KR101119884B1 - Optical fiber light inspecting apparatus used rgb led - Google Patents

Abstract

PURPOSE: An inspection device of optics fiber illumination using RGB LEDs is provided to maximize competitive power and to minimize the size of the device. CONSTITUTION: An inspection device of optics fiber illumination using RGB LEDs comprises a red color light optical source section(R), a colored light optical source section(G), a blue colored light optical source section(B), a red filter(11), a blue filter(12), a lens housing(15), a fiber holder(16) and a fiber housing. The red color light optical source section comprises a red LED(1) and a condensing lens(2). The colored light optical source section comprises a LED(3) and a condensing lens(4). The blue colored light optical source section comprises a blue LED(5) and a condensing lens(6). The red filter is formed in the front side of the colored light optical source section. The blue filter is formed in the front side of the blue colored light optical source section.

Description

Optical Fiber Light Inspecting Apparatus Used RGB LED}

The present invention relates to an inspection apparatus for an optical fiber light using an RGB LED, and more particularly, to emit light of various colors to emit light of a color suitable for a product to be inspected. It is possible to irradiate light from a single optical fiber housing by uniting three LEDs (RGB; Red, Green, Blue) LEDs into a single unit Color's light relates to a device for inspecting optical fiber lights using an RGB LED which can simultaneously operate an RGB LED to obtain higher brightness.

Conventionally, red is used as the primary color of light to check for defects such as measurement of a specific part of a product, a pattern of a semiconductor, or a product produced in a solar cell or other industrial field (hereinafter referred to as an inspection object). As the light emitting green, blue light, respectively, it was used as the inspection light suitable for the product of the inspection object.

However, in order to emit light of the white color of the color of the product inspection light, it is necessary to further provide a separate white color lighting, in which case one light is used to provide the light. Because it emits light, the brightness of the light was low, so there was a limit to the rework.

In addition, in order to emit yellow, cyan or magenta color, it is necessary to additionally provide illumination to emit light of such a color. In this case, it was necessary to construct several optical fiber housings.

Therefore, there is a problem that the brightness of the light is low, the operation is cumbersome, the volume as the inspection equipment and the manufacturing cost becomes expensive.

Therefore, the present invention for solving the above problems is three RGB LED (RGB; Red, Green, Blue) LED (LED) for emitting light of various colors in order to emit light of a color suitable for the inspection target product Can be unitized into a single unit so that the light can be irradiated from a single optical fiber housing with a single or synthesized light. The present invention provides an apparatus for inspecting optical fiber lights using an RGB LED that can simultaneously operate LEDs to obtain higher brightness light.

As a means for achieving the object of the present invention, the red color light source unit comprising a red LED (Red LED) for emitting a red color light (Red Color Light) and a condensing lens for condensing the color light (Red Color Light) configured in the inspection apparatus case and And a green color light source unit configured with a green LED for emitting green color light composed of a front side of the red color light source unit, and a condenser lens for condensing color light, and a side surface of the green color light source unit. A blue color light source unit including a blue LED emitting blue color light and a condenser lens that collects color light;

A red filter is formed on the front surface of the red color light source unit and the green color light source unit, and a blue filter is formed on the front surface of the blue color light source unit. The red filter and the blue filter each have a predetermined inclination angle. The lens housing is arranged in a straight line on the filter support, the lens housing is configured to combine the color light synthesis condensing lens in front of the blue color light source unit, and to form a fiber holder in front of the lens housing, the fiber holder has several strands of optical fiber It is a combination of built-in optical fiber housing (Optical Fiber Housing).

According to the present invention, the first unit of three RGB (RGB; Red, Green, Blue) LEDs that emit light of various colors in order to emit light of the color suitable for the inspection object By irradiating the light through the optical fiber of a single optical fiber housing with a single or synthesized light, it is possible to irradiate color light suitable for the characteristics of the object to be inspected. have.

