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Digital slice scanner sample identification device and method

A digital slicing and identification device technology, which is applied in the direction of instruments, induction recording carriers, electromagnetic radiation induction, etc., can solve the problems of heavy workload, unreadable barcodes, and inability to write data, etc., and achieve the effect of improving work efficiency

Pending Publication Date: 2019-09-03
MOTIC CHINA GRP CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Using this method, the barcode scanner and the barcode label must be read through light contact. If the specimen is stored inside the digital slide scanner, or the scanned specimens are stacked, the barcode cannot be read because the barcode is blocked
In addition, scanning a large number of barcode labels and comparing and searching is also a very large workload
In addition, the barcode label can only be read in one direction, but cannot write data, and it is not flexible enough to use

Method used

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  • Digital slice scanner sample identification device and method
  • Digital slice scanner sample identification device and method
  • Digital slice scanner sample identification device and method

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0029] Such as figure 1 , figure 2 , image 3 , Figure 4 , Figure 5 As shown, a digital slice scanner specimen identification device includes a digital slice scanner for scanning specimens, wherein the digital slice scanner has a built-in near-field communication NFC read-write module, and an NFC tag is placed on the scanned specimen;

[0030] During the specific work, the digital slice scanner communicates with the NFC tag on the scanned specimen through the near-field communication NFC read-write module to access the relevant information of the scanned specimen, helping the digital slice scanner to obtain and memorize the relevant information and information of the scanned specimen. The scanning situation helps users quickly locate and screen the location and related information of specific specimens among a large number of scanned specimens.

[0031] Using NFC (Near Field Communication) technology, the digital slice scanner and the scanned specimen can read and store...

Embodiment 2

[0039] As the second preferred embodiment of this technical solution, see figure 1As shown, the digital slice scanner 1 scans the specimen 2, wherein the digital slice scanner 1 has a built-in near-field communication NFC read-write module, and the NFC tag 23 is placed on the scanned specimen 2; the digital slice scanner 1 is divided into three areas, wherein: Area A in the figure is the area waiting for scanning, which can accommodate multiple specimens 2 to be scanned; area C in the figure is area C for imaging and scanning, where digital slices such as the optical system, lighting system, mechanical system, and electronic control system of the digital slice scanner 1 The core components of the scan are all located in this area, which is the part that realizes digital slice scanning and imaging; the area B in the figure is the completed scanning area B, which can accommodate multiple scanned specimens 2 .

[0040] see figure 1 As shown, the scanned specimens 2 are verticall...

Embodiment 3

[0044] As the third preferred embodiment of this technical solution, see figure 2 as shown, diagram 2-1 Shown is the stacking of multiple scanned specimens 2, Figure 2-2 Shown is a single scanned specimen 2. In this implementation example, the scanned specimen 2 is composed of a slice 22 , a slice holder 21 and an NFC tag 23 . The slices 22 are placed in the slice holders 21, and each slice holder 21 can accommodate 6 slices 22, of course, the number of slices 22 that the slice holders 21 can accommodate can also be adjusted according to actual needs. An NFC tag 23 is installed on one side of the slicing folder 21, and its position is as follows: Figure 2-2 shown. When multiple scanned specimens 2 are vertically stacked, the NFC tags 23 on the scanned specimens 2 are also vertically stacked (such as diagram 2-1 ).

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Abstract

The invention discloses a digital slice scanner sample identification device, and relates to the digital slice scanner for solving the problem that a bar code scanner can normally read a bar code label through the light contact, and the samples cannot be read due to the shielding of the bar code since the samples are stored in the digital slice scanner or scanning samples are stacked. The device comprises a digital slice scanner, and scanning samples; a near-field communication NFC read-write module is arranged in the digital slice scanner, and a NFC label is arranged on each scanning sample.By using the NFC technology, the NFC label data in a large amount of scanning samples can be read within short time, a feedback indication can be provided, and the working efficiency is greatly improved. The invention further discloses a digital slice scanner sample identification method.

Description

technical field [0001] The invention relates to a digital slice scanner, in particular to a digital slice scanner specimen identification device and method. Background technique [0002] With the development of digital technology, digital slicing technology is more and more widely used. Every day, a large number of specimens need to be scanned into digital slices, which makes the scanning capacity of digital slice scanners more and more large, ranging from dozens to thousands of slices. wait. [0003] In the prior art, digital slice scanners usually use barcode labels to identify the scanned specimens, that is, attach a barcode to each scanned specimen, use the barcode scanner to obtain the barcode information, and then compare the information to find the corresponding specimen . Using this method, the barcode scanner and the barcode label must be read through light contact. If the specimen is stored inside the digital slide scanner, or the scanned specimens are stacked, t...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N35/00G06K7/10H04W4/80
CPCG01N35/00732G06K7/10297H04W4/80G06K7/10009G01N2035/00782G01N2035/00138G01N35/00029G01N2035/00831G06K7/10336G06K7/10356
Inventor 康军江建平陈木旺
Owner MOTIC CHINA GRP CO LTD
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