CN201969106U - Medical venous transfusion monitoring and network management system - Google Patents

Abstract

The utility model discloses a medical venous transfusion monitoring and network management system which comprises a central control system, monitoring substations, medical care PDAs (Personal Digital Assistant) and a wireless communication network, and is characterized in that the central control system is connected with a plurality of monitoring substations and the medical PDAs of a medical establishment in a hospital or community through the wireless communication network, and is connected with other medical information systems through the wireless communication network; the substations detect the current transfusion process and physiological parameters of a patient, and wirelessly transmit the information in real time to the central control system and the adjacent medical care PDAs through a single chip microcomputer control system and display the images; and the central control system conducts optimizing decision analysis to all transfusion interrupt service request signals according to the scheduling of the current medical care PDAs and the detected data of the monitoring substations, and coverts the optimizing nursing scheme into an instruction to be transmitted to all medical care PDAs. The medical venous transfusion monitoring and network management system realizes automatic monitoring on the whole process of venous transfusion and real-time image display, regional medical information sharing, and efficient, unified and optimized scheduling of nursing.

Description

A kind of medical vein monitoring infusion and NMS

Technical field

This utility model relates to the equipment of a kind of medical vein monitoring infusion and NMS, is specially a kind of medical vein monitoring infusion and NMS.

Background technology

The existing monitoring infusion mechanism of each hospital and community medicine mechanism adopts artificial mode mostly at present, particularly for the monitoring infusion of public ward, almost be regularly to check by families of patients or medical personnel bar none, huge trouble and misery have been brought, and can not in time check out in the infusion process because transfusion speed, infusion reaction, transfusion hinders blocks as syringe needle, dropped stitch, the transfusion problem that gas leakage or the like causes, bring extra pain to patient, even lead to malpractice, and, cause remedial procedures to lack firm basis in default of information record to the transfusion accident process.Because medical personnel lack rationally, plan uniformly and dispatch the nursing operation, cause nursing efficiency low, increase the invalid of nursing staff and run the time.

Except that the numerous public ward monitoring infusion of demand, the ward that specific groups such as intensive care unit, infant room, old people ward and people with disability move in, families of patients should not be accompanied and attended to, usually relying on the nursing staff accompanies and attends to for a long time, nursing efficiency is extremely low, is unfavorable for the policy execution of accompanying and attending to of nothing that hospital advocates.Although the existing at present automatic monitoring equipment about infusion pump, syringe pump, its cost is very high, causes range of application limited.And existing common venous transfusion watch-dog, usually can only monitor at single sick bed singlely, and function singleness, can not form effective central Centralized Monitoring strategy, shortage is to the unified management of infusion information, can not realize the centralized dispatching to medical personnel, i.e. monitoring is separated with the optimization of job distribution, so the efficient of its raising is limited.Simultaneously existing automatic infusion monitoring system shortage is shared medical information, can not effectively patient's information, patient history, patient infusion history and patient's diagnosis and treatment process synergic be got up.In fact patient admission process, diagnosis and treatment process and infusion process being united will be the trend of medical information system automatization and hommization from now on.

The utility model content

The technical problem that this utility model solved is to provide a kind of medical vein monitoring infusion and NMS, to solve the shortcoming in the above-mentioned background technology.

The technical problem that this utility model solved realizes by the following technical solutions:

A kind of medical vein monitoring infusion and NMS, comprise central control system, the monitoring substation, medical care PDA and wireless communication networks, it is characterized in that, described central control system is by a plurality of monitoring substations of wireless communication networks and hospital or community medicine mechanism, and medical care PDA links to each other, and links to each other with other medical information system by wireless communication networks; Each is guarded substation and detects current transfusion process and physiological parameters of patients, shows to central control system and contiguous transmission of medical care PDA real-time radio and image through single-chip computer control system; Central control system is done to optimize decision analysis to all transfusion breakout service request signals according to the detection data of the scheduling of current medical care PDA and monitoring substation, and will optimize care regimen and be converted into to instruct and convey to each medical care PDA.

