KR20160137262A - Apparatus for dimming lamp - Google Patents

Abstract

The present invention relates to a dimming driving device of a lighting lamp which is a device for dimming-driving a plurality of lighting lamps. According to an embodiment of the present invention, the dimming driving device comprises: a plurality of lighting lamps installed in a zone at a predetermined interval; an object detection sensor allocated to every lighting lamp to be installed; and a dimming controller configured to turn a light on during set driving time of the lighting lamps which belong to a preset distance range from the object detection sensor detecting an object if the object is detected through the object detection sensor.

Description

Apparatus for dimming lamp < RTI ID = 0.0 >

The present invention relates to a dimming driving apparatus for an illumination lamp, and to an apparatus for dimming driving a plurality of illumination lamps.

Generally, lamps for indoor lighting are installed in places such as a large building or an apartment, such as a car park, a hall, a toilet, a warehouse, etc. Normally, such an indoor lighting lamp is used for 24 Or kept turned on for a predetermined period of time or turned on or off according to the user or administrator's selection.

However, according to the method in which the user or the manager directly controls the lighting of the lamp installed in the above-mentioned place manually, the lamp located in a place where the vehicle or the person is not actually in the car There is a problem that electric energy is unnecessarily consumed because it is maintained in a lighting state.

Accordingly, in order to solve the problem of unnecessary consumption of electrical energy, an artificial intelligent light control device is installed in a place such as a parking lot, a hall, a toilet, a warehouse, etc. of a large building or apartment, When a vehicle or a person entering the vehicle is detected, the lamp is automatically turned on for a certain period of time, and after a predetermined time, the lamp is automatically turned off to prevent unnecessary consumption of electric energy.

However, such a conventional artificial intelligent light control device is disadvantageous in that the durability of the electric lamp is lowered because the electric lamp installed in the place is controlled to be turned on or off each time a vehicle or a person entering the place is detected, And the cost of maintenance or replacement is increased.

In fact, in the case of a company or an apartment parking lot in which a vehicle or a person frequently enters or leaves a work or time zone, there is a disadvantage that the durability of the electric lamp is lowered as the electric lamp is frequently turned on or off each time a vehicle or a person is detected.

Korean Patent No. 10-1278594

SUMMARY OF THE INVENTION The present invention is directed to dimming driving a plurality of illumination lamps. Further, the technical problem of the present invention is to improve durability of a lamp in dimming driving. The technical problem of the present invention is to minimize power consumption in dimming driving.

Embodiments of the present invention include a plurality of illumination lamps installed at regular intervals in a zone; An object detection sensor allocated to each of the illumination lamps; And a dimming controller that turns on illumination lamps within a preset distance range from the object detection sensor that senses an object for a set driving time when the object is detected through the object detection sensor.

The illumination lamp and the object detection sensor may be located in the same lighting apparatus.

A plurality of illumination lamps and an object detection sensor are disposed in each passage in the zone, and the illumination lamp and the object detection sensors are grouped for each passage. When the object detection sensor detects an object, the dimming controller It is possible to turn on the grouped illumination lamps on the passage where the object detection sensor is located.

When an object is not detected through the object detection sensor, the state of the grouped illumination lamps installed in the passage can be turned off.

The illumination lamp may be an LED lamp.

According to the embodiment of the present invention, the durability of the electric lamp can be improved by grouping and driving the plurality of illumination lamps. Further, according to the embodiment of the present invention, power consumption in dimming driving can be minimized by grouping and driving the illumination lamps.

1 is a view showing a state in which dimming driving is performed according to an embodiment of the present invention.
2 is a configuration diagram of a dimming driving apparatus of an illumination lamp according to an embodiment of the present invention;
3 is a circuit diagram showing a circuit for driving an illumination lamp;
FIG. 4 is a diagram showing a detection range and a sensing angle of an object detection sensor according to an embodiment of the present invention. FIG.
5 is a view showing a dimming control mode in a parking lot according to the first embodiment of the present invention.
6 is a view showing a dimming control mode in a parking lot according to the first embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, in order to explain the present invention in detail so that those skilled in the art can easily carry out the present invention. . Other objects, features, and operational advantages of the present invention, including its effects and advantages, will become more apparent from the description of the preferred embodiments. It should be noted that the same reference numerals are used to denote the same or similar components in the drawings.

FIG. 1 is a view showing a state in which dimming driving is performed according to an embodiment of the present invention, and FIG. 2 is a configuration diagram of a dimming driving apparatus of an illumination lamp according to an embodiment of the present invention.

The brightness control of the light source, that is, the dimming control, is a very important technology in various fields because it can achieve both the appropriate brightness setting and energy saving.

The most common dimming controller is the phase-cut method called TRIAC dimmer. The field of using triac dimming is only applied to incandescent or halogen lamps. Complex designs are required to apply triac dimmers to current fluorescent or light emitting device based lamps.

As an example of driving the dimming, when the person passes or the automobile passes, it is possible to automatically turn on the light using the sensor, which is also referred to as dimming control or lighting control. For example, if the vehicle is normally turned off and recognizes a person or a vehicle, it operates at 20 W and the average brightness can be adjusted for each characteristic.

