KR101512551B1 - Controlling Device of LED light - Google Patents

Abstract

It provides LED lighting control technology which stably consumes minimum power. An LED illumination control apparatus according to an embodiment of the present invention is provided adjacent to an illumination unit including at least one LED illumination element to sense ambient illuminance and to generate first sensing data including illuminance values of the surroundings A sensor unit including a light sensor for outputting light and a motion sensor for outputting second sensing data which is provided adjacent to the illumination unit and includes information on whether or not the motion of the object is sensed; And a controller for receiving the first sensing data and the second sensing data and controlling the illuminance values included in the first sensing data according to the second sensing data to match the plurality of target illuminance values and the target illuminance values, And controlling the output of the illuminating unit so that the illuminance of the illuminating unit becomes a value between lower illuminance values that are smaller than the illuminance of the illuminating unit.

Description

[0001] The present invention relates to a control device,

The present invention relates to a technology for managing at least one LED light, and more particularly, to an LED light source that can effectively and stably illuminate an LED light according to ambient illuminance and motion of objects, And more particularly, to a lighting control technique that minimizes illumination.

Recently, interest in green technology and power saving technology has increased, and interest in lighting technology with low power consumption and low power consumption is increasing. Particularly in recent years, there has been a growing interest in LED light that can realize various colors including white and warm white, has low power consumption, and has a long lifetime.

In fact, in some cities in Korea, pilot projects are underway to replace street lights with LED lights using LED lights. In addition to LED street lights, there are also active applications for LED lighting in various lighting markets such as security, interior lighting, ought.

LED lighting can adjust the brightness depending on the power source, and its advantages are being emphasized by the semi-permanent lifetime. Accordingly, research on a technique for further reducing the power by controlling the brightness of the installed LED lighting as well as the installation of the lighting device using the LED illumination has been increasing recently.

The brightness of the LED illumination can be adjusted by adjusting a power source for a plurality of LED elements constituting the LED illumination in the driving unit or an LED module including the plurality of elements. In order to adjust the brightness of the LED module, a manual adjustment and a method of automatically collecting and adjusting surrounding information are used.

An important issue in adjusting the brightness of the LED illumination is that the lighting is effective for the user in a space where the LED illumination is installed while consuming a minimum amount of electric power. Accordingly, a need has arisen for a technique for controlling the brightness of an LED illumination that can minimize power while satisfying a user's needs.

Accordingly, in order to adjust the brightness of the LED illumination, the brightness of the LED illumination is automatically adjusted by recognizing the surrounding environment, and the stability of the illumination and the operability of the user are provided to the user. And to provide a technology that consumes a minimum amount of power.

According to an aspect of the present invention, there is provided an LED illumination control apparatus including: an illumination unit including at least one LED illumination element, the illumination unit being disposed adjacent to an illumination unit to sense ambient illuminance, And a motion sensor disposed adjacent to the illuminating unit and outputting second sensing data including information on whether motion of the object is sensed or not; And a controller for receiving the first sensing data and the second sensing data, wherein an illuminance value included in the first sensing data is matched for each of a plurality of target illuminance values and the target illuminance value according to the second sensing data, And a control module controlling an output of the illumination unit such that a value between the lower limit illumination values is lower than the matched target illumination value.

The control module receives the first sensing data and the second sensing data from the sensor unit, determines whether the motion of the object is sensed using the second sensing data, and determines whether the motion of the object is sensed The control unit selects a target illuminance value and a lower illuminance value among a plurality of target illuminance values stored in the control information storage unit and a lower illuminance value matched with the target illuminance value, A main controller for comparing the selected target illuminance value and a lower limit illuminance value to generate a control command for controlling the output of the illuminator so that the illuminance value included in the first sensing data is between the selected target illuminance value and the lower illuminance value, ; And a lighting controller for feedback-controlling the output of the lighting unit according to a control command generated by the main controller.

The plurality of target illuminance values and the lower illuminance values stored in the control information storage unit may include a predetermined first target illuminance value that is an illuminance value before the motion of the object is sensed and a first lower illuminance value that matches the first target illuminance value And a second lower illuminance value matching the second target illuminance value with a predetermined illuminance value that has an illuminance value that is greater than the first target illuminance value with the illuminance value after the motion of the object is sensed .

Wherein the main controller determines that the illuminance value included in the first sensing data is less than the first target illuminance value and the first lower illuminance value before the information included in the second sensing data indicates that the movement of the object is detected. A control command for controlling the output of the illumination unit.

Wherein the main controller controls the output of the illumination unit so that the illuminance value included in the first sensing data is between the first target illuminance value and the first lower illuminance value, Controlling the illuminance value included in the first sensing data to be the second target illuminance value for a predetermined first delay time when it is determined that information indicating that the motion of the object is sensed is included, And generates a control command for controlling the output of the illumination unit such that the illumination value included in the data is between the second target illumination value and the second lower limit illumination value.

