KR102013747B1 - Apparatus and method for detecting fault of relay contact protection device and the relay contact - Google Patents

Abstract

The present invention relates to a device and a method to detect the malfunction of a relay contact point protection element and its relay contact point. When a relay contact point of a relay driving device supplying driving power to an electric load device through the relay contact point is turned on, the malfunction of relay-on operation, in which contact resistance exceeds a reference range or a relay contact point protection element is short-circuited, is detected to report the malfunction or the abnormality of driving power supplied to the electric load device through the relay contact point is detected to report the abnormality. According to the present invention, the malfunction of a relay contact point of a relay driving device supplying driving power to an electric load device through the relay contact point, the malfunction of a relay contact point protection element protecting the corresponding relay contact point, and the abnormality of the driving power supplied to the electric load device through the relay contact point can all be detected and confirmed through a simplified circuit composition.

Description

Apparatus and method for detecting fault of relay contact protection device and the relay contact}

The present invention relates to a relay failure detection device and method, and more particularly to a relay contact protection device and the relay contact failure detection device and method.

In general, a relay used to supply driving power to an electric load device (eg, a heater, a pump, etc.) that consumes a power source (eg, 220V AC power source) may use a relay contact and a corresponding relay contact operated on / off by a controller. Relay contact protection device for protection.

The relay contact protection device serves as a varistor (abbreviation of a variable resistor) or a buffer circuit, which is a nonlinear semiconductor resistance device whose resistance value is changed by voltages applied at both ends, so as to mitigate abrupt changes and reduce unwanted noise in the input signal. A snubber circuit is used to remove the circuit.

FIG. 1 is a relay driving device 10 for supplying driving power to an electric load device 13 through a relay contact 11. Two relay contacts 11 correspond to two electric load devices 13 and one-to-one. To illustrate a relay drive device 10 installed so that the varistor is used as the relay contact protection element 11a.

The relay drive device 10 shown in FIG. 1 is connected to the electric load device 13 from the AC power supply 12 (eg, 220V AC power supply) via the corresponding relay contact 11 when the relay contact 11 is turned on. The relay contact 11 is protected by supplying driving power and blocking the overvoltage or overcurrent applied to the relay contact 11 by the relay contact protection element 11a connected in parallel with the relay contact 11.

In Fig. 1, varistors VR1 and VR2 arranged in parallel between an AC power supply 12 (e.g., 220V AC power supply) and a relay contact 11 are circuit protection elements for overvoltage interruption, and capacitor C1. , C2 and C3 are noise protection circuit protection elements, and surge absorbers (SA) disposed at the rear ends of the varistors VR1 and VR2 and the capacitors C1, C2 and C3 are connected to the relay contacts 11. A surge protection circuit protection element generated during on / off operation, and an earth terminal (ET) is a ground terminal of the relay drive device (10).

The relay drive device 10 shown in FIG. 1 is a relay when the relay contact 11 is turned on when the contact resistance rises above the reference range or when a relay on operation failure occurs in which the relay contact protection element 11a is shorted. Due to the AC power supply to the electrical load device 13 through which the contact 11 generates heat or via the relay contact protection element 11a, the corresponding relay contact protection element 11a generates heat and generates a fire.

KR 10-1997-0014473 A

The present invention is to solve the conventional problems as described above, an object of the present invention is that the contact resistance is more than the reference range when the relay contact of the relay drive device for supplying the driving power to the electrical load device through the relay contact Relay on protection relay that protects the corresponding relay contact or short-circuit detects whether the relay on operation is faulty and informs the occurrence of the fault, or detects whether the drive power is supplied to the electrical load device through the relay contact and notifies the drive power. A relay contact protection device and a relay contact failure detection device and method are provided.

