KR20170118030A - Energy saving street lamp system having intensity of illumination setting function - Google Patents

Abstract

The present invention relates to a power saving type streetlight system having a custom illuminance setting function for organically controlling the illuminance of a lighting area by controlling the brightness of the lighting for each situation by disposing the lamps so as to be spaced apart from each other.

Description

[0001] The present invention relates to an energy saving street lamp system having a custom illuminance setting function,

The present invention relates to a power saving type streetlight system having a custom illuminance setting function, and more particularly, to a lighting illuminance adjusting system for illuminating a lighting area of a lighting area, The present invention relates to a power saving streetlight system having a light source.

Conventionally, as a method of controlling and managing a street light, there has been a method in which a flasher equipped with an optical sensor corresponding to a change in ambient brightness at sunrise and sunset is installed in a street light or a security light so that the street light is turned on or off when the light becomes dark or bright.

However, in the above method, when a failure of the optical sensor or a malfunction of the street lamp and the flasher occurs, the management personnel circulate and check each one or if there is no complaint, it can not be confirmed whether the malfunction has occurred. , A lot of manpower is required to circulate the street lamp and inspect it one by one.

Another conventional method is a streetlight flicker which is operated by a radio signal of a radio transmission device, a radio relay system and a radio transmission device to turn on / off the streetlight, so that, at sunrise and sunset, And turning on and off the street lamp.

Such a method can not immediately confirm the execution result of the lamp after the instruction to turn on or off the lamp, but also can not confirm the malfunction of the street lamp and the flicker or the malfunction or the amount of electric power, the short circuit and the overcurrent, It is difficult to provide high-quality services due to delayed or neglected maintenance due to lack of manpower and equipment.

In particular, the conventional street lamps are configured such that the lights are controlled collectively according to the lighting command provided in the control room or the lighting time recorded in the control unit, so that the lamps are illuminated unnecessarily brightly at nighttime even when walking or running is not actively performed. And the efficiency with respect to the current consumption amount is lowered.

KR 10-1472939 B1 KR 10-2013-0093385 A KR 10-2011-0075879 A JPH10-041072E

In order to solve the above problems, an object of the present invention, which is devised to solve the above-described problems, is to arrange the LEDs so as to be spaced apart from each other, And to provide a custom illuminance setting function for securing a stable view of the streetlight.

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

The power saving type streetlight system having the custom illumination setting function according to the present invention,

A streetlight system comprising a plurality of street lamps arranged mutually along a road to increase the illuminance of a lighting area through lighting to secure a stable view,

The streetlight includes:

A power supply unit;

A post disposed so as to stand on the ground;

A head lamp fixed to the post and having an air cooling type cooling member for emitting light by a current supplied from the power supply unit and for cooling the light emitting substrate through a rotational force generated by a draft;

A controller for controlling whether the head lamp is supplied with a current and a current supplied to the head lamp to control whether the head lamp is on or off;

By comparing the movement pattern of the moving object including the moving direction and the moving speed of the moving object and the shape of the moving object, which are close to the lighting area of the streetlight provided through the sensing unit, with a plurality of movement patterns previously recorded in the database, And a pattern extracting unit for identifying the pattern,

Wherein the control unit controls the respective streetlights to remain lit at a low illuminance within the lighting time zone and then operates in accordance with the type of the moving object identified by the pattern extracting unit, The control unit controls the lighting intensity of the headlamp to be raised so as to secure a stable view of the lighting area,

The power unit includes: a wind power generation module that self-generates a current through wind power; A power storage module for storing a current generated by the wind power generation module; And an auxiliary maneuvering module for generating an auxiliary maneuvering force of the wind power generation module through wind power,

The wind power generation module includes:

A main body, a drive shaft installed to the main body so as to rotate in one direction by switching the air resistance of the wind to a rotational force through a rotary fan, and a power generator for converting the rotational force of the drive shaft into a current,

Wherein the auxiliary starting module comprises:

At least one rotating shaft arranged to rotate in the main body and rotating in one direction by switching the air resistance of the wind to a rotational force through the rotating fan; And a reduction gear portion that receives the rotational force of each of the rotation shafts and decelerates the gear and provides a reduced rotational force to the drive shaft of the wind power generation module through a reduction shaft,