In addition, it is easy to operate and use, it is simple and small as inspection equipment, and the production cost can be reduced and can be provided at low cost, thus maximizing competitiveness.

Second, the white color light, which is used a lot, can simultaneously operate three RGB LEDs (ie, Red LED, Green LED, and Blue LED) simultaneously. You can get the light of brightness.

Third, the condensing lens composed of the red color light source unit, the green color light source unit, and the blue color light source unit, respectively, is composed of the LED small condensing lens and the LED big condensing lens to be overlapped and configured to overlap the light to increase the light condensing power to maximize the brightness of the light. There is an effect such as.

1 is an overall configuration diagram of an "inspection apparatus for an optical fiber light using an RGB LED (LED)" according to the present invention.
2 is a left side view of FIG. 1 in accordance with the present invention;
3 is a plan view of FIG. 1 in accordance with the present invention.
Figure 4 is a cross-sectional view of the main portion of the light source portion in the "inspection apparatus of the optical fiber illumination using the RGB LED (LED)" according to the present invention.
5A to 5F are red LEDs, green LEDs, and blue LEDs, respectively, in the "inspection apparatus of an optical fiber light using an RGB LED" according to the present invention. ) And a red filter and a blue filter can be arranged in various embodiments.
Figure 6 shows the three primary colors of the light in the "inspection apparatus of the optical fiber illumination using the RGB LED (RGB) LED" according to the present invention to explain the characteristics of the light of the three primary colors of the light to synthesize a variety of color light Drawing.

Hereinafter, described in detail with reference to the accompanying drawings shown as a preferred embodiment as follows.

First, specific embodiments of the present invention will be described with reference to FIGS. 1 to 4.

Terms defined in the description of the present invention are defined in consideration of functions and forms in the present invention, and should not be understood as meanings that limit the technical components of the present invention.

The present invention may be modified in various ways and may have various forms, and thus embodiments (or embodiments) will be described in detail in the text. However, this is not intended to limit the present invention to the specific form disclosed, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

In addition, in the drawings, the components are exaggerated in size (or thickness), in size (or thickness), in size (or thickness), or in a simplified form or simplified in view of convenience of understanding. It should not be.

The terminology used herein is for the purpose of describing particular embodiments (suns, aspects, and embodiments) (or embodiments) only and is not intended to be limiting of the invention.

Terms such as those defined in the commonly used dictionaries should be construed as having meanings consistent with the meanings in the context of the related art, and shall not be construed in ideal or excessively formal meanings unless expressly defined in this application. .

As an embodiment of the present invention as shown in Figures 1 to 4 attached to the red LED (Red LED) 1 and color light (Colour Light) for emitting a red color light (Red Color Light) configured in the inspection device case (A) A red color light source unit R configured with a condenser lens 2 for condensing light;

Green color light source unit (G) comprising a green LED (3) for emitting green color light composed of the front side of the red color light source unit (R) and a condensing lens (4) for condensing color light Wow,

A blue color light source unit B including a blue LED 5 emitting blue color light formed on the side of the green color light source unit G and a condenser lens 6 for condensing color light Configure.

As shown in FIG. 4, the red color light source unit R includes a red LED 1 emitting red color light on the support plate 7, and a red LED 1. The condenser lens 2 condenses color light (Colour Light) by the lens housing 8 forward, and the condenser lens 2 doubles the LED small condensing lens 9 and the LED big condensing lens 10 in a double manner. Combination composition is nested.

In addition, the green color light source unit G and the blue color light source unit B are configured in the same manner as the red color light source unit R described above, and the green color light source unit G, which is green only in the LED emitting color light, It consists of a green LED (Green LED) (3) and the blue color light source unit (B) is composed of a blue LED (Blue LED) (5).

A red filter 11 is formed on the front surface of the red color light source unit R and the green color light source unit G, and a blue filter 12 is formed on the front surface of the blue color light source unit B. The red filter 11 and the blue filter 12 are arranged on the filter support 13 in a straight line while having a predetermined inclination angle (preferably 45 °).

