KR100301164B1 - Polygon mirror assembly device of optical scanning device - Google Patents

Abstract

The present invention discloses a polygon mirror assembly apparatus of an optical scanning device.

The present invention includes a shaft holder extending from the upper end of the engaging jaw, the lower outer peripheral surface has a flange having a seating surface extending; A polygon mirror seated on the flange seating surface of the shaft holder and reflecting the laser beam; An annular pressing piece that is in close contact with the upper surface of the polygon mirror and has a hole formed in the inner circumferential surface, and an elastic piece that is bent and extended in a predetermined step at an interval of 60 degrees from the inner circumferential surface of the pressing piece at an equal interval to be coupled to the lower surface of the locking jaw of the shaft holder. Plate spring made of, including, not only can secure the position of the polygon mirror through the leaf spring, the leaf spring is coupled so that the slip does not occur in the shaft holder to prevent the occurrence of noise due to slip in advance. You get the effect.

Description

Polygon mirror assembly device of optical scanning device

The present invention relates to an optical scanning device, and more particularly, to a polygon mirror assembling device for stably assembling a polygon mirror for total reflection of a laser beam.

In general, in the optical scanning device applied to the laser printer, the most essential part is a polygon mirror provided to totally reflect the laser beam toward the photosensitive drum, and such polygon mirror is rotated at a high speed by the polygon scanning motor. Because of this, its stable assembly becomes very important.

1 shows a conventional example of a polygon mirror assembling apparatus for stably assembling such a polygon mirror.

This is roughly divided into the shaft holder 10 and the leaf spring 20.

The shaft holder 10 is coupled to a rotating shaft of a polygon scanning motor (not shown) and rotates at a high speed, and a locking jaw 11 is formed at an upper end thereof.

On the lower outer circumferential surface of the shaft holder 10, a flange 13 provided with a seating surface 12 is extended.

On the seating surface 12 of the shaft holder 10, a polygon mirror 30 for total reflection of the laser beam is mounted.

The leaf spring 20 is provided to support the polygon mirror 30 on which the shaft holder 10 is seated on the seating surface 12.

The leaf spring 20 has an annular pressing piece 21 in contact with the upper surface of the polygon mirror 30 at the bottom thereof and having a hole (not shown) formed in the center surface thereof.

The elastic piece 22 extends at an equal interval of 120 degrees from the inner circumferential surface of the pressing piece 21 and is fixed to the locking jaw 11 of the shaft holder 10.

The elastic piece 22 is provided with a bent portion and is subjected to an elastic force by being bent and deformed when the bent portion is caught by the latching jaw 11 of the shaft holder 10 so that the polygon mirror 30 is pressed through the pressing piece 21. Pressing elastically.

However, in the conventional polygon mirror assembling apparatus, the pressing force of the polygon mirror 30 through the leaf spring 20 is weakened so that the polygon mirror 30 may flow when the polygon mirror 30 is rotated at high speed with the shaft holder 10. It is inherent.

In addition, when the polygon mirror 30 is rotated at a high speed with the shaft holder 10, the leaf spring 20 is not smoothly rotated together, there is a problem that causes noise by causing a slip.

This problem is because the end of the elastic piece 22 of the leaf spring 20, as shown in the excerpt 1 is a curved portion because the engaging force with the locking jaw 11 of the shaft holder 10 is weak Is generated.

The present invention was created in order to solve such a conventional problem, the optical scanning device that can stably support the polygon mirror, and can prevent the occurrence of noise in particular by preventing the slip occurs during high-speed rotation in advance Its purpose is to provide a polygon mirror assembly apparatus.

1 is a cross-sectional view showing a polygon mirror assembly device of a conventional optical scanning device,

2 is a cross-sectional view showing a polygon mirror assembly device of the optical scanning device according to the present invention;

3a and 3b is a front sectional view and a plan view showing an extract of the leaf spring,

4 is an enlarged view of lumbar excerpts.

