KR102196331B1 - LED luminaire using user based IOT and mobile, user based LED luminaire system and method for them - Google Patents

Abstract

The present invention relates to an LED luminaire using a user-based IoT and a mobile, a user-based LED luminaire system and a method therefor, to automatically and constantly maintain a lighting condition in the street or tunnel by using the IoT and the mobile, and use lighting equipment optimized for the site according to a user or user-base in spacious indoor spaces including homes, apartments, schools, offices, and in the construction of homes, offices, factories, tunnels, or the like. The LED luminaire system includes: a power supply unit for supplying DC power by rectifying commercial AC power to an LED module wherein a plurality of LEDs are connected in parallel or in series; an LED driving unit for supplying a driving current to the LED module according to the DC power supplied from the power supply unit; a current sensing unit for controlling the current supplied from the LED driving unit to the LED module; and a sensing control unit for detecting the amount of light in an indoor space and controlling the LED driving unit and the current sensing unit according to the detected light amount, wherein the sensing control unit includes: an optical sensor detector which detects and outputs the amount of light outside the indoor space together with the amount of each of the plurality of LED luminaires; a microwave sensor which detects the human body; a remote control signal receiver for receiving a remote control signal; a mobile data receiver for receiving data from a mobile phone including a smartphone; and a controller which controls on/off, dimming, and light quantity of the LED module in response to signals detected by the optical sensor detector, the microwave sensor, and the remote control signal receiver, and signals received from the mobile data receiver.

Description

LED luminaire using user based IOT and mobile, user based LED luminaire system and method for them}

The present invention relates to an LED lighting device using IOT and mobile, and automatically schedules lighting conditions in a wide indoor space such as home, apartment, school, office, etc., and outdoors including streetlights and tunnels using IOT and mobile. User-based IOT and mobile-based LED lighting fixtures that can be maintained and used in construction such as homes, offices, factories, and outdoors that are optimized for the site according to the user or user's base, and user-based It relates to an LED luminaire system and method.

In general, lighting units are installed indoors such as houses (homes, apartments), offices, and factories. Conventionally, an incandescent lamp or a fluorescent lamp was mainly used as a light source of the lighting unit, and a fluorescent lamp is still mainly used. However, incandescent lamps and fluorescent lamps consume more power and have a short lifespan compared to lighting efficiency, and fluorescent lamps have a serious problem of environmental pollution due to mercury leaking out during disposal.

Due to these problems, recently, low power consumption, semi-permanent life, and eco-friendly LEDs have been in the spotlight as light sources worldwide.

In addition, the dimming function of the lamp is a function to control the brightness of the lamp and use it according to the user's convenience, and its use is very limited. However, energy consumption saving has emerged as a very important problem due to the increase in the current electric energy usage, and accordingly, the dimming function of the lamp, which has been an optional function for the user's convenience, has emerged as an essential function for saving electric energy.

In addition, in order to meet the necessity of saving electric energy, devices such as light emitting diodes (LEDs) as semiconductor light emitting devices have various advantages such as low power consumption, high luminance, and long lifespan. Is gradually expanding.

On the other hand, in the conventional interior with windows, there is a significant difference in brightness due to the natural light depending on which side of the window is arranged in the east, west, north, south, and the sun's altitude according to the change of time or season. LED lighting fixtures exhibit constant illumination despite changes in the brightness of the external environment, so even when lighting is not necessary because the surroundings are bright, power is wasted because the lighting remains as it is. There was a problem such as not being able to achieve a satisfactory lighting environment because it was not lit.

In addition, the surrounding illuminance is continuously changed, and since the lighting equipment is generally controlled only by ON/OFF, there is a problem that it is difficult to maintain the indoor environment with optimal lighting considering power consumption.

An example of a technique for solving this problem is disclosed in Documents 1 to 3 below.

For example, in Patent Document 1 below, as shown in FIG. 1, a power supply unit, a light source unit, a rectifying unit 11 for converting AC power to DC power, a transformer for boosting or stepping down the DC power, and a primary winding of the transformer A converter unit 12 including a main switch connected to and an output circuit connected to the secondary winding of the transformer and supplying driving power to a plurality of LEDs, and the converter unit 12 by outputting a control signal to the main switch LED comprising a controller 13 for controlling the operation of and an output changer 14 disposed on the primary side of the transformer and for changing the driving power by adjusting at least one of an operating frequency and a duty ratio of the control signal Disclosed is a drive device.

In addition, in the following Patent Document 2, in a fluorescent lamp including a fluorescent lamp case, a fluorescent lamp mounted on the socket of the case, and a ballast built in the case, a light amount sensor for detecting ambient illumination is provided on one side of the bottom of the case, Disclosed is a fluorescent lamp having an automatic dimming mechanism including a dimming controller that receives a light detection signal from the light amount sensor and adjusts the output according to the control of the dimming controller.

In addition, in Patent Document 3 below, infrared rays (IR) through a remote control and a wireless keypad for wall mounting can increase the learning ability of high school students and students, and to emit light that can stimulate and treat the emotional part of the human body. An infrared transmitter that controls a remote full color LED (Full Color LED) lighting module with a signal, and a warm light and cool (warm light) and cool ( It discloses an LED luminaire for full-color LED (Full Color Led) lighting consisting of a full-color LED (Full Color Led) lighting module that is variable and driven by a cool light) light and a cure light.

However, the LED disclosed in the patent document as described above has the advantage that it is easy to adjust the illuminance and the color can be adjusted using a remote control or the like. On the other hand, indoors, it is common to illuminate the room by being lit even during daytime.In many cases, the brightness of the window where the sunlight shines is greater than the brightness of the light emitted by the lighting unit.In this case, the lighting of the lighting unit is meaningless and unnecessary. There is a problem of consuming only energy, and on a day when the weather changes are volatile, there is a cumbersome problem of turning on and off the lighting unit to save energy according to the brightness of incoming natural light (sunlight).

In particular, in the technology disclosed in Patent Document 2, low-power dimming is difficult, and as a result, dimming a fluorescent lamp has a fatal effect on the lamp life as the tube voltage and tube current of the lamp change, and a standard ballast and a fluorescent lamp are used in the luminaire. There was also a problem in that it was configured with a dimming control device of, and was limited in space.

In addition, in the above-described Patent Documents 1 to 3, there is also a problem that there is no relationship with the age and age of users who actually use lighting, and the presence or absence of vision or eye diseases.

