KR102572945B1 - Lighting control device using a human motion detecting sensor - Google Patents

Abstract

The present invention relates to a lighting control device using a human body detection sensor, wherein the lighting control device according to one embodiment comprises: at least one main lighting module that detects a human body of a user and provides a lighting light to a detection area; at least one sub-lighting module that provides the lighting light to a preset placement area according to a human body detection result of the user through the at least one main lighting module; and a central processing module that supplies a lighting-on control signal to the at least one sub-lighting module based on the human body detection result of the user and preset interface information through the at least one main lighting module. Therefore, the present invention is capable of improving safety and satisfaction of the user.

Description

Lighting control device using human body detection sensor {LIGHTING CONTROL DEVICE USING A HUMAN MOTION DETECTING SENSOR}

The present invention relates to a lighting control device using a human body sensor.

The automatic lighting providing technology refers to a technology of preventing unnecessary use of lighting and providing or turning off light at a suitable location prior to a user's operation. As part of this automatic light providing technology, the most commonly used infrared sensor-based lighting device detects the movement of the human body emitting infrared rays of a specific band in a preset area, and turns on or off the light depending on whether or not it is detected. it works with

Conventional infrared sensing-based lighting devices merely perform a function of providing light by detecting a human body, but there is a problem in that more light than necessary or unnecessary light is provided in some cases. Specifically, in the conventional infrared sensing method, the user senses a method of detecting a movement generated from a human body emitting infrared rays of a specific frequency band within a detection area. Therefore, when no movement occurs for a preset time period, for example, when the user uses a smartphone and the like causes little movement, even if the infrared sensing type lighting device detects the human body, it can be turned off.

Infrared sensing type lighting devices turn off the lights unless there is a user movement, so it may be effective in preventing unnecessary lighting provision, but there may be a problem in that lighting is not provided even when lighting is needed. there is. In addition, the infrared sensing type lighting device according to the prior art provides light only to a specific area where the user's motion is detected, and cannot provide light to the user's surroundings or movement path, so the use area is limited. .

Republic of Korea Patent Publication No. 10-2019-0117054 (published date: 2019.10.16.) Republic of Korea Patent Registration No. 10-1931503 (registration date: 2018.12.17.) Republic of Korea Patent Registration No. 10-2164877 (registration date: 2020.10.13.) Republic of Korea Patent Publication No. 10-2021-0103087 (published date: 2021.08.23.)

An object to be solved by the present invention is to provide a lighting control device using a human body sensor capable of providing light to a preset user's surroundings or a user's expected movement path according to the user's movement.

In addition, the problem to be solved by the present invention is a lighting control device using a human body detection sensor capable of providing light in advance to another indoor area or destination movement direction set by the user according to the specific area detected by the user and the location of the user. is to provide

The tasks of the present invention are not limited to the tasks mentioned above, and other technical tasks not mentioned will be clearly understood by those skilled in the art from the following description.

A lighting control device using a human body detection sensor according to an embodiment for solving the above problems is a user through at least one main lighting module and at least one main lighting module for detecting a user's body and providing lighting light to a sensing area. At least one sub-lighting module providing illumination light to a preset arrangement area according to a result of detecting the user's body, and at least one sub-lighting based on the result of detecting the user's body through the at least one main lighting module and preset interface information. and a central processing module supplying a lighting control signal to the module.

The central processing module includes an interface module that receives interface information from a user, a communication module that receives and transmits a unique code number and a human body detection signal generation notification signal from at least one main lighting module, and at least one main lighting module and A signal processing control unit that groups at least one sub-lighting module and selectively associates unique code numbers for at least one main lighting module and at least one sub-lighting module according to grouping information, and detects a unique code number and a human body through a communication module. At least one main lighting module selectively associated with unique code numbers according to the grouping information of the switching signal output unit and the signal processing control unit for generating a lighting control signal during the period counted by the counter when the signal generation notification signal is delivered And a switching signal transmission unit for selectively transmitting a lighting control signal to the sub-lighting module of the.

