CN115472277B - Medical water remote monitoring management and control system - Google Patents

Abstract

The invention discloses a medical water remote monitoring and controlling system, which relates to the technical field of water remote monitoring and controlling, and comprises a server, wherein the server is connected with a medical water intensity analysis unit, a water supply pipeline analysis unit, a real-time water analysis unit and a remote monitoring error analysis unit in a communication way; the invention analyzes the real-time water intensity in the hospital, reasonably dispatches the water to prevent the influence on the medical execution caused by insufficient water supply or reduced water pressure in the medical execution process, and is beneficial to improving the accuracy and stability of the water in the hospital; and the water supply pipeline in the hospital is also analyzed, the influence risk of the water quality of the water supply in the water supply pipeline is judged through the analysis of the water supply pipeline, the water quality of the water supply is accurately analyzed, the medical execution efficiency is prevented from being reduced due to the abnormality of the water quality of the water supply, and the qualification of the water supply is favorably ensured and the stability of medical execution is improved.

Description

Medical water remote monitoring management and control system

Technical Field

The invention relates to the technical field of remote monitoring and control of water, in particular to a remote monitoring and control system for medical water.

Background

The method is characterized in that municipal tap water or other water sources commonly used in hospitals are used as raw water, after pretreatment and reverse osmosis treatment, part of the raw water is prepared into product water with single water quality, and then the product water is supplied to various clinical demand departments or departments through pipelines, so that the medical industry has particularly high water quality demands, and the water quality situation is closely related to diagnosis and treatment safety;

however, in the prior art, the water intensity in the hospital cannot be accurately analyzed, so that the accuracy of water consumption cannot be ensured, meanwhile, the water consumption efficiency cannot be monitored, and whether the phenomenon of water waste exists cannot be judged while water is used, so that the water consumption efficiency is low;

in view of the above technical drawbacks, a solution is now proposed.

Disclosure of Invention

The invention aims to solve the problems and provide a medical water remote monitoring and controlling system which analyzes the real-time water intensity in a hospital, reasonably dispatches water to prevent the influence on medical execution caused by insufficient water supply or reduced water pressure in the medical execution process and is beneficial to improving the accuracy and stability of the water in the hospital; and the water supply pipeline in the hospital is also analyzed, the influence risk of the water quality of the water supply in the water supply pipeline is judged through the analysis of the water supply pipeline, the water quality of the water supply is accurately analyzed, the medical execution efficiency is prevented from being reduced due to the abnormality of the water quality of the water supply, and the qualification of the water supply is favorably ensured and the stability of medical execution is improved.

The aim of the invention can be achieved by the following technical scheme:

the utility model provides a medical water remote monitoring management and control system, includes the server, and the server communication is connected with:

the medical water intensity analysis unit is used for analyzing the real-time water intensity in the hospital, analyzing the medical execution in the hospital, dividing the medical execution into high-water-demand execution and low-water-demand execution through analysis, analyzing the water use time period of the hospital, generating a high-intensity water use signal and a low-intensity water use signal through the analysis of the water use time period, and sending the high-intensity water use signal and the low-intensity water use signal to the server;

the water supply pipeline analysis unit is used for analyzing the water supply pipeline in the hospital, judging the influence risk of the water quality of the water supply in the water supply pipeline through the water supply pipeline analysis, analyzing the water supply pipeline in the hospital, generating a water supply pipeline analysis abnormal signal and a water supply pipeline analysis normal signal through the analysis, and sending the water supply pipeline analysis abnormal signal and the water supply pipeline analysis normal signal to the server;

the real-time water analysis unit is used for analyzing the real-time water in the hospital, judging whether the medical water is wasted, acquiring a relief time period and a aggravation time period in the medical water time period, correspondingly generating a relief water analysis qualified signal and a relief water analysis unqualified signal through analysis of the relief time period, generating a aggravation water analysis qualified signal and a aggravation water analysis unqualified signal through analysis of the aggravation time period, and transmitting the signals to the server;

and the remote monitoring error analysis unit is used for analyzing the remote monitoring of the medical water, generating a high error monitoring signal and a low error monitoring signal through analysis, and sending the high error monitoring signal and the low error monitoring signal to the server.

