CN110865593A - Unattended remote medical oxygen generator monitoring system based on intelligent algorithm - Google Patents

Abstract

The invention discloses an unattended remote medical oxygen generator monitoring system based on an intelligent algorithm, and particularly relates to the field of monitoring systems. The monitoring module is used for monitoring the working state of the oxygen generators in real time, the positioning module is used for positioning each oxygen generator, meanwhile, the terminal equipment is used for positioning the on-duty personnel in real time, then the on-duty personnel at the position closest to the fault machine is calculated, and a notification short message is sent to notify the on-duty personnel to carry out timely maintenance processing.

Description

Unattended remote medical oxygen generator monitoring system based on intelligent algorithm

Technical Field

The invention relates to the technical field of monitoring systems, in particular to an unattended remote medical oxygen generator monitoring system based on an intelligent algorithm.

Background

The medical oxygen generator can produce oxygen for patients to breathe, prevents the patients from suffocating due to oxygen deficiency, avoids the personal safety of the patients, and can be periodically checked and maintained to ensure the normal operation of the medical oxygen generator.

The monitoring system for the medical oxygen generator in the prior art can monitor the running state of the oxygen generator in real time, but an operator on duty needs to observe running data on a computer to make a response, and the monitoring effect is not ideal enough.

Disclosure of Invention

In order to overcome the above defects in the prior art, embodiments of the present invention provide an unattended remote medical oxygen generator monitoring system based on an intelligent algorithm, which monitors the working state of an oxygen generator in real time through a monitoring module, locates each oxygen generator through a positioning module, transmits the position information of the oxygen generator with a fault to a central processing module, locates the real-time position of each attendant at the same time, calculates the attendant closest to the fault, and sends a notification message to notify the attendant to perform timely maintenance processing, so as to ensure the normal operation of medical work.

In order to achieve the purpose, the invention provides the following technical scheme: an unattended remote medical oxygen generator monitoring system based on an intelligent algorithm comprises a central processing module, wherein the input end of the central processing module is provided with a monitoring module, the input end of the monitoring module is provided with a positioning module, the connecting end of the central processing module is provided with a wireless communication module, the connecting end of the wireless communication module is provided with a terminal device, the input end of the central processing module is also provided with an on-duty personnel login module, the output end of the central processing module is provided with an emergency module, the central processing module comprises a central processing unit, the monitoring module comprises an oxygen concentration detection unit, an electric leakage detection unit, a body temperature monitoring unit, an environment temperature detection unit and an air pressure detection unit, the positioning module comprises a GPS positioning unit, the wireless communication module comprises a wireless communication unit, and the terminal device comprises an on-duty mobile phone, the on-duty personnel login module comprises a doctor on-duty information login unit, a nurse on-duty information login unit and a maintenance personnel on-duty information login unit, and the emergency module comprises an emergency circuit breaking unit.

In a preferred embodiment, the central processing module is configured to receive, via the central processing unit, the oxygen concentration data, the electrical leakage condition data on the surface of the body, the temperature data inside the body, the temperature data of the external environment, and the air pressure data inside the body, which are detected by the oxygen concentration detecting unit, the electrical leakage detecting unit, the body temperature monitoring unit, the environment temperature detecting unit, and the air pressure detecting unit, respectively, and compare the received data with a preset threshold value, then according to the comparison result, the short message with corresponding content is sent to the mobile phone on duty through the wireless communication unit, the content comprises the time, the place and the corresponding data of the fault, and simultaneously, selecting the medical staff and the maintenance staff closest to the oxygen generator with the fault according to the staff information logged in by the doctor duty information login unit, the nurse duty information login unit and the maintenance staff duty information login unit.

In a preferred embodiment, the monitoring module is configured to detect the oxygen concentration, the surface leakage of the machine body, the temperature inside the machine body, the temperature of the external environment, and the air pressure inside the machine body respectively through the oxygen concentration detection unit, the leakage detection unit, the machine body temperature monitoring unit, the ambient temperature detection unit, and the air pressure detection unit, and convert the detected corresponding data into digital signals to be transmitted to the central processing unit.

