KR20170119084A - Motor protection relay and method of driving the same - Google Patents

Abstract

In order to provide a motor protection relay capable of preventing a motor protection relay from being damaged by a high temperature, the present invention provides a motor protection relay comprising: a CT unit for detecting a current flowing in the motor; And a temperature sensor for detecting an internal temperature of the motor protection relay. The MCU compares the reference temperature with the detected temperature detected by the temperature sensor, And generates an alarm signal when the detected temperature is higher than the reference temperature, and a driving method thereof.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a motor protection relay,

The present invention relates to a motor protection relay, and more particularly, to a motor protection relay capable of preventing a motor protection relay from being damaged by a high temperature.

In general, a motor protection relay is a device that functions to reliably protect the motor by accurately detecting the overcurrent, phase, phase unbalance, and reverse phase generated during start and operation of the motor by the set operation time.

The motor protection relay as described above converts the current of the motor through a current transformer and outputs the converted output. When the converted output value is abnormal, the relay is driven to open the closing contact to disconnect the power supplied to the motor through the closing contact Thereby preventing and protecting the motor from being burned.

In recent years, factory automation systems have been actively developed in various industrial fields. As a result, the line control becomes electronic by motor drive. Therefore, the devices for motor protection are added to the importance, diversification and high function of products, have.

On the other hand, a plurality of circuit elements are included in the motor protection relay, and when the motor protection relay is driven, the temperature inside the motor protection relay may be raised due to heat generation of these circuit elements.

At this time, if the temperature inside the motor protection relay exceeds the limit temperature, the motor protection relay is damaged, and as a result, the motor can not be normally driven, which may damage the motor.

The present invention provides a motor protection relay and a method of driving the same that can prevent damage to the motor protection relay due to high temperature when the temperature inside the motor protection relay exceeds the limit temperature For that purpose.

According to another aspect of the present invention, there is provided a motor protection relay comprising: a CT unit for detecting a current flowing in a motor; and an MCU for performing a relay operation of the motor protection relay if the detected current detected by the CT unit is greater than a reference current. The MCU unit compares the reference temperature with the detected temperature detected by the temperature sensor. When the detected temperature is higher than the reference temperature, the MCU unit compares the reference temperature with the detected temperature detected by the temperature sensor, Lt; / RTI >

The MCU unit performs the relay operation of the motor protection relay when the detected current is smaller than the reference current and the detected temperature is higher than the reference temperature.

In addition, a plurality of capacitors are provided inside the motor protection relay, and the temperature sensor detects the temperature of each capacitor.

The MCU compares the reference temperature with the detection temperature of each capacitor, and generates an alarm signal if any of the detection temperatures of the capacitors is greater than the reference temperature.

The apparatus further includes an AC-DC converter that changes the detected temperature detected by the temperature sensor from an analog signal to a digital signal.

The MCU unit includes a temperature comparator that receives a digital signal of the detected temperature from the AC-DC converter and compares the digital signal with a reference temperature, and a controller that generates an alarm signal when the temperature detected by the temperature comparator is greater than a reference temperature do.

The alarm signal is a time signal or an acoustic signal.

The present invention also provides a method of driving a motor protection relay, comprising the steps of: detecting a current flowing through a motor by a CT unit; detecting an internal temperature of the motor protection relay by a temperature sensor; Comparing the detected temperature detected by the temperature sensor with a reference temperature to generate an alarm signal if the detected temperature is greater than the reference temperature; and performing the relay operation of the motor protection relay when the detected temperature is greater than the reference current, As shown in FIG.

The present invention can prevent damage to the motor protection relay by generating an alarm signal when the temperature inside the motor protection relay exceeds the limit temperature and prevent damage to the motor due to malfunction of the motor protection relay .

1 is a block diagram of a motor protection relay according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating the MCU unit of FIG. 1;
3 is a view showing a temperature sensor disposed inside a motor protection relay according to an embodiment of the present invention.
4 is a driving sequence diagram of a motor protection relay according to an embodiment of the present invention.

