CN114093471A - Blood inventory management method, device and equipment based on RFID radio frequency technology - Google Patents

Abstract

The application discloses a blood inventory management method, a device and equipment based on an RFID (radio frequency identification) radio frequency technology, wherein the blood inventory management method based on the RFID radio frequency technology comprises the following steps: scanning a bar code corresponding to a to-be-checked refrigeration house through an electronic tag identification device to obtain a to-be-checked blood information list corresponding to the to-be-checked refrigeration house, identifying electronic tags on all blood bags in the to-be-checked refrigeration house in batches through the electronic tag identification device to obtain blood information corresponding to all the blood bags, checking all the blood information with all the blood information corresponding to the to-be-checked blood information list, counting the number corresponding to all the blood information in the to-be-checked refrigeration house, and reporting the checking result of the to-be-checked refrigeration house and the number corresponding to all the blood information to a blood inventory management system. The technical problem that inventory blood bag inventory efficiency is lower and blood pollutes the risk is higher is solved to this application.

Description

Blood inventory management method, device and equipment based on RFID radio frequency technology

Technical Field

The application relates to the technical field of blood management, in particular to a blood inventory management method, device and equipment based on an RFID radio frequency technology.

Background

In traditional blood station blood liquid management, after will examining qualified blood and deposit into the freezer, in order to in time master the stock of blood, the stock of blood in the freezer needs artifical check every day usually, when blood quantity is more in the freezer, artifical check work load is great, the efficiency that leads to freezer blood check is lower, furtherly, at artifical check in-process, need open the cold storage door for a long time, make blood expose for a long time, and then lead to blood pollution's risk higher.

Disclosure of Invention

The application mainly aims to provide a blood inventory management method, a blood inventory management device and blood inventory management equipment based on an RFID (radio frequency identification) radio frequency technology, and aims to solve the technical problems that inventory blood bag inventory efficiency is low and blood pollution risk is high in the prior art.

In order to achieve the above object, the present application provides a blood inventory management method based on RFID radio frequency technology, including:

scanning a bar code corresponding to a refrigeration house to be checked through an electronic tag identification device to obtain a blood information list to be checked corresponding to the refrigeration house to be checked;

identifying the electronic tags on the blood bags in the refrigeration house to be checked in batches through the electronic tag identification device to obtain the blood information corresponding to the blood bags;

and checking each piece of blood information with each piece of blood information corresponding to the blood information list to be checked, and counting the number corresponding to each piece of blood information in the refrigeration storage to be checked so as to report the checking result of the refrigeration storage to be checked and the number corresponding to each piece of blood information to a blood inventory management system.

The present application further provides a blood inventory management device based on the RFID radio frequency technology, the blood inventory management device based on the RFID radio frequency technology is a virtual device, the blood inventory management device based on the RFID radio frequency technology includes:

the system comprises an acquisition module, a checking module and a control module, wherein the acquisition module is used for scanning a bar code corresponding to a refrigeration house to be checked through an electronic tag identification device so as to acquire a blood information list to be checked corresponding to the refrigeration house to be checked;

the identification module is used for identifying the electronic tags on the blood bags in the refrigeration house to be checked in batches through the electronic tag identification device to obtain the blood information corresponding to the blood bags;

and the checking module is used for checking each piece of blood information with each piece of blood information corresponding to the blood information list to be checked, counting the number corresponding to each piece of blood information in the refrigeration storage to be checked, and reporting the checking result of the refrigeration storage to be checked and the number corresponding to each piece of blood information to a blood inventory management system.

The present application further provides a blood inventory management device based on the RFID radio frequency technology, the blood inventory management device based on the RFID radio frequency technology is an entity device, the blood inventory management device based on the RFID radio frequency technology includes: a memory, a processor, and an RFID radio frequency technology based blood inventory management program stored on the memory, the RFID radio frequency technology based blood inventory management program being executed by the processor to implement the steps of the RFID radio frequency technology based blood inventory management method as described above.

The present application also provides a medium, which is a computer readable storage medium, on which a blood inventory management program based on RFID radio frequency technology is stored, the blood inventory management program based on RFID radio frequency technology being executed by a processor to implement the steps of the blood inventory management method based on RFID radio frequency technology as described above.

The present application also provides a computer program product comprising a computer program which, when being executed by a processor, carries out the steps of the RFID radio frequency technology based blood inventory management method as described above.