In a preferred embodiment, the positioning module is configured to position each oxygen generator by using a GPS positioning unit, and feed back position information of each oxygen generator to the central processing unit in real time.

In a preferred embodiment, the wireless communication module is used for realizing wireless remote communication between the on-duty mobile phone and the central processing unit through the wireless communication unit.

In a preferred embodiment, the terminal device is configured to equip each medical staff on duty and the maintenance staff with a mobile phone on duty, and the positioning function on the mobile phone on duty can feed back the position of the staff on duty in real time, and then position the position of each staff on duty in real time through the wireless communication unit.

In a preferred embodiment, the attendant login module is configured to respectively enter the doctor attendant information, the nurse attendant information and the maintenance attendant information on duty on the current day through the doctor attendant information login unit, the nurse attendant information login unit and the maintenance attendant information login unit.

In a preferred embodiment, the emergency module is used for emergently cutting off a connection power supply of the oxygen generator when the oxygen generator leaks electricity and the oxygen generator has a relatively important fault through an emergency circuit-breaking unit, and the emergency circuit-breaking unit is specifically an electronic circuit breaker.

The invention has the technical effects and advantages that:

1. the monitoring module is used for monitoring the working state of the oxygen generators in real time, each oxygen generator is positioned through the positioning module, the position information of the oxygen generator with the fault is transmitted to the central processing module, meanwhile, the terminal equipment is used for positioning the real-time position of each attendant, then the attendant at the position closest to the fault generator is calculated, and a notification short message is sent to notify the attendant to carry out timely maintenance processing so as to ensure the normal operation of medical work;

2. according to the invention, the monitoring module transmits the corresponding data to the central processing unit, and the central processing unit controls the emergency circuit-breaking unit to emergently cut off the connection power supply of the oxygen generator, so that more electronic elements in the oxygen generator can be prevented from being damaged, and dangerous safety accidents such as fire and the like can be prevented from happening;

3. according to the invention, the temperature inside the machine body and the temperature of the environment around the machine body are respectively detected by the machine body temperature monitoring unit and the environment temperature detecting unit, and then the detected temperature data are transmitted to the central processing unit, so that the environment temperature of the oxygen generator can be effectively monitored, the influence factors of the environment on the oxygen generator are reduced, and compared with the prior art, the working stability of the oxygen generator is improved.

Drawings

FIG. 1 is a block diagram of the system of the present invention.

Fig. 2 is a block diagram of the present invention.

The reference signs are: the system comprises a central processing module 1, a monitoring module 2, a positioning module 3, a wireless communication module 4, a terminal device 5, an on-duty person login module 6, an emergency module 7, a central processing unit 8, an oxygen concentration detection unit 9, an electric leakage detection unit 10, an organism temperature monitoring unit 11, an environment temperature detection unit 12, an air pressure detection unit 13, a GPS positioning unit 14, a wireless communication unit 15, an on-duty mobile phone 16, a doctor on-duty information login unit 17, a nurse on-duty information login unit 18, a maintenance person on-duty information login unit 19 and an emergency circuit breaking unit 20.

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.

According to the illustrated unattended remote medical oxygen generator monitoring system based on the intelligent algorithm in the figures 1-2, the system comprises a central processing module 1, wherein the input end of the central processing module 1 is provided with a monitoring module 2, the input end of the monitoring module 2 is provided with a positioning module 3, the connecting end of the central processing module 1 is provided with a wireless communication module 4, the connecting end of the wireless communication module 4 is provided with a terminal device 5, the input end of the central processing module 1 is also provided with an on-duty person login module 6, the central processing module 1 comprises a central processing unit 8, the monitoring module 2 comprises an oxygen concentration detection unit 9, an electric leakage detection unit 10 and an air pressure detection unit 13, the positioning module 3 comprises a GPS positioning unit 14, the wireless communication module 4 comprises a wireless communication unit 15, the terminal device 5 comprises an on-duty mobile phone 16, the on-duty person login module 6 comprises a doctor on-duty information login unit 17, A nurse information on duty registration unit 18 and a maintenance worker information on duty registration unit 19;

