CN115472277A - Medical water remote monitoring management and control system - Google Patents

Abstract

The invention discloses a remote monitoring and control system for medical water, which relates to the technical field of remote monitoring and control of water consumption and comprises a server, wherein the server is in communication connection with a medical water intensity analysis unit, a water supply pipeline analysis unit, a real-time water consumption analysis unit and a remote monitoring error analysis unit; the invention analyzes the real-time water use intensity in the hospital, reasonably schedules the water use, prevents 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 use in the hospital; still carry out the analysis with water supply pipe in the hospital to judge the influence risk of water supply quality of water in the water supply pipe through water supply pipe analysis, carry out accurate analysis to water supply quality of water, prevent that water supply quality of water from leading to the medical execution efficiency to reduce unusually, be favorable to guaranteeing the qualification of water supply and improve the stability of medical execution.

Description

Medical water remote monitoring management and control system

Technical Field

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

Background

The general municipal tap water or other water sources in hospitals are used as raw water, after pretreatment and reverse osmosis treatment, part of the raw water is made into product water with single water quality, and the product water is supplied to each clinical demand department or department through a pipeline, the demand of the medical industry on the water quality is particularly high, and the water quality condition is closely related to the diagnosis and treatment safety;

however, in the prior art, the intensity of water used in a hospital cannot be accurately analyzed, so that the accuracy of the water use cannot be guaranteed, the water use efficiency cannot be monitored, and whether the water waste phenomenon exists or not cannot be judged while the water is used, so that the water use efficiency is low;

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

Disclosure of Invention

The invention aims to solve the problems, and provides a remote monitoring and control system for medical water, which analyzes the real-time water use strength in a hospital, reasonably schedules water to prevent the medical execution from being influenced due to insufficient water supply or water pressure reduction in the medical execution process, and is favorable for improving the accuracy and stability of the water used in the hospital; still carry out the analysis with water supply pipe in the hospital to through the influence risk of water supply pipe analysis judgement water supply quality of water in the water supply pipe, carry out accurate analysis to water supply quality of water, prevent that water supply quality of water from unusually resulting in the medical execution efficiency to reduce, be favorable to guaranteeing the qualification nature of water supply and improve the stability of medical execution.

The purpose of the invention can be realized by the following technical scheme:

the utility model provides a medical treatment 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 a hospital, analyzing medical execution in the hospital, dividing the medical execution into high water demand execution and low water demand execution through analysis, analyzing the water consumption time period in the hospital, generating a high-intensity water consumption signal and a low-intensity water consumption signal through analysis of the water consumption time period, and sending the signals to the server;

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

the real-time water analysis unit is used for analyzing real-time water in a hospital, judging whether medical water is wasted or not, acquiring a relief time period and a aggravation time period in the medical water time period, correspondingly generating a qualified analysis signal of the relief water and a unqualified analysis signal of the relief water by analyzing the relief time periods, generating a qualified analysis signal of the aggravated water and a unqualified analysis signal of the aggravated water by analyzing the aggravated time period, and sending the qualified analysis signal of the aggravated water and the unqualified analysis signal of the aggravated water 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 strength analysis unit is as follows:

the method comprises the following steps of collecting the water consumption increasing amount of medical execution in a hospital at the running time and the required water consumption corresponding to the medical execution, and comparing the water consumption increasing amount with a water consumption increasing amount threshold value and a required water consumption threshold value respectively:

if the water consumption increment at the running time of medical execution in the hospital exceeds the water consumption increment threshold value, 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 demand execution; and if the water consumption increasing amount at the operation time of medical execution in the hospital does not exceed the water consumption increasing 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 demand execution.

