KR102250083B1 - Precision approach path indicator lighting device using optical axis rotation and ellipsoid reflector - Google Patents

Abstract

Disclosed is an approach angle indicator light lighting device using an optical axis rotation and an ellipsoid reflector. The present invention improves a structure of an approach angle indicator light providing an approach angle of an aircraft landing on a runway, and the angle of approach can be easily adjusted through an adjustment of an angle of a light source module. The approach angle indicator light lighting device comprises: a light source module; a reflector; and a plate.

Description

Entrance angle indicator lighting device using optical axis rotation and ellipsoid reflector {PRECISION APPROACH PATH INDICATOR LIGHTING DEVICE USING OPTICAL AXIS ROTATION AND ELLIPSOID REFLECTOR}

The present invention relates to an entrance angle indicator lighting device using an optical axis rotation and an ellipsoid reflector, and more particularly, to improve the structure of an entry angle indicator light that provides an entry angle of an aircraft landing on the runway, and It relates to an entrance angle indicator lighting device using an optical axis rotation and an ellipsoid reflector that can easily adjust the entry angle through angle adjustment.

In general, the Precision Approach Path Indicator (PAPI) refers to a light installed on the outside of the runway to inform whether the angle of entry is appropriate when the aircraft to land is landed.

1 shows an example in which an entry angle indicator is arranged around a runway.

Referring to FIG. 1, the entrance angle indicator light is manufactured in a box shape that illuminates the light of the lamp, and is generally installed on the left, left, and right sides of the runway, 4 boxes each, and 2 boxes each as a simple type.

The pilot can check whether the angle of entry is appropriate not only during the day (about 16 km ahead) but also at night (about 32 km ahead) through the quantity information of the red and white light sources.

Specifically, the pilot can check the landing angle through the instrument panel of the cockpit, but can check the landing angle again through the entry angle indicator light.

2 is an exemplary diagram for explaining a relationship between a ramp color of an entry angle indicator light and an entry descent angle.

From the pilot's point of view, if the aircraft enters at an appropriate entrance level (3°), it is normal if two of the four lamps on the left are white (W) and two on the right are red (R).

In addition, if a lot of white (W) lamps are visible, it means that the entry descent angle for landing is too high, and the pilot must lower the elevation and entry descent angle.

Also, if you see a lot of red (R) lamps, it means that the entry descent angle is too low, and the pilot must raise the elevation and entry descent angle.

On the other hand, in order for the entrance angle indicator to function properly, the elevation of the entrance angle indicator must be properly set.

3 is an exemplary view showing the structure of an entry angle indicator according to the prior art. Referring to FIG. 3, the entry angle indicator 10 is installed on the optical axis 11 and a light source module 12 that outputs white light (W). ) Is installed, a parabolic-shaped reflector 13 that reflects the light output from the light source module 12 and outputs it as parallel light, and the reflector 13 with the optical axis 11 as a center. A red transparent plate 14 that converts part of the reflected light into red light (R), and a lens unit 15 that sets the light distribution angle so that the focus of the red light (R) and white light (R) output as parallel light is converged. The light of which the light distribution angle is changed through the lens unit 15 passes through the focal point 16 so that the white light W and the red light R cross the optical axis 11 and are output.

Such, the entrance angle indicator has a problem that the elevation angle of the entrance angle indicator is changed due to the surrounding environment such as ground subsidence and storm, so that the entrance angle indicator must be managed to maintain an appropriate state on a regular basis.

However, since the entrance angle indicator according to the prior art has to be adjusted (Aiming) the entire lighting device of the entrance angle indicator in order to adjust the elevation angle, maintenance is difficult.

In addition, the entrance angle indicator according to the prior art has a problem in that the configuration of the lighting device is complicated by forming the light distribution angle by using an optical component such as a lens.

In addition, the entry angle indicator according to the prior art uses a plurality of optical components, and thus, there is a problem in that optical loss occurs.

Korean Registered Patent Publication No. 10-1519572 (Name of invention: Entry angle indicator light and its embossing setting method)

In order to solve this problem, the present invention improves the structure of the entry angle indicator light that provides the entry angle of the aircraft landing on the runway, and the optical axis rotation and ellipsoid that can easily adjust the entry angle by adjusting the angle of the light source module. The purpose of this is to provide an entrance angle indicator lighting device using a reflector.

