CN109682957A

CN109682957A - Body fluid signaling monitoring system based on remote data acquisition

Info

Publication number: CN109682957A
Application number: CN201811569279.XA
Authority: CN
Inventors: 不公告发明人
Original assignee: Individual
Current assignee: Individual
Priority date: 2016-01-24
Filing date: 2016-01-24
Publication date: 2019-04-26
Also published as: CN109682956A; CN105571907A; CN105571907B

Abstract

The present invention relates to liquid collecting container and long-range control method, the device for being collected and storing more specifically to the body fluid of a kind of couple of discharged body.Body fluid signaling monitoring system based on remote data acquisition, including cavity, inflow pipe, delivery pipe, outflow solenoid valve, check valve, flow valve；The top setting of the cavity flows into mechanism, the lower part setting outflow mechanism of the cavity；The check valve is located at the top of the flow valve；In the middle position of the cavity, band is set；Link is arranged in the top of the cavity, and electronic scale is arranged on the link, and band is arranged in the middle position of the cavity.The body fluid signaling monitoring system based on remote data acquisition is used to store body fluid, is also used for sampling body fluid, meanwhile, the information such as the flow of body fluid are monitored, assist healthcare givers to formulate more scientific therapeutic scheme by long-range control method.

Description

Body fluid signaling monitoring system based on remote data acquisition

Technical field

The present invention is divisional application, and the application number of female case is: 2016100495588.The present invention relates to liquid collecting containers And long-range control method, the device for being collected and storing more specifically to the body fluid of a kind of couple of discharged body.

Background technique

Patient body fluid such as urine and splanchnocoel drainage-fluid, etc. can by taking the urine collecting device material for collecting Urine in Patients as an example It is largely seen in disclosed Chinese patent literature, slightly to enumerate such as CN1282451C (medical semi-automatic urine metering storage Device), ZL02123886.3 (medical semi-automatic urine metering storing apparatus), ZL91225245.6 (disposable metering plastics urine Bag), ZL94242826.9 (disposable delicate metering double-cavity urine drainage device), ZL97211613.3 (a kind of metering urine bottle), ZL99209573.5 (Urinary measuring bottle), ZL01225226.3 (urinal of accurate measurement) and ZL01268645.X (urine metering Device), etc..For collecting the equipment of drainage-fluid of splanchnocoel postoperative patient, such as CN2588988Y (Y type drainage bag), CN2403425 (functional drain bag) and CN202113476U (drainage bag), etc..

Above-mentioned urine collection bag and drainage bag due to being with similitude, thus in many situations in working principle and structure It can be general.Wherein: in order to embody the financial burden for economizing on resources and reducing use cost to mitigate patient, most of body fluid It collects metering device to occur in the form of plastic film, in particular, bag body uses plastic sheeting making, and in the upper of bag body Drainage line is arranged in end, and bleeder valve is arranged in the bottom end of bag body.In addition, usually existing to grasp the amount of the intracorporal body fluid of bag Scale mark is arranged in the one or both sides of bag body.

It is not limited to the generally existing following drawback of patient body fluid collection device exemplified above: first is that since bleeder valve cannot It is coupled with metering device such as metering pump, thus influences medical worker to the accurate assurance of patient body fluid amount, final influence is to patient Medication therapeutic effect because doctor is to patient medication and patient's drain degree and lifting rate, there are causalities, although in bag Graduation mark is provided on body, but often mismatch is larger by graduation mark observation；Second is that due to lacking in bag body to bleeder valve pipe The component of beam, thus tapping valve usually fine and soft draw and be stretched over bag along outer, then in the links such as packaging, transport and storage easily Tapping valve is undermined, and interference effect also is generated to surrounding objects during clinical use；Third is that due to usually by drainage tube Road and bleeder valve are combined as a whole in bag body manufacturing process, therefore not only production trouble, but also exist because sealing poor fit And cause the anxiety of leakage；Fourth is that due to not having for medical worker to patient body fluid grab sample for the component of chemical examination, thus take out Body fluid sample is taken to be more troublesome.

Summary of the invention

The body fluid signaling monitoring system based on remote data acquisition that the object of the present invention is to provide a kind of, it is described to be based on The body fluid signaling monitoring system of remote data acquisition is used to that healthcare givers to be facilitated to carry out subsequent processing, institute to the body fluid of discharged body It states the body fluid signaling monitoring system based on remote data acquisition to be used to store body fluid, is also used for sampling body fluid, Meanwhile the information such as flow for monitoring body fluid, assist healthcare givers to formulate more scientific therapeutic scheme by long-range control method.

