KR101836673B1 - New concept compensation led structures for compensating ambient light - Google Patents

Abstract

The present invention relates to a reverse mounting structure of a disturbance light compensating LED and has a structure for preventing compensation light for compensating for disturbance light from flowing out to the outside, do.
More specifically, a PCB substrate 10 on which a light intensity adjusting hole 11 is formed; A compensating LED 30 mounted on a bottom surface of the PCB 10 to emit compensation light in a downward direction; A reflection plate 20 positioned below the compensation LED 30 to receive the compensation light and reflect the incident compensation light; And a light receiving diode (40) provided on a rear side of the light intensity adjusting hole (11) in the upper surface of the PCB substrate (10) and configured to receive light for compensation in the direction of the light intensity adjusting hole (11). And a reverse mounting structure of the disturbance light compensating LED.
According to the present invention, when the compensation light emitted from the compensation LED 30 passes through the hole 11 for adjusting the light intensity -> incident on the reflection plate 20 -> reflected in the direction of the light intensity adjusting hole 11 Reflection-light receiving diode 40, thereby preventing the compensation light from leaking to the outside.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a novel compensation LED structure for compensating disturbance light,

The present invention relates to a reverse mounting structure of a disturbance light compensating LED and has a structure for preventing compensation light for compensating for disturbance light from flowing out to the outside, .

More specifically, a PCB substrate 10 on which a light intensity adjusting hole 11 is formed; A compensating LED 30 mounted on a bottom surface of the PCB 10 to emit compensation light in a downward direction; A reflection plate 20 positioned below the compensation LED 30 to receive the compensation light and reflect the incident compensation light; And a light intensity adjusting hole (11) provided on a top surface of the PCB substrate (10) so as to be capable of receiving light for compensation as a position adjacent to the light intensity adjusting hole (11) And a light receiving diode (40) configured to receive the received light.

According to the present invention, the compensation light emitted from the compensation LED 30 is incident on the reflection plate 20, reflected toward the light intensity adjustment hole 11, passes through the light intensity adjustment hole 11 Reflected light is received by the light receiving diode 40, thereby preventing the compensation light from being leaked to the outside.

A sensor is generally referred to as a device which directly contacts an object to be measured or does not contact the object in the vicinity of the object to acquire data and transmits necessary information to the signal.

In particular, proximity sensor (proximity sensor) is one of the sensors that obtain the necessary information in a non-contact manner near the object, which functions to sense the position of a nearby object.

Such a proximity sensor is mainly composed of an optical sensor emitting and receiving light. Due to the development of technology, the optical sensor is developed in the form of a rain sensor which senses drops falling on the sensor.

In the case of the proximity sensor for sensing the position of the object described above, the light is emitted in the object direction, and the light reflected and received by the object is received to perform information processing. In the case of the rain sensor, It is possible to sense that the water drops have fallen in accordance with the amount of light that is transmitted and reflected by the water drops.

However, since the proximity sensor or the rain sensor (hereinafter, referred to as 'optical sensor') uses light, the following problems exist.

Since a light receiving diode that receives light responds to light in all wavelength regions, it affects the light recognition of the light receiving diode if other light exists in the surrounding environment. Accordingly, it is difficult to apply the optical sensor in a place where an external light source (disturbance light) exists.

In order to overcome such a problem, recently, a technology has been developed in which a light is emitted to a light source or a light is filtered by using a wavelength of a certain region band. However, when disturbance light is too strong, have.

Accordingly, in recent years, a technique has been developed for removing the influence of disturbance light and irradiating light for compensation to the light receiving diode.

The technique of irradiating the above-mentioned compensation light is structured as shown in Fig. 2 of the accompanying drawings.

Referring to FIG. 2, the irradiation of the compensation light is typically performed by emitting a light for compensation at the side of the light receiving diode as in (a), or by emitting light for compensation as shown in (b) The light receiving diode receives the light for compensation or the light receiving diode reflects the light for compensation into a specific configuration as shown in (c) to guide the light for compensation.

However, in the case of the configuration in which the compensation light is emitted from the side of the light receiving diode as in (a), there is a problem that a large change occurs in the process due to the alignment problem between the diaphragm to which the first compensation light is transmitted and the compensation LED. There is a fear that light is not received by the light receiving diode but flows out to the outside, and interference with the other light (light of the light emitting diode) may occur.