<Description of the symbols for the main parts of the drawings>

100: shaft holder 110: locking jaw

120: flange 121: seating surface

200: leaf spring 210: pressure piece

220: elastic piece 221: (concave) inclined surface

222: Edge 300: polygon mirror

Polygon mirror assembly apparatus of the optical scanning device according to the present invention for achieving the above object, the upper end of the engaging projection is formed, the lower outer peripheral surface has a flange holder having a seating surface extending; A polygon mirror seated on a flange seating surface of the shaft holder and reflecting a laser beam; An annular pressing piece which is in close contact with the upper surface of the polygon mirror and has a hole formed in the inner circumferential surface thereof, and is elastically coupled to the lower surface of the latching jaw of the shaft holder by extending in a predetermined step at an interval of 60 degrees from the inner circumferential surface of the pressing piece. It characterized in that it includes a leaf spring;

One preferable feature of the present invention is that the upper surface of each of the elastic pieces of the leaf spring is formed with a concave inclined surface, both ends forming an edge portion.

Hereinafter, a preferred embodiment of the polygon scanning motor of the optical scanning device according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a cross-sectional view showing a polygon mirror assembly device of the optical scanning device according to the present invention, Figure 3 is a front sectional view and a plan view showing the leaf spring, Figure 4 is an enlarged view of the main portion excerpt.

As shown therein, the polygon mirror assembly apparatus of the optical scanning device according to the present invention is roughly divided into the shaft holder 100 and the leaf spring 200.

The shaft holder 100 is coupled to a rotating shaft of a polygon scanning motor (not shown) and rotates at a high speed, and the locking jaw 110 is extended at an upper end thereof.

On the lower outer circumferential surface of the shaft holder 100, a flange 120 having a seating surface 121 is extended.

A polygon mirror 300 for total reflection of the laser beam is mounted on the seating surface 121 of the shaft holder 100.

The leaf spring 200 substantially has the features of the present invention, and the shaft holder 100 is provided to pressurize and support the polygon mirror 300 seated on the seating surface 121.

Looking at the structure of the leaf spring 200, the lower surface is provided with an annular pressing piece 210 in contact with the upper surface of the polygon mirror 300, the hole 211 is formed in the center surface.

From the inner circumferential surface of the hole 211 of the pressing piece 210, the elastic piece 220 is extended at equal intervals of 60 degrees and is fixed to the locking step 110 of the shaft holder 100.

Each elastic piece 220 is provided with a bent portion is provided with an elastic force by the bending portion is bent and deformed when it is caught by the locking jaw 110 of the shaft holder 100, the polygon mirror 300 through the pressing piece 210 Will be elastically pressurized.

At this time, looking at the end of the elastic piece 220, as shown in enlarged in Figure 4 is formed an inclined surface 221 is concave upper surface to form a sharp edge 222.

That is, the leaf spring 200 is not supported by the elastic piece 220 at the six points on the latching jaw 110 of the shaft holder 100, but 12 points through the edge portion 222 of the elastic piece 220. It is supported.

In the present invention having such a configuration, the polygon mirror 300 is pressed by the leaf spring 200 firmly supported by the shaft holder 100 so that no flow is generated even at high speed rotation.

In this case, especially the leaf spring 200 is supported 12 points by the engaging jaw 110 of the shaft holder 100 by the six elastic pieces 220 having the edge 222 does not cause slip even at high speed rotation. .

That is, noise due to slip is not generated.

As described above, according to the polygon mirror assembly apparatus of the optical scanning device according to the present invention, not only can the polygon mirror be firmly fixed through the leaf spring, but the leaf spring is coupled to the shaft holder so that slip does not occur. It is possible to prevent the occurrence of noise in advance.

Claims (2)

A shaft jaw extending at an upper end thereof, and a shaft holder having a flange having a seating surface extending at a lower outer circumferential surface thereof; A polygon mirror seated on a flange seating surface of the shaft holder and reflecting a laser beam; An annular pressing piece which is in close contact with the upper surface of the polygon mirror and has a hole formed in the inner circumferential surface thereof, and is elastically coupled to the lower surface of the latching jaw of the shaft holder by extending in a predetermined step at an interval of 60 degrees from the inner circumferential surface of the pressing piece. Polygon mirror assembly of the optical scanning device comprising a; leaf spring consisting of a piece. 2. The polygon mirror assembling apparatus according to claim 1, wherein an upper surface of each of the elastic pieces of the leaf spring is formed with a concave inclined surface, and both ends thereof constitute an edge portion.