A kind of body fluid signaling monitoring system based on remote data acquisition, including cavity, scale, flow into pipe, sampling system, It flows out solenoid valve, check valve, flow valve, flow into solenoid valve；The top setting of the cavity flows into mechanism, the lower part of the cavity Setting outflow mechanism；The inflow mechanism includes: to flow into pipe, check valve, flow valve, and the inflow pipe is connected to the cavity The flow valve is arranged between inflow pipe and the cavity in top, and the flow valve is fixed on the top of the cavity, The check valve is set on the inflow pipe, the check valve is located at the top of the flow valve, the inflow pipe on The inflow solenoid valve is arranged in the top of the check valve；The outflow mechanism includes delivery pipe, outflow solenoid valve, the flow The outflow solenoid valve is set on pipe；The sampling system is managed by piping connection in the inflow, the number of the sampling system Amount is, to, the sampling system includes: sampling solenoid valve, sampling bottle, and the sampling solenoid valve is located at the upper of the sampling bottle Portion；Link is arranged in the top of the cavity, and electronic scale is arranged on the link, is arranged in the middle position of the cavity and pricks Band.

The control method of the body fluid signaling monitoring system based on remote data acquisition, including control panel, information collection Module, data processing module, valve group, GPRS module, GSM/CDMA wireless network, Internet of Things server, controlling terminal service Device, monitoring center；The control panel, information acquisition module, data processing module, GPRS module are fixed on described based on long-range number According in the body fluid signaling monitoring system of acquisition；The valve group includes outflow solenoid valve, flows into solenoid valve, sampling solenoid valve；Institute It states control panel to connect with the information acquisition module, the information acquisition module is connected with the data processing module, the number It is connected according to processing module with the valve group, the control panel is connected with the valve group, the data processing module and described GPRS module connection, the GPRS module and GSM/CDMA wireless network connection, the GSM/CDMA wireless network and Internet of Things Server connection, the Internet of Things server connects with the controlling terminal server, the controlling terminal server and described Monitoring center connection.

More specifically, the information acquisition module includes high-speed data acquisition unit, the flow valve, pH value analysis Instrument, position sensor；The flow valve, pH value analyzer, position sensor input terminal respectively with described based on long-range number According to acquisition body fluid signaling monitoring system connect, the flow valve, pH value analyzer, position sensor output end respectively and The high-speed data acquisition unit connection；The flow valve acquisition enters the flow information of the cavity, the pH value analysis Instrument acquisition enters the pH value information of the body fluid of the cavity, and the position sensor acquisition is described based on remote data acquisition The geographical location information of body fluid signaling monitoring system.

The control method of the body fluid signaling monitoring system based on remote data acquisition, includes the following steps:

1) flow valve, pH value analyzer, position sensor are by collected flow information, pH value information, geographical position Become digital signal after setting information result A/D conversion and is transferred to the information acquisition module；

2) the body fluid signaling monitoring system based on remote data acquisition executes corresponding control plan according to specific circumstances Slightly, the information acquisition module directly controls the control panel and executes corresponding movement after analyzing data；Such as: if Rapid fluctuation occurs for pH value information, then the control panel drives the sampling system to play a role, and the sampling solenoid valve is beaten It opens, carries out sampling operation, meanwhile, alarm signal is sent to the monitoring center, is notified healthcare givers to reach patient scene, is carried out Medical treatment；

3) the received data of the data processing module are packaged by data storage and screening, data encryption, data compression, data Afterwards, it is sent to GPRS module, the object is then transmitted data to by the GPRS module and the GSM/CDMA wireless network Received information is transmitted to controlling terminal server again, is ultimately delivered in monitoring by networked server, the Internet of Things server The heart；

4) after monitoring center carries out data unpacking, data decompression, data deciphering, storage to data, to flow information, pH value Information, geographical location information are analyzed；The data and analyze as foundation that healthcare givers is obtained with monitoring center, are assigned corresponding Control instruction；

5) control instruction passes through controlling terminal server, Internet of Things server, GSM/CDMA wireless network, GPRS module, letter Acquisition module is ceased, the control panel is ultimately delivered to；The control panel controls the valve group and executes corresponding movement.

