CN110993082B - Intelligent blood sampling management system and management method thereof - Google Patents

Abstract

The invention discloses an intelligent blood sampling management system and a management method thereof. In one aspect, an intelligent blood collection management system comprises a hospital LIS system; the system comprises a central dispatching system and a BI data analysis system, wherein the central dispatching system is connected with the hospital LIS system and can perform information interaction with each other, and the BI data analysis system is connected with the hospital LIS system and can acquire, process and manage information resources of the hospital LIS system; the system also comprises a number taking queuing system, a labeling and tube separating and blood collecting system and a blood collecting tube sorting and conveying system which are respectively connected with the central dispatching system and can perform information interaction with the central dispatching system. On the other hand, the invention also provides a management method adopting the intelligent blood sampling management system. The invention has the advantages of diversified number taking modes, ordered queuing management, automatic test tube selection, labeling, check collection, sorting and transmission, fine management of blood sampling service data and the like.

Description

Intelligent blood sampling management system and management method thereof

Technical Field

The invention relates to the technical field of blood sampling management systems used in the medical industry, in particular to an intelligent blood sampling management system and a management method thereof.

Background

With the improvement of health consciousness of people and the development of disease forms, more and more types of diseases need to be diagnosed by blood sampling, and while the population of blood sampling patients develops continuously, the facility scale of hospitals lags behind the relative development. At present, the traditional blood sampling management system is still widely used in most medical places, when taking blood samples of patients, the traditional blood sampling management system relates to the processes of selecting blood sampling tube types, pasting bar code labels, sorting and the like, no matter the blood sampling tube types are selected, or bar code labels with patient information are pasted on the blood sampling tubes, and the operations of conveying and sorting the blood sampling tubes after subsequent blood sampling are finished by depending on corresponding special equipment of manual assistance, because the manual blood sampling links are too many and a reasonable blood sampling process management mechanism is lacked, in the blood sampling process, not only the number taking mode is single, the queuing management is disordered, but also medical staff need to repeatedly perform complicated work flows of test tube selection, document printing, information checking, sample collection, classification, delivery and the like, a large amount of manpower and time are consumed, work efficiency is low, and the error probability is big, influences holistic job schedule easily, is unfavorable for the quality safety, in addition, also can't accurate statistics nurse work load, consumptive material quantity, record specimen collection, transmission, receipt time etc. and the information-based degree is not high, is unfavorable for hospital information-based construction.

Therefore, a new blood collection management technology is needed to overcome the shortcomings of the prior art, and the technical problem to be solved is solved.

Disclosure of Invention

The invention aims to provide an intelligent blood sampling management system which is diversified in number taking mode, ordered in queuing management and capable of automatically selecting tubes, labeling, checking, collecting, sorting and transmitting test tubes.

The invention also aims to provide a management method adopting the intelligent blood sampling management system.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

in one aspect, the invention provides an intelligent blood collection management system, which comprises a hospital LIS system; the system comprises a central dispatching system and a BI data analysis system, wherein the central dispatching system is connected with the hospital LIS system and can perform information interaction with each other, and the BI data analysis system is connected with the hospital LIS system and can acquire, process and manage information resources of the hospital LIS system; the system also comprises a number taking queuing system, a labeling and tube separating and blood collecting system and a blood collecting tube sorting and conveying system which are respectively connected with the central dispatching system and can perform information interaction with the central dispatching system;

the central dispatching system comprises an information acquisition module for acquiring blood sampling information in the hospital LIS system, an information distribution module for distributing the blood sampling information to each subsystem, an information feedback module for feeding back feedback information in each subsystem to the hospital LIS system, an information storage module and a control module, wherein the information acquisition module, the information distribution module, the information feedback module, the information storage module and the control module are respectively connected with the hospital LIS system;

the number taking and queuing system comprises a number taking module for blood sampling registration of a doctor's advice patient, a queuing and version watching module for serial number queuing according to blood sampling number taking time of the doctor's advice patient, a window display module and a voice module for displaying a number queuing sequence and calling sound reminding respectively, and a queue scheduling module for adjusting the number queuing sequence, wherein the number taking module, the queuing and version watching module, the window display module, the voice module and the queue scheduling module are respectively connected with a central scheduling system;

