KR101087669B1 - Unserviceable areas light using solar cell - Google Patents

Abstract

PURPOSE: An unserviceable areas light using a solar cell is provided to reduce the capacity of a battery by using an LED having high efficiency as a light source. CONSTITUTION: In an unserviceable areas light using a solar cell, a solar cell portion(10) comprises a secondary battery. The solar cell portion stores electricity. A light sensor(20) is installed in the printed circuit board of a driving part(30). The light sensor senses the illuminance of sunlight. A light source(40) is installed in the top end of a lamp body. The light source includes the LED. An automatic / manual configuration switch(50) controls the light from the light source regardless of the illuminance of the sunlight.

Description

Unserviceable areas light using solar cell}

The present invention relates to a solar cell prohibited area, and more particularly, to slim and light weight by reducing the capacity of the battery using an LED light source to prohibit the access of the aircraft due to construction, such as in the runway, taxiway or mooring area. It is about solar cell-type prohibited area.

It is a lighting device installed to inform the aircraft of unused areas in the aerodrome when it is necessary to prohibit the access of the aircraft due to construction work on the runway, taxiway or mooring area.

The runway under construction is disconnected from the ground due to the digging of the ground and the power line connected to the commercial power source is disconnected.

Therefore, since power lines must be newly installed on the ground to supply power, it is necessary to install power lines to avoid the runway in use, which requires a lot of provisional equipment, and the power lines may be broken again by passing vehicles.

It is necessary to install a temporary light that avoids the danger of installing a power line on the ground to install a prohibited area on a connecting road leading to a closed runway.

If the lamp installed in the airport is damaged in Korean Patent No. 10-0959320 (name of the invention: mobile aviation light), it is difficult to replace it with another one immediately. Is initiated.

1 is an exploded perspective view showing the configuration of a conventional mobile aerial light.

A heat dissipation unit 1 having a columnar portion formed in a square cylinder shape; A light emitting diode module (2) coupled to each of a plurality of side surfaces of the pillar portion formed in a plural and formed in a cylindrical shape to generate two different light wavelengths; A light shielding plate (3) installed in the heat dissipation unit to distinguish the two light wavelengths from each other; A lamp hole 2a through which the light emitting diode module 2 is exposed, and a case 4 to which the heat dissipation unit 1 is coupled; And a dome lens 5 formed of a transparent material through which light is transmitted and coupled to the case 4 so as to cover the light emitting diode module. In the mobile aviation equalization is formed including a, the light shield plate 3 is formed across the plane of the center line overlapping the two light wavelengths, the light shield plate 3 is a plane of the center line on which the two light wavelengths overlap A side light shielding portion 6 formed across; And an upper light blocking part 7 formed integrally with the side light blocking part 6 and formed on the light emitting diode module.

When the conventional portable aviation lamp generates white light and yellow light at the same time in one lamp, the wavelengths of the white light and the yellow light overlap with each other to generate different wavelengths, so that the operator of the aircraft or the airport officials can use the color generated by the mobile aviation light. In order to solve the problem of difficulty in operating the aircraft by mistake, the side shading part and the upper shading part are used, but it cannot be used as a prohibited area indicating the prohibited area.

The present invention was devised to solve the above problems, and an object of the present invention is to make it difficult to use a power source and to change the location from time to time in order to prohibit the access of an aircraft due to construction in a runway, taxiway, or mooring area. It is to provide solar cell prohibited area which can be used conveniently in construction section.

Another object of the present invention is to provide a solar cell prohibition area configured to reduce the capacity of the battery and to be slim and lightweight by using a high efficiency LED as a light source.

Still another object of the present invention is to provide a solar cell prohibition zone configured to reduce the capacity of the battery and to be slim and light by using a highly efficient LED as a light source.

Solar cell type prohibited area of the present invention for achieving the above technical problem is to generate electricity by receiving light from the sun to supply electricity and at the same time equipped with a secondary battery to store electricity in the absence of the sun Wow; A light detecting unit for detecting illuminance of solar light; A light source unit including an LED for generating light by electricity supplied from the solar cell unit; An automatic illuminance setting switch for automatically setting illuminance to automatically generate light from the light source unit when the illuminance of the solar light is greater than a predetermined illuminance; When solar light is greater than the illuminance set by the automatic illuminance setting switch, the electricity generated from the solar cell unit is cut off from the light source, and when the solar light is less than the illuminance set by the auto illuminance setting switch, the electricity generated by the solar cell unit A driving unit for controlling driving to supply light to the light source unit to generate light; The solar cell unit and the light sensing unit are attached to each other, and include the driving unit therein, and the body unit supports the light source unit from below.