More specifically, the quantity of the sampling system is to 3 10.

More specifically, scale is arranged in the external of the cavity.

It is compared with traditional technology, the present invention is based on the body fluid signaling monitoring systems of remote data acquisition to have following positive work With with the utility model has the advantages that

The top setting of the cavity flows into mechanism, the top for flowing into pipe and being connected to the cavity, the lower part of the cavity Outflow mechanism described in setting outflow mechanism includes delivery pipe, outflow solenoid valve, and the outflow solenoid valve is arranged in the flowtube. The check valve is set on the inflow pipe, the check valve is located at the top of the flow valve, the inflow pipe on The inflow solenoid valve is arranged in the top of the check valve；The outflow mechanism includes delivery pipe, outflow solenoid valve, the flow The outflow solenoid valve is set on pipe.

In order to which body fluid accumulates in the cavity, the outflow solenoid valve is needed to be in off state, at the flow valve In closed state；The sampling solenoid valve is needed to be in off state；The inflow solenoid valve is in the open state.The inflow Mechanism is in the open state, and institute's sampling system is in off state, and the body fluid of human body enters the cavity by the inflow pipe.

The scale is arranged in the external of the cavity, and the liquid level amount of body fluid in the cavity is carried out straight by the scale The reflection of sight.Healthcare givers is by observing the scale, it can be seen directly that the amount of body fluid.

The flow valve is set between inflow pipe and the cavity, the flow valve is fixed on the upper of the cavity Portion, body fluid enter the cavity, the flow valve accurate recording and real-time display by the flow valve from the inflow pipe Into the body fluid of the cavity.

The important operation of another of the flow valve is that simultaneously real-time display enters the chamber to the flow valve accurate recording The body fluid of body, when body fluid runs up to the maximum capacity of the cavity, the flow valve issues alarm signal, reminds healthcare givers Body fluid is discharged from the cavity in time.The outflow solenoid valve is set in the flowtube, opens the outflow solenoid valve, The flowtube is in the open state, and body fluid is discharged from the flowtube, and the body fluid in the cavity is discharged.

The introducing of the flow valve, the amount for accurate recording body fluid.Healthcare givers is not only greatly facilitated to patient's body The emission behaviour of liquid improves the quality and level for the treatment of.Meanwhile reliably safeguard mean is provided to the medical safety of patient, When body fluid reaches the maximum capacity of cavity, alarm can be issued and discharge body fluid in time.

The check valve is set on the inflow pipe, and the check valve is located at the top of the flow valve.It is described unidirectional Valve prevents body fluid to manage from the cavity into the inflow for guaranteeing that body fluid can enter the cavity from the inflow pipe. When patient accidentally by the height of the cavity mention it is excessively high when, the body fluid in the cavity may flow backward to patient, described It flows on pipe and the check valve is set, the generation for flowing backwards phenomenon can be prevented, guarantee the smooth discharge of patient body fluid.

Body fluid signaling monitoring system the present invention is based on remote data acquisition further includes the sampling system.The sampling system System includes: sampling solenoid valve, sampling bottle, and the sampling solenoid valve is located at the top of the sampling bottle.In order to preferably obtain not The body fluid of different time sections discharge is collected using several sampling systems with the body fluid exported in the period from human body, is realized To the accurate perception of conditions of patients, the progress for the treatment of is held in real time.In order to obtain the body fluid of different time sections discharge, by the stream Enter solenoid valve closing, open one of those described sampling system, the sampling solenoid valve is opened, and body fluid enters the sampling bottle In.After completing primary sampling, the inflow solenoid valve is opened, and the sampling system is closed, and body fluid enters in the cavity.Successively Analogize, when needing to carry out second of bodily fluid sampling, close the inflow solenoid valve, opens in addition the sampling system all the way System, remaining described sampling system are in close state.Healthcare givers extracts sample and is chemically examined from several sampling bottles.

The present invention is based on the body fluid signaling monitoring systems of remote data acquisition, can not only monitor the flow of body fluid, output Body fluid flow versus time curve, and upper in different time points body fluid can be obtained, assist healthcare givers to formulate more quasi- True therapeutic scheme.

Detailed description of the invention

Fig. 1,2 are the body fluid discharges of body fluid signaling monitoring system the present invention is based on remote data acquisition and sample at times The structural schematic diagram of equipment；

Fig. 3,4 be body fluid signaling monitoring system the present invention is based on remote data acquisition control method structural schematic diagram.

