KR100709346B1 - Wireless communication induction light inspection system - Google Patents

Abstract

The present invention relates to a wireless communication induction light inspection system, the inspector can check the state of the induction light without the inconvenience of operating the switch equipped in the induction light, and to check the number of induction lights by wireless communication so as not to build unnecessary lines. For the purpose.

Wireless communication induction light inspection system according to the present invention, measuring the battery voltage applied to the induction lamp lamp in the emergency and the current applied to the lamp and is provided with a communication module 11 is assigned to each of the plurality of induction lamps 1 assigned Being a check module 10; A portable terminal 20 for wirelessly communicating with the inspection module to select an inspection target induction lamp among the induction lamps and to operate an operation of the inspection module to check the state of the induction lamp and to store inspection data; The main computer 30 may be configured to receive a check data such as an induction lamp for each address stored in the terminal through wired communication with the portable terminal, determine a state of each induction lamp, and construct a database.

Induction light, check, system, computer, terminal, communication

Description

A wireless checking system for guide-light

1 is a block diagram of a wireless communication induction lamp inspection system according to the present invention.

Figure 2 is a system diagram of the inspection module applied to the wireless communication induction lamp inspection system according to the present invention.

Figure 3 is a block diagram of a terminal applied to the wireless communication induction light inspection system according to the present invention.

Figure 4 is a block diagram of a terminal applied to the wireless communication induction lamp inspection system according to the present invention.

Figure 5 and Figure 6 is an illustration of the misleading lamp inspection results by the wireless communication induction lamp inspection system according to the present invention, respectively.

<Description of Symbols Used in Main Parts of Drawings>

1: induction lamp, 10: inspection module

20: terminal, 30: main computer

The present invention relates to a wireless communication induction lamp inspection system, and more specifically, the inspector can check the state of the induction light (battery remaining, whether the lamp is lit) without the inconvenience of operating the switch equipped in the induction light, The present invention relates to a wireless communication induction light inspection system which checks the induction light by wireless communication so as not to construct unnecessary lines.

Induction lamps are installed in buildings in accordance with fire law for the purpose of evacuation and guidance of people in case of power failure or fire occurrence, and have been developed in various forms to effectively carry out the purpose.

Conventional induction lamps mainly used fluorescent lamps, but the lifespan of the fluorescent lamps is short, which causes the hassle of frequent replacement. It is common to use.

The lifetime of the cold cathode fluorescent lamp is 60,000 hours on average, it has the advantage that can continue to light for 6 to 8 years when it operates 24 hours a day 365 days a year.

The cold cathode fluorescent lamps are used in various places because they do not dissipate heat, consume less power, and provide very bright white light. Since the CCFL is turned on at a high frequency and high voltage, an inverter circuit including an inverter unit for receiving power from a DC power supply unit and converting it into a high frequency, and a transformer unit for receiving power from the inverter unit and boosting the voltage to a high voltage is required.

Conventional induction light control device uses a commercial AC power input simply to turn on the lamp (induction lamp), and equipped with a separate rechargeable battery in case of power failure or fire, and displays that the commercial AC power is normally input The diode is constructed. In other words, the induction lamp control device normally supplies power to the battery charging circuit without turning on the induction lamp with commercial power or on the induction lamp to charge the battery power, and in case of emergency AC power is cut off, the induction lamp using the battery power. It lights up to let you know the location of the emergency exit.

Therefore, conventionally, in order to check whether the preliminary power supply (battery) such as the induction lamp is normally charged, the pull switch or the limit switch is mounted and pull or press the string of the pull switch to switch off the AC power so that the AC power supply is abnormal. We could check and see if there was any.

However, in the above inspection method, if the installation position of the induction lamp is installed at a high position such as a ceiling lamp, the full switch or the limit switch cannot be operated. Therefore, the inspection is possible only by using a tool such as a ladder. It was very inconvenient to confirm. In addition, because the induction light is installed in the element elements of each floor of the building, it is very inconvenient because you have to operate the switch of the induction light to check all the induction lights. Therefore, the inspectors are often left unchecked, so there is a problem that induction lights do not come in properly in case of an emergency, so that evacuees to emergency exits cannot be guided in a short time.

In order to solve this drawback, the induction light control device has been proposed as a domestic patent application No. 2003-11441.

The induction lamp control device according to the prior art selectively controls the lamp according to the control information transmitted from the main fire management system through the communication means, and also diagnoses the state of charge of the battery, the lamp life, whether there is a failure, etc. By constructing the control means for transmitting the result to the main fire control system through the communication means, it is possible to remotely control the induction lamps installed in the elements of the building, and to cope with the life and failure of the induction lamps in one place. In addition, the display means for displaying the diagnostic information from the control means itself, so that the operator can diagnose the state of the induction light without disassembling the induction light during maintenance.

