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Touch display screen structure realized by optical fiber

A technology of touch display screen and display screen, which is applied in the direction of optical fiber bundle, data processing input/output process, instrument, etc. It can solve the problems of low resolution, low brightness, slow touch response speed, etc., and achieve resolution improvement, High mechanical strength, not easy to interfere with the effect

Inactive Publication Date: 2011-06-15
BEIJING JIAOTONG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] The technical problem to be solved by the present invention is to overcome the current problems in high-quality display screens: high cost, low brightness, easy image distortion, low resolution, slow touch response speed, poor anti-interference ability, and poor mechanical strength

Method used

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  • Touch display screen structure realized by optical fiber
  • Touch display screen structure realized by optical fiber
  • Touch display screen structure realized by optical fiber

Examples

Experimental program
Comparison scheme
Effect test

Embodiment approach 1

[0019] The structure of touch display screen realized by optical fiber, such as figure 1 shown. A touch display screen structure realized by optical fiber, the display screen structure includes first to Nth single-mode optical fibers 11, 12, ... 1N, first to Nth multimode optical fibers 21, 22, ... 2N, laser 3 , the first to Nth fiber gratings 41, 42, ... 4N, the first to Nth circulators 51, 52, ... 5N, the first to Nth wavelength division multiplexers 61, 62, ... 6N, the first The first to Nth multimode optical fibers 71, 72, 73, ... 7N for feedback, the spectrometer 8, and the first to Nth single-mode optical fibers 91, 92, ... 9N for feedback.

[0020] Connections between parts:

[0021] The input end of the spectrometer 8 is connected to the first end 611 of the first wavelength division multiplexer through the first multimode optical fiber 71 for feedback, and the second end 612 of the first wavelength division multiplexer is passed through the first single fiber for fe...

Embodiment approach 2

[0034] The structure of touch display screen realized by optical fiber, such as figure 2 shown. figure 2 It is shown that the display screen structure includes the first to the ten thousand single-mode optical fibers 11, 12, ... 110000, the first to the ten thousand multi-mode optical fibers 21, 22, ... 210000, the laser 3, the first to the first Ten thousand fiber gratings 41, 42, ... 410000, first to ten thousand circulators 51, 52, ... 510000, first to ten thousand wavelength division multiplexers 61, 62, ... 610000, first to ten thousand 10,000 multimode optical fibers 71, 72, 73, ... 710000 for feedback, spectrometer 8, the first to ten thousand single-mode optical fibers 91, 92, ... 910000 for feedback;

[0035] Connections between parts:

[0036] The input end of the spectrometer 8 is connected to the first end 611 of the first wavelength division multiplexer through the first multimode optical fiber 71 for feedback, and the second end 612 of the first wavelength divi...

Embodiment approach 3

[0044] The structure of touch display screen realized by optical fiber, such as image 3 shown. image 3 It is shown that the structure of the display screen includes the first to the third hundred million single-mode optical fibers 11, 12, ... 1300000000, the first to the third hundred million multimode optical fibers 21, 22, ... 2300000000, the laser 3, the first to the third 100 million fiber gratings 41, 42, ... 4300000000, the first to the 300 million circulators 51, 52, ... 5300000000, the first to the 300 million wavelength division multiplexers 61, 62, ... 6300000000, the first to the 300 million 300 million multimode optical fibers 71, 72, ... 7300000000 for feedback, spectrometer 8, the first to third hundred million single-mode optical fibers 91, 92, ... 9300000000 for feedback;

[0045] Connections between parts:

[0046] The input end of the spectrometer 8 is connected to the first end 611 of the first wavelength division multiplexer through the first multimode ...

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Abstract

The invention discloses a touch display screen structure realized by an optical fiber, relates to a touch display screen, and is particularly applied to display fields which require high brightness, colorful display screens, touch display and the like. A single mode optical fiber, a multimode optical fiber, an optical fiber grating, a circulator, a wavelength division multiplexer, a multimode optical fiber used for feedback and a single mode optical fiber used for feedback form a pixel point; and N pixel points are arranged into a display screen structure. Optical signals are provided by a laser; and feedback optical signals are detected by a spectrometer. The wavelengths the optical signals at each pixel point are fixed; spectral components in the feedback optical signals are analyzed by the spectrometer; the positions of blocked points are judged so as to acquire the position of touch; therefore, the function of a touch screen is realized. The touch display screen structure realized by the optical fiber solves the problems that the cost is high, the brightness is low, images are easy to distort, the resolution is low, the touch response speed is slow, the anti-jamming capacity is poor and the mechanical strength is poor of the conventional display screen.

Description

technical field [0001] The invention relates to a touch display screen structure realized by optical fiber. It is especially used in display fields requiring high brightness, color display, and touch display. Background technique [0002] With the increasing number of multimedia information inquiries, people are talking about touch screens more and more, because touch screens are not only suitable for the national conditions of China's multimedia information inquiries, but also have many advantages such as durability, fast response, space saving, and easy communication. To distinguish touch screens from the technical principles, they can be divided into five basic types: vector pressure sensing technology touch screens, resistive technology touch screens, capacitive technology touch screens, infrared technology touch screens, and surface acoustic wave technology touch screens. Among them, the vector pressure sensing technology touch screen has withdrawn from the stage of hi...

Claims

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Application Information

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IPC IPC(8): G06F3/041G02B6/06
Inventor 温晓东宁提纲李晶周倩胡旭东
Owner BEIJING JIAOTONG UNIV
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