the labeling and tube-dividing blood sampling system comprises a desktop blood sampling system, a labeling and tube-dividing system and a statistical system, wherein the desktop blood sampling system is used for code scanning identification, certificate printing and blood sampling information display, the labeling and tube-dividing system is used for blood sampling tube storage, tube selection, label printing, labeling and tube preparation, the statistical system is used for collecting, processing and storing blood sampling information, and the desktop blood sampling system, the labeling and tube-dividing system and the statistical system are respectively connected with a central dispatching system;

heparin tube letter sorting transfer system including being used for carrying out the heparin tube sorting machine of letter sorting to the heparin tube of each laboratory and clinical laboratory, with heparin tube sorting machine, desktop blood sampling headtotail and be used for conveying the heparin tube to the heparin tube conveyor of heparin tube sorting machine to and, the heparin tube conveyor that one end and heparin tube sorting machine are connected the other end and are connected with clinical laboratory's sorting machine, wherein, heparin tube sorting machine, heparin tube conveyor are connected with central dispatching system respectively.

Preferably, desktop blood sampling system includes that a plurality of series connection set up multi-functional table, setting are at each multi-functional desktop sweep a yard recognizer, voucher printer, blood sampling information display screen, desktop table and reserve voucher printer, still include each the blood sampling pipe delivery port that sets up on the multi-functional table, wherein, it is provided with a plurality ofly with multi-functional table correspondence to paste the mark branch pipe system, blood sampling pipe conveyor sets up the below of blood sampling pipe delivery port is and be linked together with the blood sampling pipe delivery port, sweep yard recognizer, voucher printer, blood sampling information display screen respectively with central dispatching system signal of telecommunication is connected.

Preferably, the labeling and tube distributing system comprises a blood sampling tube storage mechanism, a blood sampling tube falling position conveying mechanism arranged below the blood sampling tube storage mechanism, a printing and labeling mechanism arranged below the blood sampling tube falling position conveying mechanism, a blood sampling tube conveying mechanism arranged at the side end of the printing and labeling mechanism and communicated with each other, and a control system; the control system is in electric signal connection with the central dispatching system and can perform information interaction.

Preferably, the mechanism is stored to heparin tube includes a plurality of holding storehouses that are used for holding the heparin tube and sets up the heparin tube identification system of holding storehouse top is still be in the below of holding storehouse with heparin tube position of falling transport mechanism intercommunication and by the heparin tube mouth that drops that control system control opened and close, wherein, heparin tube identification system with control system connects.

Preferably, heparin tube position transport mechanism includes the bottom plate, sets up sliding guide on the bottom plate and one end with sliding guide intercommunication other end with the heparin tube transfer passage of printing labeller structure intercommunication, still including setting up the bottom plate side is used for the drive the gliding electric motor of sliding guide, wherein, electric motor with control system connects.

Preferably, the printing and labeling mechanism comprises a fixing plate, and a printing and labeling device, a label guide rod, a label loading shaft and a label recovery main shaft which are arranged on the fixing plate.

Preferably, the blood collection tube conveying mechanism comprises an outlet tube channel communicated with the printing and labeling mechanism, and a blood collection tube receiving box communicated with the outlet tube channel and positioned below the control system.

Preferably, heparin tube conveyor, heparin tube conveyer by the slide rail and with slide linkage and be used for the drive the slide rail operation's motor is constituteed be equipped with a plurality of heparin tubes on the slide rail and place the piece.

Preferably, a protective cover made of a transparent resin material is provided on the slide rail.