As a preferred embodiment of the present invention, the operation of the medical water intensity analysis unit is as follows:

the method comprises the steps of collecting the increase of water consumption in running time of medical execution in a hospital and the required water consumption of corresponding medical execution, and comparing the increase of water consumption with a water consumption increase threshold and a required water consumption threshold respectively:

if the water consumption increase exceeds the water consumption increase threshold value at the running time of medical execution in the hospital or the required water consumption of the corresponding medical execution exceeds the required water consumption threshold value, marking the corresponding medical execution as high-water-requirement execution; and if the water consumption increase amount in the running time of the medical execution in the hospital does not exceed the water consumption increase amount threshold value and the required water consumption of the corresponding medical execution does not exceed the required water consumption threshold value, marking the corresponding medical execution as low-water-required execution.

As a preferred embodiment of the present invention, the water use period analysis process of the hospital is as follows:

the method comprises the steps of collecting the quantity of the high-demand water execution real-time operation corresponding to the water consumption time in the water consumption time period and the quantity ratio of the high-demand water execution waiting operation to the waiting end corresponding to the adjacent time of the current water consumption time, and comparing the quantity ratio with a real-time operation quantity threshold and an execution quantity ratio threshold respectively:

if the quantity of the high-demand water execution real-time operation corresponding to the water use time exceeds a real-time operation quantity threshold value in the water use time period, or the quantity ratio of the high-demand water execution waiting operation to the waiting end corresponding to the adjacent time of the current water use time exceeds an execution quantity ratio threshold value, generating a high-strength water use signal and sending the high-strength water use signal to a server; if the number of the real-time running corresponding to the high water demand at the water use time in the water use time period does not exceed the real-time running number threshold, and the number ratio of the high water demand to the end to be executed at the adjacent time of the current water use time does not exceed the execution number ratio threshold, generating a low-intensity water use signal and sending the low-intensity water use signal to the server.

As a preferred embodiment of the present invention, the water supply pipe analysis unit operates as follows:

collecting the quantity of the bent parts of the pipelines in the required length of the corresponding water supply pipelines and the water accumulated quantity of the connecting parts of the pipelines in the corresponding water supply pipelines, and comparing the quantity of the water accumulated quantity with a threshold value of the quantity of the bent parts and a threshold value of the water accumulated quantity respectively:

if the number of the bent positions of the pipelines in the required length of the corresponding water supply pipeline exceeds the threshold value of the number of the bent positions or the water accumulation amount of the connecting positions of the pipelines in the corresponding water supply pipeline exceeds the threshold value of the water accumulation amount, generating an analysis abnormal signal of the water supply pipeline and sending the analysis abnormal signal of the water supply pipeline to a server; if the number of the bent positions of the pipelines in the required length of the corresponding water supply pipeline is not greater than the threshold value of the number of the bent positions and the water storable quantity of the connecting positions of the pipelines in the corresponding water supply pipeline is not greater than the threshold value of the water storable quantity, generating a water supply pipeline analysis normal signal and sending the water supply pipeline analysis normal signal to the server.

As a preferred embodiment of the present invention, the real-time water analysis unit operates as follows:

a rectangular coordinate is built by taking a medical water use time period as an X axis and medical water use as a Y axis, a water use curve is built according to the water use at each moment in the medical water use time period, a water use peak value moment and a water use valley value moment are obtained according to the water use curve, the time from the water use peak value moment to the water use valley value moment are marked as a relieving time period, and the time from the water use valley value moment to the water use peak value moment are marked as an aggravating time period;

the reduction speed of the quantity of the high-demand water execution and the average duration reduction amount of the corresponding high-demand water execution in the relieving time period are acquired and compared with a reduction speed threshold and a duration reduction amount threshold respectively:

if the reduction speed of the quantity of the high-demand water execution exceeds the reduction speed threshold value in the alleviation time period and the average duration reduction amount of the corresponding high-demand water execution exceeds the duration reduction amount threshold value, generating a alleviation water analysis qualified signal and sending the alleviation water analysis qualified signal to a server; and if the reduction speed of the quantity of the high-demand water execution in the alleviation time period does not exceed the reduction speed threshold value, or the average duration reduction amount of the corresponding high-demand water execution does not exceed the duration reduction amount threshold value, generating a alleviation water analysis disqualification signal and sending the alleviation water analysis disqualification signal to a server.

