CN209859625U - Wireless radio frequency management equipment of automatic printing and labeling machine - Google Patents

Abstract

The utility model discloses automatic print labeller's wireless radio frequency management equipment relates to an equipment that is used for blood bag automated management. The wireless radio frequency management equipment of the automatic printing labeling machine can achieve complete, rapid and full-flow traceability management and high data processing accuracy. The utility model discloses automatic print labeller's wireless radio frequency management equipment is applied to the biological sample container that has first label, has first data on the biological sample container, and first label storage has first data and has first identification code, specifically includes the server, first subassembly, the second subassembly, third subassembly and conveying unit, last first workspace, second workspace and the third workspace that connects gradually of being provided with of conveying unit.

Description

Wireless radio frequency management equipment of automatic printing and labeling machine

Technical Field

The utility model relates to a blood bag management technical field especially relates to a wireless radio frequency management equipment that is used for automatic printing labeller of automatic management blood bag.

Background

In a general hospital or scientific research institution, when a medical staff handles a blood sample, the blood of a patient is usually captured through a blood bag or a test tube, and data related to the patient is entered into a computer system, printed with an identification code, or manually written on a label of the blood bag or the test tube.

In order to improve the management efficiency and ensure the correctness and traceability of the blood bag information, a related management method using a radio frequency tag is developed. However, the aforementioned method only solves the data identification of a single blood bag, and in fact, the blood bag finally needs to enter the blood bank for storage until it is needed for use, and provides the retrospective management of subsequent use and verification, which is frequent and not tolerant to errors. The existing technical means are difficult to meet the requirement of efficient and full-flow management. In view of the above, there is a need in the market for a radio frequency management device for an automatic printing and labeling machine to solve the deficiencies of the prior art.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a can reach complete quick with the automatic wireless radio frequency management equipment of printing labeller of tracing to source management, the data processing accuracy height of full flow.

The utility model discloses automatic print wireless radio frequency management equipment of labeller is applied to the biological sample container that has first label, has first data on the biological sample container, and first label storage has first identification code on first data and the first label, include

The server is used for providing a storage unit to store the first data;

the conveying unit is used for transferring the biological sample container, and is provided with a first working area, a second working area and a third working area, wherein the biological sample container sequentially passes through the first working area, the second working area and the third working area;

the first component is connected with the server and is used for scanning a first identification code on a biological sample container in a first working area and acquiring corresponding first data from the storage unit according to the first identification code;

the second component is connected with the server and is used for receiving the first data scanned from the first component, printing second data with a second identification code on the label surface of a second label, writing the second data into the second label and attaching the second label on a biological sample container positioned in a second working area, wherein the second data provided by the second label comprises a visible form and a digitalized form; and

and the third component is connected with the server and is used for scanning a second identification code of visible second data, reading electronic second data and finishing pre-warehousing management operation of the biological sample container when the server confirms that the second data is consistent with the first data.

The utility model discloses automatic print labeller's wireless radio frequency management equipment, wherein first identification code and second identification code are one-dimensional bar code or two-dimensional bar code.

The utility model discloses automatic print labeller's wireless radio frequency management equipment, wherein the size of second label is not less than the size of first label.

The utility model discloses automatic print labeller's wireless radio frequency management equipment, wherein including at least one in biological sample container type, biological sample container capacity, biological sample container serial number, the person's identity of being sampled, biological sample kind, sampling time, sampling place, sampling date or the person's identity of sampling in first data and the second data.

The utility model discloses automatic print labeller's wireless radio frequency management equipment, wherein including the radio frequency identification chip in the second label, the radio frequency identification chip is used for handling and stores the second data.

The utility model discloses automatic print labeller's radio frequency management equipment, wherein the radio frequency identification chip uses the frequency channel of super high frequency.

The utility model discloses automatic print labeller's wireless radio frequency management equipment, wherein conveying unit is the conveyer belt of single section or complex section.

The utility model discloses automatic print labeller's wireless radio frequency management equipment and prior art difference lie in, the utility model discloses automatic print labeller's wireless radio frequency management equipment can be used for providing the management of blood bag, and brief flow does, can paste for example one-dimensional sign indicating number label on the blood bag in order to confirm each item data of blood source and store in high in the clouds information base when donating blood. When entering the labeling machine, the blood bag pasted with the bar code A firstly scans the bar code A of the sticker, and transmits information required by printing visible characters and bar codes on the surface of the RFID Inlay label B according to the code link information base and transmits the information to the RFID printer for label printing and RFID Inlay information writing. And (5) discharging the label after the paper discharging printing and the Inlay code writing of the printer are finished. And conveying the blood bag to an automatic labeling machine below the labeling machine, writing visible characters, bar codes and RFID Inlay information on the label surface into the finished label, and pressing down and attaching the label to the blood bag. And conveying the labeled blood bag to the position near the outlet, and starting the code scanner and the RFID Reader above the outlet to scan the B bar code data of the label on the blood bag and read the RFID Inlay information for correlation confirmation. And (5) transmitting the information back to the cloud end to confirm that the labeling is finished, recording the information, and preparing the information for storage.