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

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

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

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

the quantity of the bends of the pipelines in the required length of each medical execution corresponding water supply pipeline and the pondable water quantity of the joints of the pipelines in the corresponding water supply pipeline are collected and compared with the quantity threshold value of the bends and the pondable water quantity threshold value respectively:

if the quantity of the bent parts of the pipelines in the required length of the corresponding water supply pipeline exceeds a threshold value of the quantity of the bent parts or the quantity of the accumulated water at the joints of the pipelines in the corresponding water supply pipeline exceeds a threshold value of the accumulated water quantity, 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 quantity of the bent parts of the pipelines does not exceed the quantity threshold of the bent parts in the required length of the corresponding water supply pipeline in the medical execution, and the pondable quantity of the joints of the pipelines in the corresponding water supply pipeline does not exceed the pondable quantity threshold, generating normal analysis signals of the water supply pipeline and sending the normal analysis signals of the water supply pipeline to a server.

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

establishing a rectangular coordinate by taking the medical water using time period as an X axis and the medical water using amount as a Y axis, establishing a water using amount curve according to the water using amount at each moment in the medical water using time period, acquiring the peak value moment and the valley value moment of the water using amount according to the water using amount curve, marking the moment from the peak value moment of the water using amount to the valley value moment of the water using amount as a relieving time period, and marking the moment from the valley value moment of the water using amount to the peak value moment of the water using amount as an aggravating time period;

acquiring the quantity reduction speed of high water demand execution and the average duration reduction amount corresponding to the high water demand execution in the relieving time period, and comparing the quantity reduction speed with a reduction speed threshold value and a duration reduction amount threshold value respectively:

if the quantity reduction speed of the high water demand executions in the relieving time period exceeds a reduction speed threshold value and the average duration reduction amount of the corresponding high water demand executions exceeds a duration reduction amount threshold value, generating a water use analysis qualified signal for relieving and sending the water use analysis qualified signal for relieving to a server; and if the quantity reduction speed of the high water demand executions in the relieving time period does not exceed the reduction speed threshold value, or the average duration reduction amount of the corresponding high water demand executions does not exceed the duration reduction amount threshold value, generating a disqualified water analysis relieving signal and sending the disqualified water analysis relieving signal to the server.

As a preferred embodiment of the present invention, a span value of the high-demand execution quantity in the aggravation time period and a high-demand quantity of the occurrence delay of the real-time operation duration are collected and compared with a span value threshold and a high-demand quantity threshold, respectively:

if the span value of the high-demand execution quantity in the aggravation time period exceeds a span value threshold value, or the high-demand quantity delayed in the real-time running time period exceeds a high-demand quantity threshold value, generating an aggravated water consumption analysis qualified signal and sending the aggravated water consumption analysis qualified signal to a server; and if the span value of the high-demand execution quantity in the aggravation time period does not exceed the span value threshold value and the high-demand quantity delayed in the real-time running time does not exceed the high-demand quantity threshold value, generating an unqualified aggravated water consumption analysis signal and sending the unqualified aggravated water consumption analysis signal to the server.

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

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

if the buffering time required for monitoring data transmission exceeds the buffering time threshold value in the remote monitoring process of the medical water, or the numerical floating value of the corresponding monitoring data in the buffering time required for corresponding data transmission exceeds the numerical floating value threshold value, generating a high-error monitoring signal and sending the high-error monitoring signal to a server; if the buffering time required for monitoring data transmission does not exceed the buffering time threshold value in the remote monitoring process of the medical water and the numerical value floating value of the corresponding monitoring data in the buffering time required for corresponding data transmission does not exceed the numerical value floating value threshold value, 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. according to the invention, the intensity of real-time water used in a hospital is analyzed, and 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, so that the accuracy and stability of the water used in the hospital are improved; the water supply pipeline in the hospital is analyzed, the influence risk of the water supply quality in the water supply pipeline is analyzed and judged through the water supply pipeline, the water supply quality is accurately analyzed, the medical execution efficiency is prevented from being reduced due to abnormal water supply quality, the water supply qualification is ensured, and the medical execution stability is improved;

2. according to the invention, real-time water use in a hospital is analyzed, whether waste of medical water exists is judged, the water use efficiency is monitored, and the water use efficiency reduction caused by water waste is prevented; the use quality and the use efficiency of the medical water are improved; the remote monitoring of the medical water is analyzed, the error of the remote monitoring is analyzed, the qualified efficiency of the remote monitoring is guaranteed, and the remote monitoring is prevented from having errors, so that the remote monitoring efficiency is low, and the accuracy is low.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

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

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood 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.