As a preferred embodiment of the present invention, span values of the number of high demand executions in the aggravated time period and the number of high demand delayed in the real-time operation time period are collected and compared with a span value threshold and a high demand number threshold, respectively:

if the span value of the high demand execution quantity in the aggravated time period exceeds the span value threshold, or if the high demand quantity delayed in the real-time operation time length exceeds the high demand quantity threshold, generating aggravated water analysis qualified signals and sending the aggravated water analysis qualified signals to a server; if the span value of the high demand execution number in the aggravated time period does not exceed the span value threshold value and the high demand number delayed in the real-time operation time period does not exceed the high demand number threshold value, generating aggravated water analysis disqualification signals and sending aggravated water analysis disqualification signals to the server.

As a preferred embodiment of the present invention, the remote monitoring error analysis unit operates as follows:

the method comprises the steps of collecting the data transmission required buffering time and the numerical value floating value of corresponding monitoring data in the corresponding data transmission required buffering time in the medical water remote monitoring process, and comparing the data transmission required buffering time with a required buffering time threshold value and a numerical value floating value threshold value respectively:

if the buffer time required by the monitoring data transmission exceeds the buffer time threshold in the medical water remote monitoring process, or the numerical floating value of the corresponding monitoring data exceeds the numerical floating value threshold in the corresponding data transmission buffer time, generating a high-error monitoring signal and sending the high-error monitoring signal to a server; if the buffer time required for monitoring data transmission does not exceed the buffer time threshold in the medical water remote monitoring process and the numerical floating value of the corresponding monitoring data in the buffer time required for the corresponding data transmission does not exceed the numerical floating value threshold, generating a low-error monitoring signal and sending the low-error monitoring signal to a server.

Compared with the prior art, the invention has the beneficial effects that:

1. in the invention, the real-time water intensity in the hospital is analyzed, the water is reasonably scheduled to prevent the influence on the medical execution caused by insufficient water supply or reduced water pressure in the medical execution process, and the accuracy and the stability of the water in the hospital are improved; analyzing the water supply pipeline in the hospital, judging the influence risk of the water quality of the water supply in the water supply pipeline through the analysis of the water supply pipeline, accurately analyzing the water quality of the water supply, preventing the medical execution efficiency from being reduced due to the abnormality of the water quality of the water supply, and being beneficial to ensuring the qualification of the water supply and improving the stability of the medical execution;

2. in the invention, the real-time water in the hospital is analyzed, whether the medical water is wasted or not is judged, the water consumption is monitored, and the water consumption is prevented from being reduced due to the water consumption; the use quality and the use efficiency of the medical water are improved; analyzing the remote monitoring of the medical water, analyzing the error of the remote monitoring, ensuring the qualified efficiency of the remote monitoring, and preventing the error of the remote monitoring from causing low efficiency and low accuracy of the remote monitoring.

Drawings

The present invention is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.

FIG. 1 is a schematic block diagram of a remote monitoring and control system for medical water according to the present invention.