In order to achieve the object of the present invention as described above, in the relay contact protection device and the relay contact failure detecting device according to the present invention, a plurality of relay contacts are respectively connected to the electrical load device, each relay contact and the electrical load When the connection point between the devices is connected by common line and the relay contact is turned on, the relay contact protection device which supplies driving power from the AC power supply to the electric load device via the corresponding relay contact and is connected in parallel with the relay contact is the corresponding relay contact. A frequency detecting unit for detecting a frequency of the driving power supplied to the electric load device via the relay contact through the common line in a relay driving device protecting the voltage; A dielectric constant detecting unit detecting a dielectric constant when the relay contact is turned on through the common line; And receiving a frequency detection signal from the frequency detector when all of the plurality of relay contacts are in an off state, and detecting a failure of at least one or all of the relay contact protection devices connected in parallel with the plurality of relay contacts. Outputs, and when the plurality of relay contacts are sequentially turned on, an impedance is calculated based on the permittivity detected by the permittivity detector for the turned on relay contact to check the contact resistance of the turned on relay contact, and the corresponding contact resistance is above the reference range. If high, the controller for outputting a failure detection signal of the corresponding relay contact.
In the relay contact protection device and the relay contact failure detecting device according to the present invention, the controller detects the frequency of the driving power that is out of the reference frequency range from the frequency detector for the turned on relay contact when the plurality of relay contacts are sequentially turned on. When receiving a signal is characterized in that for outputting the drive power abnormal signal supplied to the electrical load device through the relay contact.
In the relay contact protection device and the relay contact failure detecting device according to the present invention, when the plurality of relay contacts are sequentially turned on, the controller knows the contact resistance of the turned on relay contact in advance to determine the remaining life of the corresponding relay contact. It is characterized by outputting the remaining life notification signal of the corresponding relay contact in comparison with the comparison resistance.
In the relay contact protection device and the relay contact failure detecting device according to the present invention, a failure detection signal of the relay contact protection device of the controller, a failure detection signal of the relay contact, a drive power abnormal signal, a residual life notification signal of the relay contact When receiving, it characterized in that it further comprises a display unit for indicating the failure of the relay contact protection element, the failure of the relay contact, the drive power failure, the remaining life of the relay contact.
In order to achieve the object of the present invention as described above, the relay contact protection device and the relay contact failure detection method according to the present invention, a plurality of relay contacts are respectively connected to the electrical load device, each relay contact and the electrical load When the connection point between the devices is connected by common line and the relay contact is turned on, the relay contact protection device which supplies driving power from the AC power supply to the electric load device via the corresponding relay contact and is connected in parallel with the relay contact is the corresponding relay contact. Of the relay contact protection device that is connected in parallel with the plurality of relay contacts when the controller receives the frequency detection signal detected through the common line from the frequency detection unit when all of the plurality of relay contacts in the relay drive device to protect the Check for at least one or all failures The first process of outputting a fault detection signal to inform the display unit of the failure of the relay contact protection device; And when the plurality of relay contacts are sequentially turned on, when receiving the dielectric constant detected through the common line from the dielectric detection unit, the impedance is calculated based on the dielectric constant to check the contact resistance of the turned on relay contact and check the corresponding contact. When the resistance is higher than the reference range, a second process of notifying the failure of the relay contact by outputting a fault detection signal of the corresponding relay contact;
In the relay contact protection device and the relay contact failure detecting method according to the present invention, when the plurality of relay contacts are sequentially turned on before or after the notification of the failure of the relay contact in the second process, the controller from the frequency detection unit from the reference frequency Receiving the frequency detection signal of the drive power out of range is characterized in that it further comprises a step of outputting the drive power error signal supplied to the electrical load device through the on-turn relay contact to indicate the drive power failure on the display.
In the relay contact protection device and the relay contact failure detecting method according to the present invention, when the controller announces a failure of the relay contact in the second process, the controller knows the contact resistance of the relay contact in advance to determine the remaining life of the relay contact. The remaining life of the relay contact is notified by outputting a signal for notifying the remaining life of the relay contact in comparison with the comparative resistor.

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According to the present invention, the relay contact failure of the relay drive device supplying the driving power to the electrical load device through the relay contact and the relay contact protection device failure protecting the corresponding relay contact and the driving power supply supplied to the electrical load device through the relay contact. All can be detected and confirmed by a simplified circuit configuration.

