CN114928166B - Medical equipment power distribution monitoring management system - Google Patents

Abstract

The invention discloses a power distribution monitoring and management system for medical equipment, which comprises: the equipment management module is used for inputting and deleting the information of the medical equipment and endowing each medical equipment with an identification number; the power consumption monitoring terminal is used for acquiring real-time power consumption data of each medical device and matching the acquired power consumption data with the identification numbers of the medical devices; the data management module is used for receiving and sorting the real-time power utilization data sent by the power utilization monitoring terminal, comparing and analyzing the sorted data with preset safe power utilization data and historical power utilization data, judging the running state of the current equipment and sending an analysis result to the alarm module; the alarm module starts a preset processing scheme based on the received equipment running state analysis result, sends the preset processing scheme to the processing module, and enters an alarm mode until receipt information of the processing module is received; the medical equipment power distribution monitoring and management system can intelligently manage power distribution of medical equipment in a hospital.

Description

Medical equipment power distribution monitoring management system

Technical Field

The invention relates to a medical equipment power distribution monitoring and management system.

Background

With the continuous development and revolution of medical systems, the medical electrification degree of each large hospital is higher and higher, medical electrical equipment to be used by medical workers in ordinary work is also increased continuously, and the guarantee of safe power utilization of the hospitals becomes a key problem concerned by people.

From the current situation, many hospitals do not make a strict power utilization management and control system in daily operation, even if a related management system is made, the management system only flows in a form and is not strictly executed in actual work, and certain potential safety hazards exist. If the power facility equipment is in the state of using for a long time, must can wear and tear, under the influence of operating personnel misoperation or environmental factor, the circuit insulation skin can slowly drop, damage.

On the other hand, some hospitals are established early, the whole medical facility is used for a long time, the aging is serious, partial performance is lost, the requirement of modern medical service cannot be met, and a certain degree of obstruction is caused to the effective development of rescue work. And the patients of the hospital increase, and the power consumption demand also increases, and at this moment, if the hospital does not change aged medical equipment in time, very serious safety problem will be brought certainly.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a medical equipment power distribution monitoring and management system capable of intelligently managing the power distribution of medical equipment in a hospital.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a medical equipment power distribution monitoring management system comprises:

the equipment management module is used for inputting and deleting the information of the medical equipment and endowing each medical equipment with an identification number;

the power consumption monitoring terminal is used for acquiring real-time power consumption data of each medical device and matching the acquired power consumption data with the identification numbers of the medical devices;

the data management module is used for receiving and sorting the real-time power utilization data sent by the power utilization monitoring terminal, comparing and analyzing the sorted data with preset safe power utilization data and historical power utilization data, judging the running state of the current equipment and sending an analysis result to the alarm module;

the alarm module starts a preset processing scheme based on the received equipment running state analysis result, sends the preset processing scheme to the processing module, and enters an alarm mode until receipt information of the processing module is received;

and the processing module executes the polling maintenance processing of the equipment based on the received processing scheme and sends a processing result to the alarm module and the data management module to remove the alarm mode.

Furthermore, the power consumption monitoring terminal comprises a current acquisition module for acquiring real-time current data, a voltage acquisition module for acquiring real-time voltage data, a timing module for controlling the current acquisition module and the voltage acquisition module to periodically acquire data, and an operation acquisition module for recording the operation time of the medical equipment.

Further, the method for arranging the real-time electricity utilization data by the data management module comprises the following steps: and associating a timestamp with the received real-time current data and real-time voltage data to obtain current freezing data and voltage freezing data.

Further, the method for performing comparative analysis on the sorted data and the preset safety electricity utilization data comprises the following steps: and comparing the current freezing data and the voltage freezing data obtained by sorting with preset safe power utilization data, judging whether the current freezing data and the voltage freezing data exceed preset safe parameter values, if so, performing primary alarm, then judging whether the current freezing data and the voltage freezing data exceed preset risk parameter values, and if so, performing secondary alarm.