1 cavity, 2 scales, 3 flow into pipe, 17 sampling systems, 6 outflow solenoid valves, 8 check valves, 9 flow valves, 11 links, 12 Electronic scale, 13 bands, 14 flow into solenoid valve, 15 sampling solenoid valves, 16 sampling bottles.

Specific embodiment

The present invention is described in further detail below in conjunction with attached drawing, but does not constitute any limitation of the invention, Similar element numbers represent similar element in attached drawing.It is related to the directionalities such as upper and lower, left and right or directionality to descend to the mortal world For concept is the location status shown in Fig. 1.As described above, the present invention provides a kind of bodies based on remote data acquisition Liquid signal monitoring system keeps its structure simple and easily operated.

Fig. 1,2 be body fluid signaling monitoring system the present invention is based on remote data acquisition structural schematic diagram；Fig. 3,4 are these The structural schematic diagram of the control method of body fluid signaling monitoring system of the invention based on remote data acquisition.

A kind of body fluid signaling monitoring system based on remote data acquisition, including cavity 1, scale 2, inflow pipe 3, sampling system System 17, check valve 8, flow valve 9, flows into solenoid valve 14 at outflow solenoid valve 6；The top setting of the cavity 1 flows into mechanism, institute State the lower part setting outflow mechanism of cavity 1；The inflow mechanism includes: to flow into pipe 3, check valve 8, flow valve 9, the inflow pipe 3 are connected to the top of the cavity 1, and the flow valve 9, the flow valve is arranged between the inflow pipe 3 and the cavity 1 9 are fixed on the top of the cavity 1, and the check valve 8 is arranged on the inflow pipe 3, and the check valve 8 is located at the flow The inflow solenoid valve 14 is arranged on the top of the check valve 8 on the inflow pipe 3 in the top of valve 9；The outflow mechanism Including delivery pipe 5, outflow solenoid valve 6, the outflow solenoid valve 6 is set in the flowtube 5；The sampling system 17 passes through pipe Road is connected to the inflow pipe 3, and the quantity of the sampling system 17 is 3 to 10, and the sampling system 17 includes: sampling electromagnetism Valve 15, sampling bottle 16, the sampling solenoid valve are located at the top of the sampling bottle 16；Link 11 is arranged in the top of the cavity 1, Electronic scale 12 is set on the link 11, band 13 is set in the middle position of the cavity 1.

The control method of the body fluid signaling monitoring system based on remote data acquisition, including control panel, information collection Module, data processing module, valve group, GPRS module, GSM/CDMA wireless network, Internet of Things server, controlling terminal service Device, monitoring center；The control panel, information acquisition module, data processing module, GPRS module are fixed on described based on long-range number According in the body fluid signaling monitoring system of acquisition；The valve group includes outflow solenoid valve 6, flows into solenoid valve 14, sampling solenoid valve 15；The control panel is connected with the information acquisition module, and the information acquisition module is connected with the data processing module, institute Data processing module is stated to connect with the valve group, the control panel is connected with the valve group, the data processing module and The GPRS module connection, the GPRS module and GSM/CDMA wireless network connection, the GSM/CDMA wireless network and object Networked server connection, the Internet of Things server connect with the controlling terminal server, the controlling terminal server with The monitoring center connection.

More specifically, the information acquisition module includes high-speed data acquisition unit, the flow valve 9, pH value analysis Instrument, position sensor；The flow valve 9, pH value analyzer, position sensor input terminal respectively with described based on long-range number It is connected according to the body fluid signaling monitoring system of acquisition, the output end difference of the flow valve 9, pH value analyzer, position sensor It is connected with the high-speed data acquisition unit；The acquisition of flow valve 9 enters the flow information of the cavity 1, the pH value Analyzer acquisition enters the pH value information of the body fluid of the cavity 1, and the position sensor acquisition is described to be based on teledata The geographical location information of the body fluid signaling monitoring system of acquisition.

1) flow valve 9, pH value analyzer, position sensor are by collected flow information, pH value information, geographical position Become digital signal after setting information result A/D conversion and is transferred to the information acquisition module；

2) the body fluid signaling monitoring system based on remote data acquisition executes corresponding control plan according to specific circumstances Slightly, the information acquisition module directly controls the control panel and executes corresponding movement after analyzing data；Such as: if Rapid fluctuation occurs for pH value information, then the control panel drives the sampling system 17 to play a role, the sampling solenoid valve It opens, carries out sampling operation, meanwhile, transmission alarm signal to the monitoring center notifies healthcare givers to reach patient scene, into Row medical treatment；

More specifically, the quantity of the sampling system 17 is 3 to 10.

