Image forming reflecting mirror for constant speed optical scan and optical scanner

Filing Information

• Patent Number: US5233454
• Application Number: US7842713
• Filing date: 02/27/1992
• Issue date: 08/03/1993
• Predicted expiration date: 02/27/2012

• U.S. Classifications: 359/196  · 359/218  ·
• International Classifications: G02B 2608 ·
• International Classifications: 359208;196;213;214;215;216;217;218;219;221;868;869 ·
• Foreign Priority: JP359649 - 02/28/1991 · JP3195418 - 08/05/1991 ·
• View document at: (opens new window):
  USPTO  ·  PAIR  ·  esp@cenet  ·  Patent Family
  * Related patent documents may or may not exist on these sites

Patent Family

Abstract

In an image forming reflecting mirror for a constant speed optical scan, a light beam is convergent in a cross scan-corresponding direction with a point near a starting point of deflection as a starting point of the light beam, and the light beam is deflected at an equal angular velocity and is converged to form a light spot on a scanned face so as to optically scan the scanned face at a constant speed. The image forming reflecting mirror has a shape on a deflecting-reflecting face represented by the following general formula, Y.sup.2 =2RmX-(K+1)X.sup.2, where X designates a coordinate in the direction of an optical axis and Y designates a coordinate in a direction perpendicular to the optical axis with a position on the optical axis as an origin, and Rm designates a radius of curvature on the optical axis and K designates a conical constant. The image forming reflecting mirror has a concave mirror face of a barrel or saddle type in the cross scan-corresponding direction which is separated by a distance Rs from a mirror face on the optical axis and is formed by rotating the shape with an axis perpendicular to the optical axis on the deflecting-reflecting face as a rotational axis. A new conical constant E=K+1 satisfies the following condition, -2.ltoreq.E.ltoreq.15.

Independent Claims | See all claims (14)