On the other hand, the invention also provides a management method adopting the intelligent blood sampling management system, which comprises the following steps:

s1: the method comprises the steps that doctors give orders, patient information is input into a hospital LIS system, after the patients pay fees, the number taking module registers and takes numbers on a number taking queuing system, the number taking queuing system synchronously transmits the patient information to a central scheduling system, the central scheduling system transmits the received patient information to the hospital LIS system, the hospital LIS system matches corresponding blood sampling items according to the patient information and transmits the blood sampling item information to the central scheduling system, the central scheduling system distributes the information to the number taking queuing system and a labeling and tube-dividing blood sampling system after receiving the information transmitted by the hospital LIS system, and meanwhile, the patients print queuing lists through the number taking module;

s2: the method comprises the steps that a nurse calls a number, the patient information is checked through a desktop blood sampling system, if the patient is a new blood sampling item, the central scheduling system distributes the patient information to a labeling and tube distributing system, then automatic tube selection, label printing, labeling and tube preparation are carried out through the labeling and tube distributing system according to the patient information, the blood sampling tube is automatically conveyed to a blood sampling station of the desktop blood sampling system to carry out blood sampling operation on the patient, and if the patient is a new blood sampling item returned in a laboratory or a clinical laboratory, tube selection, label printing and labeling are carried out through the nurse to further carry out blood sampling operation on the patient;

s3: after blood collection is finished, scanning a blood collection tube through a desktop blood collection system to transmit blood collection information to a central dispatching system, transmitting the received blood collection information to a hospital LIS system through the central dispatching system, automatically outputting a blood collection receipt, placing the blood collection tube in a blood collection tube conveying device to be conveyed to a blood collection tube sorting machine to be sorted, and transmitting the blood collection tube of a clinical laboratory to the clinical laboratory sorting machine through the blood collection tube conveying device while sorting is finished;

s4: and finally, collecting and managing the blood sampling service flow information of the LIS system of the hospital according to preset requirements through a BI data analysis system.

Compared with the prior art, the invention has the following beneficial effects:

the invention can realize information interaction in each link of the blood sampling process, and through the mutual matching of the hospital LIS system, the BI data analysis system, the number taking queuing system, the labeling and tube sorting and sampling system and the blood sampling tube sorting and conveying system, the invention has diversified number taking modes and ordered queuing management, can automatically perform tube selection, labeling, nuclear collection, sorting and transmission of test tubes, has high automation strength, realizes intelligent management, and realizes high efficiency, convenience, accuracy and intelligence of the whole blood sampling process.

Drawings

The invention is further illustrated by the following figures and examples.

FIG. 1 is a block diagram of an intelligent blood collection management system according to the present invention;

FIG. 2 is a schematic structural diagram of a blood collection processing part of an intelligent blood collection management system according to the present invention;

FIG. 3 is a schematic structural diagram of a labeling and tube distributing system part of an intelligent blood collecting management system according to the present invention;

FIG. 4 is a flow chart of a management method of the intelligent blood sampling management system according to the invention.

Description of reference numerals: 1. hospital LIS system, 2, central dispatching system, 21, information acquisition module, 22, information distribution module, 23, information feedback module, 24, information storage module, 25, control module, 3, BI data analysis system, 4, queuing system, 41, number taking module, 42, queuing and version reading module, 43, window display module, 44, voice module, 45, queue dispatching module, 5, labeling and tube sorting system, 51, desktop blood sampling system, 511, multifunctional table, 512, code scanning identifier, 513, evidence printer, 514, blood sampling information display screen, 515, desktop table, 516, standby evidence printer, 517, blood sampling tube delivery port, 52, labeling and tube sorting system, 521, blood sampling tube storage mechanism, 100, accommodation bin, 200, blood sampling tube identification system, 300, blood sampling tube drop port, 522, blood sampling tube drop transfer mechanism, 400, bottom plate, 500. sliding guide, 600, heparin tube transfer passage, 700, electric motor, 523, print labeller and construct, 800, the fixed plate, 900, print labeller, 901, label guide bar, 902, label loading shaft, 903, the label retrieves main shaft, 524, heparin tube transfer mechanism, 904, exit tube channel, 905, heparin tube receiving box, 525, control system, 53, statistical system, 6, heparin tube letter sorting conveying system, 61, heparin tube sorting machine, 62, heparin tube conveying device, 63 heparin tube conveying device, 621, the slide rail, 622, the motor, 623, the piece is placed to the heparin tube, 906, the visor, 7, the clinical laboratory machine.