The present invention can reduce the illumination power cost by grouping on / off the illumination lamps L. For example, as shown in FIG. 1, the illumination lamps L belonging to the first group and the illumination lamps L belonging to the second group are said to perform dimming driving, and the vehicle moves from the right side to the left side I suppose.

The object detection sensor S belonging to the second group detects the vehicle and accordingly all the illumination lamps L belonging to the second group are illuminated to be ON to emit light. The object detection sensor S located at the rightmost one of the object detection sensors S belonging to the second group detects the vehicle but illuminates all the illumination lamps L belonging to the second group.

On the other hand, since the object detection sensors S belonging to the first group can not detect the vehicle, the illumination lamps L belonging to the first group are not emitted. When the vehicle further advances to belong to the first group, the object detection sensors S belonging to the first group sense the vehicle, thereby lighting all of the illumination lamps L belonging to the first group ) To emit light. On the other hand, if the vehicle is not detected in the second group, the illumination lamps L in the second group are all turned off to stop the light emission.

To this end, the dimming drive apparatus of the present invention includes an illumination lamp L, an object detection sensor S, and a dimming controller 20 as shown in Fig.

The illumination lamps L are lamps arranged at regular intervals in the area. The illumination lamp L is preferably implemented as an LED lamp. This is because LED lamps can save electricity more than ordinary incandescent lamps. There is no limitation on the type of the illumination lamp L, such as a halogen lamp.

The illumination lamp is driven by a power source 101, a full-wave rectifier 103, and an electrolytic capacitor 105, as shown in Fig. The power source 101 generates an alternating current (AC) input voltage V _IN and an input current I _IN . Typically, the AC input voltage V _IN is a sinusoidal waveform. The rectifier 103 includes diodes D1 to D4. The diode converts the AC input voltage VIN to a rectified AC voltage V _REC . When the capacitor 105 and the load 107 are coupled to the rectifier 103, the capacitor 105 smoothes the rectified AC voltage V _REC to provide a DC output voltage V _OUT with a ripple reduced do. The DC output voltage V _OUT can drive the illumination lamp to emit light.

The object detection sensor S is a sensor that is assigned to each illumination lamp L and detects an object. The object detection sensor (S) is installed on the ceiling and detects an object (object, human, living organism, etc.) lying downward. The object detection sensor S may be an ultrasonic sensor, a laser sensor, an infrared sensor, or the like, and the sensing value output may be a one short output. That is, once an object is detected, it provides a signal only once.

When an infrared sensor (IR sensor) is used as the object detection sensor S, it has a short detection distance in the range of 7 to 10 m as shown in FIG. 4 (a). In addition, the infrared sensor has a small sensing angle of about 30 ° and has a disadvantage in that it can not transmit objects.

Accordingly, the present invention is preferably implemented as a microwave sensor as the object detection sensor S. As shown in FIG. 4 (b), the microwave sensor has a long sensing distance of 20 to 25 m, has a wide sensing angle of 120 to 150 °, and is capable of transmitting objects.

On the other hand, the illumination lamp L and the object detection sensor S are installed in the same one lighting apparatus 10 in a pair. That is, one lighting lamp L and a lighting sensor may be provided in the housing of the lighting device 10. [ The lighting apparatus 10 provided with the illumination lamp L and the illumination sensor at a ratio of 1: 1 may be provided at regular intervals in the area.

In addition, the dimming controller 20 and the object detection sensor S can send and receive data by wireless communication. The wireless communication may be a wireless communication method such as Infrared Radiation, Bluetooth, Home Radio Frequency (RF), and Wireless LAN. The term "bluetooth" refers to short-range wireless communication technology that transmits information such as pictures and voice between portable devices such as a smart phone, an earphone, and a notebook.

The dimming controller 20 controls the plurality of illumination lamps L to be turned on or turned off for a set driving time.

The dimming controller 20 is a terminal equipped with an arithmetic processing unit such as a CPU (Computer Processor Unit). The dimming controller 20 illuminates a plurality of illumination lamps L for a set driving time according to whether an object is sensed Or turning off the illumination (OFF).

When the dimming controller 20 detects an object through the object detection sensor S, the dimming controller 20 detects the illumination lamps L within a preset distance range from the object detection sensor that detects the object, ON).

As shown in Fig. 1, it is assumed that the illumination lamps L belonging to the first group and the illumination lamps L belonging to the second group are driven by dimming, and the vehicle moves from the right side to the left side. The object detection sensor S belonging to the second group detects the vehicle and accordingly all the illumination lamps L belonging to the second group are illuminated to be ON to emit light. The object detection sensor S located at the rightmost one of the object detection sensors S belonging to the second group detects the vehicle but illuminates all the illumination lamps L belonging to the second group.

On the other hand, since the object detection sensors S belonging to the first group can not detect the vehicle, the illumination lamps L belonging to the first group are not emitted. When the vehicle further advances to belong to the first group, the object detection sensors S belonging to the first group sense the vehicle, thereby lighting all of the illumination lamps L belonging to the first group ) To emit light. On the other hand, if the vehicle is not detected in the second group, the illumination lamps L in the second group are all turned off to stop the light emission.

