KR100193596B1 - Anamorphic Lenses for Scanning Optical Devices - Google Patents

Abstract

The present invention relates to a new anamorphic lens capable of simultaneously performing the functions of a collimated lens and a cylindrical lens in a scanning optical device. The main object of the present invention is to determine an incident surface of a collimated lens having an exit surface aspheric. It is processed to have curvature in the sub-scan section so that the function of the collimated lens and the function of the cylindrical lens can be exhibited as one, and it is further aimed to simplify the optical path design of the scanning optical device and reduce the manufacturing cost. will be.

The main configuration for this is to convert the light emitted from the laser diode in parallel with a collimated lens and to form a linear image with a cylindrical lens. In an optical scanning device for scanning a photoconductive drum through a lens, the cylindrical lens is omitted, and the light exiting surface of the collimating lens is processed into an aspherical surface to convert light in parallel, and the incident The surface is processed to have a curvature in the sub-scan section, to exhibit a cylindrical lens function through the incident surface, and to exhibit the collimated lens function through the exit surface.

Description

Anamorphic Lenses for Scanning Optical Devices

1 is an explanatory diagram showing a conventional main scanning state.

2 is an explanatory diagram showing a conventional sub-scanning state.

3 is a plan view of the anamorphic lens of the present invention.

4 is a front view of the anomorphic lens of the present invention.

5 is an explanatory diagram showing a main scanning state of the present invention.

6 is an explanatory diagram showing a sub-scanning state of the present invention.

* Explanation of symbols for main parts of the drawings

1: an amorphous lens 2: laser diode

3: slit 4: Polygen mirror

5: f Lens 6: Photoconductive Drum

11: exit surface 12: entrance surface

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a new anamorphic lens that can simultaneously perform the functions of a collimated lens and a cylindrical lens in a laser scanning unit used in a laser printer or a facsimile.

In the structure of a typical scanning optical device, as shown in FIGS. 1 and 2, the light emitted from the laser diode (a) is passed through the slit (b) and the collimator lens (c) and the cylindrical lens ( Cylindrical) lens (d) must be passed through and then reflected on the polygen mirror (e) to f. The lens f is passed through and the light is directed to the photoconductive drum g.

In such a scanning optical device, the collimating lens c is collimating an elliptical beam generated by a non-point difference, which is inherent to the laser diode, as shown in FIG. As shown in FIG. 2, the light is a parallel beam in the main scanning direction and a beam converging in the sub-scanning direction to form a linear image on the polygon mirror.

Therefore, the collimated lens and the cylindrical lens are essential lenses, and in the related art, since the two lenses are provided as described above, they do not contribute significantly to the cost reduction of the scanning optical device.

Therefore, the present invention is to devise a new anamorphic lens to solve the various problems as described above, the main object of the invention is to have the curvature of the incident surface of the collimating lens having the emission surface as an aspherical surface in the sub-scan section It is intended to achieve the function of the collimated lens and the function of the cylindrical lens by processing, and to go further to simplify the optical path design of the scanning optical device and to reduce the manufacturing cost.

And the main configuration for this is to convert the light emitted from the laser diode in parallel with the collimated lens and to form a linear image with the cylindrical lens, and then the polygen mirror and f · In an optical scanning device for scanning a photoconductive drum through a lens, the cylindrical lens is omitted, and the light exiting surface of the collimating lens is processed into an aspherical surface to convert light in parallel, and the incident The surface is processed to have curvature in the sub-scan section, to exhibit the cylindrical lens function through the incident surface, and to exhibit the function of the collimated lens through the exit surface.

Hereinafter, the configuration and operation of the present invention according to the accompanying drawings in detail as follows.

3 and 4 show a new anamorphic lens 1 of the present invention. FIG. 3 is a plan view showing an exit surface 11, that is, an aspherical surface for collimating function, and FIG. Is a plan view showing a plane of incidence 12.

The following describes the operating state of the present invention configured as described above.

First, the light emitted from the laser diode 2 passes through the slit 3, and then passes through the anamorphic lens 1 of the present invention. First, as shown in FIG. 11) the light passing through is in a parallel beam state, and at the same time, the light passing through the incident surface 12 forms a linear image in the sub-scan direction to form the polygon mirror 4. Are sent to.

Subsequently, the light reflected by the polygon mirror 4 is f · as in the prior art. It is scanned to the photoconductive drum 6 through the lens 5.

As described in detail above, the present invention provides a new anamorphic lens, in which one lens makes the aspherical surface of the exit surface 11 collimate, and the spherical surface of the incident surface 12 acts as a cylinder. Therefore, it is very useful to not only reduce the manufacturing cost but also simplify the design of the internal light path by combining two lenses into one.

Claims (1)

After converting the light emitted from the laser diode in parallel with the collimated lens and imaging the linear image with the cylindrical lens, the polygen mirror and f · In an optical scanning device for scanning a photoconductive drum through a lens, the cylindrical lens is omitted, but the light exiting surface of the collimating lens is processed into an aspheric surface to convert light in parallel, The surface is processed to have a curvature in the sub-scan section, to exhibit the cylindrical lens function through the incident surface, and to perform the collimated lens function through the exit surface. lens.