Prior Document 1: Republic of Korea Patent Application Publication No. 2016-0130095 (published on November 10, 2016)-LED driving device Prior Literature 2: Republic of Korea Utility Model Publication No. 20-0415581 (registered on April 27, 2006)-Fluorescent lamp with automatic dimming device Prior Document 3: Republic of Korea Patent Publication No. 10-0956066 (registered on April 27, 2010)-LED luminaire for full color LED (Full Color Led) lighting through full color LED (Full Color Led) lighting control unit Prior Document 4: Korean Patent Publication No. 10-0776916 (registered on November 8, 2007)-Lighting equipment for eye protection

An object of the present invention has been made to solve the above-described problems, and it is possible to save energy by automatically adjusting the brightness according to self-luminescence and the amount of ambient light, and to prevent accumulation of eye fatigue of indoor residents. It is to provide a user-based IOT capable of recommending suitable luminaires, an LED luminaire using mobile, and a user-based LED luminaire system and method for the same.

Another object of the present invention is to maintain a constant brightness state in a wide indoor space including schools, offices, etc., thereby maintaining a comfortable working environment for indoor residents, and to maintain a constant brightness state even in an indoor space built outdoors such as a tunnel. It is to provide a user-based IOT to maintain and an LED lighting device using a mobile, and a user-based LED lighting device system and method for the same.

Another object of the present invention is to provide a user-based IOT and mobile device that can protect the eyesight of indoor occupants by preventing a sudden change in brightness change, such as a sudden lightening in an indoor space causing glare or a sudden darkening of the field of view. It is to provide an LED lighting device using and a user-based LED lighting device system and method for the same.

In order to achieve the above object, the present invention is to determine the lighting state of the LED luminaire in an indoor space in which an LED luminaire having LED modules connected in parallel or in series with each other is determined. In a user-based IOT equipped with a lighting control device that automatically controls to be output with a preset amount of light according to a control signal from a remote location and an LED lighting device using a mobile device, the user-based IOT and an LED using a mobile device The lighting equipment includes a power supply unit for supplying DC power by rectifying commercial AC power to LED modules in which a plurality of LEDs are connected in parallel or in series; An LED driving unit supplying a driving current to the LED module according to the DC power supplied from the power supply unit; A current sensing unit for controlling a current supplied from the LED driving unit to the LED module; And a sensing control unit configured to detect the amount of light in the indoor space and control the LED driving unit and the current sensing unit according to the detected amount of light, wherein the sensing control unit is external to the indoor space together with the amount of light of each of the plurality of LED lighting devices. An optical sensor sensing unit that detects and outputs the amount of light, a microwave sensor that detects the human body, a remote control signal receiving unit that receives a remote control signal, a mobile data receiving unit that receives data from a mobile phone including a smartphone, and the A user, characterized in that it comprises a control unit for controlling on/off, dimming, and amount of light of the LED module in the signal detected by the optical sensor detection unit, the microwave sensor, the remote control signal receiving unit and the signal received by the mobile data receiving unit It provides LED lighting equipment that uses IOT and mobile based.

Here, the LED lighting fixture is characterized in that it is purchased according to at least one of the characteristic information of the indoor space and personal information including an ophthalmic disease of a user who uses the LED lighting fixture in the indoor space.

And the characteristic information of the indoor space is spatial characteristic information including the installation location of the LED lighting fixture, home, apartment, office, study, surgery, ward, construction, and store, and the personal information is gender, It includes one or more of age group, occupation, eye disease, and neuropsychiatric disease.

In addition, the LED driving unit, the current sensing unit, and the sensing control unit are provided in each LED luminaire together with the LED module, and the sensing control unit CDS the external light amount of the indoor space together with the amount of light of each of the plurality of LED luminaires. And a control unit for continuously controlling the amount of light of the LED module itself provided in the LED luminaire according to the amount of light detected by the light sensor sensing unit and an optical sensor sensing unit that detects and outputs at least four times a minute, and the sensing control unit The control unit includes a microcomputer having an artificial intelligence function for executing a program stored in advance, and delays the brightness state of the LED in the LED module by 1 second to 3 seconds according to the amount of light detected by the optical sensor detection unit. It is characterized by controlling,

And in order to achieve the above object, the present invention is to determine the lighting state of the LED luminaire in an indoor space in which an LED luminaire having LED modules in which a plurality of LEDs are connected in parallel or in series is installed. LED lighting equipment using a user-based IOT and mobile equipped with a lighting control device that automatically controls to be output with a preset amount of light according to illumination) and controls according to a control signal from a remote location; A plurality of store terminals manufacturing, selling, and installing the LED lighting equipment; A plurality of user terminals to purchase the LED lighting equipment; And installation location information of one of the installation locations of the LED lighting equipment to be purchased, office, study, surgery, hospital room, construction, and sales outlets from a plurality of user terminals that wish to purchase the LED lighting equipment, and installation address information. And, using the installation purpose information and the installation address information, an optimal lighting server for guiding the recommended LED lighting fixtures to the user terminal to be purchased; Provides a user-based LED lighting fixture system for LED lighting fixtures.

And in order to achieve the above object, the present invention is the installation location of the LED lighting equipment to be purchased from a plurality of user terminals to purchase the LED lighting equipment, for home, apartment, office, learning, surgery, hospital room, construction Collects the installation location and installation address information among retail stores, street lights, and tunnels, and guides the recommended LED lighting fixtures to the user terminal to be purchased using the installation purpose information and installation address information, and When a purchase is requested from the user terminal according to the guidance, the recommended LED lighting equipment DB, sales/repair/maintenance company DB, expert member DB, in the optimal lighting server that guides the installation of the LED lighting equipment through the plurality of retail store terminals, Building and periodically updating corporate and family customer DBs and questionnaires for customer-specific questionnaires; When the user terminal is connected to the optimal lighting server, a corresponding customer-customized checklist is checked in the user terminal according to whether it is a company, company, or individual, and necessary information is input; The optimal lighting server classifies customer information according to a corresponding checklist and stores the information in the corporate and family customer DB according to the type of customer; The optimal lighting server searches for customized LED lighting equipment and LED lighting equipment purchase, sales, installation and price information for each customer according to the classified customer information, but according to the above checklist, for companies, offices, schools, factories, marts, and hospitals. Searching with reference to at least one of company information including, and an address and a disease of the customer in case of a home customer; The optimal lighting server guides the LED lighting equipment through the recommended LED lighting equipment DB in case of a customer who does not have a disease or a company or company customer, and if there is a disease, the LED lighting according to the customer's disease in the recommended LED lighting equipment DB Guiding the apparatus or guiding the LED lighting apparatus by referring to the expert member DB; And guiding the application download and installation for remote control through a smartphone or a PC using an IOT for the LED lighting equipment purchased with the purchaser's terminal.

As described above, the present invention has the following effects.

First, in large indoor spaces including homes, apartments, schools, offices, street lights and tunnels, sensors are installed in each LED lighting fixture to darken or block (Off) the illumination of bright window lights, and the LED inside the dark The lighting equipment can adjust the ambient light by brightening the illuminance, so it is possible to reduce the eye fatigue that occurs when it becomes dark and bright.

