CN112735578A - Movable biological sample management system - Google Patents

Abstract

The invention relates to a biological sample management system. The movable biological sample management system can master the state of a biological sample in real time, improve safety and reasonably configure and manage the sample. The movable biological sample management system comprises a box body and a scanning assembly, wherein the box body comprises an accommodating space, an inlet and an outlet are formed in the accommodating space, a biological sample can move between the accommodating space and the inlet and the outlet to form a moving track, the scanning assembly is arranged at a position close to the accommodating space and the inlet and the outlet and is positioned on the moving track, the scanning assembly comprises an induction antenna, a chip set, a storage unit and an extension piece, and the induction antenna is used for inducing a radio frequency tag arranged on a biological sample package; the chip set is connected with the induction antenna and obtains biological data in the biological sample through the induction antenna; the storage unit is connected with the chip set and is used for storing biological data; the extension piece forms an extension space for placing the induction antenna, the chip set and the storage unit.

Description

Movable biological sample management system

Technical Field

The invention relates to the technical field of ultrahigh frequency radio frequency tags, in particular to a movable biological sample management system.

Background

Existing donor stations, after taking blood from a donor, store the blood in, for example, bags, and bags taken from multiple donor stations need to be transferred to a blood inventory center. The blood bag is moved by placing the blood bag in a box and transporting the blood bag by a transport vehicle.

In the process of transferring the blood bags, the information of a plurality of blood bags currently placed in the box body, such as the number of the blood bags and the blood types corresponding to the blood bags, needs to be confirmed through complicated processes of cross counting, inventory and the like. The conventional method needs to rely on manual methods to perform the related procedures, which may cause human careless, and the blood empty-storage center cannot effectively know the status of the blood to be stored in the blood bank in real time.

The aforementioned blood transport problems also occur in practice during the transport of other biological samples.

In view of the above, the present invention provides a portable biological sample management system to solve the deficiencies of the prior art.

Disclosure of Invention

The invention aims to provide a movable biological sample management system which can master the state of a biological sample in real time, improve the safety and reasonably configure and manage the sample.

The invention relates to a movable biological sample management system, which comprises a box body and a scanning component,

the box body comprises an accommodating space, an inlet and an outlet are arranged on the accommodating space, the biological sample can move between the accommodating space and the inlet and the outlet to form a moving track,

the scanning component is arranged at a position close to the accommodating space and the inlet and outlet and is positioned on the moving track, the scanning component comprises an induction antenna, a chip group, a storage unit and an extension piece,

the induction antenna is used for inducing the radio frequency tag arranged on the biological sample package;

the chip set is connected with the induction antenna and obtains biological data of the biological sample through the induction antenna;

the storage unit is connected with the chip set and is used for storing biological data;

the extension piece forms an extension space for placing the induction antenna, the chip set and the storage unit.

The invention relates to a movable biological sample management system, wherein an extension piece is a U-shaped fastener and is hung on the edge of an inlet and an outlet of a box body.

The invention relates to a movable biological sample management system, wherein an extension piece is provided with a sensing surface, the sensing surface passes through a moving track, and a sensing antenna is arranged on the other side of the sensing surface.

The movable biological sample management system also comprises a display, wherein a through hole is processed on the extension piece, and the display is arranged in the through hole.

The invention relates to a mobile biological sample management system, wherein a display is connected with a chip set and used for displaying biological data.

The invention also discloses a mobile biological sample management system, which comprises a communicator, wherein the communicator is connected with the chip set and is used for transmitting biological data.

The mobile biological sample management system further comprises a server, wherein the server is used for receiving and recording the biological data from the communicator.

The invention relates to a movable biological sample management system, wherein the biological data is one or more of blood bag number, blood bag type and volume, blood collector identity, blood collection workstation number, blood collection center name, blood collection starting timestamp, blood collection ending timestamp, blood collection duration timestamp, blood donor identity, blood collection time difference and blood weight.

The invention relates to a mobile biological sample management system, wherein the frequency band of the induction antenna is between 920MHz and 928 MHz.

The invention relates to a movable biological sample management system, wherein an extension piece is hung on the edge of a box body or is integrally processed and formed with the box body.