The above and other objects, features, and advantages of the present invention will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings, which are not intended to limit the scope of the present invention. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to denote the same or similar elements.

FIG. 1 is a block diagram of a motor protection relay according to an embodiment of the present invention. FIG. 3 is a view illustrating an MCU unit of FIG. 1. FIG. Fig.

1, a motor protection relay 100 according to an embodiment of the present invention includes a CT (Current Transformer) unit 120 for detecting a current flowing in a motor, a motor protection relay 100, A microcontroller unit (MCU) 140 for performing a relay operation of the motor protection relay 100, and a temperature sensor 110 for detecting an internal temperature of the motor protection relay 100.

Although not shown in the drawings, the apparatus further includes an input end (not shown) for receiving a trip signal from the outside and an output terminal (not shown) for outputting the trip signal to the motor through the input / output port.

Specifically, the CT unit 120 detects the current flowing through the motor at a predetermined time interval (for example, 1 ms intervals).

If the detected current detected by the CT unit 120 is smaller than the reference current, the MCU unit 140 supplies power from the power source unit (not shown) to the motor to drive the motor. If the detected current is larger than the reference current The relays of the motor protection relay 100 are performed to stop the motor drive, thereby protecting the motor from the fault current.

At this time, the reference current is a maximum current that is not damaged by the motor, and is input to the MCU unit 140 in advance by the user.

Meanwhile, a plurality of circuit elements are included in the motor protection relay 100, and the temperature inside the motor protection relay 100 can be raised due to heat generation of the circuit protection elements 100 when the motor protection relay 100 is driven.

At this time, when the temperature inside the motor protection relay 100 exceeds the limit temperature, a plurality of circuit elements disposed inside the motor protection relay 100 are damaged, and as a result, the motor can not be normally driven, .

Accordingly, the MCU unit 140 of the motor protection relay 100 according to the embodiment of the present invention compares the reference temperature with the detection temperature detected by the temperature sensor 110. If the detection temperature is higher than the reference temperature, the MCU unit 140 generates an alarm signal Thereby allowing the user to take subsequent actions. This makes it possible to protect the motor.

Here, the alarm signal includes an acoustic signal and a visual signal.

Meanwhile, a fan (not shown) may be provided in the motor protection relay 100 at the same time as an alarm signal is generated, and the fan (not shown) may be driven to cool the inside of the motor protection relay 100.

At this time, the motor protection relay 100 may further include an output current circuit unit (not shown) for outputting an output current for driving the fan (not shown).

The MCU unit 140 performs the relay operation of the motor protection relay 100 when the detected current is larger than the reference current and when the detected current is smaller than the reference current and the detected temperature is larger than the reference temperature.

That is, when the temperature inside the motor protection relay 100 exceeds the reference temperature, the MCU unit 140 performs the relay operation of the motor protection relay 100 when the fault current does not flow to the motor, Thereby preventing damage to the motor due to malfunction of the motor protection relay 100. [

If the fault current flows in the motor, the motor protection relay 100 is already performing the relay operation. Therefore, even if the temperature inside the motor protection relay 100 exceeds the reference temperature, It is not necessary to perform the relay operation.

At this time, of course, an alarm signal is generated, and the alarm signal is notified to the user.

Specifically, as shown in FIG. 2, the MCU unit 140 includes a temperature comparator 141 for comparing the reference temperature with the detected temperature, and a controller 143 for generating an alarm signal.

At this time, the reference temperature is the maximum temperature at which the circuit elements inside the motor protection relay 100 are not damaged, and is input to the temperature comparator 141 in advance by the user.

Also, the detected temperature is the internal temperature of the motor protection relay 100 detected through the temperature sensor 110.