Detailed Description

Referring to fig. 1 to 3, an intelligent blood collection management system includes a hospital LIS system 1; a central dispatching system 2 connected with the hospital LIS system 1 and capable of information interaction with each other, and a BI data analysis system 3 connected with the hospital LIS system 1 and capable of collecting, processing and managing information resources of the hospital LIS system 1; the system also comprises a number taking queuing system 4, a labeling, tube dividing and blood collecting system 5 and a blood collecting tube sorting and conveying system 6 which are respectively connected with the central dispatching system 2 and can perform information interaction with the central dispatching system 2;

the central dispatching system 2 comprises an information acquisition module 21 for acquiring blood sampling information in the hospital LIS system 1, an information distribution module 22 for distributing the blood sampling information to each subsystem, an information feedback module 23 for feeding feedback information in each subsystem back to the hospital LIS system 1, an information storage module 24 and a control module 25, wherein the information acquisition module 21, the information distribution module 22, the information feedback module 23, the information storage module 24 and the control module 25 are respectively connected with the hospital LIS system 1;

the number taking and queuing system 4 comprises a number taking module 41 for blood sampling registration of a doctor's advice patient, a queuing and version watching module 42 for sequential numbering and queuing according to blood sampling and number taking time of the doctor's advice patient, a window display module 43 and a voice module 44 for displaying a numbering and queuing sequence and calling sound reminding respectively, and a queue scheduling module 45 for adjusting the numbering and queuing sequence, wherein the number taking module 41, the queuing and version watching module 42, the window display module 43, the voice module 44 and the queue scheduling module 45 are respectively connected with the central scheduling system 2;

the labeling, tube-dividing and blood-collecting system 5 comprises a desktop blood-collecting system 51 for code scanning identification, certificate printing and blood-collecting information display, a labeling, tube-dividing and tube-preparing system 52 for tube storage, tube selection, label printing, labeling and tube preparation of blood-collecting tubes, and a statistical system 53 for collecting, processing and storing blood-collecting information, wherein the desktop blood-collecting system 51, the labeling, tube-dividing and tube-preparing system 52 and the statistical system 53 are respectively connected with the central dispatching system 2;

heparin tube letter sorting transfer system 6 is including being used for carrying out the heparin tube sorting machine 61 of letter sorting to the heparin tube of each laboratory and clinical laboratory, with heparin tube sorting machine 61, desktop blood sampling system 51 are connected and are used for conveying the heparin tube to heparin tube conveyor 62 of heparin tube sorting machine 61 to and, one end is connected the heparin tube conveyor 63 that the other end and clinical laboratory sorting machine are connected with heparin tube sorting machine 61, wherein, heparin tube sorting machine 61, heparin tube conveyor 62, heparin tube conveyor 63 are connected with central dispatching system 2 respectively.

Desktop blood sampling system 51 includes that a plurality of multi-functional tables 511, the setting of establishing ties set up are at each sweep a yard recognizer 512, voucher printer 513, blood sampling information display screen 514, desktop table 515 and reserve voucher printer 516 on the multi-functional table 511, still include each the last blood sampling tube delivery port 517 of seting up of multi-functional table 511, wherein, it is provided with a plurality ofly with multi-functional table 511 correspondence to mark branch pipe system 52, blood sampling tube conveyor 62 sets up the below of blood sampling tube delivery port 517 and be linked together with blood sampling tube delivery port 517, sweep yard recognizer 512, voucher printer 513, blood sampling information display screen 514 respectively with 2 signal connection of central dispatching system.

The labeling and tube distributing system 52 comprises a blood sampling tube storage mechanism 521, a blood sampling tube placement conveying mechanism 522 arranged below the blood sampling tube storage mechanism 521, a printing and labeling mechanism 523 arranged below the blood sampling tube placement conveying mechanism 522, a blood sampling tube conveying mechanism 524 and a control system 525, wherein the blood sampling tube conveying mechanism 524 and the control system 525 are arranged at the side end of the printing and labeling mechanism 523 and are communicated with each other; wherein, the control system 525 is electrically connected with the central dispatching system 2 and can carry out information interaction.

