KR101430713B1 - Lighting sensor package using tansparent housing - Google Patents

Abstract

The present invention relates to an optical sensor package using a transparent housing. More specifically, the present invention relates to an optical sensor package that can receive visible light of a wide band without interference with a light sensor that receives a visible light band and a remote controller sensor that receives an optical signal of an IR band And a transparent housing in which a housing is made of a transparent plate so that light emitting means for indicating the operation of the remote control sensor can be integrated.

Description

Technical Field [0001] The present invention relates to an optical sensor package using a transparent housing,

The present invention relates to an optical sensor package using a transparent housing. More specifically, the present invention relates to an optical sensor package that can receive visible light of a wide band without interference with a light sensor that receives a visible light band and a remote controller sensor that receives an optical signal of an IR band And a transparent housing in which a housing is made of a transparent plate so that light emitting means for indicating the operation of the remote control sensor can be integrated.

BACKGROUND ART [0002] In various display devices, there is a growing demand for lightweight, thin and large display devices. Conventionally, CRT (Cathode-Ray Tube) type monitors and TVs, which have been widely used in the past, have been used for major display technologies for a long period of time and have accumulated many technologies. The color representation is accurate and easy, but it has a problem that it not only occupies a heavy and bulky volume but also requires a bulky bulge as the screen size increases. Therefore, researches on new display technologies to replace CRT have been made steadily.

TFT-LED (Thin Film Transistor-Light Emitting Diode) is one of such next-generation advanced display devices, and has a great advantage in that it consumes less power, is lightweight and thinner than CRT and does not emit harmful electromagnetic waves. Related technology has been greatly advanced in recent years, mainly for its use. In addition, TFT-LEDs and OLEDs (Organic Light-Emitting Diodes) are attracting attention as large screen displays of 40 inches or more in recent years in the era of high-definition digital broadcasting.

In such a display device, since it is driven based on a digitized signal, color correction and control of a power system can be easily implemented as compared with an analog type device. Therefore, the display device includes an illuminance sensor for sensing the brightness of the surroundings for color correction and position conversion, a remote control sensor mounted for color correction according to the brightness detection level of the illuminance sensor, and for controlling other equipment as needed . In addition, among the currently available display products, a light emitting means for displaying the reception of the remote control sensor is mounted.

Here, the remote controller sensor receives a radio signal remotely received from the remote controller and applies the radio signal to the controller of the display device. Here, the remote controller sensor receives the signal of the IR band and operates. Such a remote control sensor is as disclosed in the conventional patent application No. 2002-0008939.

Also, unlike the remote sensor, the illuminance sensor is required to block the light of the IR band and receive only the visible light. Particularly, as a technique related to a conventional illuminance sensor, Patent Application No. 2004-0032811 and Patent Application No. 1997-0064361 have been proposed as techniques using a luminance sensor for a plasma panel.

Thus, the conventional illuminance sensor and remote control sensor are devices added to a display device including a plasma panel or a TV.

However, since the ambient light sensor and the remote controller sensor are required to receive lights of different bands in spite of the necessity of being installed in a display device that has been released in recent years, There is a problem in that it must be constituted by a device.

Further, in the related art, the illuminance sensor, the remote control sensor, and the light emitting means must be provided as separate devices. Since the bezel structure of the TV is now thin and the width is becoming small, the installation space of the device is insufficient, And an increase in manufacturing cost.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a remote control sensor for receiving an optical signal of an IR band and a light emitting unit for outputting light of a visible light band, Which can be fabricated to have a thin and small space such as a thin PDP, an LED, and an OLED TV, can be realized in a manufacturing cost savings and a manufacturing cost reduction even in a TV.

The present invention includes the following embodiments in order to achieve the above object.

