KR102036342B1 - Apparatus and method for arc detection based on ultra-sonic and Ultraviolet light of electric power equipment - Google Patents

Abstract

The present invention relates to an ultrasonic wave and ultraviolet light-based arc detection apparatus for a power control facility and a method thereof which can more effectively detect whether an arc is generated by using both ultrasonic waves detected in a 30 to 48 kHz band and ultrasonic waves detected in a 1 to 20 MHz band. The arc detection apparatus comprises: a first ultrasonic sensor sensing first ultrasonic waves in a 30 to 48 kHz band according to the occurrence of an arc; a second ultrasonic sensor sensing second ultrasonic waves in a 1 to 20 MHz band according to the occurrence of the arc; an ultraviolet light sensing unit sensing ultraviolet light according to the occurrence of the arc; a control unit finally checking and notifying of the occurrence of the arc after additionally checking whether the ultraviolet light is sensed when the first and second ultrasonic waves are simultaneously sensed; and a power supply unit generating and providing a drive voltage for the first and second ultrasonic sensors and the control unit through commercial power.

Description

Apparatus and method for arc detection based on ultra-sonic and ultraviolet light of electric power equipment}

The present invention relates to ultrasonic and ultraviolet based arc detection devices of power control equipment, and more particularly, to ultrasonic and ultraviolet based arc detection devices of power control equipment to enable more effective arc detection operation.

Power control facilities such as switchboards, ESS devices, junction boxes, etc., have a lot of components such as wiring, switchgear, breaker, and relay. have.

In particular, arc discharge may cause a major accident and lead to fire or explosion. In the case of an arc fire, abnormal current flows due to ground fault, overcapacity, contact with other objects, and the like, and busbars, cables, wire-to-wire contacts, and terminal contacts inside the power control system are overheated. This causes the wire to be cut off at the point of failure due to contact with other objects, or a continuous, repeated arc with partial contact.

As it is not easy to prevent the occurrence of the arc, it is very important to prevent the fire by quickly and accurately sensing the arc when it occurs.

About 99% of the energy converted to sound energy in the arc or corona is converted into the ultrasonic region.

Such ultrasonic detection can also be used to identify various types of potential electrical failures, particularly electrical failures such as arcing, corona, and tracking.

Ultrasonic detection devices are relatively simple and easy to apply in the field, do not interfere with each other in electrical measurement methods, and are not affected by capacitance and external noise, which are problematic in electrical measurement of high-voltage equipment. It can be very useful for sensing.

Accordingly, Korean Patent No. 10-1550588 is provided with an ultrasonic sensor, through which a technique for sensing ultrasonic waves in the 30 kHz to 48 kHz band and determining the arc as an arc when the sensed ultrasonic waves are 0 V or more and 1000 mV or less is proposed. have.

However, the power control equipment has a complex load such as a CT sensor and a coil. In this case, as shown in FIG. 1, there is a problem that 30 kHz to 48 kHz may include white noise caused by the complex load.

That is, in the case of having a complex load such as a power control facility, it is difficult to determine the normal signal and the arc signal separately, and there is a need to separately provide an infrared sensor for detecting the arc based on heat.

Domestic Registration No. 10-1550588 (Registration Date: September 01, 2015)

In order to solve the above problems, the present invention uses both the ultrasonic wave detected in the 30 kHz to 48 kHz band and the ultrasonic wave detected in the 1 MHz to 20 MHz band, the power to more effectively detect the occurrence of the arc An ultrasonic and ultraviolet based arc detection apparatus of a control facility is provided.

The object of the present invention is not limited to the above-mentioned object, and other objects which are not mentioned will be clearly understood by those skilled in the art from the following description.

As a means for solving the above problems, the ultrasonic and ultraviolet-based arc detection device provided in the internal space of the power control equipment according to an embodiment of the present invention senses the first ultrasonic waves of the 30 kHz to 48 kHz band according to the arc generation A first ultrasonic sensor; A second ultrasonic sensor for sensing second ultrasonic waves in a band of 1 MHz to 20 MHz according to arc generation; An ultraviolet sensing unit sensing ultraviolet rays according to arc generation; A control unit for finally checking and notifying arc generation after additionally checking whether ultraviolet light is sensed when the first ultrasonic wave and the second ultrasonic wave are simultaneously sensed; And a power supply unit configured to generate and provide driving voltages of the first and second ultrasonic sensors and the controller through commercial power.

