KR20120017723A - Measuring apparatus for arc and electromagnetic waves - Google Patents

Abstract

PURPOSE: An apparatus for measuring an arc and an electromagnetic wave is provided to accurately measure the arc by operating an ultraviolet sensor and an electromagnetic wave sensor. CONSTITUTION: A first ultraviolet sensor unit(21) is installed in a box(11) toward an arc spot and senses an ultraviolet ray generated by an arc. An electromagnetic wave sensor unit(23) is installed in the box and senses an electromagnetic wave generated by the arc. A controller senses the arc if the intensity of an ultraviolet ray corresponding to a first arc wavelength band is larger than a first reference intensity and the intensity of an electromagnetic wave corresponding to an arc frequency band is larger than a second reference intensity.

Description

Arc and electromagnetic wave measuring device {MEASURING APPARATUS FOR ARC AND ELECTROMAGNETIC WAVES}

The present invention relates to an arc and electromagnetic wave measuring apparatus, and more particularly, to an apparatus for measuring an arc having an electromagnetic wave sensor and a plurality of ultraviolet sensors configured to calculate arc generation and arc energy more accurately.

In general, the tram line of an electric vehicle or an electric locomotive is fixed to a truss-type iron support installed in about 50m section, and the lower line of the power line is provided with a tram line or an overhead line for supplying electric power by contacting a current collector of the electric vehicle.

Such a catenary wire and the like cause electrical wear due to the mechanical wear caused by the impact when the friction or arc (ARC) between the current collector of the electric vehicle and the arc generated by the current collector.

On the other hand, in the underground section, pollutants such as flakes, dust concrete debris, condensation, and various foreign matters accumulate on the tram line or the rough line, causing damage to the tram line when contacted with the current collector of the electric vehicle, and these wounds are increased. There was a problem of cutting. In addition, in the ground section such as the train section and the high-speed railway section, the soil, snow, rain, surface freezing, dust, stone powder, ear powder, leaves, nearby mountains, field side, tunnel section, etc. There was a problem of causing a wound on a catenary when contacting a current collector of an electric vehicle.

In addition, the power line and power line fixed between the steel support and the support that is installed between about 50m, even if the tensile strength is constant, the deflection phenomenon occurs due to the seasonal temperature change and when the deflection phenomenon occurs, In contact with each other, excessive friction occurs, which may cause breakage of strands and the like.

In this way, when a wound or abrasion occurs in the vehicle line, when the vehicle is in close contact with the current collector of the electric vehicle, a weak arc occurs first in the catenary line or the coarse line in contact with the current collector. do.

However, the efficiency of the current recovery system used in the train is most closely related to the interaction between the current collector and the tram line or the rough line, that is, the force, contact resistance, and arc generated in the gap between impurities. Continuously and regionally measure the amount of arc generation that determines the long-term performance of the dual current recovery system, and convert the current exceeding the normal current into arc energy to calculate the local current collection efficiency and monitor the power line conditions It is used as essential data for system management.

Meanwhile, the catenary is made of copper or copper alloy, and uses an ultraviolet sensor that detects the wavelength of the arc generated from the arc, and should be sensitive to the wavelength of light generated from the arc. However, as shown in [Table 1] below, it is practically impossible to obtain an ultraviolet sensor that selectively detects the band presented by the user. In addition, some sensors meet the requirements for each center frequency, but the bandwidth was too wide to meet the user's requirements. Moreover, the adoption of an optical filter in the selectivity of the ultraviolet sensor and the band of interest was practically impossible. In Table 1, UV-A refers to a wavelength of 400 ~ 315nm, UV-B 315 ~ 280nm.

On the other hand, not only the above problems of frequency selectivity, but also accurate detection of arc generation and generation amount due to external interference such as sunlight, reflected light, artificial lighting, vibration, influence of arc generation, and thermal noise behind the sensor, etc. Since it is difficult to employ a sensor that can compensate for this situation is urgent.

In addition, electromagnetic waves are generated in various factories, substations, and high-voltage lines, and there is no special method for detecting electromagnetic waves. Therefore, it is urgent to employ sensors that can detect electromagnetic waves.