The application provides a blood stock management method, a device and equipment based on RFID radio frequency technology, compared with the technical means of manually checking the blood stock in a cold storage warehouse when blood is stored in the cold storage warehouse in the prior art, the application firstly scans a bar code corresponding to the cold storage warehouse to be checked through an electronic tag identification device so as to obtain a list of blood information to be checked corresponding to the cold storage warehouse to be checked, and then identifies electronic tags on all blood bags in the cold storage warehouse in batches through the electronic tag identification device so as to obtain the blood information corresponding to all the blood bags, and because of the characteristic of non-contact batch identification of the electronic tags, the blood information corresponding to all the blood bags currently stored in the cold storage warehouse can be quickly obtained in batches, further, all the blood information is checked with all the blood information corresponding to the list of the blood information to be checked, and the quantity corresponding to all the blood information in the cold storage warehouse to be checked is counted, reporting the checking result of the refrigeration house to be checked and the quantity corresponding to each blood information to a blood inventory management system, realizing non-contact batch Identification of RFID (Radio Frequency Identification technology) electronic tags through an electronic tag Identification device, and performing non-contact batch Identification on each blood in the refrigeration house, thereby not needing to count the quantity of blood bags one by one manually, improving the checking efficiency of the refrigeration house, further reducing the exposure time of the blood, reducing the influence of environmental factors (such as temperature and the like) on the blood, further, counting the quantity corresponding to different blood types of the refrigeration house according to the blood information corresponding to the electronic tags, reporting the quantity to the blood inventory management system, expanding the bag quantity of the blood bags checked manually to a classified inventory quantity corresponding to specific blood types, and acquiring the blood data on the blood inventory management system in real time, the comprehensive monitoring to blood information in the freezer has been strengthened, has overcome among the prior art when blood quantity is more in the freezer, and artifical work load of checking is great, leads to freezer blood to check the efficiency lower and the higher technical defect of risk of blood pollution to blood checking's efficiency has been improved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and together with the description, serve to explain the principles of the application.

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious to those skilled in the art that other drawings can be obtained according to the drawings without inventive exercise.

FIG. 1 is a schematic flow chart of a first embodiment of a blood inventory management method based on RFID radio frequency technology according to the present application;

FIG. 2 is a schematic flow chart of a second embodiment of the RFID-based method for managing blood inventory of the present application;

FIG. 3 is a schematic flow chart of a third embodiment of the blood inventory management method based on RFID radio frequency technology according to the present application;

FIG. 4 is a schematic flow chart of a fourth embodiment of the blood inventory management method based on RFID technology according to the present application;

fig. 5 is a schematic structural diagram of a blood inventory management device based on RFID radio frequency technology in a hardware operating environment related to the blood inventory management method based on RFID radio frequency technology in the embodiment of the present application.

The objects, features and advantages of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

In a first embodiment of the blood inventory management method based on the RFID radio frequency technology, referring to fig. 1, the blood inventory management method based on the RFID radio frequency technology includes:

step S10, scanning a bar code corresponding to the to-be-checked refrigeration house through an electronic tag identification device to obtain a to-be-checked blood information list corresponding to the to-be-checked refrigeration house;

in this embodiment, it should be noted that the electronic tag Identification apparatus includes a PDA device, other tag scanning devices, and the like, and can scan a barcode and an RFID (Radio Frequency Identification) electronic tag. Each refrigeration house is attached with a corresponding bar code, furthermore, when a blood bag is put in a warehouse, the blood bag is placed in a blood basket and then stored in the refrigeration house, the blood information of the blood bag, the blood basket information of the blood basket and the refrigeration house number of the refrigeration house need to be reported to a blood inventory management system, and the list of the blood information to be checked is a list formed by all the blood information in the refrigeration house to be checked on the blood inventory management system.

The method comprises the steps of scanning a bar code corresponding to a to-be-checked refrigeration house through an electronic tag identification device to obtain a to-be-checked blood information list corresponding to the to-be-checked refrigeration house, specifically, scanning a bar code corresponding to the to-be-checked refrigeration house through the electronic tag identification device to read a refrigeration house number corresponding to the to-be-checked refrigeration house so as to obtain the to-be-checked blood information list corresponding to the refrigeration house number.

Step S20, identifying the electronic tags on the blood bags in the refrigeration house to be checked in batches through the electronic tag identification device, and obtaining the blood information corresponding to the blood bags;

in this embodiment, it should be noted that the electronic tag is an RFID electronic tag, and due to the characteristic that the RFID can perform batch identification without contact, the electronic tag can be scanned in batches by using an electronic tag identification device, so as to obtain related data, the electronic tags all have unique codes, and the blood information includes information such as blood type, blood sampling time, expiration time, blood volume, and warehousing time.

The electronic tag identification device is used for identifying the electronic tags on the blood bags in the refrigeration house to be checked in batches to obtain the blood information corresponding to the blood bags, specifically, the electronic tag identification device is used for identifying the electronic tags on the blood bags in the refrigeration house to be checked in batches to obtain the chip coding information corresponding to the electronic tags on the blood bags, and then the blood information corresponding to the blood bags is obtained based on the chip coding information. Additionally, because the electronic tag has the characteristic of non-contact batch identification, in order to prevent a worker from mistakenly scanning the electronic tag on blood bags in other refrigerators in the checking process, a shielding film of the RFID is arranged at a refrigerator door.

The electronic tag identification device identifies the electronic tags on the blood bags in the refrigeration house to be checked in batches, and the step of obtaining the blood information corresponding to the blood bags comprises the following steps:

step S21, the electronic tags on the blood bags in the refrigeration house to be checked are identified in batch through the electronic tag identification device, and chip coding information corresponding to the blood bags is read;

in this embodiment, the electronic tag identification device identifies the electronic tags on the blood bags in the freezer to be inventoried in batch, reads the chip code information corresponding to the blood bags, and specifically, identifies the electronic tags on the blood bags in the freezer to be inventoried in batch by the electronic tag identification device, and obtains the chip code information corresponding to the electronic tags.

