CN115206504A - Operating room shared medical equipment management system and working method thereof - Google Patents

Abstract

The invention relates to an operating room shared medical equipment management system, which comprises shared medical equipment arranged in an operating room, an acquisition device, an operating room workstation connected with the acquisition device, a switch arranged in an operating room information center, and a local area network formed by the switch among a charging information database server, a management terminal, an ORIS server and a monitor; the surgical workstation is connected with the switch through a local area network; the invention determines the basis of purchasing decision weight and cost sharing of shared equipment through data analysis: the comprehensive utilization ratio is used for determining the quantity of configurations by referring to the peak number of the shared devices used simultaneously, the daily average operation amount, the operation ending time and other data when purchasing the shared devices, determining the weight of each operating department according to the comprehensive utilization ratio, and determining the purchased brand and configuration. And the system can also help each clinical department to share the purchase and operation cost of the shared equipment according to the comprehensive utilization ratio.

Description

Operating room shared medical equipment management system and working method thereof

Technical Field

The invention belongs to the technical field of big data, and particularly relates to an operating room shared medical equipment management system and a working method thereof.

Background

The operating room, one of the core departments of modern hospitals, is the crystallization of advanced clinical medicine and medical engineering techniques. The continuous emergence of new medical technology and surgical equipment has driven the rapid increase in the number of operations, and the types and quantities of medical equipment in operating rooms, particularly those in the operating rooms of the major hospitals, to expand rapidly. However, high-end surgical equipment is very expensive, such as a surgical robot, a surgical navigation system, a C-arm X-ray machine, a surgical microscope, an endoscopic surgical system, an ultrasonic scalpel and the like, a hospital is difficult to configure one surgical suite for controlling cost, the optimal configuration management scheme is to determine the purchase quantity according to the requirements of related surgical quantities, and each surgical suite is scheduled and used by a reasonable management method to realize sharing. The scheduling mode is divided into two types, one is to move the equipment between the operation rooms, and the other is to realize sharing of the equipment which cannot be moved through circulation of operation personnel teams. The refined shared equipment management must be based on the equipment use data of each clinical department, so the set of operating room shared medical equipment management system needs to be invented. The medical sharing device has the following problems in operation in the implementation process:

(1) The problem of decision right attribution of the shared equipment is purchased;

(2) The problems of depreciation, maintenance, operation and management cost of shared equipment are solved;

(3) The responsibility for human damage to shared devices is a question of concern.

The key for solving the three problems in the prior art is to acquire data such as the times, the time length, the related personnel, the use videos and the like of medical equipment used by each clinical department in an operating room, and realize the refined inquiry management of the shared medical equipment by utilizing the data.

In the related art, the medical device management system has the following two methods for collecting device usage data:

the first mode is manual recording, including manually recording shared device information, service time length, user information and the like used in the operation by using a paper pen or computer software, and has the defects that the medical personnel in an operating room need to be seriously matched for a long time, and the manual error and leakage are difficult to avoid by acquiring data for a long time.

The second method is to install an information collector for the shared equipment, and record the use times and duration of the equipment by detecting the power current, analyzing the data output interface of the medical equipment or identifying the image, and the disadvantage is that the hardware cost of the system is extremely high. According to price survey of related products, about 300-500 yuan is acquired by a collector for acquiring use information through power supply current detection, about 2000-5000 yuan is acquired by a collector for acquiring the use information through analyzing a data output interface of medical equipment, about 20000-40000 yuan is acquired by a collector for acquiring the use information through image recognition, the three collectors are all supported by an operating room WIFI network or a 4G network, the operating rooms of many hospitals are not covered by the wireless network in order to avoid radio frequency interference of the wireless network on the medical equipment, and the cost is further increased if the network needs to be configured. Therefore, the conventional medical equipment management has a problem of high management cost.

Disclosure of Invention

In view of this, the present invention provides a management system for shared medical devices in an operating room and a working method thereof to solve the problem of high management cost in operation of shared medical devices in the prior art.