The main controller determines that information indicating that the motion of the object has been detected is included when the output of the illumination unit is controlled so that the first sensing data is between the second target illuminance value and the second lower illuminance value The control unit controls the output of the illumination unit such that the first sensing data is between the second target illuminance value and the second lower illuminance value for a preset holding time from the time when the second sensing data is finally received, And generates a control command for controlling the output of the illumination unit so that the illumination value included in the first sensing data becomes the first target illumination value during the set second delay time.

The control information storage unit stores the first target illuminance value, the first lower illuminance value, the second target illuminance value, the second lower illuminance value, the first lower illuminance value, the second lower illuminance value, and the second lower illuminance value from the outside through a communication module included in the LED lighting control apparatus. 1 delay time, the second delay time, and the predetermined holding time.

And the second lower limit illuminance value is set to be larger than the first target illuminance value.

According to the present invention, the brightness of the LED illumination can be controlled in accordance with the ambient illuminance and the motion of the object, and the brightness of the LED illumination can be adjusted stably according to the target illuminance value and the lower illuminance value, It is possible to perform an indoor / outdoor lighting function while consuming a minimum amount of electric power.

In particular, by adjusting the brightness of the LED light by simultaneously controlling the motion of the object and the illuminance of the surroundings, it is possible to solve the problem that sudden brightness fluctuation or illumination can not be controlled, By illuminating the brightness of the LED illumination, it is possible to satisfy the user's need for operation of the illumination.

1 is a block diagram of an LED lighting control apparatus according to an exemplary embodiment of the present invention.
2 shows a schematic configuration in which an LED illumination is installed according to an embodiment of the present invention.
Figure 3 illustrates a schematic embodiment in which the LED illumination is controlled in accordance with an embodiment of the present invention.
FIG. 4 is a graph illustrating efficiency of an LED illumination control technique using a conventional motion sensor.
5 is a graph showing efficiency of an LED illumination control technique using a conventional illumination sensor.
FIG. 6 shows an example of a data table used in an LED illumination control technique using an existing illuminance sensor.
7 is a graph illustrating efficiency of an LED illumination control apparatus according to an exemplary embodiment of the present invention.
8 to 10 are flowcharts of a flow in which the LED illumination is controlled according to an embodiment of the present invention.

Hereinafter, an LED illumination control apparatus according to an embodiment of the present invention will be described with reference to the accompanying drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. The following examples are intended to illustrate the present invention and should not be construed as limiting the scope of the present invention. Accordingly, equivalent inventions performing the same functions as the present invention are also within the scope of the present invention.

In addition, in adding reference numerals to the constituent elements of the drawings, it is to be noted that the same constituent elements are denoted by the same reference numerals even though they are shown in different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In describing the components of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected to or connected to the other component, It should be understood that an element may be "connected," "coupled," or "connected."

1 is a block diagram of an LED lighting control apparatus according to an exemplary embodiment of the present invention.

Referring to FIG. 1, an LED illumination control apparatus 100 according to an embodiment of the present invention includes a sensor unit 30 and a control module 10. The control module 10 may specifically include a main controller 11, a control information storage 12, and a lighting controller 13. In addition, the LED module 100 may include or be connected to the communication module 40, and the brightness of the LED module 20 including at least one LED module may be controlled by the LED module 100.

The illumination unit 20 includes at least one LED element grouped or individualized, and performs a function of irradiating light by receiving power according to a control command of the control module 10.

The illumination unit 20 can irradiate light in various irradiation forms according to the installation form of the LED elements installed in the illumination unit 20 at the irradiation target point. For example, it can take various forms such as circle, bat wing type, and line type.

The LED elements provided in the illumination unit 20 can be individually supplied with power or grouped to receive power. That is, each of the LED elements can be individually controlled by receiving different power sources, or power can be differently applied to each group of elements including a plurality of LED elements, so that control can be performed for each group. Or an LED element connected to one power source and installed in the illumination unit 20 can be collectively controlled.

The sensor unit 30 performs a function of collecting information about the environment of the illumination unit 20 or the target point at which the illumination unit 20 irradiates light. To this end, the sensor unit 30 may include a series of configurations including at least one sensor and an ADC converter capable of converting data sensed from the surrounding environment information into a digital value and transmitting the digital value.

In the embodiment of the present invention, a light intensity sensor (not shown) for measuring the illuminance of the surroundings and a motion sensor capable of sensing the movement of objects inside and outside the target illuminating point may be included in the sensor unit 30 as a sensor.

That is, in the specific embodiment of the present invention, the data generation module (not shown) including the ambient light sensor and the ADC converter connected thereto, among the sensors included in the sensor unit 30, , A value obtained by sensing the illuminance obtained by summing the illumination illuminance, which is illuminance of light illuminated by the illuminating unit 20, is converted into a value that can be processed by the control module 10 through an ADC converter or the like, and is transmitted to the control module 10 Function. Hereinafter, the illuminance value obtained by summing the external illuminance and the illuminance illuminance sensed by the illuminance sensor will be described as information included in the first sensing data.

