CN110931114A - Design method of medical equipment management system based on intelligent Internet of things - Google Patents

Abstract

The invention discloses a design method of a medical equipment management system based on an intelligent Internet of things, which specifically comprises the following steps: the method comprises the steps of S1, equipment information entry and electronic tag generation, S2, equipment lending program, S3, equipment tracking, S4 and equipment return reminding and display, and relates to the technical field of medical equipment management systems. The design method of the medical equipment management system based on the intelligent Internet of things can realize optimization of a borrowing system of medical equipment, so that when the medical equipment is used by borrowing outside, a responsible person is appointed to carry out the responsibility of the equipment, the aim of tracking the equipment in real time in the process of transferring and borrowing for many times is well achieved by adopting an Internet of things equipment electronic tag scanning method, the medical equipment is well managed, the situation that overtime returning and disordered use of the medical equipment in the process of using the medical equipment by borrowing outside is avoided, and the management of the medical equipment is greatly facilitated.

Description

Design method of medical equipment management system based on intelligent Internet of things

Technical Field

The invention relates to the technical field of medical equipment management systems, in particular to a design method of a medical equipment management system based on an intelligent Internet of things.

Background

The medical equipment management system is characterized in that the hospital cost is reduced through scientific asset management, which is one of the key points of the operation of operators of each hospital, the medical equipment management system digitalizes all links of equipment purchase planning, bid and tender, purchase, operation, maintenance, elimination and scrapping, and the like in the whole process, the medical equipment management system is applied to the medical industry, and is an information management system for the purchase, sale, storage, maintenance and electronic filing of hospital equipment, the medical equipment is used as a management object, and a scientific and functional information management system is established, the medical equipment management is an important plate of hospital management, the equipment is subjected to standardized, institutional and scientific management, the utilization rate of the equipment can be improved, the loss and waste of the medical equipment are reduced, the use cost of the hospital is reduced, the economic benefit of the hospital is improved, and the hospital equipment management system is accelerated along with the national medical reform, the medical institution is popularized in a large amount, informatization construction is developed and carried forward, and development of medical modernization leads to higher and higher requirements of hospitals on equipment and larger data quantity, so that the management of the equipment of the hospitals is done only by manpower, at the moment, a batch of equipment management systems are produced, including ERP, SCM, EAM, CRM, HRM, OA and the like, can meet all-around and multi-level requirements, simplify the working process, greatly promote the modernization process of equipment management, digitally manage all links of equipment purchase planning, bid, purchase, operation, maintenance, abandonment and the like, promote dynamic management of the whole life cycle of medical equipment, and realize regular quality analysis and benefit analysis of the equipment.

The prior medical equipment management system is frequently used in the using process, the medical equipment cannot be well managed due to disordered use of the external borrowing medical equipment, the optimization of the external borrowing system of the medical equipment cannot be realized, one responsible person is appointed to carry out the responsibility of the equipment when the medical equipment is used by external borrowing, the aim of tracking the equipment in real time in the process of carrying out multiple times of borrowing by adopting an Internet of things equipment electronic tag scanning method cannot be achieved, the occurrence of overtime returning and disordered use in the external borrowing use process of the medical equipment cannot be well avoided, and therefore great inconvenience is brought to the management of the medical equipment.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a design method of a medical equipment management system based on an intelligent Internet of things, which solves the problems that the medical equipment cannot be well managed due to disordered use of the lent medical equipment and the lent system of the medical equipment cannot be optimized in the use process of the conventional medical equipment management system, so that when the medical equipment is used by lending outside, a designated responsible person is responsible for the equipment, the aim of tracking the equipment in real time in the process of carrying out repeated lending cannot be fulfilled by adopting an Internet of things equipment electronic tag scanning method, and the situations of overtime returning and disordered use of the medical equipment in the lending process cannot be well avoided.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: a design method of a medical equipment management system based on an intelligent Internet of things specifically comprises the following steps:

s1, entering of equipment information and generation of electronic tags: firstly, an equipment manager controls an equipment information entry unit to enter the information of equipment into a system through a central processing module, the shape, the appearance, the use range, the equipment name and the model information of the equipment are respectively registered through an equipment information registration module in the equipment information entry unit, then the use department information of the equipment is set through an equipment application range setting module, medical personnel in other departments cannot borrow the equipment for use, and then an equipment RFIF label generation module can generate an RFID electronic label of the equipment and is attached to the equipment for scanning and reading;

s2, device lending program: when medical personnel need to borrow the medical personnel, the central processing module reads the identities of the medical personnel through the medical personnel identity reading module, and then reads the RFID electronic tags of the equipment to be borrowed through the equipment RFID tag reading module;

s3, tracking of equipment: when equipment needs to be tracked, the central processing module extracts information read in the medical staff scanning and reading equipment through a medical staff information extraction module in the equipment use tracking unit, the information of medical staff is extracted from a large networked database, then the information of the equipment to be tracked is taken as a retrieval basis through an equipment information retrieval module to carry out all-dimensional retrieval in the extracted information of the medical staff, then the retrieved equipment lending information is extracted through the equipment information extraction module, and the information of the medical staff where the lending equipment is located is determined;

s4, returning reminding and displaying of equipment: when the equipment is borrowed externally, the registered person and the positioning module can be used by the equipment to position the borrowed person of the equipment, when the lending time is up, the central processing module can control the equipment returning warning module to warn so as to remind the borrowed medical personnel to return in time, and meanwhile, the display unit displays the borrowed medical personnel.

