Method for permanently storing data and three-dimensional information carrier

A technology for storing data permanently, applied in methods and three-dimensional information carriers, permanently storing data, can solve problems such as data loss, and achieve the effects of easy information storage and reading, easy long-term storage, and strong operability

Active Publication Date: 2017-12-29
汤淼
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Regardless of whether the backup technology and snapshot technology can be 100% error-free, this is essentially a traditional magnetic storage technology. Once the system loses maintenance, data will still be lost with degaussing

Method used

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  • Method for permanently storing data and three-dimensional information carrier
  • Method for permanently storing data and three-dimensional information carrier
  • Method for permanently storing data and three-dimensional information carrier

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0057] Embodiment one, such as Figure 1-4 And as shown in 8-9, the method for permanently storing data of the present invention is to use a 3D printer capable of printing a base material and an identification material to print a multi-layer information storage body for storing data, more precisely a dense three-dimensional solid, so The multi-layer information storage body uses one identification material to print two (or more than two) different-shaped identification points representing different identification information in each layer of base material. The shape recognition points are shape recognition points of two different shapes (or plot recognition points of two different densities). The shape recognition points of the two different shapes are cylindrical and square cylindrical (or high-density recognition points and low-density recognition points printed on the same recognition material). The base material is glass sand (or ceramics), and the identification material...

Embodiment 2

[0072] Embodiment two, such as Figure 5-8 As shown, the difference between the method for permanently storing data in the present invention and the first embodiment is that two types of identification materials represent material identification points of different identification information; (it can also be four types of material identification points of different materials). The material identification points of the two different materials are one or more of nickel-chromium alloy, gold-platinum-palladium alloy, gold-silver-palladium alloy, pure titanium, resin, and any two of ceramics and glass sand. More specifically glass sand and gold platinum palladium alloy. The material identification point is an identification point that can be read by tomographic scanning; the information reading is to scan and read the position information of the printing material in the multi-layer information storage body layer by layer by using tomographic scanning. (Preferably, the recognition ...

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PUM

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Abstract

The invention relates to a method for permanently storing data and a three-dimensional information carrier. In order to solve the problem that the prior art cannot store densely and permanently store data, an information storage body for storing data is produced by 3D printing. The information storage The body is to use a recognition material in each layer of matrix material to print a variety of character recognition points representing different characteristics of different recognition information; or use a recognition material or matrix material and 3D printing to manufacture hole recognition points representing stored information ; Or use a variety of the above identification materials and 3D printing methods to manufacture material identification points representing different identification information; the property identification points, hole identification points and material identification points are identifications that can be read by tomographic scanning or other non-invasive methods point. The trait recognition points include multiple shape recognition points of different traits and multiple density recognition points of different densities. It has the advantages of high information storage density, easy long-term storage, easy information storage and reading, and strong operability.

Description

technical field [0001] The invention relates to a method for storing data, in particular to a method for permanently storing data and a three-dimensional information carrier. Background technique [0002] For a long time, people have been constantly looking for effective ways to record information. From ancient times to record events with ropes, to recording words on oracle bones, golden tripods, bamboo wood, silk, paper, etc., to the development of computer science in recent decades, new storage methods such as magnetic disks, optical disks, and flash memory continue to emerge , which greatly expands the convenience for people to record and obtain information. However, on another level, people still haven't made breakthrough progress on how to permanently store information. It can be said that the current most advanced information storage methods are not as durable as the rock paintings of the barbaric era. The storage life of magnetic disks and optical discs ranges from...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G11C13/00B22F3/00
Inventor 汤淼
Owner 汤淼
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