The blood collection tube storage mechanism 521 includes a plurality of containing bins 100 that are used for holding blood collection tubes and sets up the blood collection tube identification system 200 of containing bin 100 top, still be in the below of containing bin 100 be equipped with blood collection tube position conveying mechanism 522 intercommunication and by the opening and the blood collection tube mouth 300 that drops of closing is opened in control system 525 control, wherein, blood collection tube identification system 200 with control system 525 connects.

Blood collection tube falling position transfer mechanism 522 includes bottom plate 400, sets up slide rail 500 and one end on the bottom plate 400 with slide rail 500 intercommunication other end with print the blood collection tube transfer passage 600 that labeller 523 communicates, still including setting up bottom plate 400 side is used for the drive the gliding electric motor 700 of slide rail 500, wherein, electric motor 700 with control system 525 connects.

The printing and labeling mechanism 523 includes a fixing plate 800, and a printing and labeling device 900, a label guide rod 901, a label loading shaft 902, and a label recovery main shaft 903 which are mounted on the fixing plate 800.

The blood collection tube conveying mechanism 524 includes an outlet tube channel 904 communicated with the printing and labeling mechanism 523, and a blood collection tube receiving box 905 communicated with the outlet tube channel 904 and located below the control system 525.

Blood collection tube conveying device 62, blood collection tube conveyer 63 by slide rail 621 and with the slide rail 621 is connected and is used for the drive the motor 622 of slide rail 621 operation constitutes be equipped with a plurality of blood collection tubes on the slide rail 621 and place the piece 623.

A protective cover 906 made of a transparent resin material is provided on the slide rail 621.

By adopting the structure, the blood sampling device can realize information interaction in each link in the blood sampling process, and has the advantages of diversified number taking modes, ordered queuing management, automatic test tube selection, labeling, check collection, sorting and transmission, fine management of blood sampling service data and the like.

When the system is used specifically, firstly, doctors order the system, patient information is input into the hospital LIS system 1, then, after the patient pays the fee, the number taking module 41 registers and takes the number on the number taking queuing system 4, after the number taking is registered, the central dispatching system 2 distributes the blood taking information of the patient to the labeling and tube dividing and blood collecting system 5, then, a nurse calls the number, the scanning identifier 512 is used for checking the patient information, after the information checking is completed, if the patient is a new blood taking item, the central dispatching system 2 distributes the patient information to the labeling and tube dividing system 52, at this moment, the labeling and tube dividing system 52 works, after the blood taking information of the patient is identified by the blood taking tube identification system 200 of the blood taking tube storage mechanism 521 in the labeling and tube dividing system 52, the information is transmitted to the control system 525, the blood taking tube drop port 300 is controlled and opened by the control system 525, meanwhile, the blood collection tubes are conveyed from the accommodating bin 100 to a blood collection tube falling position conveying mechanism 522 through a blood collection tube falling port 300, then the electric motor 700 of the blood collection tube falling position conveying mechanism 522 drives the sliding guide rail 500 to convey the blood collection tubes to a blood collection tube conveying channel 600, the blood collection tubes are conveyed to a printing and labeling mechanism 523 through the blood collection tube conveying channel 600, then a printing and labeling device 900 of the printing and labeling mechanism 523 is combined with a label guide rod 901, a label loading shaft 902 and a label recovery main shaft 903 to drive a label tape to work, the label tape is labeled while being subjected to label printing by the printing and labeling device 900, and then the blood collection tubes are conveyed to a blood collection tube receiving box 905 through a tube outlet channel 904 of the blood collection tube conveying mechanism 524, so that automatic tube selection, label printing, labeling and tube preparation of the blood collection tubes are realized; then, a blood sampling nurse grabs the blood sampling tube to a blood sampling station of the desktop blood sampling system 51 to perform blood sampling operation on the patient, and if the patient is a blood re-sampling item returned in a laboratory or a clinical laboratory, the nurse performs manual tube selection, label printing and labeling, so as to perform blood sampling operation on the patient; finally, after the blood collection is finished, the bar code information of the blood collection tube is scanned by the code scanning identifier 512 of the desktop blood collection system 51, the blood collection information is transmitted to the central dispatching system 2, the central dispatching system 2 transmits the received blood collection information to the hospital LIS system 1, meanwhile, the receipt of blood collection is automatically output by the voucher printer 513 of the desktop blood collection system 51, and the blood collection tube is placed in the blood collection tube sorting and conveying system 6 and conveyed to the clinical laboratory sorting machine through the blood collection tube conveying port 517 of the desktop blood collection system 51, the blood collection tube sorting machine 61 for transferring the blood collection tubes to the blood collection tube sorting and conveying system 6 by operating the slide rail 621 of the blood collection tube transfer device 62 in the blood collection tube sorting and conveying system 6, meanwhile, the blood collection tube sorting machine 61 conveys the blood collection tubes belonging to the clinical laboratory sorting machine by driving the slide rails 621 to work by the motor 622 of the blood collection tube conveying device 63; in addition, the BI data analysis system 3 is used for collecting, processing and managing blood collection workflow information of the hospital LIS system 1, so that an efficient, convenient, accurate and intelligent blood collection process is completed.