A lighting control device using a human body detection sensor according to an embodiment of the present invention can provide light around a preset user or an expected movement path of the user according to the user's detected position and movement, thereby improving the safety and satisfaction of the user. there is.

In addition, the user's convenience may be enhanced by providing light to another indoor area preset by the user or to a destination movement direction according to the user's sensed location.

Effects according to the embodiments are not limited by the contents exemplified above, and more various effects are included in this specification.

1 is a configuration diagram showing a lighting control device using a human body sensor according to an embodiment of the present invention.
Figure 2 is a configuration block diagram showing in detail the detailed components of any one main lighting module shown in FIG.
Figure 3 is a configuration block diagram showing a detailed circuit structure of the main lighting control unit shown in FIG.
FIG. 4 is a configuration block diagram specifically showing detailed components of any one sub lighting module shown in FIG. 1 .
FIG. 5 is a block diagram showing detailed components of the central processing module shown in FIG. 1 in detail.

Advantages and features of the present invention, and methods of achieving them, will become clear with reference to the detailed description of the following embodiments taken in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms, only these embodiments make the disclosure of the present invention complete, and common knowledge in the art to which the present invention belongs. It is provided to fully inform the holder of the scope of the invention, and the present invention is only defined by the scope of the claims.

Various elements enumerated expressions, such as the first to nth elements, the first, second, and third elements, are frequently used in the process of describing, but these enumerated elements and expressions are not limited by the terms. These terms are only used to distinguish one component from another. Therefore, the first, second, third, etc. components mentioned below may be other respective components within the technical spirit of the present invention.

Each feature of the various embodiments of the present invention can be partially or entirely combined or combined with each other, technically various interlocking and driving is possible, and each embodiment can be implemented independently of each other or can be performed together in a related relationship. may be

Hereinafter, a lighting control device using a human body sensor according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram showing a lighting control device using a human body sensor according to an embodiment of the present invention.

Referring to FIG. 1 , a lighting control device using a human body sensor includes at least one main lighting module 100, at least one sub lighting module 200, a central processing module 300, and a power supply unit 400. do.

At least one main lighting module 100 may be installed at a human body sensing position in a preset indoor or outdoor area, that is, a preset lighting light providing area. At least one main lighting module 100 senses the user's body in real time and provides illumination light to a preset detection area according to the detection result. To this end, at least one main lighting module 100 may include at least one human body detection sensor, at least one main lighting device, and a turn on/off switch of the main lighting device.

A plurality of main lighting modules 100 may be distributed and disposed in apartments, multi-family houses, factories, public institutions, and the like. For example, the main lighting module 100 may be disposed in each of preset areas such as an entrance hall, a corridor, a staircase, a workshop, a restaurant, a rest room, a bathroom, and a warehouse of a large-scale industrial building such as a factory.

At least one sub lighting module 200 may be formed and disposed as a group in association with at least one main lighting module 100 in a cloud form. At least one sub lighting module 200 may be disposed in indoor or outdoor areas adjacent to at least one main lighting module 100 linked to each other, that is, the main lighting module 100 grouped into the same group. The at least one sub-lighting module 200 provides illumination light to a predetermined arrangement area according to the human body detection result of the main lighting module 100 grouped into the same group. At this time, at least one sub lighting module 200 is turned on in response to a lighting control signal input from the central processing module 300 according to the human body detection result of the main lighting module 100 grouped into the same group. To this end, at least one sub lighting module 200 may include a communication means for receiving a lighting control signal, at least one sub lighting device, and a turn on/off switch of the sub lighting device.

At least one sub lighting module 200 may also be distributed and arranged in plurality in an apartment, a multi-family house, a factory, or a public institution together with the main lighting module 100 . For example, at least one sub lighting module 200 may be disposed adjacent to the arrangement position of the main lighting module 100, such as an entrance, corridor, stairwell, workshop, restaurant, rest room, toilet, warehouse, etc. of a large-scale industrial building such as a factory. can

The central processing module 300 supplies a lighting control signal to at least one sub lighting module 200 based on preset interface information according to a result of sensing a user's body through at least one main lighting module 100 .