The temperature sensor 110 may be disposed at a position adjacent to a circuit element susceptible to high temperature among the circuit elements inside the motor protection relay 100 to detect the temperature of the circuit element.

For example, the temperature sensor 110 may be disposed at a position adjacent to the plurality of capacitors included in the motor protection relay 100 to detect the temperature of each of the capacitors.

At this time, the reference temperature is compared with the detection temperature of each of the capacitors, and an alarm signal is generated if any one of the detection temperatures of the capacitors is larger than the reference temperature.

3, the temperature sensor 110 may be disposed at each of the corners and the center of the motor protection relay 100 so as to detect the temperature of each part of the motor protection relay 100 have.

If the detected temperature is lower than the reference temperature, the controller 143 supplies the driving current to the motor. If the detected temperature is higher than the reference temperature, the controller 143 generates an alarm signal.

In addition, the motor protection relay 100 according to the embodiment of the present invention includes the AC-DC converter 130. At this time, the AC-DC converter 130 changes the detection current detected by the CT unit 120 and the detection temperature detected by the temperature sensor 110 from an analog signal to a digital signal, respectively, .

At this time, the temperature comparator 141 receives the digital signal of the detected temperature from the AC-DC converter 130, and compares the detected temperature with the reference temperature.

Although not shown in the figure, a temperature display unit (not shown) for displaying a reference temperature input unit (not shown), which allows the user to input and set the reference temperature, and a reference temperature, As shown in FIG.

At this time, when a plurality of temperature sensors are arranged so that a plurality of detected temperatures are present, the temperature display unit (not shown) can display the maximum value thereof.

4 is a driving sequence diagram of a motor protection relay according to an embodiment of the present invention.

Hereinafter, a method of driving the motor protection relay 100 according to the embodiment of the present invention will be described with reference to FIGS. 1 to 4. FIG.

The driving method of the motor protection relay 100 according to the embodiment of the present invention includes a step S110 of detecting the current flowing in the motor by the CT unit 120 and a step S110 of detecting the current flowing in the motor by the motor protection relay 100, (S120) of detecting the internal temperature of the motor protection relay 100 by the temperature sensor 110 and performing a relay operation of the motor protection relay 100 if the detected current detected by the CT unit 120 is larger than the reference current Comparing the detected temperature detected by the temperature sensor 110 with the reference temperature, and generating an alarm signal if the detected temperature is greater than the reference temperature (S140).

As shown in the figure, first, after detecting the current flowing in the motor and the internal temperature of the motor protection relay 100, if the detected current is larger than the reference current, the relay operation is performed. If the detected current is smaller than the reference current, And compares the detected temperature with the reference temperature.

At this time, the reference current is the maximum current at which the motor is not damaged, and the reference temperature is the maximum temperature at which the circuit elements inside the motor protection relay 100 are not damaged.

If the detected temperature is lower than the reference temperature, the controller returns to the first step and detects the current flowing through the motor and the internal temperature of the motor protection relay 100. If the detected temperature is higher than the reference temperature, .

Here, the alarm signal includes an acoustic signal and a visual signal.

Meanwhile, a fan (not shown) may be provided in the motor protection relay 100 at the same time as an alarm signal is generated, and the fan (not shown) may be driven to cool the inside of the motor protection relay 100.

Next, the user can perform the relay operation of the motor protection relay 100 by the alarm signal.

In summary, when the detected current is larger than the reference current, when the detected current is smaller than the reference current, and when the detected temperature is larger than the reference temperature, the relay operation of the motor protection relay 100 is performed.

That is, when the temperature inside the motor protection relay 100 exceeds the reference temperature although the fault current does not flow to the motor or the fault current flows to the motor, the motor protection relay 100 performs the relay operation respectively, Thereby preventing the motor from being damaged due to malfunction of the protection relay 100.

On the other hand, even if the detection current is smaller than the reference current, that is, even if the fault current flows to the motor and the relay operation of the motor protection relay 100 is performed, the internal temperature of the motor protection relay 100 may exceed the reference temperature .

