KR102465471B1 - Relay and the operating method - Google Patents

Abstract

The present invention provides a current measuring unit for measuring current, a breaker operating unit for turning on a circuit breaker so that the current is supplied to the motor, and when the current is supplied to the motor, the current measuring unit operates to operate the highest current supplied to the motor A first current value measured at a first point in time when is measured and a second current value measured at a second point in time after a predetermined time has elapsed since the first point in time are received, and the current is generated based on the first and second current values. Provided is a relay including a control unit for controlling the circuit breaker operating unit so that the circuit breaker is turned off when it is determined that the overcurrent is operated.

Description

Relay and its operating method

The present invention relates to a relay and an operating method thereof, and more particularly, to a relay and an operating method thereof, in which it is easy to determine whether a current supplied to a motor is an overcurrent in an initial starting section of the motor.

In general, a rotor restraint relay (hereinafter, referred to as a "relay") is a motor protection relay and detects an overcurrent due to a failure in the operation of the motor and the restraint of the rotor of the motor, and can block the supply of the overcurrent to the motor.

The relay generates a delay by the motor starting time to block the initial starting current supplied within the motor initial starting time from being supplied as an overcurrent.

At this time, the relay compares the current with the set lock set value that determines whether the motor starts abnormally and the stall set value that determines whether the motor is normally started during motor operation immediately after delay is given as much as the motor start time. , it is possible to control the circuit breaker supplied to the motor by judging whether the motor is normal or not.

Recently, research on relays to determine possible overcurrents within the initial start-up time of the motor is under way.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a relay and an operating method thereof, which facilitates determining whether the current supplied to the motor is overcurrent in the initial starting period of the motor.

The relay according to the present invention includes a current measuring unit for measuring current, a breaker operating unit for turning on a circuit breaker so that the current is supplied to the motor, and when the current is supplied to the motor, the current measuring unit is operated and supplied to the motor A first current value measured at a first time point at which the highest current is measured and a second current value measured at a second time point elapsed by a predetermined time after the first time point are transmitted, and based on the first and second current values When it is determined that the current is overcurrent, a control unit for controlling the circuit breaker operation unit to turn off the circuit breaker may be included.

The current measuring unit may be a coil-type current transformer (CT).

The control unit is a comparator for comparing the first and second current values. When the second current value is greater than the first current value, or the second current value is the same as the first current value, the current may include a determination unit determining the overcurrent, and an operation control unit controlling the circuit breaker operation unit to turn off the circuit breaker when the current is determined as the overcurrent.

The determination unit may determine that the current is not the overcurrent when the second current value is less than the first current value.

The first time point may be a time point when a set time has elapsed from a time point when the current is first supplied to the motor.

The operation method of the relay according to the present invention comprises the steps of supplying a current to the motor by turning on a circuit breaker, measuring a first current value for the current at a first time when a set time has elapsed from the time when the current is first supplied step, measuring a second current value for the current at a second time point after a predetermined time has elapsed from the first time point, determining whether the current is an overcurrent based on the first and second current values, and the current is When the overcurrent is confirmed, the method may include controlling the circuit breaker to be turned off.

The checking step includes comparing the first and second current values, determining whether the second current value is equal to or greater than the first current value, and when the second current value is equal to or greater than the first current value, the current It may include the step of confirming the overcurrent.

The method of operating the relay according to the present invention further includes, if the second current value is not equal to or greater than the first current value, confirming that the current is not the overcurrent, and controlling the circuit breaker to maintain the turn-on operation. can do.

The relay and its operating method according to the present invention can prevent damage to the motor before the motor is actually driven by determining whether or not overcurrent is present based on a current value measured by measuring the current supplied to the motor when the motor is initially started. And there is an advantage that can improve the reliability of the power system.

1 is a control block diagram showing a control configuration of a relay according to the present invention.
Figure 2 is a graph showing the current value measured in the relay according to the present invention.
3 is a flowchart illustrating an operation method of a relay according to the present invention.

Hereinafter, the relay related to the present invention and its operating method will be described in detail with reference to the drawings. The suffix "module" or "part" for components used in the following description is given or mixed in consideration of only the ease of writing the specification, and does not have a meaning or role distinct from each other by itself.

1 is a control block diagram showing a control configuration of a relay according to the present invention.

Referring to FIG. 1 , the relay 100 may include a circuit breaker operation unit 120 , a current measurement unit 140 , and a control unit 160 .

The circuit breaker operation unit 120 turns on the circuit breaker 110 disposed between the motor M and the motor driving unit (not shown) that supplies the current I to the motor M to turn on the current I to the motor M. ), or by turning off the current (I) supplied to the motor (M) can be cut off.

That is, the circuit breaker operation unit 120 may supply or block the current I by turning on and off the circuit breaker 110 .

The current measuring unit 140 measures the current value I_M for the current I in the power line (not shown) formed between the motor M and the circuit breaker 110 or between the circuit breaker 110 and the motor driving unit. can

At this time, the current measuring unit 140 may be a coil-type CT (Current Transformer), but is not limited thereto.

