CN102385106A - Method for energy grade light ray curve transmission - Google Patents

Abstract

The invention relates to a method for energy grade light ray curve transmission, which comprises asymmetric polycondensation lenses and is characterized in that a unit element of the energy grade light ray curve transmission is formed by the asymmetric polycondensation lenses. A light ray exit face of a first cut asymmetric polycondensation lens is connected with, smaller than and within a light ray incident face of a second cut asymmetric polycondensation lens. A light ray exit face of the second cut asymmetric polycondensation lens is connected with, smaller than and within a light ray incident face of a third cut asymmetric polycondensation lens. By means of connection in the repeating mode in sequence, a curved optical medium channel is formed, the curved optical medium channel has two curving modes, wherein one mode is that virtual central symmetry axes of the asymmetric polycondensation lenses of the curved optical medium channel forming the curve are in the same plane, and the other mode is that the virtual central symmetry axes of the asymmetric polycondensation lenses of the curved optical medium channel forming the curve are in two or more than two planes.

Description

The method of ability source class light curve transmission

Technical field

What patent of the present invention related to is the method for ability source class light curve transmission, and especially a kind of optical medium passage through the bending of asymmetric polycondensation mirror composition carries out the method that ability source class light curve transmits.

Background technology

The polycondensation mirror is divided into two kinds in refraction, reflection, total reflection polycondensation mirror and refraction, reflection polycondensation mirror.

The light incident end of polycondensation mirror comprises plane of light incidence, stresses the factor that the polycondensation mirror is cut simultaneously; The beam projecting end of polycondensation mirror comprises the beam projecting face, stresses the factor that the polycondensation mirror is cut simultaneously.

The method of ability source class light curve transmission is with refraction, reflection, total reflection polycondensation mirror (application number: 201010028057.4); Refraction, reflection, total reflection polycondensation mirror are the integrated concentrating method (application number: 201010134349.6) of main body; (application number: 201010028058.9), refraction, reflection polycondensation mirror are the integrated concentrating method (application number: 201010134358.5) be the basis of main body for refraction, reflection polycondensation mirror.

Summary of the invention

The objective of the invention is to form crooked optical medium passage, provide a kind of optical medium passage to carry out the method for ability source class light curve transmission through bending with asymmetric polycondensation mirror.

The method of the present invention's ability source class light curve transmission; Comprise: asymmetric polycondensation mirror; It is characterized in that: constitute the identical element that ability source class light curve transmits through asymmetric polycondensation mirror, asymmetric polycondensation mirror is divided into two kinds in asymmetric refraction, reflection, total reflection polycondensation mirror and asymmetric refraction, reflection polycondensation mirror; Cut the original plane of light incidence of centrosymmetric polycondensation mirror, beam projecting face; The central symmetry axis of polycondensation mirror is vertical with plane of light incidence, the beam projecting face of polycondensation mirror before the cutting; Plane of light incidence, the beam projecting face of cutting aftercondensated mirror are complete planes; It or not curved surface; And plane of light incidence, beam projecting face and the virtual center axis of symmetry out of plumb of cutting aftercondensated mirror, the polycondensation mirror after the cutting is non-central symmetry, the virtual center axis of symmetry is the central symmetry axis before the polycondensation mirror does not have cutting; The plane of light incidence of cutting polycondensation mirror, the line of beam projecting face are vertical with the central symmetry axis of polycondensation mirror, and the plane of light incidence of cutting polycondensation mirror, two lines of beam projecting face have two kinds of positions to concern that first kind is parallel, and second kind is not parallel; The beam projecting face of the asymmetric polycondensation mirror after first cutting connects the plane of light incidence of the asymmetric polycondensation mirror after second cutting; The beam projecting face of the asymmetric polycondensation mirror after first cutting less than and do not exceed the plane of light incidence of the asymmetric polycondensation mirror after second cutting; The beam projecting face of the asymmetric polycondensation mirror after second cutting connects the plane of light incidence of the 3rd the asymmetric polycondensation mirror after the cutting; The beam projecting face of the asymmetric polycondensation mirror after second cutting less than and do not exceed the plane of light incidence of the 3rd the asymmetric polycondensation mirror after the cutting; Repeat successively to connect; Form crooked optical medium passage; Crooked optical medium passage has two kinds of bend mode: first kind is to form the virtual center axis of symmetry of asymmetric polycondensation mirror of crooked optical medium passage on same plane, and second kind is to form the virtual center axis of symmetry of asymmetric polycondensation mirror of crooked optical medium passage on two and plural plane; Optical medium passage in bending; The plane of light incidence of the asymmetric polycondensation mirror after light cuts from first gets into; The beam projecting face of the asymmetric polycondensation mirror after light cuts from last is gone out; In this process, realize the polycondensation and the adjustment of light transmission direction of light, reaching can the transmission of source class light curve.

The method of the present invention's ability source class light curve transmission is provided by following accompanying drawing and embodiment in detail.

Description of drawings

Fig. 1 is the schematic cross-section that the polycondensation mirror of the method for ability source class light curve transmission cuts.