Further, the method for performing comparative analysis on the sorted data and the historical electricity consumption data comprises the following steps: and comparing the time stamps corresponding to the current freezing data and the voltage freezing data obtained by sorting with the time interval of the historical electricity utilization data, judging whether the time stamps of the current freezing data and the voltage freezing data exceed the time period of the historical electricity utilization data, and if the time periods of the current freezing data and the voltage freezing data exceed the time period of the historical electricity utilization data and the current freezing data and the voltage freezing data do not exceed preset safety parameter values, performing special alarm.

Further, the safety power utilization data preset in the data management module are as follows: and predicting the size of the future power demand load based on the power load of each medical device and the operation time of each medical device to obtain preset safe power utilization data.

Further, the historical electricity consumption data in the data management module is as follows: and generating a daily report of daily power consumption data based on the daily power load of each medical device and the daily operating time of each medical device, and obtaining historical power consumption data based on the update of the daily report of the daily power consumption data.

Furthermore, the processing module is a mobile intelligent terminal with a data receiving and sending function, and comprises a plurality of maintainer user terminals and a plurality of manager user terminals, wherein the maintainer user terminals and the manager user terminals respectively receive the operation state analysis result and the processing scheme sent by the warning module, and the maintainer user terminals send receipt information to the warning module.

Further, the preset processing scheme of the alarm module is as follows: when the first-level alarm is carried out, starting the instant inspection scheme, sending the identification number of the corresponding medical equipment to the maintainer user terminal, and sending receipt information to remove the first-level alarm by the maintainer user terminal after the inspection maintenance is finished; and when the secondary alarm is carried out, starting the instant polling scheme and the power supply cutting scheme, sending the identification number of the corresponding medical equipment to the maintainer user terminal and the administrator user terminal, and sending receipt information to remove the secondary alarm after the maintainer user terminal finishes polling maintenance.

Further, the preset processing scheme of the alarm module is as follows: and when special alarm is given, the emergency power supply scheme is started, and the voltage stabilizing equipment and the standby power supply which are matched with the identification number of the corresponding medical equipment are started.

The invention has the beneficial effects that:

through the fine management to each medical equipment running state, can confirm the conventional state power consumption data and the power consumption time of each medical equipment to judge medical equipment's power consumption state and report an emergency and ask for help or increased vigilance, whether fine-grained differentiation medical equipment is in the condition such as electric leakage, outage, ageing, tripping operation and emergent power consumption, and carry out emergency treatment according to predetermined processing scheme in the very first time, in time reduce the accident and harm, guarantee medical equipment's safe and reliable ization operation management.

Detailed Description

The principles and features of this invention are described below in conjunction with examples which are set forth to illustrate, but are not to be construed to limit the scope of the invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Examples

A medical equipment power distribution monitoring management system comprises:

the equipment management module is used for inputting and deleting the information of the medical equipment and endowing each medical equipment with an identification number;

the power consumption monitoring terminal is used for acquiring real-time power consumption data of each medical device and matching the acquired power consumption data with the identification numbers of the medical devices;

the data management module is used for receiving and sorting the real-time power utilization data sent by the power utilization monitoring terminal, comparing and analyzing the sorted data with preset safe power utilization data and historical power utilization data, judging the running state of the current equipment and sending an analysis result to the alarm module;

the alarm module starts a preset processing scheme based on the received equipment running state analysis result, sends the preset processing scheme to the processing module, and enters an alarm mode until receipt information of the processing module is received;

and the processing module executes the polling maintenance processing of the equipment based on the received processing scheme and sends the processing result to the alarm module and the data management module to remove the alarm mode.

The power consumption monitoring terminal comprises a current acquisition module for acquiring real-time current data, a voltage acquisition module for acquiring real-time voltage data, a timing module for controlling the current acquisition module and the voltage acquisition module to periodically acquire data, and an operation acquisition module for recording the operation time of the medical equipment.

Current collection and voltage collection through medical equipment to judge whether medical equipment has the condition of power consumption, and whether the data of power consumption is in normal state, and the timing module is then control current and voltage data collection and carry out once collection with certain time cycle, and this time cycle can be according to medical equipment's difference, carries out the self-setting, and different medical equipment predetermines different time cycle.