Described monitoring substation comprises with lower module:

The infrared detection module: comprise two pairs of vertically arranged light emitting diodes and phototriode, infrared detection device is fixed in the draw-in groove of closed enclosure; One side of closed enclosure is the loose-leaf door that untie-sell rotates that can rotate; Phototriode is that corresponding change in electric passes to single-chip computer control system with the light signal strength change transitions that receives;

Physiological detection module: comprise the blood pressure oscillations pick off that is stuck on the patient's wrist and be fixed near the temperature sensor of infusion needle, change detected patient's blood pressure, pulse and temperature parameter into electrical signal transfer and give single-chip computer control system;

Transfusion speed adjusting module: comprise the spill permanent magnet and the movable magnet projection that are fixed on the closed enclosure; The movable magnet projection links to each other with single-chip computer control system, by the size of magnetic force between the big or small controlling magnet of single-chip computer control system control movable magnet end input current;

Power module: the change-over circuit, voltage detecting circuit, mu balanced circuit and the regulating circuit that comprise power supply;

Single-chip computer control system: receive the voltage signal that infrared detection module and physiological detection module send, with enumerator for a long time between enumerator link to each other number signal unit turned to the rate signal of transfusion and the vibration signal of pulse, and with setting threshold relatively, blood pressure and the temperature signal that the physiological detection module is sent carries out threshold ratio simultaneously; And, comprise that the early warning and alarming signal sends to central control system and the contiguous medical care PDA that waits for scheduling simultaneously by wireless communication networks with all relevant infusion information;

User's control panel: be used for real time imaging and show and man-machine interaction;

Alarm module: receive early warning or alarm signal that single-chip computer control system passes over, comprise sound intelligent warning alarm and flicker alarm lamp;

Described central control system comprises with lower module:

Integrated interface display module: be used in real time, concentrate pictorial display;

The optimal decision module: the infusion information that substation transmits is respectively guarded in reception in real time, by optimizing algorithm the care regimen of all transfusion base stations is carried out optimum programming, can expand to the variation of relatively more default and current physiological parameter curve simultaneously, the closed loop control transfusion speed;

The nursing dispatching control center: by wireless communication networks medical personnel of each monitoring substation are carried out unified scheduling, and with all medical care PDA real-time, interactives;

Information management module: comprise inquiry, storage, print module, and link to each other with other medical information system by wired or wireless mode.

Described medical care PDA links to each other with contiguous monitoring substation with central control system by wireless communication networks by wireless communication networks.

Described wireless communication networks connects respectively guards substation, central control system, medical care PDA, other medical information system and diagnostic device.

Beneficial effect:

1. the venous transfusion that all is suitable at common and specific group ward, the network system of a kind of central Centralized Monitoring transfusion process of utility model and all diagnosis and treatment medical informations of unified management;

2. monitoring substation real time imaging shows transfusion speed, residue amount of infusion, estimates residue transfusion time and physiological parameters of patients change curve; The central control system centralized displaying is respectively guarded all relevant infusion information of substation and nursing staff's scheduling situation, and early warning, warning function are provided;

3. central control system is carried out unified planning according to the residue amount of infusion and the current breakout service request signal of all monitoring substations, provide optimum care regimen according to optimizing algorithm, and be translated into nursing instruction by wireless communication networks and convey to each medical care PDA, constantly refresh the nursing scheduling scheme in conjunction with the nursing result of medical care PDA feedback;

4. Du Chuan transfusion detects and speed-regulating scheme automatically.

Description of drawings

Fig. 1 this utility model system structure is formed sketch map;

Fig. 2 infrared detection module schematic top plan view;

Fig. 3 speed adjusting module sketch map of infusing;

Fig. 4 medical vein monitoring infusion of the present utility model and NMS operation principle sketch map;

Fig. 5 medical vein monitoring infusion of the present utility model and network management system monitors process sketch map;

The specific embodiment

For technological means, creation characteristic that this utility model is realized, reach purpose and effect is easy to understand, below in conjunction with concrete diagram, further set forth this utility model.

