KR101114291B1 - Computer controllable, interactively communicating, multichannel fluorescent-light-illumination-level controlling system - Google Patents

Abstract

PURPOSE: A computer controllable, interactively communicating, a multichannel fluorescent-light-illumination-level controlling system are provide to save power consumption by adding a neighboring illuminance to the luminance of a lamp through an illuminance sensor. CONSTITUTION: Neighboring illuminance information is obtained and an illumination set value is outputted at illumination group(401) in a first step(S101). The illuminance of a fluorescent lamp group(401) is controlled in a second step(S102). The illuminance of the fluorescent lamp is controlled in a third step(S103). Detecting a current sensor and transmits the current value to a illumination control desk in a fourth step(S104). If an illumination value is less than a standard value, illuminance is reset in fifth step(S105).

Description

Computer controllable, interactively communicating, multichannel fluorescent-light-illumination-level controlling system

The present invention relates to a fluorescent lamp illumination control system, and more particularly, to control the illumination of the unit space in the central control system and to control the operation state on the web so that it can be controlled from a computer to save power It relates to a two-way communication multi-channel fluorescent lamp illumination control system.

The conventional illuminance control method will be described.

According to a method and a system for automatically controlling lighting in a building filed on September 06, 2010 (Application No. 10-2010-0087116), “One or more ID recognition units installed at entrances and exits to recognize IDs of users entering and exiting; And checking the user ID recognized through the ID recognizing unit, and determining whether the building has access to the identified user ID, and when the user of the user ID enters and exits the building, lighting associated with the confirmed user ID. Search for a list, control a plurality of lights included in the searched lighting list, and determine whether the user is in or out of the lighting, when the user of the user ID leaves the building, the lighting associated with the confirmed user ID Search the list, and the lighting list for other user ID among the lights included in the searched lighting list Intra-building lighting, characterized in that it comprises a building management server that determines whether there is at least one light overlapping with the lighting, and if there is a duplicate lighting, control off the remaining lights other than the duplicated lighting in the lighting list Automatic control system. "

However, since the conventional lighting control is turned on or off according to the user's presence, there is no system power saving concept that can be saved without any inconvenience when it is necessary to save power nationally, corporately, and temporally and seasonally. Since the power saving amount is limited, there is a problem that does not achieve much power saving effect.

In particular, by introducing a separate power-saving system, the power consumption is reduced by controlling the current, changing the frequency, adjusting the load, and so on, thereby reducing power consumption. Recently, LED and OLED lighting have been introduced. Although it is desirable to reduce environmental pollution and reduce the amount of electricity used, the cost of the system change is about 10 times, and the standardization, etc., has not yet been progressed, which is an obstacle to the formation of the market.

In order to cope with this, by controlling the illuminance of the existing electric fluorescent lamp appropriately, it saves the electricity consumption and extends the service life of the existing system, which is beneficial to reduce the cost of the system change, reduce the environmental pollution caused by the disposal of the existing equipment, and reuse the resources. Development of illuminance control method was needed.

The present invention is to solve the above-mentioned problems, and to meet the above-mentioned needs, to secure the flexibility of the expansion of the system, the installation of the cooling device of the main heating unit, secure the continuity of the lighting in the event of system damage to provide a stable lighting and It is an object of the present invention to provide a bidirectional communication type multi-channel fluorescent lamp illumination control method that can be controlled by a computer combining a power control system and an illumination intensity control device by enabling illumination illumination control.

The present invention for achieving the above object is a bidirectional communication type multi-channel fluorescent lamp illumination control method that can be controlled from a computer using a switchboard, lighting control system, lighting group, lighting control room; It obtains illuminance information around fluorescent lamps from the illuminance sensor and transfers the obtained illuminance information to the computer of the central control room and sets the illuminance value to% load for each lighting group and outputs the set value by computer remote control by the computer of the central control room Stage 1; A second step of transmitting the% load set in the lighting control room to a corresponding channel of the lighting control system, wherein each channel controls the illuminance of the fluorescent lamp group controlled by the lighting control system; A third step of converting a frequency by a frequency conversion circuit according to each set value indicated, and controlling the power by the power control circuit to control respective fluorescent lamp illuminances; A fourth step of detecting, by the current sensor, whether the% load is transmitted to the lighting, and transmitting a used current value to the lighting control room; Read the value of the illuminance sensor to check if the illuminance set in the fluorescent lighting group is suitable for use, and if the illuminance value does not meet the standard value that may be inconvenient to use, send the illuminance control request to the lighting control room to reset the illuminance in the lighting control room. It includes a fifth step to perform.

