KR20060073899A - Light system have multi-motion sensor - Google Patents

Abstract

The present invention relates to a lighting lighting system using a motion sensor, in particular, a plurality of sensors for acquiring data on the movement of the human body and the surrounding environment; A signal processor for processing data acquired from the sensor into recognizable data; A light driving unit for integrally controlling one or more lighting devices by a control signal; And a control unit connected to the signal processor by wire and wirelessly and recognizing an input sensing sensing signal to control the light driver, wherein the lighting system is provided with a multi-motion sensor. Accurately judges the presence and absence of lighting as long as there is a person, and turns off the lights, and also distributes and controls various lightings installed in the same area in an integrated manner, providing accurate lighting and lighting effects compared to existing sensors, and unified lighting in certain areas. And extinguishing effects, and security features such as energy savings and detection of unauthorized intruders.

Motion, sensor, multi, lights, lights up

Description

Lighting system with multi motion sensor {light system have multi-motion sensor}

1 is a bottom perspective view showing a conventional sensor light

2 is an exemplary configuration diagram of a lighting system having a multi motion sensor according to the present invention.

<Explanation of symbols for the main parts of the drawings>

MS1 ~ MSn: Motion Sensor MSC1 ~ MSCn: Motion Sensor Signal Processing Unit

207: MCU 209A: RF transmission processor

211A, B: antenna 209B: RF receiver

208: light driving unit 210: light

The present invention relates to a lighting lighting system using a motion sensor, and in particular, provided with a plurality of motion sensors for detecting whether there is a person who needs lighting for a lighting device for one or any area, the person is present The present invention relates to a lighting system having a multi-motion sensor for maximizing user convenience while suppressing unnecessary power consumption by causing the illumination device to emit light and changing the illuminance according to the detection position of the motion sensor for detecting movement.

In general, the lighting is installed in a predetermined place to operate a separate switch connected to the lighting to be turned on, and can be turned off by a separate switch operation during the day, when going out or when the lighting place is empty. .

Such a conventional lighting may be unnecessarily turned on even when there are no people, and may waste electric energy, and it is inconvenient to turn on and off because a separate switch installed on a wall, etc. must be operated. There is a problem that the repair cost is spent due to the repair and check the lights frequently cause a mischief.

1 is a bottom perspective view showing a conventional sensor light, the sensor light is turned on for several seconds by the illuminance sensor, pyroelectric sensor or ultrasonic sensor installed in the ceiling of the hallway or hallway cover the center of the main body 11 ( 13) is coupled, and the sensor 12 is protruded from one side of the main body 11 is configured to detect a walking person.

Only the sensor 12 is embedded in the protective case in a state exposed to the case in which the circuit board is embedded, and the protective case is fixed to the internal predetermined area of the luminaire frame, and at the same time, the sensor 12 is located outside the frame. It is exposed to the body and exposed to the external body.

At this time, since the detection sensor 12 generally uses pyroelectric sensors and ultrasonic sensors, the detection area is within 3 m in terms of fluid detection performance, and there are many malfunctioning factors such as temperature, humidity, and wind, which are external environmental factors due to the characteristics of the pyroelectric sensor. This was derived.

Moreover, in large-scale factories, even if the entire lighting is illuminated or partial lighting is used, it is usually applied uniformly to the entire area of the plant.In the case of the corridor where the corner exists, the current one that is one-to-one correspondence to one lighting device The lighting equipment of the user caused inconvenience and unnecessary power consumption problem.

An object of the present invention for solving the above problems is provided with a plurality of motion sensors for detecting whether there is a person needing illumination for the lighting device for one or any area to provide the lighting device if there is a person. It is to provide a lighting system having a multi-motion sensor to maximize the user's convenience while suppressing unnecessary power consumption by changing the illuminance amount according to the detection position of the motion sensor for detecting the motion to emit light.

A feature of the lighting system with a multi-motion sensor according to the present invention for achieving the above object is a sensor that is automatically turned on and off according to the human body approach and remaining, and can be integrated in a certain area of the lighting and extinguishing control Etc.: A plurality of detection sensors for acquiring data on the movement of the human body and the surrounding environment; A signal processor for processing the data acquired by the detection sensor into recognizable data; A light driving unit for integrally controlling one or more lighting devices by a control signal; And a control unit connected to the signal processor by wire and wirelessly and controlling the light driver by recognizing an input sensing sensing signal.

An additional feature of the lighting system with a multi-motion sensor according to the present invention for achieving the above object is that the sensor comprises at least one of an optical sensor, an infrared sensor or an image sensor.

An additional feature of the lighting system having a multi-motion sensor according to the present invention for achieving the above object is that, when the control unit receives a detection signal from the sensor, a predetermined time by controlling the light driving unit It is configured to maintain the light emitting state of the light by the down counting operation, and during the down counting operation is to initialize the counting operation when receiving the detection signal from the sensor again.

The above object and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention described below with reference to the accompanying drawings by those skilled in the art.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a diagram illustrating a configuration of a lighting system having a multi-motion sensor according to the present invention. The wireless communication method uses a Zigbee method, which is currently noticed for home control, building control, and industrial control. ZigBee is an international standard developed for control applications that require low speed, low power consumption, and small, low-cost features at a short range of 10 to 20 meters, and is attracting attention as a wireless communication method for ubiquitous environment.