Referring to fig. 4, a management method of an intelligent blood collection management system includes the following steps:

s1: the doctor orders the patient, the patient information is recorded into the hospital LIS system 1, after the patient pays the fee, the number taking module 41 registers the number taking on the number taking queuing system 4, the number taking queuing system 4 synchronously transmits the patient information to the central dispatching system 2, the central dispatching system 2 transmits the received patient information to the hospital LIS system 1, the hospital LIS system 1 matches the corresponding blood sampling item according to the patient information and transmits the blood sampling item information to the central dispatching system 2, the central dispatching system 2 receives the information transmitted by the hospital LIS system 1 and then distributes the information to the number taking queuing system 4 and the labeling and tube-distribution blood sampling system 5, and meanwhile, the patient prints a queuing list through the number taking module 41;

s2: a nurse calls a number, the patient information is checked through the desktop blood sampling system 51, if the patient is a new blood sampling item, the central dispatching system 2 distributes the patient information to the labeling and tube distributing system 52, then the labeling and tube distributing system 52 automatically selects, prints, labels and prepares tubes according to the patient information, and automatically conveys the blood sampling tubes to a blood sampling station of the desktop blood sampling system 51 to perform blood sampling operation on the patient, if the patient is a new blood sampling item returned in a laboratory or a clinical laboratory, the nurse selects, prints and labels the tubes, and then performs blood sampling operation on the patient;

s3: after blood collection is completed, a desktop blood collection system 51 scans blood collection tubes to transmit blood collection information to a central dispatching system 2, the central dispatching system 2 transmits the received blood collection information to a hospital LIS system 1, meanwhile, a blood collection receipt is automatically output, the blood collection tubes are placed in a blood collection tube conveying device 62 and conveyed to a blood collection tube sorting machine 61 for sorting, and the blood collection tubes of a clinical laboratory are transmitted to a clinical laboratory sorting machine 7 through a blood collection tube conveying device 63 when sorting is completed;

s4: and finally, collecting, processing and finely managing the blood collection service flow information of the hospital LIS system 1 through the BI data analysis system 3.

In a word, the system and the management method can realize information interaction in each link in the blood sampling process, have the advantages of diversified number taking modes, ordered queuing management, capability of automatically performing test tube selection, labeling, nuclear collection, sorting and transmission, capability of performing fine management on blood sampling service data and the like, and realize high efficiency, convenience, accuracy and intelligence of the whole blood sampling process.

It will be apparent to those skilled in the art that various other changes and modifications may be made in the above-described embodiments and concepts and all such changes and modifications are intended to be within the scope of the appended claims.

