KR101779783B1 - Park lamp having lighting control module of situation detecting via microwave sensor - Google Patents

Abstract

The present invention relates to a park lamp having a situation detection based lighting control module through a microwave sensor, and more specifically, to a park lamp having a situation detection based lighting control module through a microwave sensor, which is disposed at each point of a park to raise the illuminance of a lighting space by turning on and off the lamp at night. The present invention can minimize current consumption while minimizing inconvenience of a user by switching on and off the lamp and changing the brightness of the lamp according to the sensed situation recognition. The park lamp includes: a post disposed upright at each point of the park; an LED lighting module fixed to the post; a power supply module configured to supply power according to lighting of a lighting unit; and the lighting control module configured to control the lighting state of the LED lighting module.

Description

Background of the Invention Field of the Invention The present invention relates to a lighting control module,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a parking lot having a situation-based lighting control module through a microwave sensor, more specifically, And a parking lot having a situation-sensing type lighting control module through a microwave sensor which can minimize the current consumption while minimizing the inconvenience of the user by switching on / off brightness according to the lighting conditions.

Generally, the term "lighting lamp" refers to a lighting device installed on a road, an alley, a park, etc. to help the passengers to travel at night without inconvenience, and a park or the like is installed at each branch of the park, to be.

However, most of these parks are made of high power such as sodium lamps and mercury lamps, and they are being replaced by street lamps using LEDs that have low power consumption in the current period.

However, conventionally, when the park lights are turned on in a dark state, the lights are controlled to be turned off at the time of rising, and after the park lights are turned on, the lights are maintained at 100% .

That is, if the brightness of the park lights are turned on at normal brightness only when people pass around the park in the state where the park lights are on, and if it is controlled to provide 50% of the brightness when the passers do not pass, You can reduce it.

KR 10-2014-0104601 A KR 10-2008-0012648 A KR 10-2012-0140033 A KR 10-2014-0006290 A

It is an object of the present invention, which is devised to solve the above-described problems, to provide a lighting system and a lighting system, which are disposed at various points in a park and light up at night through lighting, And a parking lot having a situation sensing type lighting control module through a microwave sensor capable of minimizing current consumption while minimizing inconvenience of a user.

The above object is achieved by the following constitutions provided in the present invention.

A park or the like having a situation-based lighting control module using a microwave sensor according to the present invention,

A post disposed upright at each point of the park; An LED lighting module fixed to the post and supplied with a current to illuminate the lighting unit to emit light; A power supply module for supplying power according to lighting of the lighting unit constituting the LED lighting module; And a lighting control module for controlling the lighting state of the LED lighting module,
The lighting control module includes an entrance detection unit for detecting entrance of a user entering a lighting radius through a microwave sensor;
A wireless transmission / reception unit wirelessly transmitting an entrance detection signal generated through the entrance detection unit to a lighting control module installed in an adjacent park or the like, and receiving an entrance detection signal wirelessly transmitted from a lighting control module of an adjacent park;
The current supply amount of the LED lighting module is increased or decreased in accordance with the entrance detection signal transmitted from the lighting control module installed in an adjacent park or the like and the detection signal provided by the built-in entrance detection unit, and the lighting brightness of the LED lighting module according to the entrance of the user is sequentially And a lighting control unit for controlling the lighting control unit,
The lighting control module controls the amount of electric current supplied to the LED lighting module according to the detection of the user detected through the entrance detection unit and the entrance detection signal wirelessly transmitted from the lighting control device of an adjacent park or the like,
Wherein the entrance detection unit comprises a microwave sensor for detecting entry of a user entering into the lighting space and a laser sensor for sensing a distance between the user and the post that has entered the entry radius into the post,
The lighting control module drives a laser sensor when a user is detected in a lighting space through a microwave sensor, measures a distance between the user and the post in real time to detect an irradiation interval in which the user is located,
The LED lighting module includes a remote lighting unit for emitting light emitted from the LED device at a long distance and irradiating light to a long distance section of the lighting space; A middle distance lighting unit for emitting the light emitted from the LED device at a medium distance to the LED lighting module and irradiating light to a middle distance range of the lighting space; And a near-field lighting unit for emitting light emitted from the LED device at a near-field irradiation angle of the LED lighting module to irradiate light to a near-field irradiation section of the lighting space,
The remote lighting unit, the middle-distance lighting unit, and the near-field lighting unit are constituted by an annular panel structure. Each lighting unit formed by these annular panel structures is arranged concentrically in the main body of the LED lighting module,
Wherein the near-field lighting unit is configured to be able to adjust the phase by a phase adjustment unit, and the lighting control module is provided with an illumination intensity sensing unit for sensing the illumination of the near-field illumination zone, The phase adjusting unit operates according to the illuminance of the near-field lighting unit so that the phase of the near-
Wherein the phase adjusting unit includes a winding motor provided in the LED lighting module main body and a wire disposed between the winding motor and the near irradiation panel so that the phase of the short lighting unit Is controlled.