In order to realize the purpose, the invention adopts the following technical scheme: an operating room shared medical device management system comprising: the system comprises an acquisition device arranged in an operating room, at least one shared medical device, an operating room workstation connected with the acquisition device, a switch arranged in an operating room information center, and a local area network formed among a charging information database server, a management terminal, an ORIS server and a monitor through the switch;

the acquisition device is used for acquiring the use data of the shared medical equipment; the use data comprises equipment name and number information sent by an active Bluetooth label pasted on the shared medical equipment in the operation room and a use process video;

the operation room workstation is used for receiving the use data and sending the use data to the management server;

the switch is used for establishing a local area network among the operating room workstation, the charging information database server, the management terminal, the ORIS server and the monitor;

the charging information database server is used for storing charging records of the shared medical equipment and patient information data of the used shared medical equipment;

the ORIS server is used for storing operation information of the shared medical equipment; the operation information comprises operation starting and ending time, an operation room number, a department and personnel for executing the operation;

the management server is used for receiving the use data sent by the operating room workstation and generating a shared device distribution map of each operating room according to device name and number information sent by an active Bluetooth label of the shared medical device in each operating room; regularly searching charge items related to shared medical equipment from the charge information database server every day, acquiring patient information data of the used shared medical equipment, acquiring operation information of the patient from the ORIS server according to the patient information data, acquiring used shared medical equipment information from a shared equipment distribution diagram according to an operation room number and operation starting and stopping time in the operation information, and calculating the comprehensive use ratio of the shared medical equipment by combining the operation information and the shared medical equipment information;

the management terminal is used for determining purchase decision weight query, cost allocation query and artificial fault tracing according to the comprehensive utilization ratio;

the monitor is used for displaying the using process video.

Further, an active tag is arranged on the shared medical equipment;

and each operating room is provided with a label receiver for collecting the label information of the active label.

Further, the active tag is preset with a transmitting frequency and transmits signals at preset intervals;

and the tag receiver receives the signal and then sends the signal to an operating room workstation, and the operating room workstation processes the signal to obtain use data and sends the use data to a management server.

Further, the active tag is an active bluetooth tag, and the tag receiver is a bluetooth receiver;

the active Bluetooth tag is connected with the Bluetooth receiver through Bluetooth communication.

Further, the Bluetooth receiver is connected with the operation room workstation through a data line.

Further, calculating a comprehensive utilization ratio of the shared medical equipment according to the following mode through the operation information

Comprehensive usage ratio = usage number ratio × 60% + usage period ratio × 40%.

Further, the shared medical device comprises at least one of a surgical robot, a surgical navigation system, a C-arm X-ray machine, a surgical microscope, an endoscopic surgical system, or an ultrasonic scalpel.

Further, the acquisition device comprises a Bluetooth receiver and a camera.

The embodiment of the application provides a working method of a medical equipment management system shared by an operating room, which comprises the following steps:

the acquisition device acquires the use data of the shared medical equipment; the use data comprises equipment name and number information sent by an active Bluetooth label pasted on the shared medical equipment in the operation room and a use process video;

the operating room workstation receives the use data and sends the use data to the management server;

a local area network is established among the operating room workstation, the charging information database server, the management terminal, the ORIS server and the monitor through the switch;

the charging information database server stores charging records of the shared medical equipment and patient information data of the used shared medical equipment;

the ORIS server stores surgical information of the shared medical equipment; the operation information comprises operation start and stop time, an operation room number, a department and personnel for executing the operation;

the management server receives the use data sent by the operating room workstation, and generates shared device distribution maps of all operating rooms according to device names and serial number information sent by active Bluetooth tags of shared medical devices in all operating rooms; regularly searching charge items related to shared medical equipment from the charge information database server every day, acquiring patient information data of the used shared medical equipment, acquiring operation information of the patient from the ORIS server according to the patient information data, acquiring used shared medical equipment information from a shared equipment distribution diagram according to an operation room number and operation starting and stopping time in the operation information, and calculating the comprehensive use ratio of the shared medical equipment by combining the operation information and the shared medical equipment information;

the management terminal determines purchase decision weight query, cost allocation query and artificial fault tracing according to the comprehensive utilization ratio;

the monitor displays the usage progress video.

Further, calculating a comprehensive utilization ratio of the shared medical equipment according to the following mode through the operation information,

comprehensive usage ratio = usage number ratio × 60% + usage period ratio × 40%.

By adopting the technical scheme, the invention can achieve the following beneficial effects:

(1) The method determines the basis of decision weight and cost allocation of shared equipment purchase through data analysis and discussion with relevant clinical departments, determines the number of configurations by referring to the peak number of shared equipment used simultaneously, the average operation amount of relevant operation days, the operation ending time and other data when the shared equipment is purchased, determines the weight of each operation department through the comprehensive utilization ratio, and determines the purchased brand and configuration through voting.

