KR20070039683A - Lamp apparatus for a induction lamp - Google Patents

Abstract

The present invention is composed of a cover provided with a prism and a main body provided with a power supply inside the aircraft induction lamp installed in the center of the induction furnace, connected in series, the anode and the cathode of the power supply through the end A plurality of power LEDs receiving power to emit light; A metal PCB having a metal heat sink connected to the power LED and configured to be connected to the power LED, the power supply circuit supplying power to the power LED, and dissipating heat generated from the LED when the power LED emits on the other surface where the circuit is formed; A lens housing mounted on an upper side of the power LED to collect light emitted from the power LED and emit the light to the prism of the cover; And a lamp housing fixedly mounted through the same vertical hole formed in the metal PCB and the lens housing, wherein the metal PCB and the lens housing are fixedly mounted while maintaining a predetermined angle; and formed by forming a support under the lens housing. The heat sink formed on the PCB to supply the space and power continuously cools the high heat generated from the lamp, preventing the lamp from being shortened by the high temperature, which in turn extends the lamp life. By using the power consumption can be reduced.

Description

Lamp apparatus for a induction lamp

1 is an exploded perspective view of a lamp for induction lamps according to the prior art,

2a to 2d is a perspective view and an exploded perspective view of the lamp for induction lamps according to the invention,

3A to 3C are lens plan views, front views, and side views of the lamp for induction lamps according to the present invention;

Figure 4a is a perspective view of the lamp for induction lamps according to an embodiment of the present invention,

Figure 4b is a perspective view of a lamp for induction lamps according to another embodiment of the present invention,

Figure 4c is a plan view of the cover mounted when using the lamp of one embodiment of the present invention,

4D is a plan view of the cover mounted when using the lamp according to another embodiment of the present invention,

5 is a minimum / maximum luminance ratio table for the lamp current for induction lamps according to the present invention.

* Description of the symbols for the main parts of the drawings *

110: metal PCB 120: power LED

130: lens housing 131: lens

132: lens support 140: lamp housing

141: inclined portion 142: lamp support

143: housing support H, H ': hole

151: bolt 152: nut

153: plate washer 154: spring washer

160: cable 170: connector

180: prism stopper

The present invention relates to a lamp device for induction lamps, and more particularly, to be installed at the center of the guideway to which the aircraft moves so that the pilot of the aircraft visually recognizes the information of the guideway with the light color change in the center line and section. In addition, the present invention relates to a lamp device for induction lamps, which can reduce power consumption and extend lamp life by using LEDs as lamps.

Conventionally, induction lamps embedded in a runway or an induction furnace are described with reference to FIG. 1 as follows.

The induction lamp is largely composed of a main body and a cover, and the inside of the main body is composed of a power supply and a lamp socket. The lamp socket of the induction lamp is composed of a lamp, a color filter, a socket body, and a detaining piece. (Reference: Utility Model Application No. 20-2004-0037675 (Dec. 31, 2004))

Lamp socket 20 is a socket body 21 formed of a horizontal portion 22 and the inclined portion 23 and a fixed spring 27 mandrel mounted to the horizontal portion 22 of the socket body 21, and On the inclined portion 23 of the socket body 21, a conventional lamp 14, that is, a halogen lamp and a color filter 13 are sequentially mounted, and a detaining piece 30 is placed on the outside of the color filter 13, but the reverse flow The piece is inserted into the inclined portion 23 of the socket body 21.

The socket body 21 mounts the spring fixing piece 26 to the horizontal portion 22 to mount the central portion of the fixed spring 27, forms a hole in the center of the inclined portion 23, and a lamp on one side of the hole. The mounting jaw 24 is formed, and the detention piece mounting jaw 24a is formed on the outside of the lamp mounting jaw 24, and the spring catching groove 25 is formed on the upper side of the inclined portion 23.

The fixed spring 27 is formed by bending the end to form the lever portion 28 so that one side of the lever portion 28 is caught by the spring engaging groove 25 of the socket body 21.

The detention piece 30 forms a light-transmitting part 32 in the center of the detention piece body 31, and protrudes the support members 33, 33a on the upper and lower left and right sides of the outer surface, A filter seating groove 34 is formed and a spring catching groove 35 is formed in the outer corner, and a filter seating groove 24 is formed inside the support hole 33a formed on the upper side and the spring catching groove 35a on the upper side. ) Is formed.