A first embodiment of the present invention is a light emitting device comprising: a housing having a light transmissive transparent plate molded as a light transmissive compound for transmitting light of all bands in an upper surface; A remote controller for selectively receiving only light in the IR band among the optical signals incident on the inside of the housing, converting the received optical signal into an electrical signal, and outputting the electrical signal; A first light shielding resin applied on the top surface of the remote controller to selectively transmit only light in the IR band; Light emitting means for emitting light indicating that the light of the IR band is received by the remote control device; A lead frame having one or more mounting portions for mounting the remote control device and the light emitting means respectively and having one or more output terminals for outputting electric signals output to the remote control device outward; And a transparent lens that protrudes upward from the upper surface of the housing and transmits light of all bands. The lens has an aspheric surface where the left and right distances ll and the distances l2 between the upper and lower sides do not coincide with each other And the receiving area of the side light is enlarged.

In the second embodiment of the present invention, the housing further includes a translucent plate made of a light transmitting material on the front, rear, and both sides.

In the third embodiment of the present invention, the optical sensor package using the transparent housing includes a remote control IC for amplifying an electrical signal output from the remote control device, And further includes a second light receiving sheet.
According to a fourth aspect of the present invention, the lens has a height in a horizontal direction different from a height from an upper surface to a vertex of a convex surface of the housing.

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As described above, in the optical sensor package using the transparent housing according to the present invention, space is saved in installing the package of the optical sensor in which the remote control sensor of the IR band and the light emitting means are integrated into the apparatus, There is an effect that the manufacturing cost is reduced due to shortening of the assembling time and the manufacturing cost in the manufacturing process.

1 is a plan view showing an optical sensor package using a transparent housing according to the present invention,
2 is a side view showing an optical sensor package using a transparent housing according to the present invention,
3 is an interior plan view of an optical sensor package using a transparent housing according to the present invention,
Figure 4 is an interior side view of an optical sensor package using a transparent housing according to the present invention;
5 is an inner cross-sectional view of an optical sensor package using a transparent housing according to the present invention.

Hereinafter, preferred embodiments of an optical sensor package using a transparent housing according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a plan view showing an optical sensor package using a transparent housing according to the present invention, and FIG. 2 is a side view showing an optical sensor package using the transparent housing according to the present invention.

1 and 2, an optical sensor package using a transparent housing according to the present invention includes a housing 40 formed of a compound of a light-transmissive material to form an appearance of a product, a remote control signal A remote control sensor unit 10 for receiving the remote control sensor unit 10 and a remote control sensor unit 10 for receiving the remote control signal from the remote control sensor unit 10, And a lead frame (30) for supporting.

The housing 40 includes a transparent plate 41 constituting the upper surface of the package and a translucent plate 42 constituting the front, rear, left and right sides of the package. Here, the transparent plate 41 is formed as a light transmitting resin, and the light emitted from the light emitting means 20 housed inside is diffused to the front surface and / or the top surface so that light diffusion can be performed over a wider range.

The translucent plate 42 is formed as a resin having a lower transparency than the transparent plate 41, and diffuses light emitted from both sides of the housing 40. Here, the translucent plate 42 has a weak light intensity and a short transmission distance as compared with the transparent plate 41.

In addition, the present invention is to increase the diffusion range, the reception area and the reach distance of the light emitted from the light emitting means 20, which is integrally formed with the remote control sensor unit 10, and the transparent plate 41, the translucent plate 42, And an aspheric lens 16 is formed. As shown in FIGS. 1 and 2, the aspherical surface of the aspheric lens has a shape which is not completely hemispherical, and the height (13) from the upper surface to the vertex of the housing does not coincide with the distance between the left and right sides (14) , And the distance between the right distance ll and the upper and lower l 2 is not coincident with each other.

In this case, the lens 16 protruding upward from the upper surface of the housing 40 is also formed of a transparent transparent resin so that light emitted from the light emitting means 20 accommodated in the inner side is output. do.

That is, according to the present invention, the housing 40 and the lens 16 are molded as a transparent resin to increase the diffusion and reaching distance of the light emitted from the light emitting means 20 .

As described above, the present invention includes a structure in which the upper surface of the housing 40 and the lens 16 are formed of a transparent material, thereby blocking visible light from a remote controller sensor formed integrally with the light emitting means 20. [ The configuration in which the remote control sensor of the present invention and the light emitting means 20 are integrally formed will be described in more detail with reference to FIGS. 3 to 5 below.

