CN114492684B

CN114492684B - Biological sample transportation device, intelligent management system and method

Info

Publication number: CN114492684B
Application number: CN202011166210.XA
Authority: CN
Inventors: 刘润东; 刘吉元; 滕培坤; 刘承党; 石甲斌; 谭复智; 李斌
Original assignee: Qingdao Haier Biomedical Co Ltd
Current assignee: Qingdao Haier Biomedical Co Ltd
Priority date: 2020-10-27
Filing date: 2020-10-27
Publication date: 2023-06-20
Anticipated expiration: 2040-10-27
Also published as: CN114492684A

Abstract

The invention discloses a biological sample transportation device, an intelligent management system and a method, wherein a storage or processing device identifier is read through a first reading module, a second reading module is controlled by the first reading module to read the biological sample identifier after the first reading module reads the storage or processing device identifier, when the biological sample identifier is reduced, the reduced biological sample is stored in the storage or processing device, the association relation between the reduced biological sample identifier and the storage or processing device identifier is established, when the biological sample identifier is increased, the increased biological sample is taken out from the storage or processing device to the transportation device, the association relation between the increased biological sample identifier and the storage or processing device identifier is established, and the whole storage processing flow of the biological sample is recorded. Therefore, the invention can realize the access processing process of the recorded biological samples only through the transportation device, does not need to modify and upgrade hardware reading equipment of each storage and processing device, has high access efficiency, is not easy to make mistakes and can greatly reduce the cost.

Description

Biological sample transportation device, intelligent management system and method

Technical Field

The invention belongs to the technical field of medical equipment, and particularly relates to a biological sample conveying device, an intelligent management system and a method.

Background

Currently, after a biological sample is sampled, the biological sample is typically stored, processed, and then applied. The storage process flow of the biological sample recorded manually is very complex and error-prone. A relatively common means is to provide a label on the biological sample, and a reading device is provided at the storage device, and the label on the biological sample is read by the reading device to record the access processing procedure of the biological sample. However, this approach is inefficient in access and prone to error in the case of missed scans; in addition, each set of storage device is required to be additionally provided with a reading device, each device is required to be upgraded to achieve the purpose of reading, and the method is extremely difficult and high in production cost.

The above information disclosed in this background section is only for enhancement of understanding of the background section of the application and therefore it may not form the prior art that is already known to those of ordinary skill in the art.

Disclosure of Invention

The invention aims at the problems in the prior art and provides a biological sample transportation device, an intelligent management system and an intelligent management method, so as to solve the technical problems of low management efficiency, high error rate and high cost.

In order to achieve the technical purpose, the invention is realized by adopting the following technical scheme:

a biological sample transport apparatus for transporting a biological sample having a biological sample identification that embodies the uniqueness of the biological sample, the transport apparatus comprising:

the first reading module is used for reading the storage device identification or the processing device identification;

the second reading module is used for being controlled to read the biological sample identifier after the first reading module reads the storage device identifier or the processing device identifier;

and the control module is used for determining the association relation between the increased and decreased biological samples and the storage device or the processing device according to the increase and decrease of the biological sample identification and the storage device identification or the processing device identification and uploading the association relation to the server.

The biological sample conveying device comprises a display module and an input module, wherein the display module is used for displaying the biological sample identification read by the second reading module; the input module is used for inputting or selecting the biological sample identification placed in the storage device or the processing device.

The biological sample conveying device is characterized in that the control module is used for judging whether the increase or decrease of the biological sample identification is matched with the biological sample identification input or selected by the input module, and outputting prompt information when the increase or decrease of the biological sample identification is not matched with the biological sample identification.

The biological sample transportation device is characterized in that the control module is used for acquiring the operator information and the operation time information and uploading the operator information and the operation time information to the server.

The biological sample transportation device is characterized in that the control module is used for acquiring the processing procedure information of the biological sample processing device and uploading the processing procedure information to the server.

An intelligent biological sample management system, which comprises a biological sample storage device and/or a biological sample processing device and the biological sample transportation device;

a biological sample storage device for storing the biological sample, having a storage device identification for embodying the uniqueness of the biological sample storage device;

a biological sample processing device for processing the biological sample, having a processing device identification for reflecting the uniqueness of the biological sample processing device;

and the server is used for receiving the information uploaded by the control module and generating a biological sample whole-flow database.