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Preferably, the lighting control unit is preliminarily stored with the lighting and blinking time preset in accordance with the sunrise and sunset time and the lighting brightness in the standby state in which the user is not detected during the lighting time,

The lighting control unit is configured such that, when no user is detected within the lighting time in-lighting area, the lighting control unit is lit at the brightness of the lighting pre-stored for each time period to reduce the current consumption in the waiting time.

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As described above, in the present invention, the presence or absence of the user is detected through the microwave sensor, and the LED lighting module is turned on with the set brightness according to whether the user is detected.

Therefore, the LED lighting module keeps the state of being lit at the minimum brightness without being lit at the maximum brightness in the lighting time period at all times, and when the user enters the lighting space, the brightness of the lighting is increased. Therefore, Can be saved.

In addition, according to the present invention, since the brightness of the lighting is controlled independently of the lighting of the adjacent park without controlling the lighting brightness independently, the user can control not only the park located in the lighting space but also adjacent parks at a predetermined brightness Since it is lighted, it is possible to secure a stable view.

Particularly, in the present invention, when a user enters a lighting space, the distance between the post and the user is measured to detect an irradiation interval in which the user is located, and by intensively irradiating light in the irradiation interval, an unnecessary current Consumption can be suppressed.

Through the added notification module, the visitor can browse various tourist information through the smart phone.

FIG. 1 is a facility state diagram in which a microwave sensor-sensed park or the like having an interlocking control function proposed in the preferred embodiment of the present invention is disposed at each point of a park,
2 shows the overall configuration and lighting state of a microwave sensor-sensed park or the like having an interlocking control function proposed in the preferred embodiment of the present invention,
FIG. 3 is a block diagram showing the overall configuration of a lighting control module in a microwave sensor-sensed park having an interlocking control function proposed in the preferred embodiment of the present invention,
FIGS. 4 and 5 illustrate the details of the LED lighting module and the lighting state of the LED lighting module and the phase adjustment state of the near-field lighting unit in a microwave sensor-sensed park having the interlocking control function proposed in the preferred embodiment of the present invention will be.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a microwave sensor sensing type park or the like having an interlocking control function proposed in the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a state diagram of a microwave sensor-sensed park or the like having a link control function proposed in the preferred embodiment of the present invention at each point of a park, and FIG. 2 is a preferred embodiment of the present invention And a microwave sensor-sensing type park having an interlocking control function. Fig. 3 is a view showing a microwave sensor-sensing type park having an interlocking control function proposed in the preferred embodiment of the present invention. 4 and 5 show a detailed configuration of the LED lighting module and a lighting state of the LED lighting module in the microwave sensor sensing type park having the interlocking control function proposed in the preferred embodiment of the present invention. And a phase adjustment state of the near-field lighting unit.

1, a park light 1 having a lighting control module of a situation sensing type through a microwave sensor according to the present invention is disposed at each point of a park and is illuminated at night to illuminate the lighting space It is a structure.