In order to achieve the above object, an embodiment of the present invention is an entrance angle indicator lighting apparatus using an optical axis rotation and an ellipsoid reflector, comprising: a light source module that outputs light; A first focal point f1 and a second focal point f2 are formed, the light source module is installed at the first focal point f1, and the light emitted from the light source module of the first focal point f1 is the second focal point f2. ) A reflector for reflecting to form a path of light moving to; And a plate for converting a part of the light reflected by the reflecting unit to a wavelength and outputting light having an arbitrary color.

The light source module according to the embodiment is rotatably installed at the first focal point f1 so that the optical axis is variable.

In addition, the reflector according to the embodiment is characterized in that it has an ellipsoid shape.

In addition, the first focal point f1 according to the above embodiment is a short axis focal point of the ellipsoid, and the second focal point f2 is a long axis focal point of the ellipsoid.

In addition, the plate according to the embodiment is installed on a path through which light reflected from the reflecting unit moves to the second focal point f2, and is installed between the reflective unit and the second focal point f2.

In addition, the plate according to the embodiment is installed at an arbitrary position passing through the second focal point f2.

In addition, the plate according to the embodiment is characterized in that the wavelength is converted to red and output.

The present invention has the advantage of being able to easily adjust the entry angle through angle adjustment of the light source module by improving the structure of the entry angle indicator light that provides the entry angle of the aircraft landing on the runway.

1 is an exemplary view showing a state in which an entry angle indicator is arranged around a runway.
Figure 2 is an exemplary view for explaining the relationship between the ramp color of the entry angle indicator and the entry descent angle.
Figure 3 is an exemplary view showing the structure of the entrance angle indicator according to the prior art.
4 is an exemplary view showing an entrance angle indicator lighting device using an optical axis rotation and an ellipsoid reflector according to an embodiment of the present invention.
5 is an exemplary view showing the structure of an entrance angle indicator lighting device using an optical axis rotation and an ellipsoid reflector according to the embodiment of FIG. 4.

Hereinafter, the present invention will be described in detail with reference to a preferred embodiment of the present invention and the accompanying drawings, but it will be described on the premise that the same reference numerals refer to the same elements.

Prior to describing specific details for the implementation of the present invention, it should be noted that configurations that are not directly related to the technical gist of the present invention have been omitted within the scope not disturbing the technical gist of the present invention.

In addition, terms or words used in the present specification and claims are meanings and concepts consistent with the technical idea of the invention based on the principle that the inventor can define the concept of an appropriate term to describe his invention in the best way. Should be interpreted as.

In the present specification, the expression that a certain part "includes" a certain component does not exclude other components, but means that other components may be further included.

In addition, terms such as "... unit", "... group", and "... module" mean units that process at least one function or operation, which can be classified into hardware, software, or a combination of the two.

In addition, the term “at least one” is defined as a term including the singular and plural, and even if the term “at least one” does not exist, each component may exist in the singular or plural, and may mean the singular or plural. Will say self-explanatory.

In addition, it will be said that each component is provided in a singular or plural number and may be changed according to embodiments.

Hereinafter, a preferred embodiment of an entry angle indicator light according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

4 is an exemplary view showing an optical axis rotation and an entrance angle indicator lighting device using an ellipsoid reflector according to an embodiment of the present invention, and FIG. 5 is a view showing an optical axis rotation and an ellipsoid reflector according to the embodiment of FIG. 4. This is an exemplary diagram showing the structure of the used entrance angle indicator lighting device.

4 and 5, the entrance angle indicator 100 according to an embodiment of the present invention includes a light source module 110, a reflector 120, and a plate 130.

The light source module 110 is configured to output light, and may preferably be configured as an LED or an LED array that outputs white light.

In addition, the light source module 110 is rotatably installed at the first focal point f1 of the reflecting unit 120 to be described later so that the optical axis C is variable, The path can be configured to be changeable.

The reflecting part 120 has an ellipsoid shape and is composed of only a partial region of the entire shape of the ellipsoid, for example, a quarter of the ellipsoid.

In addition, the reflective part 120 may have a first focal point f1 and a second focal point f2.

In addition, the reflector 120 may have a light source module 110 installed at the first focal point f1, but is not limited thereto, and the light source module 110 may be installed at the second focal point f2. .

In addition, the first focal point f1 of the reflecting unit 120 may be a short axis focal point of the ellipsoid, and the second focal point f2 of the reflecting unit 120 may be a major axis focal point of the ellipsoid.

That is, the reflecting unit 120 reflects the light output from the light source module 110 in which the light source module 110 is installed in the first focal point f1 and is installed in the first focal point f1 The path of light that moves to (f2) is formed.

The plate 130 may be installed on a path in which light output from the light source module 110 and reflected from the reflector 120 moves to the second focal point f2.