When the motor M is initially started under the control of the controller 160 , the current measuring unit 140 is a current supplied at a first point in time when a set time has elapsed from a point in time when the current I is first supplied to the motor M By measuring (I), the first current value I_M1 may be output to the controller 160 .

Here, the first time point is a time point at which the highest current is measured when the motor M is initially started, and may be a time point that is usually averaged for each product.

Thereafter, the current measuring unit 140 measures the current I supplied to the motor M at a second time point after a predetermined time has elapsed from the first time point and outputs a second current value I_M2 to the controller 160 . can do.

In the embodiment, the current measuring unit 140 outputs only the first and second current values I_M1 and I_M2, but the current value may be repeatedly output at the predetermined time interval, and the control unit 160 controls The current value may be output in real time according to the present invention, but the present invention is not limited thereto.

The control unit 160 may include a comparison unit 162 , a determination unit 164 , and an operation control unit 166 .

Here, when the first and second current values I_M1 and I_M2 measured by the current measuring unit 140 are sequentially input to the comparator 162, the second current value I_M2 is higher than the first current value I_M1. can be compared to each other.

The determination unit 164 may determine whether the current I supplied to the motor M at the second time point is overcurrent according to the comparison result of the comparison unit 162 .

That is, when the second current value I_M2 is greater than the first current value I_M1 or the second current value I_M2 is the same as the first current value I_M1, the determination unit 164 determines the current I ) can be determined as the overcurrent.

Also, when the second current value I_M2 is smaller than the first current value I_M1 , the determination unit 164 may determine that the current I is not the overcurrent.

The operation control unit 166 may control the circuit breaker operation unit 120 to turn off the circuit breaker 11 or maintain the turn-on operation according to the determination result of the determination unit 164 .

That is, when the determination unit 164 determines that the current I is the overcurrent, the operation control unit 166 turns off the circuit breaker 110 so that the current I supplied to the motor M is cut off. The circuit breaker operation unit 120 can be controlled.

In addition, when the operation control unit 166 determines that the current I is not the overcurrent as a result of the determination of the determination unit 164 , the circuit breaker 110 turns on so that the current I supplied to the motor M is maintained. It is possible to control the circuit breaker operation unit 120 to maintain

At this time, when the operation control unit 166 controls the circuit breaker operation unit 120 to maintain the turn-on operation of the circuit breaker 110 , the current I supplied from the current measurement unit 140 to the motor M is measured in real time. One current value (I_M) can be input.

The operation controller 166 may determine that the current I is normally supplied when the current value I_M is lower than the set reference current value.

However, when the current value I_M is higher than the reference current value, the operation control unit 166 determines that the current I is the overcurrent and controls the circuit breaker operation unit 120 to turn off the circuit breaker 110. have.

Figure 2 is a graph showing the current value measured in the relay according to the present invention.

Figure 2 (a) is a timing diagram showing a current value (I_M) showing a case in which the current (I) supplied to the motor (M) is normal, Figure 2 (b) is the current (I) supplied to the motor (M) It is a graph showing the current value (I_M) showing the case where it is determined as overcurrent.

That is, referring to Figure 2 (a), the relay 100 is the current (I) using the current value (I_M) measured in the initial starting section (S1) and the normal operation section (S2) of the motor (M) You can check whether it is normal or not.

The initial starting section S1 may be a section in which the motor M is driven for a predetermined time from the point in time when the current I is supplied to the motor M, but does not generate power.

That is, the initial starting section (S1) may be a section in which the state of the motor (M) can be checked, and the relay 100 is the highest current value (I_MH) among the current values (I_M) shown in the initial starting section (S1). The time period to be measured is set, and the first current value I_M1 among the current values I_M may be measured at a first time point t1 when the time period has elapsed.

Thereafter, the relay 100 may measure a second current value I_M2 among the current values I_M at a second time point t2 that has elapsed a predetermined time from the first time point t1 .

Since the second current value (I_M2) of the relay 100 is lower than the first current value (I_M1), the relay 100 determines that the current (I) is not an overcurrent, and a normal operation period (S2) from the second time point (t2) and later to measure the current value (I_M) in real time.

At this time, when the current value (I_M) measured in the normal operation section (S2) is lower than the set reference current value (I_S), the relay 100 may determine that the motor (M) is operating normally.

Here, the initial starting section S1 may have a variable section time, but is not limited thereto.

Referring to FIG. 2(b), the relay 100 determines whether the current I is normal using the current value I_M measured in the initial starting section S1 and the normal operation section S2 of the motor M. can be checked.

The initial starting section S1 may be a section in which the motor M is driven for a predetermined time from the point in time when the current I is supplied to the motor M, but does not generate power.

That is, the initial starting section S1 may be a section in which the state of the motor M can be checked, and the present invention is not limited thereto.

At this time, the relay 100 is set for a time period in which the highest current value (I_M) is measured among the current values (I_M) shown in the initial starting period (S1), and the current at the first time point (t1) when the time period has elapsed A first current value I_M1 among the values I_M may be measured.

Thereafter, the relay 100 may measure a second current value I_M2 among the current values I_M at a second time point t2 that has elapsed a predetermined time from the first time point t1 .