The park or the like 1 comprises a post 10 standing upright at each point of the park as shown in Figs. 1 and 2; An LED lighting module 20 which is fixed to the post and is supplied with current and lights up; And a power supply module 30 for supplying power according to the lighting of the LED lighting module 20. The lighting module 30 illuminates the allocated lighting space with light to increase the illuminance of the lighting space.

Here, the power supply module 30 may be a commercial power source, and may automatically generate a current through sunlight during a daytime via the solar power generation unit 31, store the battery in a battery (not shown) The LED lighting module 20 can be turned on through the electric current stored in the LED lighting module 20.

In the present invention, the lighting control module 40 for controlling the lighting and lighting of the LED lighting module 20 is added in implementing the park lighting system 1, the LED lighting module 20 is improved, By controlling whether the LED lighting module 20 is turned on or off and the brightness of the LED lighting by each situation, the stable lighting intensity of the allocated lighting space is secured, minimizing the inconvenience of the user and minimizing unnecessary current consumption.

3, the lighting control module 40 detects whether the user enters the lighting space through the microwave sensor 41a and the laser sensor 41b and the distance between the posts 10 An entrance detection unit 41; The entrance detection signal generated through the entrance detection unit 41 is wirelessly transmitted to the lighting control module 40 installed in the adjacent park 1 'and the lighting control module 40 installed in the adjacent park 1' A wireless transmission / reception unit (42) for wirelessly receiving an incoming detection signal wirelessly transmitted from the base station; The current supply amount of the LED lighting module 20 is gradually increased or decreased according to the incoming detection signal transmitted from the lighting control module 40 provided in the adjacent park 1 'and the detection signal provided from the built- And a lighting control unit 43 which sequentially adjusts the lighting brightness of the LED lighting module 20.

In the present invention, a notification module 50 including an NFC tag storing various types of tourist information such as geographical information, historical information, origin information, historical site information, and on-site information is disposed, and as shown in FIG. 2, So that the user can view various tourist information in real time through the smart phone 100.

According to the present embodiment, the wireless transmitting / receiving unit 42 is a ZigBee type, and the lighting control unit 43 installed in each of the parks 1, 1 'in the ZigBee manner transmits / receives an incoming detection signal.

The entrance sensing unit 41 includes a microwave sensor 41a for sensing whether a user entering the lighting radius enters the room or not and a distance between the user and the post 10 entering the lighting space in the post 10 The lighting control unit 40 drives the laser sensor 41b when a user is detected in the lighting space through the microwave sensor 41a and controls the corresponding user and the park 1 ) Of the post 10 in real time, and detects the irradiation interval in which the user is located.

In addition, the lighting control unit 43 is provided with lighting and non-lighting time preset according to the sunrise and sunset time, lighting brightness in the standby state in which the user does not enter the lighting area during the lighting time, The brightness of the lighting is pre-stored for each time zone.

If the user is not detected in the lighting area of the park 1 or the like within the predetermined lighting time, the minimum lighting brightness pre-stored for each time zone is turned on to minimize the current consumption in the waiting time.

Therefore, the lighting control module 40 determines whether or not the user detected through the entrance detection unit 41 is detected and whether the entrance control signal 40 transmitted from the lighting control module 40 of the adjacent park 1 ' The LED lighting module 20 controls the lighting amount of the LED lighting module 20 by controlling the supply amount of the current supplied to the LED lighting module 20. [

For example, when the user enters the lighting area, the lighting control module 40 maintains the lighting state at a brightness of 10% within the set lighting time. When the user enters the lighting area, the lighting control module 40 turns on the LED lighting module The illumination intensity of the LED lighting module 20 is switched from the standby lighting state of 10% to the lighting state of 50% when the user enters the adjacent park or the like 1 '.

Therefore, the user who visited the park at night is allowed to use the park without inconvenience because the bright light is always maintained at the current spot where the user is located, and if the user is not detected in the lighting space, The use of unnecessary current can be minimized.