Second, since the LED luminaire is driven by DC current, there is no problem with the lifespan even if the current is reduced in the module, and rather, by lowering the output, the life of the LED luminaire can be extended.

Third, since the power supply unit and the sensing control unit are integrated into a slim case, noise attenuation and optimized manufacturing of LED lighting equipment are possible, thereby reducing design and manufacturing costs.

Fourth, since only the standard light amount designed by adding the light amount of the LED itself and the amount of external light is automatically adjusted, the effect of lowering the power consumption is also obtained.

Fifth, when purchasing lighting fixtures, it is possible to purchase customized according to the characteristics of the buyer, so it is suitable for spaces such as schools, companies, offices, department stores, marts, factories, tunnels, hospitals, as well as individual customers (home, apartment). Lighting fixtures can be recommended.

Sixth, in the case of individual customers, it is possible to purchase customized lighting fixtures tailored to the space in which they live (living room, kitchen, bedroom, study room, etc.).

Seventh, even if you have an ophthalmic disease or need psychological stability, you can get recommended lighting equipment suitable for it, and at this time, a safe lighting equipment product certified by collaboration with experts such as the ophthalmology society, ophthalmology hospital, and ophthalmology professor is recommended. I can receive it.

1 is a block diagram for explaining an example of a conventional LED driving device;
2 is a view for explaining a state in which a plurality of LED lighting fixtures used in the LED lighting fixture system using a user-based IOT and mobile according to the present invention are mounted indoors;
3 is a block diagram of a lighting control device of an LED lighting fixture used in an LED lighting fixture system using a user-based IOT and mobile according to the present invention;
4 is a block diagram illustrating a control process of the lighting control device of the LED lighting fixture shown in FIG. 3;
5 is a control circuit diagram of a lighting control device of the LED lighting fixture shown in FIG. 4;
6 is a graph showing a PWM waveform during step-by-step dimming in an LED lighting fixture used in a lighting fixture system using a user-based IOT and mobile according to the present invention;
7 is a view for explaining an embodiment of a lighting fixture remote control using a user-based IOT and mobile according to the present invention;
Figure 8 is a block diagram for explaining the LED lighting system system using a user-based IOT and mobile according to the present invention,
9 is a block diagram for explaining an embodiment of the optimal lighting server shown in FIG. 8;
10 is a flowchart illustrating a method for guiding an LED lighting fixture using a user-based IOT and mobile according to the present invention.

The preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In addition, the terms used in the present invention have selected general terms that are currently widely used as far as possible, but in certain cases, there are terms arbitrarily selected by the applicant, and in this case, the meaning of the terms has been described in detail in the description of the corresponding invention. It should be noted that the present invention should be understood as the meaning of the term, not the name of. In addition, in describing the embodiments, descriptions of technical contents that are well known in the technical field to which the present invention pertains and are not directly related to the present invention will be omitted. This is to more clearly convey the gist of the present invention by omitting unnecessary description.

First, an example of an indoor space to which the present invention is applied will be described with reference to FIG. 2.

2 is a view for explaining a state in which a plurality of LED lighting equipment (10, 10A, ..., 10N) used in the LED lighting equipment system using a user-based IOT and mobile according to the present invention is mounted indoors. Such a plurality of LED lighting fixtures (10, 10A, ..., 10N) may be an LED lighting device, if lighting control is possible, there is no need to specifically limit to the LED lighting device.

The basic concept of the lighting control method of a lighting device according to the present invention is as shown in FIG. Therefore, each LED lighting fixture 10 is equipped with an illuminance sensor to darken or block (Off) the illuminance of a bright window lamp, and the LED illuminator in the dark) 10N) brightens the illuminance.

That is, the LED lighting system system using user-based IOT and mobile according to the present invention detects ambient light (natural light and approximate light) in a wide indoor space including schools, offices and tunnels, and when the ambient light is 0, LED lighting The device meets the target amount of light with 100% output and calculates each step according to the amount of light around each LED lighting device (10, 10A, …, 10N). It applies a kind of artificial intelligence system that adjusts the target amount of light by itself.

By applying such a function to each of the LED lighting fixtures, no central control or separate control is required, and regardless of the installation and installation environment, even if installed anywhere, the amount of light set by the LED lighting fixture is output. Therefore, in the present invention, it is possible to match a certain illuminance of the surroundings, thereby reducing eye strain that occurs when dark and then bright. In addition, a kind of light pollution problem that is becoming an issue in landscape lighting these days can also be caused by a problem caused by the light entering the eye.Although people do not feel it well, too bright light that does not match the surrounding environment can gradually cause problems in vision It can also solve the problem of light pollution.

For example, in the structure as shown in FIG. 2, when entering a building in broad daylight during working hours, a seat by a window (LED lighting fixture 10) and a dark seat in the corridor (LED lighting fixture 10N It can be set so that the brightness of each desk prepared in )) is the same.

In addition, in the lighting control device and control method of the LED lighting equipment used in the LED lighting equipment system using user-based IOT and mobile according to the present invention, when a situation in which the change in brightness must be rapidly changed occurs, it suddenly becomes bright. The change in brightness of the LED lighting device 10 is delayed so that glare is caused or suddenly darkened so that the field of view is not felt dark.

Hereinafter, embodiments according to the present invention will be described with reference to the drawings.

3 is a block diagram of a lighting control device of an LED lighting device used in an LED lighting device system using a user-based IOT and mobile according to the present invention, and FIG. 4 is a block diagram of the lighting control device of the LED lighting device shown in FIG. It is a block diagram for explaining the control process, and FIG. 5 is a control circuit diagram of the lighting control device of the LED lighting device shown in FIG. 4.

The lighting control device of the LED lighting equipment used in the LED lighting equipment system using user-based IOT and mobile according to the present invention is an LED module in which a plurality of LEDs are connected in parallel or in series as shown in FIGS. 2 to 4 Lighting status in each LED luminaire to automatically maintain constant lighting conditions in large indoor spaces such as schools and offices where a number of LED luminaires (10, 10A, …, 10N) each equipped with 60 are installed As a lighting control device that controls the LED module 60, a power supply unit 20 for supplying DC power by rectifying commercial AC power, and a driving current to the LED module 60 according to the DC power supplied from the power supply unit 20. The LED driving unit 30 to supply, the current sensing unit 50 for controlling the current supplied to the LED module 60 from the LED driving unit 30, detects the lighting condition and movement of the human body in an indoor space, and detects this detection state and It includes a sensing control unit 40 for controlling the LED driving unit 30 and the current sensing unit 50 according to a remote control signal or a control signal from the mobile by the IOT.

