KR102080070B1 - Test device for Fire Detector and Test method using it - Google Patents

Abstract

The present invention relates to a test device for a flame sensor and a test method using the same and, more specifically, to a test device for a flame sensor and a test method using the same which generate a light source similar to a real flame to accurately inspect an operating state of a flame sensor and properly respond to flame sensing algorithms differently designed by manufacturers. The test device determines whether a flame sensor operates normally. The test device comprises: a battery unit to supply power in a test device; a data storage unit to store flame recognition algorithms of flame sensors by manufacturers; a light source generation unit to generate an infrared light source of a band including the entire range of infrared wavelengths in algorithms stored in the data storage unit; a band-pass filter unit selectively coupled in accordance with a flame sensor corresponding to a test target among flame sensors by manufacturers stored in the data storage unit to allow only infrared light of a specific waveform to pass therethrough; and a main control unit to control the overall operation of the light source generation unit.

Description

Test device for fire detector and test method using it {Test device for Fire Detector and Test method using it}

The present invention relates to an inspection apparatus for a flame detector and an inspection method using the same, and more particularly, to generate a similar light source such as a real flame to accurately check the operation state of the flame detector, and to suit the flame detection algorithm designed for each manufacturer differently. The present invention relates to an inspection apparatus for detecting a flame and an inspection method using the same.

In general, the types of fire detectors include heat detectors capable of detecting rising temperatures in the event of a fire, smoke detectors capable of detecting smoke from a fire, ultraviolet (UV) wavelengths and infrared wavelengths (IR). There is a flame detector that analyzes and detects optical characteristics such as flickering and flickering.

An advantage of such a flame detector is that it is more accurate than other types of fire detectors and detects the initializing material so that rapid response can be made. However, the flame detector is a relatively lacking inspection device compared to other heat and smoke detectors.

In order to check the operation status of such a flame detector, a real lighter, a gas torch or a newspaper is lit in the field and placed directly on the monitoring window of the flame detector, or until the flame detector is operated at a certain distance. Since the inspection is performed by shaking the hand toward the installed flame detector, it is extremely limited to check the operation of the flame detector. In particular, the flame detector installed in a place with flammable or explosive dangerous goods should be operated regularly. The reality is that the test is not done.

In addition, in developing a flame detector, a flame sensor is used to determine whether a flame is generated, but not a real fire, but a broad spectrum of flames detected by a flame image sensor (a spectrum generated by smoke, fire from wood, and oil). Fire, paper fire, ultraviolet rays, infrared rays, fire generated from dust, welding sparks, gas stove sparks, etc.).

Each flame fire detector manufacturer develops and applies its own algorithm that analyzes the spectrum acquired through the flame detection sensor to cope with the flame detection, so the type of flame, the size of the flame, the quantity of the flame, the diffraction shape of the flame, and the cycle of the flame Etc. The standards are not unified.

Existing flame detector inspection device is manufactured and used exclusively by the relevant manufacturer, and inspection device using infrared ray or UV Tron that generates ultraviolet rays turns on and off the glass bulb lamp by using a lamp made of glass sphere. The method of opening or closing the front of the light generating window of the glass sphere lamp or the method of adjusting the light generated while the rotating reflecting plate is rotated by providing the rotating reflecting plate in front of the glass lamp window. However, this method has a problem that only the flame detector manufactured by its own company has a disadvantage that the size of the device is large, the power consumption is large, in particular, composed of glass bulb lamps easily damaged by impact.

The present invention has been made in order to solve the above problems, it is convenient to portability regardless of place, and strong in impact, and a flame generating device similar to the type of flower garden judging as a flame input to the actual flame detector. When it is made and produced, it aims to provide a flame detector inspection device and an inspection method using the flame detector capable of inspecting the operation of a flame fire detector specialized for a flame fire detector for each manufacturer without regard for any place.