The intelligent biological sample management method based on the above comprises the following steps:

the biological sample storage method comprises the following steps: placing the biological sample on the biological sample transport; the transport device transports the biological sample to the storage device, the first reading module reads the storage device identifier, the control module controls the second reading module to read the initial state of the biological sample identifier on the transport device, the biological sample is transferred from the transport device to the storage device, the second reading module reads the residual state of the biological sample identifier remained on the transport device, and the control module determines the association relation between the stored biological sample and the storage device according to the initial state and the residual state and uploads the association relation to the server;

and/or, a biological sample removal method: the transport device reaches the storage device or the processing device, the first reading module reads the storage device identifier or the processing device identifier, the control module controls the second reading module to read the biological sample identifier, the biological sample in the storage device or the processing device is taken out to the transport device, the second reading module reads the taken-out biological sample identifier, and the association relation between the taken-out biological sample identifier and the storage device or the processing device is determined and uploaded to a server;

and/or, a biological sample processing method: the transport device reaches the processing device, the first reading module reads the processing device identifier, the control module controls the second reading module to read the initial state of the biological sample identifier on the transport device, the biological sample is transferred from the transport device to the processing device, the second reading module reads the residual state of the biological sample identifier remained on the transport device, and the control module determines the association relation between the stored biological sample and the processing device according to the initial state and the residual state and uploads the association relation to the server.

According to the intelligent biological sample management method, when the biological sample is stored or processed, the display module of the conveying device displays the biological sample identification read by the second reading module; the input module of the transportation device is used for inputting or selecting the biological sample identifier put in the storage device or the processing device, the control module judges whether the increase or decrease of the biological sample identifier is matched with the biological sample identifier input or selected by the input module, and when the increase or decrease of the biological sample identifier is not matched with the biological sample identifier, prompt information is output.

According to the intelligent biological sample management method, the control module acquires the information of the operator and the operation time information and uploads the information to the server.

According to the intelligent biological sample management method, the control module acquires the processing procedure information of the biological sample processing device and uploads the processing procedure information to the server.

Compared with the prior art, the invention has the advantages and positive effects that: the biological sample transportation device is provided with a first reading module and a second reading module, the storage device identifier or the processing device identifier is read through the first reading module, the second reading module is controlled by the first reading module to read the biological sample identifier after the storage device identifier or the processing device identifier is read, when the biological sample identifier is reduced, the reduced biological sample is stored in the storage device or the processing device, the association relation between the reduced biological sample identifier and the storage device identifier or the processing device identifier is established, when the biological sample identifier is increased, the increased biological sample is taken out from the storage device or the processing device to the transportation device, the association relation between the increased biological sample identifier and the storage device identifier or the processing device identifier is established, and the whole storage processing flow of the biological sample is recorded. Therefore, the invention can realize the access processing process of the recorded biological samples only through the transportation device, does not need to modify and upgrade the hardware reading equipment of each storage device and each processing device, has high access efficiency, is not easy to make mistakes and can greatly reduce the cost.

The intelligent biological sample management system comprises a biological sample storage device and/or a biological sample processing device and a biological sample transportation device, wherein unique identifiers are arranged on the biological sample storage device and the biological sample processing device, the storage device identifiers or the processing device identifiers are read through a first reading module of the transportation device, and the stored or taken biological sample identifiers are read through a second reading module of the transportation device, so that the association relation between the added biological sample identifiers and the storage device identifiers or the processing device identifiers is established, and all storage processing flows of the biological samples are recorded. Therefore, the invention can realize the access processing process of the recorded biological samples by only arranging the unique identification on the storage device and the processing device and the transportation device without modifying and upgrading hardware reading equipment of each storage device and processing device, has high access efficiency, is not easy to make mistakes and can greatly reduce the cost.

The intelligent management method for the biological samples has high access efficiency, is not easy to make mistakes and can greatly reduce the cost.

Other features and advantages of the present invention will become apparent upon review of the detailed description of the invention in conjunction with the drawings.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic block diagram of a biological specimen transport apparatus in accordance with an embodiment of the present invention.

Fig. 2 is a schematic block diagram of a biological sample intelligent management system according to an embodiment of the present invention.

Fig. 3 is a flowchart of a method for storing a biological sample in a storage device according to an embodiment of the present invention.

FIG. 4 is a flow chart of a method for retrieving a biological sample from a storage device according to an embodiment of the present invention.

FIG. 5 is a flow chart of a biological sample processing method according to an embodiment of the present invention.

Detailed Description

Preferred embodiments of the present invention are described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are merely for explaining the technical principles of the present invention, and are not intended to limit the scope of the present invention.