In step S22, blood information associated with each of the chip code information is determined.

In this embodiment, blood information associated with each piece of chip encoding information is determined, specifically, a blood donation serial number associated with each piece of chip encoding information is determined based on each piece of chip encoding information, wherein a binding association relationship is established in advance between the chip encoding information of the electronic tag and the blood donation serial number, and then the blood information of each blood donation serial number pair is obtained.

And step S30, checking each piece of blood information with each piece of blood information corresponding to the blood information list to be checked, counting the number corresponding to each piece of blood information in the refrigeration storage to be checked, and reporting the checking result of the refrigeration storage to be checked and the number corresponding to each piece of blood information to a blood inventory management system.

In this embodiment, each piece of blood information is checked with each piece of blood information corresponding to the to-be-checked blood information list, and the number corresponding to each piece of blood information in the to-be-checked refrigerator is counted, so as to report the check result of the to-be-checked refrigerator and the number corresponding to each piece of blood information to the blood inventory management system, specifically, based on each piece of blood information, each piece of blood information is checked and matched with each piece of blood information corresponding to the to-be-checked blood information list one by one, so as to obtain the check result, and the number corresponding to the blood type in each piece of blood information are counted, wherein the blood type includes the type information such as plasma, platelets, washed red blood cells, frozen red cells, and frozen red suspension, and the check result of the to-be-checked refrigerator and the counted number corresponding to each piece of blood information are reported to the blood inventory management system, for example, each piece of blood information is matched with each piece of blood information corresponding to the blood information list to be checked, the matched blood information is marked green, and the unaligned blood information is marked grey by default, so that the checking condition of the blood information uploaded to the blood inventory management system and the blood information in the current refrigeration storage can be known in real time, the quantity corresponding to the blood A, the blood B, the blood O and the blood AB in the current blood in the refrigeration storage to be checked and the quantity corresponding to the blood variety can be counted respectively.

After the step of storing the to-be-warehoused basket in a refrigerator corresponding to the refrigerator number and performing associated reporting on the refrigerator number and the basket information to the blood inventory management system, the blood inventory management method based on the RFID technology further includes:

and a step D10 of checking statistics of the blood information in each of the refrigerators and checking inventory details of each of the refrigerators in the blood inventory management system.

In this embodiment, it should be noted that the load capacity of each refrigerator is limited.

Specifically, after the number corresponding to the blood information in each refrigeration storage is counted and reported to the blood inventory management system, the statistical condition of the blood information in each refrigeration storage is checked in the blood inventory management system, so that the remaining position of each refrigeration storage can be known according to the statistical condition, and meanwhile, inventory details in each refrigeration storage, such as inventory detail information of blood type, blood volume, failure time and the like corresponding to each blood bag in each refrigeration storage, can be checked in the blood inventory management system.

The embodiment of the application provides a blood inventory management method based on an RFID (radio frequency identification) radio frequency technology, compared with the technical means that the blood inventory in a refrigeration house needs to be manually checked when the blood is stored in the refrigeration house in the prior art, the embodiment of the application firstly scans a bar code corresponding to the refrigeration house to be checked through an electronic tag identification device so as to obtain a list of blood information to be checked corresponding to the refrigeration house to be checked, and then identifies electronic tags on blood bags in the refrigeration house to be checked in batches through the electronic tag identification device so as to obtain the blood information corresponding to the blood bags, and because of the characteristic of non-contact batch identification of the electronic tags, the blood information corresponding to the blood bags currently stored in the refrigeration house can be rapidly obtained in batches, and further, the blood information and the blood information corresponding to the list of the blood information to be checked are checked, and the quantity corresponding to the blood information in the refrigeration house to be checked is counted, reporting the checking result of the refrigeration house to be checked and the quantity corresponding to each blood information to a blood inventory management system, realizing non-contact batch Identification of RFID (Radio Frequency Identification technology) electronic tags through an electronic tag Identification device, and performing non-contact batch Identification on each blood in the refrigeration house, thereby not needing to count the quantity of blood bags one by one manually, improving the checking efficiency of the refrigeration house, further reducing the exposure time of the blood, reducing the influence of environmental factors (such as temperature and the like) on the blood, further, counting the quantity corresponding to different blood types of the refrigeration house according to the blood information corresponding to the electronic tags, reporting the quantity to the blood inventory management system, expanding the bag quantity of the blood bags checked manually to a classified inventory quantity corresponding to specific blood types, and acquiring the blood data on the blood inventory management system in real time, the comprehensive monitoring to blood information in the freezer has been strengthened, has overcome among the prior art when blood quantity is more in the freezer, and artifical work load of checking is great, leads to freezer blood to check the efficiency lower and the higher technical defect of risk of blood pollution to blood checking's efficiency has been improved.

