KR0167461B1 - Motive signal detection method of laser scanner - Google Patents

Abstract

[purpose]

The present invention is to start the scanning (synchronization signal) of the laser beam with respect to each side of the rotating multifaceted mirror used to deflect the laser beam of the recording laser scanner without using an optical sensor, a lens, a mirror or the like. A synchronization signal detection method of a laser scanner capable of detecting a start (synchronization signal).

[Configuration]

The present invention reflects the light emitted from the laser diode (1) in the rotating multifaceted mirror (3) driven by the motor (2) and installs a mirror (4) at the optical path position of the reflected start beam (A) at this time By reflecting the reflection start beam (A) to return to the laser diode (1) to be recognized by the laser detection diode 102 connected to the laser light emitting diode 101 and the output light and the reflected light at the same time again The maximum current flows through the incident, and the maximum current value at this time is recognized by the current sensing circuit 5 of the laser sensing diode and outputted to detect the synchronization signal of the laser scanner.

Description

Synchronization signal detection method of laser scanner

1 is a schematic diagram illustrating a conventional synchronization signal detection method.

2 is a diagram showing the configuration of this embodiment of the invention.

3 is an internal view of the laser diode of this embodiment.

4 is an exemplary diagram of a synchronization signal detection method of this embodiment.

* Explanation of symbols for main parts of the drawings

1: laser diode 2: motor

3: rotating multifaceted mirror 4: mirror

5: current sensing circuit 101: laser light emitting diode

102: laser detection diode

The invention starts scanning of a laser beam with respect to each surface of a rotating multifaceted mirror used to deflect the laser beam of a recording laser scanner without using an optical sensor, a peripheral lens, a mirror or the like. A synchronization signal detection method of a laser scanner capable of detecting (synchronization signal).

Conventionally, as shown in FIG. 1, the laser beam scanned by the laser diode 11 is reflected by the rotating multifaceted mirror 12 rotated by a motor, and the reflected beam is then (a), (b), (c) And the width from the beam a to the beam c is a width deflected by one side of the rotating multifaceted mirror, and the deflection starts from one side of the rotating multifaceted mirror. It was a beam a, which was detected by the optical sensor 14 and outputted outside the laser scanner.

In addition, since the beam (a) increases in size as it proceeds due to the characteristics of light, the beam (a) is connected through the lens (15) and is connected to the optical sensor (14). In this case, the light path is changed according to the position of the optical sensor (14). The mirror 16 was used, and the optical sensor 14 was able to detect the synchronization signal.

However, such a prior art had to use the optical sensor 14, the lens 15, and the mirror 16 to detect the synchronization signal, and thus their positions have a significant influence on the detection of the synchronization signal. There was a closed end where the installation positions of the parts must be made very precisely, and if the position of the parts is not accurate, an error in the detection of the synchronization signal occurs, which causes problems such as a malfunction of the laser scanning system. there was.

The present invention has been made in view of the above-mentioned conventional problems, and reflects a beam scanned from a laser diode in a mirror installed at an arbitrary position on an optical path to return it back to the laser diode and outputs light emitted from the laser diode. Simultaneous incident of the beam and the reflected beam is detected by the current sensing circuit to output a synchronization signal, which will be described below in detail with reference to the accompanying drawings and embodiments.

The light emitted from the laser diode 1 is reflected by the rotating multifaceted mirror 3 driven by the motor 2, and the mirror 4 is installed at the light path position of the reflection start beam A reflected at this time to reflect the reflection. Reflects the start beam A and returns it to the laser diode 1 so that it is recognized by the laser sensing diode 102 connected to the laser light emitting diode 101, and the output light and the reflected light are simultaneously incident again to the maximum. The current of the current flows, and the maximum current value at this time is recognized by the current sensing circuit 5 of the laser sensing diode and outputted so that the synchronization signal can be detected.

As described above, according to the present invention, the mirror 4 having the reflection start beam A, which is output from the laser diode 1 and deflected by the rotating polygon mirror 3 rotated by the motor 2, is installed at an appropriate position of the optical path. When the reflected light is returned to the laser diode 1 again, it is detected by the laser sensing diode 102, and the incident light beam A and the output light from the laser light emitting diode 101 are simultaneously incident together. The maximum current flows.

When the maximum current flows as described above, the current sensing circuit 5 of the laser sensing diode in FIG. 4 recognizes and outputs the current, and the synchronization signal at this time can be detected and reflected by the mirror 4. The reflection of the start beam A is detected by the laser sensing diode of the laser diode and the output is incident together with the output light so that the maximum current obtained at this time is recognized and output to the current sensing circuit. In addition, by adopting the above method, the structure can be simplified to eliminate lenses, optical sensors, etc. as in the prior art, and to prevent malfunctions according to their installation, and to effectively operate the laser system. It is characterized by a dot.

Claims (2)

The light emitted from the laser diode 1 is reflected by the rotating multifaceted mirror 3 driven by the motor 2, and the mirror 4 is installed at the light path position of the reflection start beam A reflected at this time to reflect the reflection. Reflects the start beam A and returns it to the laser diode 1 so that it is recognized by the laser sensing diode 102 connected to the laser light emitting diode 101, and the output light and the reflected light are simultaneously incident again to the maximum. The current flow of the laser signal detection method of the laser scanner, characterized in that the maximum current value at this time is recognized by the current sensing circuit (5) of the laser sensing diode and to output it. The method according to claim 1, wherein a laser sensing diode is provided in the laser diode (1), and the synchronization signal can be detected by the output value thereof.