KR20160061159A - Lighting sensor and method for operating a lighting sensor - Google Patents

Abstract

The present invention provides a sensor for a lighting, which can provide stable and reliable lighting environment by accurately detecting whether a room is occupied by a user even when the user moves slowly or stops moving, and can efficiently control a lighting since a human being can be precisely detected even at a low intensity of illumination, and also provides an operating method thereof. The sensor for a lighting comprises a driving sensor unit and an auxiliary lighting unit. The sensor for a lighting is installed inside or outside a main lighting unit illuminating a surrounding area and effectively controls the main lighting unit to be turned on and off.

Description

TECHNICAL FIELD [0001] The present invention relates to a sensor for illuminating a light,

The present invention relates to a sensor for illumination and a method of operation thereof.

In general, a control method that is interlocked with various sensors has been developed in order to reduce power consumption of a lighting apparatus.

For example, in the case of a pyroelectric infrared ray (PIR) detection sensor, which is mainly used as a conventional room / vacant room sensor, a difference between a heat radiating from a moving human body and a background space is detected to detect a room or vacancy of a person .

However, in the case of such a super-type infrared sensor, malfunctions may occur due to interference with temperature changes caused by air conditioning devices such as an indoor air conditioner or a heater, while the human body can not detect the re-

In addition, even if the Fresnel optical lens is used to increase the detectable angle, there is a problem in that it is not possible to detect a certain wide angle of view capable of securing a line of sight.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a stable and reliable illumination environment by accurately detecting the presence or absence of a human body at low- The present invention provides an illumination sensor and a method of operating the same that enable accurate human body detection and efficient illumination control.

According to the present invention, it is possible to precisely detect rewiring even when the human body is moving at a low speed or at a standstill through the driving sensor unit and the auxiliary illumination unit, thereby providing a stable and reliable illumination environment. In particular, The present invention provides an illumination sensor and an operation method thereof that enable efficient illumination control.

According to the present invention, even when the human body is moving at a low speed or at a stop, it is possible to accurately detect the presence or absence of a room and to provide a stable and reliable lighting environment.

In addition, since the human body can be accurately detected even in a low-illuminance environment, effective illumination control can be achieved.

1 is a view for explaining an illumination sensor according to the present invention;
2 is a flowchart illustrating an operation method of an illumination sensor according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, it should be noted that the same components or parts among the drawings denote the same reference numerals whenever possible. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted so as not to obscure the subject matter of the present invention.

1 is a view for explaining an illumination sensor according to the present invention.

The illumination sensor according to the present invention can be installed in an illumination, automatically detects illumination of a user when there is a user using a space in which the illumination is installed, and automatically turns off the illumination when the user is out of the space Thereby making it possible to provide users with convenience of lighting and at the same time to make efficient use of electric power.

Accordingly, the illumination sensor according to the present invention is very useful in an illumination environment that needs to be lit during a time when a person uses the space, such as an entrance hall, a hall, a hall, a toilet, an elevator, will be.

1, the illumination sensor 100 according to the present invention includes a driving sensor unit 10 and an auxiliary illumination unit 20, and is installed inside or outside a casting list (not shown) Thereby effectively controlling the turn-on and turn-off of the casting list.

The driving sensor unit 10 has an illuminance sensing function for measuring an ambient illuminance in a set range, an image sensing function for sensing a human body movement in a set range, and a lighting drive function for driving the auxiliary illuminating unit 20 and a casting name part .

The auxiliary illumination unit 20 is made of low-illuminance illumination with low illumination at the time of lighting, and is driven under the control of the driving sensor unit 10. [ The auxiliary illumination unit 20 provides a certain auxiliary illumination so that the image sensing function of the driving sensor unit 10 can be exerted even in a dark illumination environment. Here, the auxiliary illumination unit 20 may be a low illumination LED (Light Emitting Diode).

The cast list is illuminated to illuminate a corresponding space with desired brightness at the time of lighting, and is driven under the control of the drive sensor unit 10. [

First, the driving sensor unit 10 compares the measured ambient illuminance with the reference illuminance values measured according to the illuminance sensing function, and performs subsequent control according to the current ambient illuminance. Here, the subsequent control may be the driving of the auxiliary illumination unit 20 or the driving of the cast list.

For example, the reference illuminance value may be a first reference illuminance value and a second reference illuminance value.

The first reference illuminance value is an illuminance value in an environment in which there is little light. In the environment where there is little light, the image sensing function of the drive sensor unit 10 can not be exerted, so that the sub illumination unit 20 is turned on as a subsequent control. That is, the driving sensor unit 10 measures the ambient illuminance through the illuminance sensing function and, if the illuminance is less than the first reference illuminance value, illuminates the auxiliary illumination unit 20 as a subsequent control to enable image sensing.

