KR101300025B1 - Remote control for street lamp - Google Patents

Abstract

PURPOSE: An unmanned control streetlight is provided to supply generated electricity by using wind power or sunlight and to be automatically controlled by being automatically emitted depending on the surrounding environment. CONSTITUTION: An unmanned control streetlight includes an electricity supply means (10) generating electricity using natural energy; a storage battery storing the generated electricity; a sensing means sensing the light and the darkness around a pillar (1); a control device controlling the electricity of the storage battery; and a security means (70) taking an image around the pillar and transmitting the image. The electricity supply means includes a wind power generating device (20) generating electricity by wind power and a sunlight accumulating device (30) generating electricity by sunlight.

Description

Street light for unmanned control {Remote control for street lamp}

The present invention relates to a street lamp for unmanned control, and more particularly, it is installed on a rare road or street to store electricity by natural energy such as wind and solar, so that electricity can be generated without additional power facilities and sunlight It relates to an unmanned control street light that can be used unattended as the street light automatically emits according to the surrounding environment according to the presence or absence of.

In general, street lamps are installed at predetermined heights on roads or sidewalks, and are a means of illuminating people and vehicles to move safely and comfortably at night. Or collectively control the street lamps around them by the central control method.

On the other hand, as the housing type has recently been changed to apartment complexes such as apartments and villas, it is transformed into a hot spot such as a playground of apartments and villa complexes, as well as derailment of teenagers in relatively dark and rare alleys. This has been.

Therefore, attempts have been made to allow the function of the street lamp to perform a function to prevent crime in addition to simply illuminating the surroundings.

However, in the rare place as described above, it is inconvenient for the administrator to control directly, and the cost of constructing the system is too high to control the centralized control method for the small number of street lights. .

In addition, the conventional street light is turned on by the power supplied from the artificial power generation facility, which has a disadvantage in that the efficiency is greatly reduced because the facility for supplying power in a rare place has to be built separately.

Republic of Korea Patent Publication No. 10-2003-0075789

The present invention has been made to solve the problems of the prior art as described above, the object of the present invention is to install a separate power facility by storing the electricity by natural energy such as wind and solar light is installed on a rare road or street The present invention provides an unmanned control street light that can be used unattended by generating electricity without being able to generate electricity at the same time and automatically illuminating the street light according to the surrounding environment depending on the presence or absence of sunlight.

In order to achieve the above object, the street lamp for unmanned control according to the present invention, the unmanned control lamp is a stand that is upright on the ground and the inside is hollow in the form of a rod, and the luminaire which emits light by applying electricity to the upper end of the support A control street light, comprising: an impeller installed on an upper portion of a pillar to rotate by wind power to generate electricity; and an electricity supply consisting of a solar collector installed on a pillar to generate electricity by integrating sunlight Way; A storage battery which stores electricity generated from the electricity supply means and supplies electricity to the luminaire; The holding means includes a sensing means consisting of an illumination sensor or an optical sensor to detect the contrast of the surrounding; A control device for applying electricity of the battery to the luminaire when the darkness around the support is detected by the sensing means and for shutting off the electricity of the battery applied to the luminaire when the surrounding of the support becomes bright; The shore includes a security camera including a security camera photographing the shore and an IP antenna for transmitting an image captured by the security camera. The solar integrated device includes a plurality of solar cells that integrate sunlight. The solar module plate is arranged to include, and the azimuth sensor is mounted on the upper side of the photovoltaic module plate to measure and transmit the position and direction of the photovoltaic module plate on the surface due to the strength of the magnetic module plate, A bracket for supporting the upper and lower sides of the solar module plate at a rear side of the solar module plate, a rotating shaft installed in the bracket to rotate the bracket and the solar module plate by rotation, and a motor for applying power to the rotating shaft. And, calculate the trajectory of the movement of the sun based on the position and direction of the solar module plate according to the azimuth angle sent by the azimuth sensor W consisting of the calculated value to a controller that drives the motor by the databased in which the program is embedded is embedded program, the gradient of the solar module plates so that the variable power means is characterized by the included.

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The security camera is configured with an infrared sensor, the IP antenna and the security camera is configured to be supplied with electricity by the battery, the battery is applied or cut off by the control device, the control device detects the movement of the infrared sensor As a result, the battery is characterized in that the power is applied or blocked by the IP antenna and the security camera.

As described above, according to the present invention, the electricity generated by using electricity, such as wind and solar light to generate electricity to emit light of the street lamp, thereby reducing the maintenance cost, so that electricity is not required for the electric installation work stably. There is an effect that can be supplied, and by adopting a power supply method using a battery that is stored through natural energy, rather than the existing high-voltage power method of the power supply method has an effect that the safety accident is prevented in advance.

It also includes azimuth sensor that measures the position and direction of the solar module plate that integrates the sunlight, and makes a database of the trajectory of the movement of the sun based on the position and direction of the solar module plate according to the measured value sent from the azimuth sensor. Since a program is embedded in the controller, the tilt of the solar module plate is changed to correspond to the changed position of the sun by the flow of the season and time due to the controller, so that the integration is efficient, regardless of the installation location and installation angle. It is possible to increase energy efficiency by improving integration efficiency, which has an excellent effect on practicality.