Therefore, the method of driving the motor protection relay 100 according to the embodiment of the present invention performs a step of comparing the detection temperature with the reference temperature even if the motor protection relay 100 performs the relay operation.

At this time, if the detected temperature is lower than the reference temperature, it returns to the first step and detects the current flowing through the motor and the internal temperature of the motor protection relay 100. If the detected temperature is higher than the reference temperature, .

If the fault current flows in the motor, the motor protection relay 100 is already performing the relay operation. Therefore, even if the temperature inside the motor protection relay 100 exceeds the reference temperature, It is not necessary to perform the relay operation.

The temperature sensor 110 for detecting the temperature inside the motor protection relay 100 is disposed at a position adjacent to the circuit element vulnerable to high temperature among the circuit elements inside the motor protection relay 100 to detect the temperature of the circuit element can do.

For example, the temperature sensor 110 may be disposed at a position adjacent to the plurality of capacitors provided in the motor protection relay 100 to detect the temperature of each of the capacitors.

At this time, the reference temperature is compared with the detection temperature of each of the capacitors, and an alarm signal can be generated if any one of the detection temperatures of the capacitors is larger than the reference temperature.

Alternatively, the temperature sensor 110 may be disposed at each of the corners and the center of the motor protection relay 100 to detect the temperature of each part of the motor protection relay 100.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, But the present invention is not limited thereto.

100: Motor protection relay
110: Temperature sensor
120: CT section
130: AC-DC converter
140: MCU unit

Claims (10)

In a motor protection relay,
A CT unit for detecting a current flowing in the motor;
An MCU unit for performing a relay operation of the motor protection relay if the detected current detected by the CT unit is greater than a reference current; And
And a temperature sensor for detecting an internal temperature of the motor protection relay,
Wherein the MCU compares a reference temperature with a detection temperature detected by the temperature sensor and generates an alarm signal when the detection temperature is greater than the reference temperature.
The method according to claim 1,
The MCU unit,
And performs the relay operation of the motor protection relay when the detection current is smaller than the reference current and the detection temperature is higher than the reference temperature.
3. The method of claim 2,
The motor protection relay includes a plurality of capacitors, and the temperature sensor detects the temperature of each of the capacitors.
The method of claim 3,
The MCU unit,
Compares the reference temperature with the detection temperature of each of the capacitors, and generates an alarm signal when any of the detection temperatures of the capacitors is greater than the reference temperature.
5. The method of claim 4,
An AC-DC converter for changing the detected temperature detected by the temperature sensor from an analog signal to a digital signal;
And a motor protection relay.
6. The method of claim 5,
The MCU unit,
A temperature comparator receiving the digital signal of the detected temperature from the AC-DC converter and comparing the received digital signal with the reference temperature; And
And a controller for generating the alarm signal when it is determined by the temperature comparator that the detected temperature is greater than the reference temperature,
The motor protection relay comprising:
The method according to claim 6,
Wherein the alarm signal is a time signal or an acoustic signal.
A method of driving a motor protection relay,
Detecting a current flowing in the motor by the CT unit;
Detecting an internal temperature of the motor protection relay by a temperature sensor;
Performing a relay operation of the motor protection relay if the detected current detected by the CT unit is larger than the reference current; And
Comparing the detected temperature detected by the temperature sensor with a reference temperature, and generating an alarm signal if the detected temperature is greater than the reference temperature
Wherein the motor protection relay is a motor protection relay.
9. The method of claim 8,
And performing the relay operation of the motor protection relay when the detected current is smaller than the reference current and the detected temperature is larger than the reference temperature.
10. The method of claim 9,
A plurality of capacitors are provided in the motor protection relay,
Compares the reference temperature with the detection temperature of each of the capacitors, and generates an alarm if any one of the detection temperatures of the capacitors is greater than the reference temperature.

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