According to an embodiment of the present invention, regardless of the automatic illuminance setting set in the auto illuminance setting switch, a manual switch for supplying electricity generated from the solar cell unit to the light source unit and continuously generating an electric signal to generate light from the light source unit It is characterized by further comprising.

According to an embodiment of the present invention, the solar cell unit is fixed to the back body so that the solar panel generates electricity by receiving light from the sun and the solar panel adjusts the angle of the solar panel to efficiently receive light from the sun. It is characterized by consisting of a fixing bracket.

According to an embodiment of the present invention, the fixing bracket has a screw hole to fix the solar panel with screws on the left and right sides of the back body part, and the lower screw hole has a rotation radius r so that the fixing bracket can rotate around the upper screw. Is formed in a length of about 45 ° along the arc of the solar panel is characterized in that it is configured to rotate up and down in the range of approximately 45 °.

According to an embodiment of the present invention, the lower screw hole is formed in a length of approximately 45 ° along an arc of a rotation radius r so that the fixing bracket can rotate around the upper screw so that the solar panel is vertically up and down in the range of approximately 45 °. It is characterized in that it is configured to rotate.

According to an embodiment of the present invention, the lower part of the back body is formed to be thinner than other parts so as to be broken by an external impact, so that even if there is a collision of the aircraft, the outer plate of the aircraft can be damaged without damaging the outer plate of the aircraft. It characterized in that it is configured to have a strength of about 30% than the strength of.

According to an embodiment of the present invention, the lower support disc of the light source unit may be used as an induction furnace by replacing the lower support disc including an LED unit which is fastened by a screw to the upper part of the back body and releases the screw to emit blue light. It is characterized by.

According to the present invention, by using the LED light source to reduce the access of the aircraft due to the construction in runway, taxiway or mooring area, and slimmer and lighter by reducing the capacity of the battery to carry on the construction site where commercial power is not available It can be used as a prohibited area to indicate the prohibited area by installing it, and can be used as an induction furnace lighting by changing the light source part to a blue LED light source.

1 is an exploded perspective view showing the configuration of a conventional mobile aviation light;
Figure 2 is a block diagram showing the configuration of a solar cell prohibited area, etc. according to an embodiment of the present invention,
Figure 3 is a side view showing the side of the solar cell-type prohibited zone and the like according to the present invention,
Figure 4 is an enlarged side view of the lower screw hole formed to rotate the fixing bracket according to the present invention,
5 is an exploded perspective view of an upper lamp constituting a light source unit such as a solar cell prohibition zone according to the present invention.

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

Figure 2 is a block diagram showing the configuration of the solar cell prohibited zone, etc. according to an embodiment of the present invention.

Solar cell type prohibited area according to the present invention is installed outside the middle of the back body portion 60, receives light from the sun to generate electricity to supply electricity and at the same time equipped with a secondary battery to provide electricity in the absence of the sun Solar cell unit 10 for storing the; The illuminance of the solar light is sensed through the illuminance detection hole 63 installed in the printed circuit board 31 of the driving unit 30 installed in the back body 60 and formed in the outer bottom of the back body 60. A light sensing unit 20; A light source unit 40 installed at an upper end of the back body unit 60 and including an LED for generating light by electricity supplied from the solar cell unit 10; The solar light when the switch is switched to the automatic illuminance adjustment operation and manual operation that automatically operates to generate light from the light source unit 40 when the illuminance of the solar light detected by the light sensing unit 20 is equal to or greater than a predetermined predetermined illuminance. An automatic / manual setting switch 50 for adjusting light to be emitted from the light source unit 40 regardless of illuminance of the light source unit 40; When solar light is above the predetermined illuminance, the electricity generated by the solar cell unit 10 is cut off from supply to the light source unit 40, and when the solar light is below the preset illuminance, the solar cell unit 10 A driving unit 30 which supplies the generated electricity to the light source unit 40 and controls the driving so that light is generated; The solar cell unit 10 and the light sensing unit 20 are attached to the outside and the inside, respectively, and include a driving unit 30 to which the light sensing unit 20 is attached, and the light source unit 40 from below. It consists of a body 60 to support.

