CN116362837A

CN116362837A - Medical instrument cloud platform order management system

Info

Publication number: CN116362837A
Application number: CN202310329405.9A
Authority: CN
Inventors: 王晶; 邵漠宇; 唐攀
Original assignee: Xian Jiaotong University
Current assignee: Xian Jiaotong University
Priority date: 2023-03-30
Filing date: 2023-03-30
Publication date: 2023-06-30

Abstract

The invention provides a medical instrument cloud platform order management system, and relates to the field of medical instrument production. The medical instrument cloud platform order management system comprises: the cloud storage is used for storing and sharing information data. The medical instrument cloud platform order management system completes medical instrument order information. And the medical instrument order information after verification is transmitted to the cloud storage for internal storage, and the order information perfecting process and the medical instrument production process are updated in the display module and the cloud storage in real time. The staff can inquire the order completion progress in real time through the handheld terminal or the touch control screen, so that the staff and clients related to the warehouse transportation system and the production line monitoring system can know the production process of the medical equipment in real time. Reducing accidents of production, storage and transportation of the medical equipment caused by time differences when workers in different units know the production process of the medical equipment.

Description

Medical instrument cloud platform order management system

Technical Field

The invention relates to a management system, in particular to a medical instrument cloud platform order management system, and belongs to the technical field of medical instrument production.

Background

With the rapid development of computer technology and wireless communication technology, people are gradually popularized in the application of the Internet, especially in the field of electronic commerce, people can purchase articles of their own heart instruments through the Internet without going home, great convenience is brought to the life of people, and merchants can sell their own commodities to the whole country.

Cloud e-commerce refers to an e-commerce platform service based on cloud computing business model application, and all e-commerce suppliers, agents, planning service providers, manufacturers, industry associations, management institutions, industry media, legal structures and the like are integrated into a resource pool in a concentrated cloud mode on a cloud platform, and all resources are mutually displayed and interacted to communicate and achieve intent as required, so that the cost is reduced and the efficiency is improved.

In the production process of medical instruments, the cloud electronic commerce platform is correspondingly applied, after receiving orders through the cloud electronic commerce platform, a production plan is formulated, purchasing maintenance processing is carried out on related products, in the past production process, when the production inquiry of medical instrument orders is required to be modified, the production inquiry is often not quick, the whole factory time synchronization and the tracking of the completion process of the medical instrument orders cannot be achieved, a certain time difference is brought, complicated time and labor are brought in the process, and the order production monitoring and the production process adjustment are influenced.

Disclosure of Invention

(one) solving the technical problems

The invention aims to provide a medical instrument cloud platform order management system for solving the problems that in the prior art, when medical instrument order production inquiry is required to be modified, the production inquiry is often not fast, the whole factory time synchronization and the tracking of the medical instrument order completion process cannot be realized, a certain time difference is caused, the complicated and time-consuming process is caused, and the problems of order production monitoring and production process adjustment are influenced.

(II) technical scheme

In order to achieve the above purpose, the invention is realized by the following technical scheme: a medical instrument cloud platform order management system, comprising:

the cloud storage is used for storing and sharing information data, the medical instrument order information after verification is transmitted to the cloud storage for internal storage, and the order information perfecting process and the medical instrument production process are updated in the display module and the cloud storage in real time;

the cloud application SaaS server is used for receiving order information, encrypting the order information and then sending the encrypted order information;

the touch control screen is used for receiving, verifying, analyzing, inducing and the like of order information by staff, so that accidents of production, storage and transportation of the medical equipment caused by time differences when staff of different units know the production process of the medical equipment are reduced;

the system comprises a data processing platform, a wireless data receiving and transmitting end, a data processor, product data, a classification module, a production line monitoring system, an auxiliary storage module, a sample control module, a three-dimensional data storage module, a timing control module, a compression module, a PIXYZ platform, a Unity platform and the auxiliary storage module, wherein the data processing platform is used for processing functions of data classification, model generation, data compression and transmission, real-time update of a production process and the like related to order information;

the storage and transportation system is used for carrying out simulation and presetting on storage and transportation of ordered products and sending information such as material cashes, storage steps, transportation plans and the like in the storage and transportation system to the auxiliary storage module at regular time;

the production line monitoring system is used for providing order production process information, outputting production arrangement recorded by a workshop display screen, production processes recorded by numerical control equipment, medical instrument quality inspection information recorded by the quality inspection system, medical instrument production video shot by the monitoring system and other information to the auxiliary storage module, and sending the information to the cloud storage through the wireless data receiving and sending end after the internal information of the auxiliary storage module is compressed at regular time by the compression module.