Referring to fig. 1, a remote monitoring and control system for medical water comprises a server, wherein the server is in communication connection 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 strength analysis signal and sends the medical water strength analysis signal to the medical water strength analysis unit, and the medical water strength analysis unit analyzes the real-time water strength in the hospital after receiving the medical water strength analysis signal, so that the water is reasonably scheduled to prevent the medical execution from being influenced due to insufficient water supply or water pressure reduction in the medical execution process, and the accuracy and stability of the water in the hospital are improved;

analyzing medical execution in a hospital, wherein the medical execution is represented as operation performed in the hospital, such as operation, ward round or cleaning of medical appliances; the method comprises the following steps of collecting the water consumption increase amount of medical execution in a hospital at the running time and the required water consumption corresponding to the medical execution, and comparing the water consumption increase amount of the medical execution in the hospital at the running time and the required water consumption corresponding to the medical execution with a water consumption increase threshold and a required water consumption threshold respectively:

if the water consumption increasing amount at the operation time of medical execution in the hospital exceeds the water consumption increasing amount threshold value, or the required water consumption of the corresponding medical execution exceeds the required water consumption threshold value, judging that the medical execution operation process in the hospital has high water demand, and marking the corresponding medical execution as high water demand execution; if the water consumption increasing amount does not exceed the water consumption increasing amount threshold value at the operation time of medical execution in the hospital and the required water consumption of the corresponding medical execution does not exceed the required water consumption threshold value, judging that the water is in low demand in the medical execution operation process in the hospital, and marking the corresponding medical execution as low water demand execution;

the water consumption time period of the hospital is analyzed, the number of the high water demand execution real-time operation corresponding to the water consumption time in the water consumption time period and the number ratio of the high water demand execution to be operated to be finished corresponding to the adjacent time of the current water consumption time are collected, and the number of the high water demand execution real-time operation corresponding to the water consumption time in the water consumption time period and the number ratio of the high water demand execution to be operated to be finished corresponding to the adjacent time of the current water consumption time are respectively compared with the real-time operation number threshold and the execution number ratio threshold:

if the quantity of the water consumption time corresponding to the high water demand execution real-time operation exceeds a real-time operation quantity threshold value, or the quantity ratio of the high water demand execution waiting operation to the high water demand execution waiting completion corresponding to the adjacent time of the current water consumption time exceeds an execution quantity ratio threshold value, judging that the water consumption strength of the current water consumption time is high, generating a high-strength water consumption signal and sending the high-strength water consumption signal to a server, reserving the water supply quantity in the water consumption time after the server receives the high-strength water consumption signal, and ensuring the water supply quantity and the water supply pressure in the water consumption time;

if the quantity of the real-time operation executed by the water consumption time corresponding to the high water demand does not exceed the real-time operation quantity threshold value in the water consumption time period, and the quantity ratio of the high water demand execution to-be-executed to-be-finished corresponding to the adjacent time of the current water consumption time does not exceed the execution quantity ratio threshold value, judging that the water consumption intensity of the current water consumption time period is low, generating a low-intensity water consumption signal and sending the low-intensity water consumption signal to a server, and reducing the reserved water supply quantity of the corresponding water consumption time period after the server receives the low-intensity water consumption signal;

after the reserved water supply amount in the corresponding time period in the medical water using process is determined, a server generates water supply pipeline analysis signals and sends the water supply pipeline analysis signals to a water supply pipeline analysis unit, the water supply pipeline analysis unit receives the water supply pipeline analysis signals, analyzes water supply pipelines in hospitals, and analyzes and judges the influence risk of the water supply quality in the water supply pipelines 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 abnormal water supply quality, the water supply qualification is ensured, and the medical execution stability is improved;