In addition, since the sensing means for detecting the contrast around the shore is provided, the controller and the azimuth sensor are not driven in the time and weather when the integration efficiency is low, thereby minimizing the consumption of electricity.

In addition, it is possible to observe the surroundings through the security means has the effect of improving the safety of the surroundings.

1 is an exemplary view showing a preferred embodiment of the present invention,
Figure 2 is a perspective view showing a preferred form of the solar integrated device according to the present invention,
3 is an exemplary view showing a preferred form of the solar integrated device according to the present invention,
Figure 4 is a schematic diagram showing a preferred form for applying the electricity stored in the battery to the luminaire and the security means by the control device according to the present invention,
Figure 5 is a system diagram showing a form that is stored in the electric storage battery generated through the solar integrated device according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

1 is an exemplary view showing a preferred form of the present invention, the unmanned control street light according to the present invention is a strut (1) made up of a rod upright on the ground and hollow inside, and electricity is applied to the upper end of the strut (1) When applied, it is configured in the same form as a known street lamp including a lamp 3 which emits light.

1 to 4, the present invention includes electricity supply means 10 for generating electricity using natural energy, storage battery 40 for storing electricity generated by the electricity supply means 10, Sensing means (50) for detecting the contrast around the support (1), the control device 60 for controlling the electrical application or blocking of the storage battery 40, security means for photographing the support (1) surroundings and transmits the captured image It consists of 70.

Electricity supply means 10 is installed on the top of the support (1) includes an impeller rotated by wind power is installed on the wind power generator 20 and the support (1) for generating electricity by integrating the solar power It consists of a solar integrated device 30 for generating a.

That is, the electricity supply means 10 is to generate electricity by using natural energy, such as wind and solar light.

The storage battery 40 is configured to store electricity generated from the electricity supply means 10 into the pillar 1 to supply electricity to the luminaire 3 and the security means 70 to be described later.

Sensing means 50 is configured in the support (1) to detect the contrast of the surroundings is composed of an illumination sensor or an optical sensor.

 The controller 60 applies the electricity of the storage battery 40 to the lamp 3 when the darkness around the support is detected by the sensing means 50, and applies the lamp 3 to the lamp 3 when the area of the support 1 becomes bright. By cutting off the electricity of the storage battery 40 is configured to automatically use the street light without a separate manager.

The security means 70 is composed of a security camera 71 for photographing the periphery of the support 1 from the support 1 and an IP antenna 73 for transmitting an image photographed by the security camera 71. ) Is to be transmitted to the central management office or the desired place to transmit the image taken by the IP antenna 73.

Therefore, since the luminaire 3 installed in the street lamp is supplied with electricity necessary for light emission through the storage battery 40 in which electricity is stored by natural energy, the lighting condition of the wooden building is managed even without a separate manager, thereby reducing the cost. It is possible to stably supply electricity to the luminaire 3 without the need for a separate electrical installation.

Here, the photovoltaic integrated device 30 includes a photovoltaic module plate 31, an azimuth sensor 33, and a power unit 35, and the photovoltaic module plate 31 integrates sunlight. The solar cells are arrayed so that the directly irradiated sunlight is integrated into a variable electricity, and a transparent synthetic resin or adhesive is applied to fix the solar cells.

The azimuth sensor 33 is mounted on the upper side of the photovoltaic module plate 31 and is configured to transmit and measure the position and direction of the photovoltaic module plate 31 on the surface due to its intensity, which will be described later in more detail. And to the controller 39 of the power means 35.

The power means 35 is a bracket 36 supporting the upper and lower sides of the solar module plate 31 at the rear side of the solar module plate 31, and the bracket 36 is installed on the bracket 36 and rotated by the bracket ( 36 and a solar shaft module for rotating the solar module plate 31, a motor 38 for applying power to the rotary shaft 37, and an azimuth angle sent by the azimuth sensor 33. The solar module plate 31 is driven by driving a motor 38 by a built-in program, which is a program having a database of numerical values calculated by calculating the trajectory of the movement of the sun based on the position and direction of the plate 31. It consists of a controller 39 to make the slope of the variable.
In this case, since the controller is used in connection with the sensing means 50, the azimuth sensor 33, and the motor 38, it is preferable that the controller is formed inside or near the motor 38 of the support 1.

The program embedded in the controller 39 is a cycle by which the sun's trajectory is databased on the basis of the sun's altitude that changes from season to season by the earth's revolution and the sun's elevation moving from east to west daily by the rotation of the earth. The position of the sun moved based on the installation position and the installation direction of the photovoltaic module plate 31 measured by the azimuth sensor 33 according to the rotation and revolution of the earth can be accurately determined for each time zone.

That is, due to the program embedded in the controller 39, the inclination of the photovoltaic module plate 31 is varied by driving the motor 38 so as to correspond to the changed position of the sun by the flow of seasons and time. Therefore, regardless of the installation location and installation angle, it will have the effect of improving the energy efficiency by improving the integration efficiency of solar light.