Further, referring to fig. 2, based on the first embodiment of the present application, in another embodiment of the present application, before the step of scanning, by an electronic tag identification device, a barcode corresponding to a to-be-checked cold storage to obtain a to-be-checked blood information list corresponding to the to-be-checked cold storage, the blood inventory management method based on the RFID radio frequency technology further includes:

step A10, obtaining a blood electronic label which is associated with a blood donation serial number in advance, and sticking the blood electronic label on a blood bag to be stored;

in this embodiment, it should be noted that the blood in the blood bag to be stored is blood that has undergone blood detection, and the detection result is qualified blood, and after the blood is qualified through blood inspection, the blood bag to be stored needs to be stored in the cold storage, and further, the blood electronic tag associated with the blood donation serial number, that is, the chip coding information in the blood electronic tag and the blood donation serial number have previously established a binding relationship.

The method comprises the steps of obtaining a blood electronic tag which is associated with a blood donation serial number in advance, pasting the blood electronic tag on a blood bag to be stored, specifically, after blood is qualified through inspection, when the blood donation serial number is printed on a blank blood electronic tag, identifying the blood electronic tag through an electronic tag identification device, reading chip coding information, further establishing an association relationship between the chip coding information and the blood donation serial number, and further pasting the blood electronic tag on the blood bag to be stored for storing qualified blood.

Step A20, placing the blood bag to be stored in a blood basket to be warehoused, which is stuck with a blood basket electronic tag;

in this embodiment, it should be noted that the to-be-warehoused basket is a basket for storing blood bags to be warehoused and stored, at least one blood bag may be placed in the basket, the to-be-warehoused basket and the to-be-stored blood bag are both provided with electronic tags, in order to distinguish the electronic tags on the basket and the blood bag, the electronic tag on the to-be-warehoused blood bag is set as a blood electronic tag, and the to-be-warehoused basket is set as a blood basket electronic tag.

Step A30, associating the blood information corresponding to the blood electronic tag with the blood basket information corresponding to the blood basket electronic tag, and reporting to a blood inventory management system;

in this embodiment, the blood information corresponding to the blood electronic tag and the basket information corresponding to the basket electronic tag are correlated and reported to a blood inventory management system, and specifically, the electronic tag identification device identifies the blood electronic tag on the blood bag to be stored and the basket electronic tag on the basket to be warehoused, obtains the blood information corresponding to the blood electronic tag and the basket information corresponding to the basket electronic tag, correlates the blood information and the basket information, and reports the correlated blood information and basket information to the blood inventory management system, so that the blood basket in which the blood information is placed is accurately located by the blood inventory management system.

The step of associating the blood information corresponding to the blood electronic tag with the blood basket information corresponding to the blood basket electronic tag and reporting the blood information to the blood inventory management system includes:

step A31, identifying the blood electronic tag of the blood bag to be stored and the blood basket electronic tag of the blood basket to be warehoused by the electronic tag identification device, and reading chip coding information respectively corresponding to the blood electronic tag and the blood basket electronic tag;

in this embodiment, the electronic tag identification device identifies the blood electronic tag of the blood bag to be stored and the blood basket electronic tag of the blood basket to be warehoused, and reads chip coding information corresponding to the blood electronic tag and the blood basket electronic tag respectively, and specifically, the electronic tag identification device identifies the electronic tags on the blood bag to be stored and the blood basket to be warehoused in batches to obtain the chip coding information corresponding to the blood bag to be stored and the blood basket electronic tag respectively.

Step A32, determining a blood donation serial number associated with the chip coding information based on the chip coding information corresponding to the blood electronic tag to obtain blood information corresponding to the blood donation serial number;

in this embodiment, the blood-donation serial number associated with the chip coding information is determined based on the chip coding information corresponding to the blood electronic tag to obtain the blood information corresponding to the blood-donation serial number, specifically, since a binding relationship has been established between the blood electronic tag and the blood-donation serial number, the blood-donation serial number associated with the chip coding information can be determined based on the chip coding information corresponding to the blood electronic tag, and the blood information corresponding to the blood-donation serial number can be obtained.

Step A33, determining basket information corresponding to the basket to be warehoused based on chip coding information corresponding to the basket electronic tag;

in this embodiment, the basket information corresponding to the basket to be warehoused is determined based on the chip coding information corresponding to the basket electronic tag, specifically, the basket information corresponding to the basket to be warehoused is acquired based on the chip coding information corresponding to the basket electronic tag, for example, the serial number B1001 of the basket to be warehoused is determined.

And A34, associating the blood information with the basket information, and reporting to the blood inventory management system.

In this embodiment, the blood information and the basket information are associated and reported to the blood inventory management system, and specifically, the blood information and the basket information are associated and then reported to the blood inventory management system, so that based on the blood information, the blood bag placement and the specific basket corresponding to the blood information can be queried.