The present invention is a test device for determining whether or not the normal operation of the flame detector, a battery unit for supplying the power inside the inspection device, a data storage unit for storing the flame detection algorithm of the flame detector for each manufacturer, and in the data storage unit The light source generator generates an infrared light source of a band covering the entire infrared wavelength range in the stored algorithm, and is selectively combined according to the flame detector corresponding to the inspection target among the flame detectors of each manufacturer stored in the data storage unit. And a main filter unit for controlling the overall operation of the light source generator, and a band filter unit for passing only infrared rays.

The apparatus may further include an algorithm selector configured to select one of the algorithms stored in the data storage unit, and to control light emission characteristics of the light source generator through control of the main controller according to the flame detector model selected through the algorithm selector. do.

The main control unit; And a power supply controller for controlling the size and intensity of the light source by adjusting a supply power of the light source generator, and a flame period controller for controlling a period of light source generation of the light source generator.

In addition, the present invention in the inspection method using a flame detector inspection device, collecting the flame recognition algorithm of each flame detector for each manufacturer and storing as data; broadband infrared light source in the infrared wavelength range of the entire flame detector of the stored data Preparing to occur; Combining a band filter suitable for a model of a flame detector to be inspected among the stored data to filter only infrared rays of a specific waveform; And aiming the filtered light source at a flame detector to check whether it is operating normally.

The method may further include the step of controlling whether the light source of the test apparatus emits light by selecting an algorithm stored as data before passing through the step of checking whether the normal operation is performed.

The controlling of the characteristics may include controlling the size and intensity of the light source and controlling a period of light source generation.

In addition, the present invention is a test device for determining whether or not the normal operation of the flame detector, a battery unit for supplying the power inside the inspection device, a data storage unit for storing the flame detection algorithm of the flame detector for each manufacturer, and the data storage The light source generator for generating an infrared light source of the band covering the entire range of infrared wavelengths in the algorithm stored in the department, and selectively coupled to suit the flame detector corresponding to the inspection target among the flame detectors by manufacturer stored in the data storage unit And an algorithm selecting unit configured to select one of algorithms stored in the data storage unit, the band filter unit passing only infrared rays of a waveform and a main control unit controlling overall operation of the light source generator. Control the main controller to match the flame detector model selected And to control the emission characteristics negative light source occurs, the main control unit; It further includes a power control unit for controlling the size and intensity of the light source by adjusting the power supply of the light source generating unit, and a flame cycle control unit for controlling the period of the light source generation of the light source generating unit, the user corresponds to the manufacturer stored in the data storage unit By only selecting the algorithm to provide a flame detector inspection apparatus characterized in that the size, intensity and period of light source generation of the light source is automatically adjusted by the algorithm selection unit, the power control unit and the flame period control unit of the main control unit.

The present invention has the advantage that the portable can be easily configured in an uncomplicated configuration, and does not easily be damaged even by external impact, and make an inspection by making a virtual flame in a form similar to a real flame with an infrared light source. Has a safe effect.

In addition, the present invention can correspond to the flame detection algorithm of the flame detector for each manufacturer, it is possible to test a variety of flame detectors with a single inspection device, it is also effective to significantly improve the accuracy.

1 is a block diagram showing a flame detector inspection apparatus of the present invention
2 is a view showing the configuration of the main control unit in the inspection apparatus of the present invention
Figure 3 is a block diagram showing a test method of the present invention
Figure 4 is a block diagram showing another embodiment of the inspection method of the present invention

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

The flame detector inspection apparatus of the present invention is to check whether the flame detector 20 that detects the flame in the fire detector to recognize the normal operation of the fire detector, and examines the virtual flame in the form of a light source.

Flame detector inspection apparatus of the present invention as shown in Figure 1, the battery unit 100 for supplying power to the inspection device 10, and the data storage for storing the flame recognition algorithm of the flame detector 20 for each manufacturer The light source generator 300 and the light source generator 300 generating an infrared light source of a band covering all the infrared wavelength ranges in the algorithm stored in the data storage unit 200 and the manufacturer stored in the data storage unit 200. The band filter unit 400 selectively coupled to the flame detector 20 corresponding to the inspection target among the star flame detectors 20 and passes only infrared rays of a specific waveform, and controls the overall operation of the light source generator 300. The main control unit 500; characterized in that consisting of.