Detailed Description

The technical solutions of the present invention will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, a remote monitoring and controlling system for medical water includes a server, wherein the server is communicatively connected with a medical water intensity analysis unit, a water supply pipeline analysis unit, a real-time water analysis unit and a remote monitoring error analysis unit, and the server is in bidirectional communication connection with the medical water intensity analysis unit, the water supply pipeline analysis unit, the real-time water analysis unit and the remote monitoring error analysis unit;

the server generates a medical water intensity analysis signal and sends the medical water intensity analysis signal to the medical water intensity analysis unit, and the medical water intensity analysis unit analyzes the real-time water intensity in the hospital after receiving the medical water intensity analysis signal, so that the water is reasonably scheduled to prevent the influence on medical execution caused by insufficient water supply or reduced water pressure in the medical execution process, and the accuracy and the stability of the water in the hospital are improved;

analyzing medical execution in the hospital, wherein the medical execution is represented as operation in the hospital, such as operation, ward round or medical appliance cleaning; acquiring the increase of the running time water consumption of the medical execution in the hospital and the required water consumption of the corresponding medical execution, and comparing the increase of the running time water consumption of the medical execution in the hospital and the required water consumption of the corresponding medical execution with a water increase threshold and a required water consumption threshold respectively:

if the water consumption increase exceeds the water consumption increase threshold value at the running time of the medical execution in the hospital or the water consumption required by the corresponding medical execution exceeds the water consumption threshold value required by the medical execution in the hospital, judging that the medical execution running process in the hospital has high water demand, and marking the corresponding medical execution as high-water-demand execution; if the water consumption increase amount does not exceed the water consumption increase amount threshold value at the running time of the medical execution in the hospital and the required water consumption corresponding to the medical execution does not exceed the required water consumption threshold value, judging that the medical execution running process in the hospital has low water requirement, and marking the corresponding medical execution as low water requirement execution;

analyzing the water use time period of the hospital, collecting the quantity of the high-demand water execution real-time operation corresponding to the water use time in the water use time period and the quantity ratio of the high-demand water execution waiting operation to the waiting end corresponding to the adjacent time of the current water use time, and comparing the quantity of the high-demand water execution real-time operation corresponding to the water use time in the water use time period and the quantity ratio of the high-demand water execution waiting operation to the waiting end corresponding to the adjacent time of the current water use time with a real-time operation quantity threshold and an execution quantity ratio threshold respectively:

if the number of the real-time operations executed by the high-demand water corresponding to the water use time in the water use time period exceeds a real-time operation number threshold, or the number ratio of the execution to-be-executed to-be-ended of the high-demand water corresponding to the adjacent time of the current water use time exceeds an execution number ratio threshold, judging that the water use strength of the current water use time period is high, generating a high-strength water use signal, sending the high-strength water use signal to a server, reserving the water supply amount in the application water time period after the server receives the high-strength water use signal, and guaranteeing the water supply amount and the water supply pressure of the application water time period;

if the number of the real-time operations executed by the high-demand water corresponding to the water using time in the water using time period does not exceed the threshold value of the number of the real-time operations, and the ratio of the number of the to-be-executed operations to the to-be-ended operations corresponding to the high-demand water corresponding to the adjacent time of the current water using time does not exceed the threshold value of the ratio of the number of the to-be-executed operations, judging that the water using intensity in the current water using time period is low, generating a low-intensity water using signal, transmitting the low-intensity water using signal to a server, receiving the low-intensity water using signal by the server, and reducing the reserved water supply of the corresponding water using time period;

after the reserved water supply amount of the corresponding time period in the medical water consumption process is determined, the server generates a water supply pipeline analysis signal and sends the water supply pipeline analysis signal to the water supply pipeline analysis unit, the water supply pipeline analysis unit analyzes the water supply pipeline in the hospital after receiving the water supply pipeline analysis signal, and judges the influence risk of the water supply quality in the water supply pipeline through the water supply pipeline analysis, so that the water supply quality is accurately analyzed, the medical execution efficiency is prevented from being reduced due to the abnormal water supply quality, and the qualification of water supply is favorably ensured and the stability of medical execution is improved;

analyzing the water supply pipeline in the hospital, collecting the quantity of the bent positions of the pipelines in the corresponding water supply pipeline required length and the water accumulated quantity of the joints of the pipelines in the corresponding water supply pipeline, and comparing the quantity of the bent positions of the pipelines in the corresponding water supply pipeline required length and the water accumulated quantity of the joints of the pipelines in the corresponding water supply pipeline with a threshold value of the quantity of the bent positions and a threshold value of the water accumulated quantity respectively:

if the number of the bent positions of the pipelines in the required length of the corresponding water supply pipeline exceeds the threshold value of the number of the bent positions or the water accumulation amount of the connecting positions of the pipelines in the corresponding water supply pipeline exceeds the threshold value of the water accumulation amount, judging that the water supply efficiency of the water supply pipeline is low and the water loss in the pipelines is large and easy to deteriorate, so that the water quality of the water supply is influenced, generating an abnormal water supply pipeline analysis signal, sending the abnormal water supply pipeline analysis signal to a server, after receiving the abnormal water supply pipeline analysis signal, the server controls the corresponding medical execution, selects proper water supply points according to the positions of the real-time medical execution, and on the premise that the water supply points are consistent, the cleaning force of the water supply pipeline is enhanced, and the cleaning period of the pipeline is shortened;

if the number of the bent positions of the pipelines in the required length of the corresponding water supply pipeline is not more than the threshold value of the number of the bent positions and the water accumulated quantity of the connecting positions of the pipelines in the corresponding water supply pipeline is not more than the threshold value of the water accumulated quantity, judging that the water supply efficiency of the water supply pipeline is normal, generating a water supply pipeline analysis normal signal and sending the water supply pipeline analysis normal signal to a server;

after the water supply pipeline is normally analyzed, the server generates a real-time water analysis signal and sends the real-time water analysis signal to the real-time water analysis unit, and after the real-time water analysis unit receives the real-time water analysis signal, the real-time water analysis unit analyzes the real-time water in the hospital and judges whether the medical water is wasted or not, so that the water utilization efficiency is monitored, and the water utilization efficiency is prevented from being reduced due to the water consumption; the use quality and the use efficiency of the medical water are improved;

a rectangular coordinate is built by taking a medical water use time period as an X axis and medical water use as a Y axis, a water use curve is built according to the water use at each moment in the medical water use time period, a water use peak value moment and a water use valley value moment are obtained according to the water use curve, the time from the water use peak value moment to the water use valley value moment are marked as a relieving time period, and the time from the water use valley value moment to the water use peak value moment are marked as an aggravating time period;

the method comprises the steps of collecting the reduction speed of the quantity of high-demand water execution and the average time length reduction quantity corresponding to the high-demand water execution in a release time period, and comparing the reduction speed of the quantity of high-demand water execution and the average time length reduction quantity corresponding to the high-demand water execution in the release time period with a reduction speed threshold and a time length reduction quantity threshold respectively:

if the reduction speed of the quantity of the high-demand water execution in the alleviation time period exceeds the reduction speed threshold value and the average duration reduction amount of the corresponding high-demand water execution exceeds the duration reduction amount threshold value, judging that the real-time water use analysis in the corresponding alleviation time period is qualified, generating a alleviation water use analysis qualified signal and sending the alleviation water use analysis qualified signal to a server;

if the reduction speed of the quantity of the high-demand water execution in the alleviation time period does not exceed the reduction speed threshold, or the reduction amount of the average duration of the corresponding high-demand water execution does not exceed the duration reduction amount threshold, judging that the real-time water consumption analysis in the corresponding alleviation time period is unqualified, generating a alleviation water consumption analysis unqualified signal and sending the alleviation water consumption analysis unqualified signal to a server, detecting water consumption except medical execution in the corresponding alleviation time period after the server receives the water consumption analysis unqualified signal, and analyzing a water consumption terminal which is converted from a water consumption state to a water consumption stopping state in the alleviation time period, namely analyzing by a water consumption user or equipment, and judging whether water consumption or excessive phenomenon exists;

the span value of the high demand execution quantity in the aggravating time period and the high demand quantity delayed in the real-time operation time length are acquired, and the span value of the high demand execution quantity in the aggravating time period and the high demand quantity delayed in the real-time operation time length are respectively compared with a span value threshold and a high demand quantity threshold:

if the span value of the high demand execution quantity in the aggravated time period exceeds the span value threshold, or if the high demand quantity delayed in the real-time operation time period exceeds the high demand quantity threshold, judging that the water analysis in the aggravated time period is qualified, generating aggravated water analysis qualified signals and sending the aggravated water analysis qualified signals to a server;

if the span value of the high demand execution quantity in the aggravating time period does not exceed the span value threshold value and the high demand quantity delayed in the real-time operation time period does not exceed the high demand quantity threshold value, judging that the water analysis in the aggravating time period is unqualified, generating an aggravating water analysis unqualified signal and sending the aggravating water analysis unqualified signal to a server, detecting water except medical execution in the corresponding aggravating time period after the aggravating water analysis unqualified signal is received by the server, and analyzing a water terminal which is converted from an unused water state to an initial water state in the aggravating time period;

the server generates a remote monitoring error analysis signal and sends the remote monitoring error analysis signal to the remote monitoring error analysis unit, and after the remote monitoring error analysis unit receives the remote monitoring error analysis signal, the remote monitoring of the medical water is analyzed, the remote monitoring error is analyzed, the qualified efficiency of the remote monitoring is ensured, and the remote monitoring is prevented from having errors, so that the remote monitoring efficiency is low and the accuracy is low;

the method comprises the steps of collecting the buffer time required by monitoring data transmission in the medical water remote monitoring process and the numerical floating value of corresponding monitoring data in the buffer time required by the corresponding data transmission, and comparing the buffer time required by the monitoring data transmission in the medical water remote monitoring process and the numerical floating value of corresponding monitoring data in the buffer time required by the corresponding data transmission with a threshold value of the buffer time required by the corresponding data transmission and a threshold value of the numerical floating value respectively: the monitoring data are expressed as monitoring parameters of medical water, such as water consumption, component content in the water and the like;

if the data transmission required buffering time exceeds a required buffering time threshold in the medical water remote monitoring process or the numerical floating value of the corresponding monitoring data exceeds a numerical floating value threshold in the corresponding data transmission required buffering time, judging that the current medical water remote monitoring error analysis is unqualified, generating a high error monitoring signal and sending the high error monitoring signal to a server; after receiving the high-error monitoring signal, the server manages and controls the buffer time required by data transmission corresponding to the medical water remote monitoring process, and influences the buffer time required by low data transmission on monitoring data;

if the buffer time required by the monitoring data transmission in the medical water remote monitoring process does not exceed the buffer time threshold, and the numerical floating value of the corresponding monitoring data in the corresponding data transmission buffer time does not exceed the numerical floating value threshold, judging that the current medical water remote monitoring error analysis is qualified, generating a low-error monitoring signal and sending the low-error monitoring signal to a server;

when the medical water consumption monitoring system is used, the medical water consumption intensity analysis unit is used for analyzing the real-time water consumption intensity in a hospital, the medical execution in the hospital is analyzed, the medical execution is divided into high-water-demand execution and low-water-demand execution through analysis, the water consumption time period of the hospital is analyzed, and a high-intensity water consumption signal and a low-intensity water consumption signal are generated through the analysis of the water consumption time period and are sent to the server; analyzing the water supply pipeline in the hospital by a water supply pipeline analysis unit, judging the influence risk of the water quality of the water supply in the water supply pipeline by the water supply pipeline analysis, analyzing the water supply pipeline in the hospital, generating a water supply pipeline analysis abnormal signal and a water supply pipeline analysis normal signal by the analysis, and sending the water supply pipeline analysis abnormal signal and the water supply pipeline analysis normal signal to a server; analyzing the real-time water in the hospital by a real-time water analysis unit, judging whether the medical water is wasted, acquiring a relief time period and a aggravation time period in the medical water time period, correspondingly generating a relief water analysis qualified signal and a relief water analysis unqualified signal by analyzing the relief time period, generating a aggravation water analysis qualified signal and a aggravation water analysis unqualified signal by analyzing the aggravation time period, and transmitting the signals to a server; the remote monitoring of the medical water is analyzed by a remote monitoring error analysis unit, and a high error monitoring signal and a low error monitoring signal are generated by analysis and sent to a server.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (7)