Step A40, scanning a bar code corresponding to a refrigeration house and a basket electronic tag corresponding to the basket to be warehoused by the electronic tag identification device to obtain a refrigeration house number of the bar code and basket information corresponding to the basket electronic tag;

in this embodiment, the electronic tag identification device scans a barcode corresponding to a refrigeration storage and a basket electronic tag corresponding to a basket to be stored to obtain a refrigeration storage number of the barcode and basket information corresponding to the basket electronic tag, and specifically, the electronic tag identification device scans the barcode corresponding to the refrigeration storage to identify the basket electronic tag of the basket to be stored to obtain the refrigeration storage number corresponding to the refrigeration storage and the basket information corresponding to the basket electronic tag.

And A50, storing the blood basket to be warehoused in a refrigeration house corresponding to the refrigeration house number, and performing correlation report on the refrigeration house number and the blood basket information to the blood inventory management system.

In this embodiment, the to-be-warehoused basket is stored in the refrigeration storage corresponding to the refrigeration storage serial number, the refrigeration storage serial number and the basket information are associated and reported to the blood inventory management system, specifically, the to-be-warehoused basket is stored in the refrigeration storage corresponding to the refrigeration storage serial number, the refrigeration storage serial number and the basket information are associated, and then the associated refrigeration storage serial number and the basket information are reported to the blood inventory management system, so that the blood inventory management system can accurately position which basket of a specific refrigerator is used for specific blood, and the time cost of manual retrieval is reduced.

The embodiment of the application provides a blood inventory management method based on an RFID (radio frequency identification) radio frequency technology, namely, a blood electronic tag which is associated with a blood donation serial number in advance is obtained, the blood electronic tag is adhered to a blood bag to be stored, the blood bag to be stored is placed in a blood basket to be put in storage, which is adhered with a blood basket electronic tag, further, blood information corresponding to the blood electronic tag and blood basket information corresponding to the blood basket electronic tag are associated and reported to a blood inventory management system, the blood basket to be put in storage is stored in a refrigeration house corresponding to a refrigeration house number and the blood basket information are associated and reported to the blood inventory management system, and the purpose of performing contactless identification on the electronic tag in batches through an electronic tag identification device to obtain the blood information associated with the electronic tag is achieved, therefore, manual scanning is not needed, data information corresponding to warehousing storage of blood bags is rapidly obtained, and further, blood information and blood basket information are associated, blood basket information and refrigeration house numbers corresponding to the refrigeration houses are associated and reported to a blood inventory management system, so that the blood inventory management system can rapidly and accurately inquire which blood basket of a specific blood bag in which refrigeration house based on the blood information, and a blood safety management mechanism is improved.

Further, referring to fig. 3, based on the second embodiment of the present application, in another embodiment of the present application, after the step of storing the to-be-warehoused basket in a refrigerator corresponding to the refrigerator number, and associating and reporting the refrigerator number and the basket information to the blood inventory management system, the blood inventory management method based on the RFID radio frequency technology further includes:

step B10, obtaining a blood donation serial number to be inquired;

in this embodiment, the blood inventory management system improves the method of searching for a blood donation serial number.

And acquiring a serial number of the blood donation to be inquired, specifically acquiring the serial number of the blood donation to be inquired input by the blood inventory management system.

And step B20, determining the blood basket information and the cold storage number which are associated with the serial number of the blood donation to be inquired.

In this embodiment, the basket information and the refrigeration house number associated with the serial number of the blood donation to be inquired are determined, specifically, based on the serial number of the blood donation to be inquired, the blood information corresponding to the serial number of the blood donation to be inquired is determined, the basket information associated with the serial number of the blood donation to be inquired is determined, and further, according to the basket information, the refrigeration house number associated with the basket information is determined, so that the basket information and the refrigeration house number where the blood is located are inquired based on the serial number of the blood donation.

The embodiment of the application provides a blood inventory management method based on RFID radio frequency technology, namely, acquire the serial number of donation blood to be inquired, confirm with blood basket information and freezer serial number that the serial number of donation blood to be inquired is relevant, realized based on the serial number of donation blood, the specific position at blood bag place that the serial number of donation blood corresponds is accurately inquired, namely, in which blood basket of which freezer the blood bag is in to improve the efficiency of blood bag location retrieval.

Further, referring to fig. 4, based on the second embodiment of the present application, in another embodiment of the present application, after the step of storing the to-be-warehoused basket in a refrigerator corresponding to the refrigerator number, and associating and reporting the refrigerator number and the basket information to the blood inventory management system, the blood inventory management method based on the RFID radio frequency technology further includes:

step C10, setting blood demand information, and extracting each piece of blood information meeting the corresponding condition of the blood demand information from the blood inventory management system;

in this embodiment, it should be noted that the blood demand information includes information such as blood type, and blood demand, for example, the blood type is set to be red blood cells, the blood type is set to be a blood group, and the demand is set to be 3.

The method comprises the steps of setting blood demand information, extracting each piece of blood information meeting conditions corresponding to the blood demand information from the blood inventory management system, specifically, setting the blood demand information corresponding to required blood on the blood inventory management system, and further extracting and inquiring each piece of blood information meeting the conditions of the blood demand information from the blood inventory management system, so that a ex-warehouse list is generated through the blood inventory management system, and manual checking and selecting are not needed.

