CN110605153A - Test tube monitoring method, test tube bracket and device of biological sample detection system - Google Patents

Abstract

The invention provides a test tube monitoring method of a biological sample detection system, which comprises the following steps: scanning the test tubes to be loaded into the test tube bracket in sequence, and storing code scanning information to a processor; controlling the test tubes to enter the material grooves of the test tube brackets, and carrying out information marking on each test tube; and (4) removing the code scanning information of the corresponding test tube in the processor of the test tube to be moved out of the test tube bracket, and sending the code scanning information to the controller of the next procedure. According to the invention, after the code scanning information of the test tubes is stored, information marking is carried out on each test tube, and when the test tubes are moved out to the next station, the test tube information is automatically sent to the controller of the next procedure, so that the code scanning information is shared, repeated code scanning is not required, and the working efficiency is improved. The invention also provides a test tube bracket and a test tube monitoring device.

Description

Test tube monitoring method, test tube bracket and device of biological sample detection system

Technical Field

The invention relates to a test tube monitoring method, a test tube bracket and a device of a biological sample detection system.

Background

In hospitals, a large number of blood or body fluid samples need to be tested every day, and different information labels are attached to test tubes to identify the information of test items of the test tubes; and then according to different inspection project information, placing the test tubes on corresponding detection rooms/inspection equipment for centralized processing. At present, most of sample classification work is manual labeling and manual code scanning, after corresponding inspection items are checked, samples are placed into a designated storage box, and the sample classification work is high in labor intensity and low in working efficiency. Automatic classification equipment is adopted in some hospitals and independent laboratories, and the sample is loaded, conveyed, labeled, scanned, read and sorted, so that the working efficiency is improved. However, the existing test tube brackets are all hole seat type: when the test tube is transferred from one station to another station, the test tube is collected manually, taken out in sequence and placed into the next station, so that the operation is inconvenient, an automatic device is arranged in time to realize the operation, the efficiency is low, and after the code of the test tube information is scanned at the station, the code of the next station needs to be further scanned, so that the test tube and the code scanning information can be corresponded, and the operation on the station is carried out; therefore, the working efficiency thereof is yet to be further improved.

Disclosure of Invention

In view of the disadvantages of the prior art, an object of the present invention is to provide a test tube monitoring method, which stores code scanning information after code scanning of a test tube, performs information marking, and sends the code scanning information to a controller of a next process, so as to facilitate identification of the test tube information without repeated code scanning.

The second purpose of the invention is to provide a test tube bracket which is convenient for loading and unloading test tubes, is convenient for correlating test tube information, does not need to repeatedly scan codes and greatly improves the working efficiency.

The invention also aims to provide a test tube monitoring device which is used for carrying out information storage and monitoring management on the test tube and providing a human-computer interaction management system.

In order to achieve the above object, in one aspect, the present invention provides a test tube monitoring method of a biological sample detection system, including:

scanning the test tubes to be loaded into the test tube bracket in sequence, and storing code scanning information to a processor;

controlling the test tubes to enter the material grooves of the test tube brackets, and carrying out information marking on each test tube;

and (4) removing the code scanning information of the corresponding test tube in the processor of the test tube to be moved out of the test tube bracket, and sending the code scanning information to the controller of the next procedure.

According to the invention, after the code scanning information of the test tubes is stored, information marking is carried out on each test tube, and when the test tubes are moved out to the next station, the test tube information is automatically sent to the controller of the next procedure, so that the code scanning information is shared, repeated code scanning is not required, and the working efficiency is improved.

According to another embodiment of the invention, the method further comprises: according to sweeping sign indicating number information, the silo that the distribution test tube got into the test tube bracket realizes the classification of test tube and places, makes things convenient for the test tube to shift out to next station, and the information management and the sending of being convenient for further improve work efficiency.

According to another embodiment of the invention, the information marks are represented by matrix symbols.

According to another embodiment of the invention, the method further comprises marking carrier label information of the test tube carrier, the information marking comprising carrier label information.