More specifically, scale 2 is arranged in the external of the cavity 1.

Below in conjunction with Fig. 1,2, the work of the body fluid signaling monitoring system the present invention is based on remote data acquisition is further described Make process and working principle:

The top setting of the cavity 1 flows into mechanism, and the inflow pipe 3 is connected to the top of the cavity 1, the cavity 1 Outflow mechanism described in the setting outflow mechanism of lower part includes delivery pipe 5, outflow solenoid valve 6, and the outflow is arranged in the flowtube 5 Solenoid valve 6.The check valve 8 is set on the inflow pipe 3, and the check valve 8 is located at the top of the flow valve 9, in institute It states to flow on pipe 3 and the inflow solenoid valve 14 is set on the top of the check valve 8；The outflow mechanism includes delivery pipe 5, stream The outflow solenoid valve 6 is arranged in the flowtube 5 in solenoid valve 6 out.

In order to which body fluid accumulates in the cavity 1, the outflow solenoid valve 6 is needed to be in off state, the flow valve 5 It is in close state；The sampling solenoid valve 15 is needed to be in off state；The inflow solenoid valve 14 is in the open state.Institute It is in the open state to state inflow mechanism, institute's sampling system 17 is in off state, and the body fluid of human body passes through the inflow pipe 3 and enters The cavity 1.

The external of the cavity 1 is arranged the scale 2, liquid level amount of the body fluid in the cavity 1 by the scale 2 into The intuitive reflection of row.Healthcare givers is by observing the scale 2, it can be seen directly that the amount of body fluid.

The flow valve 9 is set between the inflow pipe 3 and the cavity 1, and the flow valve 9 is fixed on the cavity 1 top, body fluid enter the cavity 1 by the flow valve 9 from the inflow pipe 3, and 9 accurate recording of flow valve is simultaneously Real-time display enters the body fluid of the cavity 1.

Another important operation of the flow valve 9 is, described in 9 accurate recording of flow valve and real-time display entrance The body fluid of cavity 1, when body fluid runs up to the maximum capacity of the cavity 1, the flow valve 9 issues alarm signal, reminds doctor Body fluid is discharged from the cavity 1 in time by treatment personnel.The outflow solenoid valve 6 is set in the flowtube 5, opens the stream Solenoid valve 6 out, the flowtube 5 is in the open state, and body fluid is discharged from the flowtube 5, by the body fluid in the cavity 1 It is discharged.

The introducing of the flow valve 9, the amount for accurate recording body fluid.Healthcare givers is not only greatly facilitated to patient's body The emission behaviour of liquid improves the quality and level for the treatment of.Meanwhile reliably safeguard mean is provided to the medical safety of patient, When body fluid reaches the maximum capacity of cavity 1, alarm can be issued and discharge body fluid in time.

Link 11 is arranged in the top of the cavity 1, and the link 11 is used to the cavity 1 being fixed on certain positions, than Such as: hospital bed edge.Electronic scale 12 is set on the link 11, and the electronic scale 12 is for measuring the 1 inside body fluid of cavity Weight.When body fluid reaches the maximum capacity of the cavity 1, alarm is issued, reminds healthcare givers in time by body fluid from described It is discharged in cavity 1.

The electronic scale 12 is for realizing two monitoring to body fluid flow, to ensure that the amount of body fluid is less than the cavity 1 Capacity.

Band 13 is set in the middle position of the cavity 1, the cavity 1 can be fixed on human body by the band 13 Certain positions, such as: thigh.When facilitating patient to walk, the cavity 1 is realized to stablize and is fixed.

The check valve 8 is set on the inflow pipe 3, and the check valve 8 is located at the top of the flow valve 9.It is described Check valve 8 prevents body fluid from described in the cavity 1 entrance for guaranteeing that body fluid can enter the cavity 1 from the inflow pipe 3 Flow into pipe 3.When patient accidentally by the height of the cavity 1 mention it is excessively high when, the body fluid in the cavity 1 may flow backward to trouble The check valve 8 is arranged on the inflow pipe 3 in person, can prevent the generation for flowing backwards phenomenon, guarantee the smooth row of patient body fluid Out.