Preferably, the touch control screen comprises a manual verification module, an automatic verification module and a decoding module, a worker verifies identities through the automatic verification module or the manual verification module, only relevant workers can operate orders, the decoding module is electrically connected between the cloud application SaaS server and the order analysis module, the display module and the order storage unit are electrically connected to the output end of the order analysis module, the automatic verification module and the manual verification module are electrically connected with the display module, and the order analysis module compares order information with finished similar order information stored in the cloud storage library.

Preferably, the wireless communication module is electrically connected to an output end of the order storage unit, the order storage unit is electrically connected to an engineer operation end, the order storage unit comprises sample data, production information and accounting summary, the production information and the sample data are checked without errors, the storage transportation system completes the production work of the medical equipment according to the order information, and the production line monitoring system completes the shipment transportation work of the medical equipment after completing the order information of the medical equipment.

Preferably, the wireless data transceiver is electrically connected to an output end of the data processor, the output end of the data processor is provided with product packaging and material information, and the data processor divides the order information into parts such as product data, product packaging and material information and the like and then respectively transmits the parts to the warehouse transportation system and the production line monitoring system according to production requirements to carry out production work on medical instruments.

Preferably, the classification module is arranged at the output end of the display module, the sample control module is used for controlling the classification module to work, the three-dimensional data storage module is electrically connected between the classification module and the PIXYZ platform, the classification module, the three-dimensional data storage module, the timing control module, the PIXYZ platform and the Unity platform are selectively enabled to enter the working state, the burden of the whole work of the data processing platform can be reduced, the energy consumption required by the work of the data processing platform is reduced, the Unity platform is electrically connected between the PIXYZ platform and the auxiliary storage module, the compression module is electrically connected between the three-dimensional data storage module and the auxiliary storage module, the compression module compresses data and then transmits the compressed data, the data transmission speed is improved, and the time difference is reduced.

Preferably, the timing control module is electrically connected to the input ends of the compression module and the auxiliary storage module, after the medical instrument sample information and the sample three-dimensional model generated by the PIXYZ platform and the Unity platform are compressed by the compression module, the sample three-dimensional model is generated to the touch control screen through the wireless data receiving and transmitting end and the wireless communication module, so that staff check and verify the sample three-dimensional model and then generate to the client cloud platform, the client verifies the technician supplementary data of the operation end of the operation engineer, the wireless data receiving and transmitting end is used for transmitting the product production process data compressed by the compression module to the cloud storage repository, the cloud storage repository is electrically connected with the handheld terminal, and the staff can inquire the order completion progress in real time through the handheld terminal or the touch control screen, so that the staff related to the storage transportation system and the production line monitoring system and the client can know the production progress of the medical instrument in real time.

Preferably, the warehouse transportation system and the production line monitoring system are electrically connected with the touch control screen, the display module is electrically connected with the cloud storage through the wireless communication module, and the order information perfecting process and the medical instrument production process are updated in the display module and the cloud storage in real time.

Preferably, the wireless data receiving and transmitting end conveys the product model and the product sample production process data to the inside of the order storage unit through the wireless communication module, the touch control screen is electrically connected with a customer cloud platform through the wireless communication module, the medical instrument sample production step, the medical instrument quality inspection structure and the medical instrument product video collected by the production line monitoring system are synchronously conveyed to the auxiliary storage module for temporary storage, the medical instrument sample information and the sample three-dimensional model generated by the PIXYZ platform and the Unity platform are compressed through the compression module, so that staff can check and verify the customer cloud platform, and the customer verifies the technician supplementary data of the operation end of the operation engineer, thereby ensuring the accuracy of order perfection.