Meanwhile, in a specific embodiment of the present invention, a data generation module (not shown) including a motion sensor and an ADC converter connected thereto among the sensors included in the sensor unit 30 is configured to detect the position of the sensor Generates information indicating that motion has been detected when a motion of an object is sensed within a predetermined range according to the motion of the object, and transmits the generated information to the control module 10. Hereinafter, information including whether or not motion sensing is performed by the motion sensor will be described as information included in the second sensing data.

The communication module 40 is connected to the control module 10 and transmits the control information transmitted from the outside to the control module 10 and transmits the control information stored in the control module 10 to the outside .

In the present invention, the plurality of illumination units 20 and the LED illumination control apparatus 100 are grouped and installed, so that illumination for a wide range of places can be integrally controlled. At this time, information for calculating power consumed by the lighting unit 20, control information transmitted from another LED lighting control device or a central control system, and first and second sensing data are transmitted and received through the communication module 40 .

Also, the communication module 40 may form a remote or local area network, and the control information stored in an LED lighting control device may be transmitted to another LED lighting control device. When transmitting the control information to the other LED lighting control device, the control information is broadcast through the communication module 40, and the other LED lighting control device that receives the control information transmits the individual ID or group ID It is possible to determine whether to control the illumination unit 20 according to the control information.

As described above, the sensor unit 30 generates first and second sensing data and transmits the first and second sensing data to the control module 10. Accordingly, the control module 10 includes first sensing data including the ambient illuminance adjacent to the illumination unit 20 sensed by the illuminance sensor, and information on whether the motion of the object sensed by the motion sensor is sensed The second sensing data is received.

The control module 10 controls the illuminance of the illumination unit 20 using the first sensing data and the second sensing data received from the sensor unit 30. [

Specifically, the illuminance value included in the first sensing data is matched with the plurality of target illuminance values and the plurality of target illuminance values according to the second sensing data, and the lower illuminance having the illuminance value smaller than the matched target illuminance value And controls the output of the illumination unit 20 so as to be a value between the values.

That is, the control module 10 calculates a value of the illuminance around the illuminating section 20, that is, the illuminance of the illuminating light irradiated by the illuminating section 20 and the illuminance of the outside illuminating the illuminating section 20, 1 is controlled so as to be between the target illuminance value selected according to whether or not the motion of the object is sensed and the lower illuminance value set to the target illuminance value.

At this time, the control module 10 continuously receives the first sensing data in real time or at regular intervals, determines whether the illuminance value included in the first sensing data is located between the target illuminance value and the lower illuminance value, The control unit 20 controls the output of the illumination unit 20 to perform a feedback control of the output of the illumination unit 20 so that the illumination value included in the first sensing data is located between the target illumination value and the lower illumination intensity value do.

Specifically, a control command for increasing or decreasing the output of the illumination unit 20 in accordance with the first and second sensing data is generated in the main controller 11. [

The main controller 11 receives the first sensing data and the second sensing data from the sensor unit 30 in detail. Thereafter, it is determined whether motion of an object has been detected using the second sensing data.

A target illuminance value and a lower illuminance value among the plurality of target illuminance values stored in the control information storage unit 12 and the lower illuminance values matched for each target illuminance value are selected according to whether motion of an object is detected or not.

Specifically, the plurality of target illuminance values stored in the control information storage unit 12 and the lower illuminance values matched with the target illuminance values are set to a predetermined first target illuminance value, which is the illuminance value before the motion of the object is sensed, The first lower illuminance value matching the illuminance value and the illuminance value after the motion of the object is sensed, that is, the second target illuminance value and the second target illuminance value, which are preset to the illuminance value when the motion of the object is sensed, are matched And a second lower limit illuminance value.

For example, if the output of the illumination unit 20 for irradiating the first target illuminance value is 8 W (Watt), the first lower illuminance value matched with the first target illuminance value is set to 4 W smaller than the first target illuminance value . The first target and lower illuminance values refer to illuminance values to be sensed by the illuminance sensor when no motion of the object is sensed.

On the other hand, the output of the illumination unit 20 for examining the second target illuminance value may be the maximum output of the illumination unit 20 (for example, 40 W). At this time, the second lower illuminance value matched with the second target illuminance value may be set to 20W which is smaller than the second target illuminance value. The second target and lower illuminance values refer to illuminance values for illuminating objects, for example, bright light to a person when movement of the object is sensed.

At this time, as can be seen from the above example, it is preferable that the second lower limit illuminance value is set to be larger than the first target illuminance value.

The first lower limit illuminance value and the second lower limit illuminance value may be the illuminance value included in the sensing data or the output illuminance of the illumination unit 20 itself calculated according to the output of the illumination unit 20. [

That is, in the embodiment of the present invention, when the illuminance of the illumination unit 20 is controlled according to the movement so that the sensed data is the first target illuminance value and the second target illuminance value, respectively, the first lower illuminance value and the second lower illuminance The output of the illumination unit 20 can be controlled so that the sensing data is formed above the value.

Meanwhile, in another embodiment of the present invention, when the illuminance of the illumination unit 20 is controlled in accordance with the movement so that the sensed data is the first target illuminance value and the second target illuminance value, the output of the illumination unit 20, The illuminance value or the second lower limit illuminance value.