It should be noted that, in the description of the present invention, terms such as "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," and the like indicate directions or positional relationships based on the directions or positional relationships shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the apparatus or elements must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Furthermore, it should be noted that, in the description of the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to the specific circumstances.

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

The embodiment provides a biological sample transportation device, an intelligent management system and a method, which record the access and the processing of biological samples to form a biological sample whole-flow database, thereby being convenient for inquiry and management. The biological sample may be a biological macromolecule, a cell, a tissue, an organ or the like of an organism (including human organ tissue, whole blood, plasma, serum, biological fluid) or a processed biological sample (DNA, RNA, protein, etc.).

The present embodiment will be described by taking a biological sample as an example of a blood sample:

the following describes a biological sample transport apparatus, an intelligent management system and a method, respectively:

as shown in fig. 1, the biological sample transporter is used for transporting a biological sample, and the biological sample transporter includes a transporter body, and a first reading module, a second reading module, a control module, a display module, an input module, and a communication module that are located on the transporter body.

The transport device body generally adopts a transport trolley, which can be a trolley or an electric vehicle, and is provided with a biological sample loading platform for bearing biological samples.

And the first reading module is used for reading the storage device identification or the processing device identification. The first reading module preferably employs an RFID reading module. The storage device identifier is a storage device identifier which is arranged on a storage device (refrigeration equipment such as a refrigerator, a freezer and the like or a refrigeration compartment and the like) and used for reflecting the uniqueness of the biological sample storage device; the processing device identifier is a processing device identifier which is arranged on a processing device (a quick freezing device, an oscillating device, a centrifugal device, a whitening device, a copying device, a separating device, an inactivating device, a cryoprecipitation device and the like) and is used for reflecting the uniqueness of the biological sample processing device. Wherein the storage device identification and the processing device identification preferably use RFID tags.

The first reading module is preferably arranged on the front side of the transport device in order to read the identification on the storage device or the processing device.

The second reading module is used for being controlled to read the biological sample identifier after the first reading module reads the storage device identifier or the processing device identifier. The second reading module preferably employs an RFID reading module. The biological sample identifier is a biological sample identifier provided on a biological sample (typically a package) and having a unique characteristic of the biological sample. Among them, the biological sample identification preferably adopts an RFID label.

The top of the conveying device is provided with a storage platform, and the second reading module is preferably arranged around the storage platform of the conveying device so as to read the biological sample identification.

And the control module is used for determining the association relation between the biological sample and the storage device or the processing device according to the increase and decrease of the biological sample identification and the storage device identification or the processing device identification and uploading the association relation to the server.

Specifically, the second reading module can read the initial state set of all the biological sample identifiers on the transportation device before the transportation device transfers the biological sample onto the storage device or the processing device, and can read the remaining state set of all the biological sample identifiers on the transportation device after the transportation device transfers the biological sample onto the storage device or the processing device, so that the biological sample identifier transferred onto the storage device or the processing device is the initial state set of the biological sample identifier-the remaining state set of the biological sample identifier, and the biological sample identifier transferred onto the storage device or the processing device is associated with the transportation device identifier, the storage device identifier or the processing device identifier. The second reading module is capable of reading the initial set of states of all the biological sample identifiers on the transport device before the storage device or the processing device transfers the biological sample onto the transport device, and is capable of reading the remaining set of states of all the biological sample identifiers on the transport device after the storage device or the processing device transfers the biological sample onto the transport device, so that the biological sample identifier transferred onto the transport device is identified as the remaining set of states of the biological sample identifier-the initial set of states of the biological sample identifier, and the biological sample identifier transferred onto the transport device is associated with the transport device identifier, the storage device identifier or the processing device identifier.

A display module and an input module are arranged on the conveying device, and the display module is used for displaying the biological sample identifier read by the second reading module; the input module is used for inputting or selecting the biological sample identification placed in the storage device or the processing device so as to facilitate the further confirmation of the operator in the process of transferring the biological sample.

The display module and the input module can be two separated devices or a touch display screen with an input function.

The control module is used for judging whether the increase and decrease of the biological sample identification is matched with the biological sample identification input by the input module or selected biological sample identification, and outputting prompt information to remind operators of further confirmation when the biological sample identification is not matched with the biological sample identification, so that errors are avoided.

The control module is used for acquiring the information of the operator and the information of the operation time and uploading the information to the server so as to further record and manage the operation of the operator and the processing process of the biological sample. The operator information can be directly input through the input module, and of course, the unique operator identification can be configured for the operator, and the operator identification is read through the reading module so as to obtain the operator information.

