CN111710403A

CN111710403A - Medical equipment supervision method, equipment and readable storage medium

Info

Publication number: CN111710403A
Application number: CN202010527550.4A
Authority: CN
Inventors: 闫程亮; 陈惠玲
Original assignee: Shenzhen Hawk Medical Instrument Co ltd
Current assignee: Shenzhen Hawk Medical Instrument Co ltd
Priority date: 2020-06-10
Filing date: 2020-06-10
Publication date: 2020-09-25
Anticipated expiration: 2040-06-10
Also published as: CN111710403B

Abstract

The invention discloses a medical equipment supervision method, equipment and a readable storage medium, wherein the method comprises the following steps: monitoring the working state of each medical device, and determining pending medical devices corresponding to the acquisition request in each medical device when the acquisition request is received; searching target medical equipment with an idle working state in each piece of medical equipment to be determined, and determining equipment position information of the target medical equipment; and sending the device position information to a terminal corresponding to the acquisition request, and changing the working state of the target medical device after moving based on the position information so as to update the working state of each monitored medical device. The medical equipment available at present can be quickly determined by monitoring the working state of each medical equipment; and timely updates the working state of each monitored medical device. Meanwhile, the position information of the equipment is determined and sent to the terminal, so that the medical equipment can be conveniently and quickly obtained for use; the rapid and efficient supervision of various medical devices is realized.

Description

Medical equipment supervision method, equipment and readable storage medium

Technical Field

The invention relates to the technical field of automation, in particular to a medical equipment supervision method, equipment and a readable storage medium.

Background

Medical equipment is indispensable to medical institutions such as hospitals, societies, and clinics, and examples thereof include various kinds of equipment such as contrast machines, scanners, ventilators, control pumps, and syringe pumps. Moreover, each type of medical equipment in the medical institution is managed by a specific manager, and the manager determines the number of various types of medical equipment and the use condition of each medical equipment.

When the medical equipment needs to be used, after the medical equipment needs to be applied to a manager, the manager inquires whether the available medical equipment exists at present, if so, the manager allocates the medical equipment and informs the position of the medical equipment, and the applicant inquires the position to take the medical equipment. The inquiry of the availability of the medical equipment by the manager has hysteresis, and the application and use process is complicated, so that various medical equipment cannot be managed quickly and efficiently.

Therefore, how to manage various medical devices quickly and efficiently is a technical problem to be solved urgently.

Disclosure of Invention

The invention mainly aims to provide a medical equipment supervision method, equipment and a readable storage medium, and aims to solve the technical problem of how to manage various medical equipment quickly and efficiently in the prior art.

In order to achieve the above object, the present invention provides a method for supervising a medical device, comprising the steps of:

monitoring the working state of each medical device, and determining pending medical devices corresponding to the acquisition request in each medical device when the acquisition request is received;

searching target medical equipment with an idle working state in the to-be-determined medical equipment, and determining equipment position information of the target medical equipment;

and sending the device position information to a terminal corresponding to the acquisition request, and changing the working state of the target medical device after moving based on the position information so as to update the working state of each monitored medical device.

Optionally, the number of the target medical devices is multiple, and the step of sending the device location information to the terminal corresponding to the acquisition request includes:

detecting terminal position information corresponding to the acquisition request, and determining path information between the terminal position information and the device position information of the plurality of target medical devices respectively;

and determining target path information with the shortest path in the path information, and sending the equipment position information corresponding to the target path information to the terminal corresponding to the acquisition request.

respectively reading the use frequency information of a plurality of target medical devices, and determining the target use frequency information with the minimum use frequency in each use frequency information;

and determining target medical equipment corresponding to the target use frequency information, and sending the equipment position information of the corresponding target medical equipment to a terminal corresponding to the acquisition request.