The ultraviolet sensing unit is distributed in the interior space of the power control equipment, the optical lens for collecting the ultraviolet light generated in each distributed arrangement area; A plurality of optical cables connected to each of the plurality of photodiodes; A photoelectric conversion unit positioned at the ends of the plurality of optical cables and converting ultraviolet rays collected by the plurality of optical lenses into electrical signals; An amplifier for amplifying the output of the photoelectric conversion unit; And an A / D converter configured to output an analog-digital conversion (A / D) of the output signal of the amplifier.

The controller selectively drives only one of the first ultrasonic sensor and the second ultrasonic sensor, and additionally drives the remaining ultrasonic sensor only when the ultrasonic wave is detected.

The apparatus may further include an auxiliary power supply having a battery charging the commercial power, and generating and providing a driving voltage through the charging voltage of the battery.

In addition, when one of the first ultrasonic sensor and the second ultrasonic sensor senses the ultrasonic wave according to the arc generation, the controller activates the auxiliary power supply unit instead of the power supply unit and reconfirms the arc generation, Only when the occurrence is reconfirmed can the power control facility confirm and notify that an arc has occurred.

As a means for solving the above problems, the arc generation detection method of the arc detection device provided in the internal space of the control equipment according to another embodiment of the present invention, 30 kHz according to the arc generation through the first and second ultrasonic sensors Sensing the first ultrasound in the to 48 kHz band and the second ultrasound in the 1 MHz to 20 MHz band; Additionally sensing ultraviolet light due to arc generation when the first ultrasonic wave and the second ultrasonic wave are simultaneously sensed; When the ultraviolet rays are additionally sensed, the method may further include an arc detection method of the power control facility, including finally confirming and notifying that the arc has occurred in the power control facility.

The present invention uses both ultrasonic waves detected in the 30 kHz to 48 kHz band and ultrasonic waves detected in the 1 MHz to 20 MHz band, thereby making it possible to more effectively detect whether an arc is generated.

In addition, in consideration of the generation of additional ultraviolet rays corresponding to the arc generation, by further sensing and using the ultraviolet rays according to the arc generation, more accurate arc detection operation can be performed.

In addition, the present invention further includes an auxiliary power supply unit capable of generating and providing independent power supplies, thereby preliminarily blocking the possibility of applying various noises generated from an external device through the power line, and thus The possibility of malfunction can be prevented in advance.

1 is a diagram illustrating noise generated by a complex load provided in a general power control facility.
2 is a view showing the ultrasonic wave according to the arc generated in the power control equipment according to an embodiment of the present invention.
3 is a view for explaining the ultrasonic and ultraviolet-based arc detection apparatus of the power control equipment according to an embodiment of the present invention.
4 is a view for explaining the ultraviolet sensing unit according to an embodiment of the present invention in detail.
5 is a diagram illustrating an arc detection method of a power control facility according to an embodiment of the present invention.
6 is a view for explaining the ultrasonic and ultraviolet-based arc detection apparatus of the power control equipment according to another embodiment of the present invention.

The objects and effects of the present invention and the technical configurations for achieving them will be apparent with reference to the embodiments described below in detail with the accompanying drawings. In describing the present invention, when it is determined that a detailed description of a known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

Terms to be described later are terms defined in consideration of functions in the present invention, and may be changed according to intentions or customs of users or operators.

However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various forms. The present embodiments are merely provided to complete the disclosure of the present invention and to fully inform the scope of the invention to those skilled in the art, and the present invention is defined by the scope of the claims. It will be. Therefore, the definition should be made based on the contents throughout the specification.

2 is a view showing the ultrasonic wave according to the arc generated in the power control equipment according to an embodiment of the present invention.

As shown in FIG. 2, it has been confirmed that ultrasonic waves according to arcs generated in the power control facility can be detected not only in the 30 kHz to 48 kHz band but also in the 1 MHz to 20 MHz band, as is known in the art.

Accordingly, the present invention makes it possible to easily detect and notify the occurrence of arc (or arc discharge) by using both ultrasonic waves detected in the 30 kHz to 48 kHz band and ultrasonic waves detected in the 1 MHz to 20 MHz band.