In an embodiment, the computer of the lighting control room is provided with software for performing the illumination control method of the first to fifth steps.

As an embodiment, all or part of the lighting control system is configured in the form of a card to enable the system expansion.

As an embodiment, the lighting control system is provided with a device switching switch which is connected to the switchboard and connected to select each control board, respectively, the device switching switch is a control for directly controlling the illuminance of the respective assigned lighting device It is connected to the board, and the internal structure of the control board is a power safety device that controls the power of fluorescent lamps, a lighting device in case of overload, a central processing unit for a calculator, an ampere meter that measures the amount of current and outputs an amperage measurement signal, and illuminance indicated in the lighting control room. Illumination regulator, a device that supplies the value indicated to the power control circuit to produce the value, current sensor that detects the amount of power used for each channel, frequency conversion circuit for reducing power by varying the frequency of the lighting power, and% load from the lighting control room. According to the power control circuit for controlling the power of the corresponding fluorescent lamp.

As an example, an illuminance sensor between the illumination control room and the lighting control system, which measures the illumination before and after the power is applied to the central processing unit and sets the desired illumination value by the central processing unit. 485 communication port for communication, cooling device composed of two intake fans and one exhaust fan to reduce heat generation of power control circuit which is the main heating part, power board for supplying lighting control system, automatic or manual It further includes an automatic / manual operation switch for turning the power on and off.

As an embodiment, the software calculates data on the amount of power used for lighting, and calculates the statistical data of the amount of power used for lighting based on the current power consumption, power usage by time zone, daily power usage / electricity savings, period The amount of power used is calculated and stored on a hard disk, and displayed on a monitor of the lighting control room or output to a printer connected to the lighting control room and printed.

As described above, the present invention is a device for adjusting the optimum working environment by adding the illumination of the illumination to the ambient illumination obtained through the illumination sensor installed in the illumination illuminance control device, the energy excess by controlling the excessive illumination and unnecessary illumination. At the same time, it will reduce the use and extend the service life of the existing equipment to induce the recycling of resources.

1 is a flowchart of a control for controlling illumination illuminance of a fluorescent lamp according to an embodiment of the present invention.
2 is a block diagram of a control circuit for controlling illumination illuminance of a fluorescent lamp according to an embodiment of the present invention.
3 is a view of a control device for controlling illumination illuminance of a fluorescent lamp according to an embodiment of the present invention.
Figure 4 is a view of a control device designed to extend the card control to the lighting control board for the illumination illuminance control of the fluorescent lamp according to an embodiment of the present invention in the card type.
5 is a computer control diagram for controlling illumination illuminance of a fluorescent lamp according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The illumination control method according to the present invention proceeds through the process as shown in Figure 1, the system configuration for implementing such an illumination control method is made as shown in FIG.

In the first step S101, the illumination information from the illumination sensor 36, that is, the illumination information around the fluorescent lamps (a) (b) (n) is obtained and the obtained illumination information is transferred to the computer of the central control room 501. By the computer remote control by the computer of the central control room 501, the illumination value is set to% load for each lighting group 401, and the set value is output. For reference, as used herein, "% load" is defined as meaning "setting value expressed in% (percent) ratio of the load of the lighting device that is a load (負荷)".

As a second step (S102), the load value, that is, the% load set in the lighting control room 501 is transmitted to the corresponding channel of the lighting control system 301, and each channel controls the illuminance of the fluorescent lamp group 401 that it controls. To control.

In the third step S103, the frequency is converted by the frequency converting circuits 49, 50, 51, and 52 according to the respective set values indicated, and the power control circuits 53, 54, 55, 56 are used. Power is controlled to control the respective fluorescent lamp illuminance.

As a fourth step (S104), the current sensor (hall sensor) 45, 46, 47, 48 detects whether the% load is transmitted to the lighting, and transmits the used current value to the lighting control room.

As a fifth step (S105), read the value of the illuminance sensor again to check whether the illuminance set in the fluorescent lighting group is suitable for use, and if the illuminance value does not meet the reference value that may be inconvenient to use, the illuminance control request to the lighting control room In this case, illuminance reset is performed in the lighting control room.

The above-described illuminance control method may be implemented by the system configuration as shown in FIG. 2, and roughly includes a switchboard 201, an illumination control system 301, an illumination group 401, and an illumination control room 501. The main feature of the lighting control system 301 can be implemented only by adding between the existing switchboard 201 and the lighting group 401 installed.