An object of the present invention devised to solve the above problems is to provide an arc and electromagnetic wave measuring device that accurately determines whether the arc by operating an ultraviolet sensor and an electromagnetic wave sensor, that is, an antenna.

In addition, another object of the present invention, the arc measurement value of the first ultraviolet sensor unit for monitoring the arc generation, that is, the arc measurement value detected by the function sensor, the reference sensor for detecting the influence of disturbance such as sunlight, reflected light, vibration, etc. The present invention provides an arc and electromagnetic wave measuring apparatus capable of more accurately measuring the intensity of ultraviolet light generated by an arc by removing disturbance by correcting.

An arc and electromagnetic wave measuring apparatus according to the present invention for achieving the above object, the apparatus for measuring the arc generated in the current collector of the electric vehicle is installed in the electric vehicle, the enclosure; A first ultraviolet sensor unit installed on the enclosure toward an arc generating point and configured to detect ultraviolet rays generated by the arc; It is installed on the enclosure, the electromagnetic sensor unit for detecting the electromagnetic waves generated by the arc; And the intensity of the ultraviolet rays corresponding to the first arc wavelength band among the ultraviolet rays detected by the first ultraviolet sensor unit is equal to or greater than a first reference intensity, and the intensity of the electromagnetic waves corresponding to the arc frequency band among the electromagnetic waves detected by the electromagnetic wave sensor unit is A control unit for detecting an arc when the second reference intensity is greater than or equal to; It includes.

In addition, the electromagnetic wave sensor unit includes an antenna designed to have directivity using a spatially triaxially arranged directional antenna or an external metallic structure.

In addition, the first arc wavelength band is preferably 323nm to 329nm.

In addition, the arc frequency band is preferably 40MHz to 80MHz.

In addition, the control unit, the intensity of the ultraviolet rays corresponding to the first arc wavelength band of the ultraviolet rays detected by the first ultraviolet sensor unit is greater than the first reference intensity, and corresponds to the arc frequency band of the electromagnetic waves detected by the electromagnetic wave sensor unit. If the intensity of the electromagnetic wave is greater than or equal to the second reference intensity, and the intensity of the ultraviolet rays corresponding to the second arc wavelength band among the ultraviolet rays detected by the first ultraviolet sensor is greater than or equal to the third reference intensity, it may be detected as an arc.

Here, the second arc wavelength band is preferably 220nm to 225nm.

In addition, the arc and electromagnetic wave measuring apparatus according to the present invention, further installed on the enclosure, and further comprises a second ultraviolet sensor having a viewing angle in a direction different from the arc generating point to sense the surrounding environment except the arc generating point. Can be.

Here, the control unit, in the intensity of the ultraviolet rays corresponding to the first arc wavelength band of the ultraviolet rays detected by the first ultraviolet sensor unit, of the ultraviolet rays corresponding to the first arc wavelength band of the ultraviolet rays detected by the second ultraviolet sensor unit. If the value obtained by subtracting the intensity is equal to or greater than the first reference intensity, and the intensity of the electromagnetic wave corresponding to the arc frequency band among the electromagnetic waves detected by the electromagnetic wave sensor unit is equal to or greater than the second reference intensity, it is preferable to detect the arc.

The control unit may be configured to determine the intensity of the ultraviolet rays corresponding to the first arc wavelength band among the ultraviolet rays detected by the first ultraviolet sensor unit, and the ultraviolet rays corresponding to the first arc wavelength band among the ultraviolet rays detected by the second ultraviolet sensor unit. The value obtained by subtracting the intensity is equal to or greater than the first reference intensity, and the intensity of the ultraviolet rays corresponding to the second arc wavelength band among the ultraviolet rays detected by the first ultraviolet sensor unit includes the second arc wavelength among the ultraviolet rays detected by the second ultraviolet sensor unit. If the value obtained by subtracting the intensity of ultraviolet rays corresponding to the band is greater than or equal to the third reference intensity, and the intensity of the electromagnetic wave corresponding to the arc frequency band among the electromagnetic waves detected by the electromagnetic wave sensor unit is greater than or equal to the second reference intensity, it is more preferable to detect the arc. Do.