And step C20, generating a ex-warehouse blood list according to the expiration time corresponding to each piece of blood information, so that the staff can select blood according to the position information corresponding to each blood bag in the ex-warehouse blood list.

In the present embodiment, the ex-storage blood list is a list of information such as blood information, a refrigerator number, and basket information corresponding to each blood bag, and the position information includes information such as a refrigerator number and basket information corresponding to the blood bag.

Generating a ex-warehouse blood list according to the failure time corresponding to each piece of blood information, so that a worker can select blood according to the position information corresponding to each blood bag in the ex-warehouse blood list, specifically, obtaining the failure time corresponding to each piece of blood requirement information based on each piece of blood requirement information, and then sorting the blood bags corresponding to each piece of blood information according to the length of the failure time, so that the ex-warehouse blood list is obtained, so that the worker can select the blood according to the position information of each blood bag in the ex-warehouse blood list, preferably select the blood in the failure time period, and blood waste is greatly reduced.

The step of generating a ex-warehouse blood list according to a preset sorting rule based on the blood demand information comprises the following steps:

step C21, determining the expiration time corresponding to each piece of blood information based on each piece of blood information;

in this embodiment, it should be noted that if the blood at the current time exceeds the aging time, the blood is proved to be expired.

And step C22, sorting the blood information according to the length of each failure time to obtain the ex-warehouse blood list.

In this embodiment, the blood information is sorted according to the length of each expiration time to obtain the ex-warehouse blood list, and specifically, the blood information is sorted according to the length of the expiration time corresponding to each blood information, that is, the length of the validity period of each blood information, to obtain the ex-warehouse blood list.

The embodiment of the application provides a blood inventory management method based on RFID radio frequency technology, promptly, sets up blood demand information, and draw among the blood inventory management system and satisfy each blood information of blood demand information corresponding condition, and then according to each the dead time that blood information corresponds generates the blood list of leaving warehouse, for the staff basis the position information that each blood bag corresponds in the blood list of leaving warehouse selects blood, realized according to information such as required blood species, blood type demand, the system is long short according to the validity period of blood, calculates the blood list of recommending to indicate each blood place freezer position and blood basket position, improved and in time supervised and warned blood quality and validity period, thereby greatly reduced the waste of blood.

Referring to fig. 5, fig. 5 is a schematic structural diagram of a blood inventory management device based on RFID radio frequency technology in a hardware operating environment according to an embodiment of the present application.

As shown in fig. 5, the blood inventory management apparatus based on RFID radio frequency technology may include: a processor 1001, such as a CPU, a memory 1005, and a communication bus 1002. The communication bus 1002 is used for realizing connection communication between the processor 1001 and the memory 1005. The memory 1005 may be a high-speed RAM memory or a non-volatile memory (e.g., a magnetic disk memory). The memory 1005 may alternatively be a memory device separate from the processor 1001 described above.

Optionally, the RFID Radio Frequency technology-based blood inventory management device may further include a rectangular user interface, a network interface, a camera, RF (Radio Frequency) circuitry, a sensor, audio circuitry, a WiFi module, and the like. The rectangular user interface may comprise a Display screen (Display), an input sub-module such as a Keyboard (Keyboard), and the optional rectangular user interface may also comprise a standard wired interface, a wireless interface. The network interface may optionally include a standard wired interface, a wireless interface (e.g., WIFI interface).

Those skilled in the art will appreciate that the RFID radio frequency technology based blood inventory management device configuration shown in fig. 5 does not constitute a limitation of RFID radio frequency technology based blood inventory management devices and may include more or fewer components than shown, or some components in combination, or a different arrangement of components.

As shown in fig. 5, a memory 1005, which is a kind of computer storage medium, may include therein an operating system, a network communication module, and a blood inventory management program based on RFID radio frequency technology. The operating system is a program that manages and controls hardware and software resources of the blood inventory management device based on RFID radio frequency technology, supports the operation of the blood inventory management program based on RFID radio frequency technology, and other software and/or programs. The network communication module is used to enable communication between the various components within the memory 1005, as well as with other hardware and software in the blood inventory management system based on RFID radio frequency technology.

In the blood inventory management device based on RFID radio frequency technology shown in fig. 5, the processor 1001 is configured to execute a blood inventory management program based on RFID radio frequency technology stored in the memory 1005, so as to implement any of the steps of the blood inventory management method based on RFID radio frequency technology described above.

The specific implementation of the blood inventory management device based on the RFID radio frequency technology is substantially the same as the embodiments of the blood inventory management method based on the RFID radio frequency technology, and is not described herein again.

The present application further provides a blood inventory management device based on RFID radio frequency technology, which includes:

the system comprises an acquisition module, a checking module and a control module, wherein the acquisition module is used for scanning a bar code corresponding to a refrigeration house to be checked through an electronic tag identification device so as to acquire a blood information list to be checked corresponding to the refrigeration house to be checked;

the identification module is used for identifying the electronic tags on the blood bags in the refrigeration house to be checked in batches through the electronic tag identification device to obtain the blood information corresponding to the blood bags;

and the checking module is used for checking each piece of blood information with each piece of blood information corresponding to the blood information list to be checked, counting the number corresponding to each piece of blood information in the refrigeration storage to be checked, and reporting the checking result of the refrigeration storage to be checked and the number corresponding to each piece of blood information to a blood inventory management system.

