KR19990015133A - Malfunction detection method and device of fluorescent lamp using optical sensor - Google Patents

Abstract

The present invention includes a sensor unit for detecting the malfunction of the fluorescent lamp, the sensor unit for detecting the frequency of the AC power supply having an optical sensor attached to the fluorescent lamp; A reference frequency generator for generating a reference frequency; A comparison unit comparing the detection frequency with the reference frequency and outputting a difference signal corresponding to the difference; A filter unit for extracting a difference signal; A microcontroller for determining an operation state of a current fluorescent lamp according to the filtered difference signal; A memory for storing state information of the current fluorescent lamp; And a display unit for displaying the operation state of the current fluorescent lamp. In addition, the microcontroller detects the frequency of the AC power applied to the fluorescent lamp, compares the detected frequency detected by the detecting step with a preset reference frequency, and determines the operation state of the current fluorescent lamp according to the comparison result. And storing and displaying the determination result. Therefore, there is an effect that it is possible to efficiently manage the operation state of the fluorescent lights installed in a building such as a school, a library with a small number of people.

Description

Malfunction detection method and device of fluorescent lamp using optical sensor

The present invention relates to a malfunction detection device of a fluorescent lamp using an optical sensor, and in particular, it is possible to efficiently manage by finding out the on / off state and flicker by using the optical sensor for a plurality of fluorescent lamps installed in a building such as a school or a library. The present invention relates to a malfunction detection device of a fluorescent lamp using an optical sensor.

In general, many fluorescent lamps are installed in public buildings such as schools and libraries. However, it takes a lot of time to troubleshoot each fluorescent lamp, as well as being distributed in a large area, the inconvenience of having to check whether the failure by the naked eye exists. In addition, it is relatively easy to check when the fluorescent lamp is turned off in a faulty state. However, when the flicker occurs due to the end of the service life, the inspection is not carried out. There was an inefficient problem.

SUMMARY OF THE INVENTION An object of the present invention is to provide a malfunction detection apparatus for a fluorescent lamp using an optical sensor that can be efficiently managed by a small number of people by easily finding out the failure of the fluorescent lamp and flickering of the fluorescent lamp by determining the operating state of the fluorescent lamp using an optical sensor. Is in.

Another object of the present invention is to provide a malfunction detection method of a fluorescent lamp using an optical sensor that can determine the operating state of the fluorescent lamp using the optical sensor and recognize the on / off state and flicker of the fluorescent lamp according to the determination result.

1 is a block diagram of a malfunction detection device of a fluorescent lamp using the optical sensor of the present invention;

Figure 2 is a flow chart of the operation of the malfunction detection device of a fluorescent lamp using the optical sensor of the present invention.

Explanation of symbols for main parts of the drawings

10: sensor unit 20: reference frequency generator

30: comparison unit 40: filter unit

50: microcontroller 60: memory

70: display unit

An apparatus for detecting a malfunction of a fluorescent lamp using the optical sensor of the present invention is an apparatus for detecting an operating state of a plurality of fluorescent lamps, the apparatus including an optical sensor attached to the fluorescent lamp and detecting a frequency of an AC power source applied to the fluorescent lamp. A sensor unit, a reference frequency generator for generating a reference frequency for determining an operation state of the fluorescent lamp, and a detection frequency detected by the sensor unit and a preset reference frequency are compared, and corresponding to the difference between the detection frequency and the reference frequency. A comparator for outputting a difference signal, a filter part for filtering an effective component for the difference signal of the comparator, and a difference signal filtered by the filter part, and receiving a current fluorescent lamp according to the difference signal. A microcontroller for controlling an operation for determining an operation state and storing and displaying a result of the determination; And a memory for storing state information of the current fluorescent lamp under the control of the roller, and a display unit for displaying the operation state of the current fluorescent lamp under the control of the microcontroller.

Malfunction detection method of a fluorescent lamp using the optical sensor of the present invention is a method for detecting an operating state for a plurality of fluorescent lamps, detecting the frequency of the AC power applied to the fluorescent lamp, the detection detected by the detection step And comparing the frequency with a preset reference frequency, determining an operation state of the current fluorescent lamp according to the comparison result, and storing and displaying the determination result.

Hereinafter, a preferred embodiment of the present invention will be described in detail according to the accompanying drawings.

