JPH068581Y2 - Light deflection device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial field of application) The present invention relates to an optical deflecting device using a rotating mirror, and in particular, the rotating mirror can be reliably held even by high-speed rotation of a shaft, and the temperature change and the like can be prevented. The present invention relates to an optical deflecting device configured so that the image forming member is not affected.

(Prior Art) In an optical deflector that uses a rotating mirror, the rotating mirror is fixed to the shaft of a motor that rotates at a higher speed than the conventional one in a state of integrally rotating through a mounting member, and the rotating mirror rotates at a high speed. By irradiating the image information, the latent image forming member such as the photosensitive drum is irradiated with the image information, and the predetermined information is written.

The second high-speed motor used for this purpose is
A structure as shown in the figure is used. This motor is of an outer rotor type, in which a magnet 3 is fixed to an outer yoke 2, and a mirror pedestal 1 is fixed to a side surface of the outer yoke 2 via an axial bonding surface 6.

The rotary mirror 1 is attached to a predetermined portion of the mirror base 1.
0 is fixed, and the shaft 4 supports the mirror pedestal 1 so that the mirror pedestal 1 can be rotated.

Further, in the above-mentioned conventional apparatus, the rotary mirror is rotated at tens of thousands of revolutions per minute, the image information is reflected on the mirror formed around the rotary mirror, and the photoconductor drum is irradiated with light. The rotating mirror and the mirror pedestal 1 are made of the same aluminum material, and the outer yoke 2 is made of an iron material.

(Problems to be Solved by the Invention) However, in the above-mentioned conventionally used optical deflector, the materials of the mirror pedestal 1 and the outer yoke 2 are different between iron and aluminum, so that thermal expansion of both members is caused. When the coefficients are different and the environmental temperature is changed, the coefficients of thermal expansion are different, so that the axial bonding surface 6 of both members may be distorted.

Then, the distortion as described above may cause the mirror pedestal 1 to be curved, which may cause a deviation of the path of the light reflected through the rotating mirror 10. As shown in the drawing, this phenomenon occurs particularly remarkably when the fixed portion of the outer yoke 2 is thin, and such a defect is likely to occur in the outer rotor type yoke, and the axial bonding Since a part of the surface 6 is in contact with the rotary mirror 10 through the thin portion of the mirror pedestal 1, the distortion generated in the outer yoke 2 or the mirror pedestal 1 directly becomes the distortion of the rotary mirror 10, and the mirror surface It will also affect.

As described above, when the path of the light reflected by the rotating mirror 10 is not constant, the image information radiated on the photoconductor drum is not written at the correct intervals, so that the image information is formed on the photoconductor drum. In addition to the unclear latent image being formed, a serious problem occurs in that it adversely affects the motor that rotates at high speed.

Further, as described above, when the mirror pedestal 1 is adhered to the side surface of the outer yoke 2, the total thickness L ₁ of the rotating body becomes large, which causes a large rotational moment of the rotor. Occurs, and in particular, in the case of a rotor rotated at a high speed, it is not preferable that the rotational moment becomes large.

(Object of the Invention) The present invention solves the above-mentioned drawbacks of the conventionally used device, and a fixing surface (hereinafter referred to as a radial fixing surface) between the inner surface of the hole of the mirror pedestal and the outer peripheral surface of the inner yoke. It is an object of the present invention to provide an optical deflecting device that prevents the mirror pedestal from being distorted by using a configuration in which the mirror pedestal is used for fixing.

(Means and Actions for Solving Problems) The present invention relates to an apparatus configured to irradiate a photosensitive drum with image information by using a rotating mirror. In the present invention, the mirror pedestal 1 for supporting the rotating mirror and the inner yoke 5 are made of a material such as aluminum,
The mirror pedestal 1 is disposed concentrically with respect to the shaft, and the inner peripheral surface of the mirror pedestal 1 is disposed so as to correspond to the outer peripheral surface of the inner yoke 5. The mirror pedestal is arranged along the axial direction of the outer peripheral surface of the inner yoke 5. 1 and the magnet are fixed to each other to be integrally formed.

Further, in the optical deflector of the present invention, an inner rotor type motor is used, and the mirror pedestal and the magnet are attached to the outer peripheral portion of the inner yoke by fixing means. By using, the radial fixing surface serving as the connecting portion between the outer peripheral portion of the inner yoke and the mirror pedestal is not affected by distortion due to the difference in the thermal expansion coefficient of both members. Further, even when the materials forming the inner yoke and the mirror pedestal are different from each other, adverse effects such as the misalignment of the position of the anti-slope of the mirror due to the influence of temperature change will not occur.