the central processing module 1 is used for receiving oxygen concentration data, body surface leakage condition data, body internal temperature data, external environment temperature data and body internal air pressure data which are respectively detected by the oxygen concentration detection unit 9, the electric leakage detection unit 10, the body temperature monitoring unit 11, the environmental temperature detection unit 12 and the air pressure detection unit 13 through the central processing unit 8, comparing the data with a preset threshold value, then, according to the comparison result, the wireless communication unit 15 sends a short message with corresponding content to the mobile phone 16 on duty, wherein the content comprises the time, the place and corresponding data of the fault, meanwhile, according to the information of the staff logged in by the doctor duty information login unit 17, the nurse duty information login unit 18 and the maintenance staff duty information login unit 19, the medical staff and the maintenance staff closest to the oxygen generator with the fault are selected;

the monitoring module 2 is used for respectively detecting the oxygen concentration, the surface leakage condition of the machine body, the temperature inside the machine body, the temperature of the external environment and the air pressure inside the machine body through an oxygen concentration detection unit 9, an electric leakage detection unit 10, a machine body temperature monitoring unit 11, an environment temperature detection unit 12 and an air pressure detection unit 13, and converting the detected corresponding data into digital signals to be transmitted to the central processing unit 8;

the positioning module 3 is used for positioning each oxygen generator through the GPS positioning unit 14 and feeding back the position information of each oxygen generator to the central processing unit 8 in real time;

the wireless communication module 4 is used for realizing wireless remote communication between the on-duty mobile phone 16 and the central processing unit 8 through the wireless communication unit 15;

the terminal device 5 is used for allocating an on-duty mobile phone 16 to each on-duty medical worker and maintenance personnel, the positioning function on the on-duty mobile phone 16 can feed back the position of the on-duty personnel in real time, and then the position of each on-duty personnel is positioned in real time through the wireless communication unit 15;

the attendant login module 6 is configured to enter, through a doctor attendant information login unit 17, a nurse attendant information login unit 18, and a maintenance staff attendant information login unit 19, doctor staff information, nurse staff information, and maintenance staff information that are on duty on the day, respectively.

The implementation mode is specifically as follows: when the invention is used, a duty mobile phone 16 is distributed to each duty person, one of a corresponding doctor duty information login unit 17, a nurse duty information login unit 18 and a maintenance personnel duty information login unit 19 in a duty person login module 6 is selected according to the duty position to log in the system, so that the duty person information is led in, the duty mobile phone 16 carried by each person transmits the position information of the person to the central processing unit 8 through the wireless communication unit 15 in real time by utilizing the positioning function of the duty mobile phone 16, the central processing unit 8 receives the corresponding data monitored by the monitoring module 2, simultaneously the GPS positioning unit 14 positions each oxygenerator in real time, and the detected data are transmitted to the central processing unit 8 together, so that the central processing unit 8 can calculate the position of the oxygenerator closest to the doctor on duty who has a fault, The maintenance personnel or the nurse give the nearest on-duty doctor, nurse and maintenance personnel through short messages, the content of the short messages comprises the reasons, specific parameters and places of faults, and the whole system can carry out remote monitoring, and can inform the nearest on-duty personnel of maintenance and patient care in time, so that the monitoring effect is improved.

1-2, the unattended remote medical oxygen generator monitoring system based on the intelligent algorithm further comprises an emergency module 7, wherein the emergency module 7 comprises an emergency circuit-breaking unit 20;

emergency module 7 is used for promptly cutting off the connected power of oxygenerator when comparatively important trouble appears in oxygenerator electric leakage and oxygenerator through emergency circuit breaking unit 20, emergency circuit breaking unit 20 specifically is electronic circuit breaker.