The central processing module 300 includes an interface program or an interface information input pad capable of receiving interface information from a user. The central processing module 300 groups at least one main lighting module 100 and at least one sub lighting module 200 according to user input and setting information through an interface program or an interface information input pad, and each Store grouping information.

When the user's body is detected through at least one main lighting module 100, the central processing module 300 sets at least one sub-light grouped with the main lighting module 100 that detects the human body based on preset grouping information. A lighting control signal is supplied to the module 200.

The power supply 400 supplies low potential and high potential power to at least one of the at least one main lighting module 100 , at least one sub lighting module 200 and the central processing module 300 . Here, the low-potential power supply may be ground power, and the high-potential power supply may be commercial power such as 220V or driving power (eg, DC or AC voltage source) of lighting devices.

Figure 2 is a configuration block diagram showing in detail the detailed components of any one main lighting module shown in FIG.

Referring to FIG. 2 , at least one main lighting module 100 includes a human body detection sensor 101, a main lighting control unit 102, a main lighting device 104, a first switching unit 105, and a first communication unit 106. ), and a first power supply unit 103.

The human body detection sensor 101 detects a movement of a human body emitting infrared rays of a specific band in a pre-installed and set area, and generates a human body detection signal according to a detection result. The human body detection sensor 101 transmits a human body detection signal generated upon detection of a human body movement to the main lighting control unit 102 and the first communication unit 106 .

The main lighting controller 102 receives a human body detection signal from the human body sensor 101 in real time. When a human body detection signal is received from the human body sensor 101, the main lighting control unit 102 transmits a main lighting signal to the first switching unit 105 for a preset period of time. At this time, the main lighting control unit 102 transmits the main lighting signal to the first switching unit 105 during a self-counting period (eg, 10 seconds) in response to the human body detection signal received from the human body sensor 101 can transmit

The first switching unit 105 supplies driving power from the first power supply unit 103 to the main lighting device 104 during a period in which the main lighting signal is received from the main lighting control unit 102, so that the main lighting device 104 ) lights up.

Specifically, the first switching unit 105 is turned on in response to a main lighting signal from the main lighting control unit 102, and the first power supply unit 103 and the main lighting device 104 are turned on during the turn-on period. electrically connected. Accordingly, the main lighting device 104 may be turned on by DC or AC driving power input from the first power supply 103 during the turn-on period of the first switching unit 105 .

When a human body detection signal is generated from the human body sensor 101, the first communication unit 106 transmits a human body detection signal generation notification signal to the central processing module 300 in response to the human body detection signal. In particular, the first communication unit 106 may transmit a human body detection signal generation notification signal together with a unique code number of the main lighting control unit 102 to the central processing module 300 in response to the human body detection signal of the human body sensor 101. there is.

Figure 3 is a configuration block diagram showing a detailed circuit structure of the main lighting control unit shown in FIG.

Referring to FIG. 3 , the main lighting control unit 102 includes an amplifier circuit unit OP, a comparison circuit unit COM, a counter circuit unit CA, and a signal output circuit unit MP.

The amplifier circuit unit OP includes at least one operational amplifier (OP-Amp) element. When the human body detection signal BS is input from the human body sensor 101, the amplifier circuit OP amplifies the human body detection signal BS to a preset voltage level in real time using at least one OP-Amp. The amplified human body detection signal BS is supplied to the comparison circuit COM.

The comparison circuit unit COM includes a comparator such as a redstone comparator, and converts the voltage of the human body detection signal BS amplified by the amplification circuit unit OP to a reference voltage of a preset reference voltage source Vref. Compare. The comparison circuit unit COM outputs a comparison signal according to a result of comparing the magnitude of the voltage between the amplified human detection signal BS and the reference voltage. For example, the comparison circuit unit COM transmits the comparison signal between the signal output circuit unit MP and the counter circuit unit ( CA) can be supplied.

The counter circuit unit CA may supply a count signal to the signal output circuit unit MP for a preset period in response to a comparison signal from the comparison circuit unit COM.

