KR102164877B1 - Smart LED lighting apparatus based on human detection - Google Patents

Abstract

The present invention relates to a smart LED lighting device based on human body detection. The present invention, the control unit 130; And an LED light source unit 140 formed of a PCB substrate and a plurality of LED package modules 140u, and after a plurality of LED package modules 140u are formed in a grid arrangement on the PCB substrate, the LED light source unit 140 is coupled to the housing and the floodlight. Including, the LED package module (140u) is composed of a sterilizing LED chip (141a), 570nm LED chip (142a), 600nm LED chip (143a), display / illumination control LED chip (144a) in one package. Thus, according to the control of the controller 130, on/off control for each chip constituting the plurality of LED package modules 140u is possible, as well as the dimming module 130u by the controller 130 It is characterized in that a dimming operation is performed according to the control for.

Description

Smart LED lighting apparatus based on human detection}

The present invention relates to a smart LED lighting device based on human body detection, and more specifically, automatically detects pre-set usage information centering on the table to autonomously artificially perform functional actions such as sterilization of the table, increase in food consumption, and suppress appetite. It relates to a smart LED lighting device based on human body detection for performing intelligence based.

Emotional lighting refers to all kinds of lighting devices that can adjust the brightness, color, or color temperature of lighting to suit the human body.

Such emotional lighting refers to lighting that provides artificial lighting created by humans as similar to natural lighting as possible, or that can reproduce sophisticated lighting colors suitable for human emotions with human-friendly lighting.

A representative example of a device used in the recently spotlighted emotional lighting corresponds to a light emitting diode (LED). Such LED lighting devices include, for example, three primary colors of RGB, blue (B) LED, red (R) LED and green (G) LED, and other ultraviolet or infrared LEDs, etc. It can have a device or a variety of color temperatures.

Accordingly, in the relevant technical field, as various emotional lighting devices with low power consumption and easy control of the brightness or color of lighting have been developed, the limitations of conventional lighting that used only a passive function to brighten a dark space with a fixed brightness have been overcome. Apart from this, there is a need for technology development for a lighting system that can create human-friendly emotions and manage them efficiently.

Korean Patent Application No. 10-2015-0058916 "The SMART LED LIGHTING WITH MULTI FUNCTION" with the function of drying, sterilizing and color temperature control

The present invention is to solve the above problems, and the human body for autonomously performing functional operations such as sterilization of the table, increase in food consumption, and suppression of appetite based on artificial intelligence by automatically detecting preset usage information centered on the table. It is to provide a sensing-based smart LED lighting device.

In addition, the present invention is to provide a human body detection-based smart LED lighting device that detects the movement or body temperature of the human body when performing ultraviolet sterilization and protects the person from the UV light source by detecting the movement or body temperature of the human body. .

In addition, in the present invention, the bandwidth of the light source output is appropriately adjusted by dividing the case of daily eating and the case of eating during the diet process, and in particular, in the case of the diet process, corresponding to the case of a daily meal to lower appetite. It is to provide a smart LED lighting device based on human body detection to increase the efficiency of diet by adjusting to cold color compared to warm color.

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects that are not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, a smart LED lighting device based on human body detection according to a first embodiment of the present invention includes: a control unit 130; And an LED light source unit 140 formed of a PCB substrate and a plurality of LED package modules 140u, and after a plurality of LED package modules 140u are formed in a grid arrangement on the PCB substrate, the LED light source unit 140 is coupled to the housing and the floodlight. Including, the LED package module (140u) is composed of a sterilizing LED chip (141a), 570nm LED chip (142a), 600nm LED chip (143a), display / illumination control LED chip (144a) in one package. Thus, according to the control of the controller 130, on/off control for each chip constituting the plurality of LED package modules 140u is possible, as well as the dimming module 130u by the controller 130 It is characterized in that a dimming operation is performed according to the control for.

At this time, the LED light source unit 140 of the present invention includes a sterilization LED chip group 141 corresponding to the sterilization LED chips 141a respectively formed inside each LED package module 140u, and each LED package module 140u ), a 570nm LED chip group 142 corresponding to the 570nm LED chip 142a each formed inside, a 600nm LED chip group corresponding to the 600nm LED chip 143a respectively formed inside each LED package module 140u It is characterized in that it is divided into a display/illumination control LED chip group 144 corresponding to the display/illumination control LED chip 144a respectively formed inside each LED package module 140u.

In addition, the present invention is formed in the housing of the human body detection-based smart LED lighting device 100 or is formed as a communication module for communication with a remote controller separate from the human body detection-based smart LED lighting device 100 ) An input unit 110 that provides a request for an ultraviolet sterilization operation mode, a daily operation mode, and a diet operation mode; It characterized in that it further comprises.

In addition, the present invention, a sensor unit 120 including a human body detection sensor 121 and a camera 122; It further includes, the human body detection sensor 121, a UV sensor and motion detection in order to perform human body detection in a preset area centered on the table located under the smart LED lighting device 100 based on human body detection The camera 122 includes at least one of the sensors, and the camera 122 is characterized in that a preset image capturing angle is set around a table positioned under the smart LED lighting device 100 based on human body detection.