The switchboard 201 is connected to the lighting control system 301, the lighting control system 301 is connected to the lighting group 401, and the lighting control system 301 signals to the lighting control room 501 in 485 communication standard. Will be exchanged.

The lighting control room 501 generally refers to a room of a building, but for convenience of description, the lighting control room 501 is installed in a computer main body, a computer monitor, a computer input device, a computer peripheral device, a computer, and performs an illumination control method. It will be defined as referring to a computer device that includes all the software for doing so.

The lighting control room 501 can control the illuminance of a plurality of electronic fluorescent lamps in units of% from 0 to 100%, and according to the illuminance value obtained from the illuminance sensor 36 installed in the lighting control system 301, It is also possible to readjust the illuminance of a) (b) (n). In addition, the operating state of the lighting currently being controlled can also be checked on the monitor of the lighting control room 501.

The lighting control system 301 is provided with device switching switches 31, 32, 33 and 34 which are connected to switchboards, respectively, to select and connect the respective control boards 38, respectively. It is connected with a control board 38 for directly controlling the illuminance of the assigned lighting device.

The internal structure of the control board 38 includes a power supply safety device 39 for controlling a power supply of a fluorescent lamp as an overload device, a central processing unit (CPU) 40 for a calculator, and a current amount measuring device for measuring an amount of current and outputting a current amount measurement signal ( 41), the illuminance controller 42, which is a device for supplying the value indicated to the power control circuits 53, 54, 55, 56 to produce the illuminance value indicated by the lighting control room 501, and the amount of power used for each channel. Current sensors (hall sensors) 45, 46, 47, 48 to detect, change the frequency of the lighting power source, the frequency conversion circuit (49, 50, 51, 52) to reduce the power to the load from the lighting control room 501 Therefore, the power control circuit 53, 54, 55, 56 for controlling the power of the corresponding fluorescent lamp is configured.

On the other hand, the illuminance sensor 36 and illumination control room which measure illuminance before and after the power is applied to the central processing unit 40 and set the desired illuminance value by the central processing unit 40. 485 communication port 35 for 485 communication between the 501 and the lighting control system 301, two intake fans and one to reduce heat generation of the power control circuits 53, 54, 55 and 56, which are the main heating parts. A cooling device 37 composed of an exhaust fan, a power board 43 for supplying power to the lighting control system, and an automatic / manual operation switch 57 for automatically turning on or off the power of the lighting device are provided.

Here, it is a device for controlling the lighting of the fluorescent lamp in the unit of the lighting control room in the unit, it is composed of four channels and can control the power of 500W per channel, it is possible to control the power of 2,000W per control system.

As described above, the control between the lighting control room and the lighting control system applies RS 485 communication, and the control board 38 of the lighting control system 301 can be extended to a card type, and three cards can be extended to the main body. It is supposed to be. Each card, that is, a current sensor (hall sensor) for checking the amount of power used for each channel is installed, and the power usage data can be calculated in connection with the program of the lighting control room 501.

The switchboard 201 and the lighting group 401 are widely used in the existing structure. The switchboard 201 and the lighting group 401 are connected to the channel 38 of the lighting control system in the existing switchboard 201 by 1: 1, and assigned to each channel in the lighting group. In total, the device can use a 500 W power source per channel. Each lighting group has the same illumination value per group.

On the other hand, as shown in Figure 3, between the lighting control room 501 and the lighting control system 301 to send and receive signals in the 485 communication standard, each of the lighting control system 301 to send and receive signals in the 485 communication standard, The lighting control system 301 is provided with a protection fuse F for protection of internal components due to overcurrent / overvoltage.

In particular, as shown in FIG. 4, part or all of the lighting control system 301 is designed to be extended in units of three 4-channel cards 601, and the power supply is supplied like the automatic / manual operation switch panel 701. There are buttons that can be turned on and off manually, and can be manually turned on and off for each channel.

And, as shown in Figure 5, the monitor screen 801 of the lighting control room 501, the administrator can know the history of the power used by the lighting group, that is, the power consumption by period, current usage, hourly usage and whether the lamp is off by fluorescent lights So that it is displayed.

In other words, the software calculates data on the amount of power used for lighting, and calculates the statistical data of the amount of power used for lighting based on the current power consumption, power usage by time zone, daily power usage / electricity savings, power usage by period It is calculated and stored in the hard disk, and displayed on the monitor of the lighting control room.