The battery unit 100 is a configuration for supplying power to the inspection device 10, it is preferable to configure in the form of a battery to replace or charge rather than the form of supplying external power at all times to increase portability. .

The data storage unit 200 corresponds to a configuration for storing a flame recognition algorithm of the flame detector 20 for each manufacturer. The flame recognition algorithm refers to a program that recognizes the flame in relation to the wavelength, the magnitude, the intensity of the flame, and the fluctuation of the flame. The wavelength of the flame is applied in various ways such as carbon monoxide wavelength, carbon dioxide wavelength, far infrared wavelength, extreme ultraviolet wavelength according to each manufacturer.

The light source generator 300 generates an infrared light source, and generates an infrared light source at an infrared wavelength corresponding to the entire algorithm stored in the data storage unit 200. The wavelength range may vary depending on the flame recognition algorithm of the flame detector 20 for each manufacturer, and the wider the wavelength range is, the better the general purpose.

A characteristic of the present invention is to pass the flame detector by passing only a waveform specifically detected by the flame detector 20 corresponding to the inspection object in the broadband infrared waveform spectrum generated by the light source generator 300 through the band filter unit 400. 20) to make the operation test. The band filter unit 400 is preferably provided according to the type of flame detector 20 for each manufacturer, it is a configuration that is selectively coupled according to the flame detector (20).

The band filter unit 400 is preferably formed of a lens-type filter, and as an example, the band filter unit 400 may be applied in the form of chemical coating to pass only the wavelength of the required band to the glass part.

The main controller 500 of the present invention corresponds to a configuration for controlling the overall operation of the light source generator 300. The band filter unit 400 described above does not have a control function of the light source generator 300 because it corresponds to a configuration for filtering the light source already emitted from the light source generator 300.

In addition, the present invention further comprises an algorithm selecting unit 600 for selecting one of the algorithms stored in the data storage unit 200, the main according to the flame detector 20 model selected through the algorithm selection unit 600 It is another feature to control the light emission characteristics of the light source generator 300 through the control of the controller 500.

The algorithm selector 600 allows the main controller 500 to operate the algorithm program in accordance with the stored flame detection algorithm for each manufacturer. At this time, the main control unit 500; As shown in FIG. 2, the power control unit 510 controls the size and intensity of the light source by adjusting the supply power of the light source generating unit 300, and the flame controlling the period of light source generation of the light source generating unit 300. The period control unit 520 may be further included. By controlling the light emission characteristics of the light source generator 300, the control unit 520 may be adjusted to most closely resemble the flame shape recognized by the flame detector 20.

According to the present invention, when the user selects only the desired model, that is, the algorithm among the models of various manufacturers stored in the data storage unit 200, the algorithm selection unit 600, the power control unit 510 and the flame of the main control unit 500 The period control unit 520 automatically adjusts the size, intensity, and period of light source generation so that the flame detection device can be easily and quickly tested automatically, and the update of the algorithm for adding or changing the model of the manufacturer is very good. It is convenient.

In addition, the inspection apparatus 10 of the present invention may be further provided with a laser aiming unit (not shown), a portion and a light source generating unit for receiving the flame detection of the flame detector 20 corresponding to the inspection target through the laser aiming unit. Position guidance is made so that the direction of 300 faces each other.

In addition, according to the present invention, when the algorithm input unit 700 is further provided, the algorithm of the new flame detector 20 may be additionally input. Although the algorithm of the flame detector 20 may be directly provided by the manufacturer, the algorithm itself may be found in the form of finding the characteristic of recognizing the flame using the flame detector 20 that is normally operated.

As shown in FIG. 3, the inspection method of the present invention using the inspection apparatus includes: collecting and storing each flame detection algorithm of a flame detector for each manufacturer (S-1); Preparing to generate a broadband infrared light source in the infrared wavelength range of the entire flame detector of the stored data (S-2); Combining (S-3) a band filter suitable for a model of a flame detector to be examined among the stored data to pass only infrared rays of a specific waveform; Aiming at the filtered light source to the flame detector (S-4) to check whether the normal operation; characterized in that consisting of.