In addition, in the present invention, the dimming module 130u is a dimming circuit utilized for dimming control by the control unit 130 for the sterilization LED chip group 141 consisting of the sterilization LED chips 141a connected in series. First dimming means (130a) corresponding to; A second dimming means (130b) corresponding to a dimming circuit utilized for dimming control by the control unit 130 for the 570nm LED chip group 142 consisting of 570nm LED chips 142a connected in series; A third dimming means 130c corresponding to a dimming circuit utilized for dimming control by the controller 130 for the 600nm LED chip group 143 consisting of 600nm LED chips 143a connected in series; And a fourth dimming means 130d corresponding to a dimming circuit utilized for dimming control by the control unit 130 for the display/illumination control LED chip group 144 consisting of the display/illumination control LED chip 144a connected in series. ); It characterized in that it further comprises.

In addition, when a request for an ultraviolet sterilization operation mode is received through the input unit 110 (case 1-1), the control unit 130 of the present invention receives a preset ultraviolet sterilization operation cycle from the sensor unit 120. When the detection of the human body is not received (case 1-2), and the second preset after receiving detection of the human body for more than a preset first time (a preset minimum time to be determined by meal) from the sensor unit 120 In the case of one of the cases (case 1-3), when it is determined that the human body has not been detected for a period of time (minimum time set in advance so that it is possible to judge that the person has been away after eating), the LED light source unit ( The UV-B (280 to 315) to the table through the control of the LED chip group 141 for sterilization corresponding to the LED chip 141a for sterilization formed inside each LED package module 140u constituting 140). ㎚) or UV-C (200 to 280 ㎚) light source is controlled to output, and at the same time, the sensor unit 120 is applied to the human body in a preset area centered on the table or in a human body detection area that is a preset image capture angle. An ultraviolet sterilization control module 131 instructing to wait for detection; It characterized in that it comprises a.

In addition, the control unit 130 of the present invention, when a request for the daily operation mode is received through the input unit 110 (case 2-1), the third preset time (second time) for the human body from the sensor unit 120 3 hours is a pre-set minimum time for recognizing that the meal has begun rather than simply passing around the table by more than the pre-set minimum ratio for the pre-set first time. 1) In either case, through control of the 600nm LED chip group 143 corresponding to the 600nm LED chip 143a formed inside each LED package module 140u constituting the LED light source unit 140 Daily control module 132, characterized in that for controlling to output a light source of 600nm band to the table; It characterized in that it further comprises.

In addition, when a request for a diet operation mode is received through the input unit 110, the control unit 130 may receive a preset third time for the human body from the sensor unit 120 (the third time is a preset first time). For each LED package module constituting the LED light source unit 140 when detection is received for a preset minimum time to recognize that the meal has begun, rather than simply passing around the table above the preset minimum ratio for Through the control of the 570nm LED chip group 143 made of the 570nm LED chip 142a formed in the inside of (140u), as shown in Fig.6b, the light source of the 570nm band is controlled to be output to the table, and the diet operation mode is performed. A diet control module 133; It characterized in that it further comprises.

The smart LED lighting device based on human body detection according to an embodiment of the present invention uses a lighting device set to irradiate a light source from the top of the dining table toward the dining table, and automatically detects preset usage information around the dining table to sterilize the dining table. It provides the effect of autonomously performing functional actions such as increase in food consumption and suppression of appetite based on artificial intelligence.

In addition, the smart LED lighting device based on human body detection according to another embodiment of the present invention detects the movement or body temperature of the human body when a person is at the table when performing ultraviolet sterilization to protect the person from the UV light source. Provides a possible effect.

In addition, the smart LED lighting device based on human body detection according to another embodiment of the present invention appropriately adjusts the bandwidth of the light source output by dividing the case of daily eating and the case of eating during the diet process. In the case of the process, in order to lower the appetite, it is adjusted to a cold color compared to the warm color corresponding to the case of daily meals, thereby providing an effect of increasing the efficiency of the diet.

1 is a view showing a state in which a smart LED lighting device 100 based on human body detection according to an embodiment of the present invention is installed.
2 is a block diagram showing the main components of the smart LED lighting device 100 based on human body detection according to an embodiment of the present invention.
3 is a block diagram showing the components of the controller 130 of the smart LED lighting device 100 based on human body detection according to an embodiment of the present invention.
4 and 5 are diagrams for explaining the structure of the LED light source unit 140 of the smart LED lighting device 100 based on human body detection according to an embodiment of the present invention.
6 is a diagram illustrating a state in which each function mode of the smart LED lighting apparatus 100 based on human body detection according to an embodiment of the present invention is executed.
7 is a diagram showing a state in which a smart LED lighting device 100 based on human body detection is installed according to another embodiment of the present invention.
8 is a block diagram showing the main components of a smart LED lighting device 100 based on human body detection according to another embodiment of the present invention.
9 is a view for explaining an operation state when an ultraviolet sterilization mode is implemented in a smart LED lighting device 100 based on human body detection according to another embodiment of the present invention.

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

In the present specification, when one component'transmits' data or a signal to another component, the component can directly transmit the data or signal to another component, and through at least one other component It means that data or signals can be transmitted to other components.