Compared with the prior art, the utility model has the advantages that the automatic printing and labeling machine can realize automatic, complete and rapid and full-flow traceability management for blood bags and other containers; by scanning, generating labels, attaching labels, verifying data and other contents, the old labels are replaced by the new labels suitable for warehousing, all or part of data of the old labels can be automatically imported into the new labels, and the accuracy of the data is improved.

The following describes the radio frequency management device of the automatic printing and labeling machine of the present invention with reference to the accompanying drawings.

Drawings

Fig. 1 is a schematic structural view of a radio frequency management device of an automatic printing and labeling machine according to the present invention;

fig. 2 is a process flow chart of the wireless radio frequency management operation of the automatic printing and labeling machine of the present invention;

the notation in the figures means: 2-blood bag; 12-a server; 122-a storage unit; 16-a first component; 18-a second component; 20-a third component; FT-first label; FD-first data; FA-first working area; SA-second workspace; TA-third working area; FIDC-first identification code; SD-second data; ST-a second tag; VSD-visual second data; ESD-the digitized second data.

Detailed Description

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

As shown in fig. 1, is a schematic structural diagram of the management device of the present invention. The utility model discloses automatic print labeller's wireless radio frequency management equipment is applied to biological sample container, and biological sample container is blood bag 2 in this embodiment, can be test tube or other containers in other embodiments. The blood bag 2 is provided with a first tag FT having a first identification code FIDC, the first tag FT stores therein first data FD, and the first identification code FIDC is in the form of a one-dimensional barcode or a multi-dimensional barcode.

The first data FD may be one or more of a type of biological sample container, a volume of biological sample container, a number of biological sample container, an identity of a person to be sampled, a type of biological sample, a sampling time, a sampling place, a sampling date, an identity of a person to be sampled.

The utility model discloses automatic print labeller's wireless radio frequency management equipment includes server 12, conveying unit, first subassembly 16, second subassembly 18 and third subassembly 20.

The server 12 has a storage unit 122 built therein, and the storage unit 122 is used for storing the first data FD. The server 12 may be located locally or in the cloud. The server 12 is provided with a transmission unit, and the transmission unit may transmit the first data FD via a communication device conforming to a wired communication specification or a wireless communication specification. When the medical staff draws blood of the patient, the first data FD about the blood can be recorded in the storage unit 122.

The conveying unit is used for transferring the blood bag 2 and comprises a single-section or multi-section conveying belt consisting of a motor, a gear, a roller and a belt body. The conveying unit is provided with a first working area FA, a second working area SA and a third working area TA. In fig. 1, the first working area FA, the second working area SA, and the third working area TA are arranged in order from the left to the right. The medical staff or other staff member feeds the collected blood bag 2 from the left end of the first work area FA into the transport unit.

The first module 16 is connected to the server 12 via a wired or wireless network, the first module 16 comprises a barcode scanner, an RFID reader and a communication module, the first module 16 is configured to scan the first identification code FIDC on the blood bag 2 located in the first working area FA, and in the server 12, retrieve the corresponding first data FD from the storage unit 122 according to the first identification code FIDC and transmit the first data FD to the second module 18. The manner of using the first element 16 is well known in the art and will not be described herein.

A second component 18 is connected to the server 12 via a wired or wireless network, the second component 18 comprising a bar code scanner, a processor, a memory unit, an RFID reader/writer, a communication component and a labelling machine. The manner of using the second element 18 is well known in the art and will not be described herein. The second module 18 receives the first data FD information from the blood bag 2 in the first module 16, and performs data processing by the processor to convert the first data FD information into second data SD with a second identification code according to a predetermined data coding rule, where the data coding rule may be that the second data SD is completely or partially identical to the first data FD, or the second data SD may be a part of the first data FD and additionally add data content that does not appear in the first data FD, such as the location of the blood bank, the managed lot number, and the like. The second data SD with the second identification code is then visually printed on the label side of the second label ST, while the second data SD is digitally written into the second label ST, which is then applied by the labeling machine to the blood bag 2 entering the second work area SA. The second tag ST is internally provided with a radio Frequency identification chip which is used for processing and storing the second data SD, and the second data SD can be stored in the second tag ST in a digitized form by using an Ultra-High Frequency (Ultra-High Frequency) Frequency band through an RFID reader/writer. The size of the second label ST is not smaller than the size of the first label FT. The second data SD is related to the first data FD, in other words, the second data SD may be completely or partially identical to the first data FD, or the second data SD may be a part of the first data FD and additionally data content that does not appear in the first data FD, such as the location of the blood bank, the number of the managed batch, and the like. The second identification code is in a one-dimensional bar code or multi-dimensional bar code type.