The method for arranging the real-time electricity utilization data by the data management module comprises the following steps: and associating the received real-time current data and real-time voltage data with a timestamp to obtain current freezing data and voltage freezing data.

And stamping a timestamp on the real-time current data and the real-time voltage data acquired by the current time node, generating current freezing data and voltage freezing data, and then sending the current freezing data and the voltage freezing data.

The method for carrying out comparative analysis on the sorted data and the preset safety electricity utilization data comprises the following steps: and comparing the current freezing data and the voltage freezing data obtained by sorting with preset safe power utilization data, judging whether the current freezing data and the voltage freezing data exceed preset safe parameter values, if so, performing primary alarm, then judging whether the current freezing data and the voltage freezing data exceed preset risk parameter values, and if so, performing secondary alarm.

The method for comparing and analyzing the sorted data and the historical electricity consumption data comprises the following steps: and comparing the time stamps corresponding to the current freezing data and the voltage freezing data obtained by sorting with the time interval of the historical electricity utilization data, judging whether the time stamps of the current freezing data and the voltage freezing data exceed the time period of the historical electricity utilization data, and if the time periods of the current freezing data and the voltage freezing data exceed the time period of the historical electricity utilization data and the current freezing data and the voltage freezing data do not exceed preset safety parameter values, performing special alarm.

The safety electricity utilization data preset in the data management module are as follows: the method comprises the steps of estimating the size of a future power demand load based on the power load of each medical device and the operation time of each medical device to obtain preset safe power utilization data, estimating the power consumption of each medical device based on the operation time and the power of each medical device, determining the conditions of circuit aging, electric leakage and the like when the power consumption data exceeding the estimated power consumption exist, and arranging workers to carry out maintenance.

The historical electricity consumption data in the data management module is as follows: the method comprises the steps of generating daily reports of daily electricity utilization data based on daily power loads of medical equipment and daily operation time of the medical equipment, obtaining historical electricity utilization number based on updating of the daily reports of the daily electricity utilization data, judging whether the medical equipment is in an emergency electricity utilization state or a conventional electricity utilization state based on operation time periods of the medical equipment, determining that the medical equipment is in the conventional electricity utilization state when judging that the medical equipment is normal electricity utilization data of normal time periods at present, and determining that the medical equipment is in the emergency electricity utilization state when judging that the medical equipment is normal electricity utilization data of abnormal time periods at present.

The processing module is a mobile intelligent terminal with a data receiving and sending function and comprises a plurality of maintainer user terminals and a plurality of manager user terminals, wherein the maintainer user terminals and the manager user terminals respectively receive the operation state analysis result and the processing scheme sent by the warning module, and the maintainer user terminals send receipt information to the warning module.

The preset processing scheme of the alarm module is as follows: when the first-level alarm is carried out, starting the instant inspection scheme, sending the identification number of the corresponding medical equipment to the maintainer user terminal, and sending receipt information to remove the first-level alarm by the maintainer user terminal after the inspection maintenance is finished; and when the secondary alarm is carried out, starting the instant polling scheme and the power supply cutting scheme, sending the identification number of the corresponding medical equipment to the maintainer user terminal and the administrator user terminal, and sending receipt information to remove the secondary alarm after the maintainer user terminal finishes polling maintenance.

The preset processing scheme of the alarm module is as follows: and when special alarm is given, the emergency power supply scheme is started, and the voltage stabilizing equipment and the standby power supply which are matched with the identification number of the corresponding medical equipment are started.

The above embodiments of the present invention are not intended to limit the scope of the present invention, and the embodiments of the present invention are not limited thereto, and various other modifications, substitutions or alterations made to the above structures of the present invention without departing from the basic technical idea of the present invention according to the common technical knowledge and common practice in the art should fall within the scope of the present invention.