1 is a view showing a state in which a smart LED lighting device 100 based on human body detection according to an embodiment of the present invention is installed. 2 is a block diagram showing the main components of the smart LED lighting device 100 based on human body detection according to an embodiment of the present invention. 3 is a block diagram showing the components of the controller 130 of the smart LED lighting device 100 based on human body detection according to an embodiment of the present invention. 4 and 5 are diagrams for explaining the structure of the LED light source unit 140 of the smart LED lighting device 100 based on human body detection according to an embodiment of the present invention. 6 is a diagram illustrating a state in which each function mode of the smart LED lighting apparatus 100 based on human body detection according to an embodiment of the present invention is executed.

1 and 2, the smart LED lighting device 100 based on human body detection according to an embodiment of the present invention includes an input unit 110, a sensor unit 120, a dimming module 130u, a control unit 130, It may include an LED light source unit 140.

First, the LED light source unit 140 is formed of a PCB substrate and a plurality of LED package modules 140u as shown in FIGS. 4 and 5, and a plurality of LED package modules 140u are formed on the PCB substrate as shown in FIGS. 4 and 5 After being formed in a lattice arrangement, it may be formed by being fastened to a housing and a floodlight.

Here, the LED package module 140u includes a sterilization LED chip 141a, a 570nm LED chip 142a, a 600nm LED chip 143a, and a display/illumination control LED chip 144a in one package. According to the control of the control unit 130, on/off control is possible for each chip constituting the plurality of LED package modules 140u, as well as the dimming module 130u by the control unit 130. A dimming operation may be performed according to the control.

Meanwhile, as shown in FIG. 5, the LED package module 140u may be divided into an edge LED light source unit 140a and a core LED light source unit 140b according to a position on the PCB substrate. Here, the LED package module 140u of the grid arrangement is a sterilization LED chip group 141 corresponding to the sterilization LED chip 141a each formed inside each LED package module 140u, depending on the configuration, each LED The 570nm LED chip group 142 corresponding to the 570nm LED chip 142a each formed inside the package module 140u, and the 600nm LED chip 143a respectively formed inside each LED package module 140u. It may be divided into a 600nm LED chip group 143 and a display/illumination control LED chip group 144 corresponding to the display/illumination control LED chip 144a respectively formed inside each LED package module 140u.

Meanwhile, the edge LED light source unit 140a is located in an edge area on the PCB substrate among the plurality of LED package modules 140u, and thus corresponds to a rectangular, circular, or other polygonal edge according to the shape of the PCB substrate.

The core LED light source unit 140b is arranged and positioned inside the edge LED light source unit 140a on the PCB substrate among the plurality of LED package modules 140u, so that it can be formed in a square, circle, or other polygon according to the shape of the edge LED light source unit 140a. It can be formed in a corresponding grid shape.

The input unit 110 is formed in the housing of the human body detection-based smart LED lighting device 100 or is formed as a communication module for communication with a remote control separate from the human body detection-based smart LED lighting device 100, and thus the control unit 130 ), you can enter a request for an ultraviolet sterilization operation mode, a daily operation mode, and a diet operation mode.

The sensor unit 120 includes a human body detection sensor 121 and a camera 122 to detect a human body in a predetermined area centered on a table located under the smart LED lighting device 100 based on human body detection. It may be formed to have a human body detection sensor 121 and a preset image capturing angle (camera 122). Here, the human body detection sensor 121 may be formed of an ultraviolet sensor and/or a motion sensor.

The dimming module 130u may include a first dimming means 130a, a second dimming means 130b, a third dimming means 130c, and a fourth dimming means 130d.

The first dimming means 130a corresponds to a dimming circuit utilized for dimming control by the control unit 130 for the sterilization LED chip group 141 consisting of the sterilization LED chips 141a connected in series, and the second The dimming means 130b corresponds to a dimming circuit utilized for dimming control by the controller 130 for the 570nm LED chip group 142 consisting of 570nm LED chips 142a connected in series, and a third dimming means 130c ) Corresponds to a dimming circuit utilized for dimming control by the controller 130 for a 600nm LED chip group 143 consisting of a 600nm LED chip 143a connected in series, and the fourth dimming means 130d is in series. It corresponds to a dimming circuit used for dimming control by the control unit 130 for the display/illumination control LED chip group 144 comprising the connected display/illumination control LED chip 144a.

Referring to FIG. 3, the controller 130 may include an ultraviolet sterilization control module 131, a daily control module 132, and a diet control module 133 to perform three functions.

First, when a request for an ultraviolet sterilization operation mode is received through the input unit 110 (case 1-1), the ultraviolet sterilization control module 131 receives the human body from the sensor unit 120 while a preset ultraviolet sterilization operation cycle arrives. When the detection of the human body is not received (case 1-2), and a second preset time after receiving detection of the human body for more than a preset first time (minimum time set in advance to be determined by meal) from the sensor unit 120 (The minimum time set in advance so that it is possible to determine that you have been away after eating) In the case that one of the cases where it is determined that you have left the table after eating due to not receiving detection of the human body (case 1-3), the LED light source unit 140 ) UV-B (280 to 315 nm) to the table through the control of the LED chip group 141 for sterilization corresponding to the LED chip 141a for sterilization formed inside each LED package module 140u constituting ) Or/and a light source of UV-C (200 to 280 nm) is controlled to output as shown in FIG. 6C and at the same time, for the sensor unit 120, a preset area centered on the table and/or a preset image capture angle ( Hereinafter, it may be commanded to wait for detection of the human body in the human body detection area).