In addition, the arc and electromagnetic wave measuring apparatus of the present invention, the apparatus for measuring the electromagnetic waves generated in an industrial facility, the housing; Is installed on the enclosure, the electromagnetic wave sensor unit for sensing the electromagnetic wave; And a controller configured to detect the electromagnetic wave when the intensity of the electromagnetic wave corresponding to a preset electromagnetic frequency band among the electromagnetic waves detected by the electromagnetic wave sensor is equal to or greater than a fourth reference intensity. It includes.

According to the above-described configuration, the present invention can provide an arc and electromagnetic wave measuring apparatus for accurately determining whether the arc is generated by operating the ultraviolet sensor and the electromagnetic wave sensor, that is, the antenna together.

In addition, the present invention, considering the arc measurement value of the first ultraviolet sensor unit for monitoring the arc generation, that is, the arc measurement value detected by the functional sensor, the reference sensor for detecting the influence of disturbance such as sunlight, reflected light, vibration, etc. It is possible to provide an arc and electromagnetic wave measuring apparatus that can more accurately measure the intensity of ultraviolet rays generated by the arc by correcting the disturbance by correcting the disturbance.

1 is a perspective view showing an arc and electromagnetic wave measuring apparatus according to the present invention
2 is a perspective view of the arc detection unit according to the present invention.

Hereinafter, the configuration of the present invention according to the accompanying drawings in more detail. Here, the reference numerals attached to each drawing maintains consistency, and therefore, the same reference numerals should be interpreted as having the same configuration and operation in different drawings.

1 is a perspective view showing an arc and electromagnetic wave measuring apparatus according to the present invention, Figure 2 is a perspective view of the arc detection unit according to the present invention.

As shown in FIG. 1, a current collector 3 is installed on an upper surface of a roof of an electric vehicle 1, and the current collector 3 collects electricity from the electric vehicle line 2. In addition, an arc measuring device 10 is installed on the upper surface of the electric vehicle roof in order to detect an arc above the allowable value between the electric vehicle line 2 and the electric current collector 3 of the electric vehicle. The arc measuring device 10 is divided into an ascending arc measuring device 6 and a descending arc measuring device 7 and installed at regular intervals on the roof of the electric vehicle 1, but preferably to the current collector 3 for high sensitivity. Install closely. Preferably, it is installed after the current collector 3 according to the driving direction of the vehicle.

The arc measuring apparatus 10 of the present invention is applied to an electric vehicle or an electric locomotive, and detects and analyzes the dynamic correspondence between the electric vehicle and the current collector to analyze and analyze in real time the amount of arc generation, duration, etc. generated in the catenary 2. As a result, it can be used for precise repair of catenary lines.

2 is a perspective view of the arc measuring device 10 of the present invention.

The arc measuring device 10 of the present invention includes a housing 11 forming an outer shape of the arc measuring device 10 and a first ultraviolet sensor unit which is an ultraviolet sensor installed on one surface of the housing 11 and directed toward the current collector 3. That is, to detect the electromagnetic wave generated from the function sensor 21, the second ultraviolet sensor unit, that is, the reference sensor 23, which is an ultraviolet sensor installed on the other surface of the housing 11 so as not to face the current collector (3) Electromagnetic sensor for, that is, the antenna 30 is provided on one side. Furthermore, the enclosure 11 is supported and supported by the steel pad portion 13 and the frame support 15 made of an insulator. The cooling fan unit 14 is fixed to the lower portion of the housing 11.

On the other hand, the arc emits electromagnetic waves because a strong current flows through the air, and low-frequency components of the electromagnetic waves are limited to propagation to the outside. In addition, the intensity of the electromagnetic wave is proportional to the amount of current consumed by the arc.

Therefore, by the above configuration, by operating the ultraviolet sensor and the electromagnetic sensor in parallel, it is possible to add selectivity to the measurement result of the arc intensity. In other words, UV sensors with a wide bandwidth not only detect arcs with a specific bandwidth but also other factors besides the arc, so that electromagnetic wave sensors are added to improve the accuracy of arc detection.