Referring to Fig. 1 is that a kind of medical vein monitoring infusion and NMS structure are formed sketch map, and this utility model comprises that Mo Feishi pipe 1, drop 2, light emitting diode 3, closed enclosure 4, permanent magnet 5, movable magnet projection 6, phototriode 7, alarm module 8, rotational pin 9, light emitting diode 10, phototriode 11 constitute.Described Mo Feishi pipe 1, drop 2, light emitting diode 3, permanent magnet 5, movable magnet projection 6, phototriode 7, light emitting diode 10, phototriode 11 is in closed enclosure 4, described rotational pin 9 is arranged on the closed enclosure 4, light emitting diode 3 links to each other with control panel with light emitting diode 10, phototriode 7 links to each other with single-chip computer control system with phototriode 11, permanent magnet 5 is arranged on the closed enclosure 4, movable magnet projection 6 links to each other with single-chip computer control system, permanent magnet 5 and movable magnet projection 6 are on same horizontal line, and alarm module 8 is connected on the single-chip computer control system.

Present embodiment is corresponding by the medical vein monitoring infusion of Fig. 1, Fig. 2 and Fig. 3 and the embodiment of NMS structure, wherein guards substation and comprises with lower module:

Infrared detection module: comprise two pairs of vertically arranged light emitting diodes 3 and light emitting diode 10 and phototriode 7 and phototriode 11, and all be fixed in the draw-in groove of closed enclosure 4, prevent the precision that the detecting element obliquity effects detects, closed enclosure 4 has been avoided the interference of extraneous light simultaneously.When not detecting drop 2 drippages, the light of light emitting diode 3 and light emitting diode 10 emissions directly projects on the photosurface of phototriode 7 and phototriode 11, and the photoelectric current that produce in phototriode 7 and the phototriode 11 this moment is stronger; When having detected drop 2 drippages, from light emitting diode 3 and light emitting diode 10 project on phototriode 7 and phototriode 11 photosurfaces light a little less than, produce less relatively photoelectric current during than dripless 2 drippages, this phenomenon is all set up for whether drop 2 is transparent, so can to have measured dripless 2 low by detecting the defecation that produces electric current in phototriode 7 and the phototriode 11.By setting level threshold, the electric current in detecting phototriode 7 and phototriode 11 is judged as dripless 2 drippages during greater than setting threshold, has been judged as drop 2 drippages during on the contrary less than setting threshold.About 15 are 1ml when considering drop 2, the nursing staff imports the volume for the treatment of loading liquid in advance by user's control panel before detection like this, accumulate the number of times that drips of having infused by enumerator and just can judge the quantity that remains medicinal liquid, can be on the integrated interface display module of user's control panel or central control system show what of residue medicinal liquid visually by figure, by time counter also cocoa obtain the low number of times of detected drop in the unit interval, this is a transfusion speed.With two groups of identical photoelectric detective circuits testing result is carried out logic and operation, improve the anti-interference and the accuracy that detect.One side of closed enclosure 4 is the loose-leaf doors that untie-sell 9 rotates that can rotate, and is convenient to the installation of element.

Physiological detection module: comprise the blood pressure oscillations pick off that is stuck on the patient's wrist and be fixed near the temperature sensor of infusion needle, detect patient's blood pressure, pulse and temperature parameter, and level signal or the vibratory impulse signal that collects passed to single-chip microcomputer, judge then whether the variation of physiological parameter is normal.

Transfusion speed adjusting module: comprise the spill permanent magnet 5 and the movable magnet projection 6 that are fixed on the closed enclosure 4.Movable magnet projection 6 links to each other with closed enclosure 4 by spring, its input electric current size-controlled in single-chip computer control system, the size of magnetic attraction between size adjustment by single-chip computer control system regulating magnet projection 6 input electric currents itself and the permanent magnet 5, realization is managed 1 chucking to Mo Feishi and is loosened, thus the size of regulating transfusion speed.When transfusion finishes when producing alarm signal, Magnet projection 6 and spill Magnet 5 is closed fully manages Mo Feishi 1 stuck, prevents that blood from refluxing.

Power module: the change-over circuit, voltage detecting circuit, mu balanced circuit and the regulating circuit that comprise power supply.Power-switching circuit makes detection module and alarm module can adopt supplied by AC/DC electricity, when monitoring substation Ac Dump, enables standby chargeable dc source automatically and continues to supply with, and voltage stabilizing simultaneously and voltage regulating module guarantee the stability of supply voltage.Voltage detecting circuit detects the variation of supply voltage in real time, and when running voltage was low to moderate rated operational voltage, voltage detecting circuit triggered alarm module and reports to the police.