Accordingly, the ultraviolet sterilization control module 131 controls to stop performing the ultraviolet sterilization operation mode by the sterilization LED chip group 141 when the human body is detected by the sensor unit 120 while performing the ultraviolet sterilization operation mode. I can.

Here, the target of the ultraviolet sterilization operation mode performed by the ultraviolet sterilization control module 131 is the core LED light source unit 140b inside the border LED light source unit 140a as the main target, but the frame LED light source unit 140a is also an input unit ( 110) can be set as a control target.

On the contrary, the ultraviolet sterilization control module 131 performs ultraviolet sterilization operation by the sterilization LED chip group 141 when the human body is not detected by the sensor unit 120 to complete the execution of the ultraviolet sterilization operation mode set at a preset time. You can control to stop performing the mode.

Through this action, the ultraviolet sterilization control module 131 detects the movement or body temperature of the human body when the person is at the table and stops the UV emission to protect the person.

When a request for a daily operation mode is received through the input unit 110 (case 2-1), the daily control module 132 performs a preset third time for the human body from the sensor unit 120 (the third time is Any of the cases (case 2-1) that detects that the meal is being eaten by receiving the detection during the preset minimum time to recognize that the meal has begun, rather than simply passing around the table above the preset minimum ratio for the set first time. In one case, 600nm to the table through control of the 600nm LED chip group 143 corresponding to the 600nm LED chip 143a formed inside each LED package module 140u constituting the LED light source unit 140 It is possible to control to output the light source of the band, and after the above-described third time elapses, after the detection of the human body for more than a preset first time (minimum time set in advance so that it can be determined by eating), a preset second time ( When it is determined that the human body has not been detected for a preset minimum period of time to be determined to have been away after eating) and it is determined that the person has left the table after eating, the daily operation is performed by notifying the ultraviolet sterilization control module 131 again. Mode can be performed.

On the other hand, when the daily control module 132 detects that it is being eaten, the display/corresponding to the LED chip 144a for display/illumination control formed inside each LED package module 140u constituting the LED light source unit 140 Through the control of the illumination control LED chip group 144, it is possible to control to output a light source in the visible light (380 to 800 nm) band corresponding to general lighting to the table as shown in FIG. 6A.

To this end, the sensor unit 120 may additionally include an illuminance detection sensor 123, and the daily control module 132 may display each display constituting the LED chip group 144 for display/illumination adjustment only when it is less than a preset illuminance. It is possible to control to compensate for the insufficient amount of light that can be set between the lower limit to the upper limit of the preset illuminance range through dimming control using the fourth dimming means 130d for the / illuminance adjustment LED chip 144a.

Here, the daily life control module 132 analyzes image information captured by the camera 122 constituting the sensor unit 120, and the above-described daily life only for a user who is already registered through the input unit 110, etc. The operation mode can be performed.

To this end, the daily control module 132 may include a signal processing unit that converts an analog image signal obtained by converting an optical signal detected by the camera 122 to an electrical signal into digital data. Accordingly, the daily control module 132 determines a user registered in advance from the image information. To this end, the daily control module 132 has a separate storage unit, so that various user patterns are stored in the storage unit, such as various user pattern information or the inclined, inverted, or slightly angled information of the various user patterns. A product in the image information can be identified by comparing a tilted one and a user's pattern included in the image information.

The diet control module 133 is a case in which a request for a diet operation mode is received through the input unit 110, and a third preset time for the human body from the sensor unit 120 (the third time is the first preset time). For each LED package module constituting the LED light source 140 when detection is received for a preset minimum time to recognize that the meal has begun rather than simply passing around the table above the preset minimum ratio. 140u) through the control of the 570nm LED chip group 143 made of the 570nm LED chip 142a formed inside the table, as shown in Fig.6b, to output the light source of the 570nm band to the table, thereby performing the diet operation mode. I can.

In another embodiment of the present invention, when performing the diet operation mode, the diet control module 133 is controlled to power on the 600nm LED chip group 143 and then uses the third dimming means 130c. The first dimming control using the second dimming means 130b for the 570nm LED chip group 142 at the same time as performing the gradual power off through the first dimming control for the LED chip group 143 By performing a gradual power-on operation through the second dimming control for the 570nm LED chip group 142 so that the amount of the output value lowered by is canceled, the warm-colored light becomes darker as the meal time passes. By changing, the diner using low-light light can naturally achieve loss of appetite while not being aware of the change due to insensitivity to the change in light in the wavelength range of about 20 nm to 30 nm.

Even in this case, when the diet control module 133 detects that it is being eaten, it corresponds to the display/illumination control LED chip 144a formed inside each LED package module 140u constituting the LED light source unit 140. Through the control of the LED chip group 144 for display/illumination control, it is possible to control to output a light source in a visible light (380 to 800 nm) band corresponding to general lighting to a table. To this end, the sensor unit 120 may additionally include an illuminance detection sensor 123, and the diet control module 133 may display each display constituting the LED chip group 144 for display/illumination adjustment only when it is less than a preset illuminance. It is possible to control to compensate for the insufficient amount of light for the lower limit of the preset illuminance range through dimming control using the fourth dimming means 130d for the / illuminance adjustment LED chip 144a.

