CN204973985U - Code test -tube rack and coded scanning board thereof - Google Patents

Abstract

The utility model provides a code test -tube rack and coded scanning board thereof, code test -tube rack includes: support body and code portion wherein are equipped with test tube slot in the support body, code portion sets up in support body one side, and every code portion corresponds a test tube slot and a set of character string of representative, and code portion includes identification area and spacer region, and spacer region and identification area are crisscross to be set up, and identification area size shape is the same, and spacer region size shape is the same, and the activity is equipped with the corresponding character of inlay in order to signify this identification area among the identification area, and the coded scanning board includes: plate body and sensor, wherein sensor settings is on the plate body, and the sensor is the interval arrangement in proper order, and the cross sectional shape of sensor is unanimous with identification area's shape, and the interval width between the sensor is the same with the spacer region width the utility model discloses simple structure is reliable, does not need the bar code just can number a large amount of test tubes, and pinpoints the position of each sample test tube, need not scan the bar code, and accurate discernment test tube serial number has reduced the probability that the sample makes mistakes.

Description

Coding rack for test tube and coded scanning plate thereof

Technical field

The utility model relates to a kind of technology of medical instruments field, specifically a kind of coding rack for test tube for Biochemical Analyzer and coded scanning version thereof.

Background technology

Hospital or other medical inspection centers use Biochemical Analyzer to carry out physical signs to a large amount of samples and analyze.Rack for test tube only need be placed in analyzer by operator, and instrument will complete analysis automatically, provides analysis result.Identification and the counting of part rack for test tube are realized by sticked bar-code on rack for test tube, and grasping mechanism drives rack for test tube to be identified the sequence number of rack for test tube by bar code scanner; Also have bottom part rack for test tube and be provided with magnetic, identified the sequence number of rack for test tube by the quantity and position identifying magnetic.But these rack for test tubes can only identify rack for test tube sequence number, can not accurately navigate to concrete test tube.When not sticked bar-code, more easily cause sample entanglement.

Through finding the retrieval of prior art, Chinese patent literature CN201711164, publication date is on 01 19th, 2011, disclose one and automatically respond to infrared laser bar code scanning test tube rack, it comprises the rack for test tube of band position code, phase magnet and magnetic control magnet, is provided with the light-operated window being with light-operated sensing element between rack for test tube base end face and initial markers.Position finding can be carried out to the rack for test tube sequentially or in each rail groove of rack for test tube base of out of order insertion by light-operated sensing element.This apparatus structure is complicated, needs to add bar code to each test tube, adds operation complexity.

Summary of the invention

The utility model, for prior art above shortcomings, proposes a kind of coding rack for test tube and coded scanning plate thereof.

The utility model is achieved through the following technical solutions:

The utility model relates to a kind of coding rack for test tube, and comprising: support body and coding unit, wherein: be provided with cuvette groove in support body, coding unit is arranged at support body side, the corresponding cuvette groove of each coding unit and represent one group of character string.

Described coding unit comprises cog region and spacer region, wherein: spacer region and cog region are crisscross arranged.

Each described cog region size shape is identical, and each spacer region size shape is identical.

Be movably equipped with inlay in described cog region to characterize the corresponding character of this cog region, the cog region as being provided with inlay represents 1, and the cog region without inlay represents 0.

The utility model relates to a kind of for understanding the coded scanning plate that coding rack for test tube is encoded, comprise: plate body and sensor, wherein: sensor setting is on plate body, sensor is spaced successively, the cross sectional shape of sensor is consistent with the shape of cog region, and the interval width between sensor is identical with spacer region width.

Technique effect

Compared with prior art, the utility model is simple and reliable for structure, and simplify the operation step, do not need bar code just can be numbered a large amount of test tube, and accurately locate the position of each sample tube, do not need scanning barcode, accurate identification test tube numbering, reduces the probability sampling and make mistakes.

Accompanying drawing explanation

Fig. 1 is coding rack for test tube structural representation;

Fig. 2 is coding unit schematic diagram;

Fig. 3 is coded scanning plate structure schematic diagram;

Fig. 4 is coded scanning plate operating diagram;

In figure: 1 support body; 2 cuvette grooves; 3 coding unit; 4 cog regions; 5 spacer regions; 6 inlays; 7 sensors; 8 plate bodys; 9 coded scanning plates; 10 coding rack for test tubes.