Single-chip computer control system: receive the voltage signal that infrared detection module and physiological detection module send, the vibration signal of telecommunication that the signal of telecommunication that the infrared detection module is sent and physiological detection module send is converted into pulse signal and sends into the enumerator stored counts, link to each other with time counter simultaneously number signal unit is turned to the rate signal of transfusion and the vibration signal of pulse, and with setting threshold relatively, when rate signal too fast, transfusion is obstructed or is infused to finish and causes speed to be crossed producing threshold value when slow overflowing, trigger alarm equipment alarm, automatically start the transfusion speed adjusting module simultaneously, reduce transfusion speed and interrupt until transfusion; According to cumulative transfusion pulse signal of enumerator and default transfusion total amount, estimate the transfusion surplus and estimate the residue transfusion time, and compare with the early warning and the umber of pulse upper limit of setting respectively of reporting to the police, surpass last early warning or the alarm signal of sending in limited time, start the transfusion speed adjusting module when alarm signal triggers, produce delay and interrupt the transfusion signal; Simultaneously, single-chip computer control system carries out threshold ratio to blood pressure and the temperature signal that the physiological detection module sends, and triggers alarm equipment alarm when surpassing setting value, and starts the transfusion speed adjusting module automatically, reduces transfusion speed and interrupts until transfusion; Single-chip computer control system will remain amount of infusion and transfusion speed, physiological parameter variation, running voltage variation and alarm signal and relevant infusion information in real time, comprise berth, patient's check-in information, medical history and infusion history record, send to central control system and the contiguous medical care PDA that waits for scheduling by wireless communication networks.

User's control panel: be used for the bound of the default amount of infusion early warning of medical personnel and high alarm setting, transfusion speed and pulse velocity, blood pressure, and have button to regulate transfusion speed or interruption transfusion.Show transfusion speed, residue amount of infusion, the variation of estimating residue transfusion time, physiological parameter and operating supply voltage and the relevant information of patient infusion in the infusion process simultaneously on the panel, comprise berth, patient's check-in information, medical history, infusion history record and associated care responsible person, and manual pull station is provided.

Alarm module: receive early warning or alarm signal that single-chip computer control system passes over, comprise the early warning of infrared detection module generation or the alarm signal that alarm signal, manual alarm signal, physiological detection module and voltage detection circuit produce, trigger alarm module 8 sound early warning or alarm signal, alarm lamp flicker simultaneously by single-chip computer control system.

Because the infrared detection module and the detected signal of telecommunication of physiological detection module are very faint, should be amplified to a certain degree and and eliminate interference by integrating circuit, obtain and drop or the same square wave frequently of pulse through the comparator shaping again, send into the single-chip computer control system counting then.

Described central control system adopts PC storage and deal with data, comprises with lower module:

Integrated interface display module: transfusion surplus and transfusion speed, residue transfusion time, patient's physiological parameter and variation and the early warning and the warning message of operating supply voltage of concentrate, substation is respectively guarded in demonstration in real time, the relevant infusion information that can show patient simultaneously, comprise berth, check-in information, medical history, infusion history record and associated care responsible person, and link to each other with other information of medical information system of the nursing scheduling situation that can show all medical care PDA;

The optimal decision module: the information that substation transmits is respectively guarded in reception in real time, comprise the residue amount of infusion, estimate that residue transfusion time, transfusion speed, physiological parameter change, running voltage changes relevant infusion information with other, early warning, warning and breakout service request signal in conjunction with each transfusion substation, by optimizing algorithm the care regimen of all transfusion base stations is carried out optimum programming, for medical personnel provide the most effective nursing route; Can expand to simultaneously relatively more default and current physiological parameter change curve, the closed loop control transfusion speed improves the comfortableness of transfusion;

Nursing dispatching control center: each medical personnel that guard substation is carried out unified scheduling by wireless communication networks, transfusion plan is conveyed to the medical care PDA of monitoring substation by wireless communication networks, start transfusion, transfusion early warning, warning and breakout service request signal to the transfusion base station are concentrated regulation and control, the optimum nursing route that the optimal decision module is provided is converted into the nursing instruction by wireless communication networks and conveys to the medical care PDA that respectively guards substation, and with all medical care PDA real-time, interactives, bring in constant renewal in care regimen;

Information management module: comprise inquiry, storage, print the infusion information of respectively guarding substation, and share, realize the unified management of information, the demonstration of can according to condition sorting and tabulate simultaneously to all items with other medical information system.