The signal output circuit unit MP supplies the main lighting signal to the main lighting device 104 for a preset period counted by the counter circuit unit CA in response to the comparison signal input from the comparison circuit unit COM. For example, when a comparison signal is input from the comparison circuit unit COM, the signal output circuit unit MP generates a main lighting signal during a period in which a count signal is input from the counter circuit unit CA and supplies it to the main lighting device 104. can

4 is a configuration block diagram showing detailed components of any one sub-lighting module shown in FIG. 1 in detail.

Referring to FIG. 4 , at least one sub lighting module 200 includes a sub lighting control unit 202, a second power supply unit 203, a sub lighting device 204, a second switching unit 205, and a second communication unit ( 206).

When a lighting control signal is received from the central processing module 300 through the second communication unit 206, the sub lighting control unit 202 generates a sub lighting signal for a preset period of time and transmits it to the second switching unit 205. At this time, the sub-lighting control unit 202 transmits the sub-lighting signal to the second switching unit 205 for a period (eg, 10 seconds) counted by itself in response to the lighting control signal received through the second communication unit 206 can be sent to To this end, the sub lighting controller 202 may include at least one counter circuit and a signal output circuit generating a sub lighting signal.

The second switching unit 205 receives a sub lighting signal from the sub lighting control unit 202 and supplies driving power from the second power supply unit 203 to the sub lighting device 204 during a period in which the sub lighting signal is received. to turn on the sub lighting device 204.

Specifically, the second switching unit 205 is turned on in response to a sub lighting signal from the sub lighting control unit 202, and the second power supply unit 203 and the sub lighting device 204 are turned on during the turn on period. electrically connected. Accordingly, the sub lighting device 204 may be turned on by DC or AC driving power input from the second power supply 203 during the turn-on period of the second switching unit 205 .

FIG. 5 is a block diagram showing detailed components of the central processing module shown in FIG. 1 in detail.

Referring to FIG. 5, the central processing module 300 includes an interface module 301, a communication module 302, a signal processing control unit 303, a switching signal output unit 304, a counter 305, a switching signal transmission unit ( 306).

The interface module 301 includes an interface program or an interface information input pad. The interface module 301 receives interface information for selectively grouping at least one main lighting module 100 and at least one sub lighting module 200 from a user through an interface program or an interface information input pad.

The user can check the arrangement positions of at least one other main lighting module 100 and at least one sub lighting module 200 based on the arrangement position of the main lighting module 100 through an interface program or an interface information input pad. . Accordingly, the user may determine the position of the other sub-lighting modules 200 disposed around the main lighting module 100 based on the arrangement position of one main lighting module 100, and the other main lighting module 100 and the sub-lighting module according to the expected movement path. It is possible to check the arrangement position of the main lighting module 100 and the sub lighting module 200 according to the arrangement position of the 200 and the moving direction of the destination. In addition, at least one main lighting module 100 and at least one sub lighting module 200 may be selected in association with each other, and a group may be set.

The signal processing control unit 303 groups at least one main lighting module 100 and at least one sub lighting module 200 according to user input and setting information through an interface program or an interface information input pad, and each Store grouping information.

Specifically, the signal processing controller 303 groups at least one main lighting module 100 and at least one sub lighting module 200 according to interface information input by a user and stores grouping information. In addition, unique code numbers for at least one main lighting module 100 and at least one sub lighting module 200 are selectively linked according to the grouping information.

The communication module 302 receives a unique code number and a human body detection signal generation notification signal transmitted from at least one main lighting control unit 102, and transmits the received unique code number and a human body detection signal generation notification signal to the signal processing control unit 303 ) and the switching signal transmitter 306 and counter 305.

When the unique code number and the human body detection signal generation notification signal are transmitted through the communication module 302, the switching signal output unit 304 generates a lighting control signal for a preset period counted by the counter 305. The lighting control signal generated by the switching signal output unit 304 may be a digital signal that controls lighting devices included in at least one main lighting module 100 and at least one sub lighting module 200 .