Figure 2 is a block diagram showing the overall configuration according to the present invention, the sensor unit for largely detecting the external signal for controlling the sensor, the signal processing unit for processing the signal detected by the sensor in accordance with the appropriate algorithm, It consists of MCU which is a control unit that controls the operation, a light unit for driving lights and lights on and off, and an RF unit for communicating wirelessly with other sensors.

In detail for each part, the sensor unit comprises a motion sensor (MS1 ~ MSn) for detecting the human body detection and motion motion, such as an optical sensor or an infrared sensor or an image sensor, in the motion sensor (MS1 ~ MSn) The output detection signal is transmitted to the motion sensor signal processor MSC1 to MSCn, and the corresponding sensing signal is converted into a digital signal and transmitted to the MCU 207.

In this case, when the MCU 207 side and the motion sensor signal processor are connected by wire, the signal is directly transmitted. However, when the distance and the location characteristics of the sensor are difficult to connect by wire, the first motion sensor signal processor MSC1 is used. As described above, the sensing signal is wirelessly output through the RF unit.

The RF unit is divided into a sensor side and an illumination side. The sensor side RF unit includes an RF transmission processing unit 209A and an antenna 211A, and the RF transmission processing unit 209A is a first motion sensor signal processing unit MSC1 according to a communication algorithm. This function converts the data provided from to a signal suitable for the wireless channel. The antenna 211A serves to radiate the RF signal transmitted from the RF processor 209A into the space.

Correspondingly, the lighting RF unit includes an RF receiving processor 209B and an antenna 211B, and the antenna 211B receives only an RF signal suitable for itself among RF signals emitted in a space, and receives an RF receiving processor 209B. ) Receives the RF signal received from the antenna 211B, extracts the actual sensor detection data according to a communication algorithm, and transfers it to the MCU 207.

The MCU 207 controls the light driver 208 based on the data received through the RF reception processor 209B and the signal received from the motion sensor signal processor (MSC), and the light driver 208 is connected. The brightness of illuminating and illuminance of the lamp 210 is adjusted.

In this case, the lamp 210 may be used as one or more lighting devices, or only one, as shown.

Although not shown, the MCU 207 has a processor and a memory embedded therein, and receives each signal detected by the sensor unit and controls the lighting and turning off of the sensor by a program stored in the internal memory.

At this time, since each of the plurality of motion sensors MS or the motion sensor signal processing unit MSC constituting the sensor unit is given a unique code, the MCU 207 storing data on the installation position is inputted. According to the motion detection signal it can recognize the direction and number, such as the user or person moving, it is possible to light the control lamp (210) to the appropriate position.

In detail, the optical sensor generates an electrical signal proportional to the intensity of light, and when the surrounding environment is over a certain illuminance such as daylight in the MCU 207, It controls not to turn on and has the highest priority among sensor signal lighting control signals.

The infrared sensor detects the human body's approach and turns on the sensor.

The pyroelectric infrared sensor detects movement of the human body by outputting an electric signal that changes the movement of the human body by detecting movement of different temperatures, which are changes in temperature of infrared rays emitted by the human body when the human body moves within a limited detection range.

The image sensor converts the video signal into an electrical signal.

The lamp unit includes a light driver 208 and a lamp 210. The lamp driver 208 turns on and off the lamp 210 by opening and closing the power supplied to the lamp 210 according to a control signal output from the MCU 207. And extinguishing.

In addition, the method of controlling the light driver 208 by the MCU 207 may include a down counting operation for a predetermined time (for example, 3 minutes) when the signal detected by the motion sensor MS is input. Control to maintain the light emitting state of the lamp.

When the signal detected from the motion sensor MS is input again during the down counting operation, regardless of the progress of the down counting operation, the counting value is initialized to perform the down counting operation again for a predetermined time, and thereby the electric lamp The light emitting state of 210 is continued.

While the invention has been shown and described in connection with specific embodiments thereof, it is well known in the art that various modifications and changes can be made without departing from the spirit and scope of the invention as indicated by the claims. Anyone who owns it can easily find out.

When providing a lighting system having a multi-motion sensor according to the present invention as described above, by accurately judging whether the human body is approaching and the presence of the remaining human beings as long as there is a function to be turned off if not present and also in the same zone By distributing and controlling all installed lightings collectively, accurate lighting and lighting effects and uniform lighting and lighting effects can be obtained compared to existing sensors, and security functions such as energy saving and detection of unauthorized intruders can be obtained.

Claims (3)

In the sensor light which is automatically turned on and off according to the human body's approach and the presence of residual body and integrated lighting and extinguishing control in a certain area: A plurality of sensors for acquiring data on the movement of the human body and the surrounding environment; A signal processor for processing data acquired from the sensor into recognizable data; A light driving unit for integrally controlling one or more lighting devices by a control signal; And And a control unit connected to the signal processing unit by wire or wirelessly and recognizing an input sensing sensing signal to control the light driving unit. The method of claim 1, The detection sensor is a lighting system having a multi-motion sensor, characterized in that provided with at least one sensor of the optical sensor, infrared sensor or image sensor. The method of claim 1, The control unit is configured to maintain the light emitting state of the light by the down counting operation for a predetermined time by controlling the light driving unit when receiving the detection signal from the detection sensor, and receives the detection signal from the detection sensor during the down counting operation Lighting system having a multi-motion sensor, characterized in that for initializing the toning operation when receiving again.

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