In other words, the main controller 11 determines whether or not the first and second target illuminance values match with the first and second target illuminance values according to the information included in the second sensing data, that is, 1 and the second lower limit illuminance value.

Then, the main controller 11 compares the illuminance value of the illuminating unit 20 included in the first sensing data, i.e., the illuminance value obtained by summing the external illuminance and the illuminance illuminance, the target illuminance value selected from the control information storage unit 12, Values are compared.

Thereafter, a control command for controlling the output of the illumination unit 20 is generated so that the illumination value included in the first sensing data is positioned between the selected target illumination value and the lower illumination intensity value.

For example, when the illuminance value included in the first sensing data reaches the selected target illuminance value, a control command to maintain or reduce the output of the illumination unit 20 is generated can do.

On the other hand, when the illuminance value included in the first sensing data reaches the selected lower illuminance value, it is possible to generate a control command to increase the output of the illumination unit 20 because the illuminance value should not decrease.

In other words, the main controller 11 generates a control command for controlling the illuminance value included in the first sensing data to be the selected target illuminance value, but larger than the lower limit illuminance value matched to the selected target illuminance value.

The illumination control unit 13 performs a function of controlling the output of the illumination unit 20 in accordance with the control command generated by the main controller 11. [ That is, the lighting controller 13 generates a control command for controlling the main controller 11 to receive the first sensing data in real time or periodically so that the first sensing data is between the target illuminance value and the lower illuminance value, The control unit 20 transmits a command to control the output in real time according to the control command so that the illumination unit 20 is feedback controlled according to the first sensing data.

Specifically, a control command generated by the main controller 11 to transmit to the lighting control unit 13 can be described as follows.

First, when the information included in the second sensing data indicates that the motion of the object has been detected, that is, in a normal state in which the movement of the object is not detected, the main controller 11 determines that the illuminance value A control command for controlling the output of the illumination unit 20 to be between the first target illuminance value and the first lower illuminance value.

Accordingly, the illumination unit 20 receives the control command from the illumination control unit 13, and increases, decreases or maintains the output in real time.

While the output of the illumination unit 20 is controlled so that the illuminance value included in the first sensing data is between the first target illuminance value and the first lower illuminance value as described above, A control command for controlling the output of the illumination unit 20 so that the illuminance value included in the first sensing data becomes the second target illuminance value for a predetermined first delay time when it is determined that information indicating that the illuminance is sensed is included Respectively.

Thereafter, a control command for controlling the output of the illumination unit 20 is generated so that the illuminance value included in the first sensing data is between the second target illuminance value and the second lower illuminance value.

According to the above example, the output of the illumination unit 20 is controlled so that the illuminance of the illuminated place is between the stored first target illuminance value and the first lower illuminance value, in a normal situation before the movement of the object is sensed.

At this time, if the movement of the object is detected, the output is increased until the illuminance of the illuminated place becomes the second target illuminance value during the first delay time, and when the second target illuminance value is reached, The output is controlled such that the illuminance of the illuminated place is between the second target illuminance value and the second lower illuminance value.

On the other hand, when the output of the illumination unit 20 is controlled so that the first sensing data is between the second target illuminance value and the second lower illuminance value, the main controller 11 determines that information indicating that the object is sensed is included The second sensing data is temporarily stored at the time when the second sensing data is finally received.

That is, the point of time when the motion of the object is detected in the second sensing data is updated with the latest sensing data while the motion of the object is continuously detected. If the motion of the object is not detected, the second sensing data that finally detects the motion of the object is the point at which the motion of the object is detected in the second sensing data.

As described above, the main controller 11 stores the time of the last reception of the second sensing data, which is determined to include information indicating that the motion of the object is detected, And generates a control command for controlling the output of the illumination unit 20 such that the data is between the second target illuminance value and the second lower illuminance value.

Thereafter, when the motion of the object is not updated, the output of the illumination unit 20 is controlled so that the illuminance value included in the first sensing data becomes the first target illuminance value for a predetermined second delay time.

According to the above example, the lighting unit 20 controls the output so that the illuminance of the illuminated place is between the stored second target illuminance value and the second lower illuminance value in a situation where the motion of the object is detected.

In this case, when the movement of the object disappears, the output is controlled so that the illuminance of the illuminated place is between the second target illuminance value and the second lower illuminance value for a predetermined holding time. After that, From the moment the second delay time is ended, the illuminance of the illuminated place becomes equal to the first target illuminance as in the above-mentioned usual case, when the output is decreased until the illuminance value becomes equal to the first target illuminance value, Value and the first lower limit illuminance value.

In order to perform the functions mentioned in the above-mentioned example, the main controller 11 outputs information on the above-mentioned control information, i.e., first and second target and lower illuminance values, first and second delay time and holding time From the control information storage unit 12. At this time, the first and second delay times and the hold times may be set to the same or different time values.

Therefore, the control information storage unit 12 stores the information about the first and second target and lower illuminance values through the communication module 40 and the main controller 11, and the first and second delay time and the holding time And can receive and store an input from the outside including information on the information.