Optionally, the step of supervising the operating states of the medical devices is followed by:

determining medical equipment to be monitored, of which the working state is the running state, in each medical equipment;

acquiring theoretical operating parameters of each medical device to be monitored, and detecting actual operating parameters of each medical device to be monitored;

calculating a deviation value between a theoretical operating parameter and an actual operating parameter of each medical device to be monitored, and judging whether the deviation value is greater than a preset deviation threshold value;

and if the deviation is larger than the preset deviation threshold value, outputting the abnormal warning information of the medical equipment to be monitored.

Optionally, if the difference is greater than the preset deviation threshold, the step of outputting the warning information that the medical device to be monitored is abnormal includes:

analyzing the actual operation parameters according to the theoretical operation parameters to obtain fault reasons and maintenance information;

and sending the fault reason and the maintenance information I to a management terminal corresponding to the medical equipment to be monitored so that a management terminal holder can maintain the medical equipment to be monitored.

Optionally, the step of sending the device location information to the terminal corresponding to the acquisition request includes:

and receiving a locking request sent by the terminal, and setting the working state of the target medical equipment to be a locking state based on the locking request.

Optionally, the method for supervising a medical device further comprises the steps of:

when the detection reaches a preset time point, determining the medical equipment to be restored, of which the working state is the idle state, in each medical equipment;

reading preset position information of each medical device to be parked, and detecting real-time position information of each medical device to be parked;

judging whether the preset position information and the real-time position information of each medical device to be parked are consistent, and if so, completing the parking of the medical device to be parked at the preset time point;

and if the positions of the medical equipment to be restored are inconsistent, outputting prompt information for adjusting the position of the medical equipment to be restored.

when the detection reaches the preset check time, reading the accumulated use frequency information and the reference use frequency information of each medical device;

comparing the accumulated use frequency information of each medical device with reference use frequency information, and judging whether the accumulated use frequency information is greater than the reference use frequency information;

and if the number of the reference use frequency information is larger than the reference use frequency information, outputting elimination prompt information.

Further, to achieve the above object, the present invention also provides a medical device supervision device, which includes a memory, a processor and a medical device supervision program stored on the memory and executable on the processor, wherein the medical device supervision program, when executed by the processor, implements the steps of the medical device supervision method as described above.

Further, to achieve the above object, the present invention also provides a readable storage medium, on which a medical device supervision program is stored, which when executed by a processor implements the steps of the medical device supervision method as described above.

The medical equipment supervision method, the equipment and the readable storage medium set the supervision mechanism of the working state of each medical equipment and supervise whether each medical equipment is in the running state or the idle state. When an acquisition request for applying for use of the medical equipment is received, the type of the medical equipment corresponding to the acquisition request is determined, namely the type of the medical equipment applied for use is determined. Further determining pending medical equipment belonging to the type of the medical equipment in each medical equipment, and searching target medical equipment in an idle state in the working state in each pending medical equipment to determine currently idle available equipment; and, information of the position where the target medical device is located is determined as device position information thereof, and the device position information is transmitted to the terminal corresponding to the acquisition request. And the terminal holder takes the target medical equipment according to the equipment position information, so that the target medical equipment moves based on the position information. And then, changing the moved working state to update the working state of each medical device under supervision. When the medical equipment has the use requirement on the medical equipment, the medical equipment which can be used at present can be quickly determined through the monitored working condition; and when the working state of the available medical equipment changes due to use, the working state is changed, so that the working state of each piece of medical equipment for supervision is updated in time. Meanwhile, the equipment position information of the position of the available medical equipment is sent to the terminal, so that the medical equipment can be conveniently and quickly obtained from the position for use; the rapid and efficient supervision of various medical devices is realized.

Drawings

FIG. 1 is a schematic diagram of a hardware operating environment of a medical device according to an embodiment of the present invention;

fig. 2 is a schematic flow chart of a first embodiment of the supervision method of the medical device according to the invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The invention provides a medical equipment supervision device, and referring to fig. 1, fig. 1 is a schematic structural diagram of a device hardware operating environment related to an embodiment of the medical equipment supervision device of the invention.