The control module is used for acquiring the processing procedure information of the biological sample processing device and uploading the processing procedure information to the server so as to further record and manage the processing procedure of the biological sample. The operator can input the processing procedure information of the processing equipment through the input module, or the biological sample processing device can record the processing procedure and transmit the processing procedure to the control module in a wired or wireless mode.

As shown in fig. 2, the biological sample intelligent management system of the present embodiment includes the biological sample storage device and/or the biological sample processing device of the biological sample transportation device.

The biological sample transport device is described above and will not be described in detail herein.

The biological sample storage device is used for storing biological samples and is provided with a storage device identifier which is used for reflecting the uniqueness of the biological sample storage device, and the storage device identifier is preferably an RFID label. The biological sample storage device is generally a refrigerating device such as a refrigerator or a freezer, a refrigerating compartment in a freezer, or the like.

A biological sample processing device for processing a biological sample, having a processing device identification, preferably an RFID tag, for representing the uniqueness of the biological sample processing device. The biological sample processing device comprises a quick freezing device, an oscillating device, a centrifugal device, a whitening device, a copying device, a separating device, an inactivating device, a cold sedimentation device and the like.

And the server is used for receiving the information uploaded by the control module and generating a biological sample whole-flow database. The database includes information such as the time of the entire access process of the biological sample, for example, the time of storing in a certain storage device, the time of retrieving from a certain storage device, the time of processing in a certain processing device, etc. The whole biological sample flow database can be used for inquiring information such as the whole access processing process time of a certain biological sample, the storage state of a certain biological sample storage device, whether a certain biological sample processing device is in idle time or processing sample time, processing sample residual time and the like, so that equipment can be reasonably utilized. The server can also receive the tasks, reasonably arrange the access processing process of the biological samples according to the tasks to form an optimized flow, send the optimized flow to the control module, and process the optimized flow issued by the server by the control module so as to ensure the working efficiency.

The embodiment also provides an intelligent biological sample management method, which comprises the following steps:

the biological sample storage method comprises the following steps: placing a biological sample on a biological sample transport; the transport device transports the biological sample to the storage device, the first reading module reads the storage device identifier, the control module controls the second reading module to read the initial state of the biological sample identifier on the transport device, the biological sample is transferred from the transport device to the storage device, the second reading module reads the residual state of the biological sample identifier remained on the transport device, and the control module determines the association relation between the stored biological sample and the storage device according to the initial state and the residual state and uploads the association relation to the server.

And/or, a biological sample removal method: the transport device arrives at the storage device or the processing device, the first reading module reads the storage device identifier or the processing device identifier, the control module controls the second reading module to read the biological sample identifier, the biological sample in the storage device or the processing device is taken out to the transport device, the second reading module reads the taken-out biological sample identifier, and the association relation between the taken-out biological sample identifier and the storage device or the processing device is determined and uploaded to the server.

And/or, a biological sample processing method: the transport device reaches the processing device, the first reading module reads the identification of the processing device, the control module controls the second reading module to read the initial state of the biological sample identification on the transport device, the biological sample is transferred from the transport device to the processing device, the second reading module reads the residual state of the biological sample identification remained on the transport device, and the control module determines the association relation between the stored biological sample and the processing device according to the initial state and the residual state and uploads the association relation to the server.

When the biological sample is stored or processed, the display module of the transportation device displays the biological sample identifier read by the second reading module; the input module of the transportation device is used for inputting or selecting the biological sample identification put into the storage device or the processing device, the control module judges whether the increase and decrease of the biological sample identification is matched with the biological sample identification input or selected by the input module, and when the biological sample identification is not matched with the input module, prompt information is output.

The control module acquires information of operators and operation time information and uploads the information and the operation time information to the server.

The control module acquires the processing procedure information of the biological sample processing device and uploads the processing procedure information to the server.

Specifically, this embodiment will be described with reference to a blood sample, in which blood is stored in a blood bag having an RFID tag. The biological sample transport device is an RFID trolley.

As shown in fig. 3, a flow chart of a blood bag storage method is provided, which comprises the following steps:

s1, an operator logs in the system through an input module of the RFID trolley.

S2, the operator places the blood bag above the second reading module of the RFID trolley.

And S3, when the RFID trolley reaches the refrigerator or other storage equipment, the RFID tag of the refrigerator or other storage equipment is read by the first reading module of the RFID trolley.

S4, judging whether the reading is successful, if so, entering a step S5, otherwise, continuing the step S3.

S5, the RFID trolley second reading module works to read blood bag information.

