KR20030025344A - a scanner motor having a slip prevention apparatus for polygon mirror - Google Patents

Abstract

PURPOSE: A scanner motor provided with a rotation multi mirror slip protection device is provided to stably maintain the performance of the scanner motor by effectively preventing multi mirror from being slipped during a high rotation through the rotation multi mirror slip prevention device formed at the frame and the rotation multi mirror without employing an additional element. CONSTITUTION: A scanner motor(100) provided with a rotation multi mirror slip protection device includes a printed circuit board(1) for mounting various circuit elements, a sleeve(3) installed on the printed circuit board(1), an axis(2) which is rotated and supported by a bearing inside of the sleeve(3), a core(4) wounded by a coil having a plurality of polarity combined with the outside of the sleeve(3), a rotor frame(5) for installing the rotor combining to the axis(2) and winding the core(4) and a rotation multi mirror(7) supported by the fixing spring to the rotor frame(5), where the scanner motor(100) further includes a slip prevention device provided with a receiving groove formed at a place of the rotation multi mirror(7) and a plurality of protrusions formed at another place of the rotor frame(5) and the rotation multi mirror(7) for preventing the slip phenomena of the rotation multi mirror(7) during the high rotation of the scanner motor(100).

Description

Scanner motor having a slip prevention apparatus for polygon mirror

The present invention relates to a scanner motor having a rotation mirror mirror slip prevention device, and more particularly to a scanner motor having a rotation mirror mirror slip prevention device that can effectively prevent the phenomenon of slipping of the rotating mirror mirror at high speed rotation.

In general, the scanner motor is used in the optical scanning unit of a printing apparatus that prints an image on printing paper such as a copying machine or a printer, and emits a laser beam emitted from a light source such as a laser diode to a scanning lens with a constant angle of view. In order to form an electrostatic latent image on the photosensitive medium of the printing apparatus, the optical conversion means such as a rotating polyhedron is rotated at high speed.

Referring to Fig. 1, a conventional scanner motor is shown. The scanner motor 10 includes a sleeve 3 mounted on the printed circuit board 1, a shaft 2 arranged to be rotatably supported by a bearing 3a inside the sleeve 3, and a coil mounted on an outer circumferential surface of the sleeve 3. A rotor frame 5 for engaging the core 4 on which the 4a is wound and the rotary face mirror 7 fastened to the upper end of the shaft 2 is provided. A rotor 6 surrounding the core 4 is disposed on the bottom of the rotor frame 5, and a magnet 6a for generating electromagnetic force together with the coil 4a is provided on the inner circumferential surface of the rotor 6. In addition, a fixed spring 8 is installed above the rotor frame 5 on which the rotary polygon mirror 7 is mounted so as to prevent the rotary polygon mirror 7 from flowing on its own.

Referring to the operation of the conventional scanner motor 10 configured as described above, first, when an electromagnetic force is generated between the coil 4a and the magnet 6a together with the power supply, the rotor 6 is rotated at a high speed by this. As the rotor 6 is rotated at high speed, the rotor frame 5 coupled with the rotor 6 and the rotating face mirror 7 fixed to the rotor frame 5 are rotated together at high speed. In this process, the laser beam scanned by the rotating polyscopy 7 is emitted to the scanning lens with a constant angle of view.

However, such a conventional scanner motor 10 has a rotating mirror mirror 7 by the elasticity of the spring in a state in which a fixed spring 8 for supporting the rotating mirror mirror 7 is placed on the upper circumferential surface of the rotor frame 5. By only pressing the role, when the scanner motor rotates at a high speed of tens of thousands of RPM, there was a problem that the slip phenomenon may occur due to the weight of the mirror. Such slip phenomenon may cause a vibration of the printing apparatus, a jitter (jitter) defect, and the like, which may directly affect the performance of the printing apparatus.