The switching signal transmission unit 306 selectively switches the at least one main lighting module 100 and the at least one sub lighting module 200 to which unique code numbers are selectively associated according to the grouping information of the signal processing control unit 303. The lighting control signal of the signal output unit 304 is transmitted. The switching signal transmitter 306 may sequentially transmit a lighting control signal to at least one main lighting module 100 and at least one sub lighting module 200 together with each unique code number.

The switching signal transmitter 306 may selectively transmit a lighting control signal of the switching signal output unit 304 to at least one main lighting module 100 and at least one sub lighting module 200 through pre-connected signal lines. . Unlike this, the switching signal transmission unit 306 transmits each unique code number and lighting control signal to the first and second communication units 106 and 206 using wireless communication modules such as ZigBee, Wi-Fi, Bluetooth, LTE, and 5G. can also be transmitted.

When the at least one main lighting module 100 and the at least one sub lighting module 200 receive a lighting control signal together with each unique code number through the switching signal transmission unit 306, in response to the lighting control signal, sequentially The lighting operation can be performed with

Accordingly, the lighting control device using the human body detection sensor 101 according to an embodiment of the present invention provides light to the user's surroundings or the user's expected movement path, etc. according to the user's detected position and movement to ensure user safety. and satisfaction can be improved. In addition, the user's convenience may be enhanced by providing light to another indoor area preset by the user or to a destination movement direction according to the user's sensed location.

Although the embodiments of the present invention have been described with reference to the accompanying drawings, those skilled in the art to which the present invention pertains can be implemented in other specific forms without changing the technical spirit or essential features of the present invention. you will be able to understand Therefore, the embodiments described above should be understood as illustrative in all respects and not limiting.

100: main lighting module
101: human body detection sensor
102: main lighting control unit
200: sub lighting module
202: sub lighting control unit
300: central processing module

Claims (3)

at least one main lighting module for detecting a user's body and providing illumination light to a sensing area; at least one sub-lighting module providing illumination light to a preset arrangement area according to a result of sensing a user's body through the at least one main lighting module; and a central processing module supplying a lighting control signal to the at least one sub lighting module based on a result of sensing a user's body through the at least one main lighting module and preset interface information,
The at least one main lighting module includes a human body detection sensor for generating and outputting a human body detection signal by detecting a human body movement, and generating and outputting a main lighting signal for a preset period when a human body detection signal is received from the human body detection sensor A main lighting control unit and a first switching unit which receives a main lighting signal from the main lighting control unit and supplies driving power from a first power supply unit to a main lighting device to turn on the main lighting device while the main lighting signal is received. And a first communication unit for transmitting a human body detection signal generation notification signal to the central processing module in response to the human body detection signal generated by the human body sensor,
The main lighting control unit includes: an amplifying circuit unit that amplifies and outputs the human body detection signal input in real time to a preset voltage size when a human body detection signal is input from the human body sensor; and a voltage of the human body detection signal amplified by the amplification circuit unit. A comparison circuit unit that compares the reference voltage of a preset reference voltage source and outputs a comparison signal according to the voltage size comparison result, and a main lighting signal for a preset period counted from the counter circuit unit in response to the comparison signal input from the comparison circuit unit Including a signal output circuit for supplying to the main lighting device,
The central processing module includes an interface module for receiving interface information from a user, a communication module for receiving and transmitting a unique code number and a human body detection signal generation notification signal from the at least one main lighting module, and the interface information according to the interface information. A signal processing controller for grouping at least one main lighting module and the at least one sub lighting module and selectively associating unique code numbers for the at least one main lighting module and the at least one sub lighting module according to grouping information. And, when the unique code number and the human body detection signal generation notification signal are transmitted through the communication module, according to the grouping information of the switching signal output unit generating a lighting control signal during the period counted by the counter and the signal processing control unit A lighting control device comprising a switching signal transmission unit for selectively transmitting the lighting control signal to at least one main lighting module and the at least one sub lighting module to which the unique code numbers are selectively associated. delete delete