Preferably, the production line monitoring system comprises a workshop display screen, numerical control equipment, a quality inspection system and a monitoring system, wherein the production arrangement recorded by the workshop display screen, the production process recorded by the numerical control equipment, the quality inspection information of the medical equipment recorded by the quality inspection system, the production video of the medical equipment shot by the monitoring system and other information are output to the auxiliary storage module, the storage transportation system and the production line monitoring system are electrically connected with the auxiliary storage module, and the compression module is used for compressing the internal information of the auxiliary storage module at regular time and then transmitting the information to the cloud storage through the wireless data receiving and transmitting end.

The invention provides a medical instrument cloud platform order management system, which has the following beneficial effects:

1. the medical instrument cloud platform order management system completes medical instrument order information. And the medical instrument order information after verification is transmitted to the cloud storage for internal storage, and the order information perfecting process and the medical instrument production process are updated in the display module and the cloud storage in real time. The staff can inquire the order completion progress in real time through the handheld terminal or the touch control screen, so that the staff and clients related to the warehouse transportation system and the production line monitoring system can know the production process of the medical equipment in real time. Reducing accidents of production, storage and transportation of the medical equipment caused by time differences when workers in different units know the production process of the medical equipment.

2. According to the medical instrument cloud platform order management system, medical instrument sample production steps, medical instrument quality inspection structures and medical instrument product videos collected by a production line monitoring system are synchronously conveyed to an auxiliary storage module for temporary storage, after medical instrument sample information and a sample three-dimensional model generated by a PIXYZ platform and a Unity platform are compressed by a compression module, the medical instrument sample information and the sample three-dimensional model are sent to a touch control screen through a wireless data receiving and sending end and a wireless communication module, so that staff check and verification are carried out on the customer cloud platform, and a customer verifies technician supplementary data of an operation end of an operation engineer, so that order perfection accuracy is guaranteed.

3. According to the medical instrument cloud platform order management system, the compression module compresses internal information of the auxiliary storage module at fixed time and then sends the internal information to the cloud storage library through the wireless data receiving and sending end. The method has the advantages that workers and clients can know the specific process of medical instrument production in orders at any time through the handheld terminal, work of the warehouse transportation system and the production line monitoring system can be arranged according to the collected information, and problems such as insufficient warehouse, untimely transportation, material scheduling, work arrangement errors of workers and the like are reduced.

Drawings

FIG. 1 is a schematic diagram of the overall system of the present invention;

FIG. 2 is a schematic diagram of a touch control screen system according to the present invention;

FIG. 3 is a system diagram of a data processing platform of the present invention;

FIG. 4 is a schematic diagram of a classification module according to the present invention;

FIG. 5 is a schematic diagram of a display module according to the present invention;

FIG. 6 is a system schematic diagram of a line monitoring system according to the present invention;

FIG. 7 is a system diagram of a timing control module according to the present invention.

In the figure: 1. cloud application SaaS server; 2. touching a control screen; 201. a manual verification module; 202. an automatic verification module; 203. a display module; 204. a decoding module; 205. an order analysis module; 206. an order storage unit; 207. a wireless communication module; 208. sample data; 209. production information; 210. collecting accounts; 3. a data processing platform; 301. a wireless data receiving and transmitting end; 302. a data processor; 303. product data; 304. packaging the product; 305. material information; 306. a classification module; 307. a sample control module; 308. a three-dimensional data storage module; 309. a timing control module; 310. a compression module; 311. a PIXYZ platform; 312. a Unity platform; 313. an auxiliary storage module; 4. a warehouse transport system; 5. a production line monitoring system; 501. a workshop display screen; 502. numerical control equipment; 503. a quality inspection system; 504. a monitoring system; 6. an engineer operation end; 7. a client cloud platform; 8. a cloud repository; 9. and (5) a handheld terminal.

Detailed Description

The embodiment of the invention provides a medical instrument cloud platform order management system.