Here, the LED driving unit 30, the current sensing unit 50, and the detection control unit 40 are integrated into the LED lighting devices 10, 10A, ..., 10N together with the LED module 60 to attenuate noise and reduce the noise. Optimization of production becomes possible. Such LED lighting fixtures are made in a typical circular or square shape, but are not limited to a specific shape, and a plurality of LEDs provided in the LED module 60 may also be based on the luminous efficiency of each LED or the size of the LED lighting equipment. Since it can be changed, it is not limited to a specific number.

In addition, the LED module 60 is a structure in which a plurality of LEDs are connected in parallel or in series on a substrate to emit light, so that no abnormality occurs in the entire module even if any one of the plurality of LEDs fails, as shown in FIG. Likewise, it is desirable to employ a structure in which a plurality of LEDs are connected in parallel with each other.

The power supply unit 20 may include a rectifier circuit and generate DC power by converting AC power delivered through an input terminal IN. The rectifying circuit may include a diode bridge circuit composed of four diodes or a transformer as shown in FIG. 5.

In addition, the LED driver 30 may include a DC-DC converter circuit according to various topologies such as a flyback converter, a buck converter, or a forward converter, as shown in FIG. 5, and a transformer, a main switch, and an output circuit. It may include. For example, the main switch may be connected in series to the primary winding of the transformer, and the sensing controller 40 may control the operation of the LED driver 30 by applying a control signal to the control terminal of the main switch.

In addition, the magnitude of the current output from the LED driver 30 may be changed by the operating frequency and duty ratio of the control signal applied by the sensing controller 40 to the main switch. That is, when the operating frequency and duty ratio of the control signal in the sensing control unit 40 increase, the magnitude of the output current increases, and when the operating frequency and the duty ratio of the control signal decrease, the magnitude of the output current may decrease.

Here, the output circuit is connected to the secondary winding of the transformer, as shown in FIG. 5, and may include a diode (D) and a capacitor (C). Therefore, when the main switch is turned on, energy is stored in the transformer by the DC power output from the power supply unit 20, and the diode D is biased in the reverse direction and the DC power unit 20 outputs the DC power to the secondary side of the transformer. Power is not delivered.

Accordingly, the output power of the LED driver 30 may be supplied by energy stored in the capacitor C. In addition, when the main switch is turned off, the diode D is forward biased, and a current may be output by energy stored in the transformer.

And the sensing control unit 40, as shown in Figs. 4 and 5, the amount of external light in the indoor space together with the amount of each of the plurality of LED lighting devices (10, 10A, ..., 10N) 4 or more times per minute An optical sensor detection unit 45 that senses and outputs, a microwave sensor 46 that detects a human body, a remote control signal receiver 47 that receives a remote control signal, and receives data from a mobile phone including a smartphone The mobile data receiving unit 48, the optical sensor detecting unit 45, the microwave sensor 46, the remote control signal receiving unit 47, and the mobile data receiving unit 48 are provided in the LED lighting according to the detected or received signal. It includes a control unit 42 that controls the amount of light of the LED module 60 itself. As the LED lighting equipment can be controlled through the signal or data received through the mobile data receiving unit 48 that receives data from a mobile phone including such a smartphone, it is possible to control the LED lighting equipment using IOT and mobile. It becomes possible.

Meanwhile, as shown in FIG. 5, the photosensor sensing unit 45 includes CdS operating at VCC 5V. This CdS is a semiconductor that becomes conductive when light is incident, and is a light variable resistor whose resistance value changes according to the intensity of light (resistance decreases as the intensity of light increases). The resistance value measured in CdS is transmitted to the control unit 42 through the resistance RG.

The control unit 42 includes a microcomputer for executing a program stored in advance, and delays the brightness state of the LED in the LED module 60 by 1 to 3 seconds according to the amount of light detected by the optical sensor detection unit 45. Control to run.

Even if a situation in which a change in brightness must be rapidly changed in an indoor space occurs under the control of the control unit 42, it is suddenly brightened, causing glare, or suddenly darkening, so that the field of view is not felt dark. In addition, the control unit 42 controls the size of the data to 8 bits so that the duty value changes in a manner of turning on/off the gate terminal of the MOSFET, which is the switching element of the current sensing unit 50, In the LED module 60, the LED is controlled in 256 steps with a value of 0 being a minimum value and a value of 255 being a maximum value.

That is, each of the plurality of LED lighting devices 10, 10A, ..., 10N according to the present invention can be controlled in 256 steps.

As shown in FIG. 5, the current sensing unit 50 may include a pair of comparators and a MOSFET as a switching element. Accordingly, the comparator compares the voltage supplied from the LED driver 30 with a preset reference voltage, generates a driving current according to the control signal from the controller 42, and outputs the driving current to the LED module 60. Controls the lighting brightness of each LED.

As described above, in the lighting control device of an LED lighting fixture according to the present invention, according to the design value from the optical sensor exposed to the outside after receiving commercial power, for example, it detects 4 times per minute or calculates the amount of light more than that, When it is higher than the set reference value, the amount of light of the reference value can be adjusted by automatically reducing its own power consumption by the reference value. That is, in Fig. 2, the standard value is applied to the difference in light intensity (cd) of the LED PKG in the case where the distance between the LED luminaire and the LED luminaire is close as well as the external sunlight on the window side, and in the case of the composite light structure, Even in the lighting environment that is also used, it can support a certain amount of light.

Next, a lighting control method of an LED lighting fixture used in an LED lighting fixture system using a user-based IOT and a mobile according to the present invention will be described with reference to FIG. 6. 6 is a graph showing a PWM waveform during step-by-step dimming in an LED luminaire used in an LED luminaire system using a user-based IOT and mobile according to the present invention.

The lighting control method of the LED lighting equipment used in the LED lighting equipment system using a user-based IOT and mobile according to the present invention is a plurality of LED lights each having a LED module 60 connected in parallel or in series with a plurality of LEDs. As a lighting control method for controlling the lighting state in each LED luminaire to automatically maintain a constant lighting state in a large space including schools, offices, tunnels, etc. in which the fixtures 10, 10A, ..., 10N are installed, In each of a plurality of LED luminaires (10, 10A, …, 10N), the amount of light from adjacent LED luminaires indoors and in a large space is detected and output at least 4 times per minute by the optical sensor detection unit 45, and output According to the detected value, the control unit 42 controls the light emission state of the LED in the LED module 60 of each LED luminaire.

That is, when power is applied to a plurality of LED luminaires (10, 10A, …, 10N), the CdS of the optical sensor detection unit 45 reads the ambient illuminance value through light detection and performs PWM control with the read value. For this purpose, it is programmed using a kind of artificial intelligence microcomputer of the control unit 42. The program can be subdivided so that environmental factors can be applied as much as possible.

In addition, as a dimming system for brightness control, the gate terminal of the MOSFET, which is the switching element of the current sensing unit 50, is turned on and off, and the duty value is designed to change by a program, and the data size is 8 bits. Therefore, the 0 value is the minimum value and 255 is the maximum value, and 256 steps can be expressed.