Body fluid signaling monitoring system the present invention is based on remote data acquisition further includes the sampling system 17.The sampling System 17 includes: sampling solenoid valve 15, sampling bottle 16, and the sampling solenoid valve is located at the top of the sampling bottle 16.In order to more The body fluid exported in different time sections from human body is obtained well, using several sampling systems 17, collects different time sections row Body fluid out realizes the accurate perception to conditions of patients, holds the progress for the treatment of in real time.In order to obtain different time sections discharge Body fluid closes the inflow solenoid valve 14, opens one of those described sampling system 17, and the sampling solenoid valve 15 is beaten It opens, body fluid enters in the sampling bottle 16.After completing primary sampling, the inflow solenoid valve 14 is opened, the sampling system 17 It closes, body fluid enters in the cavity 1.And so on, when needing to carry out second of bodily fluid sampling, close the inflow Solenoid valve 14 is opened the in addition sampling system 17 described all the way, remaining described sampling system 17 and is in close state.Healthcare givers from In several sampling bottles 16, extracts sample and chemically examined.

Finally it is pointed out that above embodiments are only the more representational examples of the present invention.It is clear that the invention is not restricted to Above-described embodiment, acceptable there are many deformations.Any letter to the above embodiments according to the technical essence of the invention Single modification, equivalent variations and modification, are considered as belonging to the scope of protection of the present invention.

Claims

1. a kind of body fluid signaling monitoring system based on remote data acquisition, it is characterised in that: including control panel, information collection mould Block, data processing module, valve group, GPRS module, GSM/CDMA wireless network, Internet of Things server, controlling terminal server, Monitoring center；The control panel, information acquisition module, data processing module, GPRS module are fixed on described based on teledata In the body fluid signaling monitoring system of acquisition；The valve group includes outflow solenoid valve, flows into solenoid valve, sampling solenoid valve；It is described Control panel is connected with the information acquisition module, and the information acquisition module is connected with the data processing module, the data Processing module is connected with the valve group, and the control panel is connected with the valve group, the data processing module and described GPRS module connection, the GPRS module and GSM/CDMA wireless network connection, the GSM/CDMA wireless network and Internet of Things Server connection, the Internet of Things server connects with the controlling terminal server, the controlling terminal server and described Monitoring center connection；

Include the following steps:

2. the body fluid signaling monitoring system according to claim 1 based on remote data acquisition, it is characterised in that: further include Cavity flows into pipe, delivery pipe, outflow solenoid valve, check valve, flow valve；The top setting of the cavity flows into mechanism, the chamber The lower part setting outflow mechanism of body；The inflow mechanism includes: to flow into pipe, check valve, flow valve, and the inflow pipe is connected to institute The flow valve is arranged between inflow pipe and the cavity in the top for stating cavity, and the flow valve is fixed on the chamber The top of body, is arranged the check valve on the inflow pipe, and the check valve is located at the top of the flow valve；The outflow Mechanism includes delivery pipe, outflow solenoid valve, and the outflow solenoid valve is arranged in the flowtube；The top of the cavity, which is arranged, to hang Electronic scale is arranged on the link in ring, and band is arranged in the middle position of the cavity；The top of the cavity, which is arranged, to hang Electronic scale is arranged on the link in ring, and band is arranged in the middle position of the cavity.

3. the body fluid signaling monitoring system according to claim 1 based on remote data acquisition, which is characterized in that described to adopt The quantity of sample system is to 3 10.

4. the body fluid signaling monitoring system according to claim 1 or 2 based on remote data acquisition, which is characterized in that more Specifically, scale is arranged in the external of the cavity.

5. the body fluid signaling monitoring system according to claim 1 based on remote data acquisition is it is characterized by: the letter Ceasing acquisition module includes high-speed data acquisition unit, the flow valve, pH value analyzer, position sensor；The flow valve, PH value analyzer, position sensor input terminal connect respectively with the body fluid signaling monitoring system based on remote data acquisition Connect, the flow valve, pH value analyzer, position sensor output end connected respectively with the high-speed data acquisition unit； The flow valve acquisition enters the flow information of the cavity, and the pH value analyzer acquisition enters the body fluid of the cavity PH value information, the position sensor acquire the geographical location of the body fluid signaling monitoring system based on remote data acquisition Information.