Referring to fig. 1, 2, 3, 4, 5, 6 and 7, the method includes:

the cloud storage 8, the cloud storage 8 is used for storing and sharing information data, the order information perfecting process and the medical instrument production process are updated in the display module 203 and the cloud storage 8 in real time, and staff can query the order completion progress in real time through the handheld terminal 9 or the touch control screen 2;

the cloud application SaaS server 1 is used for receiving order information, encrypting the order information and then sending the encrypted order information;

the touch control screen 2, the touch control screen 2 is used for receiving, verifying, analyzing, inducing and the like of order information by staff, the touch control screen 2 comprises a display module 203, an order analysis module 205, an order storage unit 206 and a wireless communication module 207, the order analysis module 205 compares the order information with similar order information which is stored in the cloud repository 8 and is already finished, and whether the order information is missing in the production process of the medical instrument, such as three-dimensional size, material data, quantity and amount, packaging requirement and the like;

the data processing platform 3, the data processing platform 3 is used for processing functions of data classification, model generation, data compression and transmission, real-time update of production process and the like related to order information, the data processing platform 3 comprises a wireless data receiving and transmitting end 301, a data processor 302, product data 303, a classification module 306, a sample control module 307, the data processor 302 divides the order information into parts such as product data 303, product package 304 and material information 305, the parts are respectively transmitted to the warehouse transportation system 4 and the production line monitoring system 5 according to production requirements, production work is carried out on medical equipment, a three-dimensional data storage module 308, a timing control module 309, a compression module 310, a PIXYZ platform 311, a Unity platform 312 and an auxiliary storage module 313, after the three-dimensional model of the medical equipment, which is generated by the PIXYZ platform 311 and the Unity platform 312, is compressed by the compression module 310, the wireless data receiving and transmitting end 301 and the wireless communication module 207 generate to the touch control screen 2, and staff check and verify the three-dimensional model is generated to the client cloud platform 7;

the warehousing and transportation system 4 is used for carrying out simulation and presetting on warehousing and transportation of ordered products, information such as material cashier, storage step, transportation plan and the like in the warehousing and transportation system 4 is sent to the auxiliary storage module 313 at regular time, and the information such as material cashier, storage step, transportation plan and the like in the warehousing and transportation system 4 is stored through the auxiliary storage module 313;

the production line monitoring system 5, the production line monitoring system 5 is used for providing order production process information, and a workshop display screen 501, a numerical control device 502, a quality inspection system 503, a monitoring system 504 and other systems are arranged in the production line monitoring system 5, and information such as production schedule recorded by the workshop display screen 501, production process recorded by the numerical control device 502, medical instrument quality inspection information recorded by the quality inspection system 503, medical instrument production video shot by the monitoring system 504 and the like is output to the auxiliary storage module 313.

The touch control screen 2 comprises a manual verification module 201, an automatic verification module 202 and a decoding module 204, a worker verifies identities through the automatic verification module 202 or the manual verification module 201, only relevant workers can be guaranteed to operate orders, the decoding module 204 is electrically connected between the cloud application SaaS server 1 and the order analysis module 205, the display module 203 and the order storage unit 206 are electrically connected to the output end of the order analysis module 205, the decoding module 204 arranged on the touch control screen 2 decodes order information and then transmits the decoded order information to the order analysis module 205, and the automatic verification module 202 and the manual verification module 201 are electrically connected with the display module 203.

The wireless communication module 207 is electrically connected to the output end of the order storage unit 206, the order storage unit 206 is electrically connected to the engineer operation end 6, the technician is supplemented and then sent to the touch control screen 2, after being stored by the touch control screen 2, the technician is classified by the data processing platform 3 and then sent to the warehouse transportation system 4 and the production line monitoring system 5 to perform the medical instrument production work, the order storage unit 206 comprises sample data 208, production information 209 and accounting summary 210, the production information 209 and the sample data 208 are checked, the warehouse transportation system 4 completes the medical instrument production work according to the order information, and the production line monitoring system 5 completes the medical instrument shipment transportation work.

The wireless data transceiver 301 is electrically connected to an output of the data processor 302, and the output of the data processor 302 is provided with a product package 304 and material information 305.