The drive shaft of the wind power generation module includes:

And an initial braking load is generated by the auxiliary braking force provided by the auxiliary braking module to perform initial rotation and inertial rotation,

The clutch module is provided between the reduction shaft and the drive shaft of the wind power generation module so that the rotation speed of the drive shaft of the wind power generation module is faster than the rotation speed of the reduction shaft of the reduction gear portion, Allowing the wind power module to rotate independently,

The clutch module includes a current measuring unit for measuring the amount of power produced by the wind power generation module and an electromagnetic clutch member for separating the reduction shaft and the drive shaft connected through electromagnetic force. When the predetermined amount of power is generated by the wind power generation module, The clutch member is configured to separate the reduction shaft and the drive shaft through electromagnetic force, thereby independently rotating the drive shaft.

As described above, the streetlight system according to the present invention is configured such that it does not illuminate at a constant illuminance in a set time zone, maintains the illuminated state at low illuminance at normal times, and illuminates at high illuminance when the entrance of the moving object is sensed. It is possible to secure a stable view and reduce the current consumption.

In the present invention, the moving object is discriminated through the pattern analysis of the moving object obtained through the detection sensor without sensing only the entry of the moving object, and if the identified moving object is judged to be a wild animal, Thereby preventing secondary safety accidents caused by wild animals.

The present invention also provides an air cooling type cooling member for cooling a light emitting substrate through a rotational force generated by a draft in a head lamp to suppress thermal damage of the LED lamp disposed on the light emitting substrate, And deterioration of the lighting efficiency due to heat damage can be prevented, and it is possible to secure improved durability without consuming a separate current.

Particularly, in the present invention, an auxiliary starting module for providing an initial maneuvering force of the wind power generation module in which the braking load is generated is provided, and the driving shaft of the wind power generation module is continuously rotated by the breeze to enable self generation.

The auxiliary maneuvering module for providing the initial maneuvering force is not a motorized type that consumes the electric current stored in the separate power storage module but a type that rotates the driving shaft of the wind power generation module by reducing the rotational force generated by the draft by the reduction gear portion So that there is an advantage that the current consumption is not generated while the stable initial start-up of the wind power generation module is achieved.

In addition, the rotation of the drive shaft that rotates at a high speed by the unique clutch module prevents physical damage to the rotation shaft caused by rotation of the rotation shaft of the auxiliary drive module connected to the reduction shaft and the reduction gear structure at a high speed, In addition, the generation of the braking load by the rotation shaft is prevented.

FIG. 1 is a view showing a construction state of a power saving type streetlight system having a custom illuminance setting function proposed by the preferred embodiment of the present invention,
FIG. 2 is a block diagram showing the overall configuration of a streetlight constituting a power saving streetlight system having a custom illuminance setting function proposed by the preferred embodiment of the present invention,
FIG. 3 is a view showing the external configuration of a streetlight constituting a power saving type streetlight system having a custom illuminance setting function proposed by the preferred embodiment of the present invention,
Fig. 4 is a detailed view of the headlamp in the streetlight shown in Fig. 3,
Fig. 5 is a detailed view of the wind power generation unit in the streetlight shown in Fig. 3. Fig.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a power saving type streetlight system having a custom illuminance setting function proposed in a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a view showing a construction state of a power saving type streetlight system having a custom illumination setting function proposed in the preferred embodiment of the present invention, and FIG. 2 is a schematic view of a power saving streetlight FIG. 3 is a block diagram showing the external configuration of a streetlight constituting a power saving streetlight system having a custom illuminance setting function proposed by the preferred embodiment of the present invention, and FIG. 4 3 shows a detailed configuration of the headlamp in the streetlight shown in FIG. 3, and FIG. 5 shows a detailed configuration of the wind power generation unit in the streetlight shown in FIG.

As shown in FIGS. 1 and 2, the power saving streetlight system 100 having a custom illuminance setting function according to the present invention includes at least one streetlight 1 ).

The streetlight (1) includes a power supply unit (30); A post 10 standing upright on the ground; A head lamp 20 fixed to the post 10 to emit light by a current supplied from the power supply unit 30; And a control unit (40) for controlling whether the head lamp (20) is on or off and controlling the brightness of the head lamp (20) by controlling current supply and current supply amount of the head lamp (20).