According to another embodiment of the present invention, the carrier tag information is pre-stored to a management system; the management system displays the use state of the test tube bracket.

In a second aspect, the invention provides a test tube bracket, which is box-shaped with an opening at the upper part, wherein a plurality of partition plates are arranged in the box-shaped, the plurality of partition plates are parallel to and uniformly distributed on the side wall of the box-shaped, a trough is formed by two adjacent partition plates, and the width of the trough is adapted to the diameter of a test tube; the box-shaped front side wall is a movable baffle. Realize the last unloading of test tube through the test tube bracket, make things convenient for the storage and the management of test tube information to make things convenient for the test tube to shift to another station from a station. And an equipment foundation is provided for realizing the test tube monitoring method.

In yet another aspect, the present invention provides a test tube monitoring device for a biological sample testing system, comprising:

the code scanning unit is used for scanning the codes of the test tubes to be loaded into the test tube bracket;

the information storage unit is used for storing the code scanning information and marking information of each test tube;

and the information sending unit is used for sending the code scanning information of the test tube to be moved out of the test tube bracket to the next station where the test tube needs to enter.

According to another embodiment of the present invention, the test tube monitoring apparatus further comprises a trough allocation unit for allocating a trough to the test tube according to the acquired test tube code scanning information.

According to another embodiment of the present invention, the test tube monitoring apparatus further comprises a tray marking unit for scanning and pre-storing information of the test tube tray and marking a use status.

According to another embodiment of the present invention, the test tube monitoring device comprises a management system for monitoring the status of the test tubes and the test tube holders, managing and viewing information, and querying the processing results.

The present invention will be described in further detail with reference to the accompanying drawings.

Drawings

FIG. 1 is a schematic flow chart of a test tube monitoring method of the biological sample testing system according to example 1;

FIG. 2 is a schematic view of the structure of a test tube holder according to example 1;

FIG. 3 is another schematic structural view of the test tube holder according to example 1;

FIG. 4 is a schematic view showing the structure of the test tube carrier collection in example 1;

FIG. 5 is a schematic view showing the structure of the test tube rack loading according to example 1.

Detailed Description

Example 1

The present embodiment provides a method for monitoring a test tube 2 of a biological sample testing system, as shown in fig. 1 to 5, which includes: and (3) scanning the test tubes 2 to be loaded into the test tube bracket 1 in sequence, and storing the code scanning information to the processor.

In control test tube 2 gets into silo 12 of test tube bracket 1, in a specific embodiment, according to sweeping yard information, distribution test tube 2 gets into silo 12 of test tube bracket 1, because test tube 2 includes different test tube 2 types according to the detection sample of difference, and sweep the information that contains the detection sample among the yard information, therefore, can be according to sweeping yard information, push same silo 12 with test tube 2 of same type in, be convenient for release to next station simultaneously with test tube 2 in the same silo 12, the information management and the transmission of being convenient for, further improve work efficiency.

Each test tube 2 is marked with information, which is represented by a matrix symbol, for example, the test tube carrier 1 comprises N pockets 12, each pocket 12 being marked with a lower case letter, a, b, c, d, … …. In channel a 12, the first pushed tube 2 is labeled a1, and the second pushed tube 2 is labeled a 2; the information label of each test tube 2 is stored and associated with the code scanning information of the corresponding test tube 2. The method further comprises marking carrier label information of the test tube carrier 1, the information marking comprising carrier label information, such as carrier information labels A, B, C, … …, respectively. Pre-storing the label information of the bracket to a management system, namely storing all test tube brackets 1 in the management system, scanning the information of the test tube brackets 1 when the test tube brackets 1 are taken for use, and sending the code scanning information to the management system if the test tube brackets 1 are used after being scanned, wherein the management system displays that the corresponding test tube brackets 1 are used and displays the station information of the test tube brackets 1 in use; if the test tube carrier 1 is not used, the correspondingly marked test tube carrier 1 in the management system is left unused. Meanwhile, the label information of the test tube 2 can be added into the bracket label information of the test tube bracket 1; for example, the test tubes 2 in the a-th cuvette 12 of the test tube holder 1A are labeled Aa1, Aa2, … …, respectively.