In order to prevent this problem, a method of fixing the fixing cap for fixing the rotating multi-faceted mirror instead of the fixing spring on the upper side of the rotor frame using a screw means such as a screw has been proposed. However, this method also causes unevenness of the circumferential force applied to the rotating face mirror due to the accuracy of screw tap machining on the rotor frame, the difference in screw fastening force, and the accuracy of machining of the fixing cap. Occurred. In addition, this method has a problem of lowering the productivity as well as raising the production cost by assembling the fixing cap using a screw.

The present invention has been made to solve the above problems, the object of the present invention is to improve the rotation of the scanner motor to stably maintain the performance of the scanner by effectively preventing the slip phenomenon of the rotating multi-face mirror at high speed rotation without using additional parts The present invention provides a scanner motor having a multi-faceted slip preventing device.

1 is a cross-sectional view of a conventional scanner motor.

2 is a cross-sectional view of a scanner motor according to the present invention.

3 is a cross-sectional view of the rotating multi-faceted slip prevention device of the scanner motor of FIG.

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

1: printed circuit board 2: shaft

3: sleeve 3a: bearing

4: core 4a: coil

5: rotor frame 6: rotor

6a: magnet 7: rotating face mirror

10, 100: scanner motor 20: protrusion

30: receiving groove 50: rotating multi-slip mirror slip prevention device

In order to achieve the above object, the present invention provides a printed circuit board on which various circuit components are mounted, a sleeve installed on the printed circuit board, a shaft rotatably supported by a bearing in the sleeve, and a plurality of polarities coupled to the outside of the sleeve. A scanner motor comprising a coil wound with a coil, a rotor frame coupled to an axis and having a rotor surrounding the core, and a rotating face mirror fixed to the rotor frame by a fixed spring, wherein the scanner motor rotates at a high speed. Rotating multi-slip slip characterized in that it comprises a slip preventing device having a water fastening portion formed in one of the rotor frame and the rotating polyhedron and a female fastening portion formed in the other one of the rotor frame and the rotating polyhedron to prevent slip phenomenon of the multi-faceted mirror Provided is a scanner motor having a prevention device.

In a preferred embodiment, the female and male fastening portions are preferably installed on the surfaces of the rotor frame and the rotating polyhedron facing each other in the horizontal direction when the rotor frame and the rotating polyhedron are coupled to each other. Optionally, the female and male fastening portion may be provided on the surfaces of the rotor frame and the rotating face mirror facing each other in the axial direction when the rotor frame and the rotating face mirror are engaged with each other.

In addition, the water fastening portion is composed of at least one protrusion, and the female fastening portion is preferably composed of at least one groove. Alternatively, the female fastening portion may be formed with at least one through opening.

Hereinafter, a scanner motor having a rotating mirror mirror slip prevention device according to the present invention will be described in detail with reference to the accompanying drawings. In the accompanying drawings, the same components as in the prior art are denoted by the same reference numerals.

Referring to Figure 2, there is shown a scanner motor 100 having a rotating multi-faceted slip prevention device according to the present invention. The scanner motor 100 of the present invention is to be rotatably supported by a bearing (3a) in the printed circuit board 1, the sleeve 3 is installed on the printed circuit board 1, the sleeve 3 to which the various circuit components are mounted Rotor frame 5 for engaging the disposed shaft 2, the core 4 on which the coil 4a mounted on the outer circumferential surface of the sleeve 3 is wound, and the rotary face mirror 7 fastened to the upper end of the shaft 2; ).

A rotor 6 surrounding the core 4 is disposed on the bottom of the rotor frame 5, and a magnet 6a for generating electromagnetic force together with the coil 4a is provided on the inner circumferential surface of the rotor 6.

As shown in Figure 3, the upper surface of the rotor frame 5 and the lower surface of the rotary polygon mirror 7 is formed with a rotational mirror slip prevention device 50 for preventing the slip phenomenon of the rotary polygon mirror 7 have. The rotating multi-faceted slip prevention device 50 contacts a plurality of protrusions 20 formed at regular intervals circumferentially around the upper surface of the rotor frame 5 and the rotor frame 5 when combined with the rotor frame 5. It consists of a plurality of projection receiving groove (receiving groove) (30) formed to correspond to the projections 20 at the bottom of the rotating multi-face mirror (7).