Claims (6)

1. A medical equipment power distribution monitoring management system is characterized by comprising:

the equipment management module is used for inputting and deleting the information of the medical equipment and endowing each medical equipment with an identification number;

the power consumption monitoring terminal is used for acquiring real-time power consumption data of each medical device and matching the acquired power consumption data with the identification numbers of the medical devices;

the data management module is used for receiving and sorting the real-time power utilization data sent by the power utilization monitoring terminal, comparing and analyzing the sorted data with preset safe power utilization data and historical power utilization data, judging the running state of the current equipment and sending an analysis result to the alarm module;

the alarm module starts a preset processing scheme based on the received equipment running state analysis result, sends the preset processing scheme to the processing module, and enters an alarm mode until receipt information of the processing module is received;

the processing module executes the polling maintenance processing of the equipment based on the received processing scheme and sends the processing result to the alarm module and the data management module to remove the alarm mode;

the method for arranging the real-time electricity utilization data by the data management module comprises the following steps: associating the received real-time current data and real-time voltage data with a timestamp to obtain current freezing data and voltage freezing data;

the method for carrying out comparative analysis on the sorted data and the preset safety electricity utilization data comprises the following steps: comparing the current freezing data and the voltage freezing data obtained by sorting with preset safe power utilization data, judging whether the current freezing data and the voltage freezing data exceed preset safe parameter values, if so, performing primary alarm, then judging whether the current freezing data and the voltage freezing data exceed preset risk parameter values, and if so, performing secondary alarm;

the method for carrying out comparative analysis on the sorted data and the historical electricity consumption data comprises the following steps: comparing the timestamps corresponding to the current freezing data and the voltage freezing data obtained through sorting with the time interval of the historical electricity consumption data, judging whether the timestamps of the current freezing data and the voltage freezing data exceed the time period of the historical electricity consumption data or not, and if the timestamps of the current freezing data and the voltage freezing data exceed the time period of the historical electricity consumption data and the current freezing data and the voltage freezing data do not exceed preset safety parameter values, performing special alarm;

the preset processing scheme of the alarm module is as follows: and when special alarm is given, the emergency power supply scheme is started, and the voltage stabilizing equipment and the standby power supply which are matched with the identification number of the corresponding medical equipment are started.

2. The power distribution monitoring and management system for the medical equipment as claimed in claim 1, wherein the power utilization monitoring terminal comprises a current collection module for collecting real-time current data, a voltage collection module for collecting real-time voltage data, a timing module for controlling the current collection module and the voltage collection module to periodically collect data, and an operation collection module for recording the operation time of the medical equipment.

3. The medical equipment power distribution monitoring and management system of claim 1, wherein the safety electricity utilization data preset in the data management module are: and predicting the size of the future power demand load based on the power load of each medical device and the operation time of each medical device to obtain preset safe power utilization data.

4. The medical device power distribution monitoring and management system of claim 1, wherein the historical power utilization data in the data management module is: daily reports of the daily power consumption data are generated based on the daily power loads of the medical devices and the daily operating time of the medical devices, and historical power consumption data are obtained based on the updates of the daily power consumption data daily reports.

5. The power distribution monitoring and management system of the medical equipment as claimed in claim 1, wherein the processing module is a mobile intelligent terminal with data transceiving function, and comprises a plurality of maintainer user terminals and a plurality of manager user terminals, wherein the maintainer user terminals and the manager user terminals respectively receive the operation state analysis results and the processing schemes sent by the alarm module, and the maintainer user terminals send receipt information to the alarm module.

6. The medical equipment power distribution monitoring and management system of claim 5, wherein the preset processing scheme of the alarm module is as follows: when the first-level alarm is carried out, starting the instant inspection scheme, sending the identification number of the corresponding medical equipment to the maintainer user terminal, and sending receipt information to remove the first-level alarm by the maintainer user terminal after the inspection maintenance is finished; and when the secondary alarm is carried out, starting the instant polling scheme and the power supply cutting scheme, sending the identification number of the corresponding medical equipment to the maintainer user terminal and the administrator user terminal, and sending receipt information to remove the secondary alarm after the maintainer user terminal finishes polling maintenance.