KR100332884B1 - A device for laser scanning - Google Patents

Abstract

The present invention provides a laser scanner, in which a beam detector is installed to detect an initial beam when a beam emitted from a laser diode is reflected by a multi-sided mirror, and is integrally installed on a motor substrate on which a multi-sided mirror is installed, thereby preventing deviation from a product. The present invention relates to a laser scanner device that minimizes defects caused by a change in the mounting position when the beam detector is mounted. The technical configuration includes: a main body unit in which an optical lens and a drum are installed inside the case; A beam emitter in which a laser diode is installed on a substrate installed inside the beam reflector, and a beam reflector in which a multiple mirror is installed to rotate through driving of a motor having a clockwise rotation on an upper side of the motor substrate installed inside the case; The beam detection lens and the photodiode are fixed to the fixing groove formed on one side of the motor substrate through the fixing holder. And that comprise the initial beam detecting a vehicular

Description

Laser scanning device {A DEVICE FOR LASER SCANNING}

The present invention provides a laser scanner, in which a beam detector is installed to detect an initial beam when a beam emitted from a laser diode is reflected by a multi-sided mirror, and is integrally installed on a motor substrate on which a multi-sided mirror is installed, thereby preventing deviation from a product. The present invention relates to a laser scanner device which minimizes and prevents defects caused by a change in mounting position when a beam detector is mounted.

In the known laser scanner, if the beam emitted from the laser diode is rotated at a constant speed by the motor, it is reflected by the mirror and then imaged on the drum through the optical lens, whereby a line on the drum is scanned. After that, a synchronization signal for an output operation is required on the next line, and the synchronization signal attaches a photodiode for beam detection at a position (beam detection point) considering a proper time interval at the beginning of one line, The signal from the diode is used as the signal to start printing.

In the conventional laser scanner associated with such a technique, as shown in FIG. 1, a multi-sided mirror is rotated by driving a motor having a clockwise rotation on an upper side of the motor substrate 20 installed in the main body 10 (see FIG. 30 is installed, the substrate 50 on which the laser diode 40 is installed on one side of the motor substrate 20 is installed, and the beam detection lens 60 is installed on one side of the motor substrate 20, It is made of a configuration that the reflector 80 is installed on one side of the optical lens 70 installed in front.

In the laser scanner as described above, a beam emitted to the laser diode 40 when the multi-sided mirror 30 is rotated by a motor having a clockwise rotation is reflected on the multi-sided mirror 30 and passes through the optical lens 70. Then, it is to be transmitted to the beam detection lens 60 installed on one side of the substrate 50 through the reflecting mirror (80).

However, in the conventional laser scanner as described above, the beam detection photodiode 60 is installed on the substrate 50 on which the laser diode 40 is installed, and thus the substrate 50 is tilted when the beam is adjusted. The position of the photodiode 60 is determined and a deviation is generated according to the working method and skill of the operator, and a process defect and a product defect are generated by the deviation, and a separate reflector 80 is required for detecting the beam. There were many problems, such as increased parts.

The present invention is to improve the various problems as described above, the object of the present invention is to provide a beam detection unit integrally to the motor board is installed a multi-sided mirror to facilitate wiring and circuit configuration as well as to miniaturize the product In addition, the optical lens can be miniaturized, minimizing the total volume, and maintaining the deviation between products during assembly, making assembly and quality control easy, and minimizing the number of parts and reducing the assembly process. To provide a device.

1 is a schematic diagram showing an operating state of a conventional laser scanning apparatus;

Figure 2 is a schematic diagram showing an operating state of the laser scanning apparatus according to the present invention

Figure 3 is a plan view showing a laser scanning device according to the present invention

Figure 4 is a side structural view showing a laser scanning device according to the present invention

* Description of the symbols for the main parts of the drawings *

110.Exterior case 120.Optical lens

130 ... drum 210 ... substrate

220 ... laser diode 320 ... motor

330 face mirror 430 beam detection lens

440 photodiode 460 fixed holder

The present invention as a technical means for achieving the above object, the main body portion is provided with an optical lens and a drum inside the case,

A beam emitting unit having a laser diode installed on a substrate provided inside the case;

A beam reflector having a multi-sided mirror installed so as to rotate through a drive of a motor having a clockwise rotation on an upper side of the motor substrate provided inside the case;

According to the present invention, a laser scanning device including an initial beam detector configured to fix a beam detection lens and a photodiode through a fixing holder is provided in a fixing groove formed at one side of the motor substrate.

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

Figure 2 is a schematic diagram showing the operating state of the laser scanning apparatus according to the present invention, Figure 3 is a plan view showing a laser scanning apparatus according to the present invention, Figure 4 is a side view showing a laser scanning apparatus according to the present invention As the structural diagram, the present invention comprises the main body 100 and the beam emitter 200, the beam reflecting unit 300, and the initial beam detector 400 provided inside the main body 100.