As shown in fig. 1, the administration device of the medical device may include: a processor 1001, such as a CPU, a communication bus 1002, a user interface 1003, a network interface 1004, and a memory 1005. Wherein a communication bus 1002 is used to enable connective communication between these components. The user interface 1003 may include a Display screen (Display), an input unit such as a Keyboard (Keyboard), and the optional user interface 1003 may also include a standard wired interface, a wireless interface. The network interface 1004 may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface). The memory 1005 may be a high-speed RAM memory or a non-volatile memory (e.g., a magnetic disk memory). The memory 1005 may alternatively be a memory device separate from the processor 1001 described above.

Those skilled in the art will appreciate that the hardware architecture of the administration device of the medical device shown in fig. 1 does not constitute a limitation of the administration device of the medical device and may include more or fewer components than those shown, or some components may be combined, or a different arrangement of components.

As shown in fig. 1, the memory 1005, which is a readable storage medium, may include therein an operating system, a network communication module, a user interface module, and a supervisor of a medical device. The operating system is a program for managing and controlling supervisory equipment and software resources of the medical equipment, and supports the running of a network communication module, a user interface module, the supervisory program of the medical equipment and other programs or software; the network communication module is used to manage and control the network interface 1004; the user interface module is used to manage and control the user interface 1003.

In the hardware structure of the monitoring device of the medical device shown in fig. 1, the network interface 1004 is mainly used for connecting with a background server and communicating with the background server in data; the user interface 1003 is mainly used for connecting a client (user side) and performing data communication with the client; the processor 1001 may invoke the supervisor of the medical device stored in the memory 1005 and perform the following operations:

Further, the number of the target medical devices is multiple, and the step of sending the device location information to the terminal corresponding to the acquisition request includes:

Further, after the step of supervising the operating status of each medical device, the processor 1001 may call the supervising program of the medical devices stored in the memory 1005 and perform the following operations:

Further, after the step of outputting the warning information of the abnormality of the medical device to be monitored if the deviation is greater than the preset deviation threshold, the processor 1001 may call the supervisory program of the medical device stored in the memory 1005, and perform the following operations:

Further, after the step of transmitting the device location information to the terminal corresponding to the acquisition request, the processor 1001 may call the supervisor of the medical device stored in the memory 1005, and perform the following operations:

Further, the method for supervising the medical equipment further comprises the following steps:

The specific implementation of the supervision device of the medical device of the present invention is substantially the same as the following embodiments of the supervision method of the medical device, and is not described herein again.

The invention also provides a monitoring method of the medical equipment.

Referring to fig. 2, fig. 2 is a flowchart illustrating a monitoring method for a medical device according to a first embodiment of the present invention.

While a logical order is shown in the flow chart, in some cases, the steps shown or described may be performed in an order different than that shown or described herein. Specifically, the method for supervising medical equipment of the embodiment includes:

step S10, supervise the operating status of each medical device, and when receiving an acquisition request, determine a pending medical device corresponding to the acquisition request in each medical device.

The method for supervising the medical equipment is applied to the server, and the server may be a local server in a medical institution or a cloud server commonly accessed by a plurality of medical institutions. Whether the server is a local server or a cloud server, various medical equipment in the medical institution is accessed into the server and is supervised by the server. The types of medical equipment accessed to the server include, but are not limited to, a syringe pump, a control pump, a respirator, a cardio-pulmonary resuscitation apparatus, an electrocardiograph, a nuclear magnetic resonance apparatus, and the like. The content monitored by the server includes, but is not limited to, whether the operation of various medical devices is normal or not, the working states of the various medical devices, the positions of the various medical devices, and the like. Specifically, the server supervises the working state of each medical device, and supervises whether each medical device in each type of medical device is in a working running state or a non-working idle state.