According to the present invention, LED light is normally controlled so that the output thereof is always below the first target illuminance value and above the first lower illuminance value, and when motion is detected, the second target illuminance value and the second lower illuminance value Lt; / RTI > When the movement is not detected any more after being maintained for the duration of the holding time, it is again controlled to be equal to or lower than the first target illuminance value and the first lower limit illuminance value or more.

Also, as mentioned above, preferably, the second lower limit illuminance value is set to be equal to or higher than the first target illuminance value.

The following effects can be expected depending on the function of such a lighting control device.

First, the brightness of the LED illumination is maintained at the power source higher than the first and second lower limit illuminance values.

If the lower limit illuminance value is not set and the illumination is controlled so that only the surrounding illuminance is sensed to obtain a constant illuminance, the illumination may be completely turned off. Such a case can also occur when a motion of an object, for example, a movement of a person is detected.

If the lower limit illuminance value is not set or the first target illuminance value is set larger than the second lower limit illuminance value, even if motion of the object is detected, the illuminance of the illumination does not fluctuate and the original illuminance 1 between the target illuminance and the first lower illuminance value).

However, users want to be illuminated according to their movements. This is because the lighting becomes brighter according to the movement of the user and the function of the lighting is operating properly.

However, in general, if only the motion sensor is used and the illumination is controlled so as to have a uniform illumination by sensing only the ambient illumination without the lower limit value, the illumination may be turned on Or the brightness of the illumination may not fluctuate. In this case, users may be suspicious of lighting failure and misunderstand that the lighting is not working properly.

Further, as described below, if the illumination is controlled so as to have a constant illuminance without setting the lower limit value, there may arise a case where illuminance fluctuates greatly around the target illuminance value. In other words, it is possible to make a malfunction such that the illumination becomes too bright or too dark, and the user may misunderstand that the illumination does not operate properly even in such a case, and at the same time, Problems can also occur.

The above problems will be described in more detail with reference to FIGS. 4 to 6. The present invention includes and arranges the configuration as described in the above description of FIG. 1, It is possible to provide a reliable lighting control technique that is stable and operates correctly according to a sensing situation, and at the same time provide a stable lighting control technique that minimizes power consumption.

The power consumption consumed by the illumination unit 20 can be easily calculated through the control information stored in the control information storage unit 12 in an embodiment of the present invention.

That is, in addition to the first and second target illuminance values, the corresponding lower illuminance values, and information on the first and second delay times and the holding time, the illuminance value is changed from the first target illuminance value to the second target illuminance value And the control status information including the information about the time when the second target illuminance value is changed to the first target illuminance value is transmitted to the control system or the management terminal through the communication module 40, By integrating the values of the graphs shown in Fig. 7, the total power consumption can be easily calculated.

That is, in the present invention, the power consumed by the LED lighting module can be accurately measured by a very simple calculation, and an effect of effectively managing the power consumption of a plurality of LED lighting modules can be expected.

2 shows a schematic configuration in which an LED illumination is installed according to an embodiment of the present invention.

Referring to FIG. 2, the lighting unit 20 is installed in a predetermined place, and its output is controlled in accordance with a light intensity increase or decrease (or maintain) command transmitted from the control module 10. At this time, the sensor unit 30 outputs first sensing data including information about the illuminance value (= external illuminance value + illumination illuminance value) and second sensing data including information about whether or not the object is sensed as motion, (10), so that the control module (10) generates a control command based on the sensing data.

The illumination unit 20, the sensor unit 30, and the control module 10 may be configured as one package or separate package and sold and installed. It is possible to irradiate light.

At this time, in the configurations of the illumination unit 20, the sensor unit 30, and the control module 10, the sensor unit 30 is disposed adjacent to the installation position of the illumination unit 20, preferably at the side of the illumination unit 20 Can be installed.

In the conventional LED illumination device, the sensor for sensing the illuminance is disposed apart from the illumination module, and most of the sensors are disposed at a position where light emitted from the illumination module and external light are incident, such as the floor.

In this case, since the sensor must be installed in a separate place, there is an inconvenience that an additional space is consumed or a control command is set differently according to the position of the sensor.

However, when the sensor unit 30 is positioned on the side surface of the illuminating unit 20, the inconvenience of additional space consumption and control can be lessened.

In this case, when the sensor unit 30 is positioned on the side surface of the illumination unit 20, the light emitted from the illumination unit is reflected by the sensor of the sensor unit 30, The distance between the sensor unit 30 and the illumination unit 20 can be adjusted in a lump.

In this case, the illuminance value reflected by the external illuminance and the illuminance of the illuminating unit 20 with respect to the floor, etc., will be sensed in the sensor unit 30. In this case, the illuminance values are in proportion to each other when the external illuminance and the illuminance of the illumination unit 20 are directly incident on the sensor unit 30 and when the reflected illuminance value is incident. In this case, 30, it is possible to easily sense the external illuminance and the illuminance value of the illuminating unit 20 with accuracy.

Figure 3 illustrates a schematic embodiment in which the LED illumination is controlled in accordance with an embodiment of the present invention.