Claims (7)

1. An intelligent blood collection management system comprises a hospital LIS system (1); the method is characterized in that: the system comprises a central scheduling system (2) and a BI data analysis system (3), wherein the central scheduling system is connected with the hospital LIS system (1) and can perform information interaction with each other, and the BI data analysis system is connected with the hospital LIS system (1) and can acquire, process and manage information resources of the hospital LIS system (1); the system also comprises a number taking queuing system (4), a labeling, tube dividing and blood collecting system (5) and a blood collecting tube sorting and conveying system (6) which are respectively connected with the central dispatching system (2) and can perform information interaction with the central dispatching system (2);

the central dispatching system (2) comprises an information acquisition module (21) for acquiring blood sampling information in the hospital LIS system (1), an information distribution module (22) for distributing the blood sampling information to each subsystem, an information feedback module (23) for feeding feedback information in each subsystem back to the hospital LIS system (1), an information storage module (24) and a control module (25), wherein the information acquisition module (21), the information distribution module (22), the information feedback module (23), the information storage module (24) and the control module (25) are respectively connected with the hospital LIS system (1);

the number taking and queuing system (4) comprises a number taking module (41) for blood sampling registration of a doctor's advice patient, a queuing and version watching module (42) for sequential numbering and queuing according to blood sampling and number taking time of the doctor's advice patient, a window display module (43) and a voice module (44) for displaying a numbering and queuing sequence and calling voice reminding respectively, and a queue scheduling module (45) for adjusting the numbering and queuing sequence, wherein the number taking module (41), the queuing and version watching module (42), the window display module (43), the voice module (44) and the queue scheduling module (45) are respectively connected with the central scheduling system (2);

the labeling and tube-dividing blood sampling system (5) comprises a desktop blood sampling system (51) used for code scanning identification, certificate printing and blood sampling information display, a labeling and tube-dividing system (52) used for storing tubes, selecting tubes, printing labels, labeling and preparing tubes of the blood sampling tubes, and a statistical system (53) used for collecting, processing and storing blood sampling information, wherein the desktop blood sampling system (51), the labeling and tube-dividing system (52) and the statistical system (53) are respectively connected with the central dispatching system (2);

the blood collection tube sorting and conveying system (6) comprises a blood collection tube sorting machine (61) for sorting blood collection tubes of laboratories and clinical laboratory departments, a blood collection tube conveying device (62) connected with the blood collection tube sorting machine (61) and the desktop blood collection system (51) and used for conveying the blood collection tubes to the blood collection tube sorting machine (61), and a blood collection tube conveying device (63) connected with the blood collection tube sorting machine (61) at one end and the clinical laboratory department sorting machine at the other end, wherein the blood collection tube sorting machine (61), the blood collection tube conveying device (62) and the blood collection tube conveying device (63) are respectively connected with the central dispatching system (2);

the desktop blood sampling system (51) comprises a plurality of serially connected multifunctional tables (511), code scanning identifiers (512), certificate printers (513), blood sampling information display screens (514), desktop tables (515) and standby certificate printers (516) which are arranged on each multifunctional table (511), and blood sampling tube conveying ports (517) which are formed in each multifunctional table (511), wherein the labeling and tube distributing systems (52) are correspondingly arranged on the multifunctional tables (511), the blood sampling tube conveying devices (62) are arranged below the blood sampling tube conveying ports (517) and communicated with the blood sampling tube conveying ports (517), and the code scanning identifiers (512), the certificate printers (513) and the blood sampling information display screens (514) are respectively in electric signal connection with the central dispatching system (2);

the labeling and tube distributing system (52) comprises a blood sampling tube storage mechanism (521), a blood sampling tube falling position conveying mechanism (522) arranged below the blood sampling tube storage mechanism (521), a printing and labeling mechanism (523) arranged below the blood sampling tube falling position conveying mechanism (522), a blood sampling tube conveying mechanism (524) and a control system (525), wherein the blood sampling tube conveying mechanism (524) is arranged at the side end of the printing and labeling mechanism (523) and is communicated with the blood sampling tube falling position conveying mechanism; wherein the control system (525) is in electric signal connection with the central dispatching system (2) and can carry out information interaction;

heparin tube transfer mechanism (522) that falls includes bottom plate (400), sets up slide rail (500) and one end on bottom plate (400) with slide rail (500) intercommunication other end with heparin tube transfer passage (600) of printing labeller structure (523) intercommunication, still including setting up bottom plate (400) side is used for the drive the gliding electric motor (700) of slide rail (500), wherein, electric motor (700) with control system (525) are connected.