Further, when a medical worker has a need to use a certain type of medical equipment, an acquisition request for applying for use of the medical equipment is issued through a terminal which is in communication connection with the server. The terminal in communication connection with the server can be a mobile phone, a tablet computer, a notebook computer, a desktop computer and the like used by medical workers. Once the server receives the acquisition request, the type of the medical equipment corresponding to the acquisition request is determined. The acquisition request carries an identifier representing the type of the medical equipment with the use requirement, and the server can determine the type of the medical equipment corresponding to the acquisition request, namely the type of the medical equipment applied for use, by identifying the identifier. And the server determines pending medical equipment from the medical equipment according to the type of the medical equipment, wherein the pending medical equipment is the medical equipment applied for use through the acquisition request.

Step S20, finding a target medical device in the idle state in the to-be-determined medical devices, and determining device location information of the target medical device.

Further, the server detects the working state of each medical device to be determined, and finds out the medical device to be determined from the working state of the medical device to be determined, wherein the medical device to be determined is in an idle state. The pending medical equipment in the idle state is not in a use state currently and can be used by a patient, so that the pending medical equipment in the idle state is used as target medical equipment. In addition, in order to ensure the availability of the target medical equipment, after the undetermined medical equipment in the idle state is determined, whether the undetermined medical equipment carries a fault identifier is also detected, and if the undetermined medical equipment carries the fault identifier, the undetermined medical equipment is not in the use state but is in the fault state and is unavailable, so that the undetermined medical equipment is not taken as the target medical equipment. At the moment, the undetermined medical equipment which is in the new idle state and does not carry the fault identification is searched again to be used as the target medical equipment. If the detected information does not carry the fault identification, the medical equipment to be determined is in a normal usable state, and therefore the medical equipment to be determined is used as target medical equipment. And then detect the equipment position information of target medical equipment position to take target medical equipment through this equipment position information.

Step S30, sending the device location information to the terminal corresponding to the acquisition request, and changing the operating state of the target medical device after moving based on the location information, so as to update the operating state of each of the monitored medical devices.

Further, the detected device position information of the target medical device is sent to the terminal initiating the acquisition request, so that the terminal holder can acquire the target medical device quickly according to the device position information. The searched target medical equipment is preferably located in the medical institution where the terminal sending the acquisition request is located, so that the target medical equipment can be conveniently and quickly acquired. After the terminal holder takes the target medical equipment according to the equipment position information, the target medical equipment moves based on the position information, and the working state of the target medical equipment changes and changes from the idle state to the running state. Therefore, the server changes the working state of the target medical equipment after moving so as to update the working state of each medical equipment under supervision.

Understandably, even for the same medical facility, the number of target medical devices that are normally available at the time of the acquisition request may be numerous. That is, when a medical worker applies for a certain medical device to use and issues an acquisition request, the number of the medical devices currently in a normal usable state is large, so that the number of the target medical devices searched is large. At this time, at least one of the plurality of target medical devices may be selected by a path distance priority mechanism or a frequency priority mechanism, and the device location information of the selected target medical device is transmitted to the terminal that initiated the acquisition request, so as to facilitate quick acquisition. Specifically, in the case where the number of target medical devices is plural, the step of transmitting the device position information to the terminal corresponding to the acquisition request includes:

step S31 of detecting terminal position information corresponding to the acquisition request, and determining path information between the terminal position information and device position information of the plurality of target medical devices, respectively;

step S32, determining target route information having the shortest route among the route information, and sending device location information corresponding to the target route information to the terminal corresponding to the acquisition request.

The embodiment acquires the device location information by a path distance priority mechanism and transmits the device location information. Specifically, since the number of target medical devices is large, device position information of each target medical device is acquired, and the terminal position information where the terminal that initiated the acquisition request is located is detected. And then determining path information between the terminal position information and the device position information of the plurality of target medical devices, wherein the path information is a path from the position of the terminal to the position of the target medical device and represents the path distance from the terminal to the target medical device.

