KR940003853B1 - Apparatus for focusing a optical infrared-rays - Google Patents

Abstract

The device effectively receives the infrared which is inputted by a reflection mirror, a prism, and a poly IR lens. The device includes a receiver (1) which comprises two mirrors (3,3") that form consecutive various angle reflection mirrors (31,32,33,34) and a transmitter (2) which radiates infrared. The device executes a remote control by receiving infrared. The focusing device uses a poly IR lens (5) and the focus distance is in line with a receiver (1).

Description

Wide angle infrared focusing device

1 is a view showing a conventional infrared focusing device.

2a and 2b is a view showing an infrared focusing apparatus using a reflector according to the first embodiment of the present invention.

3 is a view showing an infrared focusing apparatus using a prism according to a second embodiment of the present invention.

4 is a view showing an infrared focusing apparatus using a polyIR lens according to a third embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

1: receiver 2: transmitter

3: reflector 4: prism

5: polyIR lens

[Industrial use]

The present invention relates to a focusing apparatus for focusing infrared rays emitted from a transmitter, and more particularly, to a wide-angle infrared focusing apparatus capable of receiving an infrared signal at any angle by making the angle of the emitted infrared rays wide.

[Traditional Technology and Problems]

Recently, as the demand for convenience of life increases, various new products have been developed and sold accordingly, for example, a remote control device is mounted and remotely controlled in various products such as TVs, audio products, air conditioners, fans, and the like. However, in all products that intend to remotely control the radio by using infrared rays as a carrier (carrier), it is possible to receive only the infrared radiation emitted within a predetermined angle to focus the infrared radiation emitted from a transmitter equipped with a remote control device. Because of the narrow angle of use (currently about 60 °), the user is not easy to use in any direction is accompanied by the inconvenience.

1 is a view illustrating a conventional general infrared ray connecting apparatus. Infrared rays emitted from a transmitter 2 located in an area A are applied to the receiver 1 so that the receiver 1 can detect them, but the area B When the infrared ray is emitted in the state where the transmitter 2 is located in the), the receiver 1 cannot detect the infrared ray emitted from the transmitter 2 because the radiation angle is out of a detectable angle. Therefore, when performing remote control by radiating infrared rays from the transmitter 2 to the receiver 1, there is a problem that the user must operate the transmitter 2 to emit infrared rays while the user moves into the area A. .

[Purpose of invention]

The present invention has been made in view of the above point, and an object thereof is to provide a wide-angle infrared focusing apparatus capable of connecting the emitted infrared rays to the infrared receiver even if the infrared rays are radiated from any direction.

[Configuration of Invention]

The present invention for achieving the above object, while being formed of a continuous reflector (3 ₁ , 3 ₂ , 3 ₃ , 3 ₄ ; 3 ₁ ', 3 ₂ ', 3 ₃ ', 3 ₄ ') of various angles facing each other Focusing means consisting of two reflecting mirrors (3, 3 ') is installed on the upper part of the receiver (1), the focusing means focuses the infrared rays of various angles emitted from the transmitter (2) to enter the receiver (1) It is characterized in that it is possible to perform a remote control by receiving the infrared light incident from all angles.

[Action]

The present invention configured as described above, it is possible to focus the infrared radiation emitted from various angles from the transmitter to the focusing means to apply to the receiver.

EXAMPLE

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2a shows an infrared focusing apparatus using a reflector according to the first embodiment of the present invention. FIG. 2a shows only one reflector 3 for the sake of simplicity. However, the actual structure of FIG. As shown, two reflecting mirrors 3 and 3 'are provided to face each other.

Here, each of the reflectors (3,3 ') is formed so that the reflectors (3 ₁ , 3 ₂ , 3 ₃ , 3 ₄ ; 3 ₁ ', 3 ₂ ', 3 ₃ ', 3 ₄ ') of various angles are continuous The detection angle can be widened.

In FIG. 2A, when the transmitter 2 is positioned at position a, if infrared radiation is emitted from the transmitter 2 at position a, the infrared rays are reflected at the a 'portion of the reflector 3 to the target. It is applied to the infrared receiver 1, which is a place where the receiver 1 can detect it.

Similarly, when infrared rays are radiated from the positions b, c and d, the infrared rays are reflected by the b ', c' and d 'portions of the reflector 3 and applied to the receiver 1. In addition, the infrared rays emitted directly above the receiver 1 are not reflected by the reflector 3 and are directly applied to the receiver 1.

Therefore, infrared rays can be focused on the receiver 1 at any angle.

3 shows an infrared focusing apparatus using a prism according to a second embodiment of the present invention. When the transmitter 2 emits infrared rays while being positioned at positions ①, ②, ③, ④ and ⑤, respectively, the position ① , The infrared rays emitted from ②, ③, ④, and ⑤ pass through the prism 4, and the path of the infrared ray is changed at a predetermined angle. ) Is applied. Therefore, in the case of using the prism 4 as described above, the receiver 1 can receive the infrared radiation at any angle.

FIG. 4 shows an infrared focusing apparatus using a polyIR lens according to a third embodiment of the present invention, wherein the polyIR lens is hemispherical and has a common focus by arranging grooves in a footnote of concentric circles. It is. Therefore, if the position of the common focal point is the position where the receiver 1 is located, the incident infrared rays will be accurately reflected on the receiver 1 even if the infrared rays emitted from the transmitter 2 are incident on the polyIR lens 5 at any angle. Can be applied. Therefore, even when using the polyIR lens 5 as described above, the receiver 1 can receive the infrared radiation at any angle.

[Effects of the Invention]

As described above, according to the present invention, by using a focusing device such as a reflector, a prism, and a polyIR lens, infrared rays incident from various angles can be effectively received.

Claims (2)

Two reflectors (3,3 ') facing each other, formed as a series of reflectors of varying angles (3 ₁ , 3 ₂ , 3 ₃ , 3 ₄ ; 3 ₁ ', 3 | ₂ ', 3 ₃ ', 3 ₄ ') Focusing means consisting of a) is installed on top of the receiver 1, the focusing means focuses the infrared rays of various angles emitted from the transmitter (2) to receive the infrared rays incident from all angles by entering the receiver (1) Wide-angle infrared focusing device, characterized in that to perform a remote control. 2. The wide-angle infrared focusing apparatus according to claim 1, wherein the focusing means is a hemispherical polyIR lens (5), and the focusing distance is arranged so as to cover the receiver (1) while coinciding with the receiver (1).