A local communication unit 44 such as a Zigbee communication system or a Bluetooth communication system is provided in the control unit 40 of each of the streetlamps 1 so that the respective streetlights 44 interrelate with each other through short- And the data including the firmware stored in the memory 41 of the control unit 40 can be inputted remotely through the portable terminal.

The head lamp 20 includes a head bracket 21 mounted on the post 10 and a light emitting board 22 having a plurality of LED lamps disposed therein.

A cooling fan 23a is disposed at an outer end portion exposed to the outside and a cooling member 23 having a heat radiation fan 23b disposed at an inner end portion accommodated in the head bracket 21 is disposed in the head bracket 21 , And the LED lamps heated by lighting by the cooling member (23) that spontaneously rotates by the draft are naturally cooled in the air-cooled form.

A sunrise and sunset cycle according to each coordinate value is recorded in the memory 41 in the control unit 40. The control unit 40 controls the head 41 to be operated in accordance with the sunrise and sunset cycles of the corresponding date recorded in the memory 41 So that the lighting is performed after the sunset by supplying the electric current.

At this time, the controller 40 includes a GPS module 42 to automatically receive coordinate values and time values of the corresponding street lamps 1, and the control unit 40 can control the sunrise and And automatically controls the lighting timing of the head lamp by automatically calculating the sunset cycle, thereby eliminating the trouble that the constructor directly inputs the sunrise and sunset cycle and the current time calculated through the coordinate value provided by the streetlight.

In the present invention, when the streetlight system 100 is implemented, each streetlight 1 is normally illuminated at a low illumination level. When a moving object such as a car or a person enters a lighting area, Thereby ensuring a stable view of the moving object entering the lighting area.

That is, the lighting ratio and the current consumption amount of the head lamp 20 are reduced by maintaining the illuminated state at a low illuminance of 10 to 20% at normal times, and when illuminated by the moving object is detected, The stable view of the lighting area is ensured, so that the lifetime extension and the current consumption of the head lamp 20 can be reduced by shortening the head lamp lighting rate.

To this end, in the present embodiment, a pattern extracting unit 50 for extracting a pattern of a moving object including a moving direction, a moving speed, and a shape of a moving object approaching a lighting area of each streetlight through the sensing unit 51a do.

Accordingly, the control unit 40 reduces the lighting rate and the current consumption of the head lamp 20 by lighting at a low illuminance when the moving object is not sensed at all times. When the moving object is detected by the pattern extracting unit 50 The amount of current supplied to the head lamp 20 is increased to light up at a high illuminance.

Thus, each of the streetlights 1 maintains a state of being illuminated with minimum illuminance during the lighting time zone, and when the entry of the moving object is detected in the lighting area, the illuminance is sequentially increased to secure a stable view of the lighting areas.

According to the present embodiment, the sensing unit 51 includes a sensor for detecting the entry of the object, the moving speed, the moving direction, and the shape of the moving object through a laser or a microwave. An infrared camera for sensing the heat and extracting the shape of the moving object and an illuminance sensor for sensing illumination emitted from a headlight of a vehicle or the like may be added.

In addition, the control unit 40 is provided with an alarm module 43 that generates a percussion sound or a lightening event to eradicate the wild animals appearing on the road and propagate the entrance of the wild animals to the surroundings.

Therefore, the pattern extracting unit 50 identifies the type of the moving object entering the lighting area by collating the pattern of the moving object provided by each sensing unit 51 with the pattern recorded in the database 52 in advance.

When the pattern of the moving object identified by the pattern extracting unit 50 is analyzed as a wild animal rather than an automobile or a human being, the control unit 40 activates the alarm module 43 so that the wild animals approaching the roots To prevent the occurrence of safety accidents caused by wild animals appearing on the road by notifying pedestrians walking on the roads or drivers who are driving.

The power supply unit 30 is provided with a wind power generation module 33 for self-power generation of current through wind power, a solar power generation module 32 for self-power generation of current through sunlight, And the power storage module 31 for storing the current generated by the power generation modules 32 and 33 so that the head lamp 20 is lighted by the self-generated current without depending only on the external power supply do.

