KR200493989Y1 - LED Lighting Fixture and Commutation Signs using it - Google Patents

Abstract

The present invention relates to an LED lighting fixture for fastening a rectification sign and a rectification sign having the same.
To this end, the present invention provides a housing which is formed elongated in one direction and is pivotally fastened to the upper frame of the rectification sign; LED modules provided so as to expose the LED elements on both sides of the rectangular housing; and a solar cell provided on an upper portion of the housing.
Accordingly, since the overall center of gravity of the LED lighting fixture is formed low, it is possible to provide a rectification sign that is strong and structurally stable despite wind load or other external force applied to the rectification sign.

Description

LED Lighting Fixture and Commutation Signs using it

The present invention relates to an LED lighting fixture for fastening a rectification sign and a rectification sign having the same, and more particularly, a housing that is rotatably fastened to the top of the frame of the rectification sign, and an LED provided so that the LED elements are exposed on both sides of the housing It relates to an LED lighting fixture for fastening a rectification sign including a module, and a solar cell provided on an upper portion of the housing, and a rectification sign having the same.

In general, a stop sign is installed adjacent to a stop of public transportation such as a bus to provide passengers with information on the route of public transportation. Recently, electric billboards have been installed at bus stops in large cities to provide real-time traffic information, various road conditions, bus congestion, and other weather and simple local news. there is a situation

In particular, in large cities and metropolitan areas, illumination is secured to a certain extent by the lights of street lights or other vehicles even at night time, but in other local small towns and rural areas, street lights are limited, and even if a street light is installed near a bus stop, Even if the light is not directed or the light is directed to one side of the rectification sign, there is a limitation in that the other side has no choice but to decrease visibility.

Above all, in the case of small and medium-sized cities or rural areas, there were many blind spots where street lights or CCTV were not installed, so there was a risk of security when women and children walked at night time.

On the other hand, as a prior art document in which lighting is attached to a sign of a bus stop, "Bus stop sign with lighting" of Japanese Patent Registration No. 5688512 (registration on Feb. 6. 2015, hereinafter referred to as 'prior art document') has been proposed. have. As shown in the prior art document, as shown in FIG. 1 , a solar cell is provided on the upper part of the sign to collect power, and an LED module at the top of the sign is used to ensure visibility of the sign even at night.

In addition, in the prior art document, when the arrangement direction of the sign is changed according to the direction of the road, a mounting rod is installed on the upper part of the sign as shown in FIG. 1 in order to solve the problem that the power generation efficiency using the solar cell is lowered, By fixing the solar cell to the mounting rod, it was proposed that the orientation of the solar cell could be set according to the site. However, as in the prior art literature, the structure for fixing the solar cell to the mounting rod has a limitation in that it cannot but be vulnerable to wind loads or other external forces as structural integration with the sign is not achieved.

The present invention is firmly integrated with the rectification sign to secure structural stability, and even if the arrangement direction of the sign changes depending on the direction of the road, it can secure the amount of insolation stably, improving the power generation efficiency, and the angle adjustment of the solar cell is automatic / An object of the present invention is to provide an LED lighting fixture for fastening a rectification sign that can be made semi-automatically and a rectification sign having the same.

In order to solve the above technical problem, it relates to a rectification sign having an LED lighting fixture (A) of the present invention, wherein the LED lighting fixture (A) has a frame (F) of a rectification sign in the lower portion of the housing 100 formed elongated in one direction. ) to be seated, a seating groove 120 is formed, and the pivot 110 is fastened so as to be rotatable through the upper end of the frame F provided in the seating groove 120 and the longitudinal center of the housing 100, Both sides of the rectangle of the housing 100 are inclined inwardly downward, and the LED elements 210 of the LED module 200 are exposed on both sides of the rectangle, so that light is focused only on the rectification mark below, and the pivot A support block 130 of a right-angled triangular cross-section having an inclined plane corresponding to the inclination of the side is provided at the center of both sides in the longitudinal direction so that both ends of the 110 are stably fixed, and the upper portion of the housing 100 faces both sides The solar cell 300 formed to be inclined downward is composed of a first module 310 and a second module 320 that have different directions, and the rectification sign frame F is rounded so that the upper end has a predetermined curvature. It is characterized in that the LED lighting fixture (A) formed on the upper end of the rectification sign frame (F) is rotatably fastened by the pivot (110) while being provided in the seating groove (120).

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According to the LED lighting fixture (A) for fastening the rectification sign of the present invention, the center of gravity is formed low by being pivotally fastened to the top of the frame of the rectification sign in a state in which the housing is formed long in one direction, so despite the wind load or other external force applied to the rectification sign and can provide a solid yet structurally stable commutation sign.

In addition, since both rectangular side surfaces of the housing are formed to be inclined inwardly downward, the light of the LED element can be focused on the downward rectifying sign, thereby improving lighting efficiency.