1. 1. An image forming reflecting mirror for a constant speed optical scan in which a convergent light beam is deflected at an equal angular velocity and is further converged to form a light spot on a scanned face so as to optically scan the scanned face at a constant speed,said image forming reflecting mirror comprising an aspherical concave reflecting face of a hyperboloidal type having a function for correcting field curvature and linearity;the aspherical concave reflecting face having a conical constant K satisfying K<-1 and an aspherical coefficient A.sub.4 of a fourth order satisfying A.sub.4 .noteq.0.
2. 3. An optical scanner comprising:a light source;a condenser lens for converging a light beam emitted from the light source;a light deflector for deflecting a convergent light beam from the condenser lens at an equal angular velocity;a concave mirror for reflecting a deflected light beam from the light deflector to form a light spot on a scanned face; andlight beam splitting means for separating a light beam reflected on the concave mirror from an incident optical path from said light source to the concave mirror;said concave mirror comprising an image forming reflecting mirror constructed such that the convergent light beam is deflected at the equal angular velocity and is further converged to form the light spot on the scanned face so as to optically scan the scanned face at a constant speed,said image forming reflecting mirror comprising an aspherical concave reflecting face of a hyperboloidal type having a function for correcting field curvature and linearity,the aspherical concave reflecting face having a conical constant K satisfying K<-1 and an aspherical coefficient A.sub.4 of a fourth order satisfying A.sub.4 .noteq.0.
3. 7. An image forming reflecting mirror for a constant speed optical scan in which a light beam is convergent in a main scan-corresponding direction and is divergent in a cross scan-corresponding direction with a point near a starting point of deflection as a starting point of the light beam, and the light beam is deflected at an equal angular velocity and is converged to form a light spot on a scanned face so as to optically scan the scanned face at a constant speed;the image forming reflecting mirror having a shape on a deflecting-reflecting face represented by the following general formula,X=Y.sup.2 /{R.sub.m.sup.2 +.sqroot.[R.sub.m.sup.2 -(1+K)Y.sup.2 ]}+A.sub.2 Y.sup.2 +A.sub.3 Y.sup.3 +A.sub.4 Y.sup.4 + . . . where X designates a coordinate in the direction of an optical axis and Y designates a coordinate in a direction perpendicular to the optical axis with a position on the optical axis as an origin, and R.sub.m designates a radius of curvature on the optical axis, K a conical constant, A.sub.2, A.sub.3, A.sub.4, - - - aspherical coefficients, and symbol .sqroot.[ ] designates a square root of a value within bracket [ ];the image forming reflecting mirror having a concave aspherical toroidal mirror face in the cross scan-corresponding direction which is separated by a distance R.sub.s from a mirror face on the optical axis and is formed by rotating said shape with an axis perpendicular to the optical axis on the deflecting-reflecting face as a rotational axis; anda distance S on a deflecting scanning face between a natural convergent point of said deflected light beam in the main scan-corresponding direction and the starting point of deflection, and said values R.sub.m, K and A.sub.4 satisfying the following conditions,-1.multidot.7.multidot.10.sup.5 <S.multidot.R.sub.m <-0.multidot.7.multidot.10.sup.5-8.multidot.0/10.sup.9 <A.sub.4 /K<8.multidot.0/10.sup.9-0.multidot.4<R.sub.s /S<-0.multidot.3
4. 8. An optical scanner comprising:a light source;a condenser lens for converging a light beam emitted from the light source;a linear image forming lens for focusing and forming a convergent light beam from the condenser lens as a linear image extending in a main scan-corresponding direction;a light deflector having a deflecting-reflecting face in the vicinity of a forming position of said linear image and deflecting a light beam from a side of the linear image forming lens at an equal angular velocity;a concave mirror for reflecting a deflected light beam from the light deflector to form a light spot on a scanned face; andlight beam splitting means for separating a light beam reflected on the concave mirror from an incident optical path from said light source to the concave mirror;said concave mirror comprising an image forming reflecting mirror constructed such that a light beam is convergent in the main scan-corresponding direction and is divergent in a cross scan-corresponding direction with a point near a starting point of deflection as a starting point of the light beam, and the light beam is deflected at the equal angular velocity and is converged to form the light spot on the scanned face so as to optically scan the scanned face at a constant speed,the image forming reflecting mirror having a shape on the deflecting-reflecting face represented by the following general formula,X=Y.sup.2 /{R.sub.m +.sqroot.[R.sub.m.sup.2 -(1+K)Y.sup.2 ]}+A.sub.2 Y.sup.2 +A.sub.3 Y.sup.3 +A.sub.4 Y.sup.4 + . . . where X designates a coordinate in the direction of an optical axis and Y designates a coordinate in a direction perpendicular to the optical axis with a position on the optical axis as an origin, and R.sub.m designates a radius of curvature on the optical axis, K a conical constant, A.sub.2, A.sub.3, A.sub.4, . . . aspherical coefficients, and symbol .sqroot.[ ] designates square root of a value within the bracket [ ];the image forming reflecting mirror having a concave aspherical toroidal mirror face in the cross scan-corresponding direction which is separated by a distance R.sub.s from a mirror face on the optical axis and is formed by rotating said shape with an axis perpendicular to the optical axis on the deflecting-reflecting face as a rotational axis; anda distance S on a deflecting scanning face between a natural convergent point of said deflected light beam in the main scan-corresponding direction and the starting point of deflection, and said values R.sub.m, K and A.sub.4 satisfying the following conditions,-1.multidot.7.multidot.10.sup.5 <S.multidot.R.sub.m <-0.multidot.7.multidot.10.sup.5-8.multidot.0/10.sup.9 <A.sub.4 /K<8.multidot.0/10.sup.9-0.multidot.4<R.sub.s /S<-0.multidot.3.
5. 9. An image forming reflecting mirror for a constant speed optical scan in which a light beam is divergent in a cross scan-corresponding direction with a point near a starting point of deflection as a starting point of the light beam, and the light beam is deflected at an equal angular velocity and is converged to form a light spot on a scanned face so as to optically scan the scanned face at a constant speed;the image forming reflecting mirror having a shape on a deflecting-reflecting face represented by the following general formula,Y.sup.2 =2R.sub.m X-(K+1)X.sup.2 where X designates a coordinate in the direction of an optical axis and Y designates a coordinate in a direction perpendicular to the optical axis with a position on the optical axis as an origin, and R.sub.m designates a radius of curvature on the optical axis and K designates a conical constant;the image forming reflecting mirror having a concave mirror face of a barrel or saddle type in the cross scan-corresponding direction which is separated by a distance R.sub.s from a mirror face on the optical axis and is formed by rotating said shape with an axis perpendicular to the optical axis on the deflecting-reflecting face as a rotational axis; anda new conical constant E=K+1 satisfying the following condition,-2.ltoreq.E.ltoreq.15.
6. 12. An optical scanner comprising:a light source;a coupling lens for coupling a light beam emitted from the light source;a linear image forming lens for focusing and forming a convergent light beam from the coupling lens as a linear image extending in a main scan-corresponding direction;a light deflector having a deflecting-reflecting face in the vicinity of a forming position of said linear image and deflecting a light beam from a side of the linear image forming lens at an equal angular velocity;a concave mirror for reflecting a deflected light beam from the light deflector to form a light spot on a scanned face; andlight beam splitting means for separating a light beam reflected on the concave mirror from an incident optical path from said light source to the concave mirror;said concave mirror being constructed by an image forming reflecting mirror for a constant speed optical scan;the image forming reflecting mirror being constructed such that a light beam is convergent in the main scan-corresponding direction and is divergent in a cross scan-corresponding direction with a point near a starting point of deflection as a starting point of the light beam, and the light beam is deflected at an equal angular velocity and is converged to form a light spot on the scanned face so as to optically scan the scanned face at a constant speed;the image forming reflecting mirror having a shape on the deflecting-reflecting face represented by the following general formula,Y.sup.2 =2R.sub.m X-(K+1)X.sup.2 where X designates a coordinate in the direction of an optical axis and Y designates a coordinate in a direction perpendicular to the optical axis with a position on the optical axis as an origin, and R.sub.m designates a radius of curvature on the optical axis and K designates a conical constant;the image forming reflecting mirror having a concave mirror face of a barrel or saddle type in the cross scan-corresponding direction which is separated by a distance R.sub.s from a mirror face on the optical axis and is formed by rotating said shape with an axis perpendicular to the optical axis on the deflecting-reflecting face as a rotational axis; anda new conical constant E=K+1 satisfying the following condition,-.ltoreq. E.ltoreq.15.