KR101502734B1 - A Street Lighting - Google Patents

Abstract

The present invention relates to a streetlight that can convert solar energy to electric energy to operate a lamp, detect motion of a pedestrian to automatically turn on the lamp, and adjust an angle of a lamp unit if necessary. The streetlight includes: a streetlight post vertically installed; a connecting frame connected to the streetlight by a bracket; and a lamp unit installed to a front end of the connecting frame and having a lamp. The connecting frame is provided with a leg member and an angle adjusting member. The leg member is formed in a U-shape when seen from a plan view, of which an end of the leg member is connected to the connecting frame, and the other end is hinged to the lamp unit. The angle adjusting member is fixed to the lamp unit at both sides, and is formed with at least one locking groove to which a hinge is locked. The angle adjusting member has a semicircular plate selectively fixing the lamp unit which is rotated around the hinge. The lamp unit is provided with a motion sensor for detecting motion of a pedestrian to output a signal to the control unit and thus automatically operate the lamp. The lamp is supplied by electric energy produced from a solar cell module which is installed to the connecting frame and produces the electric energy by solar energy.

Description

{A Street Lighting}

The present invention relates to a streetlight, more specifically, to convert solar energy into electric energy and use it as energy required for lighting the lamp, and also to detect the movement of a pedestrian and automatically turn on the lamp, To a streetlight which can be adjusted according to the lighting conditions.

Generally, a street light is installed on a road or a road to illuminate a night light, or is provided for the purpose of facilitating the operation of a vehicle or the passage of a person, and includes a column formed at a predetermined height and a luminaire installed in the column .

The luminaire includes a case, a light source installed inside the case, and a cover for transmitting light emitted from the light source.

Most of the light sources used for the street lamps are sodium lamps and mercury lamps which use high power, and they are being replaced by street lamps using LEDs which have low power consumption in the current period.

However, conventionally, since the street lamp is controlled to be turned off in a dark state and turned off at a rising time, the street lamp is maintained in a state of 100% brightness after being turned on, .

On the other hand, since conventional street lamps are supplied with electric power from KEPCO transformers, a lot of construction cost and manpower are inputted into underground cable works.

In addition, since the electric power required for the streetlight is supplied through the cable, there is a problem that the maintenance cost of the cable is periodically generated due to the short circuit and the aging of the cable.

Document 1: Korean Patent Registration No. 10-1037093

Accordingly, an object of the present invention is to convert solar energy into electric energy to use as energy required for lighting the lamp, The angle of which can be adjusted as needed.

According to an aspect of the present invention, there is provided a lighting system including a streetlight post installed vertically, a connection frame connected to the streetlight post by a bracket, a luminaire installed at a front end of the connection frame, Wherein the connecting frame has a shape of "C" in a plane, the end of which is coupled to the connecting frame and the tip of which is hinged to both sides of the luminaire, And at least one latching groove for latching the hinge is formed along the circumferential surface of the hinge so as to selectively fix the luminaire which rotates about the hinge, and an angle adjusting member for adjusting the angle of the luminaire is installed The luminaire senses the movement of the pedestrian and sends a signal to the control unit And the lamp is supplied with electric energy generated by a solar cell module that generates electric energy by using solar energy in a state where the lamp is installed in the connection frame, .

The present invention can convert solar energy into electric energy and use it as the energy required for lighting the lamp, so that there is no need to carry out construction such as an eco-friendly and unnecessary underground cable.

In addition, by sensing the movement of the pedestrian and automatically lighting the lamp, it is possible to realize an energy saving effect, and the angle of the lamp can be adjusted as needed, so that the street lamp can be used more efficiently.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view of a streetlight according to a preferred embodiment of the present invention; Fig.
Fig. 2 is an excerpt of an assembling structure of the angle adjusting member and the luminaire shown in Fig. 1; Fig.
Fig. 3 is a view showing an angle adjustment state of the luminaire shown in Fig. 2; Fig.
4 is a view illustrating the configuration of a motion detection sensor and a control unit for automatically lighting a lamp of a streetlight according to the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In the following detailed description, exemplary embodiments of the present invention will be described in order to accomplish the above-mentioned technical problems. And other embodiments which may be presented by the present invention are replaced by descriptions in the constitution of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view of a streetlight according to a preferred embodiment of the present invention; FIG.

