KR200212861Y1 - Line pointer using diffraction grating - Google Patents

Abstract

The present invention relates to a line pointer using a diffraction grating, comprising: a laser diode light source unit emitting a laser beam, a lens unit focusing a beam emitted from the laser diode light source unit, and a beam passing through the lens unit It is composed of a diffraction grating portion projected forward by adjusting to prevent the hassle of moving the beam of the indicator rod in the desired direction, there is an advantage that can focus the gaze to the place to be focused by the line beam of the indicator rod.

Description

Line pointer using diffraction grating

1 is a longitudinal sectional view showing one embodiment of a line pointer according to the prior art.

Figure 2 is a longitudinal cross-sectional view showing an embodiment of a line pointer using a diffraction grating according to the present invention.

3 is a view for explaining the outgoing light with respect to the incident light of the diffraction grating applied to FIG.

Figure 4 is a longitudinal cross-sectional view showing another embodiment of a line pointer using a diffraction grating according to the present invention.

5 is a longitudinal sectional view showing another embodiment of a line pointer using a diffraction grating according to the present invention.

* Explanation of symbols for main parts of the drawings

10: line pointer 11, 21: control device

12, 22: connector 13, 23: laser diode

14, 24: focusing lens 15, 27: sun beam and line beam

26, 28: diffraction grating 20, 40, 50: line pointer using diffraction grating

The present invention relates to a line pointer using a diffraction grating, and more particularly, a laser beam generated in a visible light laser diode by mounting a diffraction grating in front of the focusing lens of the line pointer or a rotating member having a grating formed only in a partial region. The present invention relates to a line pointer using a diffraction grating so that can be expressed as one beam or line beam where desired.

In general, the line pointer is most commonly used as an indicator rod when an instructor points out a part of a textbook projected on the screen during lectures. The situation is being used.

1 is a longitudinal sectional view showing an embodiment of a line pointer according to the prior art.

Referring to FIG. 1, a conventional line pointer 10 is connected to a control device 11 for controlling an internal system, the control device 11 and a connector 12, and a laser generating infrared or visible light. A diode 13, a focusing lens 14 mounted on the front surface of the laser diode 13 and focusing the beam generated from the laser diode 13 and projecting to the outside, and through the focusing lens 14 It consists of the one beam 15 projected.

The conventional line pointer 10 configured as described above emits laser light or visible light through the laser diode 13 under the control of the control device 11.

The light beam emitted from the laser diode 13 is focused through the focusing lens 14 and then forms the one beam 15 by projecting the light beam forward by the intensity of the output controlled by the control device 11.

However, since such a conventional line pointer 10 points out only one point, for example, in order to point to a sentence appearing on the screen during a lecture, it is cumbersome to move in a desired direction.

If you move while moving in this way, the instructor or trainee is very visually confusing, there is a problem that the gaze is not concentrated to where you want to focus.

Accordingly, the present invention has been made to solve the above problems, and an object of the present invention is to install a diffraction grating on the front of the focusing lens that focuses the laser light or visible light generated from the laser diode, thereby beaming the beam of the indicator rod. Another object is to provide a line pointer using a diffraction grating that can be represented by a line beam.

A feature of the line pointer using a diffraction grating according to the present invention for achieving the above object is a laser diode light source for emitting a laser beam, a lens unit for focusing the beam emitted from the laser diode light source, and through the lens unit It is composed of a diffraction grating portion which projects one beam by controlling it as an imbeam or a line beam and forwards it.

In the present invention, the diffraction grating portion is preferably divided into a portion where a plurality of diffraction gratings are formed and a portion where the diffraction grating is not formed, and it is even more preferable that the diffraction grating portion is mounted on the front surface of the lens portion to be 180 ° rotatable. .

Hereinafter, a preferred embodiment of a line pointer using a diffraction grating according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a longitudinal sectional view showing an embodiment of a line pointer using a diffraction grating according to the present invention, and FIG. 3 is a view for explaining the outgoing light with respect to incident light of the diffraction grating applied to FIG.