The lamps used as the induction lamps are halogen lamps whose lifespan is not very long, around 500 hours, so the lamps need to be replaced frequently, and the lamp sockets used by the halogen lamps are used. The display should be clearly displayed even in bad weather or dense fog, so the brightness should be very bright. Normal runway induction lamps are 48W to 100W, and their brightness is 100 to 200cd.

The present invention has been made in view of the above conditions, and an object of the present invention is to reduce power consumption by using a plurality of power LEDs instead of halogen lamps used in induction lamps embedded in an induction path in which an aircraft operates. Provides a lamp for induction lamp that can extend the life.

Another object of the present invention is to use a metal PCB, it is possible to efficiently dissipate the high heat generated when the LED is emitted through the metal, and to form a plurality of spaces by maintaining a predetermined distance between the lens housing and the metal PCB surface Provides an induction lamp that can distribute the high heat generated when the power LED emits to the outside.

In order to achieve the above object, the technical means according to the present invention is composed of a cover provided with a prism and a main body provided with a power supply device is embedded in the aircraft guide, etc. installed in the center of the runway or taxiway, A plurality of power LEDs connected to each other, the plurality of power LEDs emitting light by receiving power from a power supply device through an anode end and a cathode end; A metal PCB having a metal heat sink connected to the power LED and configured to be connected to the power LED, the power supply circuit supplying power to the power LED, and dissipating heat generated from the LED when the power LED emits on the other surface where the circuit is formed; A lens housing mounted on an upper side of the power LED to collect light emitted from the power LED and emit the light to the prism of the cover; And a lamp housing fixedly mounted through the same vertical hole formed in the metal PCB and the lens housing, wherein the metal PCB and the lens housing are fixedly mounted at a predetermined angle.

According to the present invention, the high temperature generated in the lamp is continuously cooled through the space formed by forming the support on the lower side of the lens housing and the heat sink formed on the PCB for supplying power, thereby preventing the lamp life from being shortened by the high temperature. As a result, there is an effect of extending the life of the lamp, and also by using the LED can reduce the power consumption.

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

Figure 2a is a perspective view of the lamp for induction lamps, Figure 2b is a plan view of the lamp for induction lamps, Figure 2c is a side view of the lamp for induction lamps, Figure 2d is an exploded perspective view of the induction lamp lamp, metal PCB (110), power LED ( 120, the lens housing 130, the lamp housing 140, and the connecting devices 151, 152, 153, and 154.

Metal PCB (Printed Circuit Board: 110) is to supply the (+) power and (-) power supplied from the power supply (not shown) provided inside the main body to the anode and cathode of the plurality of power LED 120 A power supply circuit is formed, that is, a power supply circuit for supplying (+) power and (-) power to the anode ends of the plurality of power LEDs 120 and the cathode ends of the plurality of power LEDs 120 connected in series. Is formed, and supplies (+) power and (-) power supplied from the power supply to the anode and cathode of the plurality of LEDs 120 through a power supply circuit. A metal heat sink such as aluminum is adhered to the other surface of the surface on which the circuit is formed, so that when the power LED 120 emits light, the aluminum heat sink radiates heat generated from the power LED to the outside. In addition, a cable 160 equipped with a connector 170 is connected to the power supply circuit so as to be connected to a power supply connector (not shown) of the power supply device.

In addition, holes H and H 'are formed at predetermined distances of both edges of the metal PCB 110 to fix the power LED 120, the lens housing 130, and the lamp housing 140.

The power LED 120 is turned on / off corresponding to a control signal of a control device (not shown), and is turned on when power is applied from the power supply according to the control signal of the control device, and is turned off when power is not applied.

In addition, the power LED 120 is composed of a plurality, when applying a current, such as a current applied to one halogen lamp to the plurality of LEDs are to emit light with the same brightness as one halogen lamp, that is, By using the halogen lamp as the rate of change, the same performance as when using the halogen lamp, the power LED brightness is less than the minimum rate of change of the reference luminance level for each step as published by the Federal Aviation Administration (FAA). The minimum luminance change rate and the maximum luminance change rate according to the current applied to the lamp for induction lamps are shown in FIG. 5.

5 is the minimum / maximum luminance according to the current, the conventional induction lamp lamps increase the brightness of the lamp in the order of three steps, such as the current of 4.8A, the current of 5.5A, the current of 6.6A, a plurality of power LED The present invention used increases the brightness of the lamp in the order of a total of five steps, such as 2.8A current, 3.4A current, 4.1A current, 5.2A current, 6.6A current.

