Three-dimensional television with 15 light-sensitive layers and 15 planes. The lens and possibly the light-sensitive layer package are moved.
The 3D television system with 15 light-sensitive layers and adjustable lenses addresses sharpness and depth perception issues by optimizing layer and lens movements, enhancing image quality.
Patent Information
- Authority / Receiving Office
- DE · DE
- Patent Type
- Applications
- Current Assignee / Owner
- BERGER RALPH
- Filing Date
- 2025-11-15
- Publication Date
- 2026-06-11
AI Technical Summary
Existing 3D television technologies face challenges in achieving sufficient sharpness and depth perception due to limitations in light-sensitive layer arrangements and lens movements, necessitating improvements in image projection and assembly techniques.
A 3D television system with 15 light-sensitive layers and a lens assembly that moves back and forth, utilizing a rack and pinion mechanism with a thin film or paper inserted between layers, and adjusting the objective lens for optimal image focus and depth perception.
Enhances image sharpness and depth perception by optimizing the movement and arrangement of light-sensitive layers and lenses, resulting in improved 3D image quality.
Smart Images

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Abstract
Description
[0001] I would like to file a separate patent for this.
[0002] Because of tinted lenses, layer separation, and new drawings.
[0003] The patent is in the field of optics. It concerns 3D television. 1.0. The 3D image is characterized by a camera with 15 light-sensitive layers. 1.1. and broadcast on television in 15 consecutive levels. 1.2. 15 layers and levels should probably be sufficient. 1.3. To achieve sufficient sharpness, the lens, the layer package, or both are moved back and forth. 1.4. During assembly of the light layer package between rack and pinion Fig. 1. Place a thin film on the light layers, with paper in between. Position the gear on the light layers. Afterwards, remove the film. Source: "Proxxon Handbook for Creative Model Makers, p. 353" 1.4.1. To adjust the images, slide or rotate the objective converging lens back and forth. Additionally, the optical layer packet can be moved back and forth. 1.5. The distance between the light layers and between the planes must be determined experimentally. 1.6. The eyepiece lens (diffuser lens) is permanently installed.
Claims
3-50 light-sensitive layers for capturing the 3D image. More precisely, 15 light-sensitive layers. Correspondingly, 15 levels in the television or housing. A lens that moves back and forth. A fixed eyepiece. Spacer blocks between the light-sensitive layers. The distance between the layers must be determined. According to the drawing, it was 2.5 mm. Once set, the distance remains constant. The distance between the layers and within the shaft must also be determined. All optical components can be tinted, tinted differently, not tinted, or partially not tinted. The light-sensitive layers (layer package) can be moved back and forth. The images in the light-sensitive layers can be pulled apart into the layers, separated into shafts. Pixel by pixel. Or not.