the water supply pipeline in the hospital is analyzed, the quantity of the bends of the pipelines in the corresponding water supply pipeline requirement length of each medical execution and the ponding quantity of each pipeline joint in the corresponding water supply pipeline are collected, and the ponding quantity of each medical execution corresponding to the quantity of the bends of the pipelines in the corresponding water supply pipeline requirement length and each pipeline joint in the corresponding water supply pipeline is compared with the threshold value of the quantity of the bends and the ponding quantity of the ponding quantity respectively:

if the quantity of the bent parts of the pipelines in the length required by the water supply pipeline corresponding to the medical execution exceeds a threshold value of the quantity of the bent parts, or the pondable quantity of water at the joints of the pipelines in the corresponding water supply pipeline exceeds a threshold value of the pondable quantity, 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 supply quality is influenced, generating an analysis abnormal signal of the water supply pipeline and sending the analysis abnormal signal of the water supply pipeline to a server, after receiving the analysis abnormal signal of the water supply pipeline, the server manages and controls the corresponding medical execution, selects a proper water supply point according to the position of the real-time medical execution, and meanwhile, on the premise of consistency of the water supply points, enhances the cleaning strength of the water supply pipeline and shortens the cleaning period of the pipeline;

if the quantity of the bent parts of the pipelines does not exceed the threshold value of the quantity of the bent parts in the required length of the corresponding water supply pipeline in the medical execution and the pondable quantity of the joints of the pipelines in the corresponding water supply pipeline does not exceed the threshold value of the pondable quantity, judging that the water supply efficiency of the water supply pipeline is normal, generating an analysis normal signal of the water supply pipeline and sending the analysis normal signal of the water supply pipeline to a server;

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

establishing a rectangular coordinate by taking the medical water using time period as an X axis and the medical water using amount as a Y axis, establishing a water using amount curve according to the water using amount at each moment in the medical water using time period, acquiring the peak value moment and the valley value moment of the water using amount according to the water using amount curve, marking the moment from the peak value moment of the water using amount to the valley value moment of the water using amount as a relieving time period, and marking the moment from the valley value moment of the water using amount to the peak value moment of the water using amount as an aggravating time period;

acquiring the quantity reduction speed of high water demand execution and the average duration reduction amount corresponding to the high water demand execution in the relieving time period, and comparing the quantity reduction speed of the high water demand execution and the average duration reduction amount corresponding to the high water demand execution in the relieving time period with a reduction speed threshold and a duration reduction amount threshold respectively:

if the quantity reduction speed of the high water demand executions in the relieving time period exceeds a reduction speed threshold and the average time length reduction quantity of the corresponding high water demand executions exceeds a time length reduction quantity threshold, judging that the real-time water consumption analysis is qualified in the corresponding relieving time period, generating a relieving water consumption analysis qualified signal and sending the relieving water consumption analysis qualified signal to a server;

if the quantity reduction speed of the high water demand executions in the relieving time period does not exceed the reduction speed threshold value or the average time length reduction quantity of the corresponding high water demand executions does not exceed the time length reduction quantity threshold value, judging that the real-time water consumption analysis in the corresponding relieving time period is unqualified, generating a water consumption analysis alleviation unqualified signal and sending the water consumption alleviation analysis unqualified signal to a server, detecting the water consumption except the medical execution in the corresponding relieving time period after the server receives the water consumption analysis unqualified signal, analyzing the water consumption terminal which is changed from the water consumption state to the water stop state in the relieving time period, namely analyzing by using water users or equipment, and judging whether the water consumption or excess phenomenon exists;

collecting the span value of the high-demand execution quantity in the aggravation time period and the high-demand quantity delayed in the real-time operation time period, and comparing the span value of the high-demand execution quantity in the aggravation time period and the high-demand quantity delayed in the real-time operation time period with a span value threshold and a high-demand quantity threshold respectively:

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

if the span value of the high-demand execution quantity in the aggravation time period does not exceed the span value threshold value and the high-demand quantity delayed in the real-time running time period does not exceed the high-demand quantity threshold value, judging that the water consumption analysis in the aggravation time period is unqualified, generating an aggravation water consumption analysis unqualified signal and sending the aggravation water consumption analysis unqualified signal to a server, detecting the water consumption except for medical execution in the corresponding aggravation time period after the server receives the aggravation water consumption analysis unqualified signal, and analyzing the water consumption terminal which is changed from the non-water consumption state to the initial water consumption state in the aggravation 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 the remote monitoring error analysis unit analyzes the remote monitoring of the medical water after receiving the remote monitoring error analysis signal, analyzes the remote monitoring error, ensures the qualified efficiency of the remote monitoring, and prevents the remote monitoring from having errors so as to cause low remote monitoring efficiency and low accuracy;

the numerical floating value of the corresponding monitoring data in the buffering time required by the transmission of the monitoring data and the buffering time required by the corresponding data transmission in the remote monitoring process of the medical water is acquired, and the numerical floating value of the corresponding monitoring data in the buffering time required by the transmission of the monitoring data and the buffering time required by the corresponding data transmission in the remote monitoring process of the medical water is respectively compared with the threshold value of the buffering time required and the threshold value of the numerical floating value: the monitoring data is expressed as monitoring parameters of medical water, such as water consumption, water component content and the like;

if the time required for buffering during the transmission of the monitoring data exceeds the threshold value of the time required for buffering in the remote monitoring process of the medical water, or the numerical floating value of the corresponding monitoring data within the time required for buffering corresponding to the data transmission exceeds the threshold value of the numerical floating value, judging that the remote monitoring error analysis of the current medical water 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 data transmission buffering time corresponding to the medical water remote monitoring process, and influences the low data transmission buffering time on the monitoring data;

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

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

The preferred embodiments of the invention disclosed above are intended to be illustrative only. 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 the invention for and utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (7)

1. The utility model provides a medical treatment 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 a hospital, analyzing medical execution in the hospital, dividing the medical execution into high water demand execution and low water demand execution through analysis, analyzing the water consumption time period in the hospital, generating a high-intensity water consumption signal and a low-intensity water consumption signal through analysis of the water consumption time period, and sending the signals to the server;

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

the real-time water analysis unit is used for analyzing real-time water in a hospital, judging whether medical water is wasted or not, acquiring a relief time period and a aggravation time period in the medical water time period, correspondingly generating a qualified analysis signal of the relief water and a unqualified analysis signal of the relief water by analyzing the relief time periods, generating a qualified analysis signal of the aggravated water and a unqualified analysis signal of the aggravated water by analyzing the aggravated time period, and sending the qualified analysis signal of the aggravated water and the unqualified analysis signal of the aggravated water 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 operation process of the medical water intensity analysis unit is as follows:

the method comprises the following steps of collecting the water consumption increasing amount of medical execution in a hospital at the running time and the required water consumption corresponding to the medical execution, and comparing the water consumption increasing amount with a water consumption increasing amount threshold value and a required water consumption threshold value respectively:

if the water consumption increasing amount at the operation time of medical execution in the hospital exceeds the water consumption increasing amount threshold value, 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 demand execution; and if the water consumption increasing amount at the operation time of medical execution in the hospital does not exceed the water consumption increasing 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 demand execution.