In addition, as another embodiment of the present invention, the diet control module 133 is a LED chip of the 570nm LED chip group 142 and/or the display/illumination control LED chip group 144 that is lit as the meal time passes. By controlling the second dimming means 130b and the fourth dimming means 130d to gradually lower the illuminance, the appetite suppressing effect can be further doubled.

7 is a diagram showing a state in which a smart LED lighting device 100 based on human body detection is installed according to another embodiment of the present invention. 8 is a block diagram showing the main components of a smart LED lighting device 100 based on human body detection according to another embodiment of the present invention. 9 is a view for explaining an operation state when an ultraviolet sterilization mode is implemented in a smart LED lighting device 100 based on human body detection according to another embodiment of the present invention.

7 and 8, a human body detection-based smart LED lighting device 100 according to another embodiment of the present invention is a human body detection-based smart LED lighting device according to the embodiment of the present invention of FIGS. 1 and 2 In addition to the input unit 110, the sensor unit 120, the dimming module 130u, the control unit 130, and the LED light source unit 140, which are components of the 100, a sound output unit 150 and an indicator 160 are further included. I can.

First, the LED light source unit 140 is formed of a PCB substrate and a plurality of LED package modules 140u as in FIG. 1, and a plurality of LED package modules 140u are formed on the PCB substrate in a grid shape as shown in FIGS. 4 and 5 Can be formed as

In addition, the LED package module 140u includes a sterilizing LED chip 141a, a 570nm LED chip 142a, a 600nm LED chip 143a, and a display/illumination control LED chip 144a in one package, According to the control of the control unit 130, on/off control is possible for each chip constituting the plurality of LED package modules 140u, as well as the dimming module 130u by the control unit 130. A dimming operation may be performed according to the control.

In addition, as shown in FIG. 5, the LED package module 140u may be divided into an edge LED light source unit 140a and a core LED light source unit 140b according to a position on the PCB substrate. Here, the LED package module 140u of the grid arrangement is a sterilization LED chip group 141 corresponding to the sterilization LED chip 141a each formed inside each LED package module 140u, depending on the configuration, each LED The 570nm LED chip group 142 corresponding to the 570nm LED chip 142a each formed inside the package module 140u, and the 600nm LED chip 143a respectively formed inside each LED package module 140u. It may be divided into a 600nm LED chip group 143 and a display/illumination control LED chip group 144 corresponding to the display/illumination control LED chip 144a respectively formed inside each LED package module 140u.

The edge LED light source unit 140a is located in an edge area on the PCB substrate among the plurality of LED package modules 140u, and corresponds to a square, circular, or other polygonal edge according to the shape of the PCB substrate.

In the first embodiment of the present invention, the edge LED light source unit 140a is selected from the first color corresponding to the rainbow light when controlling the ultraviolet sterilization operation of the LED light source unit 140 by the control unit 130 as shown in FIG. 9A. The color of the display/illumination control LED chip 144a among the plurality of LED package modules 140u constituting itself with n color (n is a natural number of 2 or more, preferably a natural number corresponding to 7) 140a) in a counterclockwise direction (forward direction) or in a clockwise direction (reverse direction) sequentially and continuous lighting may be repeatedly performed until the ultraviolet sterilization operation is completed. Here, it is preferable that each of the LED chips for display/illumination control 144a includes R, G, and B LED chips formed in one package, so that various colors can be implemented.

In addition, in the second embodiment of the present invention, when the edge LED light source unit 140a completes the UV sterilization operation control for the LED light source unit 140 according to the control of the control unit 130 as shown in FIG. 9B, the controller 130 According to the control by ), it is possible to output in white (W) color for all the display/illumination control LED chips 144a of the plurality of LED package modules 140u constituting themselves.

At this time, since each display/illumination control LED chip 144a has R, G, and B LED chips formed in one package, the control unit 130 controls all of the R, G, and B LED chips to be powered on. It is desirable.

The core LED light source unit 140b is located inside the edge LED light source unit 140a on the PCB substrate among the plurality of LED package modules 140u, and thus corresponds to a square, circle, or other polygon according to the shape of the edge LED light source unit 140a. It can be formed in a lattice shape.

In an embodiment of the present invention, the core LED light source unit 140b is controlled by the control unit 130 again when the ultraviolet sterilization operation for the LED light source unit 140 by the control unit 130 is completed, as shown in FIG. 9C. Accordingly, the LED chip 144a for display/illumination adjustment set for the current time among the plurality of LED package modules 140u constituting itself may be output in white (W) color.

The input unit 110 is formed in the housing of the human body detection-based smart LED lighting device 100 or is formed as a communication module for communication with a remote control separate from the human body detection-based smart LED lighting device 100, and thus the control unit 130 ), you can enter a request for an ultraviolet sterilization operation mode, a daily operation mode, and a diet operation mode. In another embodiment of the present invention, when the input unit 110 is formed in the housing of the smart LED lighting device 100 based on human body detection, the input unit 110 may be formed as a button type integral with the indicator 160 which is an LED display device.