1, the sensor unit 30 includes first sensing data sensing an environment of the outside 50, specifically, a light intensity around the illumination unit 20, And second sensing data including information on whether or not the motion of the object is detected by the control module 10, and transmits the generated information to the control module 10.

The target illuminance value and the lower illuminance value are stored in the control module 10, and different target illuminance values and lower illuminance values are selected according to information on whether or not the motion of the object is detected in the second sensing data.

Then, the control module 10 generates a control command according to the embodiment described with reference to FIG. 1 and transmits the control command to the lighting unit 20, and the output of the lighting unit 20 is controlled according to the control command.

When the output of the lighting unit 20 is controlled, the environment of the outside 50 is changed. In this case, the changed environment information is measured by the sensor unit 30 and then transmitted to the control module 10, The brightness of the illumination unit 20 is feedback-controlled.

FIG. 4 is a graph illustrating efficiency of an LED illumination control technique using a conventional motion sensor.

As described with reference to FIG. 1, many problems arise in the illumination control using the conventional motion sensor and the illumination control using the illumination sensor. In particular, the present invention includes many problems as compared with the functions of the present invention in the implementation of functions and power saving, and will be described with reference to FIG. 4 and FIGS. 5 and 6 below.

Referring to FIG. 4, there is shown a graph illustrating efficiency in controlling illumination using only a motion sensor.

Before the time t1 when the motion of the object is sensed, the brightness of the illumination is maintained at 8w which is 20% of the maximum output 40w. Immediately after the movement of the object is detected from the time t1 to the time t2, the brightness of the illumination is increased to the maximum output (100%, 40w).

After the movement of the object is detected, the maximum power is maintained for a fixed holding time (t3 - t2), and then the brightness of the illumination is again reduced to 20% of the maximum output from t3 to t4.

In this case, it is true that the power of P1 is reduced compared with the case of always maintaining the maximum power, but in this case, the brightness of the illumination is collectively maintained regardless of the ambient illuminance, So that a reduction in power consumption can not be maximized.

5 is a graph showing efficiency of an LED illumination control technique using a conventional illumination sensor.

FIG. 5 is a graph of LED lighting control when only an illuminance sensor is used, unlike FIG.

In the embodiment of Fig. 5, the brightness is controlled so that the illuminance becomes the target illuminance (100%, 40w).

However, in this case, since the illuminance of the illuminating device is controlled only by the target illuminance, the illuminance of the illuminating device is suddenly increased or decreased, and the illumination can not be completely prevented from being completely turned off at times. , The power corresponding to S1, which is the loss power at the time when the illuminance value is higher than the target illuminance, is lost.

FIG. 6 shows an example of a data table used in an LED illumination control technique using an existing illuminance sensor.

In the illumination control technique using the conventional illumination sensor described in the embodiment of FIG. 5, the problem of the power loss value corresponding to S1 as described above and the problem of the data table of FIG. 6 may occur.

According to the conventional illumination control technique, the illuminance is controlled by referring to the table value shown in Fig.

That is, a data table relating to the external illuminance is stored for each unit value, and information on the brightness of illumination matching the external illuminance is stored. As a result, in the existing technology, when the external illuminance is changed, that is, when the place where the illumination is installed is changed, the corresponding data table should be completely corrected. Also, as the external illuminance value is varied, the brightness value corresponding to each illuminance value is stored The amount of data to be stored is also too large.

However, unlike the embodiment of Fig. 6, as described in the embodiment of Fig. 1, in the present invention, a very small amount of data, i.e., first target and lower illuminance values, second target and lower illuminance values, 2 Data loss can be reduced because the brightness of the illumination is controlled by storing and loading only the data relating to the delay time and the holding time.

7 is a graph illustrating efficiency of an LED illumination control apparatus according to an exemplary embodiment of the present invention.

The embodiments of Figures 4 through 6 have referred to the efficiency of existing techniques for power savings.

Referring to the graph of FIG. 7, in accordance with an embodiment of the present invention, the brightness of the illumination unit 20 is normally set between the first target illuminance value (20%, 8w) and the first lower illuminance value Respectively.

4 to 6, in the present invention, since the lower limit value for the first sensing data exists, the brightness of the illumination unit 20 is always maintained at a predetermined level or more, but the brightness of the first sensing data The output of the illumination unit 20 is controlled in accordance with the external illuminance and the output control of the stable illumination unit 20 is performed in a state in which the abrupt output is not changed, .

the output of the illumination unit 20 during the first delay time t1 to t2 is increased until the first sensing data becomes the second target illumination value 100%, 40w do. Thereafter, the output of the illumination unit 20 is controlled to be between the second target illuminance value and the second lower illuminance value (60% 24w), that is, the first sensing data is between the second target illuminance value and the second lower illuminance value .

At this time, if only the second target illuminance value exists, the brightness of the illumination may not increase or may not be turned on even when the movement of the object is detected according to the brightness of the outside. As mentioned above, in such a case, users have a problem that the operation of the illumination is not properly performed.