Further, in the case of a configuration in which the compensation light is emitted upward as shown in (b), and the compensation light is received by the light receiving diode through the reflection plate, the compensation light not reflected through the reflection plate flows out, There is a possibility of generating.

Finally, in the case of a configuration in which the compensation light is guided to the light receiving diode by reflecting the compensation light into a specific configuration as shown in (c), a structural change is generated according to the thickness variation of the first specific configuration, And the amount of compensation light that can be applied according to the second thickness variation is limited, so that there is a problem in that a linear change (intensity control) is difficult to the amount of compensation light.

On the other hand, the present applicant has filed and filed a patent application No. 10-1414050 for a package structure and method for removing the influence of disturbance light of an optical sensor.

The above description can be referred to FIG. 1 of the accompanying drawings.

1, in the optical sensor structure including the light-emitting element 11, the light-receiving element 12 and the compensation element 13 for emitting light to the light-receiving element for correcting the operation signal of the light-receiving element, A compensation element 13 is disposed in an optical waveguide 100 for guiding light emitted from the element 13 to the light receiving element 12 and a first light transmitting resin layer 15 A first optical waveguide portion A to which the first optical waveguide portion A is applied; A second optical waveguide part (B) on which a light receiving element (12) is arranged and on which a second transparent resin layer (15 ') is applied on the upper surface and side surfaces of the light receiving element; And a light path disposed between the first optical waveguide portion A and the second optical waveguide portion B and communicating the first optical waveguide portion and the second optical waveguide portion,

Wherein the light emitted from the compensation element 13 is incident through the light path of the shielding wall 14 and totally reflected by the second transparent resin layer 15 ' 12). ≪ / RTI >

However, according to the above-described technique, the compensation light is emitted in the upward direction as shown in FIG. 2B. In this case, even if the compensation light is totally reflected through the translucent resin layer, the compensation light may leak to the outside .

Secondly, the shielding wall 14 is included between the compensation element 13 and the light receiving element 12 for total reflection, which causes a problem in arranging the components as shown in FIG. 2 (a) .

Accordingly, the present applicant sets up the compensation LED in the reverse direction so as to emit the compensation light in the downward direction toward the reflection plate positioned in the lower direction of the compensation LED, and after the compensation light is reflected by the reflection plate, So that the light can be prevented from leaking to the outside.

Also, a structure capable of adjusting the intensity of the compensation light without causing alignment problems between the components is proposed.

Patent Registration No. 10-1414050 (Bulletin of Apr. 2014, 2014)

It is an object of the present invention to provide a reverse mounting structure of a disturbance light compensating LED having a structure for preventing compensation light for compensating for disturbance light from flowing out to the outside, In the reverse direction of the disturbance light compensation LED.

Another object of the present invention is to provide a light emitting device and a method of controlling the same, which is configured such that the compensation light emitted from the compensation LED is incident on the reflection plate, reflected toward the light intensity adjusting hole, And an object of the present invention is to provide a reverse mounting structure of a disturbance light compensation LED that can prevent light from being leaked to the outside.

It is another object of the present invention to provide a light intensity control device capable of adjusting the intensity of compensation light (amount of compensation light received by a light receiving diode) without causing a process problem due to complication of alignment between components, And a reverse mounting structure of the disturbance light compensating LED.

According to an aspect of the present invention, there is provided a reverse mounting structure for a disturbance light compensating LED, comprising: a PCB substrate having a light intensity adjusting hole formed therein; A compensating LED 30 mounted on a bottom surface of the PCB 10 to emit compensation light in a downward direction; A reflection plate 20 positioned below the compensation LED 30 to receive the compensation light and reflect the incident compensation light; And a light receiving portion for receiving light for compensation from the light intensity control hole (11) in the upper surface of the PCB substrate (10) And a light receiving diode (40) configured to receive the light.

In the present invention, after the compensation light emitted from the compensation LED 30 is incident on the reflection plate 20, the reflection light is reflected toward the light intensity adjustment hole 11 and then passes through the light intensity adjustment hole 11 Reflected light is received by the light receiving diode 40, thereby preventing the compensation light from being leaked to the outside.

