KR20170143241A - Lighting system with plural lighting mode - Google Patents

Abstract

The present invention relates to a lighting system which is installed in a front door, a corridor, etc., and allows an illumination to be turned on when a motion is sensed by a sensor, and turned off when the motion is not sensed. The lighting system having a plurality of lighting modes of the present invention comprises: a lighting unit having one or more lighting lamps; a sensor for sensing a motion; an illuminance sensor for detecting illuminance; a lighting mode selection unit for selecting one of the lighting modes including a first lighting mode for turning on the lighting unit with a first output amount when a motion signal is received from the sensor, and a second lighting mode for receiving the motion signal from the sensor, and turning on the lighting unit with a second output amount lower than the first output amount when the illuminance detected by the illuminance sensor is less than or equal to a preset illuminance value; and a lighting control unit for controlling the lighting unit in accordance with the lighting mode selected by the lighting mode selection unit. Accordingly, the output of the lighting unit is controlled in accordance with the detected illuminance, and thus the glare generation and the fatigue of the eye of a user are minimized. Also, an influence thereof to a person in sleep can be prevented.

Description

TECHNICAL FIELD [0001] The present invention relates to a lighting system having a plurality of lighting modes,

The present invention relates to an illumination system installed on a door, a hallway, etc., and turned off when an operation is detected by a detection sensor, and is turned off when an operation is not detected.

The sensor lights are turned on or off depending on whether people or animals are moving or moving.

Recently, small one-room and small-sized houses are increasing due to the increase in the number of one-person households. In such a small one-room and a house, a toilet is usually placed at the entrance side of the entrance hall. Is turned on. At this time, the eyes of the human being are accustomed to the darkness, suddenly the light is turned on, which causes glare and obstructs the good sleep.

In addition, in a living space such as a dormitory, when moving in the night, sensors may be turned on to cause glare and an obstacle to a good night's sleep, and may interfere with sleeping of others.

Korean Utility Model Laid-Open No. 20-2007-0000492 discloses that a plurality of LED lamps wound and arranged at regular intervals are sequentially emitted or extinguished through time difference in units of individual or group units, And a guide light sensor capable of gradually lighting off preventing the occurrence of fatigue of the eyes due to lighting-off.

According to Korean Patent Laid-Open Publication No. 10-2015-0122020, when a person's motion is detected while the lighting of the light source lamp is maintained, the lighting state is maintained for a predetermined time, and the light source lamp is continuously turned on while the person is present Sensors and the like.

According to Korean Utility Model Registration No. 20-0352932, a detection sensor is provided on both sides of a lamp having a bulb and a control box, so that even if the shape of the lamp shade is convex, the blind spot of the detection sensor can be overcome And a sensor capable of quickly illuminating the darkness.

The above-described conventional sensor is gradually turned on or off to prevent sudden glare. However, if the light is gradually turned on in a dark state and the light is turned on at the maximum output, the user may still be glazed, There was a problem to generate.

In addition, there was a disadvantage in that when the space inhabited or living together was suddenly turned on in a dark situation, it affects others who do not use the lighting, such as sleeping persons.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a lighting system having a plurality of lighting modes in which the user is glazed and the eye fatigue is minimized when the lighting is turned on.

It is also an object of the present invention to provide an illumination system having a plurality of illumination modes that can prevent bright illumination from affecting others when the illumination is turned on.

According to an aspect of the present invention, there is provided an illumination system having a plurality of illumination modes, including: an illumination unit having at least one illumination lamp; A sensing sensor for sensing motion; An illuminance sensor for detecting illuminance; A first illumination mode for illuminating the illumination unit with a first output amount upon receiving an operation signal from the detection sensor, and a second illumination mode for receiving an operation signal from the detection sensor, and when the illumination intensity detected by the illumination intensity sensor is less than the illumination intensity value, And a second illumination mode in which the first illumination amount is lower than the first illumination amount and the second illumination amount is lower than the first illumination amount, the illumination mode selection unit selects one of the plurality of illumination modes; And an illumination control unit for controlling the illumination unit according to the illumination mode selected from the illumination mode selection unit.