Further, the housing is pivotally fastened to the frame of the rectification sign, and the upper part of the housing is formed to be inclined downwardly toward both longitudinal sides to flexibly adjust the normal direction of the solar cell, so that in the direction of the road Accordingly, even if the arrangement direction of the sign is changed, solar radiation can be stably secured, thereby improving power generation efficiency.

In addition, it is provided with a driving unit that rotates the pivot at a certain angle over time to automatically reflect the optimal angle of insolation, and in particular, the controller determines the rotation angle of the pivot based on the illuminance value of the illuminance sensor. By returning to correspond to the position of the sunrise on the day, there is an effect that the angle can be adjusted automatically on a daily basis.

In addition, a seating groove is formed in the lower portion of the housing so that the frame of the rectification sign can be seated, so that it can be rotated while guiding the rotation to achieve more robust structural integrity and stability.

1 is a side view showing a light attached sign according to the prior art document.
Figure 2 is a perspective view showing an LED lighting fixture according to an embodiment of the present invention.
3 is a conceptual cross-sectional view of an LED lighting fixture according to an embodiment of the present invention.
Figure 4 is a side view showing the operating principle of the LED lighting fixture according to an embodiment of the present invention.
5 is a (a) daytime and (b) nighttime use state diagram showing a rectification sign to which the LED lighting fixture is fastened according to an embodiment of the present invention.

Hereinafter, the LED lighting fixture (A) for fastening the rectification sign of the present invention will be described in detail based on a preferred embodiment based on the matters shown in the drawings.

The LED lighting fixture (A) for fastening the rectification sign of the present invention is formed long in one direction to have a rectangular shape as a whole, and a solar cell 300 is provided on the upper portion of the housing 100, and both sides for emitting light The LED module 200 is provided to give visibility to the rectification sign.

The housing 100 is provided with an LED module 200, a battery for storing power produced by using the solar cell 300 is provided, and according to an embodiment, a controller (C) is provided to provide an illuminance to be described later. The driving unit 400 may be selectively controlled based on the sensor 500 . In particular, the housing 100 is rotatably fastened to the upper end of the frame F of the rectification sign by a pivot 110 .

At this time, the longitudinal direction of the housing 100 is fastened to be arranged in parallel with the rectification sign. Therefore, the pivot 110 is preferably fastened to the longitudinal center of the housing 100, and by forming the upper and lower heights of the housing 100 not high compared to the length, the center of gravity of the overall LED lighting fixture (A) is pivoted ( It is preferable to secure structural stability by forming the same as the fastening portion of the 110 , or at least having the center of gravity formed adjacent to the pivot 110 . Accordingly, it is possible to provide a rectification sign that is strong and structurally stable in spite of a wind load or other external force applied to the rectification sign.

On the other hand, the LED module 200 is provided on both sides of the rectangular housing 100 so that the LED element 210 is exposed. The LED module 200 is provided with an LED element 210 on a PCB substrate on which an electric circuit pattern is printed, and a transparent cover is provided to cover the LED element 210 so that it is exposed to the outside while being exposed to rain or other dust. contamination can be prevented.

In addition, a solar cell 300 is provided on the upper portion of the housing 100, which is advantageous for accommodating solar radiation, to operate the LED module 200 at night by storing power secured by solar power generation in a battery or according to an embodiment. may be used to operate various sensors including the control unit C, the driving unit 400 and other illuminance sensors 500 .

In addition, it is preferable that both rectangular side surfaces of the housing 100 are inclined inwardly downward. Since the LED module 200 is provided on both sides of the rectangle so that the LED element 210 is exposed, light is emitted in the normal direction of both sides inclined downward inward. Accordingly, since the light of the LED element 210 of the LED module 200 can be naturally focused on the rectifying sign below, the lighting efficiency is improved.

At this time, support blocks 130 having a triangular cross-sectional shape are provided on both sides so that the pivot 110 is stably fixed to support both ends of the pivot 110 .

On the other hand, in the case of a stop sign installed at a bus stop, it is generally installed on the roadside, and since the stop sign installed on the roadside must ensure visibility to pedestrians, the normal direction is installed so that the direction is parallel to the road and the sidewalk.

For this reason, when the road is formed in the north-south direction, the stop of the road going north and the stop of the road going south are opposite to each other with respect to the housing 100, so the upper part of the housing 100 may be formed to be inclined downward toward both sides of the longitudinal direction. Accordingly, the LED lighting fixture (A) for fastening the rectification sign of the present invention has a pointed gable upper part as a whole, and the solar cell 300 provided on the upper part also changes the normal direction according to the shape of the gable upper part ( 310) and the second module 320 are preferable.

In addition, when the road is formed in the east-west direction, it is preferable that the housing 100 is inclined toward the south with the pivot 110 as the center in order to form the housing 100 to be inclined toward the south. However, since the LED lighting fixture (A) for fastening the rectification sign of the present invention combines the pivot 110 to the frame (F) of the rectification sign in order to secure structural integrity and stability from wind load or other external forces, the shape of the frame (F) Depending on the situation, rotation may not be possible or the rotation radius may be limited.