Further, the positions of the target medical devices are different, so that the path information from the terminal to the target medical devices is different. And comparing the path information to determine the shortest path information of the paths. The route information represents the target medical device that can be reached from the terminal at the fastest speed, and is therefore used as the target route information. And the device position information for generating the target path information is searched and sent to the terminal initiating the acquisition request as the device position information corresponding to the target path information, so that the acquisition request sender can conveniently and quickly acquire the target medical device for use.

Further, in the case where the number of the target medical devices is plural, if one of the target medical devices is selected by using a frequency priority scheme, the step of transmitting the device location information to the terminal corresponding to the acquisition request includes:

step S33, respectively reading the use frequency information of a plurality of target medical devices, and determining the target use frequency information with the minimum use frequency in each use frequency information;

step S34, determining a target medical device corresponding to the target usage frequency information, and sending device location information of the corresponding target medical device to the terminal corresponding to the acquisition request.

Understandably, the frequency of use of each target medical device differs among a plurality of target medical devices of the same type, and in order to balance the use, the present embodiment is provided with a mechanism for preferably selecting a target medical device having a small frequency of use. Specifically, for each use of the target medical device, there is a backup record in the server. Therefore, the use frequency information of each target medical device can be read through backup, comparison is carried out among the use frequency information, and the target use frequency information with the minimum use frequency is determined. And then the target medical equipment with the target use frequency information is searched, and the equipment position information of the searched target medical equipment is sent to the terminal initiating the acquisition request, so that a requester can conveniently acquire the target medical equipment for use, the use frequency of each target medical equipment is balanced, and the phenomenon that the target medical equipment is excessively worn due to the frequent use of a certain target medical equipment is avoided.

Further, in consideration that a plurality of medical workers in a medical institution may have a demand for use of a target medical device at the same time, in order to avoid different medical workers acquiring a certain target medical device at the same time, the present embodiment is provided with a locking mechanism after transmitting device position information of a certain target medical device to the terminal. Specifically, the step of sending the device location information to the terminal corresponding to the acquisition request includes:

step a, receiving a locking request sent by the terminal, and setting the working state of the target medical equipment to be a locking state based on the locking request.

Further, after the device location information of the target medical device is sent to the terminal, the acquisition request sender can check the device location information to determine whether the target medical device located in the device location information and the location thereof meet the requirements of the target medical device. And if the requirement is met, sending a locking request through the terminal so as to prevent other medical workers from initiating an acquisition request for the target medical terminal located at the position. And after receiving the acquisition request sent by the terminal, the server sets the working state of the target medical equipment to be a locking state. Because the working state is not the idle state, other acquisition requests sent by the medical equipment cannot be used as available target medical equipment for searching.

It should be noted that, the request unlocking mechanism and the delayed unlocking mechanism may be set for the target medical device in the locked state. And when the acquisition request sender reaches the position of the target medical equipment according to the equipment position information, applying for unlocking according to the locking information of the locking request initiated by the acquisition request sender, and using the target medical equipment after the unlocking is successful. And starting timing according to the delay time after receiving the locking request, and when the timing reaches the delay time and the acquisition request sender still applies for unlocking, automatically unlocking the target medical equipment so as to be used by other medical workers with use requirements.

The medical equipment supervision method of the invention sets the supervision mechanism of the working state of each medical equipment and supervises whether each medical equipment is in the running state or the idle state. When an acquisition request for applying for use of the medical equipment is received, the type of the medical equipment corresponding to the acquisition request is determined, namely the type of the medical equipment applied for use is determined. Further determining pending medical equipment belonging to the type of the medical equipment in each medical equipment, and searching target medical equipment in an idle state in the working state in each pending medical equipment to determine currently idle available equipment; and, information of the position where the target medical device is located is determined as device position information thereof, and the device position information is transmitted to the terminal corresponding to the acquisition request. And the terminal holder takes the target medical equipment according to the equipment position information, so that the target medical equipment moves based on the position information. And then, changing the moved working state to update the working state of each medical device under supervision. When the medical equipment has the use requirement on the medical equipment, the medical equipment which can be used at present can be quickly determined through the monitored working condition; and when the working state of the available medical equipment changes due to use, the working state is changed, so that the working state of each piece of medical equipment for supervision is updated in time. Meanwhile, the equipment position information of the position of the available medical equipment is sent to the terminal, so that the medical equipment can be conveniently and quickly obtained from the position for use; the rapid and efficient supervision of various medical devices is realized.