In addition, when the automatic / manual setting switch 50 is switched to the manual switch state, the driving unit 30 receives the manual switch “on” state signal and the solar cell unit 10 receives the automatic operation illuminance. The generated electricity may be supplied to the light source unit 40 to continuously generate light from the light source unit 40.

Figure 3 is a side view showing the side of the solar cell-type prohibited zone and the like according to the present invention.

The solar cell unit 10 allows the solar panel 11 to generate electricity by receiving light from the sun and the solar panel 11 to adjust the angle of the solar panel 11 to efficiently receive light from the sun. It consists of a fixing bracket (12).

The fixing bracket 12 has screw holes 13a and 13b to fix the solar panel 11 to the left and right sides of the back body 60 with screws 14a and 14b.

The lower screw hole 13b is formed to have a length of approximately 45 ° along the arc of the rotation radius r so that the fixing bracket 12 can rotate around the upper screw 14a, as shown in FIG. 4. 11) is configured to be able to rotate up and down in the range of approximately 45 °.

Therefore, when the sun's altitude changes according to the season, the fixed bracket 12 is rotated according to the sun's altitude to change the inclination angle of the solar panel 11 so that the sun light can be shined on the solar panel 11 at a right angle. have.

The lower fracture portion 61 of the back body portion 60 is formed to be thinner than other portions so as to be broken by an external impact as shown in FIG. Therefore, even if there is a collision of the aircraft to have a strength of about 30% than the strength of the outer shell of the aircraft so that the body portion 60 itself can be damaged without damaging the outer shell of the aircraft.

5 is an exploded perspective view of an upper lamp constituting a light source unit such as a solar cell prohibition zone according to the present invention.

The upper lamp body of the light source unit 40 according to the present invention includes a lower support disc 41 which is provided with a light bulb support 44 for supporting the LED unit 42 as a light source and is covered on the upper part of the back body 60; A bulb support (44) installed on an upper surface of the lower support disk (41) to support the LED unit (42) as a light source and to release heat; A driving circuit board installed at an inner side surface of the bulb support 44 to absorb heat generated from the LED unit 42 to be transferred to the bulb support 44 and to drive a circuit for driving the LED unit 42. 43; An LED unit 42 installed on the driving circuit board 43 to receive electricity from the solar cell unit 10 and to emit light; A glove 46 installed on the lower support disc 41 to cover the bulb support 44 to protect the LED unit 42 from an external environment; It is composed of a sealing ring 45 for sealing so that airtightness is maintained between the glove 46 and the lower support plate 41.

Lower support disk 41 according to the present invention is configured in the form of a disc is covered on the upper back of the body portion 60, is fastened and fixed by a screw (41a). The upper surface of the lower support disk 41 is provided with a light bulb support 44 for supporting the LED portion 42 as a light source and is formed with a sealing ring groove 41c into which the sealing ring 45 is fitted.

The bulb support 44 has a rectangular box shape with a closed back side, and is fastened and fixed to the upper surface of the lower support disc 41 by a screw 44a to absorb heat generated from the LED unit 42 as a light source. To release.

The driving circuit board 43 is fixed to the inner side of the rear surface of the bulb support 44 by the screw 43a, and the LED unit 42 serving as the light source is attached to the driving circuit board 43. The driving circuit board 43 is made of a material such as a conductor capable of absorbing heat generated from the LED unit 42 and transferring it to the bulb support 44.

The LED unit 42 includes an LED which is a light source, and receives electricity from the solar cell unit 10 to emit red light. The minimum average luminous intensity is 10 cd or more and the measured luminous intensity range is ± 10 ° in the horizontal direction and 0-10 ° in the vertical direction.

Since the lower support disc 41 of the light source unit 10 according to the present invention has a structure that is fastened and fixed by the upper portion of the back body portion 60 by a screw 41a, the LED 41 which releases the screw 41a and emits blue light. It can be used as an induction furnace equalization by replacing with a lower support disc 41 including the portion 42.

 The light detector 20 includes a photoconductive element CDS or a silicon photodiode capable of detecting visible light, and detects illumination of sunlight by generating an electrical signal whose intensity varies according to illumination of sunlight. To the drive unit 30.