Further, the present invention is characterized in that the amount of compensation light received by the light receiving diode (40) varies with the width of the light intensity control hole (11).

According to the reverse mounting structure of the disturbance light compensating LED according to the present invention, the compensation light enters the reflection plate, is reflected toward the light intensity adjusting hole, reflected by the light intensity adjusting hole, and is received by the light receiving diode, It is possible to prevent the light for compensation from flowing out to the outside, thereby preventing the optical sensor from generating a recognition error due to interference.

Further, the present invention can change the intensity of the compensation light by adjusting the width of the hole for adjusting the light intensity, thereby having the effect of simply changing the intensity of the compensation light without changing the structure alignment.

Fig. 1 shows a representative drawing shown in Japanese Patent Application Laid-Open No. 10-1414050.
2 is a view showing an example of a problem of a conventional compensation LED.
FIG. 3 illustrates a reverse mounting structure of the disturbance light compensating LED according to an embodiment of the present invention.
3A shows an example of determining the amount of compensation light in the reverse mounting structure of the disturbance light compensating LED according to the present invention.
4 illustrates a reverse mounting structure of a disturbance light compensating LED according to another embodiment of the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor can properly define the concept of the term to describe its invention in the best possible way And should be construed in accordance with the principles and meanings and concepts consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention. Therefore, various equivalents And variations are possible.

Before describing the present invention with reference to the accompanying drawings, it should be noted that the present invention is not described or specifically described with respect to a known configuration that can be easily added by a person skilled in the art, Let the sound be revealed.

The reverse mounting structure of the disturbance light compensating LED according to the present invention will be described with reference to FIG. 3 of the accompanying drawings.

FIG. 3 illustrates a reverse mounting structure of a disturbance light compensating LED according to an embodiment of the present invention, and FIG. 4 illustrates a reverse mounting structure of a disturbance light compensating LED according to another embodiment of the present invention.

According to FIG. 3 of the accompanying drawings, the present invention relates to a reverse mounting structure of a disturbance light compensating LED, and shows a compensating LED and a light receiving diode region in an optical sensor (particularly, a rain sensor).

In other words, since the point of the present invention lies in the reverse installation structure of the compensation LED, only the corresponding region is illustrated in the accompanying drawings. However, the sensor configuration in which the present invention is actually applied includes the light- And compensation LEDs, and the like.

3 mainly includes a PCB substrate 10, a reflection plate 20, a compensating LED 30, and a light receiving diode 40.

The PCB substrate 10 is a conventional circuit board, and the compensation LED 30, the light receiving diode 40, and the light emitting diode (not shown in the drawing) are connected.

The light intensity control hole 11 is formed in the PCB substrate 10 so as to pass through from the upper side to the lower side. The light intensity control hole 11 is formed on the front side of the light receiving diode 40 do.

At this time, the light intensity adjusting hole 11 is configured to have a predetermined width, and the predetermined width may be varied according to the intensity of the compensation light of the compensation light 30 received by the light receiving diode 40 4).

That is, when the width of the light intensity adjusting hole 11 is narrow, the intensity of the compensation light received by the light receiving diode 40 will be relatively small as compared with the width of the light intensity adjusting hole 11 (see FIG. 4).

The reflection plate 20 is formed on the inner bottom surface of the sensor structure and is inclined so that the compensation light can be reflected by the light intensity adjusting hole 11. [

The inclined surface of the reflector 20 may be coated with a predetermined material.

In this case, the predetermined material means a material capable of increasing the reflectance of the compensation light, and the coating may be possible using a spray method.

Such a predetermined material may be any material capable of increasing the reflectance of the compensation light and capable of withstanding heat generated by the compensation light, and may be glass, ceramics, or the like.

According to the design conditions, the material coated on the reflection plate 20 is not necessarily made of a material capable of increasing the reflectance of the compensation light, but may be a material lowering the reflectance of the compensation light.

Accordingly, although the intensity of the compensation light can be adjusted through the light intensity control hole 11, the intensity of the compensation light can be controlled by the coated material.

The inclination of the reflection plate 20 can be predicted in the accompanying drawings, and may have an inclination angle of 20 to 30 degrees.

