temperature is stored at predetermined intervals at a constant temperature. In the control panel 200, when the temperature of the pump 100 is within a predetermined range, And determines whether to generate a stop signal by comparing the limit current value with the current value measured by the pump 100 and converted in the control panel 200. [

For simplicity, the temperature / current correlation table can be divided into units of 10 degrees as shown in [Table 1] below. In order to ensure stability of operation, the temperature / current correlation table is divided into upper limit temperature It is preferable to apply.

Pump temperature Limit current value ... ... 50 Rated current * 1.7 60 Rated current * 1.6 70 Rated current * 1.5 80 Rated current * 1.4 ... ...

[Example of temperature / current correlation table]

The rated current is determined in advance according to the specifications of the pump. Generally, the temperature / current correlation table is created based on the occurrence of pump burnout when the motor constituting the pump has a rated current of 1.5 to 1.8 times or more. The star limit current value can be changed according to the specifications of the pump.

At this time, when the temperature of the pump 100 rises, the risk of pump burnout becomes higher, so the limit current value should be set to a low value.

When the temperature of the pump 100 is equal to or higher than the threshold temperature value, a stop signal is immediately generated irrespective of the measured current value to prevent the pump from burning down.

In another embodiment of the present invention, when a stop signal is generated in the control panel 200, the temperature and current values of the current pump and the stop signal of the current smartphone 500 of the manager, which are stored in advance through the communication module 400, And the state information including the occurrence time is transmitted as a character.

At this time, the communication module does not distinguish between wireless communication and wired communication, and the technical matters therefor are general matters in the field, so a detailed description will be omitted.

The operation steps of the control panel 200 of the present invention will be described below with reference to the flowchart of FIG.

When the motor driving the pump 100 is operated (S10), the temperature sensor 120 measures the current temperature of the pump 100 (S10), and the measured temperature is converted into a temperature value by the signal converter 210 .

The operation unit 220 compares the converted temperature value with the limit temperature value Tr at step S30. If the temperature value is equal to or higher than the limit temperature value, the operation of the pump 100 and the motor is immediately stopped at step S60. And transmits the status information to the phone 500 (S70).

If the temperature value is lower than the threshold temperature value, the current measuring unit 130 measures the current flowing into the current supply terminal of the pump 100 (S40), and the measured current is measured by the signal converting unit 210 .

The operation unit 220 compares the converted current value with the limit current value Ir corresponding to the temperature value measured on the temperature / current correlation table in operation S50. If the current value is greater than the limit current value, The operation of the motor S60 is stopped, and the status information is transmitted to the manager's smartphone 500 (S70).

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. will be.

100: Pump 110: Relay
120: Temperature sensor 130: Current meter
200: Control panel 300: Load circle
400: communication module 500: smart phone

Claims (4)

A control method of a pump provided with a temperature sensor on one side of a pump, a current measuring device electrically connected to a current supply terminal of the pump, and a relay for shutting off an overcurrent,
The controller 200 converts the measured values transmitted from the temperature sensor 120 and the current meter 130 into data in the signal converting unit 210 and stores the data in advance in the storage unit 230 through the calculating unit 220 And a set value consisting of a temperature and a limit current value of the temperature / current correlation table,
The temperature / current correlation table is a data table in which a limit current value for each temperature is stored at a constant temperature at a constant temperature. When the temperature of the pump 100 is equal to or higher than the limit temperature value, Generates a stop signal immediately regardless of the measured current value,
When the temperature of the pump 100 is within a predetermined range, the limit current value of the temperature / current correlation table is specified according to the calculated temperature value, and the current value converted by the control panel 200, And generates a stop signal for stopping the operation of the pump in order to prevent the pump (100) from being burned if the current value is greater than the limit current value.
The method according to claim 1,
When a stop signal is generated in the control panel 200, status information including the temperature and current value of the current pump and the stop signal generation time is written in the smartphone 500 of the administrator, which is stored in advance through the communication module 400, And the pump is discharged and the risk is detected and controlled.
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