The implementation mode is specifically as follows: when the invention is used, the oxygenerator has electric leakage or serious faults, the monitoring module 2 transmits corresponding data to the central processing unit 8, and the central processing unit 8 controls the emergency circuit-breaking unit 20 to emergently cut off the connection power supply of the oxygenerator, thereby preventing more electronic elements in the oxygenerator from being damaged, preventing dangerous safety accidents such as fire and the like from happening, effectively improving the safety, and particularly solving the problem of unsatisfactory safety in the prior art.

The unattended remote medical oxygen generator monitoring system based on the intelligent algorithm shown in fig. 1-2 further comprises a body temperature monitoring unit 11 and an environment temperature detection unit 12, wherein the body temperature monitoring unit 11 and the environment temperature detection unit 12 are part of the monitoring module 2;

the implementation mode is specifically as follows: when the invention is used, the temperature inside the machine body and the temperature of the environment around the machine body are respectively detected by the machine body temperature monitoring unit 11 and the environment temperature detecting unit 12, and then the detected temperature data are transmitted to the central processing unit 8, so that the environmental temperature of the oxygen generator can be effectively monitored, the influence factors of the environment on the oxygen generator are reduced, the working stability of the oxygen generator is improved, and the embodiment specifically solves the problem of the prior art that the working stability is not ideal.

The working principle of the invention is as follows:

referring to the attached drawings 1-2 of the specification, when the invention is used, an on-duty mobile phone 16 is distributed to each on-duty person, the on-duty mobile phone is logged in the system through an on-duty logging module 6, so that the on-duty information is imported, the positioning function on the on-duty mobile phone 16 is utilized, the on-duty mobile phone 16 carried by each person transmits the position information of the on-duty mobile phone to a central processing unit 8 through a wireless communication unit 15 in real time, each oxygen generator is positioned in real time through a GPS positioning unit 14, the detected data is transmitted to the central processing unit 8 together, so that the central processing unit 8 can calculate the nearest on-duty doctor, maintenance personnel or nurse to the oxygen generator with the fault, the nearest on-duty doctor, maintenance personnel and maintenance personnel are sent in the form of short messages, the content of the short messages comprises the reason, specific parameters and the place of the fault, and the invention can be remotely, the nearest on-duty personnel can be informed to maintain and take care of the patient in time, and the monitoring effect is improved;

referring to the attached drawings 1-2 of the specification, when the oxygen generator is used, electric leakage or serious faults occur in the oxygen generator, the monitoring module 2 transmits corresponding data to the central processing unit 8, and the central processing unit 8 controls the emergency circuit-breaking unit 20 to cut off the connection power supply of the oxygen generator in an emergency, so that more electronic elements in the oxygen generator can be prevented from being damaged, dangerous safety accidents such as fire disasters can be prevented, and the safety is effectively improved;

referring to the attached drawings 1-2 of the specification, when the oxygen generator is used, the temperature inside the oxygen generator and the temperature of the environment around the oxygen generator are respectively detected by the body temperature monitoring unit 11 and the environment temperature detecting unit 12, and then the detected temperature data are transmitted to the central processing unit 8, so that the environment temperature of the oxygen generator can be effectively monitored, the influence factors of the environment on the oxygen generator are reduced, and the working stability of the oxygen generator is improved.

The points to be finally explained are: first, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, and "upper," "lower," "left," and "right" are only used to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed;

secondly, the method comprises the following steps: in the drawings of the disclosed embodiments of the invention, only the structures related to the disclosed embodiments are referred to, other structures can refer to common designs, and the same embodiment and different embodiments of the invention can be combined with each other without conflict;

and finally: the above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that are within the spirit and principle of the present invention are intended to be included in the scope of the present invention.