Here, the rotating shaft 37 is formed in a sprocket shape is formed with a screw on the outside, the sprocket shape is meshed with the rotating shaft 37 made of a sprocket shape on one side of the solar module plate 31. The actuator 32 is configured so that the solar module plate 31 is precisely rotated by the rotation of the rotary shaft 37 so as to rotate stably according to the irradiation angle of the slowly moving sunlight. Improve the integration efficiency.

On the other hand, the rotating shaft 37 is configured to allow the known oil, pneumatic cylinder to release the engagement or engagement with the actuator 32, the operation of the oil, pneumatic cylinder is operated by the controller 39 This is preferred.

In addition, the azimuth sensor 33 and the controller 39 of the power means 35 do not operate when the day or night does not have sunlight, and for this purpose, the sunset or the weather are severely affected by the sensing means 50. The controller 39 and the azimuth sensor 33 are reset to an initial state when the darkness around the shore is detected due to cloudy weather, and the controller 39 and the azimuth angle are detected when the ambient light is detected by the sunrise through the sensing means 50. By driving the sensor 33, it is possible to accumulate sunlight to prevent unnecessary consumption of electricity while improving the efficiency of solar integration.

In addition, even if there is no separate manager, the lighting state of the street lamp is managed to reduce the cost, but also has the effect of stably supplying electricity to the luminaire 3 without the need for a separate electrical installation.

On the other hand, the security camera 71 is configured with an infrared sensor, the IP antenna 73 and the security camera 71 is configured to receive electricity by the storage battery, the storage battery 40 is connected to the control device 60 By applying or blocking electricity, the control device 60 is configured to apply or block the electricity of the battery 40 to the IP antenna 73 and the security camera 71 as the infrared sensor detects movement.

In other words, it is possible to observe the street lamps without a separate patrol agent, so that the safety of the surroundings is rarely improved.

1: prop 3: luminaire
10: electricity supply means 20: wind power generator
30: solar integrated device 31: solar module plate
33: azimuth sensor 35: power means
36: bracket 37: rotation axis
38: motor 39: controller
40: storage battery 50: detection means
60: control device 70: security means
71: security camera 73: IP antenna

Claims (5)

In the unmanned control street light includes a support (1) formed in the form of a rod upright on the ground and hollow inside, and a lamp (3) that emits light by applying electricity to the upper end of the support (1),
Solar integrated device for generating electricity by integrating the solar light is installed on the wind power generation device 20 and the support (1) that includes an impeller installed on top of the support (1) is rotated by wind power Electricity supply means (10) consisting of (30);
A storage battery 40 storing electricity generated from the electricity supply means 10 and supplying electricity to the luminaire 3;
The support (1) includes a sensing means (50) consisting of an illumination sensor or an optical sensor to detect the contrast of the surrounding;
When the darkness around the support is sensed by the sensing means 50, the electricity of the battery 40 is applied to the lamp 3, and when the periphery of the support becomes bright, the electricity of the battery 40 applied to the lamp 3 is cut off. A control device 60;
The support (1) comprises a security camera (70) consisting of a security camera (71) for photographing the periphery of the support and an IP antenna (73) for transmitting an image taken by the security camera (71);
This is done, including
The solar integrated device 30,
It is configured to include a photovoltaic module plate 31 in which a plurality of solar cells that integrate solar light is arranged,
The azimuth sensor 33 is mounted on the upper side of the photovoltaic module plate 31 and measures and transmits the position and the direction of the photovoltaic module plate 31 on the surface due to its intensity.
A bracket 36 supporting the upper and lower sides of the photovoltaic module plate 31 at the rear side of the photovoltaic module plate 31 and the bracket 36 and the solar light by being rotated in the bracket 36. According to the rotation shaft 37 for rotating the module plate 31, the motor 38 for applying power to the rotation shaft 37, and the azimuth angle sent by the azimuth sensor 33, The slope of the photovoltaic module plate 31 is varied by driving the motor 38 by a built-in program, which has a built-in program that calculates the trajectory of the movement of the sun based on the position and direction. Unattended control street light, characterized in that it comprises a power means (35) consisting of a controller (39) formed inside the support or near the motor. delete The method of claim 1,
The rotating shaft 37 is made of a sprocket shape is formed with a screw on the outside, the sprocket-shaped actuator 32 is engaged with the rotating shaft 37 on one side of the solar module plate 31 Unmanned control street light, characterized in that configured. The method of claim 1,
Unattended control street light, characterized in that for driving after resetting the controller (39) and the azimuth sensor (33) to the initial state in accordance with the contrast around the strut sensed by the sensing means (50). The method of claim 1,
The security camera 71 is configured with an infrared sensor,
The IP antenna 73 and the security camera 71 are configured to be supplied with electricity by the storage battery 40, and the storage battery 40 is applied or cut off by the control device 60, but the control device 60 ) Is a street lamp for unmanned control, characterized in that the infrared sensor detects the movement of the electricity from the battery 40 to the IP antenna 73 and the security camera 71 or block.

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