The classification module 306 is disposed at an output end of the display module 203, the sample control module 307 is configured to control the classification module 306 to work, the three-dimensional data storage module 308 is electrically connected between the classification module 306 and the PIXYZ platform 311, the Unity platform 312 is electrically connected between the PIXYZ platform 311 and the auxiliary storage module 313, the sample control module 307 controls the classification module 306, the three-dimensional data storage module 308, the timing control module 309, the PIXYZ platform 311, and the Unity platform 312 to work, and the compression module 310 is electrically connected between the three-dimensional data storage module 308 and the auxiliary storage module 313, so that the classification module 306, the three-dimensional data storage module 308, the timing control module 309, the PIXYZ platform 311, and the Unity platform 312 are selectively enabled to enter a working state, thereby reducing a burden of the overall work of the data processing platform 3.

The timing control module 309 is electrically connected to the input ends of the compression module 310 and the auxiliary storage module 313, the wireless data transceiver 301 is configured to transmit the product production process data compressed by the compression module 310 to the cloud repository 8, the cloud repository 8 is electrically connected to the handheld terminal 9, and the progress of order completion can be queried in real time through the handheld terminal 9 or the touch control screen 2, so that the storage and transportation system 4 and the related staff and clients of the production line monitoring system 5 can know the production process of the medical apparatus in real time.

The warehouse transportation system 4 and the production line monitoring system 5 are electrically connected with the touch control screen 2, and the display module 203 is electrically connected with the cloud repository 8 through the wireless communication module 207.

The wireless data transceiver 301 transmits the product model and the product sample production process data to the inside of the order storage unit 206 through the wireless communication module 207, the touch control screen 2 is electrically connected with the client cloud platform 7 through the wireless communication module 207, and after the medical instrument sample information and the sample three-dimensional model generated by the PIXYZ platform 311 and the Unity platform 312 are compressed through the compression module 310, the staff checks and verifies the sample three-dimensional model and then generates the sample three-dimensional model to the client cloud platform 7.

The production line monitoring system 5 comprises a workshop display screen 501, a numerical control device 502, a quality inspection system 503 and a monitoring system 504, and the warehouse transportation system 4 and the production line monitoring system 5 are electrically connected with the auxiliary storage module 313.

Example 1: the cloud application SaaS server 1 is set to receive and transmit the encrypted customer order information, and a worker verifies the identity through the automatic verification module 202 or the manual verification module 201, so that only relevant workers can operate the order. After the automatic verification module 202 or the manual verification module 201 completes identity verification, the touch control screen 2 can be operated to send an instruction to the decoding module 204, so that the decoding module 204 arranged on the touch control screen 2 decodes the order information and then sends the decoded order information to the order analysis module 205. The order analysis module 205 compares the order information with similar order information stored in the cloud repository 8 that has been completed, and compares whether the order information lacks information such as three-dimensional size, material data, amount of money, packaging requirements, etc. during the production of the medical device.

If the order information is complete after comparison by the order analysis module 205, the order information is backed up and stored by the order storage unit 206, then is transmitted to the data processing platform 3 through the cooperation of the wireless communication module 207 and the wireless data receiving and transmitting end 301, and is classified by the data processor 302 in the data processing platform 3, and the data processor 302 divides the order information into parts such as product data 303, product package 304 and material information 305, and then is respectively transmitted to the warehouse transportation system 4 and the production line monitoring system 5 according to production requirements, so as to carry out production work on medical equipment.

When the order analysis module 205 compares the order information with the order information, the wireless communication module 207 sends the order information to the engineer operation end 6, the order information is supplemented by technicians and then sent to the touch control screen 2, and the order information is stored by the touch control screen 2 and then classified by the data processing platform 3 and then sent to the warehouse transportation system 4 and the production line monitoring system 5 for medical instrument production; or the technician marks out the missing part in the order information, and the corresponding staff sends the order information with the technician mark to the client cloud platform 7 through the touch control screen 2, and the client supplements the order information for production.

After the accounting summary 210, the production information 209 and the sample data 208 are checked correctly, the warehouse transportation system 4 completes the production work of the medical equipment according to the order information, and the production line monitoring system 5 completes the shipment and transportation work of the medical equipment, the order information of the medical equipment is completed. The medical instrument order information after verification is transmitted to the cloud repository 8 for internal storage, and the order information perfecting process and the medical instrument production process are updated in the display module 203 and the cloud repository 8 in real time. The staff can inquire the order completion progress in real time through the handheld terminal 9 or the touch control screen 2, so that the staff and clients related to the warehouse transportation system 4 and the production line monitoring system 5 can know the production process of the medical equipment in real time. Reducing accidents of production, storage and transportation of the medical equipment caused by time differences when workers in different units know the production process of the medical equipment.