1 is an embodiment showing a relay driving device for supplying driving power to the electric load device through a relay contact.
Figure 2 is an embodiment showing a relay contact protection device and a relay contact failure detection device and method according to the present invention.
3 is a flowchart illustrating a relay contact protection device and a relay contact failure detection method according to the present invention.

Hereinafter, with reference to the accompanying drawings an embodiment of the present invention will be described in more detail.

The relay contact protection device and the relay contact failure detecting device and method thereof according to the present invention described below are not limited to the following embodiments, and the general knowledge in the art without departing from the gist of the technology claimed in the claims. To the extent that anyone with a change can carry out the technical spirit.

Figure 2 is a relay contact protection device according to the present invention and the relay contact fault detection device 100, when the relay contact 11 is turned on via the AC power supply unit 12 (e.g. 220V AC) via the corresponding relay contact 11 The relay contact protection element 11a (for example, a varistor and a snubber circuit) which supplies driving power from the power supply unit to the electric load device 13 and is connected in parallel with the relay contact 11, may supply the corresponding relay contact 11. The embodiment is applied to the relay driving device 10 to protect.

In FIG. 2, two relay contacts 11 correspond to two electric load devices 13 and one-to-one as a relay drive device 10 that supplies driving power to the electric load device 13 through the relay contact 11. To illustrate a relay drive device 10 installed so that the varistor is used as the relay contact protection element 11a.

In Fig. 2, the varistors VR1 and VR2 arranged in parallel between the AC power supply 12 (e.g., 220V AC power supply) and the relay contact 11 are circuit protection devices for overvoltage interruption, and the capacitor C1. , C2 and C3 are noise protection circuit protection elements, and surge absorbers (SA) disposed at the rear ends of the varistors VR1 and VR2 and the capacitors C1, C2 and C3 are connected to the relay contacts 11. A surge protection circuit protection element generated during on / off operation, and an earth terminal (ET) is a ground terminal of the relay drive device (10).

Referring to FIG. 2, the relay contact protection device and the relay contact failure detecting device 100 according to the present invention include a frequency detector 110, a dielectric constant detector 120, a controller 130, and a display 140. do.

The frequency detector 110 is connected to a connection point between the relay contact 11 and the electric load device 13 to detect the frequency of the driving power supplied to the electric load device (13).

The frequency detector 110 may be a photocoupler or the like.

The dielectric constant detecting unit 120 is connected to a connection point between the relay contact 11 and the electric load device 13 to detect the dielectric constant when the relay contact 11 is turned on.

The dielectric constant detection unit 120 may be a resistor or a capacitor.

The controller 130 outputs a failure detection signal of the relay contact protection element 11a when receiving the frequency detection signal from the frequency detection unit 110 when the relay contact 11 is in an off state, and the relay contact 11. ) Is on, the impedance is calculated based on the dielectric constant detected by the dielectric constant detecting unit 120 to check the contact resistance of the relay contact 11 and if the corresponding contact resistance is higher than the reference range, the corresponding relay contact 11 Outputs a fault detection signal.

When the relay contact 11 is in the on state, the controller 130 receives the frequency detection signal of the driving power that is out of the reference frequency range from the frequency detector 110 and the electric load device 13 through the relay contact 11. Outputs the drive power abnormal signal supplied to).

The controller 130 compares the contact resistance of the relay contact 11 with the comparison resistance known in advance to determine the remaining life of the relay contact 11 when the relay contact 11 is in an on state. The remaining life notification signal of 11) is output.

The display unit 140 provides a failure detection signal of the relay contact protection element 11a of the controller 130, a failure detection signal of the relay contact 11, a drive power abnormal signal, and a remaining life notification signal of the relay contact 11. Upon reception, a failure of the relay contact protection element 11a, a failure of the relay contact 11, a drive power failure, and a remaining life of the relay contact 11 are reported.

The display unit 140 serves as a failure alarm, and if it displays a failure or an abnormality by letters, numbers, symbols, etc. such as an LCD or an LED, or outputs a voice signal or a warning sound indicating a failure or an abnormality such as a speaker or a buzzer, It may be.