Therefore, the CdS of the photosensor detection unit 45 detects the amount of ambient light and transmits the signal to the control unit 42 to the programmed integrated circuit microcomputer IC.

The control unit 42 subdivides the input value by a programmed design and converts it into a PWM signal of various values. The PWM waveform for stepwise dimming is as shown in FIG. 6.

A dimming system is applied to control the current flowing through the LED module 60 using a PWM signal to output 10% to 100% output to match the surrounding light.

In addition, regarding such matching, the control unit 42 controls the LED module 60 to delay the brightness state of the LED by 1 second to 3 seconds according to the amount of light detected by the photosensor sensor 45 and then execute it.

Through the above-described process, it is possible to solve the problem of light pollution, which may gradually cause problems in vision even with too bright light that does not match the surrounding environment.

7 is a view for explaining an embodiment of a lighting device remote control using a user-based IOT and mobile according to the present invention.

An embodiment of the remote control of a lighting device using a user-based IOT and a mobile according to the present invention is a sensor attached to an LED lighting device (for example, an LED living room light), as shown in FIG. 7, and a microwave sensor Is attached, and it is configured to be linked with a gateway for controlling lighting so that mobile control through a remote control and IOT (Internet of Things) is possible.

In general, an infrared sensor that detects and reacts to infrared rays emitted from the human body is a sensor that is widely used at present. In the case of such an infrared sensor, the price is inexpensive, but there are disadvantages that it may malfunction due to temperature or humidity, and the operating distance is short.

On the other hand, microwave sensors transmit and receive through microwaves and use the Doppler effect to have the advantage of having a relatively long operating distance, excellent sensitivity, and no malfunction in temperature and humidity compared to infrared sensors.

In the present invention, stable operation without WiFi radio wave interference according to the use of 900MHz IOT frequency for the LED lighting device 10 is possible, and 10 levels of illumination and dimming brightness can be adjusted. In addition, the dimming control time (eg, 23-06 o'clock at night) can be set. In addition, automatic dimming control is possible in conjunction with the above-described illuminance sensor (CdS), so it can be completely turned off automatically during bright daytime.

Such LED lighting fixture control can be made possible in an IOT environment through a mobile (smart phone) as well as an RF remote control.

To this end, the RF remote control has a built-in (programmed) function that controls illuminance, dimming brightness, and lighting duration.

In addition, if you install the lighting control gateway (optional) and download and install the application on the smartphone, the LED lighting fixture 10 and the smartphone can be connected to the Internet through a gateway for LED lighting control and a mobile connection through a router (router). It became possible, and accordingly, remote control (IOT control) of the LED lighting device 10 was possible from the outside.

Therefore, it is possible to adjust the illuminance, reservation on/off, dimming brightness, sensing distance, and lighting maintenance time for the LED lighting fixture 10 through an app installed on the smartphone.

FIG. 8 is a block diagram illustrating a user-based IOT and an LED lighting device system using a mobile according to the present invention, and FIG. 9 is a block diagram illustrating an embodiment of the optimal lighting server shown in FIG. 8.

As shown in FIG. 8, the LED lighting system system using user-based IOT and mobile according to the present invention includes an optimal lighting server 100, the Korean Ophthalmological Society server 200, and a plurality of first to n-th user terminals 300. ), a plurality of first to nth hospital/specialist terminals 400, a plurality of first to nth LED lighting equipment manufacturing/sales terminal terminals 500, price information providing server 600, real estate information providing server 700 ), a financial company server 800, and a wired/wireless communication network 900.

Here, the optimal lighting server 100 is for recommending lighting equipment using user-based IOT and mobile, home, apartment, office, academy, school classroom, store (department store, mart, etc.), factory, street, tunnel construction site, We recommend LED lighting fixtures that are optimized for the size and height of the living room, kitchen, and room of private residential spaces, as well as common spaces and underground spaces, and users (customers) living in the residential space. At this time, it is not simply recommended, as well as the customer's residential space and personal characteristics, as well as the reason for installation (purpose), namely, office, study, surgery, hospital room, construction, sales office (mart, bookstore, etc.) and office or school , LED lighting equipment can be recommended to customers according to the characteristics of classrooms and stores of the academy, and especially for individual customers, suitable LED lighting equipment is recommended according to personal information including the individual customer's living space, age, and eye diseases. do. To this end, the optimal lighting server 100 is connected to a monitor, a mouse, a keyboard, etc. so that an administrator can access the collected data in a database.

And for this, as shown in FIG. 9, the optimal lighting server 100 includes a communication unit 101, a recommended LED lighting fixture database 102, a lighting sales/repair/maintenance company database 103, an expert member database 104, Enterprises (public offices, offices, department stores, hypermarkets, public spaces in buildings (underground), common spaces for apartments) customer database 105, family customer database 106, customer information questionnaire storage unit 107, questionnaire input information classification unit ( 108), customized LED lighting equipment recommendation unit for each customer (109), LED lighting equipment purchase/installation request unit (110), AS request reception and processing unit (111), LED lighting equipment inspection recommendation unit for each customer (112), satisfaction survey It may be configured to include an investigation unit 113, an application storage unit 114, a financial transaction information storage unit 115, and a control unit 116.

Here, the communication unit 101 is an optimal lighting server 100 and the Korean Ophthalmological Society server 200, a plurality of first to nth user terminals 300, a plurality of first to nth hospital/specialist terminals 400, A plurality of first to nth LED lighting equipment manufacturing/sales store terminals 500, price information providing server 600, real estate information providing server 700, and financial company server 800 to communicate through wired and wireless communication network 900 .

The recommended LED luminaire database 102 stores information on LED luminaires, such as for home, office, hospital, department store, mart, factory, tunnel, and various night works. At this time, if necessary, authentication of lighting equipment is performed by collaboration with experts including academic institutions such as the Korean Ophthalmology Association, professional institutions, ophthalmologists, and ophthalmologists, and a database of lighting including the data You can also build In addition, information on customer satisfaction (lighting companies, lighting equipment, lighting companies, AS satisfaction, etc.) can be included. For customers, the installation location and purpose of installation (office, study, surgery, hospital, construction, and store use ( Mart, bookstore, etc.), customer gender, age group, occupation, eye disease, and satisfaction reasons (concentration, stability, etc.) can be provided. Meanwhile, in such a database, not only ophthalmology, but also lighting information recommended by the psychological society or psychological experts (doctors, professors, etc.) related to psychological stability may be included.

The lighting sales/repair/maintenance company database 103 stores the name, name, contact information, region, handling item, parts and cost information of a company or individual that sells, repairs, or maintains lighting.

The expert member database 104 stores the name, name, contact information, location, phone number, and the like of a hospital, a doctor, or a professor of an expert.