In addition, the plate 130 is a configuration for converting a part of light reflected by the reflecting unit 120 to a wavelength and outputting light having an arbitrary color, for example, red, and includes a red light-transmitting member or an arbitrary phosphor. It can also be configured.

That is, the plate 130 allows one of the upper region or lower region half of the light reflected by the reflector 120 to be output in red.

In addition, in the above embodiment, the color of light output from the plate 130 is limited to red, but is not limited thereto, and may be configured to be changed and output in various colors as necessary.

In addition, the plate 130 is installed between the reflecting unit 120 and the second focal point f2, and among the light reflected from the reflecting unit 120, light before passing through the second focal point f2, for example, a drawing Light moving on the upper region of the optical axis C may be converted into red light R and output, and light using the lower region of the optical axis C as a moving path may be output as white light W.

In addition, the plate 130 is installed at an arbitrary position passing through the second focal point (f2), and the light after passing through the second focal point (f2) among the light reflected by the reflector 120, for example, the optical axis in the drawing. Light moving in the lower region of (C) may be converted into red light (R) and output, and light having an upper region of the optical axis (C) as a moving path may be output as white light (W).

Therefore, when the angle of incidence of light incident from the light source module 110 installed at the first focal point f1 is changed when the angle of the entrance angle indicator 100 is adjusted, the reflective area of the light reflected from the reflector 120 is changed. As a result, the light distribution angle of the light output after the second focus f2 is adjusted, so that the entry angle can be easily adjusted.

In addition, by controlling the light distribution angle without an optical component such as a lens in the entrance angle indicator, it is possible to simplify the configuration of the lighting device and prevent the occurrence of light loss due to the optical component.

As described above, although it has been described with reference to a preferred embodiment of the present invention, those skilled in the art will variously modify and change the present invention within the scope not departing from the spirit and scope of the present invention described in the following claims. You will understand that you can do it.

In addition, reference numerals in the claims of the present invention are provided for clarity and convenience of description, and are not limited thereto. In the process of describing the embodiments, the thickness of the lines shown in the drawings, the size of components, etc. May be exaggerated for clarity and convenience of description.

In addition, the above-described terms are terms defined in consideration of functions in the present invention and may vary according to the intentions or customs of users and operators, so interpretation of these terms should be made based on the contents throughout the present specification. .

In addition, even if not explicitly shown or described, a person having ordinary knowledge in the technical field to which the present invention pertains can make various modifications including the technical idea according to the present invention from the description of the present invention. It is obvious, and this still belongs to the scope of the present invention.

In addition, the above embodiments described with reference to the accompanying drawings are described for the purpose of describing the present invention, and the scope of the present invention is not limited to these embodiments.

100: entrance angle indicator
110: light source module
120: reflector
130: plate

Claims (7)

A light source module 110 outputting light;
The first focus f1 and the second focus f2 are formed,
The light source module 110 is installed at the first focal point f1, and the light emitted from the light source module 110 of the first focal point f1 forms a path of light moving to the second focal point f2. A reflective unit 120 that reflects; And
Including; a plate 130 for converting a part of the light reflected by the reflecting unit 120 to a wavelength and outputting light having an arbitrary color,
The light source module 110 is rotatably installed at the first focal point f1 so that the optical axis C is variable, and changes the path of the optical axis C according to the change of the incident angle of the light source module 110 to change the second An entrance angle indicator lighting device using an optical axis rotation and an ellipsoid reflector, characterized in that the entrance angle is adjusted through control of a distribution angle of light output after the focus (f2). delete The method of claim 1,
The reflector 120 is an ellipsoid (Ellipsiod) shape, characterized in that the optical axis rotation and entrance angle indicator lighting device using an ellipsoid reflector. The method of claim 3,
The first focal point f1 is a short axis focal point of the ellipsoid, and the second focal point f2 is a long axis focal point of the ellipsoid. The method of claim 1,
The plate 130 is installed on a path through which the light reflected from the reflector 120 moves to the second focal point f2,
An entrance angle indicator lighting device using an optical axis rotation and an ellipsoid reflector, characterized in that installed between the reflector 120 and the second focal point f2. The method of claim 5,
The plate 130 is an entrance angle indicator lighting apparatus using an optical axis rotation and an ellipsoid reflector, characterized in that installed at an arbitrary position passing through the second focal point (f2). The method of claim 1,
The plate 130 is an entrance angle indicator lighting device using an optical axis rotation and an ellipsoid reflector, characterized in that the wavelength converted to red and output.

Images