The technical significance of the inclination angle of the reflection plate 20 will be described below with reference to [Table 1]. At this time, the width of the light intensity adjusting hole 11 is fixed and the formed position is limited to the front side of the light receiving diode 40 and fixed in the same way to observe the technical meaning of the inclination angle of the reflector 20 at this time.

In the review opinion of Table 1 below, the% gauge divides the compensation light reflected by the light intensity control hole 11 into arbitrary 10 areas as shown in FIG. 3A, passes through the light intensity control hole 11 Fig.

Here, FIG. 3A illustrates an example of determining the amount of compensation light in the reverse installation structure of the disturbance light compensation LED according to the present invention.

Angle 10 ° 20 ° 30 ° 40 ° 50 ° Review comments 18.7% 30.6% 34.2% 23.4% 11.3%

As shown in Table 1, when the inclination angle of the reflection plate 20 is 20 ° or 30 °, it is 30% or more. When the angle is 10 ° or 40 °, it is difficult to bias the reflector 20 in either direction. When the inclination angle is 50 °, the amount of compensation light is too small, and it is difficult to apply the inclination angle of 50 ° or more.

However, the reflection amount of the compensating light is about 30% at the above-mentioned 20 to 30 ° because the intensity of the compensating light received by the light receiving diode 40 is reduced by narrowing the width of the light intensity adjusting hole 11 , It is natural that the intensity of the compensation light increases when the width of the light intensity control hole 11 is increased.

The reason for measuring the width of the light intensity adjusting hole 11 in the above measurement results is that the reflection intensity of the compensation light increases when the width of the light intensity adjusting hole 11 is widened when measured However, since the reflection amount of the compensation light may approach 0% even if the reflection amount is measured when the width of the light intensity control hole 11 is narrowed when the width is wide from the beginning and when the width is wide, Respectively.

Alternatively, even if the width of the light intensity adjusting hole 11 is increased, the distance between the light intensity adjusting hole 11 and the light receiving diode 40 may be fixed so that the distance between the light intensity adjusting hole 11 and the light receiving diode 40 does not change. The reflection amount of the compensation light can be stably secured even if the width of the light intensity adjusting hole 11 is increased.

The compensating LED 30 is disposed on the bottom surface of the PCB 10 so as to emit compensation light in the direction of the reflector 20.

The light receiving diode 40 is installed on the upper surface of the PCB substrate 10 and is disposed at a position where the light for compensation from the light intensity adjusting hole 11 can be received at the rear side of the light intensity adjusting hole 11 And is configured to be able to receive the compensation light from the light intensity control hole 11.

3 to 4, only the main points of the present invention are described, and since various designs can be made within the technical scope of the present invention, the present invention is limited to the configurations of Figs. 3 to 4 Or it is self-evident.

10: PCB substrate
11: Light intensity adjusting hole
20: Reflector
30: Rewarding LED
40: Light receiving diode

Claims (5)

A PCB substrate 10 on which a light intensity adjusting hole 11 is formed;
A compensating LED 30 mounted on a bottom surface of the PCB 10 to emit compensation light in a downward direction;
A reflection plate 20 positioned below the compensation LED 30 to receive the compensation light and reflect the incident compensation light; And
The light-intensity adjusting hole (11) is provided on the upper surface of the PCB substrate (10) so as to receive light for compensation from the light intensity control hole (11) And a light receiving diode (40) constituted by the light receiving diode (40).
The method according to claim 1,
The compensating light emitted from the compensating LED (30)
Is incident on the reflection plate 20 and then reflected toward the light intensity adjusting hole 11 and then reflected by the light intensity adjusting hole 11 to be received by the light receiving diode 40,
Wherein the compensating light is prevented from flowing out to the outside.
The method according to claim 1,
Wherein the reflection plate (20) has an inclination angle of 20 to 30 degrees.
The method according to claim 1,
Wherein a light amount of the compensation light received by the light receiving diode (40) varies with a width of the light intensity adjusting hole (11).
The method according to claim 1,
The reflector (20)
And a material for increasing or decreasing the reflectance of the compensating light is coated on an oblique surface of the oblique light adjusting lens.

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