Further, in this embodiment, the angle of illumination of light through the LED lighting module 20 is changed in accordance with a change in distance between a user entering the lighting space of the park or the like and the park or the like, The section that is not used maintains a low illuminance, and the section actually used by the user maintains a bright illuminance, thereby minimizing the inconvenience of the user and preventing the unnecessary current from being used.

In this embodiment, as shown in FIGS. 2 and 4 to 5, the LED lighting module 20 emits light emitted from the LED device at a long-distance irradiation angle, A remote lighting unit (21) for irradiating light; A middle distance lighting unit 22 for emitting light emitted from the LED device at a medium distance irradiation angle and irradiating light with a medium distance irradiation interval CA of the lighting space; And a near-field lighting unit 23 which emits light emitted from the LED device at the near-field irradiation angle and irradiates light in a near-field irradiation interval IA of the lighting space.

The long-distance lighting unit 21, the middle-distance lighting unit 22 and the short-distance lighting unit 23 are arranged concentrically in the main body 20a of the LED lighting module 20.

Accordingly, the lighting control unit 40 senses the distance between the user who entered the lighting space through the laser sensor 41b of the entrance detection unit 41 and the post 10, (IA, CA, OA), and supplies a current to the lighting unit for illuminating the corresponding area where the user is located according to the detected section, thereby raising the illuminance of the corresponding area where the user is located.

That is, when the user is detected in the lighting space through the microwave sensor 41a, the lighting control unit 40 lights each lighting unit 21, 22, 23 of the LED lighting module with the primary lighting brightness, 22, and 23 for sensing the distance of the user approaching the post 10 through the laser sensor 41b and irradiating light to a section in which the user is located, (IA, CA, OA) where the user is located in the space.

Particularly, in this embodiment, light is irradiated to the near-field irradiation section IA closest to the post 10 among the lighting units 21, 22, 23 constituting the LED lighting module 20, IA) of the near-field illuminating section IA, and detects the illuminance of the near-field illuminating section IA and illuminates the near-field illuminating unit 23 in accordance with the illuminance detected So as to stably maintain the brightness of the near-field irradiation section.

That is, when a large amount of fog or yellow dust remains in the area where the park lamp 1 according to the present invention is installed and the light emitted from the near-field lighting unit 23 stably penetrates to the ground and is difficult to reach, the near- ) Is lowered on its own to secure a more stable illuminance on the floor where the user is located.

5, a phase adjusting unit 24 including a take-up motor 24b and a wire 24b disposed between the take-up motor and the near-field irradiating panel is attached to the LED lighting module main body 20a So that the phase of the near-field lighting unit 23 can be independently controlled according to the winding action of the wire 24b by the winding motor 24a.

The lighting control module 40 is provided with an illuminance detection unit 44 for sensing the illuminance of the near-field illumination section IA where the illuminance is raised by the light emitted from the near-field lighting unit 23, The lighting control module 40 drives the wind-up motor 24a to lower the near-field lighting unit 23 to form a more stable illuminance on the ground.

In addition, in the present embodiment, the near-field lighting unit 23, which is suspended in the state of being suspended by the wire 24b, may be easily swung due to strong wind due to its characteristics.

In order to solve this problem, in the present embodiment, a unique support structure for stably supporting the lowered close-range lighting unit 23 is provided so that the lower-side lighting unit 23 can be lowered The near-field lighting unit 23 is stably supported at all times to maintain a fixed state.

In this embodiment, a coil-shaped support spring 24c is disposed between the main body 20a of the LED lighting module 20 and the near-field lighting unit 21 so that the near-field lighting unit (not shown) suspended in the air by the wire 24b 23 are prevented from swinging due to strong winds or the like.

That is, when the wire 24b is wound up on the winding motor 24a and pulled upward to move the close-up lighting unit 23 upward, the support spring 24c holds the close- And when the wire 24b is released from the winding motor 24a and the near-field lighting unit 23 moves downward, the compressed support spring 24c is gradually expanded and stably supports the near-field lighting unit 23.

Therefore, even if the near-field lighting unit 23 is independently held in a state of being separated from the main body 20a of the LED lighting module 20 while being suspended from the wire 24b, Since the state is always maintained, the phenomenon of rocking due to strong wind or the like can be prevented.