(Embodiment) The configuration of the optical deflecting device of the present invention will be described according to the illustrated embodiment.

As shown in FIG. 1, in the optical deflecting device of the present invention, the motor is of an inner rotor type, and the magnet 3 is fixed around the inner yoke 5 into which the shaft 4 is press fitted. , Constitutes the rotor of the motor.

The rotating mirror of the present invention is provided directly on the rotator, and the rotating mirror rotates by the rotation of the rotator, and the mirror surface formed on the surface reflects light from an image information output device (not shown). Then, the surface of the latent image forming member is irradiated with light.

The rotating mirror 10 that reflects light described above is formed in a substantially disc shape, and has a hole of a predetermined size formed in the central portion, and a large number of mirror surfaces are formed on the surface thereof in a predetermined shape. It is formed at an angle.

Then, the inner surface and part of the side surface of the rotating mirror 10 are brought into contact with the outer peripheral surface of the small diameter portion of the mirror pedestal 1 and the side surface of the flange portion, and further, the holding plate 9 is abutted on the outer side of the rotating mirror 10. They are in contact with each other and fixed by screws 8.

In the inner yoke 5 of the present invention, the mirror base 1 is fixed together with the magnet 3 via the radial fixing surface 7. This mirror pedestal 1 is provided with a hole in its center portion so as to engage with the outer circumference of the inner yoke 5, and the diameter of the hole is formed to be substantially the same as the outer peripheral surface of the inner yoke 5. Then, an adhesive is applied to the fixing surfaces of the both members to fix them.

Therefore, in the optical deflecting device of the present invention, the radial fixing surface 7 formed as the fixing portion of the mirror pedestal 1 to the inner yoke 5 is formed in the thick portion of the material of both members. In such a part, since the thermal expansion distortion due to the temperature change does not occur, even if the temperature inside the electronic copying machine rises during operation,
It does not affect the rotating mirror.

In the embodiment described above, the rotary mirror 10 is made of an aluminum material, the mirror pedestal 1 is also made of an aluminum material, and the shaft 4 and the inner yoke 5 are both made of an iron material. It is made of the same material as that of the conventional optical deflector.

Therefore, even in the above-described embodiment of the present invention, the expansion coefficient of each member differs with respect to the temperature change due to the difference in the material of each member. Since the directionally fixed surface 7 is provided in a portion that is less affected by the influence, the influence can be prevented from appearing in the rotating mirror 10.

Further, as shown in this embodiment, since the mirror pedestal 1 can be fixed to the inner yoke 5 without sandwiching the flange portion of the rotor, the thickness L of the rotating portion of the mirror pedestal 1 can be fixed.
₂ can be formed thinner than in the case of the conventional optical deflector, which allows the motor to be downsized.

(Effect of the Invention) In the optical deflector of the present invention, the motor is the inner rotor type, and the mirror pedestal and the magnet are attached to the outer peripheral portion of the inner yoke by the fixing means. By using such a fixing means, the radial fixing surface serving as the connecting portion between the outer peripheral portion of the inner yoke and the mirror pedestal is not affected by the distortion due to the difference in the thermal expansion coefficient of both members. Further, even when the materials forming the inner yoke and the mirror pedestal are different from each other, adverse effects such as the misalignment of the position of the anti-slope of the mirror due to the influence of temperature change will not occur.

Further, in the optical deflector of the present invention, since the radial fixing surfaces for fixing both members are coaxially formed as the same curved surface, the processing can be performed very easily.

Further, in the optical deflecting device of the present invention, since the rotating body portion can be formed thin, it becomes possible to downsize the motor.

[Brief description of drawings]

FIG. 1 is a sectional view showing the structure of an optical deflecting device of the present invention, and FIG. 2 is a sectional view showing the structure of a conventional device. Reference numeral in the drawing 1 ... Mirror base, 2 ... Outer yoke, 3 ... Magnet, 4 ... Shaft, 5 ... Inner yoke, 6 ...
… Axial bonding surface, 7… Radial fixing surface, 8… Screw,
9 ... Presser plate, 10 ... Rotating mirror.

Claims (1)

[Scope of utility model registration request] 1. An apparatus configured to irradiate a photosensitive drum with image information by using a rotary mirror, wherein a mirror pedestal 1 and an inner yoke 5 supporting the rotary mirror are made of a material such as aluminum. And is arranged concentrically with respect to the shaft, and the inner peripheral surface of the mirror pedestal 1 is arranged so as to correspond to the outer peripheral surface of the inner yoke 5, and is arranged along the axial direction of the outer peripheral surface of the inner yoke 5. An optical deflecting device is characterized in that the mirror pedestal 1 and the magnet are integrally formed by fixing them.