The red filter 11 is composed of a glass plate bonded to a red film on both sides, and the blue filter 12 is composed of a glass plate bonded to a blue film on both sides.

The lens housing 15 is configured to combine the color light synthesis condensing lens 14 in front of the blue light source (B), the fiber holder 16 is formed in front of the lens housing 15, the fiber The holder 16 is composed of an optical fiber housing 18 in which several strands of optical fibers 17 are incorporated.

As shown in FIG. 3, the cooling fan 19 is configured, and as shown in FIG. 2, the red LED 1, the green LED 3, and the blue LED 5 are controlled. The control unit C is configured.

The present invention configured as described above will be described the action of emitting by emitting color light suitable for the inspection object.

First, when the inspection is to be performed by the red color light due to the characteristic of the inspection object, the red LED 1 of the red color light source unit R is emitted by irradiation.

In this case, the red color light of the red LED 1 passes through the LED small condenser lens 9 and the LED big condenser lens 10 and is irradiated to the red filter 11 and irradiated to the red filter 11. The red color light passes through the red filter 11, which is the same color as the light, and is irradiated to the front blue filter 12.

The red color light irradiated to the blue filter 12 does not pass through the blue filter 12, which is a color different in nature due to the nature of the light, by the blue filter 12 installed at the predetermined inclination angle. Reflected and irradiated.

The irradiated red color light is irradiated to the inspection object through the optical fiber 17 of the optical fiber housing 16 to perform inspection.

When a yellow color light is required due to the characteristic of the inspection object, when the red LED 1 of the red color light source unit R and the green LED 3 of the green color light source unit G are emitted and irradiated, the red filter 11 The light synthesized in the optical fiber is converted into a yellow color light (see FIG. 6) due to the characteristics of the light, and thus, the optical fiber 17 of the optical fiber housing 18 is passed through the blue filter 12 and the color light synthesizing condenser lens 14. It is irradiated to the inspection object through.

As described above, if red, green, or blue color is required according to the characteristics of the test object, each of the red LEDs (1), green LEDs (3), and blue LEDs (5) may be emitted. If color light is needed, red LED (1) and green LED (3) can be synthesized by emitting light as described above. If color light of cyan color is required, green LED (3) and blue LED (5) are emitted. When the color light of magenta (Magenta Color) is needed, the red LED 1 and the blue LED 5 may be emitted and synthesized (see FIG. 6).

In addition, the red LED 1, the green LED 3, and the blue LED 5 simultaneously emit light in order to obtain a light of a white color mainly used in an inspection object.

In this case, the red color light emitted from the red LED 1 passes through the red filter 11 and is reflected by the blue filter 12 in the direction of the colored light condensing lens 14 as described above, and the green LED 3 The green color light emitted from the light is reflected by the red filter 11 and irradiated to the blue filter 12, and then reflected from the blue filter 12 toward the color light synthesis condensing lens 14, and emitted from the blue LED 5. One blue color light passes through the blue filter 12 and is irradiated toward the color light condensing lens 14. In this case, each of the red, green, and blue color light is synthesized by the blue filter 12 and the color light condensing lens 14 is disposed. When it is irradiated in the direction of the white color (White Color) is converted to the light (see Figure 6), where the white color (White Color) light can be obtained more than three times bright light than that obtained from a single white LED.

The light of white color obtained by synthesizing with red, green, and blue color light as described above is irradiated to the inspection object through the optical fiber 17 of the optical fiber housing 18 having a single structure.

As mentioned above, in order to emit light of a color suitable for a product to be inspected, three RG LEDs (RGB; Red, Green, Blue) LEDs that emit light of various colors are unitized as a single unit. To irradiate light from the optical fiber 17 of a single optical fiber housing 18 with a single or synthesized light, and the white color light, which is commonly used (RGB) LEDs can be operated simultaneously to get higher brightness.