In order to solve this problem, a seating groove 120 is formed in the lower portion of the housing 100 of the present invention so that the frame F of the rectification sign is seated, and the upper end of the frame F may be provided in the seating groove 120 . have. At this time, it is preferable that the frame (F) is formed in a rounded shape toward the top so that a certain degree of rotation radius can be secured. In addition, although not shown, it is preferable that the seating groove 120 is formed to have a deeper depth upward toward both ends in the longitudinal direction so that it can be rotated to the center of the pivot 110 more easily.

In the LED lighting fixture (A) for fastening the rectification sign of the present invention, the pivot 110 is positioned in a state in which the upper part of the lounge frame (F) is seated in the seating groove 120 formed in the lower part of the housing 100. Since it is fastened to sequentially penetrate through the frame (F) and the frame (F), it is possible to flexibly adjust the normal direction of the solar cell (300) provided on the upper portion of the housing (100). Accordingly, even if the arrangement direction of the sign is changed according to the direction of the road, it is possible to stably secure the amount of insolation, thereby improving the power generation efficiency.

In addition, since the seating groove 120 can seat the frame F of the rectification sign, it serves as a guide to enable rotation, as well as promotes strong structural integrity and stability.

Meanwhile, a driving unit 400 for rotating the pivot 110 at a predetermined angle over time may be provided inside the housing 100 . That is, high power generation efficiency can be expected by giving the solar cell 300 a continuously changing inclination to ensure an optimal amount of insolation over time. At this time, the driving unit 400 must be provided in a state in which it is relatively fixed to the frame F so that the remaining parts of the LED lighting fixture A fixed to the housing 100 can be integrally rotated around the pivot 110 .

In one embodiment, when the road is formed in the east-west direction, the longitudinal direction of the housing 100 is basically arranged in the north-south direction, but since the year-round altitude of the sun is different, the controller (C) is the year-round altitude stored in the database (D) The angle of the pivot 110 can be automatically controlled to an optimal angle by receiving the information via wired or wireless and operating the driving unit 400 .

In another embodiment, when the road is formed in the north-south direction, since the solar path changes from east to west, the control unit (C) receives the solar path stored in the database (D) by wire or wireless in the same way to operate the driving unit 400 . By operating, the rotation angle of the pivot 100 can be automatically controlled to an optimal angle. However, since the solar path during the day is continuously changed, the driving unit 400 is continuously operated at a fine speed, but must be returned to the original position in a cycle of one day.

To this end, a control unit C is provided inside the housing 100 to move the pivot 110 to the initial position or to the position of sunrise the next day based on the illuminance value measured by the illuminance sensor 500 installed at an arbitrary position. It can be returned to match. That is, when the illuminance value measured by the illuminance sensor 500 falls below a specific value, solar power generation may be determined to be meaningless, so the rotation angle of the pivot 110 is set in advance to correspond to the position of sunrise the next day. return to

Also, when sunrise starts, the driving unit 400 may be operated again when the illuminance value measured by the illuminance sensor 500 rises above a specific value based on the illuminance value.

The LED lighting fixture (A) for fastening the rectification sign of the present invention described above and the rectification sign having the same are those of ordinary skill in the art to which the present invention belongs, without changing the technical idea or essential features of the present invention. It will be understood that it may be implemented in the form

Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive, and the scope of the present invention is indicated by the utility model registration claims to be described later rather than the above detailed description, and the utility model registration claims All changes or modifications derived from the meaning and scope of the concept of equivalents should be construed as being included in the scope of the present invention.

A:LED light fixture F:Stop sign frame
100: housing 110: pivot
120: seating groove 200: LED module
210: LED device 300: solar cell
310: first module 320: second module
400: driving unit 500: light sensor
C: control unit

Claims (5)

delete delete delete delete It relates to a rectification sign equipped with an LED lighting fixture (A),
The LED lighting fixture (A) is,
A seating groove 120 is formed in the lower portion of the housing 100 formed to be elongated in one direction so that the frame F of the rectification sign is seated, and the upper end of the frame F provided in the seating groove 120 and the housing 100 The pivot 110 is fastened to be rotatable through the longitudinal center,
Both sides of the rectangle of the housing 100 are inclined inwardly downward, and the LED elements 210 of the LED module 200 are exposed on both sides of the rectangle, so that light is focused only on the rectification mark below, and the pivot A support block 130 of a right-angled triangular cross-section having an inclined plane corresponding to the inclination of the side is provided at the center of both sides in the longitudinal direction so that both ends of the 110 are stably fixed,
The upper portion of the housing 100 is composed of a first module 310 and a second module 320 in which the solar cells 300 formed to be inclined downwardly on both sides have different directions,
The rectification sign frame (F) is formed in a round shape so that the upper end has a predetermined curvature, and the LED lighting fixture (A) provided on the upper end of the rectification sign frame (F) is pivoted in a state provided in the seating groove (120). A rectification sign with an LED lighting fixture, characterized in that it is rotatably fastened by (110).

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