DE8026773U1 - Back projection screen - Google Patents

Description

Dipl.-Ing. Bernd Hopke Steinebergstr. 8961 Durach

Sample registration
Backlight projection screen

Backlight projection screens are known in their simplest form as sandblasted matt glass panels. That Light from a projector incident from behind is scattered on the through-projection screen in such a way that that it appears to an observer who is barely seated at will as something that has arisen directly on the back-projection screen real picture appears. The light emerging from the projector must be scattered in such an angular range be that the incident at a larger angle at the edge of the back projection screen Rays of light reach the observer. Is the scattering power of the rear projection screen not sufficient if an observer sitting in the middle, perpendicular to the backlight projection screen, sees the projected Image lighter in the center than at the edge. This greater brightness in the center of the image is also called a "hot spot" designated. The importance of the fidelity grows the larger the projection screen in relation to it to the distance from the projector, the greater the angle of incidence of light at the edge of the backlight projection screen is.

The greater the scattering power of the rear projection screen, the lower the brightness of the image. With the same krojector light intensity and the same transmittance an observer perceives the image brightness to be greater when the light is not in the whole barely but only scattered in the room part

where the observer normally resides. In order to achieve a bright image without a "hot spot", the light incident on the back-projection screen must be scattered in a targeted manner in such a way that that the incident light at the edge of the back projection screen is mainly in the direction of the center perpendicular scattered over the ■ 'air projection screen will. This targeted scattering cannot be achieved with the previous ground glass or plastic screens.

The back projection screen registered for protection meets these requirements for targeted scattering by a fresnel lens-like front and rear surface. According to Fig Cross-sections, the other surface (2) contains closely spaced parallel transverse grooves with defined cross-sections. The cross-section of both the longitudinal and transverse grooves _; shown in Fig.2 ₃ is designed as a segment of a circle, with the radius r and the length of the chord a of the circle segment remaining the same for the parallel groove, and the chord angle ex that the chord a forms with the median plane of the projection screen ^ from the position of the Depends on the groove. The chord angle * increases steadily as the distance between the groove and the center of the transmitted light projection screen increases.

In this cross-section, each individual groove causes a one-dimensional light scattering, similar to a cylinder lens, in which the scattering angle is defined by the radius r and the length of the chord a. The chord angle (X is also a deflection of the light

in the direction of one of the center perpendiculars of the rear projection screen and one to the grooves reached parallel axis spanned plane.

The light coming from the projector is scattered horizontally through the grooves on one surface and deflected, through the grooves on the other surface the light is vertically scattered and deflected. By the interaction of the two surfaces is therefore the light incident on the rear projection screen at the same time deflected onto the center plumb line and scattered in a defined angular range. Due to the simultaneous The deflection of the light onto the central plumb line becomes a "hot spot" even if the scattering angle is chosen to be small. avoided.

Depending on the choice of cross-section, the light can be vertical scatter in a different angular range than horizontally. This possibility is important because the An observer's eye is usually horizontal in a larger angular range to the back-projection screen moved than vertical.

The number or the ^B ride of the grooves is determined by the resolution limit of the eye.

Claims (2)

Claim to protection Should be protected: 1.) Back projection screen characterized in that it was made of highly transparent material in is of the kind \ that it is formed on one surface closely spaced horizontally running parallel grooves on the other surface has closely spaced vertical parallel grooves. 2.) back projection screen according to claim 1 characterized marked as the cross-section of each groove corresponds to a circle segment, and for each groove the chord of the circle segment forming the groove cross-section with the vertical center line of the backlight projection screen encloses an angle which is greater, the greater the distance of the groove from is the perpendicular.