Example 2: after the three-dimensional data of the order are supplemented by the engineer operation end 6, a worker sends an instruction to the sample control module 307 inside the data processing platform 3 through the touch control screen 2, so that the sample control module 307 controls the classification module 306, the three-dimensional data storage module 308, the timing control module 309, the PIXYZ platform 311 and the Unity platform 312 to work, and the classification module 306, the three-dimensional data storage module 308, the timing control module 309, the PIXYZ platform 311 and the Unity platform 312 are selectively enabled to enter the working state, thereby reducing the burden of the whole work of the data processing platform 3 and reducing the energy consumption required by the work of the data processing platform 3.

The classification module 306 classifies the product data 303 extracted by the data processor 302, so that relevant information of three-dimensional data of the medical instrument enters the three-dimensional data storage module 308 to be stored, then the PIXYZ platform 311 extracts three dimensions of the medical instrument in the three-dimensional data storage module 308, the PIXYZ platform 311 generates a three-dimensional CAD model according to the three-dimensional data of the medical instrument (the PIXYZ platform 311 has a first-class surface subdivision and optimization algorithm, can convert the CAD data of almost all industry-leading CAD solutions into a lightweight optimization grid, can input the three-dimensional data of the medical instrument in the PIXYZ platform 311, generates a corresponding three-dimensional CAD model, the hierarchical structure of the imported CAD model cannot be changed, and the PIXYZ platform 311 has a good output path, so that the three-dimensional CAD model can be rapidly and smoothly exported).

The PIXYZ platform 311 imports the generated three-dimensional CAD model into the Unity platform 312, the Unity platform 312 converts the three-dimensional CAD model data into dynamic models (Unity is a real-time 3D interactive content creation and operation platform, all creators including game development, art, architecture, car design, movies and movies become realistic with Unity). Meanwhile, the production line monitoring system 5 produces samples from the medical instruments, and the medical instrument sample production step, the medical instrument quality inspection structure and the medical instrument product video collected by the production line monitoring system 5 are synchronously conveyed to the auxiliary storage module 313 for temporary storage, after the medical instrument sample information and the three-dimensional sample model generated by the PIXYZ platform 311 and the Unity platform 312 are compressed by the compression module 310, the three-dimensional sample model is generated to the touch control screen 2 through the wireless data receiving and transmitting end 301 and the wireless communication module 207, so that staff can check and verify the data and then generate the data to the client cloud platform 7, and the client verifies the supplementary data of the staff operating the engineer operating end 6 to ensure the perfect accuracy of the order.

Example 3: the operator inputs an instruction through the touch control screen 2, and the instruction is transmitted to the given control module 309 through the wireless communication module 207 and the wireless data transceiver 301, so that the timing control module 309 works. The working timing control module 309 regularly generates instructions to the production line monitoring system 5 and the warehouse transportation system 4, and sends information such as the material cashier, the storage step, the transportation plan and the like in the warehouse transportation system 4 to the auxiliary storage module 313 regularly, and the information such as the material cashier, the storage step, the transportation plan and the like in the warehouse transportation system 4 is stored through the auxiliary storage module 313. Meanwhile, a workshop display screen 501, a numerical control device 502, a quality inspection system 503, a monitoring system 504 and other systems are arranged in the production line monitoring system 5, production arrangement recorded by the workshop display screen 501, production processes recorded by the numerical control device 502, quality inspection information of medical equipment recorded by the quality inspection system 503, production videos of the medical equipment shot by the monitoring system 504 and other information are output to the auxiliary storage module 313, and the compression module 310 compresses the internal information of the auxiliary storage module 313 at fixed time and then transmits the information to the cloud storage 8 through the wireless data transceiver 301. The specific process of medical instrument production in order can be known by staff and clients through the handheld terminal 9 at any time, and the work of the warehouse transportation system 4 and the production line monitoring system 5 can be arranged according to the collected information, so that the problems such as insufficient warehouse, untimely transportation, material scheduling, work arrangement errors of staff and the like are reduced.