Detailed description of the invention

Below embodiment of the present utility model is elaborated; the present embodiment is implemented under premised on technical solutions of the utility model; give detailed embodiment and concrete operating process, but protection domain of the present utility model is not limited to following embodiment.

Embodiment 1

The coding rack for test tube 10 of the present embodiment, comprising: support body 1 and coding unit 3, and wherein: be provided with cuvette groove 2 in support body 1, coding unit 3 is arranged at support body 1 side, the corresponding cuvette groove 2 of each coding unit 3.

As shown in Figure 1, be provided with ten cuvette grooves 2 in described support body 1, corresponding support body 1 side must be provided with ten coding unit 3.The corresponding cuvette groove 2. of each coding unit 3

As shown in Figure 2, described coding unit 3 comprises: the spacer region 5 that the cog region 4 that size shape is identical is identical with size shape, wherein: spacer region 5 is arranged between cog region 4, is provided with inlay 6 in cog region 4.The material of inlay 6 is ABS plastic, in white.

Described coding unit 3 is provided with six cog regions 4, must be provided with five spacer regions accordingly.Inlay 6 can be embedded in cog region 4.The cross sectional shape of inlay 6 and size and identical with cog region 4.The cog region 4 being provided with inlay 6 is different with position grouping with the number of the cog region 4 without inlay 6, represents different numbers.The cog region 4 embedding inlay 6 represents 1 in number, and the cog region 4 without inlay represents 0 in number.Coding unit 3 as shown in Figure 2 has three inlays 6 and three blank cog regions 4, and the number of so coding unit representative is 000111.Each coding unit 3 represents a cuvette groove 2.

Embodiment 2

The present embodiment relates to a kind of for understanding the coded scanning plate 9 that coding rack for test tube is encoded, and comprising: plate body 8 and sensor 7, wherein: sensor 7 is arranged at intervals on plate body 8 successively.

As shown in Figure 3, described coded scanning plate 9 is provided with six sensors, 7, six sensors 7 and is linearly arranged at intervals at successively on plate body 8.Sensor 7 is reflective photoelectric sensor, and its cross sectional shape is identical with the shape of cog region 4.Interval width between each sensor 7 equals the width of spacer region in coding unit 3.

When described coded scanning version 9 starts to scan, as shown in Figure 4, coded scanning plate 9 is separated by a distance with support body 1, and each inductor 7 is right against corresponding cog region 4.Coded scanning version 9 has scanned a coding unit 3 will obtain the ordered series of numbers that represents corresponding test tube.

The number of described coding unit 3 changes along with the number of cuvette groove 2, and the cog region 4 in coding unit 3 and the number of inlay 6 also can settings according to actual needs.

Prior art is compared, and the utility model is simple and reliable for structure, and simplify the operation step, do not need bar code just can be numbered a large amount of test tube, and accurately locate the position of each sample tube, do not need scanning barcode, accurate identification test tube numbering, reduces the probability sampling and make mistakes.

Claims (4)

1. a coding rack for test tube, it is characterized in that, comprise: support body and coding unit, wherein: in support body, be provided with cuvette groove, coding unit is arranged at support body side, the corresponding cuvette groove of each coding unit and represent one group of character string, coding unit comprises cog region and spacer region, wherein: spacer region and cog region are crisscross arranged.

2. coding rack for test tube according to claim 1, is characterized in that, each cog region size shape is identical, and each spacer region size shape is identical.

3. coding rack for test tube according to claim 1 and 2, is characterized in that, is movably equipped with inlay to characterize the corresponding character of this cog region in described cog region.

4. one kind for understanding the coded scanning plate of the coding rack for test tube described in above-mentioned arbitrary claim, it is characterized in that, comprise: plate body and sensor, wherein: sensor setting is on plate body, sensor is spaced successively, the cross sectional shape of sensor is consistent with the shape of cog region, and the interval width between sensor is identical with spacer region width.