The lens housing 130 includes a plurality of lenses 131 and a lens support 132, and the centers of the plurality of lenses 131 are formed on the same vertical line as the centers of the plurality of power LEDs 120. Accordingly, the plurality of lenses 131 collects the light emitted from the power LEDs corresponding to the centers of the lenses and emits light to the prism (not shown) provided in the cover, and the lens support 132 of the lens housing 130 Since the bottom surface of the lens housing 132 is not formed, that is, the surface of the lens housing 130 and the metal PCB 110 is formed at a predetermined size, a space portion is formed at a predetermined interval so that the outside air flows. Be sure to Detailed structure of the lens housing will be described with reference to FIGS. 3A to 3D.

The lamp housing 140 is for mounting the lamp in a state of maintaining an inclination angle, and includes an inclination part 141, a lamp support 142, and a housing support 143, and an inclination part formed in a state of maintaining a predetermined angle. The power LED 120, the lens housing 130 and the metal PCB 110 is fixedly mounted on one surface, and at the same time, a lamp support 142 is formed on the lower side of the inclined portion 141, so that the metal PCB 110, The power LED 120 and the lens housing 130 are sequentially mounted to span.

In addition, the inclined portion of the lamp housing 140 has a hole formed on the same vertical line as the holes (H, H ') formed in the metal PCB 110 and the lens housing 120 is inclined by connecting to the connecting device through the hole. The metal PCB 140 and the lens housing 130 may be fixedly mounted on the portion.

In addition, the other side of the inclined portion 141 of the surface on which the metal PCB 110, the power LED 120 and the lens housing 130 is mounted, the triangular pillar-shaped housing support 143 is formed with the same angle as the angle formed by the inclined surface ) Is formed. The bottom of the triangular prism is formed with a plurality of holes, and the prism stopper 180 formed on the same vertical line as the hole is connected to a prism stopper (Prism Stopper 180) by connecting with a connecting device such as a bolt. 180) can be fixedly mounted.

The connecting device is fixedly mounted to the lamp housing by connecting the metal PCB, the power LED 120, the lens housing 130 and the lens housing 130 through the same vertical hole formed in the lamp housing 140. Device. In general, the connecting device is a bolt 151 and a nut 152, the bolt through the hole formed in the lens housing, the metal PCB and the lamp housing lamp is connected to the nut at the bottom of the lamp housing, the bottom of the lamp housing Between the nut and the nut is a round, thin metal plate that is placed under the nut when the lamp housing is opened, usually made of metal, such as a nut, when the clamped surface is not flat, or when only the nut is used to create a groove in the surface, Plate washers (153) are used, for example, when the nut is dug into the soft case.

In addition, between one side of the lamp housing and the nut, when the nut is loosened due to vibration and the nut comes out, bend one end of the washer and press the nut to prevent the nut from loosening. 154) also springs the washer, preventing the nut from loosening.

Figure 3a is a plan view of the lens housing provided in the induction lamp, the lens housing 130 is made of a material such as acrylic, the upper surface is a rectangular flat plane, inserting a connecting tool such as bolts at both ends in the horizontal direction Holes H and H 'are formed to be possible, and the two holes are divided into a plurality of predetermined areas corresponding to the plurality of power LEDs 120, and a lens is formed in each area inside the lens housing. The center of each lens is on the same vertical line as the center of each power LED.

Figure 3b is a front view of the lens housing, a hole (H, H ') for inserting a connection tool such as a bolt is formed at a predetermined distance from both corners, the upper surface is divided into a plurality of areas having a predetermined size. A plurality of lenses 131 bonded to the image side surface are formed in each region, and the front surface of the lens housing is formed in a trapezoid with both angles forming a predetermined angle.

In addition, each of the plurality of lenses is hemispherical having an image-side surface and a curvature radius of about 8 mm, and each region where the lens is formed is about 9 mm.

In addition, a lens support 132 is formed on a bottom surface of the lens housing in which the plurality of lenses are not formed. That is, the lens support 132 is integrally formed with the lens housing 130 so that the angle is approximately a predetermined angle (a). It is formed in a trapezoidal shape that maintains 3 ㅀ, and the lens support 132 is also connected to the holes H and H ', that is, a hole is formed on the same vertical line as the hole of the lens housing.

Due to the lens support 132, a space portion having a predetermined distance is formed on the surface of the metal PCB 110 and the bottom surface of the lens housing 130, and the formed space portion is configured to receive high heat generated when the plurality of power LEDs 120 emit light. Release to outside air and distribute.