2, the line pointer 20 of the present invention is connected to the control device 21 for controlling the internal system, the control device 21 and the connector 22 and generates infrared or visible light A focusing lens 24 mounted on a laser diode 23, a front surface of the laser diode 23, focusing a beam generated from the laser diode 23, and projecting the beam to the outside; It is composed of a diffraction grating 26 for distributing and projecting the shape of the beam to be projected and spaced apart from the front surface as a line beam 27.

The line pointer 20 according to the present invention configured as described above emits laser light or visible light through the laser diode 23 under the control of the control device 21.

The light beam emitted from the laser diode 23 is focused through the focusing lens 24, and then distributedly projected by the diffraction grating 26 as shown in FIG.

Thus, the light rays passing through the diffraction grating 26 appear at the desired position with the line beam 27.

4 is a longitudinal sectional view showing another embodiment of a line pointer using a diffraction grating according to the present invention, Figure 5 is a longitudinal sectional view showing another embodiment of a line pointer using a diffraction grating according to the present invention.

The basic configuration of the line pointers 40 and 50 using the diffraction grating of the present invention shown in FIGS. 4 and 5 is the same as that of FIG. 2, except that the diffraction grating 28 is formed in a different shape. It is installed. The description of the same reference numerals have been given the same numbers.

4 and 5, the line pointers 40 and 50 of the present invention are connected by a control device 21 for controlling an internal system, and the control device 21 and a connector 22. A laser diode 23 for generating infrared or visible light, a focusing lens 24 mounted on the front surface of the laser diode 23 for focusing a beam generated from the laser diode 23 and projecting it to the outside; The diffraction grating 28 is configured to be spaced apart from the front of the focusing lens 24 and distributedly project the shape of the beam to be represented by the line beam 27.

In this case, the diffraction grating 28 is configured by dividing the portion where the plurality of gratings 28a is formed and the portion where the grating is not formed. The difference between FIG. 4 and FIG. 5 is that the diffraction grating is mounted on the front surface of the lens portion so that it can be rotated 180 degrees.

The line pointer 40 of the present invention configured as described above emits laser light or visible light through the laser diode 23 under the control of the control device 21.

The light beam emitted from the laser diode 23 is focused through the focusing lens 24, and then scattered and projected only on the grating 28a portion of the diffraction grating 28 as shown in FIG.

Thus, the light rays passing through the grating 28a appear at the desired position by the line beam 27.

On the contrary, since the light beam emitted from the laser diode 23 is focused through the focusing lens 24 and is not distributedly projected as shown in FIG. 5, the light beam passing through the diffraction grating 28 is one beam 27. Appears at the desired position.

As described above, according to the line pointer using the diffraction grating according to the present invention, a laser diode light source unit for emitting a laser beam, a lens unit for focusing the beam emitted from the laser diode light source unit, and a beam passing through the lens unit It consists of a diffraction grating that projects forward by adjusting the beam to one beam or line beam, which can solve the trouble of having to move the direction beam in the desired direction, and it is advantageous to focus the eyes to the place to be focused by the line beam. have.

Therefore, the line pointer using the diffraction grating of the present invention has an excellent effect of displaying the beam of the indicator rod as one beam or line beam by mounting the diffraction grating on the front of the focusing lens that focuses the laser light or visible light generated from the laser diode. have.

Claims (3)

A laser diode light source unit emitting a laser beam, a lens unit focusing the beam emitted from the laser diode light source unit, and a diffraction grating unit projecting forward by adjusting the beam passing through the lens unit with an imbeam or a line beam Line pointer using a diffraction grating. The line pointer using the diffraction grating of claim 1, wherein the diffraction grating portion is divided into a portion in which a plurality of diffraction gratings are formed and a portion in which the diffraction grating is not formed. The line pointer using a diffraction grating according to claim 2, wherein the diffraction grating portion is mounted on the front surface of the lens portion to be rotated 180 °.