Embodiment

Embodiment: the identical element of ability source class light curve transmission needs stationary installation to fix asymmetric polycondensation mirror, guarantees that crooked optical medium passage is stable; The identical element of ability source class light curve transmission is in sealing state, and its effect is that the effect that guarantees optical medium is not weakened.

Fig. 1 is the schematic cross-section that the polycondensation mirror of the method for ability source class light curve transmission cuts; (1) central symmetry axis of expression polycondensation mirror; The overall transfer direction of representing light in the polycondensation mirror simultaneously; (2) intersection point of the central symmetry axis (1) of plane of light incidence after the cutting of expression polycondensation mirror and polycondensation mirror, the plane of light incidence after the cutting of (3) expression polycondensation mirror, (4) expression polycondensation mirror; (5) the beam projecting face after the cutting of expression polycondensation mirror, the intersection point of the beam projecting face after the cutting of (6) expression polycondensation mirror and the central symmetry axis (1) of polycondensation mirror; The method of attachment of asymmetric polycondensation mirror is: the intersection point (6) of the beam projecting face of first asymmetric polycondensation mirror overlaps with the intersection point (2) of the plane of light incidence of second asymmetric polycondensation mirror; The intersection point (6) of the beam projecting face of second asymmetric polycondensation mirror overlaps with the intersection point (2) of the plane of light incidence of the 3rd asymmetric polycondensation mirror; Repeat successively to connect, form crooked optical medium passage.From symmetrical polycondensation mirror to asymmetric polycondensation mirror; The method of cutting polycondensation mirror is divided into three kinds: first kind is the light incident end of cutting polycondensation mirror; Plane of light incidence (3) after the light incident end of polycondensation mirror is cut by the polycondensation mirror replaces; And the beam projecting end of polycondensation mirror does not cut, and the beam projecting face (5) after the cutting of the beam projecting end of polycondensation mirror and polycondensation mirror overlaps; Second kind is the beam projecting end of cutting polycondensation mirror; Beam projecting face (5) after the beam projecting end of polycondensation mirror is cut by the polycondensation mirror replaces; And polycondensation mirror light incident end does not cut, and the plane of light incidence (3) after the cutting of the light incident end of polycondensation mirror and polycondensation mirror overlaps; The third is the light incident end and the beam projecting end of cutting polycondensation mirror, and the plane of light incidence (3) after the light incident end of polycondensation mirror is cut by the polycondensation mirror replaces, and the beam projecting face (5) after the beam projecting end of polycondensation mirror is cut by the polycondensation mirror replaces.Because refraction, reflection, total reflection polycondensation mirror contracts and reflect, reflect the polycondensation mirror that the light outside critical angle and the critical zone is not had the polycondensation ability; Symmetrical polycondensation mirror through cutting; Become asymmetrical polycondensation mirror; Have equally the light outside critical angle and the critical zone is not had the polycondensation ability; The optical medium passage of the bending of therefore forming by asymmetric polycondensation mirror; The curvature of crooked optical medium passage must be in the critical range of polycondensation mirror, the curvature range of the optical medium passage of the bending that the curvature range of the optical medium passage of the bending of being made up of asymmetric refraction, reflection, total reflection polycondensation mirror is formed greater than asymmetric refraction, reflection polycondensation mirror, when the curvature range of the optical medium passage of bending in asymmetric refraction, reflect within the critical buckling of polycondensation mirror; Crooked optical medium passage can be selected two kinds of asymmetric polycondensation mirrors: first kind is non-symmetrical refraction, reflection, total reflection polycondensation mirror, and second kind is non-symmetrical refraction, reflection polycondensation mirror; When the curvature range of the optical medium passage of bending within the critical buckling of asymmetric refraction, reflection, total reflection polycondensation mirror, crooked optical medium passage is by asymmetric refraction, reflection, total reflection polycondensation mirror; When the curvature range of the optical medium passage of the bending critical buckling greater than asymmetric polycondensation mirror, light is escaped in the optical medium passage of bending, causes optical energy loss.

Claims (6)