However, according to the induction light control apparatus according to the prior art, because the induction light and the main system is connected by a wired communication line, a separate line facility must be constructed, which is expensive, and a separate line facility is constructed in the induction light of an already completed building. It is very inconvenient and difficult to do, which has the disadvantage of low utility.

The present invention is to solve the problems as described above, even if the inspector moves to the installation position of the induction light for the diagnosis of the induction light can diagnose the state of the induction light without unnecessary work to operate the switch of the induction light, the diagnosis of the induction light The purpose of the present invention is to provide a wireless induction light inspection system that can minimize the cost for the service.

Wireless communication induction lamp inspection system according to the present invention for achieving the above object, the plurality of induction lamps are mounted to each of the unique address assigned to the inspection module for checking the lamp and battery of the induction lamp; A portable terminal for wirelessly communicating with the inspection module, selecting a inspection target induction lamp among the induction lamps, and operating an operation of the inspection module to check the state of the induction lamp and to store inspection data; And it is characterized in that it comprises a main computer for determining the state of each of the induction light and establish a database by receiving the check data of the induction light for each address stored in the terminal by wire communication with the portable terminal.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, the terms or words used in the present specification and claims are defined in the technical spirit of the present invention on the basis of the principle that the inventor can appropriately define the concept of the term in order to explain his invention in the best way. It must be interpreted to mean meanings and concepts.

As shown in Figure 1, the wireless communication induction lamp inspection system according to the present invention, each installed in the induction lamp (1), the inspection module for diagnosing the state of the induction lamp (1) (battery charge state, lamp life, whether fixed, etc.) 10; A terminal 20 for wirelessly communicating with the inspection module 10 and storing the inspection data from the inspection module 10 and the inspection module 10; In addition, the main computer 30 is configured to be connected to the terminal device 20 and wired to construct a diagnosis result of the induction lamp 1 stored in the terminal 20 as a database.

Induction lamp check module 10 is mounted to each induction lamp (1) to diagnose the state of charge of the battery (B) and the life of the lamp (L) in an emergency, as shown in Figure 2, commercial power and induction lamp inverter (1a) It is connected in series to the induction light inverter 1a at the time of inspection and cuts off the commercial power applied to the induction light inverter 1a from the battery B by being wired to a pair of wires connecting the induction light inverter 1a and the battery B, respectively. ) And check the current applied to the lamp (L) is wired connected to the lamp (L) and the induction lamp inverter (1a), respectively. The check method of the lamp L is a reference current comparison circuit method, and compares the reference current, for example, 6 mA with the current of the current lamp L, and determines that the current current is higher than the reference current and defective if it is lower than the good / reference current. The check method of the battery B is a reference voltage comparison circuit, and compares the reference voltage, for example, 5.5V with the voltage of the current battery B, and determines that the current voltage is higher than the reference voltage and is poor if it is lower than the good / reference voltage.

Induction light inspection module 10 is equipped with a communication module 11 for wireless communication with the terminal 20, the individual induction light inspection module 10 to check a plurality of induction lights (1) to store a plurality of inspection data together Are each given a unique address.

The terminal 20 commands the induction light inspection module 10 to check the induction light inspection module 10 by wireless communication, stores the data obtained by the induction light inspection module 10, and inputs the same to the main computer 30. 3 and 4, the communication module 21 for wireless communication with the communication module 11 of the induction lamp inspection module 10, the display 22 for outputting the inspection data, the inspection Button 23, data transmission button 24, address selection button 25, control unit 26 for controlling the operation of the device, and the data stored in the memory of the control unit 26 and the control unit 26 to the main computer 30 It is made of a USB port 27 is connected to the wire to be transmitted to. The above components are integrated into the terminal case 28.

The inspection control unit 26 includes a program memory and a data memory, and stores a unique address for each position of the induction lamp 1 so that the address of the current position induction lamp 1 can be checked and the induction lamp 1 of the selected address can be checked. have.

The terminal 20 can use both an RF method and an IR method.

The main computer 30 is wired to the terminal 20 to collect data stored in the control unit 26 of the terminal 20 to build a database, and compare the stored data with the predetermined reference data to the induction lamp 1. Diagnose the condition. That is, the main computer 30 already stores the reference data (the reference voltage of the battery B and the reference current of the lamp L) and references the check data (battery voltage and lamp current) stored in the terminal 20. By comparing the data, if the current check data is lower than the standard data, it is judged as a fault and the fault is recorded and alerted.