(2) The comprehensive utilization ratio can also be used for distributing depreciation, maintenance, operation and management costs of the shared equipment according to the comprehensive utilization ratio in each clinical department.

(3) When the shared medical equipment has artificial faults, the equipment manager can utilize the operating room shared medical equipment management terminal computer to log in a management program page to call the use data of the equipment, including the use time, the use place, the personnel, even the operation process video and the like, determine the person in charge and perform tracing treatment.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic diagram of a medical equipment management system shared by operating rooms according to the present invention;

fig. 2 is a schematic step diagram of a working method of the operating room shared medical device management system provided by the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the examples given herein without any inventive step, are within the scope of the present invention.

A specific operating room shared medical device management system and a working method thereof provided in the embodiments of the present application are described below with reference to the accompanying drawings.

As shown in fig. 1, an operating room shared medical device management system provided in an embodiment of the present application includes:

the system comprises an acquisition device arranged in an operating room, at least one shared medical device, an operating room workstation connected with the shared medical device, a switch arranged in an operating room information center, and a local area network formed among a database server, a management terminal, an ORIS server and a monitor through the switch;

the acquisition device is used for acquiring the use data of the shared medical equipment; the use data comprises equipment name and number information sent by an active Bluetooth label pasted on the shared medical equipment in the operation room and a use process video;

the operation room workstation is used for receiving the use data and sending the use data to the management server;

the switch is used for establishing a local area network among the operating room workstation, the charging information database server, the management terminal, the ORIS server and the monitor;

the charging information database server is used for storing charging records of the shared medical equipment and patient information data of the used shared medical equipment;

the ORIS server is used for storing operation information of the shared medical equipment; the operation information comprises operation starting and ending time, an operation room number, a department and personnel for executing the operation;

the management server is used for receiving the use data sent by the operating room workstation and generating a shared device distribution map of all the operating rooms according to device names and number information sent by active Bluetooth tags of shared medical devices in all the operating rooms; regularly searching charge items related to shared medical equipment from the charge information database server every day, acquiring patient information data of the used shared medical equipment, acquiring operation information of the patient from the ORIS server according to the patient information data, acquiring used shared medical equipment information from a shared equipment distribution diagram according to an operation room number and operation starting and stopping time in the operation information, and calculating the comprehensive use ratio of the shared medical equipment by combining the operation information and the shared medical equipment information;

the management terminal determines purchase decision weight query, cost allocation query and artificial fault tracing according to the comprehensive utilization ratio;

the monitor is used for displaying the using process video.

The operating principle of the operating room shared medical equipment management system is as follows: the operating room information center in the application integrates servers and terminals of various informatization systems of operating rooms in modern hospitals, and each independent operating room is provided with equipment and a workstation required for collecting use data. Having at least one operation room in this application, not all operation rooms all possess shared medical equipment, but each independent operation room all is furnished with collection device and workstation that the data of using of gathering, and collection device gathers the data of using of sharing medical equipment in the operation room, sends to the operation room workstation, and then the operation room workstation passes through LAN with the data of using and sends management server. The using data comprises equipment name and number information sent by an active Bluetooth label pasted on the shared medical equipment in the operating room and a using process video;

wherein, the charging information database server stores the charging record of the shared medical equipment and the patient information data of the used shared medical equipment; the ORIS server is used for storing operation information of the shared medical equipment; the operation information comprises operation start and stop time, an operation room number, a department and personnel for executing the operation; the management server is used for receiving the use data sent by the operating room workstation and generating a shared device distribution map of all the operating rooms according to device names and number information sent by active Bluetooth tags of shared medical devices in all the operating rooms; regularly searching charge items related to shared medical equipment from the charge information database server every day, acquiring patient information data of the used shared medical equipment so as to determine that the patient uses the shared medical equipment, then acquiring operation information of the patient from the ORIS server according to the patient information data, acquiring used shared medical equipment information from a shared equipment distribution diagram according to an operation room number and operation starting and stopping time in the operation information, and calculating the comprehensive use ratio of the shared medical equipment by combining the operation information and the shared medical equipment information; the management terminal is used for determining purchasing decision weight query, cost apportionment query and artificial fault tracing according to the comprehensive utilization ratio; the monitor displays the usage progress video. It can be understood that the monitor in the application adopts the mode of monitoring wall to show, specifically is used for showing the image that has the interior camera of operation room to shoot, and the monitoring image is mainly used equipment in shared device management condition to confirm and artificially cause equipment trouble to trace back.