Preferably, the device information entry unit in step S1 includes a device information registration module, a device application range setting module, and a device RFID tag generation module, where an output end of the device information registration module is connected to an input end of the device application range setting module, and an output end of the device application range setting module is connected to an input end of the device RFID tag generation module.

Preferably, in step S2, the central processing module is respectively connected to the medical staff identity reading module, the device RFID tag reading module, and the scanning reading device in a bidirectional manner.

Preferably, the device usage tracking unit in step S3 includes a medical staff information extraction module, a device information retrieval module, and a device information extraction module, an output end of the medical staff information extraction module is connected to an input end of the device information retrieval module, and an output end of the device information retrieval module is connected to an input end of the device information extraction module.

Preferably, in the step S3, the central processing module is bidirectionally connected to the device usage tracking unit, and the device usage tracking unit is bidirectionally connected to the networked big database.

Preferably, in step S4, the central processing module is respectively connected to the device returning warning module, the device use registered person positioning module, and the display unit in a bidirectional manner.

(III) advantageous effects

The invention provides a design method of a medical equipment management system based on an intelligent Internet of things. Compared with the prior art, the method has the following beneficial effects: the design method of the medical equipment management system based on the intelligent Internet of things specifically comprises the following steps: s1, entering of equipment information and generation of electronic tags: firstly, a device manager controls a device information entry unit to enter information of a device into a system through a central processing module, the shape, the appearance, the use range, the device name and the model information of the device are respectively registered through a device information registration module in the device information entry unit, then the use department information of the device is set through a device application range setting module, medical personnel in departments other than the department cannot borrow the medical personnel for use, and then a device RFIF tag generation module can generate an RFID electronic tag of the device and attach the RFID electronic tag to the device for scanning and reading, S2, a borrowing program of the device: when medical staff need borrow the use, the central processing module reads the identity of the medical staff through the medical staff identity reading module, then reads the RFID electronic tag of the equipment to be borrowed through the equipment RFID tag reading module, and S3, tracking of the equipment: when the equipment needs to be tracked, the central processing module extracts the information read in the medical staff scanning and reading equipment through the medical staff information extraction module in the equipment use tracking unit, the information of the medical staff is extracted from the networked big database, then the equipment information retrieval module is used for carrying out all-dimensional retrieval in the extracted medical staff information by taking the information of the equipment to be tracked as a retrieval basis, then the retrieved equipment lending information is extracted through the equipment information extraction module, and the information of the medical staff where the lending equipment is located is determined, S4, returning reminding and displaying of the equipment: when the equipment is lent, the registrant and the positioning module can be used by the equipment to position lenders of the equipment, when lending time is reached, the central processing module can control the equipment returning warning module to warn to remind the lended medical personnel to return in time, and the display unit displays the lended medical personnel, so that the lending system of the medical equipment can be optimized, when the medical equipment is lent, a designated responsible person is responsible for the equipment.

Drawings

FIG. 1 is a flow chart of the operation of the present invention;

fig. 2 is a schematic block diagram of the system of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-2, an embodiment of the present invention provides a technical solution: a design method of a medical equipment management system based on an intelligent Internet of things specifically comprises the following steps:

s1, entering of equipment information and generation of electronic tags: firstly, an equipment manager controls an equipment information entry unit to enter the information of equipment into a system through a central processing module, the shape, the appearance, the use range, the equipment name and the model information of the equipment are respectively registered through an equipment information registration module in the equipment information entry unit, then the use department information of the equipment is set through an equipment application range setting module, medical personnel in other departments cannot borrow the equipment for use, and then an equipment RFIF label generation module can generate an RFID electronic label of the equipment and is attached to the equipment for scanning and reading;

s2, device lending program: when medical personnel need to borrow the medical personnel, the central processing module reads the identities of the medical personnel through the medical personnel identity reading module, and then reads the RFID electronic tags of the equipment to be borrowed through the equipment RFID tag reading module;

s3, tracking of equipment: when equipment needs to be tracked, the central processing module extracts information read in the medical staff scanning and reading equipment through a medical staff information extraction module in the equipment use tracking unit, the information of medical staff is extracted from a large networked database, then the information of the equipment to be tracked is taken as a retrieval basis through an equipment information retrieval module to carry out all-dimensional retrieval in the extracted information of the medical staff, then the retrieved equipment lending information is extracted through the equipment information extraction module, and the information of the medical staff where the lending equipment is located is determined;

s4, returning reminding and displaying of equipment: when the equipment is borrowed externally, the registered person and the positioning module can be used by the equipment to position the borrowed person of the equipment, when the lending time is up, the central processing module can control the equipment returning warning module to warn so as to remind the borrowed medical personnel to return in time, and meanwhile, the display unit displays the borrowed medical personnel.