When the illuminance of the solar light detected by the light sensing unit 20 is less than or equal to the preset illuminance, for example, when the sun light is less than or equal to the set illuminance at dawn, the driving unit 30 generates electricity generated by the solar cell unit 10. By supplying the light source unit 40 to generate an aeronautical red light in the LED unit 42 to indicate an access prohibited area to the pilot of the aircraft to prevent the aircraft from accessing the construction area in advance to prevent accidents have.

10: solar panel 11: solar panel
12: fixing bracket 13a, 13b: screw hole
20: light sensing unit 21: semi-circular tongs
30: drive unit 40: light source unit
41: lower support disk 42: LED part
43: drive circuit board 44: bulb support
45: sealing ring 46: glove
50: automatic / manual setting switch 60: back body
63: illuminance detection hole

Claims (7)

Solar cell unit 10 for receiving electricity from the sun to generate electricity to supply electricity and at the same time equipped with a secondary battery to store electricity in the absence of the sun;
The illuminance of the solar light is sensed through the illuminance detection hole 63 installed in the printed circuit board 31 of the driving unit 30 installed in the back body 60 and formed in the outer bottom of the back body 60. A light sensing unit 20;
A light source unit 40 installed at an upper end of the back body unit 60 and including an LED for generating light by electricity supplied from the solar cell unit 10;
Automatic light adjustment operation that automatically operates to generate light from the light source unit 40 automatically when the illuminance of the sun light is equal to or greater than a predetermined predetermined illuminance and the light source unit 40 regardless of the illuminance of the sun light when switching to manual operation. An automatic / manual setting switch 50 for adjusting light to be generated;
When solar light is above the predetermined illuminance, the electricity generated by the solar cell unit 10 is cut off from supply to the light source unit 40, and when the solar light is below the preset illuminance, the solar cell unit 10 A driving unit 30 which supplies the generated electricity to the light source unit 40 and controls the driving so that light is generated;
The solar cell unit 10 and the light sensing unit 20 are attached to the outside and the inside, respectively, and include a driving unit 30 to which the light sensing unit 20 is attached, and the light source unit 40 from below. Solar cell type prohibited zone, characterized in that consisting of the body portion 60 to support. The method of claim 1, wherein when the automatic / manual setting switch 50 is switched to the manual switch state, the driving unit 30 receives the electricity generated from the solar cell unit 10 regardless of a preset automatic operating illuminance. The solar cell-type prohibition zone, etc., characterized in that the electric signal is generated to supply light to the light source unit 40 to continuously generate light from the light source unit 40. The solar cell panel 11 of claim 1, wherein the solar cell unit 10 receives solar light from the sun to generate electricity and the solar cell panel 11 to efficiently receive light from the sun. Solar cell type prohibited zone, characterized in that consisting of a fixing bracket 12 fixed to the back body portion 60 to adjust the angle of the. According to claim 3, The fixing bracket 12 is provided with screw holes (13a, 13b) to fix the solar panel 11 to the left and right sides of the back body portion 60 with screws (14a, 14b), The lower screw hole 13b is formed to have a length of approximately 45 ° along an arc of a rotation radius r so that the fixing bracket 12 can rotate about the upper screw 14a, so that the solar panel 11 is approximately 45 °. Solar cell type prohibited zone, characterized in that configured to rotate up and down in the range of. The lower screw hole 13b is formed in a length of approximately 45 ° along an arc of a rotation radius r so that the fixing bracket 12 can rotate about the upper screw 14a. 11) is a solar cell prohibited zone, characterized in that configured to be able to rotate up and down in the range of approximately 45 °. According to claim 1, wherein the lower break portion 61 of the back body portion 60 is formed to be thinner than other portions so as to be broken by an external impact so that even if there is a collision of the aircraft does not damage the outer plate of the aircraft Solar cell banned area, characterized in that configured to have a strength of about 30% of the strength of the outer shell of the aircraft so that it can be damaged. According to claim 1, wherein the lower support disc 41 of the light source unit 10 is fastened by a screw 41a on the upper body portion 60, the LED portion to release the blue light by releasing the screw (41a) Solar cell type prohibited area, etc., characterized in that it can be used as an induction furnace equalization by replacing with a lower support disc 41, including (42).

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