Preferably, the second illumination mode turns off the illumination unit if the detected illumination exceeds a setting illuminance value.

Preferably, the illumination control unit controls, in the second illumination mode, the second output amount to be proportional to the detected illumination.

Preferably, the illumination control unit dims the output amount of the illumination unit and controls the second output amount.

Preferably, the second amount of output is less than the nominal threshold value.

Preferably, in the second illumination mode, when the operation signal is maintained for a predetermined time in a state in which the illumination unit is turned on, the illumination unit is turned on at a third output amount higher than the second output amount.

Preferably, the second illumination mode raises the output amount of the illumination unit when the operation signal is maintained for a predetermined time in a state in which the illumination unit is turned on.

Preferably, the time setting unit sets the specific time such that the second illumination mode is activated within a specific time, and the first illumination mode is activated other than the specific time; .

In the illumination system having a plurality of illumination modes of the present invention, the output of the illumination unit is controlled according to the illuminance detected when the illumination is turned on in the second illumination mode, so that the user can minimize the occurrence of glare and fatigue of the eyes.

Further, according to the present invention, when the illuminance detected in the second illumination mode is low, the output of the illuminating unit is low, so that it is possible to prevent the illuminating unit from affecting other people in the sleeping state.

Further, the present invention can save energy in a high illuminance condition by turning off the illumination unit when the detected illuminance exceeds a set value.

Further, in the present invention, the first and second illumination modes can be automatically switched according to time by the time setting unit.

Further, the present invention can appropriately use the illumination mode required by the user among a plurality of illumination modes according to the situation.

1 is a configuration diagram according to a first embodiment of the present invention;
2 is a flowchart of a first illumination mode according to the first embodiment of the present invention;
3 is a flowchart of a second illumination mode according to the first embodiment of the present invention.
4 is a part A flowchart of a second illumination mode according to a second embodiment of the present invention;
5 is a graph showing the amount of output of the illumination unit according to time in the second illumination mode according to the second embodiment of the present invention.
6 is a part A flowchart of another second illumination mode according to the second embodiment of the present invention;
7 is a graph showing the amount of output of the illumination unit according to time in another second illumination mode according to the second embodiment of the present invention.
8 is a configuration diagram according to the third embodiment of the present invention.
9 is a flowchart of a lighting system according to a third embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. The illumination system having a plurality of illumination modes according to the present invention can be classified into the first to third embodiments, and the constituent elements of the embodiments are basically the same, but differ in some configurations. In addition, among the various embodiments of the present invention, the same reference numerals in the drawings denote the same components and components that perform the same functions and functions.

1 to 3, the illumination system having a plurality of illumination modes according to the first embodiment of the present invention includes a lighting unit 10, a detection sensor 20, an illumination sensor 30, a lighting mode A selection unit 40 and a lighting control unit 60. [

The illumination unit 10 includes at least one illumination lamp, and can adjust the amount of output of each illumination lamp.

The detection sensor 20 is a sensor for detecting an operation, and transmits an operation signal to the illumination control unit 60 when it detects the movement of a person. At this time, the detection range of the detection sensor 20 can be adjusted according to the place where the detection sensor 20 is installed.

The illuminance sensor 30 is a sensor for detecting illuminance and detects the illuminance of the periphery of the illuminance sensor 30 and transmits it to the illumination control unit 60. [

The illumination mode selection unit 40 can select one of the plurality of illumination modes and select the control method of the illumination control unit 60. [ The plurality of illumination modes include first and second illumination modes.

The illumination control unit 60 controls the illumination mode selection unit 40 to turn on, off, or dim in accordance with the selected illumination mode. Here, dimming means that the lighting unit 10 is gradually raised or lowered to a predetermined amount of output.

The lighting control unit 60 may receive power from the power source 62 and may transmit power to the components of the lighting system including the lighting unit 10. [ The illumination control unit 60 generates a PWM (Pulse Width Modulation) signal from the illuminance signal detected from the illuminance sensor 30 and provides it to the LED driver 61. The LED driver 61 can determine the brightness of the illumination unit 10 by adjusting the amount of output of the illumination unit 10 in accordance with the PWM signal.