FIG. 3 is an inner plan view showing an optical sensor package using a transparent housing according to the present invention, FIG. 4 is an inner side view showing an optical sensor package using the transparent housing according to the present invention, and FIG. Sectional view showing an optical sensor package used.

3 to 5, the optical sensor package using the transparent housing 40 according to the present invention includes a housing 40 formed of a compound of a light transmitting material to form the appearance of the product, A remote control sensor unit 10 for receiving a remote control signal of the remote control sensor unit 10 and a light emitting unit 20 for indicating whether or not a remote control signal of the remote control sensor unit 10 is received, And a lead frame 30 for mounting and supporting the lead frame 30.

The housing 40 includes a transparent plate 41 made of a light-transmissive compound on the upper surface thereof, and a translucent plate 42 made of a translucent compound on the front, rear, left and right sides. The transparent plate 41 and the translucent plate 42 are for emitting light emitted from the light emitting means 20 provided inside the housing 40 to the outside so that light of all the bands is transmitted.

The remote control sensor unit 10 includes a remote control device 11 for receiving an optical signal in the IR band, a remote control IC (IC) 12 for amplifying a reception signal received and output from the remote control device 11, A first shielding resin 13 applied to the upper portion of the remote controller element 11 to transmit only the light of the IR band and a second shielding resin 14 applied to the upper portion of the remote controller icus 12 to block light in all bands, A shield case 15 for shielding electromagnetic waves, and a lens 16 made of a transparent material on the upper surface of the housing 40 and transmitting light of all bands.

The remote control device 11 receives an optical signal in the IR band and outputs the optical signal to the remote control IC 12 as an electrical signal.

The remote control IC 12 amplifies an electrical signal output from the remote control device 11 and outputs the amplified electrical signal to a device (for example, a control unit of a TV) connected to the remote control sensor unit 10, 20 to control the display of the reception of the remote control signal.

In this case, the light emitting unit 20 applies a driving signal to the control unit of the apparatus (for example, a TV) in which the optical sensor package using the transparent housing 40 is installed, rather than the remote control IC 12 It is also possible.

The lens 16 is formed to have a convex surface on the upper surface of the housing 40 formed of a light transmissive material and is made of the same material as the transparent plate 41 to transmit light of all bands. Therefore, the lens 16 transmits both the visible light of the light emitting means 20 which is emitted from the inside and the light of the IR band incident from the outside. Also, as described above, the lens 16 allows an enlarged reception area for side light as an aspherical surface. In general, it is a known fact that the lens 16 of the aspherical surface expands the receiving area with respect to the side light compared to the spherical surface. Therefore, in order to further enlarge the receiving area of the remote control signal, the lens 16 is formed as an aspherical surface. The lens 16 is formed as an aspheric surface in which the distance between the right and left sides or the upper and lower sides in the horizontal direction in the upper right room of the remote controller sensor unit 10 is not coincident.

Since the present invention selectively transmits only the IR band in the first light-shielding resin 13 described below, it is possible to set the lens 16 to transmit light in all the bands. Here, since the first and second light-receiving mirrors are generally known products, a detailed description thereof will be omitted.

The shield case 15 seals the upper and side surfaces of the remote controller element 11 and the remote controller icus 12 to shield external disturbance light and noise. Herein, the shield case 15 has a shape in which a portion of the shield case 15 is exposed, since the upper surface of the shield case 15 is in the shape of a letter and has a cross shape. When the first shielding resin 13 is coated after the shield case 15 is fixed on the remote controller element 11, the first shielding resin 15 can be applied to the upper surface of the remote controller 11 through the opened area have.

The lead frame 30 is formed with a mounting portion 31 which is an area in which the remote control sensor unit 10 and the light emitting means 20 are respectively mounted and the wires 33 are bonded to the respective mounting portions 31 And a plurality of output terminals 32 extending outward to apply an electrical signal to the circuit board.