The main body 100 is provided with the optical lens 120 and the drum 130 spaced apart from each other at an inner side of the exterior case 110.

The beam emitter 200 installed inside the outer case 110 is installed such that the laser diode 220 is connected to the outer case 110 to the substrate 210 fixed in a vertical state by a bolt or the like. do.

The beam reflector 300, which is installed to reflect the beam emitted from the beam emitter 200 inside the outer case 110, has a clock on the upper side of the motor substrate 310 fixed to the outer case 110. A motor 320 having a rotation in a direction or counterclockwise direction is installed, and a multi-sided mirror 330 is connected thereto.

The initial beam detector 400, which is fixed to one side of the motor substrate 310 and detects the initial beam reflected by the multi-sided mirror 330, beams in the fixing groove 420 formed on one side of the motor substrate 310. The detection lens 430 and the photodiode 440 have a configuration in which the fixing jaw 450 is fixed through the fixing holder 460 protruding from the bottom thereof.

Referring to the operation of the present invention made of such a configuration as follows,

2 to 4, the optical lens 120 and the drum 130 are installed inside the outer case 110 at a predetermined interval so that the beam emitted from the laser audio 220 is a multi-sided mirror. When reflected by 330, a beam passing through the optical lens 120 is supplied to supply a signal to the drum 130.

The laser diode 220 is connected to the multi-sided mirror 330 so that the emitted beam is projected to the substrate 210 fixed in the vertical state by a bolt or the like inside the outer case 110, and the laser diode 220 is It is electrically connected to each other by a circuit pattern formed on the substrate 210.

In addition, the beam emitted from the laser diode 220 installed on the inner substrate 210 of the outer case 110 is clockwise or above the motor substrate 310 fixed to the outer case 110 to reflect the beam. A motor 320 having a counterclockwise rotation is installed so that the multi-sided mirror 330 is integrally connected thereon, and the motor 320 reflects the beam when the multi-faceted mirror 330 is rotated in a predetermined direction. do.

Subsequently, a beam catching lens 330 is installed to detect an initial beam reflected by the multi-faceted mirror 330 to perform an operation of the scanner, and the beam detecting lens 330 is one side of the motor substrate 310. The beam detecting lens 330 and the photodiode 340 are fixed to the inner side of the fixing holder 360 in which the fixing jaw 350 is inserted into the fixing groove 320 formed in the fixing protrusion 350.

In addition, the fixed holder 360 into which the beam detection lens 330 and the photodiode 340 are inserted is rotated counterclockwise to the lower side of the motor substrate 310 when the mirror mirror 330 rotates clockwise. It is installed on the upper side of the 310 to easily detect the beam reflected from the multi-sided mirror 330.

In addition, the initial beam detector 400 includes a beam detection lens 330 and a photodiode 340 inserted into the fixed holder 460 to collect the beams collected by the beam detection lens 330. Is to be read.

Looking at the operating state of the scanner device of such a configuration, if the beam emitted from the laser diode 220 is rotated at a constant speed by the motor 320 is reflected by the mirror 330 and then the optical lens 120 It is imaged on the drum 130, and at this time, after scanning one line on the drum 130, a synchronization signal for output operation is required on the next line, and the synchronization signal is a suitable time interval at the beginning of one line. The photodiode 440 for beam detection is attached to the position (beam detection point) in consideration of this, and the signal from the photodiode 440 is used as a signal for starting printing.

As described above, according to the laser scanning apparatus according to the present invention, the beam detection unit is integrally installed on the motor substrate on which the multi-sided mirror is installed to facilitate wiring and circuit configuration as well as miniaturization of the product, and miniaturization of the optical lens. It is possible to minimize the total volume and to maintain the deviation between products during assembly to facilitate assembly and quality control, to minimize the number of parts and to reduce the process.

Claims (2)

An optical lens 120 and the drum 130 in the interior of the outer case 110, the main body 100 is installed at a predetermined interval spaced, A beam emitting unit 200 installed to connect the laser diode 220 to the substrate 210 in the outer case 110; A beam reflector 300 having a motor 320 having a clockwise or counterclockwise rotation installed on an upper side of the motor substrate 310 fixed to the outer case 110, and having a multi-sided mirror 330 connected thereto. )Wow, And an initial beam detector 400 to which the beam detection lens 430 and the photodiode 440 are fixed so as to be positioned at one side of the motor substrate 310 to the beam reflecting portion of the multi-faced mirror 330. Laser scanning device According to claim 1, wherein the beam detection lens 420 and the photodiode 440 constituting the initial beam detection unit 400, the fixing jaw 450 is formed in the fixing groove 420 formed in the motor substrate 310 Laser scanning device, characterized in that is installed to be fixed through a fixing holder 460 protruding from the bottom