Relay contact protection device and the relay contact failure detection device 100 according to the present invention configured as described above is as follows by the relay contact protection device and relay contact failure detection method (S100) according to the present invention shown in FIG. Works together.

Relay contact protection device and relay contact failure detection method (S100) according to the present invention shown in Figure 3 is a relay drive for supplying driving power to the electric load device 13 through the relay contact 11 as shown in FIG. As the device 10, two relay contacts 11 are installed in a one-to-one correspondence with two electric load devices 13 and a varistor is applied to a relay drive device 10 in which a varistor is used as the relay contact protection element 11a. Relay contact protection device according to the invention and an embodiment showing the operation method of the relay contact failure detection device 100.

The relay contact protection device according to the present invention shown in Figure 3 and the relay contact failure detection method (S100) is different from that shown in Figure 2, one relay contact 11 is one electrical load device 13 and one to one It is also applicable to the relay drive device provided correspondingly, and is applicable also to the relay drive device installed so that three or more relay contacts 11 correspond one-to-one with three or more electric load devices 13.

First, the controller 130 turns off all relay contacts 11 included in the relay drive device 10 in order to detect whether or not the relay contact protection device 11a included in the relay drive device 10 has failed. (S110).

For example, in the case of the embodiment of FIG. 2 comprising two relay contacts 11, both relay contacts 11 are turned off.

As described above, in the state in which all the relay contacts 11 included in the relay driving device 10 are turned off, the controller 130 may include a frequency detector connected to a connection point between the relay contact 11 and the electric load device 13. Check whether there is a frequency detection signal output from 110 (S120).

For reference, in FIG. 2, the connection point between the relay contact 11 and the electrical load device 13 of the two relay contacts 11 and the connection point between the relay contact 11 and the electric load device 13 are no. It illustrates the state connected by common line.

As described above, when a failure (for example, a short circuit) of the relay contact protection element 11a does not occur when all the relay contacts 11 included in the relay drive device 10 are turned off, the frequency from the frequency detector 110 is changed. The detection signal is not output.

On the other hand, when a failure (for example, a short circuit) of the relay contact protection element 11a occurs, the frequency detection signal is output from the frequency detection unit 110.

Accordingly, when the controller 130 receives the frequency detection signal from the frequency detection unit 110, the controller 130 outputs a failure detection signal of the relay contact protection device 11a to display the failure of the relay contact protection device 11a on the display unit 140. Indicated at 140 and notified (S121).

For reference, as shown in FIG. 2, a connection point between the relay contact 11 and the electrical load device 13 of the two relay contacts 11 and the relay contact 11 between the relay contact 11 and the electric load device 13 is shown. When the connection points of are connected to the common line, the two relay contact protection elements 11a corresponding to the two relay contacts 11 and one through one through the notification of the failure of the relay contact protection element 11a of the display unit 140. The failure of either or both of them can be confirmed, but it is not possible to distinguish whether the failure of the first relay contact protection element 11a or the failure of the second relay contact protection element 11a.

If a failure (for example, a short circuit) of the relay contact protection element 11a occurs, the connection point between the relay contact 11 and the electrical load device 13 and the relay contact 11 and the electrical load device 13 ) If the frequency detection unit 110 is individually connected to each connection point without connecting the connection points between the common points, when the frequency detection signal is output from the first relay contact 11 and the corresponding frequency detection unit 110, 1 The failure of the relay contact protection device 11a can be confirmed, and when the frequency detection signal is output from the frequency detection unit 110 corresponding to the relay contact 11, the relay contact protection device 11a of the relay No. You can check it.

After detecting the failure of the relay contact protection element 11a included in the relay driving device 10 as described above, the controller 130 sequentially turns on the first and second relay contacts 11. The failure of the relay contact 11 included in the relay driving device 10 is detected.

In addition, before or after the detection of the failure of the relay contact 11 included in the relay drive device 10, the drive power supplied to the electric load device 13 through the relay contact 11 is detected. .

In FIG. 3, the controller 130 sequentially turns on the first and second relay contacts 11 to detect a failure of the relay contact 11 included in the relay driving device 10. An embodiment of detecting first whether or not a driving power supply supplied to the electric load device 13 through the contact 11 is shown.