2, when the operation signal is received from the detection sensor 20, the first illumination mode turns on the illumination unit 10 at the first output amount. If the operation signal is not received, the illumination unit 10 10) is turned off.

At this time, when the illumination unit 10 is turned on, the illumination unit 10 is kept on when the operation signal is received, and when the operation signal is not received, the illumination unit 10 is turned off after a predetermined time. The first illumination mode repeats the above-described steps until the illumination mode is switched to the second illumination mode, and the first illumination mode is ended when the illumination mode is switched to the second illumination mode.

3, when the operation signal is received from the detection sensor 20, the second illumination mode detects illumination from the illumination sensor 30, and if the operation signal is not received from the detection sensor 20, The lighting unit 10 is turned off after a predetermined time.

When the detected illuminance is equal to or lower than the set illuminance value, the illuminating unit 10 is turned on with the second output amount. When the illuminance exceeds the set illuminance value, the illuminating unit 10 is turned off. This is because it is not necessary to output the illuminating unit 10 in a bright state in which the set illuminance value is exceeded.

Here, the second output amount is a value lower than the first output amount and can be controlled in proportion to the detected illuminance. That is, as the detected illuminance is lower, the illuminating unit 10 is darkened. Thus, even if the illumination lamp is turned on by the user's operation in a dark environment, glare due to sudden lighting can be prevented, and the fatigue of the eyes can be minimized to the user. At this time, it is preferable that the second output amount is less than the nominal threshold value. If the change occurs at a higher illuminance than the current illuminance, the illuminance adaptation is a phenomenon adapted to adapt to the changed illuminance, and the illuminance threshold value is a minimum illuminance change value for acclimatizing the illuminated illuminance, When it is less than the nominal adaptation threshold value, it means that the illumination unit 10 outputs an amount of output that does not cause glare to the user from the current illumination. On the other hand, if the illumination unit 10 is dimmed and lighted at the second output amount, the illumination unit 10 is gradually brightened, so that the user's glare and fatigue of the eyes can be further reduced.

When the illumination unit 10 is turned on, the illumination unit 10 is kept on when the operation signal is received. When the operation unit 10 does not receive the operation signal, the illumination unit 10 is turned off after a predetermined time. The second illumination mode repeats the above-described steps until the first illumination mode is switched to, and when the first illumination mode is switched to, the second illumination mode is ended.

The second illumination mode lowers the output amount of the illumination unit 10 in a dark situation and raises the output amount of the illumination unit 10 in a bright situation. The user can minimize the occurrence of glare and fatigue of the eyes when the lighting unit 10 is turned on at a low output in a dark situation. In particular, a user who uses the bathroom during the night can prevent the sleeping due to the sudden brightening of illumination, It is possible to prevent other people from being affected by lighting in a living space that is shared.

In addition, since the amount of output of the illumination unit 10 is controlled to be low in a dark situation, energy can be saved.

The user can control the illumination by selecting the first and second illumination modes according to the situation.

The second embodiment of the present invention differs from the first embodiment in the second illumination mode. Hereinafter, description of the same components as those of the first embodiment will be omitted, and components having differences from the first embodiment will be described with reference to FIGS. 4 to 7. FIG.

4, when the operation signal is maintained for a predetermined time in a state that the illumination unit 10 is turned on at the second output amount, the illumination unit 10 is turned on at the third output amount, The lighting unit 10 is turned off.

Here, as shown in FIG. 5, the third output amount is a value higher than the second output amount, and may be set to a value equal to or smaller than the first output amount. That is, when the user keeps the operation for a predetermined time while the illumination unit 10 is turned on with the second output amount, the output amount of the illumination unit 10 can be increased to be brighter.

This can increase the amount of output that is controlled lower by lower illuminance as the user needs. For example, when a user searches for an object in a dark environment, the second output amount is controlled to be low to prevent the user's glare. If the second output amount of the illumination unit 10 is too low to find an object, 10) is increased to the third output amount and becomes brighter, it is possible to provide convenience to the user.