The condensing lenses 2, 4 and 6 respectively configured in the red color light source part R, the green color light source part G, and the blue color light source part B are LED small condensing lenses 9 and LED big condensing lenses 10, respectively. The light is condensed by the LED small condensing lens 9 and condensed by the LED big condensing lens 10 once again to maximize the brightness of the light. .

The control unit (C) for controlling the red LED (1), the green LED (3) and the blue LED (5) (5) controls the light brightness of the LED, the filter support ( 13 supports the red filter 11 and the blue filter 12, and the front lens housing 15 supports and fixes the colored light condensing lens 14 to function as a light passage, and the fiber holder 16 is optical The optical fiber housing 18 is fixed without being separated.

And the present invention is the configuration of each of the red LED (Red LED) 1 and the green LED (Green LED) (3) and blue LED (Blue LED) (5) and the red filter (11) and blue filter (12) 1 to 4 shown above, but the arrangement is an example and can be arranged in a variety of forms as shown in Figures 5a to 5f as well as this arrangement Will belong to the technical scope of the invention.

A: inspection device case B: blue color light source
C: control part G: green color light source part
R: red color light source
1: red LED 2, 4, 6: condenser
3: green LED 5: blue LED
7: support plate 8: lens housing
9: LED small condenser lens 10: LED big condenser lens
11: red filter 12: blue filter
13: filter support 14: colored light synthetic condenser lens
15: lens housing 16: fiber holder
17: optical fiber 18: optical fiber housing

Claims (5)

Red color light source unit R including a red LED 1 for emitting red color light and a condenser lens 2 for condensing color light configured in the inspection device case A Wow,
Green color light source unit (G) comprising a green LED (3) for emitting green color light composed of the front side of the red color light source unit (R) and a condensing lens (4) for condensing color light Wow,
A blue color light source unit B including a blue LED 5 emitting blue color light formed on a side of the green color light source G, and a condenser lens 6 for condensing color light; ,
A red filter 11 is formed in front of the red color light source unit R and the green color light source unit G,
A blue filter 12 is formed on the front surface of the blue color light source unit B,
The lens housing 15 is configured to combine the color light synthesis condensing lens 14 in front of the blue color light source (B),
The fiber holder 16 is formed in front of the lens housing 15, and the optical fiber housing 18 in which the optical fiber 17 is built is coupled to the fiber holder 16. The inspection device of the optical fiber lighting using Algivy LED. The red color light source unit R of claim 1, wherein the red color light source unit R includes a red LED 1 that emits red color light on the support plate 7, and a red LED 1. The condenser lens 2 condenses color light (Colour Light) by the lens housing 8 forward, and the condenser lens 2 doubles the LED small condensing lens 9 and the LED big condensing lens 10 in a double manner. The inspection apparatus of optical fiber illumination using Algibi LED, characterized in that the coupling is configured to overlap. 2. The green color light source part G according to claim 1, wherein the green color light source part G comprises a green LED 3 emitting green color light on the support plate 7, and a green LED 3; A condenser lens 4 condensing color light (Colour Light) by the lens housing (8) in the front, the condenser lens 4 is the LED small condensing lens (9) and LED big condensing lens (10) The inspection apparatus of optical fiber illumination using Algibi LED, characterized in that the coupling is configured to overlap. 2. The blue color light source part B is composed of a blue LED 5 emitting blue color light on the support plate 7 and a blue LED 5. A condenser lens 6 condensing color light (Colour Light) by the lens housing (8) in the front, the condenser lens 6 is the LED small condensing lens (9) and LED big condensing lens (10) The inspection apparatus of optical fiber illumination using Algibi LED, characterized in that the coupling is configured to overlap. The apparatus of claim 1, wherein the red filter 11 and the blue filter 12 are arranged on the filter support 13 in a straight line while having an inclination angle, respectively. .

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