Enterprises (public offices, offices, department stores, large marts, public spaces in buildings (underground), apartments) customer database 105 stores the name, contact information, name of installed LED lighting fixtures, installation time, etc. .

The family customer database 106 stores the family customer's name, address, age, vision information, disease information (eye disease, nervous breakdown, panic disorder information, etc.), household members, installation LED lighting equipment, installation location information, and the like.

The customer information questionnaire storage unit 107 provides information on the customer to provide information for providing optimized lighting to the customer when the customer accesses the optimal lighting server 100 through the customer's terminal (PC, smartphone) when registering as a member. It is to receive input, and it can be checked through the customer's terminal through a preset checklist, and if the information that the customer wants to input is entered through the remarks column at the bottom of the checklist, the person in charge of the optimal lighting server 100 You can check the content or enter it separately. These checklists are intended to recommend lighting equipment using user-based IOT and mobile devices, including offices, academies, school classrooms, hospitals, stores (department stores, marts, etc.), factories, tunnel construction sites, building public spaces and underground spaces, etc. As well as the size and height of the living room, kitchen, and room of an individual's residential space, and to recommend optimized LED lighting equipment to users (customers) living in the corresponding residential space, information on the location of the lighting equipment, address space information, gender, age, and eye diseases. , Check information including neuropsychiatric disorders. At this time, input the address information.

The questionnaire input information classification unit 108 categorizes the questionnaire input information input according to the customer information questionnaire, and the corporate customers are classified into the corporate customer database 105, and the domestic customers are stored in the home customer database 106. . At this time, area information according to the customer's address may be checked through the real estate information providing server 700 by referring to the customer's address information according to the customer's input information.

The customized LED lighting equipment recommendation unit 109 for each customer checks and recommends the LED lighting equipment suitable for each customer in the recommended LED lighting equipment database 102 according to the questionnaire input information entered according to the customer information questionnaire.

The LED lighting equipment purchase/installation request unit 110 is requested to purchase and install the LED lighting equipment purchased by the customer according to the recommendation of the customized LED lighting equipment recommendation unit 109 for each customer, and the lighting sales/repair/maintenance company database Refer to (103) and transmit it to the terminal (server, PC, smartphone, etc.) of the company, and store it in the corporate customer database 105 for corporate customers, and store it in the home customer database 106 for home customers. do.

When an AS is requested through a terminal (PC or smartphone) of a customer who has purchased the LED lighting equipment, the AS request reception and processing unit 111 refers the request to the lighting sales/repair/maintenance company database 103 It is transmitted to a terminal (server, PC, smartphone, etc.).

The LED luminaire inspection recommendation unit 112 for each customer periodically refers to the corporate customer database 105 and the home customer database 106 for a preset inspection cycle for the LED luminaire purchased by customers, It is recommended to periodically check or replace according to the requirements.

The satisfaction survey unit 113 transmits a pre-set checklist for the purchase, installation, and AS satisfaction for the LED lighting equipment purchased through the terminals of customers through the communication unit 101, and through the communication unit 101 from the terminals of customers. Upon reply, the returned data is stored in the recommended LED luminaire database 102.

The application storage unit 114 stores an application for IOT control through mobile for each LED luminaire for each LED luminaire and gateway.

The financial transaction information storage unit 115 sells, installs, and repairs LED lighting equipment that is traded between a plurality of first to n-th user terminals 300 and a plurality of first to n-th LED lighting equipment manufacturing/sales store terminals 500 When a cost is incurred, the corresponding financial transaction information is stored, and the optimal lighting server 100 and the Korean Ophthalmological Society server 200, a plurality of first to nth hospital/specialist terminals 400, a plurality of first to nth When there is a contract concluded according to the use of various information between the LED lighting equipment manufacturing/sales terminal 500, the price information providing server 600 and the real estate information providing server 700, information on the corresponding financial transaction is stored.

The control unit 116 includes a communication unit 101, a database of recommended LED lighting fixtures 102, a database of lighting sales/repair/maintenance companies 103, an expert member database 104, a company (office, department store, large mart, building common space). (Basement), apartment common space) customer database 105, household customer database 106, customer information questionnaire storage unit 107, questionnaire input information classification unit 108, customized LED lighting fixture recommendation unit for each customer (109) , LED lighting equipment purchase/installation request unit 110, AS request reception and processing unit 111, customer-specific LED lighting equipment inspection recommendation unit 112, satisfaction survey unit 113, application storage unit 114, and financial transaction Controls the information storage unit 115.

Meanwhile, the server 200 of the Korean Ophthalmology Association (www.ophthalmology.org) exchanges information with the optimal lighting server 100 for providing suitable LED lighting equipment to customers with eye diseases among the customers of the optimal lighting server 100. .

The plurality of first to n-th user terminals 300 are terminals of customers who purchase or install LED lighting equipment or want to receive AS.

The plurality of first to nth hospital/specialist terminals 400 may be servers, PCs, and smart devices (smart phones, etc.) of ophthalmologists or psychiatrists (mental health medicine departments) hospitals or specialists. Recommended LED lighting fixtures suitable for work spaces such as offices, department stores, marts, factories, tunnels, etc., or exchanged information received with the optimal lighting server 100, from a plurality of first to n-th user terminals 300 Exchange inquiries and answers about eye diseases or consult.

The plurality of first to nth LED lighting equipment manufacturing/sales terminal 500 is a server, PC, or personal smart device (smart phone) of a company that directly manufactures, sells, and sells LED lighting equipment.

The price information providing server 600 provides price information for various LED lighting fixtures, and interlocks with the server or PC of the vendor. For example, it may be a price guide server (eg, overpriced), and an internet shopping mall (auction, Gmarket, coupang, etc.).

The real estate information providing server 700 is a server that provides real estate information such as KB Kookmin Bank's real estate information provision, real estate 114, internet portal (Naver Daum, etc.), and is a server that provides real estate information such as houses, apartments, officetels, offices, shopping malls, It is a server that provides area information (size, height) among information on factories, etc.

The financial institution server 800 includes the optimal lighting server 100 and the Korean Ophthalmological Society server 200, a plurality of first to nth user terminals 300, a plurality of first to nth hospital/expert terminals 400, A bank, card company, or fintech company that can safely process financial transactions between a plurality of first to nth LED lighting equipment manufacturing/sales terminal 500, price information providing server 600 and real estate information providing server 700 ( Kakao Pay, Samsung Pay, etc.) server, and a plurality of first to nth hospital/specialist terminals 400 of a plurality of first to nth user terminal 300 users, and a plurality of first to nth user terminals. Safe financial transaction and optimal lighting server 100 and the Korean Ophthalmology Association server 200 between LED lighting equipment manufacturing/sales terminal 500, a plurality of first to nth hospital/expert terminals 400, a plurality of first It supports reliable and safe financial transactions according to the use of various information between the n-th LED lighting equipment manufacturing/sales terminal 500, the price information providing server 600 and the real estate information providing server 700.