3 is a view for explaining the ultrasonic and ultraviolet-based arc detection apparatus of the power control equipment according to an embodiment of the present invention.

Referring to FIG. 3, the arc detection device 10 of the present invention is provided in an internal space of a power control facility 20 such as a switchgear and an ESS device, and includes a first ultrasonic sensor 11 and a second ultrasonic sensor 12. , An ultraviolet sensing unit 13, a control unit 14, and a power supply unit 15.

The first ultrasonic sensor 11 belongs to the 30 kHz to 48 kHz band, senses the first ultrasonic wave having a signal strength of a predetermined threshold or more, and the second ultrasonic sensor 12 belongs to the 1 MHz to 20 MHz band, and the predetermined threshold The second ultrasonic wave having the above signal strength is sensed.

That is, the arc detection apparatus 10 of the present invention makes it easy to detect the occurrence of an arc by using two ultrasonic sensors 11 and 12 which sense ultrasonic waves of different frequency bands.

The ultraviolet sensing unit 13 senses ultraviolet rays according to arc generation.

The controller 14 primarily checks whether an arc is generated based on the detection results of the first ultrasonic sensor 11 and the second ultrasonic sensor 12, and then secondly checks whether the arc is generated through the ultraviolet sensing unit 13. Do it. That is, only when the first ultrasonic wave, the second ultrasonic wave, and the ultraviolet light according to the arc generation are simultaneously detected, the arc generation is finally confirmed and notified.

The power supply unit 15 includes a power conversion device such as a regulator, through which the driving voltages of the first and second ultrasonic sensors 11 and 12 and the control unit 14 are used using commercial power input to the power control facility. Create and provide.

4 is a view for explaining the ultraviolet sensing unit according to an embodiment of the present invention in detail.

As shown in FIG. 4, the ultraviolet sensing unit 13 of the present invention is distributedly disposed in the internal space of the power control facility, and an optical lens 131 for collecting the ultraviolet rays generated in each distributed arrangement region, and a plurality of photos. A plurality of optical cables 132 connected to each diode, the photoelectric conversion unit 133, which is located at the ends of the plurality of optical cables, converts the ultraviolet light collected by the plurality of optical lenses 131 into an electrical signal, photoelectric conversion unit ( And an amplifier 134 for amplifying the output of the amplifier 133, an A / D converter 135 for analog-to-digital conversion (A / D), and outputting the output signal of the amplifier.

As described above, the ultraviolet sensing unit of the present invention enables the sensing of a wider area of ultraviolet rays with a minimum cost through a plurality of optical lenses and optical cables distributed in the interior space of the power control facility. That is, the number of areas that can be sensed through one UV sensing unit can be expanded to N (N is the number of optical lenses and optical cables).

5 is a diagram illustrating an arc detection method of a power control facility according to an embodiment of the present invention.

When the arc detection device 10 is operationally activated, the arc detection device 10 uses the first ultrasound sensor 11 and the second ultrasound sensor 12 to transmit the first ultrasound in the 30 kHz to 48 kHz band and the 1 MHz to 20 MHz band. To sense the second ultrasonic wave (S1, S2).

If the first and second ultrasonic waves are detected at the same time as a result of sensing in steps S1 and S2, arc generation is first confirmed (S3).

And only when the arc generation is confirmed first, the ultraviolet sensing unit 13 senses the ultraviolet light according to the arc generation (S4), and only when the ultraviolet light due to the arc generation is confirmed, and confirms the arc generation (S5).

In the description of FIG. 5, both the first ultrasonic sensor 11 and the second ultrasonic sensor 12 are driven together to detect the first ultrasonic wave and the second ultrasonic wave. In this case, unnecessary power waste may occur.

In this case, only one of the first ultrasonic sensor and the second ultrasonic sensor is selectively driven, but additional driving of the remaining ultrasonic sensors is required to detect the arc generation only when the selectively driving ultrasonic sensor detects the arc generation. Allows the amount of power to be minimized.

In addition, a power line for transmitting commercial power may also be used as a signal transmission medium, and in the worst case, various noises generated from an external device may be applied to the arc detection device through the power line, which causes the arc detection device to Malfunctions may also occur.

Accordingly, the present invention further includes an auxiliary power supply capable of generating and providing independent power supplies, thereby preventing the possibility of malfunction due to external noise.