The controller 130 turns on the first relay contact 11 (S130), and then checks whether the frequency detection signal received from the frequency detection unit 110 is outside the reference frequency range (S140).

As described above, when the driving power supply abnormality does not occur while the first relay contact 11 is turned on, the frequency detection signal received from the frequency detector 110 does not deviate from the reference frequency range.

On the contrary, when a driving power supply error occurs, the frequency detection signal received from the frequency detection unit 110 is out of the reference frequency range.

Accordingly, when the controller 130 receives the frequency detection signal outside the reference frequency range from the frequency detection unit 110, the controller 130 outputs a drive power abnormality signal supplied to the electric load device 13 through the relay contact 11. The display unit 140 notifies the driving power supply abnormality (S141).

For reference, an embodiment of the present invention is a connection point between the relay contact 11 and the electrical load device 13 of the two relay contacts 11 and the relay contact 11 and the electrical contact number 11 as shown in FIG. Since the connection points between the load devices 13 are connected by a common line, the AC power supply unit 12 (for example, 220V AC power supply unit) is notified of the abnormal driving power of the display unit 140 even when only the relay contact 11 is turned on. Abnormality of AC power supplied from

After confirming the AC power supply abnormality supplied from the AC power supply unit 12 (for example, 220V AC power supply unit) through the notification of the power supply abnormality as described above, the controller 130 is sequentially connected to the first relay contact 11. Check the contact resistance (S150).

At this time, the controller 130 calculates an impedance based on the dielectric constant detected by the dielectric constant detection unit 120 connected to the connection point between the first relay contact 11 and the electrical load device 13 to relay the first relay contact ( Check the contact resistance of 11).

Subsequently, the controller 130 compares the contact resistance of the relay contact 11 with the previously known comparison resistance to determine the remaining life of the relay contact 11. The remaining life notification signal is output to inform the display unit 140 of the remaining life of the first relay contact 11 (S151).

Subsequently, the controller 130 determines whether the contact resistance of the first relay contact 11 is higher than a predetermined reference range (S160).

If the contact resistance of the first relay contact 11 is higher than a predetermined reference range, the controller 130 outputs a fault detection signal of the first relay contact 11 to display the first relay contact ( Notify 11 of the failure (S161).

In contrast, when the contact resistance of the first relay contact 11 is included in a predetermined reference range, the controller 130 turns on the second relay contact 11 (S170). At this time, it is preferable to turn off the first relay contact 11.

After the second relay contact 11 is turned on, the controller 130 sequentially checks the contact resistance of the second relay contact 11 (S180).

At this time, the controller 130 calculates an impedance based on the dielectric constant detected by the dielectric constant detection unit 120 connected to the connection point between the relay contact 11 and the electrical load device 13, the relay contact 2 ( Check the contact resistance of 11).

Subsequently, the controller 130 compares the contact resistance of the relay contact 11 with the comparison resistance known in advance to determine the remaining life of the relay contact 11. The remaining life notification signal is output to inform the display unit 140 of the remaining life of the relay contact 11 (S181).

Subsequently, the controller 130 determines whether the contact resistance of the second relay contact 11 is higher than a predetermined reference range (S190).

If the contact resistance of the second relay contact 11 is higher than a predetermined reference range, the controller 130 outputs a fault detection signal of the second relay contact 11 to display 2 to the relay 140 ( 11 indicates a failure (S191).

According to the present invention operating as described above, the relay contact 11 failure and the corresponding relay contact 11 of the relay drive device 10 for supplying driving power to the electric load device 130 through the relay contact 11. The relay contact protection element (11a) to protect the fault and the abnormality of the driving power supplied to the electric load device 13 through the relay contact 11 can be detected and confirmed by a simplified circuit configuration.