1. The utility model provides a medical water remote monitoring management and control system which characterized in that includes the server, and the server communication is connected with:

the medical water intensity analysis unit is used for analyzing the real-time water intensity in the hospital, analyzing the medical execution in the hospital, dividing the medical execution into high-water-demand execution and low-water-demand execution through analysis, analyzing the water use time period of the hospital, generating a high-intensity water use signal and a low-intensity water use signal through the analysis of the water use time period, and sending the high-intensity water use signal and the low-intensity water use signal to the server;

the water supply pipeline analysis unit is used for analyzing the water supply pipeline in the hospital, judging the influence risk of the water quality of the water supply in the water supply pipeline through the water supply pipeline analysis, analyzing the water supply pipeline in the hospital, generating a water supply pipeline analysis abnormal signal and a water supply pipeline analysis normal signal through the analysis, and sending the water supply pipeline analysis abnormal signal and the water supply pipeline analysis normal signal to the server;

the real-time water analysis unit is used for analyzing the real-time water in the hospital, judging whether the medical water is wasted, acquiring a relief time period and a aggravation time period in the medical water time period, correspondingly generating a relief water analysis qualified signal and a relief water analysis unqualified signal through the relief time period analysis, generating a aggravation water analysis qualified signal and a aggravation water analysis unqualified signal through the aggravation time period analysis, and transmitting the signals to the server;

and the remote monitoring error analysis unit is used for analyzing the remote monitoring of the medical water, generating a high error monitoring signal and a low error monitoring signal through analysis, and sending the high error monitoring signal and the low error monitoring signal to the server.

2. The remote monitoring and control system for medical water according to claim 1, wherein the medical water intensity analysis unit operates as follows:

the method comprises the steps of collecting the increase of water consumption in running time of medical execution in a hospital and the required water consumption of corresponding medical execution, and comparing the increase of water consumption with a water consumption increase threshold and a required water consumption threshold respectively:

if the water consumption increase exceeds the water consumption increase threshold value at the running time of medical execution in the hospital or the required water consumption of the corresponding medical execution exceeds the required water consumption threshold value, marking the corresponding medical execution as high-water-requirement execution; and if the water consumption increase amount in the running time of the medical execution in the hospital does not exceed the water consumption increase amount threshold value and the required water consumption of the corresponding medical execution does not exceed the required water consumption threshold value, marking the corresponding medical execution as low-water-required execution.

3. The medical water remote monitoring and control system according to claim 2, wherein the analysis process of the water use time period of the hospital is as follows:

the method comprises the steps of collecting the quantity of the high-demand water execution real-time operation corresponding to the water consumption time in the water consumption time period and the quantity ratio of the high-demand water execution waiting operation to the waiting end corresponding to the adjacent time of the current water consumption time, and comparing the quantity ratio with a real-time operation quantity threshold and an execution quantity ratio threshold respectively:

if the quantity of the high-demand water execution real-time operation corresponding to the water use time exceeds a real-time operation quantity threshold value in the water use time period, or the quantity ratio of the high-demand water execution waiting operation to the waiting end corresponding to the adjacent time of the current water use time exceeds an execution quantity ratio threshold value, generating a high-strength water use signal and sending the high-strength water use signal to a server; if the number of the real-time running corresponding to the high water demand at the water use time in the water use time period does not exceed the real-time running number threshold, and the number ratio of the high water demand to the end to be executed at the adjacent time of the current water use time does not exceed the execution number ratio threshold, generating a low-intensity water use signal and sending the low-intensity water use signal to the server.