Described medical care PDA links to each other with contiguous monitoring substation with central control system by wireless communication networks; Medical care PDA receives the nursing instruction that central control system is passed on, and returns the nursing result by wireless communication networks to central control system after finishing corresponding nursing task, waits for the scheduling of next nursing task; The medical care PDA that waits for scheduling can be by the break in service that wireless communication networks the receives adjacent monitoring substation real-time infusion information of please signal suing for peace, and can initiatively apply for this breakout service request of scheduling processing to central control system, central control system is cancelled the scheduling application of this request signal simultaneously; All medical care PDA can inquire about the infusion information of all transfusion substations and the task scheduling situation of central control system in real time.

Described wireless communication networks connects respectively guards substation, central control system and medical care PDA, realize the transmission of infusion information data and the reception and registration of nursing instruction, in the encoding and decoding process of transfer of data, take corresponding filtering and noise reduction scheme to guarantee stability and accuracy that signal transmits simultaneously.Data receiver uses identical radio receiving transmitting module, utilizes the RS232 asynchronous serial port to realize communication between the PC of central control system, single-chip microcomputer, the medical care PDA.

Described communication network also comprises by wired or wireless mode and being connected with diagnostic device with other medical information system, realizes the transmission of data and shares the realization unified management.

Referring to Fig. 4 is a kind of medical vein monitoring infusion and NMS operation principle sketch map, native system is core with the central control system, with each monitoring substation is detection platform, by wireless communication networks each medical care PDA is formed a unified nurse net, insert relevant medical information system and diagnostic device simultaneously, make that the whole information of diagnosis and treatment process is shared, form effective information management network system.

Referring to Fig. 5, Fig. 6, the medical vein monitoring infusion of a kind of medical vein monitoring infusion and NMS and NMS operation principle sketch map and medical vein monitoring infusion and network management system monitors process sketch map.

Present embodiment is corresponding by the medical vein monitoring infusion of Fig. 5 and Fig. 6 and the embodiment of NMS operation principle and medical vein monitoring infusion and network management system monitors process.Wherein:

A, medical personnel move in patient information according to what other medical information system transmitted, comprise patient's resume and bed item, medicament categories, the dosage size of transfusion are input to central control system by information management module, and the threshold value of default transfusion speed and early warning, warning, to nurse the medical care PDA that instruction conveys to relevant monitoring substation by wireless communication networks, preserve relevant infusion information simultaneously;

The medical personnel of B, monitoring substation start transfusion according to related request after receiving the nursing instruction by medical care PDA, check the working condition of monitoring system simultaneously, comprise the working condition of detection system and supply voltage;

In C, the patient infusion process, to detect transfusion speed too fast or slow excessively when infrared detection module, when physiological parameters of patients variation abnormality or operating supply voltage are lower than rated voltage, produces alarm signal, and start the transfusion speed adjusting module automatically; The alarm signal that produces triggers alarm module by single-chip computer control system and reports to the police, and is sent to adjacent medical care PDA and central control system by wireless communication networks simultaneously; Single-chip computer control system produces early warning signal when transfusion is about to finish, and produces alarm signal when transfusion finishes, and starts speed adjusting module simultaneously automatically, and by wireless communication networks early warning or alarm signal is sent to adjacent medical care PDA and central control system; When the user sends manual alarm signal, trigger alarm module by single-chip computer control system and report to the police, be sent to adjacent medical care PDA and central control system, wait acknowledge by wireless communication networks simultaneously;

After D, transfusion speed adjusting module are received the speed-regulating signal that single-chip computer control system sends, by the magnetic force size between the big or small controlling magnet piece that changes input current, realize the clamping of tube for transfusion or loosen, thereby change transfusion speed, or interrupt transfusion; After alarm module is received the early warning or alarm signal that single-chip computer control system sends, sound early warning or alarm signal, alarm lamp flicker simultaneously;

After E, central control system are received the breakout service request signal of monitoring substation transmission, current all breakout service request signals are carried out unified planning, by optimizing the response scheme that algorithm provides current all breakout service request, and by wireless communication networks care regimen is converted into the nursing instruction and is communicated to relevant medical care PDA and carries out.