1, the street light 100 of the present invention includes a street light post 10 installed vertically upright from the ground, a connection (not shown) connected to the street light post 10 by a bracket 12, A frame 14 and a lamp 32 installed at the front end of the connection frame 14 and having a lamp 32 for emitting light and a lamp 32 for supplying electric energy to the lamp 32 of the lamp 30. [ Module 20 as shown in FIG.

The solar cell module 20 is a unit for converting solar energy into electrical energy and supplying it to the lamp 32 of the lamp 30. The energy conversion technology of the solar cell module 20 is a well- A detailed description thereof will be omitted.

An angle adjusting member 40 for rotatably supporting the lamp 30 on the connecting frame 14 is further provided at the tip of the connecting frame 14. At this time, it is preferable that the connection frame 14 is configured to be connected in multiple stages by an antenna type so that its length can be freely adjusted.

Fig. 2 is a drawing showing a structure of a luminaire connected to an angle adjusting member.

2, the angle regulating member 40 has a "C" shape in a plane, its end is connected to the connecting frame 14 and its tip is connected to the hinge 46 And at least one latching groove 50 is formed on both sides of the lamp 30 to surround the hinge 46 so that the hinge 46 is engaged with the hinge 46, And a semi-circular plate (48) for selectively fixing an angle of the lamp (30) rotating about the center.

3, when the angle adjusting member 40 is rotated while holding the lamp 30 as shown in FIG. 3, the angle adjusting member 40 is rotated about the hinge 46 to adjust the angle of the lamp 30, When the hinge 46 is engaged with any one of the locking grooves 50 formed on the peripheral surface of the semi-circular disc 48 in the course of rotation, the lamp 30 is fixed in a state rotated at an appropriate angle, Accordingly, the angle of the lamp 30 can be freely adjusted by the angle desired by the user.

Meanwhile, the lamp 30 is further provided with a motion detection sensor 60. The motion detection sensor 60 senses the motion of the pedestrian passing through the walkway provided with the streetlight and outputs a signal to the control unit 62 as shown in Figure 4. The control unit 62 controls the movement of the motion detection sensor 60 And the lamp 32 is turned on by applying power to the lamp 23 through a signal. That is, the lamp 32 of the streetlight is turned on only when the pedestrian passes around the streetlight 100 through the motion detection sensor 60, thereby reducing power consumption of the streetlight.

10: streetlight holding 14: connecting frame
20: solar cell module 30: luminaire
32: Lamp 40: Angle adjusting member
42: leg member 46: hinge
48: half disk 50: latching groove
60: motion detection sensor 62:

Claims (1)

A connection frame 14 connected to the streetlight post 10 by a bracket 12 and a lamp installed at a front end of the connection frame 14 and emitting light, And a lamp (30) having a built-in lamp (32)
The connection frame 14 may be connected in a multi-stage manner by an antenna so that the height of the lamp 30 can be adjusted by freely adjusting its length.
The connection frame 14 includes:
A leg member 42 having a " C "shape in plan view, an end connected to the connecting frame 14 and a tip end connected to a hinge 46 on both sides of the lamp 30;
At least one latching groove 50 is formed on both sides of the lamp 30 and is hung around the periphery of the hinge 46 to rotate the lamp 30 about the hinge 46 And an angle regulating member (40) for adjusting the angle of the lamp (30) is installed;
The lamp (30) includes:
A motion detection sensor 60 for detecting the movement of the pedestrian and outputting a signal to the control unit 62 to automatically turn on the lamp 32;
Wherein the lamp (32) is configured to be supplied with electric energy of the solar cell module (20) which generates electric energy by using solar energy in a state where it is installed on the connection frame (14).

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