Treat the test tube 2 that shifts out test tube bracket 1, remove the yard information of sweeping of corresponding test tube 2 in the treater to will sweep yard information and send the controller of next process. When the test tube 2 is removed, for example, the test tubes 2 in the a-th trough 12 of the test tube holder 1A have Aa1, Aa2, Aa3 and Aa4, and when the test tube 2 is removed, the code scanning information marked with information Aa4, Aa3, Aa2 and Aa1 is sequentially sent to the controller of the next process.

When the test tube 2 in the a-th trough 12 in the test tube bracket 1A has Aa1, Aa2, Aa3 and Aa4, moves out of Aa4 and Aa3, and a new test tube 2 is pushed in, the new test tube 2 is marked as Aa5 and Aa6 in sequence; when the test tubes 2Aa1 and Aa2 exceed the preset time and are not pushed out of the test tube bracket 1 to the next station, an information early warning is given out, so that the test tubes 2Aa1 and Aa2 are firstly pushed out to the next station, and then the test tube 2 is pushed into the trough 12 again. If there are remaining empty receptacles 12 in the test tube carrier 1, or there are other receptacles 12 of the same type of test tube 2, then a prompt is made to push a new test tube 2 into the remaining empty receptacles 12, or there are other receptacles 12 of the same type of test tube 2.

This embodiment is through sweeping sign indicating number information with test tube 2 and storing the back to carry out information mark to each test tube 2, when test tube 2 shifts out to next station, automatic controller with 2 information transmission of test tube to next process realizes sweeping the share of sign indicating number information, need not repeatedly to sweep the sign indicating number, improves work efficiency.

The embodiment also provides a test tube bracket 1, the test tube bracket 1 is in a box shape with an opening at the upper part, a plurality of partition plates 11 are arranged in the box shape, the plurality of partition plates 11 are parallel to the side wall of the box shape and are uniformly distributed, a trough 12 is formed by two adjacent partition plates 11, and the width of the trough 12 is adapted to the diameter of the test tube 2; the box-like front side wall is a movable flap 15. Realize the last unloading of test tube 2 through test tube bracket 1, make things convenient for the storage and the management of 2 information on test tube to make things convenient for test tube 2 to shift to another station from a station. An equipment foundation is provided for realizing the test tube 2 monitoring method. Specifically, the number of the partition plates 11 is 0 to 10, and the test tube holders 1 of different sizes are provided according to the number of the partition plates 11. The handle 13 is arranged on the outer side of the box-shaped rear side wall, so that the carrying and the transferring are convenient. The box-like includes window 14, and window 14 sets up in the left side wall of box-like, and the right side wall. The boxlike leading flank is equipped with the sensor, and the sensor is baroceptor, or earth magnetism sensor, or ambient light sensor, detects whether empty silo 12 is in the silo 12. The test tube carrier 1 further comprises a processor which stores the code scanning information of the test tubes 2 and performs information marking on each test tube 2. The processor is an RFID chip or an IC chip. And synchronously uploading the information of the processors to a server or a cloud server. The test tube bracket 1 further comprises an information display screen, the information display screen is arranged on the box-shaped rear side wall, displays the number of the test tubes 2 in each trough 12, performs information statistics, and facilitates manual checking and information calibration; and synchronously uploading the information to a management system for information checking to ensure that the information of the test tubes 2 is not accurate. The front side of the box-shaped body, corresponding to each trough 12, is also provided with a sensor for detecting the sliding in and out of the test tube 2 and a counting device.