In some embodiments, an active tag is provided on the shared medical device;

and each operating room is provided with a label receiver for collecting the label information of the active label.

Preferably, the active tag presets a transmission frequency and transmits signals at preset time intervals;

and the tag receiver receives the signals and then sends the signals to the operating room workstation, and the operating room workstation processes the signals to obtain the distribution diagram of the shared medical equipment in each operating room.

In some embodiments, the active tag is an active bluetooth tag and the tag receiver is a bluetooth receiver;

the active Bluetooth tag is connected with the Bluetooth receiver through Bluetooth communication.

Wherein, the bluetooth receiver with the operation room workstation passes through the data line connection.

As a specific implementation manner, an active bluetooth tag is pasted on each shared medical device, device number information is written in the active bluetooth tag, in order to save electric quantity, in the present application, the active bluetooth tag sets the signal transmission frequency to be once in 10 minutes, and can be adjusted according to the management precision requirement, the identification distance is set to be about 20 meters at the lowest level, and it is enough to ensure that a signal can cover one operating room, because the BLE bluetooth signal is very weak and cannot penetrate through the wall of the operating room, the BLE bluetooth signal is sent to the management server through the bluetooth receiver of each operating room, and the management server can obtain the shared device list in all the operating rooms every 10 minutes. And simultaneously all the operating room workstations send the shared equipment list to a shared medical equipment management server of an operating room information center through a wired local area network. Regardless of how the shared devices flow between procedures, the shared medical device management system server can obtain a profile of the shared devices every 10 minutes.

At 3 am every day, the management server inquires patient medical record number information related to charge of the shared medical equipment from the charge information database server, inquires the operation time, the operation execution department, personnel and the serial number of the operation room of the patient in the operation room ORIS server through the medical record number, records the operation time as the use time of the shared medical equipment, and takes the department and the personnel executing the operation as the equipment use department and the personnel.

And then, finding the number of the shared equipment used in the operation in the shared medical equipment distribution diagram through the operation time and the number of the operation room, and matching the operation information with the shared equipment information.

The system adopts the active Bluetooth label, because a large number of experiments at home and abroad prove that the Bluetooth signal basically has no interference to the medical equipment, no additional medical safety risk is increased, and even a plurality of medical equipment use a Bluetooth mode to transmit data in short distance, such as an ELUXEO 7000 endoscope system of Fuji and the like.

In addition, compared with the mode of installing the information collector for each shared medical device, the system can greatly reduce the cost. Each active Bluetooth tag is lower than 30 yuan, the Bluetooth receiver is lower than 200 yuan, other hardware can use the existing operating room information system hardware, the software development workload is less than 30 people, the overall deployment cost is only about 5 yuan, and the expense of purchasing only the collector by adopting an information collector mode is far more than 5 yuan.

In some embodiments, the aggregate utilization ratio of the shared medical devices is calculated from the procedure information according to,

comprehensive usage ratio = usage number ratio × 60% + usage period ratio × 40%.

The number of configurations is determined by referring to the peak number of the shared medical equipment and the data such as the average operation amount of the relevant operation days, the operation ending time and the like, the weight of each operating department is determined by the comprehensive utilization ratio, and the purchased brand and configuration are determined by voting.

Wherein the shared medical equipment comprises at least one of a surgical robot, a surgical navigation system, a C-arm X-ray machine, a surgical microscope, an endoscopic surgical system or an ultrasonic scalpel.

Preferably, the acquisition device in the present application includes a bluetooth receiver and a camera.

The technical scheme provided by the application can solve the problems encountered by the management of the medical equipment shared by the operating room:

the data analysis and the common discussion with the relevant clinical departments determine the basis of shared equipment purchase decision weight and cost allocation, namely the comprehensive utilization ratio, and the calculation formula is as follows:

comprehensive usage ratio = usage number ratio × 60% + usage duration ratio × 40%;

when purchasing the shared device, the number of configurations is determined by referring to the peak number of shared devices used simultaneously and data such as the average operation amount on the operation day and the operation ending time, the weight of each operating department is determined by the comprehensive utilization ratio, and the brand and configuration of the purchase are determined by voting.

