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Automatic printing and labeling check instrument for plasma virus inactivation

A virus inactivation and automatic printing technology, applied to labeling machines, labels, instruments, etc., can solve the problems of heavy workload, low efficiency, and hidden dangers of blood consumption, and achieve a low workload, high accuracy, and simple structure Effect

Pending Publication Date: 2017-05-10
李智
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, this software is still manually scanned, and only the checking is done by the software. In addition, the printing of barcodes and pasting of barcodes is still done manually. Hidden danger

Method used

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  • Automatic printing and labeling check instrument for plasma virus inactivation
  • Automatic printing and labeling check instrument for plasma virus inactivation
  • Automatic printing and labeling check instrument for plasma virus inactivation

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0040]The automatic labeling device 8 includes a transmission arm 81 and a paper suction device 82. The transmission arm 81 includes a horizontal slide table 83 and a radial slide table 84 connected in a cross shape, and the paper suction device 82 is connected with the radial slide table 84. When the circuit control When board 12 obtains the barcode information on the blood plasma bag, it is sent to printer 7 and prints, and after barcode is printed out, barcode is placed in proper position by tape conveyer 9, and the horizontal sliding table 83 action on the transmission arm 81 will suck The paper device 82 moves to the top of the barcode, the radial sliding table 84 moves down to take out the barcode, and finally moves to the inactivation bag to complete pasting. In this design, the paper suction device 82 is connected with the vacuum pump 10, and the paper suction device 82 is sucked by vacuum negative pressure. The printed barcode is sucked up for easy use. In this embodi...

Embodiment 2

[0042] Automatic labeling device 8 is mechanical arm 13, and mechanical arm 13 is fixed on the crossbeam inside of frame 1 by rotating base 14, and mechanical arm 13 comprises forearm 15 and rear arm 16, and mechanical arm 13 can rotate around rotating base 14, and forearm 15 and Between the rear arms 16, between the rear arm 16 and the rotating base 14 are connected by a rotating bearing 17, the forearm 15 and the rear arm 16 can turn freely, so as to drive the mechanical arm 13 to grab the barcode and paste it on the inactivation bag, the structure is simple , easy to use. Forearm 15 is also provided with gripper 18, and gripper 18 is used for grabbing the printed barcode, and completes the labeling action, after finishing the labeling action, mechanical arm 13 resets, and is positioned at inactivation bag to place the frame above 4 tops. The inactivation bag scanner 6 on the inside of the crossbeam of 1 completes the scanning check procedure.

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Abstract

An automatic printing and labeling check instrument for plasma virus inactivation comprises a rack and a worktable, wherein the worktable is located in the rack; the worktable includes a plasma bag placing table and an inactivation bag placing table; a plasma bag scanner, an inactivation bag scanner, a printer and an automatic labeling device are also arranged in the rack; and the plasma bag scanner is located at the top of the inner side of the plasma bag placing table, and a paper tape transmitter is arranged between the automatic labeling device and the printer. The automatic printing and labeling check instrument disclosed by the invention is simple in structure and convenient to use, and ensures that the steps of scanning, printing, pasting and checking can be automatically completed.

Description

technical field [0001] The invention relates to the field of plasma virus inactivation, in particular to an instrument for automatic scanning, printing, labeling and checking during the process of plasma virus inactivation. Background technique [0002] Plasma is a blood component product with a large clinical demand and high biological risk factors such as viruses. A reliable way to reduce or eliminate transfusion viral infectious diseases caused by the use of plasma is to inactivate the virus in plasma. The methylene blue photochemical plasma virus inactivation method is to inactivate the virus in the separated and prepared plasma, and filter out the residual white blood cells in the plasma, which can safely and effectively inactivate the virus in the plasma, reduce blood transfusion reactions, and make blood transfusion safer. The existing plasma virus inactivation process can be divided into four steps: scanning, printing, pasting, and checking. First scan and print out...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06K17/00G06F19/00B65C9/08B65C9/26
CPCG06K17/00G16H10/40B65C9/08B65C9/26
Inventor 李智
Owner 李智
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