Compared with the prior art, the movable biological sample management system has the advantages that compared with the traditional conveying mode, the movable biological sample management system can know the state of each biological sample in the process of placing the biological samples in real time, can effectively maintain the activity of the biological samples, and reduces the problems caused by human errors; meanwhile, the state of each box body can be mastered in real time, and effective transportation, configuration and management can be carried out.

The portable biological sample management system of the present invention will be further described with reference to the accompanying drawings.

Drawings

FIG. 1 is a schematic diagram of a portable biological specimen management system 1 according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of embodiment 2 of the portable biological specimen management system according to the present invention;

FIG. 3 is a schematic structural diagram of a portable biological specimen management system according to embodiment 1 of the present invention;

the notation in the figures means: 12-a box body; 14-a scanning assembly; 142-an inductive antenna; 144-a chipset; 146-a storage unit; 148-an extension; 1482-sensing surface; 1484-through holes; 16-a display; 18-a communicator; 20-a server; an RFID-radio frequency tag; BS-biological sample; SP-containing space; IE-import-export; MT-movement trajectory; IMT-in-case movement trajectory; EMT-out of box movement trajectory; BD-biological data; ESP-extension space; EMW-electromagnetic waves.

Detailed Description

The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

Example 1

As shown in fig. 1 and 3, the portable biological specimen management system of the present invention includes a housing 12 and a scanning assembly 14. In the present embodiment, the case 12 is rectangular, and in other embodiments, the shape of the case 12 is not limited, and may be other shapes.

The box body 12 includes an accommodation space SP provided with an inlet and an outlet IE. The biological sample BS enters or is taken out from the containing space SP through the inlet and outlet IE. The biological sample BS may be blood, platelets, biological tissue, etc., and the biological sample BS may be placed in a blood bag, test tube, etc. container. The biological sample is provided with a radio frequency volume label RFID label, and the radio frequency label RFID is used for recording biological data BD of the biological sample BS. The radio frequency tag RFID is applied to the ultrahigh frequency band, and the frequency band ranges from 920MHz to 928 MHz.

The biological sample BS moves between the containing space SP and the inlet and outlet IE to form a moving track MT. The movement locus MT of the biological sample BS moving into the containing space SP is defined as a case entering movement locus IMT, and the movement locus MT of the biological sample BS taken out of the containing space SP is defined as a case exiting movement locus EMT.

The scanning assembly 14 is disposed near the accommodating space SP and the entrance IE thereof, and is located on the moving track MT, specifically, in the embodiment, the scanning assembly 14 is disposed at the front edge of the box 12.

The scanning assembly 14 includes an inductive antenna 142, a chipset 144, a storage unit 146, and an extension 148.

The sensing antenna 142 is used for sensing the radio frequency tag RFID, and an electromagnetic wave EMW is generated between the sensing antenna 142 and the radio frequency tag RFID, and the electromagnetic wave EMW contains the biological data BD of the biological sample BS. The sensing antenna 142 is used to provide near-end communication sensing and may provide a sensing area within, for example, 20 centimeters. The sensing antenna 142 may also be disposed near the in-box and out-of-box movement trajectories IMT and EMT.

The chip set 144 is connected to the sensing antenna 142, and the chip set 144 obtains the biological data BD of the biological sample BS through the sensing antenna 142. The biological data BD may be one or more of a blood collector identity, a blood collection workstation number, a blood collection center name, a blood collection start time stamp, a blood collection end time stamp, a blood collection duration time stamp, a blood donor identity, a blood collection time difference, and a blood weight. The chipset 144 may perform passive scanning or active scanning. In the passive scanning mode, the chipset 144 always scans the radio frequency tag RFID through the inductive antenna 142, and if a biological sample BS passes through the moving track MT, the biological data BD of the radio frequency tag RFID can be automatically read; in the active mode, the chipset 144 may determine whether to start reading the biometric data BD of the radio frequency tag RFID by the control signal.

The storage unit 146 is connected to the chipset 144 for storing the biometric data BD. The storage unit 146 may be embedded, such as a memory; or external, such as USB, memory card, etc. The biometric data BD may be stored in a remote server by data communication in addition to the local storage unit 146.