In the present invention, the device information entry unit in step S1 includes a device information registration module, a device application range setting module, and a device RFID tag generation module, where an output end of the device information registration module is connected to an input end of the device application range setting module, and an output end of the device application range setting module is connected to an input end of the device RFID tag generation module.

In the invention, the central processing module in the step S2 is respectively in bidirectional connection with the medical personnel identity reading module, the equipment RFID label reading module and the scanning reading equipment.

In the present invention, the device usage tracking unit in step S3 includes a medical staff information extraction module, a device information retrieval module, and a device information extraction module, wherein an output end of the medical staff information extraction module is connected to an input end of the device information retrieval module, and an output end of the device information retrieval module is connected to an input end of the device information extraction module.

In the invention, the central processing module and the equipment use tracking unit realize bidirectional connection in step S3, and the equipment use tracking unit and the networking big database realize bidirectional connection.

In the invention, the central processing module in the step S4 is respectively connected with the equipment returning warning module, the equipment use registered personnel positioning module and the display unit in a bidirectional way.

To sum up the above

The invention can realize that a responsible person is appointed to take charge of the medical equipment when the medical equipment is used by borrowing outside through optimizing the borrowing system of the medical equipment, thereby well achieving the aim of tracking the equipment in real time in the process of transferring the equipment for many times by adopting the scanning method of the electronic tag of the equipment of the Internet of things, well managing the medical equipment, avoiding the occurrence of overtime returning and disordered use of the medical equipment in the process of using the external equipment, and greatly facilitating the management of the medical equipment.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A design method of a medical equipment management system based on an intelligent Internet of things is characterized by comprising the following steps: the method specifically comprises the following steps:

s1, entering of equipment information and generation of electronic tags: firstly, an equipment manager controls an equipment information entry unit to enter the information of equipment into a system through a central processing module, the shape, the appearance, the use range, the equipment name and the model information of the equipment are respectively registered through an equipment information registration module in the equipment information entry unit, then the use department information of the equipment is set through an equipment application range setting module, medical personnel in other departments cannot borrow the equipment for use, and then an equipment RFIF label generation module can generate an RFID electronic label of the equipment and is attached to the equipment for scanning and reading;

s2, device lending program: when medical personnel need to borrow the medical personnel, the central processing module reads the identities of the medical personnel through the medical personnel identity reading module, and then reads the RFID electronic tags of the equipment to be borrowed through the equipment RFID tag reading module;

s3, tracking of equipment: when equipment needs to be tracked, the central processing module extracts information read in the medical staff scanning and reading equipment through a medical staff information extraction module in the equipment use tracking unit, the information of medical staff is extracted from a large networked database, then the information of the equipment to be tracked is taken as a retrieval basis through an equipment information retrieval module to carry out all-dimensional retrieval in the extracted information of the medical staff, then the retrieved equipment lending information is extracted through the equipment information extraction module, and the information of the medical staff where the lending equipment is located is determined;

s4, returning reminding and displaying of equipment: when the equipment is borrowed externally, the registered person and the positioning module can be used by the equipment to position the borrowed person of the equipment, when the lending time is up, the central processing module can control the equipment returning warning module to warn so as to remind the borrowed medical personnel to return in time, and meanwhile, the display unit displays the borrowed medical personnel.

2. The design method of the intelligent internet of things-based medical equipment management system according to claim 1, wherein the design method comprises the following steps: the device information entry unit in step S1 includes a device information registration module, a device application range setting module, and a device RFID tag generation module, where an output end of the device information registration module is connected to an input end of the device application range setting module, and an output end of the device application range setting module is connected to an input end of the device RFID tag generation module.

3. The design method of the intelligent internet of things-based medical equipment management system according to claim 1, wherein the design method comprises the following steps: in the step S2, the central processing module is respectively connected to the medical staff identity reading module, the device RFID tag reading module, and the scanning reading device in a bidirectional manner.

4. The design method of the intelligent internet of things-based medical equipment management system according to claim 1, wherein the design method comprises the following steps: the device usage tracking unit in step S3 includes a medical staff information extraction module, a device information retrieval module, and a device information extraction module, an output end of the medical staff information extraction module is connected to an input end of the device information retrieval module, and an output end of the device information retrieval module is connected to an input end of the device information extraction module.

5. The design method of the intelligent internet of things-based medical equipment management system according to claim 1, wherein the design method comprises the following steps: in the step S3, the central processing module is bidirectionally connected to the device usage tracking unit, and the device usage tracking unit is bidirectionally connected to the networked big database.

6. The design method of the intelligent internet of things-based medical equipment management system according to claim 1, wherein the design method comprises the following steps: in the step S4, the central processing module is respectively connected to the device return warning module, the device use registration person positioning module, and the display unit in a bidirectional manner.

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