Optionally, the identification module is further configured to:

the electronic tags on the blood bags in the refrigeration house to be checked are identified in batch through the electronic tag identification device, and chip coding information corresponding to the blood bags is read;

blood information associated with each of the chip code information is determined.

Optionally, the blood inventory management device is further configured to:

obtaining a blood electronic tag which is associated with a blood donation serial number in advance, and sticking the blood electronic tag on a blood bag to be stored;

placing the blood bag to be stored in a blood basket to be warehoused, which is stuck with a blood basket electronic tag;

correlating the blood information corresponding to the blood electronic tag with the blood basket information corresponding to the blood basket electronic tag, and reporting to a blood inventory management system;

scanning a bar code corresponding to a refrigeration house and a basket electronic tag corresponding to the basket to be warehoused by the electronic tag identification device to obtain a refrigeration house number of the bar code and basket information corresponding to the basket electronic tag;

and storing the blood basket to be warehoused in a refrigeration house corresponding to the refrigeration house number, and performing correlation report on the refrigeration house number and the blood basket information to the blood inventory management system.

Optionally, the blood inventory management device is further configured to:

identifying the blood electronic tag of the blood bag to be stored and the blood basket electronic tag of the blood basket to be warehoused by the electronic tag identification device, and reading chip coding information respectively corresponding to the blood electronic tag and the blood basket electronic tag;

determining a blood donation serial number associated with the chip coding information based on chip coding information corresponding to the blood electronic tag so as to obtain blood information corresponding to the blood donation serial number;

determining corresponding basket information of the basket to be warehoused based on chip coding information corresponding to the basket electronic tag;

and correlating the blood information with the blood basket information, and reporting to the blood inventory management system.

Optionally, the blood inventory management device is further configured to:

obtaining a blood donation serial number to be inquired;

and determining the blood basket information and the refrigeration house number which are associated with the serial number of the donated blood to be inquired.

Optionally, the blood inventory management device is further configured to:

and checking the statistical condition of the blood information in each refrigeration house in the blood inventory management system, and checking inventory detail information of each refrigeration house.

Optionally, the blood inventory management device is further configured to:

setting blood demand information, and extracting each piece of blood information meeting the corresponding condition of the blood demand information from the blood inventory management system;

and generating a ex-warehouse blood list according to the failure time corresponding to each piece of blood information, so that a worker can select blood according to the position information corresponding to each blood bag in the ex-warehouse blood list.

Optionally, the blood inventory management device is further configured to:

determining the expiration time corresponding to each piece of blood information based on each piece of blood information;

and sequencing the blood information according to the length of each failure time to obtain the ex-warehouse blood list.

The specific implementation of the blood inventory management device based on the RFID radio frequency technology is substantially the same as the embodiments of the blood inventory management method based on the RFID radio frequency technology, and is not described herein again.

The present application provides a medium, which is a computer readable storage medium, and the computer readable storage medium stores one or more programs, which can be further executed by one or more processors for implementing the steps of the RFID radio frequency technology-based blood inventory management method according to any one of the above.

The specific implementation of the computer-readable storage medium of the present application is substantially the same as the embodiments of the blood inventory management method based on the RFID radio frequency technology, and will not be described herein again.

The present application provides a computer program product, and the computer program product includes one or more computer programs, which can be further executed by one or more processors for implementing the steps of the RFID radio frequency technology-based blood inventory management method according to any one of the above.

The specific implementation of the computer program product of the present application is substantially the same as the embodiments of the blood inventory management method based on the RFID radio frequency technology, and will not be described herein again.

The above description is only a preferred embodiment of the present application, and not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings, or which are directly or indirectly applied to other related technical fields, are included in the scope of the present application.

Claims (10)

1. A blood inventory management method based on RFID radio frequency technology is characterized in that the blood inventory management method based on RFID radio frequency technology comprises the following steps:

scanning a bar code corresponding to a refrigeration house to be checked through an electronic tag identification device to obtain a blood information list to be checked corresponding to the refrigeration house to be checked;

identifying the electronic tags on the blood bags in the refrigeration house to be checked in batches through the electronic tag identification device to obtain the blood information corresponding to the blood bags;

and checking each piece of blood information with each piece of blood information corresponding to the blood information list to be checked, and counting the number corresponding to each piece of blood information in the refrigeration storage to be checked so as to report the checking result of the refrigeration storage to be checked and the number corresponding to each piece of blood information to a blood inventory management system.

2. The blood inventory management method based on the RFID radio frequency technology according to claim 1, wherein the step of obtaining the blood information corresponding to each blood bag by batch-identifying the electronic tags on each blood bag in the cold storage to be inventoried by the electronic tag identification device comprises:

the electronic tags on the blood bags in the refrigeration house to be checked are identified in batch through the electronic tag identification device, and chip coding information corresponding to the blood bags is read;

blood information associated with each of the chip code information is determined.