Further, based on the first embodiment of the supervision method of a medical device of the present invention, a second embodiment of the supervision method of a medical device of the present invention is proposed.

The second embodiment of the method for supervising medical devices differs from the first embodiment of the method for supervising medical devices in that the step of supervising the operating state of each medical device is followed by the steps of:

step b1, determining the medical equipment to be monitored with the working state as the running state in each medical equipment;

b2, acquiring theoretical operating parameters of each medical device to be monitored, and detecting actual operating parameters of each medical device to be monitored;

b3, calculating a deviation value between the theoretical operating parameter and the actual operating parameter of each medical device to be monitored, and judging whether the deviation value is greater than a preset deviation threshold value;

and b4, if the deviation is larger than the preset deviation threshold value, outputting the abnormal warning information of the medical equipment to be monitored.

The embodiment monitors the working state of each medical device and monitors whether each medical device runs normally or not. Specifically, the medical equipment with the working state in the running state is determined from the working states of the monitored medical equipment, and whether the running state of the medical equipment is normal or not is monitored by using the medical equipment as the medical equipment to be monitored. And acquiring theoretical operating parameters of each medical device to be monitored on the current operating function, wherein the theoretical operating parameters are reference operating parameters recommended by the current operating function. And simultaneously detecting the actual operation parameters of the medical equipment to be monitored on the current operation function. And calculating deviation values between theoretical operating parameters and actual operating reference parameters on the current operating function of each medical device to be monitored, and determining the difference between the actual operating parameters and the reference operating parameters through the calculated deviation values.

Furthermore, a preset deviation threshold value representing the magnitude of the difference is preset, the calculated deviation value is compared with the preset deviation threshold value, whether the deviation value is larger than the preset deviation threshold value or not is judged, if the deviation value is larger than the preset deviation threshold value, the fact that the difference between the actual operation parameters of the current operation function and the reference operation parameters is larger is shown, and the medical equipment to be monitored possibly has abnormity on the current operation function, so that alarm information of abnormity of the medical equipment to be monitored is output to remind that the function is overhauled in time, and the treatment of a patient is prevented from being influenced. If the deviation value is determined to be not larger than the preset deviation threshold value through comparison, the actual operation parameter of the current operation function is in a reasonable range, and the medical equipment to be monitored does not need to be processed. But the monitoring is continuously carried out according to the monitoring period, so that the abnormity caused by the operation of the medical equipment to be monitored is avoided.

Furthermore, for the medical device to be monitored which is determined to have abnormality, a mechanism for analyzing the cause of the abnormality is provided while outputting the abnormality warning information. Specifically, if the deviation is greater than the preset deviation threshold, the step of outputting the abnormal warning information of the medical device to be monitored comprises the following steps:

b5, analyzing the actual operation parameters according to the theoretical operation parameters to obtain fault reasons and maintenance information;

step b6, the failure reason and the maintenance information I are sent to a management terminal corresponding to the medical device to be monitored, so that the management terminal holder can maintain the medical device to be monitored.

