Variable magnification stage light
First Claim
1. An optical projection system for projecting light onto an object in which the area of projected illumination is selectively variable comprising, in combination:
- a projector housing having an open end through which light may be projected along an optical axis;
an open ended reflector received within said housing and aligned generally with said optical axis, said reflector having a lip radius RR ;
a lamp disposed within said reflector;
first and second lenses spaced apart on said optical axis through which light from said light source successively passes and is projected out said open end, said first lens having a radius R1 and a focal length f1, and said second lens having a radius R2 and a focal length f2 ;
a gate having a gate aperture interposed between said reflector and said first lens at an axial distance Lg from said reflector; and
,the diameter of said reflector and its axial spacing with respect to the gate aperture, together with the diameter and focal length of said lenses being selected whereby the following ratio is established;
space="preserve" listing-type="equation">B.sub.1 /B.sub.R ≅
B.sub.2 /B.sub.1 =k where;
BR =arc tan (RR /Lg);
B1 =arc tan (R1 /f1);
B2 =arc tan (R2 /f2); and
,k=constant.
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Accused Products
Abstract
A variable magnification "zoom" spotlight assembly is disclosed in which the diameter and focal length of the focusing lens and object lens are selected so that the angle of incidence of a light ray as it emanates from the lamp and reflector of the assembly and thereafter from the focusing and objective lenses decreases by a constant factor. This angular relationship is established by selecting the diameter and focal length of the focusing lens and objective lens and the diameter and length of the reflector according to the following angular relationship:
B.sub.R /B.sub.F ≅B.sub.1 /B.sub.R ≅B.sub.2 /B.sub.1 =k
Where:
BF =angle of the filament to reflector as measured from the focal axis;
BR =angle of gate to reflector as measured from the focal axis;
B1 =angle of focusing lens as measured from its focal length along the focal axis to its radius;
B2 =angle of objective lens as measured from its focal length along the focal axis to its radius; and,
k=constant.
68 Citations
8 Claims
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1. An optical projection system for projecting light onto an object in which the area of projected illumination is selectively variable comprising, in combination:
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a projector housing having an open end through which light may be projected along an optical axis; an open ended reflector received within said housing and aligned generally with said optical axis, said reflector having a lip radius RR ; a lamp disposed within said reflector; first and second lenses spaced apart on said optical axis through which light from said light source successively passes and is projected out said open end, said first lens having a radius R1 and a focal length f1, and said second lens having a radius R2 and a focal length f2 ; a gate having a gate aperture interposed between said reflector and said first lens at an axial distance Lg from said reflector; and
,the diameter of said reflector and its axial spacing with respect to the gate aperture, together with the diameter and focal length of said lenses being selected whereby the following ratio is established;
space="preserve" listing-type="equation">B.sub.1 /B.sub.R ≅
B.sub.2 /B.sub.1 =kwhere; BR =arc tan (RR /Lg); B1 =arc tan (R1 /f1); B2 =arc tan (R2 /f2); and
,k=constant. - View Dependent Claims (2)
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3. An optical projection system for projecting light onto an object in which the area of projection illumination is selectively variable comprising, in combination:
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a projector housing have an open end through which light may be projected along an optical axis; an open ended reflector received within said housing and aligned generally with said optical axis, said reflector having a lip radius RR and an axial length LR ; a lamp disposed within said reflector; a lens spaced apart from said reflector on said optical axis through which light is projected out said open end, said lens having a radius R1 and a focal length f1 ; a gate having a gate aperture interposed between said reflector and said lens at an axial distance Lg from said reflector; and
,the diameter of said reflector aand its axial spacing Lg with respect to the gate aperture, and the length LR of said reflector together with the diameter and focal length of said lens being selected whereby the following ratio is established;
space="preserve" listing-type="equation">B.sub.R /B.sub.F ≅
B.sub.1 /B.sub.R =kwhere; BF =arc tan (RR /LR); BR =arc tan (RR /Lg); B1 =arc tan (R1 /f1); and
,k=constant.
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4. An optical projection system for projecting light onto an object in which the area of projected illumination is selectively variable comprising, in combination:
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a projector housing having an open end through which light may be projected along an optical axis; an open ended reflector received within said housing and aligned generally with said optical axis, said reflector having a lip radius RR and an axial length LR ; a lamp disposed within said reflector; first and second lenses spaced apart on said optical axis through which light from said light source successively passes and is projected out said open end, said first lens having a radius R1 and a focal length f1, and said second lens having a radius R2 and a focal length f2 ; a gate having a gate aperture interposed between said reflector and said first lens at an axial distance Lg from said reflector; and
,the diameter of said reflector and its axial spacing with respect to the gate aperture, together with the diameter and focal length of said lenses being selected whereby the following ratio is established;
space="preserve" listing-type="equation">B.sub.R /B.sub.F ≅
B.sub.1 /B.sub.R ≅
B.sub.2 /B.sub.1 =kwhere; BF =arc tan (RR /LR); BR =arc tan (RR /Lg); B1 =arc tan (R1 /f1); B2 =arc tan (R2 /f2); and
,k=constant. - View Dependent Claims (5)
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6. In a light projecting assembly, a support, means for establishing a beam of light including a reflector and a light source disposed within said reflector;
- a pair of relatively movable lens disposed in the path of the beam of light;
a carrier for each of said lenses movable upon the support axially of the light beam;
the diameter of the reflector and the diameter and focal length of the lenses and their relative spacing being selected whereby the angle of incidence of a light ray as it emerges from the reflector and thereafter from the focusing lens and from the objective lens, decreases by a constant factor.
- a pair of relatively movable lens disposed in the path of the beam of light;
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7. In a light projector assembly of the type including a housing having an optical axis, an open end reflector aligned with said optical axis and a lamp disposed within said reflector, the improvement comprising lamp support means removably mounted to said housing for selective movement and retention of said lamp generally along said optical axis, said lamp support means including a carriage bracket, a lamp socket mounted on said carriage bracket, a plurality of support posts mounted onto said housing and projecting into said housing, said carriage bracket being coupled for sliding movement along said support posts, a compression spring interposed between said housing and said carriage bracket, thereby biasing said carriage bracket for sliding movemnent along said posts away from said housing, and a threaded adjustment shaft coupled to said carriage bracket and said housing for extending and retracting said carriage bracket along said optical axis in response to rotation of said threaded shaft.
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8. A method for operating a light projector assembly of the type including a gate means for projecting a beam of light through said gate including a reflector and a light source disposed within the reflector, and a pair of relatively movable lens disposed in the path of the beam of light, comprising the steps of selecting the diameter of the reflector and the diameter and focal length of the lenses and adjusting the spacing of the reflector and gate whereby the angle of incidence of a light ray as it emerges from the reflector, through the gate, and thereafter through the focusing lens and the objective lens decreases by a constant factor.
Specification