2. The intelligent blood collection management system according to claim 1, wherein: blood sampling tube storage mechanism (521) are in including a plurality of holding storehouses (100) that are used for holding the blood sampling tube and setting blood sampling tube identification system (200) of holding storehouse (100) top, still be in the below of holding storehouse (100) be equipped with blood sampling tube position of falling transport mechanism (522) intercommunication and by control system (525) control is opened and the blood sampling tube mouth (300) that drops of closing, wherein, blood sampling tube identification system (200) with control system (525) are connected.

3. The intelligent blood collection management system according to claim 1, wherein: the printing and labeling mechanism (523) comprises a fixing plate (800), and a printing and labeling device (900), a label guide rod (901), a label loading shaft (902) and a label recovery main shaft (903) which are arranged on the fixing plate (800).

4. The intelligent blood collection management system according to claim 1, wherein: blood sampling tube conveying mechanism (524) include with go out pipeline (904) that the labeling mechanism (523) is linked together prints to reach, with go out pipeline (904) and be located blood sampling tube receiving box (905) of control system (525) below is linked together.

5. The intelligent blood collection management system according to claim 1, wherein: heparin tube conveyor (62), heparin tube conveyer (63) by slide rail (621) and with slide rail (621) are connected and are used for the drive motor (622) of slide rail (621) operation constitute be equipped with a plurality of heparin tubes on slide rail (621) and place piece (623).

6. The intelligent blood collection management system according to claim 5, wherein: and a protective cover (906) made of transparent resin material is arranged on the sliding rail (621).

7. A management method using the intelligent blood collection management system according to claim 1, characterized in that: the method comprises the following steps:

s1: the hospital LIS system comprises a doctor, a hospital LIS system (1) and a central dispatching system (2), wherein the doctor orders the patient, the patient inputs patient information into the hospital LIS system (1), after paying, the patient registers and acquires a number on the number acquisition queuing system (4) through a number acquisition module (41), the number acquisition queuing system (4) synchronously transmits the patient information to the central dispatching system (2), the central dispatching system (2) transmits the received patient information to the hospital LIS system (1), the hospital LIS system (1) matches corresponding blood collection items according to the patient information and transmits the blood collection item information to the central dispatching system (2), the central dispatching system (2) distributes the information to the number acquisition queuing system (4) and a labeling and blood collection system (5) after receiving the information transmitted by the hospital LIS system (1), and simultaneously prints a queuing list through the number acquisition module (41);

s2: the nurse calls the number, the patient information is checked through the desktop blood sampling system (51), if the patient is a new blood sampling item, the central scheduling system (2) distributes the patient information to the labeling and tube distributing system (52), then the labeling and tube distributing system (52) automatically selects tubes, prints labels, labels and prepares tubes according to the patient information, and automatically conveys the blood sampling tubes to a blood sampling station of the desktop blood sampling system (51) to perform blood sampling operation on the patient, and if the patient is a new blood sampling item returned by a laboratory or a clinical laboratory, the nurse selects tubes, prints the labels and further performs the blood sampling operation on the patient;

s3: after blood collection is finished, scanning blood collection tubes through a desktop blood collection system (51) to transmit blood collection information to a central dispatching system (2), transmitting the received blood collection information to a hospital LIS system (1) through the central dispatching system (2), automatically outputting a blood collection receipt, placing the blood collection tubes in a blood collection tube conveying device (62) to be conveyed to a blood collection tube sorting machine (61) for sorting, and transmitting the blood collection tubes of a clinical laboratory to a clinical laboratory sorting machine (7) through a blood collection tube conveying device (63) when sorting is finished;

s4: and finally, collecting and managing the blood sampling service flow information of the LIS system of the hospital according to preset requirements through a BI data analysis system.

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