The inspection method of the present invention generates an infrared light source in the band range of the infrared light source corresponding to the entire flame detector of each manufacturer as described above, and utilizes as an inspection of the flame detector, by combining a band filter to match the flame detector to be inspected By passing only the infrared light, various types of flame detectors can be operated by replacing only the band filter.

Figure 4 is another embodiment of the test method of the present invention, the step of checking whether the normal operation (S-4); before passing through to select the algorithm stored as data to control the characteristics of the light source of the test device to emit light Step (S-3 '); further comprises. At this time, the step of controlling the characteristic (S-3 '); controls the size and intensity of the light source, and controls the cycle of the light source generation to adjust most similar to the shape of the flame recognized by the flame detector of the inspection object.
In this case, as described above, the user selects the flame detection algorithm of the flame detector for each manufacturer, and if the main control unit of the inspection apparatus performs the above steps (S-3) and (S-3 ') automatically, The flame detection device can be tested automatically and quickly and automatically, and the update of the algorithm to add or change the manufacturer's model is very convenient.

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In the above, the present invention has been described with reference to the above embodiment, but various modifications can be made within the technical scope of the present invention.

10: inspection device 20: flame detector
100: battery unit 200: data storage unit
300: light source generating unit 400: band filter unit
500: main control unit 510: power control unit
520: flame period control unit 600: algorithm selection unit
700: algorithm input unit
S-1 ~ S-4: Inspection Method

Claims (6)

In the inspection device 10 for determining whether the flame detector 20 is operating normally,
Battery unit 100 for supplying power to the inspection device 10,
A data storage unit 200 for storing a flame recognition algorithm of the flame detector 20 for each manufacturer,
A light source generator 300 for generating an infrared light source of a band covering all the infrared wavelength ranges in the algorithm stored in the data storage unit 200;
Band filter unit 400 and selectively coupled to suit the flame detector 20 corresponding to the inspection object of the flame detector 20 for each manufacturer stored in the data storage unit 200 to pass only the infrared ray of a specific waveform, and
Consists of a main control unit 500 for controlling the overall operation of the light source generator 300,
The main controller 500 further includes an algorithm selector 600 for selecting one of the algorithms stored in the data storage unit 200, according to the flame detector 20 model selected through the algorithm selector 600. By controlling the light emission characteristics of the light source generator 300,
The main control unit 500; A power supply controller 510 for controlling the size and intensity of the light source by adjusting the supply power of the light source generator 300, and a flame cycle controller 520 for controlling the period of light source generation of the light source generator 300; Including more,
The user selects only the algorithm corresponding to the manufacturer stored in the data storage unit 200, so that the size and intensity of the light source are determined by the algorithm selector 600, the power controller 510, and the flame cycle controller 520 of the main controller 500. And a flame detector inspection device for automatically adjusting the period of light source generation.
delete delete In the inspection method using the flame detector inspection device,
Collecting flame recognition algorithms of the flame detectors for each manufacturer and storing them as data (S-1);
Preparing a broadband infrared light source to be generated in the infrared wavelength range of the entire flame detector of the stored data (S-2);
Combining the bandpass filter suitable for the model of the flame detector to be inspected among the stored data and filtering the filter to pass only infrared rays of a specific waveform (S-3);
Aiming at the filtered light source to the flame detector (S-4) to check whether the normal operation;
And checking the normal operation (S-4); controlling the characteristic of the light source of the inspection apparatus to be emitted by selecting an algorithm stored as data before passing through the characteristic (S-3 '). Controlling (S-3 '); controlling the size and intensity of the light source, and controlling the period of light source generation, wherein the user selects a flame recognition algorithm of a flame detector for each manufacturer, A method of inspecting a flame detection device, characterized in that the main control unit performs steps (S-3) and (S-3 ') automatically. delete delete

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