201; Switchboard 301; Lighting control system
401; Lighting group 501; Lighting control room
21; Switchboard 1 22; Switchboard 2
23; Switchboards 3 24; Switchboard 4
31, 32, 33, 34; Device changeover switch 35; 485 communication port
36; Ambient light sensor 37; Chiller
38; Control board 39; Power safety device
40; Central processing unit 41; Ammeter
42; Light control 43; Power board
45; Current sensor 1 46; Current sensor 2
47; Current sensor 3 48; Current sensor 4
49, 50, 51, 52; Frequency conversion circuits 53, 54, 55, 56; Power control circuit
57; Automatic / manual control switch a, b, n; Fluorescent lamps 1, 2 ... n
F; Protection fuse

Claims (6)

Device switching switches 31, 32, 33 and 34, which are connected to the switchboard 201 and the switchboard, respectively, to select and connect the respective control boards 38, are provided. It is connected to the control board 38 for directly controlling the illuminance of the lighting device, the internal configuration of the control board 38 is a power supply safety device 39 for controlling the power of the fluorescent lamp which is a lighting device in case of overload, a central processing unit for the calculator (CPU; 40), the electric current measuring device 41 for measuring the electric current and outputting the electric current measuring signal, and instructs the power control circuits 53, 54, 55, 56 to give the illuminance value indicated by the lighting control room 501; Illumination controller 42, which supplies a single value, current sensor (hall sensor; 45, 46, 47, 48) for detecting the amount of power used for each channel, and frequency conversion circuit for reducing power by varying the frequency of illumination power (49, 50, 51, 52), fluorescent lamps corresponding to the% load from the lighting control room (501) Two-way communication type multi-channel controllable from a computer using the lighting control system 301, the lighting group 401, and the lighting control room 501, including a power control circuit 53, 54, 55, 56 for controlling the power of the In the fluorescent lamp illumination control method,
The illumination device, i.e., illuminance information around the fluorescent lamps (a) (b) (n) is obtained from the illuminance sensor 36, and the obtained illuminance information is transmitted to the computer of the central control room 501, thereby providing the computer of the central control room 501. A first step of setting the illuminance value to the% load for each lighting group 401 by computer remote control by the controller and outputting the set value;
A second step of transmitting a load value, that is,% load, set in the lighting control room 501 to a corresponding channel of the lighting control system 301, each channel controlling illumination of the fluorescent lamp group 401 controlled by the channel;
The frequency is converted by the frequency conversion circuits 49, 50, 51, and 52 according to the respective set values indicated, and the power is controlled by the power control circuits 53, 54, 55, and 56, respectively. A third step of controlling the illuminance of the fluorescent lamp;
A fourth step of detecting, by the current sensor (hall sensor; 45, 46, 47, 48) whether or not the load is transmitted to the lighting, and transmitting a used current value to the lighting control room;
Read the value of the illuminance sensor to check if the illuminance set in the fluorescent lighting group is suitable for use, and if the illuminance value does not meet the standard value that may be inconvenient to use, send the illuminance control request to the lighting control room to reset the illuminance in the lighting control room. A fifth step of performing;
The computer of the lighting control room 501 is provided with software for performing the illumination control method of the first to fifth steps;
A bidirectional communication type multi-channel fluorescent light control method that can be controlled by a computer configured to expand the system by configuring all or part of the lighting control system in the form of a card.
The method of claim 1,
The illuminance sensor 36 and the illumination control room 501 which measure the illuminance before and after the power is applied to the central processing unit 40 to set the desired illuminance value by the central processing unit 40. ) And 485 communication port 35 for 485 communication between the lighting control system 301 and two intake fans and one exhaust fan to reduce heat generation of the power control circuits 53, 54, 55 and 56, which are the main heating parts. Computer further comprises a cooling device 37, a power supply board 43 for supplying power to the lighting control system, and an automatic / manual operation switch 57 for automatically or manually turning on and off the lighting device. Two-way communication multi-channel fluorescent lamp illumination control method.
The method of claim 1,
The software calculates the data on the amount of power used for lighting, and calculates the current amount of electricity used, the amount of electricity used for each hour, the amount of electricity used per hour, the amount of electricity consumed per day, the amount of electricity used, and the amount of electricity consumed per period. And storing the information on a hard disk, and displaying on a monitor of the lighting control room or outputting and printing to a printer connected to the lighting control room. delete delete delete

Images