10: relay drive 11: relay contact
11a: relay contact protection element 12: AC power supply
13: Electric load VR1, VR2: Varistor
C1, C2, C3: Capacitor SA: Surge Absorber
ET: Terminal
100: relay contact protection device and its relay contact fault detection device
110: frequency detection unit 120: dielectric constant detection unit
130: controller 140: display unit

Claims (7)

When a plurality of relay contacts are connected to the electric load device, respectively, and the connection point between each relay contact and the electric load device is connected by a common line, and the relay contact is turned on, the electric load device from the AC power supply unit via the corresponding relay contact. The relay contact protection device which supplies the driving power to the relay contact and is connected in parallel with the relay contact detects the frequency of the driving power supplied to the electric load device via the relay contact through the common line in the relay driving device which protects the relay contact. A frequency detection unit;
A dielectric constant detecting unit detecting a dielectric constant when the relay contact is turned on through the common line; And
When the plurality of relay contacts are all in an off state, when a frequency detection signal is received from the frequency detector, a fault detection signal for checking a failure of at least one or all of the relay contact protection devices connected in parallel with the plurality of relay contacts is output. When the plurality of relay contacts are sequentially turned on, the impedance is calculated based on the dielectric constant detected by the dielectric constant detector for the turned on relay contact to check the contact resistance of the turned on relay contact, and when the corresponding contact resistance is higher than the reference range. A controller for outputting a failure detection signal of the corresponding relay contact;
Relay contact protection device and the relay contact fault detection device, characterized in that consisting of. The electric load device according to claim 1, wherein the controller receives the frequency detection signal of the driving power that is out of the reference frequency range from the frequency detection unit with respect to the turned on relay contact when the plurality of relay contacts are sequentially turned on. Relay contact protection device and relay contact failure detection device, characterized in that for outputting a drive power supply error signal supplied to the. The remaining life of the relay contact according to claim 1, wherein the controller compares the contact resistance of the turned on relay contact with a known resistance in advance to determine the remaining life of the relay contact when the plurality of relay contacts are sequentially turned on. Relay contact protection device and the relay contact fault detection device, characterized in that for outputting a notification signal. The relay contact protection device according to claim 1, wherein when the fault detection signal of the relay contact protection device of the controller, the fault detection signal of the relay contact, the drive power error signal, or the remaining life notification signal of the relay contact are received. A relay contact protection device and a relay contact fault detection device, characterized in that it further comprises a display unit for indicating faults, drive power failures, and remaining life of relay contacts. When a plurality of relay contacts are connected to the electric load device, respectively, and the connection point between each relay contact and the electric load device is connected by a common line, and the relay contact is turned on, the electric load device from the AC power supply unit via the corresponding relay contact. In the relay drive device which supplies the driving power to the relay contact and is connected in parallel with the relay contact, the relay contact protection device protects the corresponding relay contact. When the plurality of relay contacts are all turned off, the controller is detected from the frequency detector through the common line. Receiving a frequency detection signal and outputting a failure detection signal for identifying a failure of at least one or all of the relay contact protection devices connected in parallel with the plurality of relay contacts to inform the display unit of the failure of the relay contact protection device; And
When the plurality of relay contacts are sequentially turned on, upon receiving the dielectric constant detected through the common line from the dielectric detection unit, the impedance is calculated based on the dielectric constant to check the contact resistance of the turned on relay contact and the corresponding contact resistance. A second step of outputting a failure detection signal of the corresponding relay contact point to notify the display unit of the failure of the relay contact point if the value is higher than the reference range;
Relay contact protection device and relay contact failure detection method comprising a. The method of claim 5, wherein the controller receives a frequency detection signal of a driving power that is out of a reference frequency range from the frequency detection unit when the plurality of relay contacts are sequentially turned on before or after the failure of the relay contact is informed in the second process. The relay contact protection device and the relay contact fault detection method, characterized in that further comprising the step of outputting the drive power error signal supplied to the electrical load device through the relay contact point to inform the drive power failure. The residual life notification of the relay contact according to claim 5, wherein when the controller announces the failure of the relay contact, the controller compares the contact resistance of the relay contact with a comparison resistor known in advance to determine the remaining life of the relay contact. A relay contact protection device and a relay contact failure detection method, comprising: outputting a signal to notify a display unit of the remaining life of a relay contact;

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