4. The remote monitoring and control system for medical water according to claim 1, wherein the water supply pipeline analysis unit operates as follows:

collecting the quantity of the bent parts of the pipelines in the required length of the corresponding water supply pipelines and the water accumulated quantity of the connecting parts of the pipelines in the corresponding water supply pipelines, and comparing the quantity of the water accumulated quantity with a threshold value of the quantity of the bent parts and a threshold value of the water accumulated quantity respectively:

if the number of the bent positions of the pipelines in the required length of the corresponding water supply pipeline exceeds the threshold value of the number of the bent positions or the water accumulation amount of the connecting positions of the pipelines in the corresponding water supply pipeline exceeds the threshold value of the water accumulation amount, generating an analysis abnormal signal of the water supply pipeline and sending the analysis abnormal signal of the water supply pipeline to a server; if the number of the bent positions of the pipelines in the required length of the corresponding water supply pipeline is not greater than the threshold value of the number of the bent positions and the water storable quantity of the connecting positions of the pipelines in the corresponding water supply pipeline is not greater than the threshold value of the water storable quantity, generating a water supply pipeline analysis normal signal and sending the water supply pipeline analysis normal signal to the server.

5. The remote monitoring and control system for medical water according to claim 1, wherein the real-time water analysis unit operates as follows:

a rectangular coordinate is built by taking a medical water use time period as an X axis and medical water use as a Y axis, a water use curve is built according to the water use at each moment in the medical water use time period, a water use peak value moment and a water use valley value moment are obtained according to the water use curve, the time from the water use peak value moment to the water use valley value moment are marked as a relieving time period, and the time from the water use valley value moment to the water use peak value moment are marked as an aggravating time period;

the reduction speed of the quantity of the high-demand water execution and the average duration reduction amount of the corresponding high-demand water execution in the relieving time period are acquired and compared with a reduction speed threshold and a duration reduction amount threshold respectively:

if the reduction speed of the quantity of the high-demand water execution exceeds the reduction speed threshold value in the alleviation time period and the average duration reduction amount of the corresponding high-demand water execution exceeds the duration reduction amount threshold value, generating a alleviation water analysis qualified signal and sending the alleviation water analysis qualified signal to a server; and if the reduction speed of the quantity of the high-demand water execution in the alleviation time period does not exceed the reduction speed threshold value, or the average duration reduction amount of the corresponding high-demand water execution does not exceed the duration reduction amount threshold value, generating a alleviation water analysis disqualification signal and sending the alleviation water analysis disqualification signal to a server.

6. The system of claim 5, wherein span values of the number of high demand executions and the number of high demand delayed in real-time operation time periods during the aggravated time period are collected and compared with span value thresholds and high demand number thresholds, respectively:

if the span value of the high demand execution quantity in the aggravated time period exceeds the span value threshold, or if the high demand quantity delayed in the real-time operation time length exceeds the high demand quantity threshold, generating aggravated water analysis qualified signals and sending the aggravated water analysis qualified signals to a server; if the span value of the high demand execution number in the aggravated time period does not exceed the span value threshold value and the high demand number delayed in the real-time operation time period does not exceed the high demand number threshold value, generating aggravated water analysis disqualification signals and sending aggravated water analysis disqualification signals to the server.

7. The remote monitoring and controlling system for medical water according to claim 1, wherein the remote monitoring error analyzing unit operates as follows:

the method comprises the steps of collecting the data transmission required buffering time and the numerical value floating value of corresponding monitoring data in the corresponding data transmission required buffering time in the medical water remote monitoring process, and comparing the data transmission required buffering time with a required buffering time threshold value and a numerical value floating value threshold value respectively:

if the buffer time required by the monitoring data transmission exceeds the buffer time threshold in the medical water remote monitoring process, or the numerical floating value of the corresponding monitoring data exceeds the numerical floating value threshold in the corresponding data transmission buffer time, generating a high-error monitoring signal and sending the high-error monitoring signal to a server; if the buffer time required for monitoring data transmission does not exceed the buffer time threshold in the medical water remote monitoring process and the numerical floating value of the corresponding monitoring data in the buffer time required for the corresponding data transmission does not exceed the numerical floating value threshold, generating a low-error monitoring signal and sending the low-error monitoring signal to a server.

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