The output terminal 32 is connected with a wire 33 to transmit an electrical signal applied from the remote controller IC 12, the illuminance sensor 50, and the light emitting means 20, respectively. The output terminal 32 may protrude from the front surface or both sides of the housing 40 and may be bent downward toward the bottom surface of the housing 40. That is, the output terminal 32 is formed of a surface mount type (SMD type) bonded to the surface of a circuit board of a display device.

The light emitting means 20 displays the reception of the remote control element 11 by the control signal of the remote control IC 12. The light emitting means 20 emits white or other colored light according to a control signal of the remote control IC 12 to emit a remote signal of a remote controller located at a remote place by the remote controller 11.

The light emitting means 20 may be, for example, a light emitting device (LED) or a light emitting chip (LED chip).

The first light-shielding resin layer 13 is applied on the top surface of the remote controller 11 to block all light in the remaining bands except the light of the IR band (for example, 820 nm or more). The first light-shielding resin (13) is applied to a product purchased and used by the workers in the same industry, and omits a specific product name, manufacturer and specifications thereof.

The second light-shielding resin 14 is applied to the top surface of the remote control IC 12 to block light. It is preferable that the second light shielding resin 14 blocks light in all bands including the IR band.

The photosensor package using the transparent housing 40 according to the present invention includes a housing 30 as a transparent and translucent plate 42 on the top surface of an optical sensor package in which the remote control device 11 and the light emitting means 20 are integrated, The first remote controller 11 can increase the distance and distance of the light emitted from the inner light emitting unit 20 by forming the first light shielding resin 40. In addition, (13) and the second light-shielding resin (14) were applied.

That is, the present invention can mount two components in a single operation in an assembling process of installing the remote control sensor and the light emitting means 20 in an integrated manner to an actual product (for example, a TV or an air conditioner) The number of assembled airflows and components is reduced by half.

In the present invention, the remote control sensor and the light emitting means 20 are formed as an integrated package, so that the remote control sensor can prevent a malfunction or interference due to the visible light emitted from the light emitting means 20, And the second light-shielding resin 14 is applied.

As described above, the first light shielding resin 13 can block both the visible light incident on both sides of the upper surface of the housing 40 and the visible light incident upon the light emitting means 20, Is not subjected to the interference of the visible light by the light emitting means (20).

In addition, according to the present invention, as the housing 40 is formed of the transparent plate 41 and the translucent plate 42, the diffusion range and the reaching distance of the visible light emitted from the light emitting means 20 provided in the housing 40 are increased And it is possible to confirm whether or not the light emitting means 20 emits light even at a long distance.

In addition, since the first light-shielding resin 13 and the second light-shielding resin can block visible light of a wide band, the illuminance sensor (not shown) can be installed together with the light emitting means 20 It is also possible. The illuminance sensor may be selectively formed from a remote control sensor unit and the light emitting unit 20 or the remote controller sensor unit 10.

For example, the illuminance sensor receives visible light in the visible range to sense the ambient illuminance, and the remote control sensor unit 10 receives light in the IR range to cause mutual interference. However, 13 and the second light receiver so that the light sensor can be formed integrally with the remote sensor unit 10.

In this embodiment, the mounting area of the illuminance sensor is formed in the lead frame 30, and a separate output terminal 32 is connected to the output terminal 32 through wires to transmit sensed signals. The mounting and electrical connection of such a light sensor are omitted from the description and drawings since they are general contents to the industry workers.

The present invention includes the above-described configuration, and the operation of the present invention will be described in detail below.

First, the operator mounts the optical sensor package using the transparent housing 40 to which the present invention is applied on the circuit board of the display device. For example, the operator bonds the output terminal 32 of the lead frame 30 to a predetermined position on the circuit board of the display device. In the optical sensor package using the transparent housing 40, the remote control sensor unit 10 and the light emitting means 20 are integrated.

When the user operates the remote control device to control the screen of the display device after the assembly is completed, the optical signal of the IR band is transmitted from the remote control device.