Since the second current value (I_M2) is higher than the first current value (I_M1), the relay 100 determines that the current (I) is an overcurrent, and turns off the circuit breaker 110 from the second time point (t2). to block the current (I) from being supplied to the motor (M).

That is, the relay 100 determines that the current (I) increases due to an abnormality of the motor (M), and may block the current (I) to prevent damage to the motor (M).

3 is a flowchart illustrating an operation method of a relay according to the present invention.

Referring to FIG. 3 , the circuit breaker operation unit 120 of the relay 100 turns on the circuit breaker 110 to supply a current I to the motor M ( S210 ).

Then, the current measuring unit 140 is the current (I) at a first time point (t1) at which the highest current supplied to the motor (M) is measured, which has elapsed a set time from the time when the current (I) is first supplied to the motor (M) ) to measure the first current value (I_M1) (S220).

Also, the current measuring unit 140 measures a second current value I_M2 with respect to the current I at a second time point t2 after a predetermined time has elapsed from the first time point t1 ( S230 ).

The controller 160 compares the first and second current values I_M1 and I_M2 and determines whether the second current value I_M2 is equal to or greater than the first current value I_M1 ( S240 ).

Here, when the second current value (I_M2) is equal to or greater than the first current value (I_M1), the controller 160 determines that the current (I) is an overcurrent ( S250 ), and operates the circuit breaker to turn off the circuit breaker 110 . The unit 120 is controlled (S260).

In addition, after step (S240), when the second current value (I_M2) is less than the first current value (I_M1), the control unit 160 confirms that the current (I) is not an overcurrent (S270), the circuit breaker 110 Controls the circuit breaker operation unit 120 to maintain the turn-on operation (S280).

Thereafter, the controller 160 controls the current measuring unit 140 to receive a real-time measured current value for the current I supplied to the motor M ( S290 ).

The control unit 160 determines whether the measured current value in real time is equal to or greater than the set reference current value (S300), and if the measured current value is equal to or greater than the reference current value, the current I is checked as an overcurrent, and the breaker 110 is The circuit breaker operation unit 120 is controlled to be turned off (S310).

In addition, after step (S300), if the measured current value is less than the reference current value, the controller 160 checks the current I as not an overcurrent so that the circuit breaker 110 maintains the turn-on operation. 120) is controlled (S320).

In an embodiment, step (S320) may be the same as step (S280), and is described as a different step for the sake of explanation, but is not limited thereto.

Although preferred embodiments have been illustrated and described above, the technical spirit of the present invention is not limited to the specific embodiments described above, and it is common in the technical field to which the present invention pertains without departing from the gist of the present invention as claimed in the claims. Various modifications may be made by those having the knowledge of, of course, and these modifications should not be individually understood from the technical spirit or perspective of the present invention.

100: relay 120: circuit breaker operation unit
140: current measuring unit 160: control unit

Claims (8)

a current measuring unit for measuring the current in the initial starting section of the motor in which power is not produced and in the normal operation section in which power is produced;
a circuit breaker operation unit for turning on the circuit breaker so that the current is supplied to the motor; and
In the initial starting period, when the current is supplied to the motor, the first current value and the first Receives a second current value measured at a second time point after a predetermined time has elapsed, and controls the circuit breaker operation unit to turn off the circuit breaker when the current is determined to be overcurrent based on the first and second current values A relay comprising a control unit. The method of claim 1,
The current measuring unit,
A relay that is a coil-type CT (Current Transformer). The method of claim 1,
The control unit is
a comparator for comparing the first and second current values;
a determination unit that determines that the current is the overcurrent when the second current value is greater than the first current value or the second current value is the same as the first current value; and
and an operation control unit controlling the circuit breaker operation unit to turn off the circuit breaker when the current is determined to be the overcurrent. 4. The method of claim 3,
The judging unit,
If the second current value is less than the first current value, the relay determines that the current is not the overcurrent. The method of claim 1,
The first time point is
The time period in which the highest current is measured is set at a time when the current is first supplied to the motor, and the relay is a time point when the set time has elapsed. supplying current to the motor by turning on the circuit breaker in an initial starting section in which no power is generated;
a time period in which the highest current is measured is set at a time point when the current is first supplied, and measuring a first current value for the current at a first time point when the set time elapses;
measuring a second current value with respect to the current at a second time point after a predetermined time has elapsed from the first time point;
determining whether the current is an overcurrent based on the first and second current values;
comparing the first and second current values to determine whether the second current value is equal to or greater than the first current value;
checking the current as the overcurrent when the second current value is equal to or greater than the first current value; and
and controlling the circuit breaker to be turned off when the current is identified as the overcurrent. 7. The method of claim 6,
If the second current value is not equal to or greater than the first current value, checking the current as not the overcurrent, and controlling the circuit breaker to maintain the turn-on operation in the normal operation period of the motor; method of operation. 8. The method of claim 7,
In the normal operation section, the current value for the current is measured in real time, and determining whether the measured current value is equal to or greater than a set reference current value;
If the measured current value is greater than or equal to the set reference current value, checking the current as an overcurrent and controlling the circuit breaker to turn off.

Images