The sensor unit 120 includes a human body detection sensor 121 and a camera 122 to detect a human body in a predetermined area centered on a table located under the smart LED lighting device 100 based on human body detection. It may be formed to have a human body detection sensor 121 and a preset image capturing angle (camera 122). Here, the human body detection sensor 121 may be formed of an ultraviolet sensor and/or a motion sensor.

The dimming module 130u may include a first dimming means 130a, a second dimming means 130b, a third dimming means 130c, and a fourth dimming means 130d.

The first dimming means 130a corresponds to a dimming circuit utilized for dimming control by the control unit 130 for the sterilization LED chip group 141 consisting of the sterilization LED chips 141a connected in series, and the second The dimming means 130b corresponds to a dimming circuit utilized for dimming control by the controller 130 for the 570nm LED chip group 142 consisting of 570nm LED chips 142a connected in series, and a third dimming means 130c ) Corresponds to a dimming circuit utilized for dimming control by the controller 130 for a 600nm LED chip group 143 consisting of a 600nm LED chip 143a connected in series, and the fourth dimming means 130d is in series. It corresponds to a dimming circuit used for dimming control by the control unit 130 for the display/illumination control LED chip group 144 comprising the connected display/illumination control LED chip 144a.

The controller 130 may include an ultraviolet sterilization control module 131, a daily control module 132, and a diet control module 133 for three functions.

First, when a request for an ultraviolet sterilization operation mode is received through the input unit 110, the ultraviolet sterilization control module 131 does not receive detection of the human body from the sensor unit 120 while a preset ultraviolet sterilization operation cycle arrives. If not, or after receiving detection of the human body for more than a preset first time (minimum time set in advance to be determined as a meal) from the sensor unit 120, a preset second time (preset so that it is possible to determine that you have been away after eating) When it is determined that the human body has not been detected for a minimum period of time) and it is confirmed that the person has eaten and has left the table, the LED chip 141a for sterilization formed inside each LED package module 140u constituting the LED light source unit 140 Control to output the light source of UV-B (280 to 315 nm) or/and UV-C (200 to 280 nm) to the table through the control of the corresponding sterilization LED chip group 141 , In addition to performing sequential continuous lighting control corresponding to the rainbow light for the frame LED light source unit 140a, as well as a preset area and/or a preset image capture angle (hereinafter, referred to as , Human body detection area) can be commanded to wait for detection of the human body.

Accordingly, the ultraviolet sterilization control module 131 controls to stop performing the ultraviolet sterilization operation mode by the sterilization LED chip group 141 when the human body is detected by the sensor unit 120 while performing the ultraviolet sterilization operation mode. I can. Here, the target of the ultraviolet sterilization operation mode performed by the ultraviolet sterilization control module 131 is the core LED light source unit 140b inside the border LED light source unit 140a as the main target, but the frame LED light source unit 140a is also an input unit ( 110) can be set as a control target.

On the contrary, the ultraviolet sterilization control module 131 performs ultraviolet sterilization operation by the sterilization LED chip group 141 when the human body is not detected by the sensor unit 120 to complete the execution of the ultraviolet sterilization operation mode set at a preset time. Control to stop performing the mode, and white for all display/illumination control LED chips 144a of all LED package modules 140u constituting the border LED light source unit 140a through control of the border LED light source unit 140a W) By controlling to output in color, it is possible to display the completion of the ultraviolet sterilization operation mode by the edge LED light source unit 140a whose light source irradiation area is adjusted to the edge area of the table as shown in FIG. 6B. In addition, in another embodiment of the present invention, the ultraviolet sterilization control module 131 is, in addition, when the human body detection is not performed from the sensor unit 120 to complete the execution of the ultraviolet sterilization operation mode set at a preset time, additionally, the core LED light source By controlling the display/illumination control LED chip 144a set for the current time among the plurality of LED package modules 140u constituting 140b to be output in white (W) color, the inner area of the dining table as shown in FIG. 6C As a result, the completion of the ultraviolet sterilization operation mode by the core LED light source unit 140b in which the light source irradiation area is adjusted may be indirectly displayed.

Through this action, the ultraviolet sterilization control module 131 detects the movement or body temperature of the human body when the person is at the table and stops the UV emission to protect the person.

When a request for a daily operation mode is received through the input unit 110, the daily control module 132 receives a preset third time for the human body from the sensor unit 120 (the third time is for the preset first time). Each LED package module constituting the LED light source 140 when the detection is received for a preset minimum time to recognize that the meal has begun rather than simply passing around the table above the preset minimum ratio. 140u) through the control of the 600nm LED chip group 143 corresponding to the 600nm LED chip 143a formed inside the table, it is possible to control to output the light source of the 600nm band to the table, and the above-described third time has elapsed. After receiving the detection of the human body for more than a preset first time (minimum time set in advance to be judged by eating) or more, the human body for a preset second time (minimum time set in advance to be determined to be away after eating) When it is determined that the sensor has not received the detection and has left the table after eating, a notification to the ultraviolet sterilization control module 131 may be performed again.