The wired/wireless communication network 900 includes an optimal lighting server 100, the Korean Ophthalmological Society server 200, a plurality of first to nth user terminals 300, a plurality of first to nth hospital/expert terminals 400, It provides communication between a plurality of first to nth LED lighting equipment manufacturing/sales terminal 500, a price information providing server 600, a real estate information providing server 700, and a financial company server 800.

10 is a flowchart illustrating a method of guiding lighting equipment using a user-based IOT and mobile according to the present invention.

As shown in FIG. 10, the method of guiding LED lighting fixtures using user-based IOT and mobile according to the present invention is a recommended LED lighting fixture DB, sales/repair/maintenance company DB, expert member DB, A corporate and family customer DB, and a questionnaire for customer-specific surveys are built and updated periodically (S100).

And when the customer accesses the optimal lighting server 100 through the terminal 300, the customer can check the customized checklist according to basic customer information, that is, whether it is a company, company, or individual, and input the necessary information. Let it be (S110). At this time, it is possible to collect information about installation locations and installation purposes, such as office, study, surgery, hospital room, construction, and retail stores (mart, bookstore, etc.).

Then, when the customer checks or inputs necessary items through the terminal, the server classifies the customer information according to the checklist and stores it in the databases 105 and 106 according to the type of the customer (S120).

In addition, the server 100 searches for customized LED lighting equipment and LED lighting equipment purchase, sales, installation, and price information for each customer according to the classified customer information (S130). At this time, according to the customer's checklist, the office, school, factory, mart, hospital, etc., and in the case of home customers, the address and disease status are referenced.

The search result server 100 determines whether the customer has a disease (S140).

As a result of the determination (S140), if a customer does not have a disease or a company or company customer, the recommended LED lighting equipment is immediately recommended through the recommended LED lighting equipment database 102 (S150), and if there is a disease, the recommended LED lighting equipment database ( In 102), an appropriate LED lighting device according to the customer's disease is recommended, or an appropriate LED lighting device is recommended by referring to the expert member DB 104 (S160). Of course, if there is no suitable LED lighting equipment in the expert member DB 104 and the recommended LED lighting equipment database 102, the LED lighting equipment requested by the customer through the plurality of first to n-th LED lighting equipment retailer terminals 500 When an inquiry is made and a response is received from the terminal of the corresponding store, the guidance on the LED lighting equipment accordingly is made to the customer terminal.

According to this guide, when a customer requests a purchase through a terminal, a request is made to perform payment through the financial institution server 800, and purchase and installation information is transmitted to a sales and installation company terminal (LED lighting equipment store terminal 500). (S170).

On the other hand, when the installation of the LED lighting equipment purchased by the customer is completed, the server 100 stores the contents in the customer DB (S180).

In addition, the server 100 guides downloading and installing an application for remote control through a smartphone or PC using IOT for the LED lighting equipment purchased with the customer's terminal (S190).

The customer drives the app through the terminal and controls and sets the illumination and dimming brightness and on-off time through a gateway connected to their LED lighting equipment (S200). Of course, it is operated by a control signal from a remote control and a sensing signal from an optical sensor and a microwave sensor. Meanwhile, depending on the LED lighting equipment purchased by the customer, a service that transmits precautions or guidance on the use of the LED lighting equipment to the office, factory, workshop, hospital, school, mart, and disease customers to the customer's terminal can be provided. . In particular, guidance on LED lighting equipment that is helpful for eye diseases, mental and physical stability, and learning is essential.

Meanwhile, after purchasing and installing such LED lighting equipment, the recommended LED lighting equipment database 102 is updated by checking the customer-specific purchase, installation, and AS satisfaction with a checklist, and the LED lighting equipment or LED lighting equipment accessories purchased by the customer At the time of inspection, the optimal lighting server 100 transmits a text recommending inspection for each corresponding LED lighting device to the customer's smartphone (S210).

Although the present invention has been described with the above example, the present invention is not necessarily limited to these examples, and various modifications may be made without departing from the spirit of the present invention. Accordingly, the examples disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain the technical idea, and the scope of the technical idea of the present invention is not limited by these examples. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

According to the present invention, it is possible to reduce eye strain that occurs when dark and bright in a large indoor space including schools, offices, and tunnels.

In addition, the development and consumption of the lighting industry can be diversified through technology that provides user-based LED lighting equipment tailored to the characteristics of customers.

10, 10A,… , 10N: LED lighting equipment 20: power supply
30: LED driving unit 40: detection control unit
50: current sensing unit 60: LED module
100: optimal lighting server 101: communication unit
102: database of recommended LED lighting fixtures
103: Lighting sales/repair/maintenance company database
104: expert member database
105: corporate customer database 106: home customer database
107: customer information questionnaire storage unit 108: questionnaire input information classification unit
109: Customer-specific customized LED lighting fixture recommendation section
110: LED lighting equipment purchase/installation request unit
111: AS request reception and processing unit
112: LED lighting equipment inspection recommendation for each customer
113: satisfaction survey unit 114: application storage unit
115: financial transaction information storage unit 116: control unit
200: Korean Society of Ophthalmology Server 300: first to nth user terminals
400: 1st to nth hospital/specialist terminal
500: 1st to nth LED lighting equipment manufacturing/sales store terminal
600: price information providing server 700: real estate information providing server
800: financial company server 900: wired/wireless communication network

Claims (6)