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

the method comprises the following steps of collecting the quantity of real-time operation executed by corresponding to high water demand at a water using time in a water using time period and the quantity ratio of the high water demand execution to be operated to be finished at the adjacent time of the current water using time, and comparing the quantity ratio with a real-time operation quantity threshold and an execution quantity ratio threshold respectively:

if the number of the high water demand execution real-time operation corresponding to the water consumption time exceeds a real-time operation number threshold value in the water consumption time period, or the number ratio of the high water demand execution to-be-executed operation to-be-finished corresponding to the adjacent time of the current water consumption time exceeds an execution number ratio threshold value, generating a high-strength water consumption signal and sending the high-strength water consumption signal to a server; if the quantity of the water consumption time corresponding to the high water demand execution real-time operation does not exceed the real-time operation quantity threshold value within the water consumption time period, and the quantity ratio of the high water demand execution to-be-operated time to-be-finished time corresponding to the adjacent time of the current water consumption time does not exceed the execution quantity ratio threshold value, generating a low-intensity water consumption signal and sending the low-intensity water consumption 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:

the quantity of the bends of the pipelines in the required length of each medical execution corresponding water supply pipeline and the pondable water quantity of the joints of the pipelines in the corresponding water supply pipeline are collected and compared with the quantity threshold value of the bends and the pondable water quantity threshold value respectively:

if the quantity of the bent parts of the pipelines in the required length of the corresponding water supply pipeline exceeds a threshold value of the quantity of the bent parts or the pondable quantity of the pondable water at the connection part of each pipeline in the corresponding water supply pipeline exceeds a threshold value of the pondable water, generating an analysis abnormal signal of the water supply pipeline and sending the analysis abnormal signal of the water supply pipeline to a server in the medical execution; if the quantity of the bent parts of the pipelines in the required length of the corresponding water supply pipeline does not exceed the quantity threshold of the bent parts in the medical execution and the ponding quantity of the joints of the pipelines in the corresponding water supply pipeline does not exceed the ponding quantity threshold, generating a water supply pipeline analysis normal signal and sending the water supply pipeline analysis normal signal to the server.

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

establishing a rectangular coordinate by taking the medical water using time period as an X axis and the medical water using amount as a Y axis, establishing a water using amount curve according to the water using amount at each moment in the medical water using time period, acquiring the peak value moment and the valley value moment of the water using amount according to the water using amount curve, marking the moment from the peak value moment of the water using amount to the valley value moment of the water using amount as a relieving time period, and marking the moment from the valley value moment of the water using amount to the peak value moment of the water using amount as an aggravating time period;

acquiring the quantity reduction speed of high water demand execution and the average duration reduction amount corresponding to the high water demand execution in the relieving time period, and comparing the quantity reduction speed with a reduction speed threshold value and a duration reduction amount threshold value respectively:

if the quantity reduction speed of the high water demand executions in the relieving time period exceeds a reduction speed threshold value and the average duration reduction amount of the corresponding high water demand executions exceeds a duration reduction amount threshold value, generating a water use analysis qualified signal for relieving and sending the water use analysis qualified signal for relieving to a server; and if the quantity reduction speed of the high water demand executions in the relieving time period does not exceed the reduction speed threshold value, or the average duration reduction amount of the corresponding high water demand executions does not exceed the duration reduction amount threshold value, generating a disqualified water analysis relieving signal and sending the disqualified water analysis relieving signal to the server.

6. The remote monitoring and control system for medical water according to claim 5, wherein a span value of the execution quantity with high demand in an aggravation time period and a quantity with high demand with delay in real-time operation time period are collected and compared with a span value threshold and a quantity with high demand threshold respectively:

if the span value of the high-demand execution quantity in the aggravation time period exceeds a span value threshold value, or the high-demand quantity delayed in the real-time running time exceeds a high-demand quantity threshold value, generating a aggravated water consumption analysis qualified signal and sending the aggravated water consumption analysis qualified signal to a server; and if the span value of the high-demand execution quantity in the aggravation time period does not exceed the span value threshold value and the high-demand quantity delayed in the real-time running time does not exceed the high-demand quantity threshold value, generating an unqualified aggravated water consumption analysis signal and sending the unqualified aggravated water consumption analysis signal to the server.

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

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

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

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