S6, displaying the read blood bag information list on the RFID trolley screen, checking the blood bag information to be stored by the screen, and confirming storage.

And S7, synchronously uploading the information of the operator, the operation time, the blood bag information and the information of the refrigerator or other storage equipment to a server.

S8, finishing blood bag warehouse entry.

As shown in fig. 4, a flowchart of a blood bag removing method includes the following steps:

s1, an operator logs in the system through an input module of the RFID trolley.

S2, when the RFID trolley reaches the refrigerator or other storage equipment, the RFID tag of the refrigerator or other storage equipment is read by the first reading module of the RFID trolley.

S3, judging whether the reading is successful, if so, entering a step S4, otherwise, continuing the step S2.

S4, the RFID trolley second reading module works to read blood bag information.

S5, an operator places the blood bag in the refrigerator or other storage equipment above a second reading module of the RFID trolley, and the second reading module reads blood bag information.

S6, displaying the read blood bag information list on the RFID trolley screen, checking and confirming the blood bag information to be stored on the screen after checking.

S8, finishing blood bag delivery.

As shown in figure 5 of the drawings,

s1, an operator logs in the system through an input module of the RFID trolley.

S3, when the RFID trolley reaches a centrifugal machine or other processing equipment, the RFID tag of the processing equipment is read by the first reading module of the RFID trolley.

S5, the RFID trolley second reading module works to read blood bag information.

S6, displaying the read blood bag information list on the RFID trolley screen, checking the blood bag information to be stored by the screen, and then confirming the blood bag information to be stored in a centrifugal machine or other processing equipment.

S7, uploading the operator information, the operation time, the blood bag information and the processing equipment information to a server synchronously.

S8, carrying out corresponding treatment, such as centrifugation and the like, on the blood bag.

And S9, after the processing operation is finished, the RFID tag of the centrifugal machine or other preparation equipment is read by the first reading module of the RFID trolley.

S10, judging whether the reading is successful, if so, proceeding to the step S11, otherwise, continuing to the step S9.

S11, the RFID trolley second reading module works to read blood bag information.

S12, placing the centrifuged or other operated blood bags on an RFID trolley, and reading blood bag information.

S13, displaying the read blood bag information list on the RFID trolley screen, checking and confirming the blood bag information to be stored on the screen after checking.

S14, the information of the operators, the operation time, the blood bag information and the information of the refrigerator or other storage equipment are synchronously uploaded to the server.

S15, recording the current node of blood treatment.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be apparent to one skilled in the art that modifications may be made to the technical solutions described in the foregoing embodiments, or equivalents may be substituted for some of the technical features thereof; such modifications and substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims

1. A biological sample transport apparatus for transporting a biological sample having a biological sample identification that embodies the uniqueness of the biological sample, the transport apparatus comprising:

a first reading module for reading a biological sample storage device identification or a processing device identification;

the display module is used for displaying the biological sample identifier read by the second reading module;

an input module for inputting or selecting a biological sample identifier placed in the storage device or the processing device;

2. The biological sample transportation apparatus of claim 1, wherein the control module is configured to determine whether the increase or decrease in the biological sample identifier matches the biological sample identifier input or selected by the input module, and output a prompt message when the increase or decrease in the biological sample identifier does not match the biological sample identifier.

3. The biological sample transporter according to claim 1, wherein the control module is configured to obtain operator information and time of operation information and upload to a server.

4. A biological sample transportation device according to any one of claims 1-3, wherein the control module is adapted to obtain process information of the biological sample processing device and upload it to a server.

5. A biological sample intelligent management system, characterized in that the system comprises a biological sample storage device and/or a biological sample processing device and the biological sample transport device according to any one of claims 1-4;

6. A method for intelligent management of biological samples according to claim 5, characterized in that it comprises:

7. The intelligent biological sample management method according to claim 6, wherein the display module of the transport device displays the biological sample identifier read by the second reading module when the biological sample is stored or processed; the input module of the transportation device is used for inputting or selecting the biological sample identifier put in the storage device or the processing device, the control module judges whether the increase or decrease of the biological sample identifier is matched with the biological sample identifier input or selected by the input module, and when the increase or decrease of the biological sample identifier is not matched with the biological sample identifier, prompt information is output.

8. The intelligent biological sample management method according to claim 5, wherein the control module obtains information of an operator and operation time information and uploads the information to the server.

9. The intelligent biological sample management method according to any one of claims 6 to 8, wherein the control module obtains process information of the biological sample processing device and uploads the process information to a server.