However, in the present invention, by setting the lower limit illuminance value when the motion of the object is detected (preferably, the second lower illuminance value is set to be larger than the first target illuminance value), the output of the illumination unit 20 is necessarily controlled , Which can give users a sense of confidence that the lighting is operating normally and reliably. In addition, the output of the lighting unit 20 is not excessively reduced so that the failure of the lighting can be prevented and stable control can be performed.

During the second delay time (t3 to t4), the brightness of the illumination unit (20) is set such that the first sensing data is again the first target And is controlled to be an illuminance value. Thereafter, as before t1, the output of the illumination unit 20 is controlled such that the first sensing data is between the first target illuminance value and the first lower illuminance value.

In this case as well, when the first lower limit illuminance value is not set, illumination of the illumination unit is sharply reduced as described in Figs. 4 to 6, so that illuminance of the illumination is reduced below the first lower limit illuminance value, In the case of returning to the illuminance value, the lifetime of the LED element may be shortened due to excessive control of the output, or system load may occur.

However, by setting the first lower limit illuminance value, the brightness of the illumination is prevented from being abruptly changed, and the above problem can be solved.

8 to 10 are flowcharts of a flow in which the LED illumination is controlled according to an embodiment of the present invention. In the following description, the description of the parts overlapping with the description of FIGs. 1 to 7 will be omitted.

First, referring to FIG. 8, an apparatus for controlling LED illumination according to the present invention performs a step (S10) of receiving second sensing data including information on whether motion of an object has been detected from a motion sensor .

Thereafter, in accordance with the second sensing data, step S20 of selecting any one of a plurality of target illuminance values and a lower limit illuminance value is performed. The step S20 is as described in detail in the description of Figs.

Thereafter, the apparatus performs step S30 of receiving the first sensing data including the illuminance value of the surroundings, i.e., the external illuminance and the illuminance of the illuminance, including the illuminance value from the illuminance sensor. As described above, the step S30 may be performed in real time or periodically for the feedback control of the illumination unit 20.

Thereafter, the apparatus feedback-controls the illumination unit 20 so that the first sensing data is between the selected target illuminance value and the lower illuminance value (S40).

Referring to FIG. 9, in operation S20, during the operation S10 of receiving the second sensing data including information on whether motion of the object has been detected from the motion sensor, the apparatus determines whether or not the second sensing data (S21), the brightness of the illumination unit 20 is controlled to a second target illuminance value during the first delay time (S22). Alternatively, the brightness of the illumination unit 20 may be controlled such that the first sensing data becomes the second target illumination value.

10, the second sensing data senses the motion of the object, so that the output of the illumination unit 20 is controlled so that the first sensed data is between the second target illuminance value and the second lower illuminance value If it is determined that the movement of the object has been changed to the undetected state, that is, if it is determined that the state of the object has finally been detected (S23) The output of the illumination unit 20 is controlled so that the data becomes the first target illuminance (S24).

The functions of the LED illumination control apparatus according to the embodiment of the present invention described above can be executed by an application installed in the terminal (which may include a program included in a platform or an operating system basically installed in the terminal) And may be executed by an application (that is, a program) directly installed on the terminal by a user through an application providing server such as an application store server, an application, or a web server related to the service. In this sense, the functions of the LED illumination control device according to the above-described embodiments of the present invention are implemented in an application installed in a terminal or directly installed by a user (i.e., a program) Lt; / RTI >

Such a program may be recorded on a recording medium that can be read by a computer and executed by a computer so that the above-described functions can be executed.

As described above, in order to execute the functions of the LED lighting control device according to each embodiment of the present invention, the above-mentioned program may be stored in a computer language such as C, C ++, JAVA, And may include a code.

The code may include a function code related to a function or the like that defines the functions described above and may include an execution procedure related control code necessary for the processor of the computer to execute the functions described above according to a predetermined procedure.

In addition, such code may further include memory reference related code as to what additional information or media needed to cause the processor of the computer to execute the aforementioned functions should be referenced at any location (address) of the internal or external memory of the computer .

In addition, when a processor of a computer needs to communicate with any other computer or server, etc., to perform the above-described functions, the code may be stored in a computer's communication module (e.g., a wired and / ) May be used to further include communication related codes such as how to communicate with any other computer or server in the remote, and what information or media should be transmitted or received during communication.

The functional program for implementing the present invention and the related code and code segment may be implemented by programmers in the technical field of the present invention in consideration of the system environment of the computer that reads the recording medium and executes the program, Or may be easily modified or modified by the user.

Examples of the computer-readable recording medium on which the above-described program is recorded include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical media storage, and the like.

Also, the computer-readable recording medium on which the above-described program is recorded may be distributed to a computer system connected via a network so that computer-readable codes can be stored and executed in a distributed manner. In this case, any of at least one of the plurality of distributed computers may execute some of the functions presented above and transmit the result of the execution to at least one of the other distributed computers, and transmit the result The receiving computer may also perform some of the functions described above and provide the results to other distributed computers as well.