6 is a view for explaining the ultrasonic and ultraviolet-based arc detection apparatus of the power control equipment according to another embodiment of the present invention.

Referring to FIG. 6, the arc detection apparatus 10 of the present invention charges commercial power in addition to the first ultrasonic sensor 11, the second ultrasonic sensor 12, the controller 14 ′, and the power supply unit 15. It may further include an auxiliary power supply 16 having a battery and generating and providing a driving voltage through the charging voltage of the battery.

The controller 14 ′ generates and supplies various drive powers through the power supply unit 15 before the arc generation is detected, and after the arc generation is detected, various drive power sources through the auxiliary power supply 16 instead of the power supply unit 15. To generate and supply it. That is, by using the auxiliary power supply 16 instead of the power supply 15, the possibility of external noise being transmitted through the power line connected to the power supply 15 is blocked in advance.

Then, the controller 14 ′ drives the first and second ultrasonic sensors 11 and 12 once again using the driving power provided by the auxiliary power supply 16, and the first and second ultrasonic sensors 11, If 12) detects the first and second ultrasonic waves again in this state, it is finally confirmed and notified that the currently detected arc is generated by the power control facility.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and variations without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

Claims (6)

In the ultrasonic and ultraviolet-based arc detection device provided in the interior space of the power control equipment,
A first ultrasonic sensor for sensing first ultrasonic waves in a 30 kHz to 48 kHz band according to arc generation;
A second ultrasonic sensor for sensing second ultrasonic waves in a band of 1 MHz to 20 MHz according to arc generation;
An ultraviolet sensing unit sensing ultraviolet rays according to arc generation;
A control unit for finally checking and notifying arc generation after additionally checking whether ultraviolet light is sensed when the first ultrasonic wave and the second ultrasonic wave are simultaneously sensed;
A power supply unit configured to generate and provide driving voltages of the first and second ultrasonic sensors and the controller through commercial power; And
Comprising a battery for charging the commercial power, and comprises an auxiliary power supply for generating and providing a driving voltage through the charging voltage of the battery,
The control unit
Prior to arc generation detection, one of the first ultrasonic sensor and the second ultrasonic sensor is selectively driven while providing a driving voltage through the power supply, and after the arc generation detection, a driving voltage is supplied through the auxiliary power supply. While providing, the ultrasonic and ultraviolet-based arc detection device of the power control equipment, characterized in that to drive again the first ultrasonic sensor and the second ultrasonic sensor to confirm and notify whether or not the arc. The method of claim 1, wherein the ultraviolet sensing unit
An optical lens distributed in an inner space of the power control facility and condensing ultraviolet rays generated in each distributed arrangement region;
A plurality of optical cables connected to each of the plurality of photodiodes;
A photoelectric conversion unit positioned at the ends of the plurality of optical cables and converting ultraviolet rays collected by the plurality of optical lenses into electrical signals;
An amplifier for amplifying the output of the photoelectric conversion unit; And
Ultrasonic and ultraviolet-based arc detection device of the power control equipment, characterized in that it comprises an analog-to-digital conversion (A / D) output signal of the amplifier output. The method of claim 1, wherein the control unit
And selectively driving only one of the first ultrasonic sensor and the second ultrasonic sensor, and additionally driving the remaining ultrasonic sensor only at the time of ultrasonic detection. delete delete In the arc generation detection method of the arc detection device provided in the internal space of the power control equipment,
Either one of the first and second ultrasonic sensors is activated according to the driving voltage generated based on the commercial power to generate the first ultrasonic waves in the 30 kHz to 48 kHz band and the second ultrasonic waves in the 1 MHz to 20 MHz band according to the arc generation. Sensing;
When either one of the first and second ultrasonic sensors senses a first ultrasonic wave or a second ultrasonic wave, both of the first and second ultrasonic sensors generate a battery-based driving voltage instead of a driving voltage generated based on commercial power. Operation activated according to;
When both the first and second ultrasonic sensors simultaneously sense the first and second ultrasonic waves, one of the ultraviolet sensing units is activated according to a driving voltage generated based on a battery to add ultraviolet rays due to arc generation. Sensing; And
And when the ultraviolet rays are further sensed, finally confirming and notifying the power control facility that an arc has occurred.

Images