3. The RFID radio frequency technology-based blood inventory management method according to claim 1, wherein before the step of scanning a barcode corresponding to a to-be-checked cold storage through an electronic tag identification device to obtain a to-be-checked blood information list corresponding to the to-be-checked cold storage, the RFID radio frequency technology-based blood inventory management method further comprises:

obtaining a blood electronic tag which is associated with a blood donation serial number in advance, and sticking the blood electronic tag on a blood bag to be stored;

placing the blood bag to be stored in a blood basket to be warehoused, which is stuck with a blood basket electronic tag;

correlating the blood information corresponding to the blood electronic tag with the blood basket information corresponding to the blood basket electronic tag, and reporting to a blood inventory management system;

scanning a bar code corresponding to a refrigeration house and a basket electronic tag corresponding to the basket to be warehoused by the electronic tag identification device to obtain a refrigeration house number of the bar code and basket information corresponding to the basket electronic tag;

and storing the blood basket to be warehoused in a refrigeration house corresponding to the refrigeration house number, and performing correlation report on the refrigeration house number and the blood basket information to the blood inventory management system.

4. The blood inventory management method based on the RFID radio frequency technology as claimed in claim 3, wherein the step of associating the blood information corresponding to the blood electronic tag with the blood basket information corresponding to the blood basket electronic tag and reporting to the blood inventory management system includes:

identifying the blood electronic tag of the blood bag to be stored and the blood basket electronic tag of the blood basket to be warehoused by the electronic tag identification device, and reading chip coding information respectively corresponding to the blood electronic tag and the blood basket electronic tag;

determining a blood donation serial number associated with the chip coding information based on chip coding information corresponding to the blood electronic tag so as to obtain blood information corresponding to the blood donation serial number;

determining corresponding basket information of the basket to be warehoused based on chip coding information corresponding to the basket electronic tag;

and correlating the blood information with the blood basket information, and reporting to the blood inventory management system.

5. The RFID-based blood inventory management method according to claim 3, wherein after the step of storing the to-be-warehoused baskets in a refrigerator corresponding to the refrigerator number and reporting the refrigerator number and the basket information to the blood inventory management system in an associated manner, the RFID-based blood inventory management method further comprises:

obtaining a blood donation serial number to be inquired;

and determining the blood basket information and the refrigeration house number which are associated with the serial number of the donated blood to be inquired.

6. The blood inventory management method based on the RFID radio frequency technology according to claim 1, wherein after the steps of checking each piece of blood information with each piece of blood information corresponding to the list of blood information to be checked, and counting the number corresponding to each piece of blood information in the freezer to be checked, so as to report the checking result of the freezer to be checked and the number corresponding to each piece of blood information to the blood inventory management system, the blood inventory management method based on the RFID radio frequency technology further comprises:

and checking the statistical condition of the blood information in each refrigeration house in the blood inventory management system, and checking inventory detail information of each refrigeration house.

7. The RFID-based blood inventory management method according to claim 3, wherein after the step of storing the to-be-warehoused baskets in a refrigerator corresponding to the refrigerator number and reporting the refrigerator number and the basket information to the blood inventory management system in an associated manner, the RFID-based blood inventory management method further comprises:

setting blood demand information, and extracting each piece of blood information meeting the corresponding condition of the blood demand information from the blood inventory management system;

and generating a ex-warehouse blood list according to the failure time corresponding to each piece of blood information, so that a worker can select blood according to the position information corresponding to each blood bag in the ex-warehouse blood list.

8. The RFID radio frequency technology-based blood inventory management method according to claim 7, wherein the step of generating the ex-warehouse blood list according to the expiration time corresponding to each piece of blood information includes:

determining the expiration time corresponding to each piece of blood information based on each piece of blood information;

and sequencing the blood information according to the length of each failure time to obtain the ex-warehouse blood list.

9. An RFID radio frequency technology based blood inventory management device, the RFID radio frequency technology based blood inventory management device comprising:

the system comprises an acquisition module, a checking module and a control module, wherein the acquisition module is used for scanning a bar code corresponding to a refrigeration house to be checked through an electronic tag identification device so as to acquire a blood information list to be checked corresponding to the refrigeration house to be checked;

the identification module is used for identifying the electronic tags on the blood bags in the refrigeration house to be checked in batches through the electronic tag identification device to obtain the blood information corresponding to the blood bags;

and the checking module is used for checking each piece of blood information with each piece of blood information corresponding to the blood information list to be checked, counting the number corresponding to each piece of blood information in the refrigeration storage to be checked, and reporting the checking result of the refrigeration storage to be checked and the number corresponding to each piece of blood information to a blood inventory management system.

10. An RFID radio frequency technology-based blood inventory management apparatus, comprising: a memory, a processor and a blood inventory management program based on RFID radio frequency technology stored on the memory,

the RFID radio frequency technology based blood inventory management program being executed by the processor to carry out the steps of implementing the RFID radio frequency technology based blood inventory management method according to any one of claims 1 to 8.

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