Thus, the near-field lighting unit 23, which has been suspended in the air by the wire 24b, is stably supported by the support spring 24c, and stably maintains the posture constantly even in a bad weather condition such as a typhoon or strong wind It is possible to irradiate light to the near-field irradiation section IA.

1, 1 '. Park etc.
10. Post
20. LED lighting module 20a. main body
21. Remote lighting unit 22. Medium distance lighting unit
23. Close range lighting unit 24. Phase adjustment unit
24a. Winding motor 24b. wire
24c. Support spring
30. Power supply module 40. Lighting control module
41. Entry detection unit 41a. Microwave Sensors
41b. Laser sensor 42. Wireless transmit / receive unit
43. Lighting control unit 44. Illumination detection unit
IA. Close range CA. Middle distance survey section
OA. Distance survey section

Claims (4)

A post disposed upright at each point of the park;
An LED lighting module fixed to the post and supplied with a current to illuminate the lighting unit to emit light;
A power supply module for supplying power according to lighting of the lighting unit constituting the LED lighting module; And
And a lighting control module for controlling the lighting state of the LED lighting module,
The lighting control module includes an entrance detection unit for detecting entrance of a user entering a lighting radius through a microwave sensor;
A wireless transmission / reception unit wirelessly transmitting an entrance detection signal generated through the entrance detection unit to a lighting control module installed in an adjacent park or the like, and receiving an entrance detection signal wirelessly transmitted from a lighting control module of an adjacent park;
The current supply amount of the LED lighting module is increased or decreased in accordance with the entrance detection signal transmitted from the lighting control module installed in an adjacent park or the like and the detection signal provided by the built-in entrance detection unit, and the lighting brightness of the LED lighting module according to the entrance of the user is sequentially And a lighting control unit for controlling the lighting control unit,
The lighting control module controls the amount of electric current supplied to the LED lighting module according to the detection of the user detected through the entrance detection unit and the entrance detection signal wirelessly transmitted from the lighting control device of an adjacent park or the like,
Wherein the entrance detection unit comprises a microwave sensor for detecting entry of a user entering into the lighting space and a laser sensor for sensing a distance between the user and the post that has entered the entry radius into the post,
The lighting control module drives a laser sensor when a user is detected in a lighting space through a microwave sensor, measures a distance between the user and the post in real time to detect an irradiation interval in which the user is located,
The LED lighting module includes a remote lighting unit for emitting light emitted from the LED device at a long distance and irradiating light to a long distance section of the lighting space; A middle distance lighting unit for emitting the light emitted from the LED device at a medium distance to the LED lighting module and irradiating light to a middle distance range of the lighting space; And a near-field lighting unit for emitting light emitted from the LED device at a near-field irradiation angle of the LED lighting module to irradiate light to a near-field irradiation section of the lighting space,
The remote lighting unit, the middle-distance lighting unit, and the near-field lighting unit are constituted by an annular panel structure. Each lighting unit formed by these annular panel structures is arranged concentrically in the main body of the LED lighting module,
Wherein the near-field lighting unit is configured to be able to adjust the phase by a phase adjustment unit, and the lighting control module is provided with an illumination intensity sensing unit for sensing the illumination of the near-field illumination zone, The phase adjusting unit operates according to the illuminance of the near-field lighting unit so that the phase of the near-
Wherein the phase adjusting unit includes a winding motor provided in the LED lighting module main body and a wire disposed between the winding motor and the near irradiation panel so that the phase of the short lighting unit The lighting control module is provided with a state-sensing type lighting control module using a microwave sensor. The lighting control apparatus according to claim 1, wherein the lighting control unit is previously stored with lighting and lighting time preset in accordance with sunrise and sunset time and lighting brightness in a standby state in which no user is detected in the lighting time,
Wherein the lighting control unit is configured to reduce the amount of current consumption in the waiting time when the user is not detected in the lighting time lighting area, A parking lot having a lighting control module of the same.
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