KR19990028145U - condenser - Google Patents

Abstract

The present invention relates to a more efficient light collecting device, and a light collecting device using a circular light reflecting prism layer in order to increase the light receiving rate of a light receiving unit for receiving light such as infrared light used for a remote control device in a television, audio, video, etc. It is intended to provide a device that can increase the light receiving rate by installing around the light receiving sensor. By installing a transparent prism type light collecting device formed by multi-layered transparent acrylic resin or glass around the light receiving sensor, it is possible to receive light generated from a remote controller in a larger area. It can be delivered. As a result, it is possible to provide a light receiving sensor unit having a high light receiving efficiency.

Description

condenser

The present invention relates to a more efficient light collecting device, and a light collecting device using a circular light reflecting prism layer in order to increase the light receiving rate of a light receiving unit for receiving light such as infrared light used for a remote control device in a television, audio, video, etc. It relates to a light collecting device (A device of light indexing) that can be installed around the light receiving sensor to increase the light receiving rate.

In general, in order to adjust various functions such as volume and channel adjustment of a television, a plurality of function buttons are installed in the main body of the television, and the functions of the television are adjusted by operating the television.

However, the above method lacks convenience because the viewer has to operate a button installed in the television every time one function is adjusted.

In order to remedy this problem, modern remote controllers have been developed that can remotely control each function.

Such a remote controller operates a key input unit composed of a plurality of buttons and key metrics according to the operation of the key input unit. That is, when the user presses a desired button, the key metrics are activated. Accordingly, the remote controller micom identifies which key of the key metrics has been operated, and outputs a driving signal to the crystal oscillator connected to the remote controller micom. do. Accordingly, the crystal oscillator oscillates and transmits a predetermined signal (pulse signal) to the signal transmitter, thereby outputting a signal desired by the user.

At this time, the signal generated from the signal transmitter is output in a state in which the length of the pulse is different according to the user's button selection (for each function). In addition, in such a remote control, the infrared transmission distance can be adjusted according to the infrared transmission angle of the remote control. For example, the infrared sensor having a small angle can send far infrared rays while the large angle infrared ray can be transmitted. Using the sensor can transmit infrared light only at close range.

As such, the infrared signal transmitted from the remote controller is received by the receiver installed on the front of the television. The receiver receives the signal, converts the signal into an electrical signal, and applies the signal to the microcomputer. The microcomputer compares the electrical signal received from the receiver with a plurality of functional signals set in the microcomputer to determine what function the signal has. By judging, the desired function is controlled.

In this way, the remote control receiver 114, as shown in Figure 4, a plurality of mounting holes are formed in the circumference, the screw 116 penetrates the mounting holes inside the front cabinet 110 of the television Fixed to the upper and lower bosses 112 and 113 formed in order to receive the infrared signal transmitted from the remote control 120, the light receiving port 117 in the front cabinet 110 of the position opposite to the receiving unit 114 Is formed, and the light receiving port 117 has a structure in which a mirror window 19 is provided.

However, when the remote control receiver as described above receives a low-intensity infrared signal transmitted from a remote remote control or a low-intensity infrared signal that has an incorrect angle, there is a problem that the signal cannot be reliably received.

Accordingly, the present invention was devised to solve the above problems, and an object of the present invention is to provide an efficient light condensing device with a small volume and a convenient light collecting device in a manufacturing process.

According to the technical idea of the present invention as described above, the disk-shaped light reflection prism for reflecting the incident light in a predetermined direction, the light reflection surface formed at the bottom of the light reflection prism, the disk-shaped light reflection prism layer in the center Provided is a light collecting device composed of an optical sensor positioned to receive light.

1 is a cross-sectional view of a light reflection prism device.

2A is a plan view of an optical sensor coupled with a light collecting prism device;

2B is a cross-sectional view of an optical sensor coupled with a light collecting prism device.

Figure 3 is an embodiment of a light collecting device according to the present invention.

Figure 4 is an embodiment of a light collecting device according to the conventional design.

<Explanation of symbols for main parts of the drawings>

1: light reflecting prism 2: incident light

3: Direction of incident light 4: Multi-layered light reflection prism

5: prism angle alpha 6: light reflection layer

11: light sensor 12: light reflection prism

21: light sensor 22: direction of incident light

23: Incident light 31: Light sensor of condensing prism device

32: TV receiver 41: condenser lens

42: light sensor unit 43: TV receiver

Hereinafter, with reference to the accompanying drawings will be described a specific embodiment for achieving the object of the present invention.

1 to 3 show one embodiment of the present invention, FIG. 1 is a cross-sectional view of a light reflecting prism device, FIG. 2A is a plan view of an optical sensor combined with a light collecting prism device, and FIG. 2B is a light collecting prism 3 is a cross-sectional view of an optical sensor combined with a device, and FIG. 3 shows an embodiment of a light collecting device according to the present invention.

Referring to FIG. 1, the present invention is configured by properly adjusting the angle of the prism using the light reflection prism 1 device of FIG. 1 to control the advancing direction of incident light so as to proceed in a desired direction. In order to make this more efficient, the light reflection prism 1 layer is composed of a multilayer. Then, the light reflection layer is provided on the rear surface of the multilayer light reflection prism 4 layer to minimize the loss of light.

2A is a plan view of an optical sensor coupled with a light collecting prism device.

The multi-layered light reflection prism 4 described above is provided in a circular shape, and the light sensor 11 serving as the light receiving unit is positioned in the center. The multilayer light reflecting prism 4 can be made of acrylic resin or glass. As shown in FIG. 2A, when the multi-layered light reflection prism 1 is installed in a circular shape, the incident light is concentrated on the light sensor unit 11, thereby increasing the light collecting efficiency.

2B is a cross sectional view of an optical sensor coupled with a light collecting prism device.

The incident light 2 reflected by the multi-layered light reflection prism 4 is configured to be concentrated on the optical sensor unit 11. .

3 is an embodiment of a light collecting device according to the present invention.

3 is an embodiment in which the light concentrating device of the present invention is installed on a television receiver, and can be simply attached to the front of the TV receiver 32 as shown in the figure, and its volume is very small. In addition, the external reflection of the television receiver can be cleaned by smog-processing the portion of the light reflection prism 4 so that the portion of the light reflection prism does not appear in appearance.

As described above, the present invention is a light collecting device using a light reflecting prism, which is a light collecting device for improving the function of an optical sensor of a light receiving unit of a home appliance having a remote control function such as a television, an audio, a video, and the like. The reflection prism can be used to condense the light output from the remote control device to the optical sensor more effectively, and has a lot of advantages in the manufacturing process because the volume is smaller and simpler to install than the conventional light concentrating device.

Claims (3)

A disk-shaped light reflection prism for reflecting the incident light in a predetermined direction, A light reflecting surface configured at the bottom of the light reflecting prism, And a light sensor positioned at the center of the disk-shaped light reflection prism layer to receive light. The light converging device according to claim 1, wherein the light reflection prism is formed of a multilayer. The light concentrating device according to claim 1 or 2, wherein the entire surface of said light reflection prism is smog-treated.