The data is compressed and then sent through the compression module 310, so that the data sending speed is improved, and the existence of time difference is reduced.

The foregoing has shown and described the basic principles and main features of the present invention and the advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. Medical apparatus cloud platform order management system, its characterized in that includes:

the cloud storage library (8), wherein the cloud storage library (8) is used for storing and sharing information data;

the cloud application SaaS server (1) is used for receiving order information, encrypting the order information and then sending the order information;

the system comprises a touch control screen (2), wherein the touch control screen (2) is used for receiving, verifying, analyzing, summarizing and the like order information by staff, and the touch control screen (2) comprises a display module (203), an order analysis module (205), an order storage unit (206) and a wireless communication module (207);

the system comprises a data processing platform (3), wherein the data processing platform (3) is used for processing functions of data classification, model generation, data compression transmission, production process real-time update and the like related to order information, and the data processing platform (3) comprises a wireless data receiving and transmitting end (301), a data processor (302), product data (303), a classification module (306), a sample control module (307), a three-dimensional data storage module (308), a timing control module (309), a compression module (310), a PIXYZ platform (311), a Unity platform (312) and an auxiliary storage module (313);

the storage and transportation system (4) is used for carrying out simulation and presetting on storage and transportation of the order products;

a production line monitoring system (5), the production line monitoring system (5) being configured to provide order production process information.

2. The medical instrument cloud platform order management system of claim 1, wherein: the touch control screen (2) comprises a manual verification module (201), an automatic verification module (202) and a decoding module (204), wherein the decoding module (204) is electrically connected between the cloud application SaaS server (1) and the order analysis module (205), the display module (203) and the order storage unit (206) are electrically connected to the output end of the order analysis module (205), and the automatic verification module (202) and the manual verification module (201) are electrically connected with the display module (203).

3. The medical instrument cloud platform order management system of claim 1, wherein: the wireless communication module (207) is electrically connected to an output end of the order storage unit (206), the order storage unit (206) is electrically connected to the engineer operation end (6), and the order storage unit (206) comprises sample data (208), production information (209) and accounting summary (210).

4. The medical instrument cloud platform order management system of claim 1, wherein: the wireless data transceiver (301) is electrically connected to an output end of the data processor (302), and a product package (304) and material information (305) are arranged at the output end of the data processor (302).

5. The medical instrument cloud platform order management system of claim 1, wherein: the classifying module (306) is arranged at the output end of the display module (203), the sample control module (307) is used for controlling the classifying module (306) to work, the three-dimensional data storage module (308) is electrically connected between the classifying module (306) and the PIXYZ platform (311), the Unity platform (312) is electrically connected between the PIXYZ platform (311) and the auxiliary storage module (313), and the compression module (310) is electrically connected between the three-dimensional data storage module (308) and the auxiliary storage module (313).

6. The medical instrument cloud platform order management system of claim 1, wherein: the timing control module (309) is electrically connected to the input ends of the compression module (310) and the auxiliary storage module (313), the wireless data transceiver (301) is used for transmitting the product production process data compressed by the compression module (310) to the cloud storage library (8), and the cloud storage library (8) is electrically connected with the handheld terminal (9).

7. The medical instrument cloud platform order management system of claim 1, wherein: the warehouse transportation system (4) and the production line monitoring system (5) are electrically connected with the touch control screen (2), and the display module (203) is electrically connected with the cloud storage library (8) through the wireless communication module (207).

8. The medical instrument cloud platform order management system of claim 1, wherein: the wireless data receiving and transmitting end (301) conveys data of a product model and a product sample production process to the inside of the order storage unit (206) through the wireless communication module (207), and the touch control screen (2) is electrically connected with the client cloud platform (7) through the wireless communication module (207).

9. The medical instrument cloud platform order management system of claim 1, wherein: the production line monitoring system (5) comprises a workshop display screen (501), numerical control equipment (502), a quality inspection system (503) and a monitoring system (504), and the warehousing and transportation system (4) and the production line monitoring system (5) are electrically connected with the auxiliary storage module (313).