The parking lot shown in Fig. 5 will be described in detail, for example. 5, 'PARK' means a parking space of one vehicle, and 'W-1', 'W-2', 'W-3', 'W- It means window. In addition, the entrance means an entryway through which the vehicle enters the parking lot, and the exit means a passage through which the vehicle in the parking lot exits. The illumination lamp L and the object detection sensor S are provided in one lighting apparatus 10 and are installed in each area in the parking lot.

When the vehicle enters the parking lot shown in FIG. 5 through the entrance and is located in the first group, the object detection sensor S located in the first group senses the vehicle, and the dimming controller (not shown) All the illumination lamps L are turned on. And the illumination lamps L in the other two groups and three groups maintain the illumination OFF state.

When the vehicle is in the second group, the object detection sensor S located in the second group senses the vehicle. The dimming controller (not shown) controls the illumination lamps L ON). And the illumination lamps L in the other group 1 and group 3 maintain the illumination OFF state.

In addition, when the vehicle is advanced to the third group, the object detection sensor S located in the third group senses the vehicle, and the dimming controller (not shown) ON). And the illumination lamps L in the other group 1 and the group 2 maintain the illumination OFF state.

A plurality of illumination lamps L and an object detection sensor S are located in each passage in the zone and the illumination lamp L and the object detection sensors S are grouped for each passage. When the object detection sensor S detects an object, the object detection sensor S may be installed in a path where the object detection sensor S senses an object to control illumination of the grouped illumination lamps L . If an object is not detected through the object detection sensor S, the state of the grouped illumination lamps L is turned off.

For example, the parking lot shown in Fig. 6 will be described as an example. Similarly, 'PARK' in FIG. 6 denotes a parking space of one vehicle, and 'W-1', 'W-2', 'W-3', 'W- Quot; window " In addition, the entrance means an entryway through which the vehicle enters the parking lot, and the exit means a passage through which the vehicle in the parking lot exits. The illumination lamp L and the object detection sensor S are located in one lighting apparatus 10 and are installed for each zone in the parking lot.

When the vehicle enters the parking lot shown in FIG. 6 through the entrance and enters the first passage to be located in the group 4, the object detection sensor S located in the group 4 detects the vehicle, and the dimming controller ) Illuminates all the illumination lamps L of the passages located in the four groups. And the illumination lamps L in the other five groups maintain the illumination OFF state. Thereafter, if the vehicle leaves the passageway and is not detected in the four groups, the four groups of illumination lamps L installed in the passages are controlled to be turned off.

In addition, when the vehicle is advanced and positioned in the fifth group, which is the second passage, the object detection sensor S located in the fifth group senses the vehicle, and the dimming controller (not shown) All lights are ON. And the illumination lamps L in the other four groups maintain the illumination OFF state. Thereafter, if the vehicle leaves the passageway and is not detected in the five groups, the five groups of illumination lamps L installed in the passages are controlled to be turned off.

On the other hand, the dimming controller 20 wirelessly communicates with the object detection sensor to receive the sensing value of the object detection.

In order to realize the above-described operation, the dimming controller 20 may be implemented as a server capable of wired / wireless communication. The dimming controller 20 has the same hardware as a typical web server And includes program modules that are implemented through various types of languages such as C, C ++, Jaba, Visual Basic, and Visual C, and perform various functions in software. In addition, it can be implemented using a web server program that is variously provided according to operating systems such as dos, window, linux, unix, and macintosh for general server hardware. Typical examples include a Web site used in a Windows environment, Internet Information Server (IIS), and CERN, NCSA, and APPACH used in a UNIX environment.

The embodiments of the present invention described above are selected and presented in order to facilitate the understanding of those skilled in the art from a variety of possible examples. The technical idea of the present invention is not necessarily limited to or limited to these embodiments Various changes, modifications, and other equivalent embodiments are possible without departing from the spirit of the present invention.

L: Lighting lamp
S: Object detection sensor
10: Lighting fixture
20: Dimming controller

Claims (5)

A plurality of illumination lamps arranged at regular intervals in the area;
An object detection sensor allocated to each of the illumination lamps; And
A dimming controller which illuminates (ON) the illumination lamps within a predetermined distance range from the object detection sensor that senses the object, for a set driving time, when the object is detected through the object detection sensor;
And the dimming drive device of the illumination lamp.
The method according to claim 1,
Wherein the illumination lamp and the object detection sensor are located in the same lighting apparatus.
The method according to claim 1,
A plurality of illumination lamps and an object detection sensor are located in each passage in the zone, the illumination lamp and the object detection sensors are grouped for each passage,
Wherein the dimming controller is installed in a passage where an object detection sensor senses an object when the object detection sensor detects an object so as to turn on the grouped illumination lamps.
The method of claim 3,
A dimming driver of an illumination lamp for illuminating the status of grouped illumination lamps, which are installed in a passage, when an object is not detected through the object detection sensor.
The lighting apparatus according to claim 1,
Wherein the LED lamp is an LED lamp.

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