Furthermore, different fault causes and maintenance information are set in advance for faults caused by various abnormal parameters, and the set fault causes and maintenance information are different according to different abnormal values of the abnormal parameters. The failure reason and maintenance information set in the abnormal range a of the current of a certain function are a1 and a2 respectively, and the failure reason and maintenance information set in the abnormal range b of the current of the function are b1 and b2 respectively. After determining that the medical equipment to be monitored has abnormality on the current operation function, analyzing actual operation parameters according to theoretical operation parameters of the current operation function to obtain fault reasons and maintenance information. Calculating a deviation value between the theoretical operation parameter and the actual operation parameter, determining an abnormal range in which the deviation value is positioned, and analyzing the difference of the actual operation parameter. And then searching the failure reason and the maintenance information in the abnormal range where the deviation value is located, and sending the searched failure reason and maintenance information to the management terminal corresponding to the medical equipment to be monitored. The management terminal holder maintains the medical equipment to be monitored by checking the failure reason and the maintenance information, and rapidly inspects the failure of the medical equipment to be monitored so as to recover the normal use of the medical equipment to be monitored.

The implementation needle monitors the working state of each medical device, monitors whether the medical device normally runs or not, and analyzes the reason of abnormality of the medical device which runs abnormally. Therefore, when the medical equipment in the idle available state is quickly searched, the medical equipment with abnormal faults in operation can be found in time, the abnormal faults can be quickly solved through the analyzed abnormal reasons, and the use safety of each medical equipment is ensured.

Further, based on the first or second embodiment of the supervision method of a medical device of the present invention, a third embodiment of the supervision method of a medical device of the present invention is proposed.

The third embodiment of the method of supervision of a medical device differs from the first or second embodiment of the method of supervision of a medical device in that the method of supervision of a medical device further comprises the steps of:

step S40, when the detection reaches the preset time point, determining the medical equipment to be returned with the working state being the idle state in each medical equipment;

step S50, reading preset position information of each medical device to be parked, and detecting real-time position information of each medical device to be parked;

step S60, judging whether the preset position information and the real-time position information of each medical device to be parked are consistent, if so, completing the parking of the medical device to be parked at the preset time point;

and step S70, if the positions of the medical equipment to be restored are not consistent, outputting prompt information for adjusting the positions of the medical equipment to be restored.

The embodiment supervises the position state of each medical device to ensure the orderliness of the position of each medical device, thereby being convenient for medical workers to take. Specifically, a preset time point of supervision is set in advance according to requirements, such as 6 pm every day. And determining the medical equipment which is currently in an idle state through the working state of each medical equipment monitored each time when the preset time point is reached. The medical equipment in the idle state needs to return to the initial position because the medical equipment is not used, and therefore the medical equipment is used as medical equipment to be returned. Presetting the initial positions of various medical devices as preset position information, and determining the device type to which each medical device to be restored belongs after each medical device to be restored is found; and then searching preset position information set for each attribution equipment type, and reading the searched preset position information as the preset position information of each medical equipment to be returned.

And further, detecting the real-time position information of each medical device to be returned, comparing the preset position information with the real-time position information of each medical device to be returned, and judging whether the preset position information and the real-time position information are consistent. If the current position of the medical equipment to be restored is consistent with the current position of the medical equipment to be restored, the actual position of the medical equipment to be restored is the initial position, and the restoration of the medical equipment to be restored at the preset time point is completed. Otherwise, outputting prompt information to prompt the position of the medical equipment to be restored to be adjusted, and adjusting the current real-time position of the medical equipment to be restored to the initial position so that the preset position information is consistent with the real-time position information, thereby completing the restoration of the medical equipment to be restored.

This embodiment is through setting for the preset time point, detects the real-time position information of each medical equipment that is in idle state, carries out the playback to each medical equipment that is not located initial position, ensures that each medical equipment is located initial position, is convenient for take.

Further, based on the first, second or third embodiment of the supervision method of a medical device of the invention, a fourth embodiment of the supervision method of a medical device of the invention is proposed.

The fourth embodiment of the method of supervision of a medical device differs from the first, second or third embodiment of the method of supervision of a medical device in that the method of supervision of a medical device further comprises the steps of:

step S80, when the detection reaches the preset checking time, reading the accumulated use frequency information and the reference use frequency information of each medical device;

step S90, comparing the accumulated use frequency information of each medical device with the reference use frequency information, and judging whether the accumulated use frequency information is greater than the reference use frequency information;

and S100, if the reference use frequency information is larger than the reference use frequency information, outputting elimination prompt information.