The wind power generation module 33 includes a main body 33a provided on the post 10 in a left-right rotation structure; A drive shaft 33b installed to the main body 33a in a rotatable manner and rotating in one direction by switching the air resistance of the wind to the rotational force through the rotary fan 33b-a; And a power generation unit 33c that converts the rotational force of the drive shaft 33b into a current. The rotational force of the drive shaft 33b, which rotates by the wind, is converted into electric power and stored in the power storage module 33c .

Because of the characteristics of the drive shaft 33b of the wind power generation module 33, a magnetic braking force and a stationary frictional force are always present between the permanent magnet and the core constituting the generator portion 33c. Is a factor that hinders the initial drive of the drive shaft.

That is, the driving shaft 33b of the wind power generation module 33 must be provided with a relatively large rotational force than the resultant force of the magnetic braking force and the static frictional force by the draft, so that the driving shaft 33b can be rotated at an initial stage, The production of electric power through the wind power generation module 33 is difficult and the efficiency due to power generation is reduced.

In consideration of this, in this embodiment, an auxiliary starting module 34 that assists the initial maneuvering force of the wind power generation module 33 is added, and a driving force of the wind power generation module 33 33b to induce inertial rotation of the drive shaft 33b, thereby making it possible to continuously generate electric power even in a breeze condition.

Here, the auxiliary starting module 34 may be a transmission type that generates a rotational force through a current stored in the power storage unit, and starts the wind power generation module through the generated rotational force.

However, since it is not desirable to consume power as the initial maneuver force, the present invention proposes and adopts a self-starting auxiliary maneuvering module that generates an initial maneuvering force through wind power.

The self-starting auxiliary maneuvering module 34 includes at least one rotating shaft 34a-a that rotates in one direction by switching the air resistance of the outside air to rotational force through the rotating fan 34a-a; A rotation speed of each of the rotary shafts 34a-a is supplied through the input shaft 34c-a and the decelerated rotation torque is supplied to the drive shaft 33b of the wind power generation module 33 through the reduction shaft 34c-b And a reduction gear portion 34c.

Referring to the drawing, a plurality of rotating shafts 34a constituting an auxiliary starting module 34 are arranged in a rotating structure in a main body 33a of the wind power generating module 33, and these rotating shafts 34a are connected to a belt 34b, A of the reduction gear portion 34c through the input shaft 34c-a.

The reduction gear portion 34c reduces the rotational force of the rotation shaft 34a provided through the input shaft 34c-a to reduce the rotational speed of the drive shaft 33b connected to the reduction shaft 34b of the wind power generation module 33 So that the drive shaft 33b constituting the wind power generation module 33 is rotated.

Therefore, the driving shaft 33b of the wind power generation module 33 in which the initial braking load is generated is initially rotated and inertially rotated by the auxiliary maneuvering force provided by the auxiliary maneuvering module 34, It is possible to generate electric power by rotating the wind power generation module 33 without consuming a separate current even when the wind is blowing due to the provided auxiliary maneuvering force.

In this embodiment, the clutch module 35 is provided between the decelerating shaft 34c-b and the drive shaft 33b of the wind power generator module 33 so that the decelerating shaft 34c- if the rotation speed of the drive shaft 33b of the wind power generation module 33 is faster than the rotation speed of the wind power generation module 33, the clutch module 35 separates the connection state of the reduction shaft 34c-b and the drive shaft 33b, ) Rotate independently.

Here, the clutch module 35 includes a current measuring section 35a for measuring the amount of power produced by the wind power generation module 33, an electromagnetic clutch 34 for disconnecting the reduction shaft 34c-b connected via electromagnetic force from the drive shaft 33b, When a predetermined amount of electric power is generated by the wind power generation module 33 including the member 35b, the electromagnetic clutch member 35b separates the reduction shaft 34c-b and the drive shaft 33b from each other through electromagnetic force, Thereby enabling independent rotation of the rotor 33b.

Therefore, physical rotation of the rotary shaft due to the rotation of the rotary shaft of the auxiliary starting module, which is connected to the reduction shaft and the reduction gear structure by the rotation of the drive shaft at high speed, is prevented by the reverse rotation of the drive shaft. The occurrence of load is prevented.