단위로 샘플링하는 것을 특징으로 한다. 샘플링 단위가 10

보다 짧으면 정보량이 많아져서 시스템 처리 속도를 느리게 할 우려가 있으며, 10

보다 길면 아크 감지에 있어서 정확성이 떨어진다.
In addition, the arc measuring device 10 of the present invention includes a control unit (not shown), which is implemented in a microcomputer or the like inside the housing 11. The control unit may include an amplifying and filtering unit for amplifying and filtering information received from the electromagnetic wave sensor unit and the ultraviolet sensor unit, and an analog-digital converting unit for sampling and converting an analog signal transmitted from the amplifying and filtering unit into a digital signal. Can be. The analog-to-digital converter may convert the analog signal transmitted from the amplification and filter unit to 10.

It is characterized by sampling in units. Sampling unit is 10

If it is shorter, the amount of information may increase, which may slow down system processing.

Longer times are less accurate in arc detection.

The control unit as described above, the intensity of the ultraviolet rays corresponding to the first arc wavelength band of the ultraviolet rays detected by the first ultraviolet sensor unit 21 is greater than the first reference intensity, the arc frequency of the electromagnetic waves detected by the electromagnetic wave sensor unit 30 If the intensity of the electromagnetic wave corresponding to the band is greater than or equal to the second reference intensity, it is detected as an arc.

The control unit, the intensity of the ultraviolet rays corresponding to the first arc wavelength band of the ultraviolet rays detected by the first ultraviolet sensor unit 21 is greater than or equal to the first reference intensity, the arc frequency band of the electromagnetic waves detected by the electromagnetic wave sensor unit 30 If the intensity of the electromagnetic wave corresponding to more than the second reference intensity and the intensity of the ultraviolet rays corresponding to the second arc wavelength band of the ultraviolet rays detected by the first ultraviolet sensor unit 21 is more than the third reference intensity is more detected by the arc. desirable.

Here, the first reference intensity, the second reference intensity, and the third reference intensity are stored in advance in a storage unit of the controller. The first arc wavelength band is preferably 323 nm to 329 nm, the second arc wavelength band is preferably 220 nm to 225 nm, and the arc frequency band is preferably 40 MHz to 80 MHz.

The electromagnetic wave sensor unit 30 includes an antenna designed to have directivity using a three-dimensionally arranged directional antenna or an external metallic structure.

As described above, the second ultraviolet sensor unit 23 is installed on the enclosure 11 and has a viewing angle in a direction different from that of the arc generation point to sense the surrounding environment except the arc generation point. 2 It is preferable to detect the arc using the ultraviolet sensor unit 23 as follows.

That is, the control unit, the intensity of the ultraviolet rays corresponding to the first arc wavelength band of the ultraviolet rays detected by the first ultraviolet sensor unit 21, the first arc wavelength band of the ultraviolet rays detected by the second ultraviolet sensor unit 23. The value obtained by subtracting the intensity of ultraviolet rays corresponding to is equal to or greater than the first reference intensity, and at the intensity of ultraviolet rays corresponding to the second arc wavelength band among the ultraviolet rays detected by the first ultraviolet sensor unit 21, the second ultraviolet sensor unit ( The value obtained by subtracting the intensity of the ultraviolet rays corresponding to the second arc wavelength band among the ultraviolet rays detected by 23) is greater than or equal to a third reference intensity, and the electromagnetic wave corresponding to the arc frequency band among the electromagnetic waves detected by the electromagnetic wave sensor unit 30 is obtained. If the intensity is greater than or equal to the second reference intensity, sensing with an arc is preferred.

This is because the interference caused by the disturbance of the surrounding environment sensed by the second ultraviolet sensor unit 23 can be removed.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, additions, and changes can be made in the technical field of the present invention without departing from the technical spirit of the present invention. It will be apparent to those of ordinary knowledge.