1 is a block diagram of an apparatus for detecting a malfunction of a fluorescent lamp using the optical sensor of the present invention. As shown, the present invention includes a sensor unit 10 for detecting the frequency of the commercial power supply (AC power supply) supplied to each fluorescent lamp with an optical sensor attached to each of the fluorescent lamps, and the frequency at which the fluorescent lamp operates normally When the reference frequency is set to the reference frequency generating unit 20 for generating a reference frequency (60 Hz) according to the control signal of the microcontroller 50 to be described later, the detection frequency detected by the sensor unit 10 and the reference A comparator for receiving a reference frequency output from the frequency generator 20, a comparator 30 for outputting a difference signal corresponding to the difference, and a filter unit for filtering the difference signal of the comparator 30 40 and the microcontroller 50 for determining the operation state of the fluorescent lamp according to the difference signal filtered by the filter unit 40, and storing and displaying the determination result under the control of the microcontroller 50. Current fluorescent lamp image Memory 60 storing information; And a display unit 70 for displaying an operation state of a current fluorescent lamp under the control of the microcontroller 50.

First, the microcontroller 50 determines an operation state of each fluorescent lamp under a state in which AC power is supplied from a power supply terminal (not shown), and then controls an operation of displaying through the display unit 70 so that a user can check it. . The display unit 70 uses a seven segment that is easy to operate and easy to control. The microcontroller 50 stores the information on the operation state of a predetermined fluorescent lamp in the memory 60, and reads the state information of the stored fluorescent lamp upon request from an upper controller (not shown) that generally controls other devices. send.

That is, in the present invention, the microcontroller 50 controls the overall operation of the fluorescent lamp, and compares the reference frequency (60 Hz) at a steady state with the currently detected detection frequency (fs) using an optical sensor attached to the fluorescent lamp. The fluorescent lamp determines whether the on / off state is detected, and when the detection frequency fs is greater than 0 Hz and less than 60 Hz, it is recognized as a flickering state. An operation of determining the operation state of such a fluorescent lamp will be described with reference to FIG.

2 is an operation flowchart of a malfunction detection apparatus of a fluorescent lamp using the optical sensor of the present invention. First, the microcontroller 50 determines whether power is supplied (step S1). If the power is not supplied as a result of the determination of the microcontroller 50 in step s1, it is recognized that the fluorescent lamp is in the 'off' state (step S5). When power is supplied as a result of the determination of the microcontroller 50 in step S1, it is determined whether the detection frequency fs detected by the optical sensor is greater than or equal to 60 Hz (step S2). If the detection frequency fs is greater than or equal to 60 Hz as a result of the determination by the microcontroller 50 in step S2, it is recognized that the fluorescent lamp is in the 'on' state (step S6). As a result of the determination of the microcontroller 50 in step S2, if the detection frequency fs is less than 60 Hz, it is determined whether it is larger than 0 Hz (step S3). If the detection frequency fs is smaller than 0 Hz as a result of the determination by the microcontroller 50 in step S3, it is recognized that the fluorescent lamp is in a broken state (step S7). When the detection frequency fs is greater than 0 Hz as a result of the determination by the microcontroller 50 in step S3, it is recognized that the fluorescent lamp is flickering (step S4). After performing the steps S4, S5, S6, and S7, the microcontroller 50 stores the operation state of the fluorescent lamp in the memory 60 (step S8). The operating state of is continuously detected.

The present invention as described above can easily detect the operation state by installing an optical sensor in a plurality of fluorescent lamps installed in schools, libraries, buildings, etc., the fluorescent lamp flickering can be immediately confirmed through the display unit to quickly detect the fluorescent lamp in a timely manner. Can be exchanged. In addition, when applied to the central control room has the effect that can be efficiently managed with a small number of people.

Claims (3)

In the apparatus for detecting the operating state for a plurality of fluorescent lamps, A sensor unit having an optical sensor attached to the fluorescent lamp and detecting a frequency of an AC power source applied to the fluorescent lamp; A reference frequency generator for generating a reference frequency for determining an operating state of the fluorescent lamp; A comparison unit comparing the detection frequency detected by the sensor unit with a preset reference frequency and outputting a difference signal corresponding to a difference between the detection frequency and the reference frequency; A filter unit which filters to extract an effective component of the difference signal of the comparator; A microcontroller configured to receive a difference signal filtered by the filter unit, determine an operation state of a current fluorescent lamp according to the difference signal, and control an operation for storing and displaying a determination result; A memory for storing state information of a current fluorescent lamp under control of the microcontroller; And And a display unit which displays an operation state of a current fluorescent lamp under the control of the microcontroller. The apparatus of claim 1, wherein the microcontroller recognizes flicker of the fluorescent lamp when the detection frequency is changed between 0 Hz and 60 Hz. In the method for detecting the operating state for a plurality of fluorescent lamps, Detecting a frequency of an AC power source applied to the fluorescent lamp; Comparing the detection frequency detected by the detecting step with a preset reference frequency, and determining an operation state of a current fluorescent lamp according to the comparison result; And And detecting and storing the result of the determination.