1. The present invention can source class the method for light curve transmission; Comprise: asymmetric polycondensation mirror; It is characterized in that: constitute the identical element that ability source class light curve transmits through asymmetric polycondensation mirror, asymmetric polycondensation mirror is divided into two kinds in asymmetric refraction, reflection, total reflection polycondensation mirror and asymmetric refraction, reflection polycondensation mirror; Cut the original plane of light incidence of centrosymmetric polycondensation mirror, beam projecting face; The central symmetry axis of polycondensation mirror is vertical with plane of light incidence, the beam projecting face of polycondensation mirror before the cutting; Plane of light incidence, the beam projecting face of cutting aftercondensated mirror are complete planes; It or not curved surface; And plane of light incidence, beam projecting face and the virtual center axis of symmetry out of plumb of cutting aftercondensated mirror, the polycondensation mirror after the cutting is non-central symmetry, the virtual center axis of symmetry is the central symmetry axis before the polycondensation mirror does not have cutting; The plane of light incidence of cutting polycondensation mirror, the line of beam projecting face are vertical with the central symmetry axis of polycondensation mirror, and the plane of light incidence of cutting polycondensation mirror, two lines of beam projecting face have two kinds of positions to concern that first kind is parallel, and second kind is not parallel; The beam projecting face of the asymmetric polycondensation mirror after first cutting connects the plane of light incidence of the asymmetric polycondensation mirror after second cutting; The beam projecting face of the asymmetric polycondensation mirror after first cutting less than and do not exceed the plane of light incidence of the asymmetric polycondensation mirror after second cutting; The beam projecting face of the asymmetric polycondensation mirror after second cutting connects the plane of light incidence of the 3rd the asymmetric polycondensation mirror after the cutting; The beam projecting face of the asymmetric polycondensation mirror after second cutting less than and do not exceed the plane of light incidence of the 3rd the asymmetric polycondensation mirror after the cutting; Repeat successively to connect; Form crooked optical medium passage; Crooked optical medium passage has two kinds of bend mode: first kind is to form the virtual center axis of symmetry of asymmetric polycondensation mirror of crooked optical medium passage on same plane, and second kind is to form the virtual center axis of symmetry of asymmetric polycondensation mirror of crooked optical medium passage on two and plural plane; Optical medium passage in bending; The plane of light incidence of the asymmetric polycondensation mirror after light cuts from first gets into; The beam projecting face of the asymmetric polycondensation mirror after light cuts from last is gone out; In this process, realize the polycondensation and the adjustment of light transmission direction of light, reaching can the transmission of source class light curve.
2. 2. the method for transmitting according to the said ability of claim 1 source class light curve; It is characterized in that: the central symmetry axis of (1) expression polycondensation mirror; The overall transfer direction of representing light in the polycondensation mirror simultaneously; (2) intersection point of the central symmetry axis (1) of plane of light incidence after the cutting of expression polycondensation mirror and polycondensation mirror, the plane of light incidence after the cutting of (3) expression polycondensation mirror, (4) expression polycondensation mirror; (5) the beam projecting face after the cutting of expression polycondensation mirror, the intersection point of the beam projecting face after the cutting of (6) expression polycondensation mirror and the central symmetry axis (1) of polycondensation mirror; The method of attachment of asymmetric polycondensation mirror is: the intersection point (6) of the beam projecting face of first asymmetric polycondensation mirror overlaps with the intersection point (2) of the plane of light incidence of second asymmetric polycondensation mirror; The intersection point (6) of the beam projecting face of second asymmetric polycondensation mirror overlaps with the intersection point (2) of the plane of light incidence of the 3rd asymmetric polycondensation mirror; Repeat successively to connect, form crooked optical medium passage.
3. 3. the method for transmitting according to the said ability of claim 1 source class light curve; It is characterized in that: from symmetrical polycondensation mirror to asymmetric polycondensation mirror; The method of cutting polycondensation mirror is divided into three kinds: first kind is the light incident end of cutting polycondensation mirror; The light incident end of polycondensation mirror is replaced by the plane of light incidence (3) after the polycondensation mirror cutting, and the beam projecting end of polycondensation mirror does not cut, and the beam projecting end of polycondensation mirror overlaps with beam projecting face (5) after the polycondensation mirror cuts; Second kind is the beam projecting end of cutting polycondensation mirror; Beam projecting face (5) after the beam projecting end of polycondensation mirror is cut by the polycondensation mirror replaces; And polycondensation mirror light incident end does not cut, and the plane of light incidence (3) after the cutting of the light incident end of polycondensation mirror and polycondensation mirror overlaps; The third is the light incident end and the beam projecting end of cutting polycondensation mirror, and the plane of light incidence (3) after the light incident end of polycondensation mirror is cut by the polycondensation mirror replaces, and the beam projecting face (5) after the beam projecting end of polycondensation mirror is cut by the polycondensation mirror replaces.
4. 4. the method for transmitting according to the said ability of claim 1 source class light curve; It is characterized in that: asymmetrical polycondensation mirror does not have the polycondensation ability to the light outside critical angle and the critical zone; The optical medium passage of the bending of therefore forming by asymmetric polycondensation mirror; The curvature of crooked optical medium passage must be in the critical range of polycondensation mirror, the curvature range of the optical medium passage of the bending of forming by asymmetric refraction, reflection, total reflection polycondensation mirror greater than asymmetric refraction, the curvature range that reflects the optical medium passage of the bending that the polycondensation mirror forms.
5. According to claim 1 said can source class the method for light curve transmission, it is characterized in that: when the curvature range of the optical medium passage of the bending critical buckling greater than asymmetric polycondensation mirror, light is escaped in the optical medium passage of bending, causes optical energy loss.
6. 6. according to the method for the said ability of claim 1 source class light curve transmission, it is characterized in that: the identical element of ability source class light curve transmission needs stationary installation to fix asymmetric polycondensation mirror, guarantees that the optical medium passage of bending is stable; The identical element of ability source class light curve transmission is in sealing state, and its effect is that the effect that guarantees optical medium is not weakened.

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