1: electric vehicle 2: tramline
3: current collector 6: ascending arc detector
7: descending arc detection device 10: arc detection device
11: enclosure 13: steel pad part
14: cooling fan unit 15: frame support
21: Function sensor 23: Reference sensor
30: electromagnetic wave sensor

Claims (10)

In the apparatus for measuring the arc generated in the current collector of the electric vehicle,
Enclosure;
A first ultraviolet sensor unit installed on the enclosure toward an arc generating point and configured to detect ultraviolet rays generated by the arc;
It is installed on the enclosure, the electromagnetic sensor unit for detecting the electromagnetic waves generated by the arc; And
The intensity of the ultraviolet rays corresponding to the first arc wavelength band among the ultraviolet rays detected by the first ultraviolet sensor unit is greater than or equal to a first reference intensity, and the intensity of the electromagnetic waves corresponding to the arc frequency band among the electromagnetic waves detected by the electromagnetic wave sensor unit is zero. A control unit for detecting an arc when the reference intensity is 2 or more; Arc and electromagnetic wave measuring apparatus comprising a. Claim 1
The electromagnetic sensor unit is an arc and electromagnetic wave measuring apparatus, characterized in that it comprises an antenna designed to have a directivity using a directional antenna or an external metallic structure arranged in three axes spatially. The method according to claim 1,
The first arc wavelength band is 323nm to 329nm characterized in that the arc and electromagnetic wave measuring apparatus. The method according to claim 1,
The arc frequency band is an arc and electromagnetic wave measuring apparatus, characterized in that 40MHz to 80MHz. The method according to claim 1, wherein the control unit,
The intensity of the ultraviolet rays corresponding to the first arc wavelength band among the ultraviolet rays detected by the first ultraviolet sensor unit is greater than or equal to a first reference intensity, and the intensity of the electromagnetic waves corresponding to the arc frequency band among the electromagnetic waves detected by the electromagnetic wave sensor unit is zero. 2. The arc and electromagnetic wave measuring apparatus of claim 2, wherein when the intensity of ultraviolet rays corresponding to the second arc wavelength band of the ultraviolet rays detected by the first ultraviolet sensor unit is greater than or equal to a third reference intensity, an arc is detected. The method according to claim 5,
The second arc wavelength band is an arc and electromagnetic wave measuring apparatus, characterized in that 220nm to 225nm. The method according to claim 1,
A second ultraviolet sensor unit installed on the enclosure and having a viewing angle in a direction different from that of the arc generating point so as to sense a surrounding environment except the arc generating point; Arc and electromagnetic wave measuring apparatus further comprising. The method according to claim 7, wherein the control unit,
The value obtained by subtracting the intensity of the ultraviolet rays corresponding to the first arc wavelength band from the ultraviolet rays corresponding to the first arc wavelength band among the ultraviolet rays detected by the first ultraviolet sensor unit is a value 1 base strength or higher,
Arc and electromagnetic wave measuring apparatus, characterized in that for detecting the arc intensity of the electromagnetic wave corresponding to the arc frequency band of the electromagnetic wave detected by the electromagnetic wave sensor unit more than the second reference intensity. The method according to claim 7, wherein the control unit,
The value obtained by subtracting the intensity of the ultraviolet rays corresponding to the first arc wavelength band from the ultraviolet rays corresponding to the first arc wavelength band among the ultraviolet rays detected by the first ultraviolet sensor unit is a value 1 base strength or higher,
The value obtained by subtracting the intensity of ultraviolet rays corresponding to the second arc wavelength band from the ultraviolet rays detected by the second ultraviolet sensor unit among the ultraviolet rays detected by the first ultraviolet sensor unit is a value 3 is more than the reference century,
Arc and electromagnetic measuring device, characterized in that for detecting the intensity of the electromagnetic wave corresponding to the arc frequency band of the electromagnetic wave detected by the electromagnetic wave sensor unit more than the second reference intensity. In the device for measuring electromagnetic waves generated in industrial facilities,
Enclosure;
It is installed on the enclosure, the electromagnetic sensor unit for sensing the electromagnetic wave; And
A control unit for detecting an electromagnetic wave when an intensity of an electromagnetic wave corresponding to a preset electromagnetic frequency band among the electromagnetic waves detected by the electromagnetic wave sensor unit is greater than or equal to a fourth reference intensity; Arc and electromagnetic wave measuring apparatus comprising a.

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