In the embodiment, the test tube 2 is hung in the trough 12 formed by the partition plate 11, and the test tube 2 slides in the trough 12, so that the feeding and the discharging of the test tube 2 are realized; the width of the trough 12 is adapted to the diameter of the test tube 2, which means that the test tube 2 can be hung on the trough 12 and slide. This embodiment includes glass pipe and block to test tube 2, and the block diameter is greater than this test tube bracket 1 of characteristic design of glass pipe diameter, makes things convenient for the upper and lower unloading of test tube 2, and the relevance of the 2 information in test tube of being convenient for need not the repetition and sweeps the sign indicating number, greatly improves work efficiency. Referring to fig. 4-5, the receiving and loading structure of the test tube 2 is shown schematically.

The present embodiment further provides a device for monitoring a test tube 2 of a biological sample detection system, comprising:

a code scanning unit for scanning the code of the test tube 2 to be loaded into the test tube bracket 1;

the information storage unit is used for storing the code scanning information and marking the information of each test tube 2;

and the information sending unit is used for sending the code scanning information of the test tube 2 to be moved out of the test tube bracket 1 to the next station where the test tube 2 needs to enter.

The test tube 2 monitoring device further comprises a trough 12 distribution unit for distributing the trough 12 to the test tube 2 according to the acquired test tube 2 scanning information. Specifically, it may further include a control unit for controlling the opening and closing of the shutter 15 of the corresponding trough 12.

The test tube 2 monitoring device further comprises a bracket marking unit, wherein the bracket marking unit is used for scanning and pre-storing the information of the test tube bracket 1 and marking the use state.

The test tube 2 monitoring device further comprises a management system, and the management system is used for monitoring the states of the test tubes 2 and the test tube brackets 1, managing and viewing information and inquiring processing results.

Although the present invention has been described with reference to the preferred embodiments, it is not intended to limit the scope of the invention. It will be appreciated by those skilled in the art that changes may be made without departing from the scope of the invention, and it is intended that all matter contained in the above description or shown in the accompanying drawings shall be interpreted as illustrative and not in a limiting sense.

Claims (10)

1. A method of tube monitoring for a biological specimen testing system, the method comprising:

scanning the test tubes to be loaded into the test tube bracket in sequence, and storing code scanning information to a processor;

controlling the test tubes to enter the material grooves of the test tube brackets, and carrying out information marking on each test tube;

and the test tube to be moved out of the test tube bracket is removed from the processor, the code scanning information corresponding to the test tube is removed from the processor, and the code scanning information is sent to a controller of the next procedure.

2. The cuvette monitoring method according to claim 1, wherein the method further comprises: and distributing the test tubes to enter the troughs of the test tube brackets according to the code scanning information.

3. Test tube monitoring method according to claim 1, characterized in that the information marking is represented by a matrix symbol.

4. A test tube monitoring method according to claim 1, further comprising marking carrier label information of a test tube carrier, the information marking comprising the carrier label information.

5. Test tube monitoring method according to claim 4, characterized in that the carrier label information is pre-stored to a management system; and displaying the use state of the test tube bracket in the management system.

6. A test tube bracket is characterized in that the test tube bracket is in a box shape with an opening at the upper part, a plurality of partition plates are arranged in the box shape and are parallel to and uniformly distributed on the side wall of the box shape, a trough is formed by two adjacent partition plates, and the width of the trough is adapted to the diameter of a test tube; the box-shaped front side wall is a movable baffle.

7. A test tube monitoring device for a biological specimen testing system, the test tube monitoring device comprising:

a code scanning unit, which is used for scanning the code of the test tube to be loaded into the test tube bracket;

the information storage unit is used for storing the code scanning information and marking information of each test tube;

and the information sending unit is used for sending the code scanning information of the test tube to be moved out of the test tube bracket to the next station where the test tube needs to enter.

8. The test tube monitoring apparatus of claim 7, further comprising a magazine dispensing unit for dispensing the test tubes to the magazines based on the acquired test tube code scanning information.

9. The test tube monitoring apparatus of claim 7, further comprising a carrier marking unit for scanning and pre-storing information of the test tube carrier and marking a use status.

10. Test tube monitoring device according to claim 7, characterized in that it comprises a management system for monitoring the status of the test tubes and the test tube holders, managing and viewing information, and querying the processing results.