Figure 3c is a side view of the lens housing, the side of the lens housing consists of a trapezoidal shape with both sides of the upper side and a predetermined angle (a) of about 3 degrees, the lens support 132 formed on the lower side of the lens housing It consists of a rectangle having a transverse length less than the length of the upper side of the trapezoid.

That is, when the lens support 132 and the lamp housing 140 is assembled, the lens housing 130 is maintained in close contact with the metal PCB 110 as shown in FIG. 2C. Therefore, even if high heat is generated in the lamp, the outside air is circulated through the space portion, thereby cooling the high heat continuously.

Figure 4a is a perspective view of a lamp for induction lamps according to an embodiment of the present invention, Figure 4b is a perspective view of a lamp for induction lamps according to another embodiment of the present invention, Figure 4c is mounted when using the lamp of an embodiment of the present invention Cover top view, Figure 4d is a cover top view mounted when using the lamp according to another embodiment of the present invention.

The lamp illustrated in FIG. 4A and the cover 300 illustrated in FIG. 4C are guide lamps and covers embedded in a center of a straight runway or an induction furnace, and the first lamp 100 and the second lamp 200 are prism stoppers. The first lamp 100 and the second lamp 200 are mounted in an inclined state while maintaining a predetermined angle at 180, and are mounted in parallel with each other so that the first lamp 100 and the second lamp 200 are mounted in parallel with each other. It is installed as a landfill and is used as a guide light during takeoff and landing of an aircraft.

On the other hand, the lamp shown in FIG. 4B and the cover 400 shown in FIG. 4D are the first lamp 100 and the second lamp 200 with the lamp and cover embedded in the center of a curved (ie, curved) runway or taxiway. ) Is mounted on the prism stopper 180 in an inclined state while maintaining a predetermined angle, and at the same time, the first lamp 100 and the second lamp 200 form a wider gap between the two lamps, that is, a 'V' shape. It is installed in the center of curved runway or taxiway and used as guide light during takeoff and landing of aircraft.

   The present invention is not limited to the above-described embodiments, and various changes can be made by those skilled in the art without departing from the gist of the present invention as claimed in the following claims.

As described in detail above, the life of the lamp is shortened by the high heat by continuously cooling the high heat generated in the lamp through a space formed by forming a support under the lens housing and a heat sink formed on the PCB for supplying power. Can be prevented, which in turn has the effect of extending the life of the lamp, and can also reduce the power consumption by using the LED.

Claims (6)

In an aircraft guide light consisting of a cover provided with a prism and a main body provided with a power supply embedded in the center of the runway or taxiway, A plurality of power LEDs connected in series and connected to each other and receiving power from a power supply device through an anode and a cathode; A metal PCB having a metal heat sink connected to the power LED and configured to be connected to the power LED, the power supply circuit supplying power to the power LED, and dissipating heat generated from the LED when the power LED emits on the other surface where the circuit is formed; A lens housing mounted on an upper side of the power LED to collect light emitted from the power LED and emit the light to the prism of the cover; And And a lamp housing fixedly mounted through a hole in the same vertical line formed in the metal PCB and the lens housing, wherein the metal PCB and the lens housing are fixedly mounted while maintaining a predetermined angle. The method of claim 1, wherein the lens housing A plurality of lenses formed in a predetermined area corresponding to the power LEDs, the centers being formed on the same vertical line as the center of the power LEDs, and having a radius of curvature of a predetermined size; And An inductive lamp lamp device, characterized in that formed on the lower two sides in a predetermined size, the lens support to form a space portion in a state maintained a predetermined distance on the bottom surface and the metal PCB surface. The method of claim 1, wherein the lamp housing, An inclined portion formed to have a predetermined angle with a horizontal surface to fix the lens housing and the metal PCB; A lens support formed on the lower side of the inclined portion to cover the lens housing and the PCB; And And a surface having a same angle as a predetermined angle formed by the inclined portion, and having a plurality of holes formed at a bottom thereof, the housing support having a triangular prism shape fixed to the main body. The method of claim 1, The lens housing, the metal PCB and the lamp housing is fixed to the lamp device for induction lamps, characterized in that the bolt and nut through a plurality of holes formed on the same vertical line. The method of claim 1, The lamp housing, the metal PCB and the lamp housing is fixed to the two lamps mounted in parallel to the main body and installed in the center of a straight runway / induction road lamp device for use. The method of claim 1, The lamp housing, the metal PCB and the lamp housing is fixed to the two lamp lamps are mounted in the 'V' shape on the main body, the lamp device for induction lamps, characterized in that the installation used in the center of the curved runway / guideway.

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