In addition, since the initial maneuvering force of the wind power generation module is assisted by the auxiliary maneuver module during the breeze, it is possible to start the wind power generation module by the breeze, so that the self-generated power can be continuously generated by the wind power generation module.

100. Street light system
1. Streetlight
10. Post 20. Headlamp
21. Head Bracket 22. Light Emitting Substrate
23. Cooling member 23a. Rotating shaft
23b. Rotating fan 23c. Heat-dissipating fan
30. Power supply unit 31. Power storage module
32. Solar power module 33. Wind power module
33a. Body 33b. driving axle
33b-a. Rotating fan 33c. Power generation section
35. Clutch module 35a. Current measuring unit
35b. The electromagnetic clutch member
34. Auxiliary start module 34a. Rotating shaft
34a-a. Rotating fan
34b. Belt 34c. Reduction gear portion
34c-a. Deceleration axis 40. Control section
41. Memory 42. GPS module
43. Alarm Module
50. Pattern extracting unit 51. Detecting unit

Claims (3)

A streetlight system comprising a plurality of street lamps arranged mutually along a road to increase the illuminance of a lighting area through lighting to secure a stable view,
The streetlight includes:
A power supply unit;
A post disposed so as to stand on the ground;
A head lamp fixed to the post and having an air cooling type cooling member for emitting light by a current supplied from the power supply unit and for cooling the light emitting substrate through a rotational force generated by a draft;
A controller for controlling whether the head lamp is supplied with a current and a current supplied to the head lamp to control whether the head lamp is on or off;
By comparing the movement pattern of the moving object including the moving direction and the moving speed of the moving object and the shape of the moving object, which are close to the lighting area of the streetlight provided through the sensing unit, with a plurality of movement patterns previously recorded in the database, And a pattern extracting unit for identifying the pattern,
Wherein the control unit controls the respective streetlights to remain lit at a low illuminance within the lighting time zone and then operates in accordance with the type of the moving object identified by the pattern extracting unit, The control unit controls the lighting intensity of the headlamp to be raised so as to secure a stable view of the lighting area,
The power unit includes: a wind power generation module that self-generates a current through wind power; A power storage module for storing a current generated by the wind power generation module; And an auxiliary maneuvering module for generating an auxiliary maneuvering force of the wind power generation module through wind power,
The wind power generation module includes:
A main body, a drive shaft installed to the main body so as to rotate in one direction by switching the air resistance of the wind to a rotational force through a rotary fan, and a power generator for converting the rotational force of the drive shaft into a current,
Wherein the auxiliary starting module comprises:
At least one rotating shaft arranged to rotate in the main body and rotating in one direction by switching the air resistance of the wind to a rotational force through the rotating fan; And a reduction gear portion that receives the rotational force of each of the rotation shafts and decelerates the gear and provides a reduced rotational force to the drive shaft of the wind power generation module through a reduction shaft,
The drive shaft of the wind power generation module includes:
And an initial braking load is generated by an auxiliary braking force provided by the auxiliary braking module to perform initial rotation and inertial rotation,
The clutch module is provided between the reduction shaft and the drive shaft of the wind power generation module so that the rotation speed of the drive shaft of the wind power generation module is faster than the rotation speed of the reduction shaft of the reduction gear portion, Allowing the wind power module to rotate independently,
The clutch module includes a current measuring unit for measuring the amount of power produced by the wind power generation module and an electromagnetic clutch member for separating the reduction shaft and the drive shaft connected through electromagnetic force. When the predetermined amount of power is generated by the wind power generation module, Wherein the clutch member is configured to separate the deceleration shaft and the drive shaft from each other through an electromagnetic force to independently rotate the drive shaft. The method according to claim 1,
The control module is provided with an alarm module for generating wild light or light and for exterminating the wild animals appearing on the road and propagating the entrance of wild animals to the surroundings,
The control unit activates the alert module when the type of the moving object identified by the pattern extracting unit is identified as a wild animal, and exterminates wild animals that have entered the roots, And the light source is configured to emit the light. The method according to claim 1,
The sensing unit includes:
And a object detecting sensor for detecting the entry of the moving object, the moving speed, the moving direction, and the shape of the moving object through a laser or a microwave.

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