The second reference illuminance value is an illuminance value in an environment in which light is sufficient. In such a light-rich environment, since it is not necessary to drive the casting list, the casting list is turned off as a subsequent control. That is, the driving sensor unit 10 measures the ambient illuminance through the illuminance sensing function, and when the illuminance is equal to or greater than the second reference illuminance value, the casting illuminator is turned off as a subsequent control, thereby saving power consumed in illumination.

In the above description, the process of performing the subsequent control according to the current ambient illuminance by comparing the ambient illuminance measured according to the illuminance sensing function with the first reference illuminance value or the second reference illuminance value set therein is described, But not limited thereto, more various subsequent controls may be made through setting two or more reference illuminance values.

Next, the driving sensor unit 10 senses the human body movement in the set range according to the image sensing function, and performs subsequent control according to the detection of the human body movement. Here, the subsequent control may be the drive of the cast list.

For example, when the movement of the human body is sensed within the set range, the driving sensor unit 10 recognizes that the sensed person intends to use the corresponding space in which the lighting is installed, and turns on the casting name part as a subsequent control. That is, the driving sensor unit 10 senses the movement of the human body through the image sensing function and illuminates the casting name part as a subsequent control when the human body movement is sensed.

When the motion sensor 10 continuously senses the movement of the human body within the set range, the sensed person considers that the space in which the light is installed is intended to be continuously used, and as a subsequent control, . That is, the drive sensor unit 10 continuously senses the movement of the human body through the image sensing function and maintains the lighting of the casting name list as a subsequent control when the human body movement is continuously detected.

Of course, if the drive sensor unit 10 can not detect the motion of the human body, the casting list unit will be turned off as a subsequent control.

2 is a flowchart illustrating an operation method of the illumination sensor according to the present invention.

In the following description, the operation method of the illumination sensor for comparing the ambient illuminance measured according to the illuminance sensing function with the first reference illuminance value or the second reference illuminance value set in the interior is performed to perform the subsequent control according to the current ambient illuminance However, the present invention is not limited thereto, and more various subsequent controls may be performed through setting of two or more reference illuminance values.

Referring to FIG. 2, the illuminating sensor measures ambient illuminance through the driving sensor unit 10 (S10).

Thereafter, the illumination sensor compares the measured ambient illuminance with the first reference illuminance value (S12).

Here, the first reference illuminance value may be an illuminance value in an environment in which there is little light.

As a result of the comparison in step S12, if the ambient illuminance is equal to or less than the first reference illuminance value, the illumination sensor can not display the image sensing function of the drive sensor unit 10, so that the sub illumination unit 20 is turned on (S14).

On the other hand, if it is determined in step S12 that the ambient illuminance is greater than or equal to the first reference illuminance value, the illumination sensor 20 turns off the auxiliary illumination unit 20 (S15) and compares the measured ambient illuminance with the second reference illuminance value S16).

Wherein the second reference illuminance value may be an illuminance value in a light-rich environment.

As a result of the comparison in the step S16, if the ambient illuminance is equal to or higher than the second reference illuminance value, the illumination sensor does not need to drive the casting list in a light-rich environment, so that the casting list is turned off as a subsequent control (S18) .

If it is determined in step S16 that the ambient illuminance is less than or equal to the second reference illuminance value, the illumination sensor senses the movement of the human body through image sensing within a predetermined range (S20).

Then, the illumination sensor determines whether or not the movement of the human body is detected within the set range (S22).

When the movement of the human body is sensed, the sensing sensor recognizes that the sensed person intends to use the corresponding space in which the light is installed, and turns on the casting name part as a subsequent control (S24).

Here, when the movement sensor of the illumination sensor continuously detects the movement of the human body within the set range, the sensed person considers that the space in which the illumination is installed is intended to be continuously used, and maintains the lighting state of the casting list part as the subsequent control Otherwise, the casting list will be turned off as a subsequent control if the movement of the human body can not be detected.

As described above, an optimal embodiment has been disclosed in the drawings and specification. Although specific terms have been employed herein, they are used for purposes of illustration only and are not intended to limit the scope of the invention as defined in the claims or the claims. Therefore, those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

100: illumination sensor 10: driving sensor unit
20: auxiliary illumination unit

Claims (1)

Wherein the illumination sensor automatically detects illumination of the user when there is a user using the space in which the illumination is installed, and automatically turns off the illumination when the user is out of the space.

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