6, if the operation signal is maintained for a predetermined period of time while the illumination unit 10 is turned on at the second output power level, the illumination unit 10 And if the operation signal is not maintained for a predetermined time, the illumination unit 10 is turned off.

Here, as shown in Fig. 7, the increase of the output of the illumination unit 10 is controlled by controlling the illumination unit 10 at an output amount higher than the second output amount, And then, when the operation signal is maintained for a predetermined period of time, the process of raising the output amount of the illumination unit 10 is repeated. That is, the output amount of the illuminating unit 10 is raised each time a predetermined time elapses.

At this time, even if the operation signal is maintained for a predetermined time, if the output amount of the illumination unit 10 is the maximum, it is desirable to maintain the output amount without increasing the output amount.

In addition, when dimming and raising the output amount of the illumination unit 10, it is possible to prevent glare and fatigue of the eyes in the process of increasing the output amount.

The third embodiment of the present invention differs from the first embodiment in that a time setting unit is additionally constructed. Hereinafter, description of the same components as those of the first embodiment will be omitted, and components having a difference from the first embodiment will be described with reference to FIGS. 8 and 9. FIG.

The time setting unit 50 sets a specific time so that the second illumination mode is activated within a specific time and the first illumination mode is activated except for a specific time. Conversely, the first illumination mode may be activated within a certain time, and the second illumination mode may be activated during a certain time.

As shown in Fig. 9, when a specific time is input to the time setting unit 50, the first illumination mode or the second illumination mode is selectively operated according to the input time.

Thereafter, the above-described procedure is repeated until the specific time input to the time setting unit 50 is canceled. When the input of the time setting unit 50 is canceled, the lighting mode operation according to the time is terminated.

 For example, if the specific time is set to 23 to 6 o'clock, the lighting unit 10 is turned on by the first lighting amount in the first lighting mode during the week when the user is active, The illuminating unit 10 is turned on at the second output amount according to the detected illuminance, thereby preventing the user's glare.

While the invention has been shown and described with reference to certain embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

10:
20: Sensing sensor
30: Light sensor
40: Lighting mode selector
50: Time setting unit
60:
61: LED driver
62: Power supply

Claims (8)

An illumination unit having at least one illumination lamp;
A sensing sensor for sensing motion;
An illuminance sensor for detecting illuminance;
A first illumination mode for illuminating the illumination unit with a first output amount upon receiving an operation signal from the detection sensor, and a second illumination mode for receiving an operation signal from the detection sensor, and when the illumination intensity detected by the illumination intensity sensor is less than a predetermined illumination intensity value, And a second illumination mode in which the first illumination amount is lower than the first illumination amount and the second illumination amount is lower than the first illumination amount, the illumination mode selection unit selects one of the plurality of illumination modes;
And an illumination control unit for controlling the illumination unit according to the illumination mode selected from the illumination mode selection unit. The method according to claim 1,
Wherein the second illumination mode has a plurality of illumination modes, wherein the illumination unit is turned off when the detected illumination exceeds a setting illuminance value. The method according to claim 1,
Wherein the illumination control unit controls, in the second illumination mode, to control the second amount of power to be proportional to the detected illumination. The method of claim 3,
Wherein the illumination control unit dims the output amount of the illumination unit and controls the output amount of the illumination unit with the second output amount. The method of claim 3,
Wherein the second amount of power is less than a nominal threshold value. The method according to claim 1,
Wherein the second illumination mode lights the illumination unit at a third output amount higher than the second output amount when the operation signal is maintained for a predetermined time with the illumination unit being lit. system. The method according to claim 1,
Wherein the second illumination mode raises an output amount of the illumination unit when the operation signal is maintained for a predetermined time in a state in which the illumination unit is turned on. The method according to claim 1,
A time setting unit for setting the specific time so that the second illumination mode is activated within a specific time and the first illumination mode is activated other than the specific time; ≪ / RTI > further comprising a plurality of illumination modes.

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