On the other hand, when the daily control module 132 detects that it is being eaten, the display/corresponding to the LED chip 144a for display/illumination control formed inside each LED package module 140u constituting the LED light source unit 140 Through the control of the illumination control LED chip group 144, it is possible to control to output a light source in the 380 to 780 nm band corresponding to general lighting to the table.

To this end, the sensor unit 120 may additionally include an illuminance detection sensor 123, and the daily control module 132 may display each display constituting the LED chip group 144 for display/illumination adjustment only when it is less than a preset illuminance. It is possible to control to compensate for the insufficient amount of light for the lower limit of the preset illuminance range through dimming control using the fourth dimming means 130d for the / illuminance adjustment LED chip 144a.

Here, the daily life control module 132 analyzes image information captured by the camera 122 constituting the sensor unit 120, and the above-described daily life only for a user who is already registered through the input unit 110, etc. The operation mode can be performed.

The diet control module 133 is a case in which a request for a diet operation mode is received through the input unit 110, and a third preset time for the human body from the sensor unit 120 (the third time is the first preset time). For each LED package module constituting the LED light source 140 when detection is received for a preset minimum time to recognize that the meal has begun rather than simply passing around the table above the preset minimum ratio. 140u) through the control of the 570nm LED chip group 143 made of the 570nm LED chip 142a formed inside the table to output a light source of the 570nm band to the table, it is possible to perform the diet operation mode.

In another embodiment of the present invention, when performing the diet operation mode, the diet control module 133 is controlled to power on the 600nm LED chip group 143 and then uses the third dimming means 130c. The first dimming control using the second dimming means 130b for the 570nm LED chip group 142 at the same time as performing the gradual power off through the first dimming control for the LED chip group 143 By performing a gradual power-on operation through the second dimming control for the 570nm LED chip group 142 so that the amount of the output value lowered by is canceled, the warm-colored light becomes darker as the meal time passes. By changing, the diner using low-light light can naturally achieve loss of appetite while not being aware of the change due to insensitivity to the change in light in the wavelength range of about 20 nm to 30 nm.

Even in this case, when the diet control module 133 detects that it is being eaten, it corresponds to the display/illumination control LED chip 144a formed inside each LED package module 140u constituting the LED light source unit 140. Through the control of the display/illumination control LED chip group 144, it is possible to control to output a light source in a 380 to 780 nm band corresponding to general lighting to a table. To this end, the sensor unit 120 may additionally include an illuminance detection sensor 123, and the diet control module 133 may display each display constituting the LED chip group 144 for display/illumination adjustment only when it is less than a preset illuminance. It is possible to control to compensate for the insufficient amount of light for the lower limit of the preset illuminance range through dimming control using the fourth dimming means 130d for the / illuminance adjustment LED chip 144a.

In addition, as another embodiment of the present invention, the diet control module 133 is a LED chip of the 570nm LED chip group 142 and/or the display/illumination control LED chip group 144 that is lit as the meal time passes. By controlling the second dimming means 130b and the fourth dimming means 130d to gradually lower the illuminance, the appetite suppressing effect can be further doubled.

When the ultraviolet sterilization operation mode set to a preset time by the ultraviolet sterilization control module 131 is completed, the sound output unit 150 may output that ultraviolet sterilization is completed using a warning sound including a beep sound. have.

The indicator 160 may be composed of a blue (B) LED display, a gray (G) LED display, and a yellow (Y) LED display, and when the blue (B) LED display is in the UV sterilization operation mode, the UV sterilization control module ( 131), the gray (G) LED display unit is powered on according to the control of the diet control module 133 in the diet operation mode, and the yellow (Y) LED display unit is daily In the case of the operation mode, it may be formed to turn on power according to the control of the daily control module 132.

As described above, in the present specification and drawings, a preferred embodiment of the present invention has been disclosed, and although specific terms are used, this is only used in a general meaning to easily explain the technical content of the present invention and to aid understanding of the invention. , It is not intended to limit the scope of the present invention. In addition to the embodiments disclosed herein, it is apparent to those of ordinary skill in the art that other modified examples based on the technical idea of the present invention may be implemented.

100: human body detection-based smart LED lighting device
110: input unit
120: sensor unit
121: human body detection sensor
122: camera
130: control unit
130u: dimming module
130a: first dimming means
130b: second dimming means
130c: third dimming means
130d: fourth dimming means
140: LED light source unit
140a: frame LED light source
140a: core LED light source unit
140c: indicator
140u: LED package module
141: LED chip group for sterilization
141a: LED chip for sterilization
142: 570nm LED chip group
142a: 570nm LED chip
140: 600nm LED chip group
143a: 600nm LED chip
LED chip group for display/illumination control (144)
LED chip for display/illumination control (144a)
150: sound output unit
160: indicator

Claims (8)