In particular, a computer-readable recording medium storing an application that is a program for executing the functions of the LED illumination control apparatus according to each embodiment of the present invention includes an application store server, an application or a web A storage medium (e.g., a hard disk or the like) included in an application provider server such as a server, or an application providing server itself.

A computer capable of reading a recording medium on which an application, which is a program for executing the functions of the LED lighting control apparatus according to each embodiment of the present invention, can be read is not limited to a general PC such as a general desktop or a notebook computer, PDAs (Personal Digital Assistants), mobile communication terminals, and the like, and it should be interpreted as all devices capable of computing.

In addition, a computer that can read a recording medium on which an application, which is a program for executing the functions of the LED lighting control apparatus according to an embodiment of the present invention, is read is a smart phone, a tablet PC, a PDA (Personal Digital Assistants) In the case of a mobile terminal, the application may be downloaded from the application providing server to a general PC and installed in the mobile terminal through a synchronization program.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. That is, within the scope of the present invention, all of the components may be selectively coupled to at least one. In addition, although all of the components may be implemented as one independent hardware, some or all of the components may be selectively combined to perform a part or all of the functions in one or a plurality of hardware. As shown in FIG. The codes and code segments constituting the computer program may be easily deduced by those skilled in the art. Such a computer program can be stored in a computer-readable storage medium, readable and executed by a computer, thereby realizing an embodiment of the present invention. As a storage medium of the computer program, a magnetic recording medium, an optical recording medium, or the like can be included.

It is also to be understood that the terms such as " comprises, "" comprising," or "having ", as used herein, mean that a component can be implanted unless specifically stated to the contrary. But should be construed as including other elements. All terms, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, unless otherwise defined. Commonly used terms, such as predefined terms, should be interpreted to be consistent with the contextual meanings of the related art, and are not to be construed as ideal or overly formal, unless expressly defined to the contrary.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

Claims (8)

An illuminance sensor provided adjacent to an illuminating unit including at least one LED lighting element for sensing ambient illuminance and outputting first sensing data including illuminance values of the surroundings sensed; And a motion sensor for outputting second sensing data including information on whether or not motion of the subject is sensed; And
Wherein the illuminance value included in the first sensing data is matched with a plurality of target illuminance values and the target illuminance values according to the second sensing data, And a control module for controlling the output of the illumination unit such that a value between the lower limit illumination values, which is an illumination value smaller than the matched target illumination value,
The control module includes:
The control unit receives the first sensing data and the second sensing data from the sensor unit, determines whether the motion of the object is sensed using the second sensing data, And a controller for selecting one of a target illuminance value and a lower illuminance value among a plurality of target illuminance values stored in the storage unit and a lower illuminance value matched with the target illuminance value, A main controller for comparing a lower limit illuminance value and a control command for controlling an output of the illumination unit such that an illuminance value included in the first sensing data is between the selected target illuminance value and a lower limit illuminance value; And
And an illumination control unit for feedback-controlling an output of the illumination unit according to a control command generated by the main controller. delete The method according to claim 1,
Wherein the plurality of target illuminance values and the lower illuminance values stored in the control information storage unit,
A first target illuminance value that is a predetermined illuminance value before the motion of the object is sensed and a first lower illuminance value that matches the first target illuminance value and an illuminance value after the movement of the object is sensed, And a second lower illuminance value matching the second target illuminance value. 2. The LED illumination control apparatus of claim 1, wherein the second illumination intensity value is greater than the second illumination intensity value. The method of claim 3,
The main controller includes:
Wherein the controller controls the illumination unit such that the illuminance value included in the first sensing data is between the first target illuminance value and the first lower illuminance value before the information included in the second sensing data indicates that the motion of the object is sensed. And generates a control command for controlling the output of the LED. 5. The method of claim 4,
The main controller includes:
While the output of the illuminating unit is controlled so that the illuminance value included in the first sensing data is between the first target illuminance value and the first lower illuminance value, The control unit controls the output of the illumination unit so that the illumination value included in the first sensing data becomes the second target illumination value for a predetermined first delay time, And generates a control command for controlling the output of the illumination unit such that the illumination value included in the data is between the second target illumination value and the second lower limit illumination value. The method of claim 3,
The main controller includes:
When the output of the illumination unit is controlled so that the first sensed data is between the second target illuminance value and the second lower illuminance value and the second sensing information is determined to contain information indicating that motion of the object is detected, Controls the output of the illumination unit such that the first sensing data is between the second target illuminance value and the second lower illuminance value for a predetermined holding time from the last time the data is received, Wherein the controller generates the control command for controlling the output of the illumination unit such that the illumination value included in the first sensing data becomes the first target illumination value. 7. The method according to any one of claims 3 to 6,
The control information storage unit stores,
The first lower illuminance value, the second target illuminance value, the second lower limit illuminance value, the predetermined first delay time, the first lower illuminance value, the second lower illuminance value, and the second lower illuminance value from the outside through the communication module included in the LED lighting control device. And receives and stores an input for at least one of a set second delay time and a predetermined holding time. 7. The method according to any one of claims 3 to 6,
Wherein the second lower illuminance value is set to be larger than the first target illuminance value.

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