Optionally, the protrusion 20 and the protrusion accommodating groove 30 constituting the rotation mirror mirror slip preventing device 50 are extended to be longer than the length of the protrusion 20 in order to secure the slip of the rotation mirror mirror 7. It may be replaced by a projection or a through opening or hole for receiving and supporting it.

In addition, in the present embodiment, it has been described that the rotation mirror mirror slip preventing device 50 is formed on the upper surface of the rotor frame 5 and the bottom surface of the rotation mirror mirror 7, but if necessary, the outer peripheral surface of the rotor frame 5 It may be installed on the inner circumferential surface of the rotary face mirror 7 in contact with it. In this case, the rotation mirror mirror slip prevention device is a protrusion (not shown) formed at a predetermined interval on the outer circumferential surface of the rotor frame 5, and an opening or a groove (not shown) formed on the inner circumferential surface of the rotary polygon mirror 7 to face the protrusion. Not).

On the upper side of the rotor frame 5 on which the rotary face mirror 7 is mounted, a fixed spring 8 is installed to press the rotary face mirror 7 so as not to flow by itself.

Looking at the effect of the scanner motor having a rotary mirror mirror slip prevention device of the present invention configured as described above, first, when the electromagnetic force is generated between the coil 4a and the magnet 6a together with the power supply, 6) is rotated at high speed. As the rotor 6 is rotated at high speed, the rotor frame 5 coupled with the rotor 6 and the rotating face mirror 7 fixed to the rotor frame 5 are rotated together at high speed. At this time, since the rotary mirror 7 is coupled to the rotor frame 5 through the slip prevention device 50, slippage is prevented even if the rotor 6 rotates at a high speed. In this process, the laser beam scanned by the rotating polyscopy 7 is emitted to the scanning lens with a constant angle of view.

As described above, the scanner motor according to the present invention effectively prevents the slip phenomenon of the rotating face mirror at high speed through the rotating face slip prevention device formed on the rotor frame and the rotating face mirror without using additional parts. It provides the effect of maintaining stable performance.

In the above, certain preferred embodiments of the present invention have been illustrated and described. However, the present invention is not limited to the above-described embodiment, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. will be.

Claims (5)

A printed circuit board on which various circuit components are mounted, a sleeve installed on the printed circuit board, a shaft rotatably supported by a bearing inside the sleeve, a coil wound core having a plurality of polarities coupled to the outside of the sleeve, and the shaft In the scanner motor including a rotor frame coupled to the rotor and the rotor surrounding the core, and a rotating mirror fixed to the rotor frame by a fixed spring, Slip including a water fastening portion formed at one of the rotor frame and the rotating polyhedron and a female fastening portion formed at the other one of the rotor frame and the rotating polyhedron to prevent slip phenomenon of the rotating face mirror when the scanner motor rotates at a high speed. A scanner motor having a rotating multi-faceted slip prevention device, characterized in that it comprises a prevention device. The rotary mirror slip according to claim 1, wherein the arm and the water fastening portion are installed on the surfaces of the rotor frame and the rotary polyhedron facing each other in a horizontal direction when the rotor frame and the rotary polyhedron are coupled to each other. Scanner motor with protection device. 2. The rotary polyslip slip according to claim 1, wherein the arm and the water fastening portion are provided on the surfaces of the rotor frame and the rotary polygon mirror facing each other in the axial direction when the rotor frame and the rotary polygon mirror are coupled to each other. Scanner motor with protection device. 4. The scanner motor of claim 2 or 3, wherein the water fastening portion is composed of at least one protrusion and the female fastening portion is composed of at least one groove. 3. The scanner motor of claim 2, wherein the water fastening portion is formed of at least one protrusion, and the female fastening portion is formed of at least one through opening.