And each clinical department distributes depreciation, maintenance, operation and management costs of the shared equipment according to the comprehensive utilization ratio.

When the shared medical equipment has artificial faults, the equipment manager can use the operating room shared medical equipment management terminal computer to log in a management program page to call the use data of the equipment, including the use time, the use place, the personnel, even the operation process video and the like, determine the responsible person and perform the tracing treatment.

Specifically, compared with a manual recording mode, the system provided by the application can automatically acquire the use data of the medical equipment after deployment is completed, and manual intervention is not needed.

In the implementation process, a comparison test is carried out on 16 shared endoscope systems in a central operating room (24 operating rooms in total) of a hospital in two modes of manual recording and automatic system acquisition, wherein the shared endoscope systems are actually used 4334 times in 1 month and 1 day of 2021-6 months and 30 days of 2021, the system automatically acquires the use data 4321 times and manually records the use data 2757 times, and the number of manual records per month is continuously reduced. The reliability and the continuity of the automatic acquisition of the system are better than those of the manual recording mode.

As shown in fig. 2, an embodiment of the present application provides a working method of an operating room shared medical device management system, including:

s101, an acquisition device acquires the use data of the shared medical equipment; the use data comprises equipment name and number information sent by an active Bluetooth label pasted on the shared medical equipment in the operation room and a use process video;

s102, the operating room workstation receives the use data and sends the use data to a management server;

s103, a local area network is established among the operating room workstation, the charging information database server, the management terminal, the ORIS server and the monitor through the switch;

s104, the charging information database server stores the charging record of the shared medical equipment and the patient information data of the used shared medical equipment;

s105, the ORIS server stores operation information of the shared medical equipment; the operation information comprises operation starting and ending time, an operation room number, a department and personnel for executing the operation;

s106, the management server receives the use data sent by the operating room workstation, and generates shared device distribution maps of all operating rooms according to device names and number information sent by active Bluetooth tags of shared medical devices in all operating rooms; regularly searching charge items related to shared medical equipment from the charge information database server every day, acquiring patient information data of the used shared medical equipment, acquiring operation information of the patient from the ORIS server according to the patient information data, acquiring used shared medical equipment information from a shared equipment distribution diagram according to an operation room number and operation starting and stopping time in the operation information, and calculating the comprehensive use ratio of the shared medical equipment by combining the operation information and the shared medical equipment information;

s107, the management terminal determines purchase decision weight query, cost allocation query and artificial fault tracing according to the comprehensive utilization ratio;

and S108, displaying the use process video by the monitor.

In some embodiments, the aggregate utilization ratio of the shared medical devices is calculated from the procedure information according to,

comprehensive usage ratio = usage number ratio × 60% + usage period ratio × 40%.

In summary, the present invention provides a management system for shared medical devices in an operating room, which comprises a collection device arranged in the operating room, shared medical devices, an operating room workstation connected with the shared medical devices, and a switch arranged in an operating room information center, wherein a local area network is established among a charging information database server, a management terminal, an ORIS server and a monitor through the switch; the invention determines the comprehensive utilization ratio of the purchasing decision weight and the cost sharing of the shared equipment according to the data analysis and the combination with the relevant clinical departments, so that when the shared equipment is purchased, the quantity of configuration is determined by referring to the data such as the peak number of the shared equipment, the daily average operation amount, the operation ending time and the like, the weight of each operating department is determined by the comprehensive utilization ratio, and the purchased brand and configuration are determined. And the system can also help each clinical department to share the management cost of the shared equipment according to the comprehensive utilization ratio.