The extension 148 forms an extension space ESP for placing the induction antenna 142, the chipset 144 and the storage unit 146. In this embodiment, the extension 148 is a U-shaped fastener that is hooked to the edge of the access opening IE of the housing 12. When the operation is started, the extension 148 can be hung on the edge of the case 12, and the moving track MT is established, and after the biological sample BS is completely placed or taken, the extension 148 can be freely detached from the edge of the case 12. By adopting the mode, the box body can be suitable for various existing box bodies, and is very convenient. Extension 148 is provided with a sensing surface 1482, sensing surface 1482 passing through movement track MT, and sensing antenna 142 is disposed on the other side of sensing surface 1482. The induction antenna 142 is disposed inside the extended space ESP to resist environmental threats, such as moisture, etc. At least a portion of the extension 148, particularly the material adjacent to the sensing antenna 142, may be a non-metallic material to facilitate the transmission of the electromagnetic wave EMW.

In other embodiments, the extension 148 may be part of the housing 12, i.e., the housing 12 itself may have the extension 148, such that no plug-in operation is required.

Example 2

The present embodiment is different from embodiment 1 in that: as shown in fig. 2, the portable biological specimen management system of the present invention further includes a display 16, a communicator 18 and a server 20.

Extension 148 has a through hole 1484 formed therein and display 16 is mounted within through hole 1484. The display 16 may be a liquid crystal display, an AMOLED display, an electronic ink display, or the like. Display 16 is coupled to chipset 144. The display 16 is used for displaying the biological data BD, for example, the biological data BD may be one or more of the number of blood bags, blood type of blood bag, type and volume of blood bag, identity of blood collector, station number of blood collection workstation, name of blood collection center, start time stamp of blood collection, end time stamp of blood collection, duration time stamp of blood collection, identity of blood donor, time difference of blood collection and weight of blood. The display 16 may be used as a display screen, or may be used as a display of a computer, a smart phone, a tablet, or the like.

The communicator 18 is connected to the chipset 144 to transmit the biometric data BD.

The server 20 is used for receiving and recording the biological data BD from the communicator 18.

Compared with the traditional conveying mode, the movable biological sample management system can know the state of each biological sample in the process of placing the biological samples in real time, can effectively maintain the activity of the biological samples, and avoids the problems caused by human errors; meanwhile, the state of each box body can be mastered in real time, and effective transportation, configuration and management can be carried out.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (10)

1. A portable biological specimen management system, characterized by: comprises a box body and a scanning component,

the box body comprises an accommodating space, an inlet and an outlet are arranged on the accommodating space, the biological sample can move between the accommodating space and the inlet and the outlet to form a moving track,

the scanning component is arranged at a position close to the accommodating space and the inlet and outlet and is positioned on the moving track, the scanning component comprises an induction antenna, a chip group, a storage unit and an extension piece,

the induction antenna is used for inducing the radio frequency tag arranged on the biological sample package;

the chip set is connected with the induction antenna and obtains biological data of the biological sample through the induction antenna;

the storage unit is connected with the chip set and is used for storing biological data;

the extension piece forms an extension space for placing the induction antenna, the chip set and the storage unit.

2. The portable biological specimen management system according to claim 1, wherein: the extension piece is a U-shaped fastener and is hung on the edge of the inlet and the outlet of the box body.

3. The portable biological specimen management system according to claim 1 or 2, wherein: the extension piece is provided with an induction surface, the induction surface passes through a moving track, and the induction antenna is arranged on the other side of the induction surface.

4. The portable biological specimen management system according to claim 1, wherein: still include the display, processing has the through-hole on the extension, inside the display installation through-hole.

5. The portable biological specimen management system according to claim 4, wherein: the display is connected with the chip set and used for displaying the biological data.

6. The portable biological specimen management system according to claim 1, wherein: the biological data transmission device further comprises a communicator which is connected with the chip set and used for transmitting biological data.

7. The portable biological specimen management system according to claim 1, wherein: the server is used for receiving and recording the biological data from the communicator.

8. The portable biological specimen management system according to claim 1, wherein: the biological data is one or more of blood bag number, blood bag blood type, blood bag type and volume, blood collector identity, blood collection workstation number, blood collection center name, blood collection starting timestamp, blood collection ending timestamp, blood collection duration timestamp, blood donor identity, blood collection time difference and blood weight.

9. The portable biological specimen management system according to claim 1, wherein: the frequency band range of the induction antenna is between 920MHz and 928 MHz.

10. The portable biological specimen management system according to claim 1, wherein: the extending piece is hung on the edge of the box body or integrally processed and formed with the box body.

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