The third component 20 is connected with the server 12 through a wired or wireless network, and the third component 20 comprises a bar code scanner, an RFID reader and a communication component. The manner of using the third component 20 is well known in the art and will not be described herein. The third assembly 20 is used to scan the second identification code of the visible second data VSD on the blood bag 2 passing through the third work area TA and to read the digitized second data ESD. When the server 12 confirms that the second data SD matches the first data FD, the management operation before the storage of the blood bag 2 is completed. Such as the operation of logging in the blood bag 2 to set the position, time, validity period, etc. of the blood bank.

The utility model discloses automatic print labeller's wireless radio frequency management equipment adopts following method at the during operation, and it is applied to the blood bag 2 that has first label FT, has first data FD on the blood bag 2, and first label FT stores first data FD and has first identification code FIDC. As shown in fig. 2, fig. 2 is a process flow chart of the method of the present invention, which includes the following steps:

step S21, scanning the first identification code FIDC to obtain the first data FD pre-stored in the server;

a step S22 of printing the content of the second data SD related to the first data FD on a second label ST to form viewable second data VSD;

step S23, writing the content of the second data SD into the rfid chip of the second tag ST to form a digitized second data ESD;

step S24, attaching the second label ST to the blood bag 2 instead of the first label FT, wherein the second label ST may cover the first label FT or be attached to another position of the blood bag 2;

step S25, scanning the visible second data VSD and reading the digitized second data ESD to compare the first data FD with the second data SD, if the first data FD does not match the second data SD, performing step S26, and if the first data FD matches the second data SD, performing step S27;

step S26, sending out a notice, returning to step S21, re-performing the above steps, and re-attaching the label of the second data SD;

step S27, outputting the blood bag 2 with the second label ST, and managing according to the second label ST, for example, the blood bag 2 with the second label ST is sent to the corresponding position of the blood bank;

step S28, the process ends.

In step S25, the health care professional or other staff member can determine that the blood bag 2 is correct by comparing the identity of the person to be sampled, the type of the biological sample, the sampling time, the sampling place, the sampling date, the type of the biological sample container, and the volume of the biological sample container in the first data FD and the second data SD.

Although the invention has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made based on the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (7)

1. The utility model provides an automatic print wireless radio frequency management equipment of labeller, is applied to the biological sample container that has first label, has first data on the biological sample container, and first label stores first data and has first identification code on the first label, its characterized in that: comprises that

The server is used for providing a storage unit to store the first data;

the conveying unit is used for transferring the biological sample container, and is provided with a first working area, a second working area and a third working area, wherein the biological sample container sequentially passes through the first working area, the second working area and the third working area;

the first component is connected with the server and is used for scanning a first identification code on a biological sample container in a first working area and acquiring corresponding first data from the storage unit according to the first identification code;

the second component is connected with the server and is used for receiving the first data scanned from the first component, printing second data with a second identification code on the label surface of a second label, writing the second data into the second label and attaching the second label on a biological sample container positioned in a second working area, wherein the second data provided by the second label comprises a visible form and a digitalized form; and

and the third component is connected with the server and is used for scanning a second identification code of visible second data, reading electronic second data and finishing pre-warehousing management operation of the biological sample container when the server confirms that the second data is consistent with the first data.

2. The wireless radio frequency management device of an automatic printing and labeling machine according to claim 1, characterized in that: the first identification code and the second identification code are one-dimensional bar codes or two-dimensional bar codes.

3. The wireless radio frequency management device of an automatic printing and labeling machine according to claim 1, characterized in that: the size of the second label is not smaller than that of the first label.

4. The wireless radio frequency management device of an automatic printing and labeling machine according to claim 1, characterized in that: the first data and the second data comprise at least one of a biological sample container type, a biological sample container volume, a biological sample container number, a sampled person identity, a biological sample type, a sampling time, a sampling location, a sampling date, or a sampled person identity.

5. The wireless radio frequency management device of an automatic printing and labeling machine according to claim 1, characterized in that: the second tag comprises a radio frequency identification chip, and the radio frequency identification chip is used for processing and storing second data.

6. The wireless radio frequency management device of an automatic printing and labeling machine according to claim 5, characterized in that: the radio frequency identification chip uses an ultra-high frequency band.

7. The wireless radio frequency management device of an automatic printing and labeling machine according to claim 1, characterized in that: the conveying unit is a single-section or multi-section conveying belt.