It is to be understood that the system embodiments provided above correspond to the method embodiments described above, and corresponding specific contents may be referred to each other, which are not described herein again.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and shall cover the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (10)

1. An operating room shared medical device management system, comprising: the system comprises an acquisition device arranged in an operating room, at least one shared medical device, an operating room workstation connected with the acquisition device, a switch arranged in an operating room information center, and a local area network formed among a charging information database server, a management terminal, an ORIS server and a monitor through the switch;

the acquisition device is used for acquiring the use data of the shared medical equipment; the use data comprises equipment name and number information sent by an active Bluetooth label pasted on the shared medical equipment in the operation room and a use process video;

the operation room workstation is used for receiving the use data and sending the use data to the management server;

the switch is used for establishing a local area network among the operating room workstation, the charging information database server, the management terminal, the ORIS server and the monitor;

the charging information database server is used for storing charging records of the shared medical equipment and patient information data of the used shared medical equipment;

the ORIS server is used for storing operation information of the shared medical equipment; the operation information comprises operation starting and ending time, an operation room number, a department and personnel for executing the operation;

the management server is used for receiving the use data sent by the operating room workstation and generating a shared device distribution map of each operating room according to device name and number information sent by an active Bluetooth label of the shared medical device in each operating room; regularly searching charge items related to shared medical equipment from the charge information database server every day, acquiring patient information data of the used shared medical equipment, acquiring operation information of the patient from the ORIS server according to the patient information data, acquiring used shared medical equipment information from a shared equipment distribution diagram according to an operation room number and operation starting and stopping time in the operation information, and calculating the comprehensive use ratio of the shared medical equipment by combining the operation information and the shared medical equipment information;

the management terminal is used for determining purchasing decision weight query, cost apportionment query and artificial fault tracing according to the comprehensive utilization ratio;

the monitor is used for displaying the using process video.

2. The operating room shared medical device management system of claim 1,

an active tag is arranged on the shared medical equipment;

and each operating room is provided with a label receiver for collecting the label information of the active label.

3. The operating room shared medical device management system of claim 2,

the active tag is preset with transmitting frequency and transmits signals at preset time intervals;

and the tag receiver receives the signal and then sends the signal to an operating room workstation, and the operating room workstation processes the signal to obtain use data and sends the use data to the management server.

4. The operating room shared medical device management system of claim 3,

the active tag adopts an active Bluetooth tag, and the tag receiver adopts a Bluetooth receiver;

the active Bluetooth tag is connected with the Bluetooth receiver through Bluetooth communication.

5. The operating room shared medical device management system of claim 4,

the Bluetooth receiver is connected with the operating room workstation through a data line.

6. The operating room shared medical device management system according to claim 1, wherein a comprehensive usage percentage of the shared medical device is calculated by the operation information according to,

comprehensive usage ratio = usage number ratio × 60% + usage period ratio × 40%.

7. The operating room shared medical device management system of claim 1,

the shared medical equipment comprises at least one of a surgical robot, a surgical navigation system, a C-arm X-ray machine, a surgical microscope, an endoscopic surgical system or an ultrasonic knife.

8. The operating room shared medical device management system of claim 2,

the acquisition device comprises a Bluetooth receiver and a camera.

9. A working method of an operating room shared medical equipment management system is characterized by comprising the following steps:

the acquisition device acquires the use data of the shared medical equipment; the use data comprises equipment name and number information sent by an active Bluetooth label pasted on the shared medical equipment in the operation room and a use process video of the shared medical equipment;

the operation room workstation receives the use data and sends the use data to the management server;

a local area network is established among the operating room workstation, the charging information database server, the management terminal, the ORIS server and the monitor through the switch;

the charging information database server stores charging records of the shared medical equipment and patient information data of the used shared medical equipment;

the ORIS server stores operation information of the shared medical equipment; the operation information comprises operation starting and ending time, an operation room number, a department and personnel for executing the operation;

the management server receives the use data sent by the operating room workstation, and generates a shared device distribution map of all operating rooms according to device names and number information sent by active Bluetooth tags of shared medical devices in all operating rooms; regularly searching charge items related to shared medical equipment from the charge information database server every day, acquiring patient information data of the used shared medical equipment, acquiring operation information of the patient from the ORIS server according to the patient information data, acquiring used shared medical equipment information from a shared equipment distribution diagram according to an operation room number and operation starting and stopping time in the operation information, and calculating the comprehensive use ratio of the shared medical equipment by combining the operation information and the shared medical equipment information;

the management terminal determines purchase decision weight query, cost apportionment query and artificial fault tracing according to the comprehensive utilization ratio;

the monitor displays the usage progress video.

10. The operating method according to claim 9,

calculating a comprehensive utilization ratio of the shared medical equipment according to the following mode through the operation information,

comprehensive usage ratio = usage number ratio × 60% + usage period ratio × 40%.

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