Control unit 130; And
An LED light source unit 140 formed of a PCB substrate and a plurality of LED package modules 140u, and formed after the plurality of LED package modules 140u are formed on the PCB substrate, and then coupled to the housing and the floodlight; Including,
The LED package module 140u includes a sterilizing LED chip 141a, a 570nm LED chip 142a, a 600nm LED chip 143a, and a display/illumination control LED chip 144a in one package. According to the control of 130), not only on/off control is possible for each chip constituting the plurality of LED package modules 140u, but also the control of the dimming module 130u by the controller 130 Perform a dimming operation accordingly,
Further comprising a border LED light source positioned at the edge of the LED package module (140u), the edge LED light source unit sequentially in a clockwise or counterclockwise direction of light having a plurality of colors when the LED light source emits sterilizing light A smart LED lighting device based on human body detection, characterized in that it emits light in the form of continuous lighting, and emits white light when the LED light source unit completes the sterilization light emission.
The method according to claim 1, the LED light source 140,
A sterilization LED chip group 141 corresponding to the sterilization LED chip 141a each formed inside each LED package module 140u, and a 570nm LED chip 142a each formed inside each LED package module 140u ) Corresponding to the 570nm LED chip group 142, the 600nm LED chip group 143 corresponding to the 600nm LED chip 143a respectively formed inside each LED package module 140u, and each of the LED package modules 140u A human body sensing-based smart LED lighting device, characterized in that it is divided into a display/illumination control LED chip group 144 corresponding to the display/illumination control LED chip 144a respectively formed therein.
The method according to claim 1,
It is formed in the housing of the human body detection-based smart LED lighting device 100 or is formed as a communication module for communication with a remote control separate from the human body detection-based smart LED lighting device 100, and is used as a UV sterilization operation mode by the control unit 130 , An input unit 110 for providing a request for a daily operation mode and a diet operation mode; Human body detection-based smart LED lighting device, characterized in that it further comprises.
The method according to claim 1,
A sensor unit 120 including a human body detection sensor 121 and a camera 122; It further includes,
The human body detection sensor 121 includes at least one of an ultraviolet sensor and a motion detection sensor in order to detect a human body within a predetermined area centered on a table located under the smart LED lighting device 100 based on human body detection. Including,
The camera 122 is a human body detection-based smart LED lighting device, characterized in that a preset image capturing angle centered on a table located under the human body detection-based smart LED lighting device 100 is set.
The method according to claim 1, the dimming module (130u),
A first dimming means (130a) corresponding to a dimming circuit utilized for dimming control by the control unit 130 for the sterilization LED chip group 141 consisting of the sterilization LED chips (141a) connected in series;
A second dimming means (130b) corresponding to a dimming circuit utilized for dimming control by the control unit 130 for the 570nm LED chip group 142 consisting of 570nm LED chips 142a connected in series;
A third dimming means 130c corresponding to a dimming circuit utilized for dimming control by the controller 130 for the 600nm LED chip group 143 consisting of 600nm LED chips 143a connected in series; And
A fourth dimming means 130d corresponding to a dimming circuit utilized for dimming control by the controller 130 for the display/illumination control LED chip group 144 consisting of the display/illumination control LED chips 144a connected in series ; Human body detection-based smart LED lighting device, characterized in that it further comprises.
The method according to claim 5, the control unit 130,
When a request for an ultraviolet sterilization operation mode is received through the input unit 110 (case 1-1), when a human body is not detected from the sensor unit 120 as a preset ultraviolet sterilization operation cycle arrives (case 1-2), and a second preset time after receiving detection of the human body for more than a preset first time (minimum time set in advance so that it can be determined as a meal) from the sensor unit 120, and then a second preset time (determining that you have been away after eating) Each LED package module 140u constituting the LED light source unit 140 corresponds to one of the cases (case 1-3) when it is determined that the body has not been detected for a predetermined minimum time period) and is determined to have left the table after eating. ) UV-B (280 to 315 ㎚) or UV-C (200 to 280 ㎚) to the table through the control of the sterilization LED chip group 141 corresponding to the sterilization LED chip (141a) formed inside A UV sterilization control module that controls to output a light source of) and at the same time instructs the sensor unit 120 to wait for detection of the human body in a preset area centered on the table or a human body detection area that is a preset image capture angle (131); Human body detection-based smart LED lighting device comprising a.
The method according to claim 6, the control unit 130,
When a request for a daily operation mode is received through the input unit 110 (case 2-1), a third preset time for the human body from the sensor unit 120 (the third time is a preset first time In any one of the cases (case 2-1) when detection is received for a preset minimum time to recognize that the meal has begun, rather than simply passing around the table by more than the set minimum ratio), the LED light source unit Control to output a light source of 600nm band to the table through control of the 600nm LED chip group 143 corresponding to the 600nm LED chip 143a formed inside each LED package module 140u constituting 140 Daily control module 132, characterized in that; Human body detection-based smart LED lighting device, characterized in that it further comprises.
The method according to claim 7, the control unit 130,
When a request for a diet operation mode is received through the input unit 110, the third time preset for the human body from the sensor unit 120 (the third time is at least a preset minimum ratio with respect to the preset first time). When the detection is received for a preset minimum time for recognizing that the meal has begun rather than simply passing around the table), and when it is detected as being eating, it is formed inside each LED package module 140u constituting the LED light source unit 140. A diet control module 133 for performing a diet operation mode by controlling to output a light source of a 570nm band to the table through control of the 570nm LED chip group 143 made of the 570nm LED chip 142a; Human body detection-based smart LED lighting device, characterized in that it further comprises.

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