NO823839L - SKRIFTPROSJEKTOER - Google Patents

Description

Font projector

The invention relates to a font projector that can project text and images onto opaque material. The, . image-forming unit in writing projectbren according to the invention, forms an image according to a principle which can also be used in other optical devices.... _ _ ._

Skriftpros jekcren is a very practical device. The teacher has the device in front of him when he is facing the students and he can. work with the original while the image is being projected.

But the font projector can only display transparent images. This is a serious limitation. If non-transparent;

material is to be projected, the teacher must use an episcop. These are heavy and expensive devices that make it impossible to work with the original during the projection.

The light yield when projecting non-transparent material is poor, which the manufacturers of episcopes compensate for; by illuminating the original intensely. It is the problem with the light yield that makes the letter projector's open construction unsuitable for non-transparent material. Also, the need to correct lens errors would require a more complicated lens structure instead of the letter projector's simple lens. A well-corrected lens with high brightness is expensive.

With the letter projector according to the invention, one achieves that a bright projection of images, writing or objects is formed on a non-transparent background, even if the lighting of that which. to be projected: is moderate. The projected image is free of refractive errors.

According to the invention, this is achieved by the lens in the known letter projector being replaced by an optical system with high brightness consisting of two curved mirrors. The one convex mirror is a large, ring-shaped, image-forming, concave mirror with a short focal length and which faces down towards what is to be projected.

The second curved mirror is a smaller convex mirror that faces upwards. It is large enough to cover the area that makes up the concave mirror's image of what is to be projected, and it is positioned so that all light rays strike the convex mirror before they reach the image point. The curvature of the convex mirror is adjusted so that the light rays retain a weak convergence after reflection from the mirror, so that the light rays, after passing the hole in the concave mirror, and after reflection from the inclined plane mirror above, form a sharply facing and upright image at a suitable distance from the font projector.

The writing projector according to the invention is shown in section in the drawing.

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What is to be projected 1 is on the work table 2 inside

the sharply defined, circular light field illuminated by a lighting device 3 -^ed reflector h. The light rays from the points in what is to be projected which hit the annular opening between the image-forming concave mirror 5 and convex mirror 6, will be able to form an image. These light rays will be reflected in the concave mirror 5>so that all rays from one

given point 7 in what is to be projected, will converge; towards a common image point'8. Before they reach their image point', however, all light rays will hit the convex mirror 6 and be reflected. Rays of light from a given point 7 in what is to be projected will no longer converge towards their image point 8, but converge more weakly, through the hole in the concave mirror 5>via a plane mirror 9>towards a point 10 at a suitable projection distance from the font projector. The projection will be free of refractive error, "and it will vcore upright and straight-facing as seen from the student's seat. The glass plate 11 covers the hole on the top side•of the ring-shaped concave mirror 5?and prevents dust from penetrating to the...mirroring surfaces. The glass plate 12- covers the entire underside of the ring-shaped concave mirror 5j and has the task of preventing dust from entering the mirroring surfaces, and of keeping the convex mirror 6, reflector h and lighting device 3 in place. Furthermore, the power supply to the lighting device 3 is fed in a wire through the glass plate 12. Focusing screw 13 can adjust the distance between the curved mirrors 5,6 and what is to be projected 1.

Claims (3)

1. Writing projects where the projection lens is replaced by an image-forming element characterized by two convex mirrors (5 > 6) where one convex mirror (5) is relatively large, ring-shaped, concave and image-forming, and faces down towards the should be projected (1), while the other convex mirror (6) is considerably smaller and convex, and faces the hole in the ring-shaped concave mirror ■ (5). The convex mirror (6) is large enough to, and is positioned so that it encloses the area where the concave mirror ($) forms an image of what is to be projected. The convex mirror (6) has a curvature which, after reflection, gives light rays from a given point (7) in what is to be projected a weak convergence, so that after passing the hole in the upper side of the ring-shaped concave mirror (5) j via the plane mirror (9) ), forms image (10)..at a suitable distance from the two convex mirrors (5,6). 2. Writing projects according to claim 1, characterized in that the two curved mirrors (5,6) are enclosed by, <i;> bg" held in position in relation to each other, by two anti-reflection-treated glass plates (11,12), where one (11) covers the hole in the upper side of the concave mirror (5), and the other (12) covers the entire underside of the ring-shaped concave mirror (5) and forms an attachment for the convex mirror (6). 3. According to font projector. requirements 1-2, characterized ..in that the hollow space under the convex mirror (6) provides space for an unspecified lighting device (3) and reflector (h).