A plurality of LEDs are automatically output to a preset amount of light according to the amount of light (illumination) around the LED lighting device in an indoor space in which an LED lighting device with LED modules connected in parallel or in series is installed. In the user-based LED lighting equipment system for a user-based IOT and mobile-based LED lighting equipment equipped with a lighting control device that controls and controls according to a control signal from a remote location,
User-based LED lighting equipment system for LED lighting equipment using user-based IOT and mobile,
A power supply unit for supplying DC power by rectifying commercial AC power to an LED module in which a plurality of LEDs are connected in parallel or in series, an LED driving unit supplying driving current to the LED module according to the DC power supplied from the power unit, and the A current sensing unit for controlling the current supplied from the LED driving unit to the LED module, and a sensing control unit for sensing the amount of light in the indoor space and controlling the LED driving unit and the current sensing unit according to the detected amount of light, wherein the The sensing control unit is an optical sensor sensing unit that senses and outputs the amount of external light in the indoor space along with the amount of light from each of the plurality of LED lighting fixtures, and a sensor that detects the human body. Mobile data receiving data from mobile phones including smartphones, microwave sensors with relatively long operating distance, excellent sensitivity, and no malfunction to temperature and humidity, remote control signal receiver receiving remote control signals, and mobile phones including smartphones And a control unit for controlling the on/off, dimming, and amount of light of the LED module to the signal detected by the receiving unit, the optical sensor detecting unit, the microwave sensor, and the remote control signal receiving unit and the signal received by the mobile data receiving unit. , It is purchased according to at least one of personal information including characteristic information of the indoor space and the eye disease of the user of the indoor space, and the personal information includes at least one of gender, age group, occupation, eye disease, and neuropsychiatric disease. And, the LED driving unit, the current sensing unit, and the sensing control unit are provided in each LED luminaire together with the LED module, and the sensing control unit controls the amount of external light in the indoor space together with the amount of light of each of the plurality of LED luminaires. The optical sensor sensing unit that detects and outputs at least four times a minute with CDS and the control unit that continuously controls the amount of light of the LED module itself provided in the LED luminaire according to the amount of light detected by the optical sensor sensing unit is a program stored in advance. Including a microcomputer with artificial intelligence function to execute Then, the resistance value measured by the CDS is transmitted to the control unit so that the control unit turns on/off the gate terminal of the MOSFET, which is the switching element of the current sensing unit, so that the duty value is changed. LED lighting equipment using a user-based IOT and mobile in which the size of the LED module is controlled in 8 bits, so that the LED of the LED module has a minimum value of 0 and a maximum value of 255;
A plurality of store terminals manufacturing, selling, and installing the LED lighting equipment;
A plurality of user terminals to purchase the LED lighting equipment; And
Installation purpose information including installation location information of the LED lighting equipment to be purchased from a plurality of user terminals that wish to purchase the LED lighting equipment, office, study, surgery, hospital room, construction, and sales office, Including;
The optimal lighting server is for recommending lighting equipment using user-based IOT and mobile, and for individuals including homes, apartments, offices, academies, school classrooms, stores, factories, tunnel construction sites, building common spaces, and underground spaces. The size and height of the living room, kitchen, and room in a residential space, and LED lighting equipment optimized for users living in the corresponding residential space are recommended, but information for the residential space and office, study, surgery, hospital room, construction, and sales offices of customers We recommend LED lighting fixtures to customers according to the characteristics of classrooms and stores in offices, schools, and academies, and for individual customers, LED lighting fixtures are recommended according to personal information including the individual customer's living space, age, and eye diseases. ,
The Korean Ophthalmology Association (www.ophthalmology.org) server 200 and the optimal lighting server 100 exchange information for providing suitable LED lighting equipment to customers with eye diseases among the customers of the optimal lighting server 100. Ideal for recommending LED lighting fixtures suitable for work spaces of individual customers, schools, corporate offices, department stores, marts, factories and tunnels with servers, PCs, and smart devices of ophthalmologists, psychiatric hospitals or specialists, or reminding information to be confirmed. A plurality of first to nth hospital/specialist terminals 400 for exchanging with the lighting server 100 and for exchanging or consulting inquiries and answers about ophthalmic diseases from the plurality of first to nth user terminals 300 , Provide price information for various LED lighting fixtures, price information server 600 including a price information server or internet shopping mall linked to a server or PC of a retailer, and a house or apartment or officetel, office, shopping mall, A real estate information providing server 700 that provides area information including the size and height of the factory; a user-based LED lighting fixture system for LED lighting fixtures using a user-based IOT and mobile, characterized in that it comprises.
delete delete delete delete In the user-based LED lighting equipment system for the user-based IOT and mobile LED lighting equipment according to claim 1, a method for guiding the LED lighting equipment system using user-based IOT and mobile,
Installation purpose information including one of the installation location information of the LED lighting equipment to be purchased from a plurality of user terminals that wish to purchase LED lighting equipment, office, study, surgery, hospital room, construction, and sales office, and installation Using the address information, a recommended LED lighting fixture is guided to a user terminal to be purchased, and when a purchase is requested from the user terminal according to the guide, guide to install the LED lighting fixture through the plurality of store terminals,
Information on LED lighting fixtures including home, office, hospital, department store, mart, factory, tunnel, and various night works, including the Korean Academy of Ophthalmology, professional organizations, ophthalmologists, and ophthalmologists. Authenticate lighting fixtures in collaboration with experts, database for lighting including the data, customer satisfaction information, customer installation location, office, study, surgery, ward, construction, and retail Provides a checklist to check the installation purpose information, customer gender, age group, occupation, eye disease, and satisfaction reasons, including lighting information recommended by the psychological society or psychological experts related to psychological stability. The recommended LED lighting equipment database and the user-based IOT and mobile are inputted in order to provide information for providing optimized lighting to the customer when the customer connects to the optimal lighting server through the customer's terminal. The customer information questionnaire storage unit, which is a checklist for recommending the lighting equipment to be used, and the appropriate LED lighting equipment for each customer according to the questionnaire input information entered according to the customer information questionnaire are checked in the recommended LED lighting equipment database and recommended for each customer. A customized LED luminaire recommendation unit, and a customer-specific LED luminaire inspection recommendation unit that recommends periodically checking or replacing the LED luminaires purchased by customers according to the time of purchase and installation by the customer according to a preset inspection period, Satisfaction survey unit that transmits the satisfaction level of purchase, installation, and AS for the LED lighting equipment purchased by customers to the customer's terminal through a preset checklist, and stores the data returned from the customer's terminal in the recommended LED lighting equipment database. Building a recommended LED lighting fixture DB, sales/repair/maintenance company DB, expert member DB, corporate and family customer DB, and questionnaire for customer-specific questionnaires in the optimal lighting server configured including, and periodically updating;
When the user terminal is connected to the optimal lighting server, a corresponding customer-customized checklist is checked in the user terminal according to whether it is a company, company, or individual, and necessary information is input;
The optimal lighting server classifies customer information according to a corresponding checklist and stores the information in the corporate and family customer DB according to the type of customer;
The optimal lighting server searches for customized LED lighting equipment and LED lighting equipment purchase, sales, installation and price information for each customer according to the classified customer information, but according to the above checklist, for companies, offices, schools, factories, marts, and hospitals. Searching with reference to at least one of company information including, and address and whether or not the customer has a disease in case of a home customer;
The optimal lighting server guides the LED lighting equipment through the recommended LED lighting equipment DB in case of a customer who does not have a disease or a company or company customer, and if there is a disease, the LED lighting according to the customer's disease in the recommended LED lighting equipment DB Guiding the apparatus or guiding the LED lighting apparatus by referring to the expert member DB; And
The optimal lighting server comprises a step of guiding application download and installation for remote control through a smartphone or PC using an IOT for the LED lighting equipment purchased with the purchase customer's terminal; How to guide LED lighting system using user-based IOT and mobile in user-based LED lighting system for LED lighting equipment using IOT and mobile.

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