The use frequency of each medical equipment is checked by the embodiment, the use frequency is too high, the medical equipment with serious loss is eliminated in time, and the use effect is prevented from being influenced. The preset checking time for checking is preset according to the requirement, such as checking once every month or one quarter. And reading the accumulated use frequency information and the reference use frequency information of each medical device from the use record of the server every time the preset check time is reached. The accumulated use frequency information is the total number of times of use of the medical equipment from the first use to the current check; the reference frequency of use information is a recommended total number of uses of the medical device during its life cycle.

Further, for each medical device, the accumulated use frequency information and the reference use frequency information are compared, and whether the accumulated use frequency information is larger than the reference use frequency information or not is judged. If the number of times of use is larger than the use frequency information, the total number of times of use of the medical equipment is too large, the loss is serious, and the use effect may be influenced by continuous use. Therefore, elimination information is output aiming at the medical equipment to prompt that the medical equipment reaches the elimination standard and should be eliminated in time, so that the use effect is ensured. Otherwise, if the use frequency information is not larger than the reference use frequency information, the medical equipment does not need to be eliminated. But continuously checking according to the subsequent preset checking time so as to timely eliminate the medical equipment when the elimination standard is reached along with the operation of the medical equipment.

In the embodiment, whether the time use frequency of each medical device exceeds the reference use frequency is checked by presetting the preset check time, and for the medical devices which exceed the reference use frequency and have large loss, elimination prompt information is output to eliminate in time; therefore, the harm caused by the fact that the use frequency is difficult to determine and the use is not eliminated in time is avoided, and the use safety of the medical equipment is ensured.

In addition, the embodiment of the invention also provides a readable storage medium.

The readable storage medium has stored thereon a medical device supervisor which, when executed by the processor, implements the steps of the method of supervising a medical device as described above.

The readable storage medium of the present invention may be a computer readable storage medium, and the specific implementation manner of the readable storage medium of the present invention is substantially the same as that of each embodiment of the monitoring method for medical equipment described above, and will not be described herein again.

The present invention is described in connection with the accompanying drawings, but the present invention is not limited to the above embodiments, which are only illustrative and not restrictive, and those skilled in the art can make various changes without departing from the spirit and scope of the invention as defined by the appended claims, and all changes that come within the meaning and range of equivalency of the specification and drawings that are obvious from the description and the attached claims are intended to be embraced therein.

Claims

1. A method of supervision of a medical device, characterized in that it comprises the following steps:

2. The method for supervising medical equipment according to claim 1, wherein the target medical equipment is plural in number, and the step of transmitting the equipment position information to the terminal corresponding to the acquisition request includes:

3. The method for supervising medical equipment according to claim 1, wherein the target medical equipment is plural in number, and the step of transmitting the equipment position information to the terminal corresponding to the acquisition request includes:

4. The method of supervising medical devices of claim 1, wherein said step of supervising the operating status of each medical device is followed by the steps of:

5. The method for supervising medical equipment according to claim 4, wherein the step of outputting the warning message of the abnormality of the medical equipment to be monitored if the deviation is greater than the preset deviation threshold value is followed by:

6. The method of supervising a medical device of any of claims 1-5, wherein said step of transmitting said device location information to a terminal corresponding to said acquisition request is followed by:

7. The method of supervising a medical device as defined in any of claims 1-5, further comprising the steps of:

8. The method of supervising a medical device as defined in any of claims 1-5, further comprising the steps of:

9. An administration device for a medical device, characterized in that the administration device for a medical device comprises a memory, a processor and a medical device administration program stored on the memory and executable on the processor, which when executed by the processor implements the steps of the method of administration of a medical device as claimed in any one of claims 1-8.

10. A readable storage medium, characterized in that the readable storage medium has stored thereon a medical device supervisor, which when executed by a processor implements the steps of the medical device supervision method according to any of claims 1-8.