Therefore, the optical signal of the IR band transmitted from the remote controller is incident on the remote controller 11 through the lens 16. At this time, the surrounding visible light passes through the housing 40 and enters the inside, but is not incident on the remote controller element 11 and the remote controller IC 12 by the first light shielding resin 13 and the second light shielding resin 14 .

Therefore, the remote control device 11 receives only the optical signal of the IR band received from the remote control device, and the optical signal of the other band does not enter. Therefore, the remote control device 11 outputs an electrical signal proportional to the optical signal of the incident IR band to the remote control IC 12.

The remote control IC 12 amplifies the electrical signal output from the remote control device 11 and outputs the amplified electrical signal to the outside through the output terminal 32. The remote control IC 12 emits the remote control signal by emitting the remote control signal, .

Alternatively, the light emitting means 20 is not illuminated by the control signal from the remote control IC 12 but is applied to a control unit (not shown) of the device to which the signal output from the remote control IC 12 is applied, It may be displayed by light emission under the control of the control unit of the apparatus. This corresponds to any one of a plurality of applications including the technical idea of the present invention which can be modified according to the intention of the designer or the operator.

Since the upper surface and the front, rear, left and right side surfaces of the housing 40 are made of the transparent plate 41 and the translucent plate 42, the diffusion range of the light emitted from the light emitting means 20 is increased, The distance is increased.

At this time, since the housing 40 is made of a light-transmitting material, the light emitted from the inside of the housing 40 is incident on the remote control sensor unit 10. However, since the first light-shielding resin 13 blocks all lights other than the IR band, it blocks all visible light incident on the inside and the outside of the housing 40. Therefore, even if the light emitting means 20 emits light, the remote control device 11 is not influenced by the light emitting device 20, and can only receive the light of the IR band in a linear fashion.

As described above, according to the present invention, the remote controller 11 can selectively receive only the light of the IR band even if different wavelength bands are incident on the inside of the housing 40, so that no malfunction due to mutual interference or noise occurs.

Therefore, the operator can reduce manufacturing cost by reducing the manufacturing process and shortening the assembling time, so that it is possible to provide the product at a lower price to the consumer because the manufacturing cost can be reduced, thereby yielding beneficial results to both the manufacturer and the consumer I can do it.

As described above, since the upper surface of the housing 40 is composed of the transparent plate 41, and both side surfaces and the front and rear surfaces are composed of the translucent plate 42, the diffusion range of the light is enlarged and the reach distance is increased. The light emitted from the light emitting means 20 can be visually confirmed easily.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

10: Remote control sensor unit 11: Remote control device
12: remote controller IC: 13: first light-shielding resin
14: Second light shielding resin 15: Shield case
16: lens 20: light emitting means
30: lead frame 31: mounting part
32: output terminal 33: wire
40: housing 41: transparent plate
42: translucent plate

Claims (6)

A housing having a light-transmissive transparent plate molded as a light-transmissive compound for transmitting light of all bands on an upper surface thereof;
A remote controller for selectively receiving only light in the IR band among the optical signals incident on the inside of the housing, converting the received optical signal into an electrical signal, and outputting the electrical signal;
A first light shielding resin applied on the top surface of the remote controller to selectively transmit only light in the IR band;
Light emitting means for emitting light indicating that the light of the IR band is received by the remote control device;
A lead frame having one or more mounting portions for mounting the remote control device and the light emitting means respectively and having one or more output terminals for outputting electric signals output to the remote control device outward; And
And a transparent lens that protrudes upward from the upper surface of the housing to transmit light of all bands,
Wherein the lens has aspheric surfaces in which the left and right distances ll and the distances l2 between the upper and lower sides do not coincide with each other so that the receiving area of the side light is enlarged. 2. The apparatus of claim 1, wherein the housing
And a translucent plate made of a light transmitting material on the front and back sides and both sides thereof. The optical sensor package of claim 1, wherein the transparent housing
And a second light shielding resin (14) applied to the upper surface of the remote control eye to shield light in all the bands. delete delete 2. The lens according to claim 1, wherein the lens
Wherein a height (13) from an upper surface of the housing to a vertex of a convex surface is different from a distance (14) in the horizontal direction.

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