Claims (8)

1. The utility model provides a long-range medical oxygenerator monitored control system of unmanned on duty based on intelligent algorithm which characterized in that: comprises a central processing module (1), the input end of the central processing module (1) is provided with a monitoring module (2), the input end of the monitoring module (2) is provided with a positioning module (3), the connecting end of the central processing module (1) is provided with a wireless communication module (4), the connecting end of the wireless communication module (4) is provided with a terminal device (5), the input end of the central processing module (1) is also provided with an on-duty personnel login module (6), the output end of the central processing module (1) is provided with an emergency module (7), the central processing module (1) comprises a central processor (8), the monitoring module (2) comprises an oxygen concentration detection unit (9), an electric leakage detection unit (10), an engine body temperature monitoring unit (11), an environment temperature detection unit (12) and an air pressure detection unit (13), the positioning module (3) comprises a GPS positioning unit (14), wireless communication module (4) include wireless communication unit (15), terminal equipment (5) are including cell-phone (16) on duty, staff on duty login module (6) are including doctor information login unit (17) on duty, nurse information login unit (18) on duty and maintainer information login unit (19) on duty, emergency module (7) are including emergency shutdown unit (20).

2. The unattended remote medical oxygen generator monitoring system based on the intelligent algorithm according to claim 1, which is characterized in that: the central processing module (1) is used for receiving oxygen concentration data, body surface leakage condition data, body internal temperature data, external environment temperature data and body internal air pressure data which are respectively detected by the oxygen concentration detection unit (9), the leakage detection unit (10), the body temperature monitoring unit (11), the environment temperature detection unit (12) and the air pressure detection unit (13) through the central processing unit (8), comparing the oxygen concentration data, the body surface leakage condition data, the body internal temperature data, the external environment temperature data and the body internal air pressure data with a preset threshold value, then sending a short message with corresponding contents to the mobile phone (16) on duty through the wireless communication unit (15) according to a comparison result, wherein the contents comprise time, place and corresponding data of faults, and simultaneously logging in personnel information according to the doctor information on duty logging unit (17), the nurse information on duty logging unit (18) and the maintenance personnel information on duty logging unit (19), and selecting the medical personnel and the maintenance personnel which are closest to the oxygen generator with the fault.

3. The unattended remote medical oxygen generator monitoring system based on the intelligent algorithm according to claim 1, which is characterized in that: monitoring module (2) are used for detecting oxygen concentration, organism surface electric leakage condition, the inside temperature of organism, the temperature of external environment and the inside atmospheric pressure of organism respectively through oxygen concentration detecting element (9), electric leakage detecting element (10), organism temperature monitoring element (11), ambient temperature detecting element (12) and atmospheric pressure detecting element (13) to turn into digital signal transmission for central processing unit (8) with the corresponding data that detect.

4. The unattended remote medical oxygen generator monitoring system based on the intelligent algorithm according to claim 1, which is characterized in that: the positioning module (3) is used for positioning each oxygen generator through a GPS positioning unit (14) and feeding back the position information of each oxygen generator to the central processing unit (8) in real time.

5. The unattended remote medical oxygen generator monitoring system based on the intelligent algorithm according to claim 1, which is characterized in that: the wireless communication module (4) is used for realizing wireless remote communication between the mobile phone (16) on duty and the central processing unit (8) through the wireless communication unit (15).

6. The unattended remote medical oxygen generator monitoring system based on the intelligent algorithm according to claim 1, which is characterized in that: the terminal device (5) is used for equipping each medical worker on duty and maintenance personnel with a mobile phone (16) on duty, the positioning function on the mobile phone (16) on duty can feed back the position of the worker on duty in real time, and then the position of each worker on duty is positioned in real time through the wireless communication unit (15).

7. The unattended remote medical oxygen generator monitoring system based on the intelligent algorithm according to claim 1, which is characterized in that: the on-duty staff login module (6) is used for respectively inputting on-duty doctor staff information, nurse staff information and maintenance staff information on duty on the day through a doctor on-duty information login unit (17), a nurse on-duty information login unit (18) and a maintenance staff on-duty information login unit (19).

8. The unattended remote medical oxygen generator monitoring system based on the intelligent algorithm according to claim 1, which is characterized in that: emergency module (7) are used for promptly cutting off the connection power supply of oxygenerator when comparatively important trouble appears in oxygenerator electric leakage and oxygenerator through emergency circuit breaker unit (20), emergency circuit breaker unit (20) specifically are electronic circuit breaker.

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