The CPU (not shown) of the main computer 30 may database the inspection results in various forms. For example, as shown in FIG. 5, all of the inspection lights 1 to be inspected are based on the unique address of the induction lights 1. By arranging in the form of a table or as shown in Figure 6, it can be constructed in the form of a check log for each induction lamp. In the tables of FIG. 5 and FIG. 6, "T" is normal, "F" means failure, and "T" and "F" can be arbitrarily determined by a user.

In addition, the inspection result may be transmitted to the terminal 20 so that the inspector may check the display 22 of the terminal 20.

The operation of the wireless communication induction lamp inspection system according to the present invention configured as described above is as follows.

For the inspection of the induction light 1, the inspector selects the inspection target induction light 1 through the unique address of the induction light of the terminal 20. For example, the terminal 20 stores a map for knowing the location of each induction light so that an inspector can view the induction light map and check the unique address of the current position induction light 1 and the direction key 25a of the terminal 20. Go to the inspection target address through 25b), and press the address selection button 25 to select the inspection target guidance lamp 1. Alternatively, the induction light address may be displayed on the outside of the induction light 1 to visually check the inspector, and then select the induction light to be inspected. Alternatively, the address may be recorded in the induction lamp 1 in the form of a barcode so as to automatically recognize the address during inspection.

When the inspection target induction lamp 1 is selected, the inspection button 23 is pressed to order the inspection. The inspection module 10 receives an inspection command through communication between the communication modules 11 and 21, thereby cutting off the commercial power and turning on the lamp L by the battery B power. The output voltage of (B) and the output voltage of the lamp (L) are sensed.

When the check button 23 is pressed, the check is completed within a predetermined time (approximately within 1 second), and when the data transmission button 24 is pressed, the check module 10 transmits the check data to the terminal 20 and the terminal 20 Control unit 26 stores the transmission data in the memory (induction, etc.).

When the inspection data is transmitted from the inspection module 10, the controller 26 outputs the data to the display 22.

In this way, a plurality of induction lamps (1) to check, and when the inspection of the induction light (1) is completed after the wired connection between the terminal 20 and the main computer 30 to check the result of the inspection of the induction light (1), After driving the driving driver, the data stored in the memory of the terminal 20 is transferred to the memory of the main computer 30. Then, when the result of checking the stored data is executed, the stored reference data and the current data are compared to each induction lamp ( The state (lamp L, battery B) of 1) is determined and displayed. (See FIGS. 5 and 6)

As described above, according to the wireless communication induction light inspection system according to the present invention, even if the inspector moves to the installation position of the induction light in order to check the state of the induction light, the terminal is operated remotely without selecting the inspection switch provided in the induction light. Therefore, the induction lamp can be checked, so the induction lamp can be easily checked even if the installation position of the induction lamp is installed in a place where it is difficult to operate the switch.

In addition, since a plurality of inspection data such as induction lamps are stored in the terminal, the terminal can be connected to the main computer of the management room to check the state of the induction lamp on the basis of the acquired data, thereby eliminating unnecessary track equipment.

While the invention has been described and illustrated in connection with a preferred embodiment for illustrating the principles of the invention, the invention is not limited to the configuration and operation as such is shown and described. Rather, it will be apparent to those skilled in the art that many changes and modifications to the present invention are possible without departing from the spirit and scope of the appended claims. Accordingly, all such suitable changes and modifications and equivalents should be considered to be within the scope of the present invention.

Claims (2)

In the system for checking the induction lamp by wireless communication with a check module, a portable terminal and a main computer, A check module 10 for measuring a battery voltage applied to an induction lamp and an electric current applied to the lamp in an emergency, and having a communication module 11 provided with a unique address assigned to each of the plurality of induction lamps 1; A portable terminal 20 for wirelessly communicating with the inspection module to select an inspection target induction lamp among the induction lamps and to operate an operation of the inspection module to check the state of the induction lamp and to store inspection data; And, Wireless communication induction light inspection system comprising a main computer 30 for receiving the check data of the induction light for each address stored in the terminal by wire communication with the portable terminal to determine the state of each induction light and to build a database . The portable terminal of claim 1, wherein the portable terminal comprises: a communication module 21 for wireless communication with the communication module of the check module, a displayer 22 for outputting check data, a check button 23 for commanding check, and data. A transmission button 24 for commanding transmission of the signal, a selection button 25 for selecting an address which is a unique number of the induction lamp, a control unit 26 for controlling the operation of the device and storing data, and a USB port connected to the main computer. Wireless communication induction lamp check system, characterized in that configured to include (27).

Images