After F, medical care PDA receive alarm signal and deal with, this alarm signal cancellation is to the service request of central control system, otherwise continue again all breakout service request signals to be optimized planning by central control system, refresh will be new behind the care regimen nursing instruct and convey to relevant medical care PDA;

In G, the whole monitor procedure, on user's control panel of monitoring substation, show the variation of variation, residue amount of infusion and estimation residue transfusion time, physiological parameter and the operating supply voltage of transfusion speed in the patient infusion process, the relevant information that can show patient infusion simultaneously comprises berth, patient's check-in information, medical history, infusion history record and associated care responsible person; In addition, the nursing scheduling situation that on the integrated interface display module of central control system, also shows all the medical care PDA information of medical information system that links to each other with other; All above information are by the information management module unified management of central control system, and provide inquiry, storage, printing function, the demonstration of also can according to condition sorting and tabulate all items simultaneously;

H, send the transfusion alarm signal after, the monitoring substation is waited for replying of medical care PDA or central control system, starts the transfusion speed adjusting module simultaneously automatically and postpones to interrupt transfusion.

More than show and described ultimate principle of the present utility model and principal character and advantage of the present utility model.The technical staff of the industry should understand; this utility model is not restricted to the described embodiments; that describes in the foregoing description and the description just illustrates principle of the present utility model; under the prerequisite that does not break away from spirit and scope of the present utility model; this making an excessive case more excessive is with the novel various changes and modifications that also have, and these changes and improvements all fall in claimed this utility model scope.The claimed scope of this utility model is defined by appending claims and equivalent thereof.

Claims (5)

1. medical vein monitoring infusion and NMS, comprise central control system, the monitoring substation, medical care PDA and wireless communication networks, it is characterized in that, described central control system is by a plurality of monitoring substations of wireless communication networks and hospital or community medicine mechanism, and medical care PDA links to each other, and links to each other with other medical information system by wireless communication networks; Each is guarded substation and detects current transfusion process and physiological parameters of patients, shows to central control system and contiguous transmission of medical care PDA real-time radio and image through single-chip computer control system; Central control system is done to optimize decision analysis to all transfusion breakout service request signals according to the detection data of the scheduling of current medical care PDA and monitoring substation, and will optimize care regimen and be converted into to instruct and convey to each medical care PDA.

2. a kind of medical vein monitoring infusion according to claim 1 and NMS, it is characterized in that, infrared detection module in the described monitoring substation comprises two pairs of vertically arranged light emitting diodes (3) and light emitting diode (10) and phototriode (7) and phototriode (11), and all is fixed in the draw-in groove of closed enclosure (4); One side of closed enclosure (4) is the loose-leaf door that untie-sell (9) rotates that can rotate.

3. a kind of medical vein monitoring infusion according to claim 1 and NMS is characterized in that, the transfusion speed adjusting module in the described monitoring substation comprises spill permanent magnet (5) and the movable magnet projection (6) that is fixed on the closed enclosure (4); Movable magnet projection (6) links to each other with closed enclosure (4) by spring, its input electric current size-controlled in single-chip computer control system, the size of magnetic attraction between size adjustment by single-chip computer control system regulating magnet projection (6) input electric current itself and the permanent magnet (5), realize to the chucking of Mo Feishi pipe (1) with loosen; When transfusion finished the generation alarm signal, Magnet projection (6) was closed fully stuck with Mo Feishi pipe (1) with spill Magnet (5).

4. a kind of medical vein monitoring infusion according to claim 1 and NMS is characterized in that, described medical care PDA links to each other with contiguous monitoring substation with central control system by wireless communication networks.

5. a kind of medical vein monitoring infusion according to claim 1 and NMS is characterized in that, described wireless communication networks connects respectively guards substation, central control system, medical care PDA, other medical information system and diagnostic device.

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