CN202044251U - Portable intelligent integral wireless monitoring system for isolation device - Google Patents

Abstract

The utility model discloses a portable intelligent integral wireless monitoring system for an isolation device, which comprises a wireless monitoring signal acquisition transmission sub-system and a wireless monitoring signal receiving sub-system, wherein the wireless monitoring signal acquisition signal sub-system comprises a multi-parameter vital sign detection transmission module, a cardiopulmonary sound detection transmission module and a wireless calling module, the multi-parameter vital sign detection transmission module comprises a multi-parameter monitoring unit and a wireless communication data link unit, the cardiopulmonary sound detection transmission module comprises a cardiopulmonary sound detection module and a cardiopulmonary sound signal wireless transmission module, and the wireless monitoring signal receiving sub-system comprises a multi-parameter vital sign wireless receiving module, a display and operation module, a cardiopulmonary sound signal wireless receiving module, an auscultation module and another wireless calling module. In the portable intelligent integral wireless monitoring system, physical signals, such as vital signs, cardiopulmonary sounds and the like, are transmitted by a wireless communication mode, so that medical personnel and experts can carry out remote consultation and monitoring, and further, doctors can carry out diagnosis on a patient without being a site.

Description

The portable intelligent integrated wireless monitor system that is used for spacer assembly

Technical field

This utility model relates to a kind of medical wireless monitor system, relates in particular to a kind of portable intelligent integrated wireless monitor system that is used for spacer assembly.

Background technology

Multi-parameter monitor and stethoscope are accepted by vast clinician as traditional physics's diagnostic instruments, are the indispensable visual plants that the clinician carries out state of an illness diagnosis.Multi-physiological-parameter monitoring to the patient at present is wired mode, be that patient-instrument-doctor is under wired mode, in this manner, if examination patient's physiological conditions such as heart and lung sounds, medical personnel unavoidably have in-plant the contact with patient, have increased the chance and the approach of disease propagation greatly.This point has obtained proof in SARS, bird flu, swine flu epidemic situation, caused the attention of vast clinical expert and national health department.

So need a kind of wireless monitoring system, utilize communication transmission patient's physiological signals such as vital sign, heart and lung sounds, medical personnel and expert can long-rangely be held a consultation and guard, the doctor needn't can be diagnosed patient at the scene.In addition, spacer assemblys such as isolation ward, isolating stretcher, isolation ambulance generally have closure preferably, have influenced to a certain extent and have installed exchanging of inner patient and outside medical personnel, more need a kind of wireless monitoring system to realize interchange between the doctors and patients.

The utility model content

This utility model is for solving the portable intelligent integrated wireless monitor system that is used for spacer assembly that the technical problem that exists in the known technology provides a kind of doctor of making needn't be at the scene can diagnose patient.

The technical scheme that this utility model is taked for the technical problem that exists in the solution known technology is: a kind of portable intelligent integrated wireless monitor system that is used for spacer assembly, this system comprise that the wireless monitoring signals collecting sends subsystem and wireless monitoring signal receiving subsystem; Described wireless monitoring signals collecting sends subsystem and comprises multi-parameter life sign detected transmission module, heart and lung sounds detected transmission module and wireless communication module; Described multi-parameter life sign detected transmission module comprises multi-parameter monitoring unit and wireless communication data link unit; Described heart and lung sounds detected transmission module comprises heart and lung sounds detection module and heart and lung sounds signal wireless transmission module; Described wireless monitoring signal receiving subsystem comprises multi-parameter life sign wireless receiving module, demonstration and operational module, heart and lung sounds signal wireless receiver module, auscultation module and wireless communication module; Described multi-parameter monitoring unit is transferred to described demonstration and operational module with its detected patient physiological signals via described wireless communication data link unit and described multi-parameter life sign wireless receiving module; Described heart and lung sounds detection module is transferred to described auscultation module with its detected heart and lung sounds signal via described heart and lung sounds signal wireless transmission module and described heart and lung sounds signal wireless receiver module; Described wireless monitoring signals collecting transmission subsystem and described wireless monitoring signal receiving subsystem transmit and received speech signal by described wireless communication module separately.

The demonstration of described wireless monitoring signal receiving subsystem and operational module are transferred to described multi-parameter monitoring unit with the operational order of input via described multi-parameter life sign wireless receiving module and described wireless communication data link unit.

Described multi-parameter monitoring unit comprises microprocessor, demonstration and operational module, electrocardio/breathing/measurement of bldy temperature submodule, blood pressure measurement submodule, Oximetry submodule and expansion serial ports, described electrocardio/breathing/measurement of bldy temperature submodule, described blood pressure measurement submodule and described Oximetry submodule send to described microprocessor with patient's vital sign parameter signals of gathering via the expansion serial ports, and described microprocessor is transferred to described multi-parameter life sign wireless receiving module with output signal via described wireless communication data link unit; The unitary demonstration of described multi-parameter monitoring is connected with described microprocessor with operational module.

The unitary demonstration of described multi-parameter monitoring comprises liquid crystal display, keyboard and the alarm device that links to each other with described microprocessor with operational module.

Described microprocessor is embedded in the described multi-parameter life sign detected transmission module.

Described heart and lung sounds detected transmission module comprises heart and lung sounds detection module and heart and lung sounds signal wireless transmission module, described heart and lung sounds detection module comprises heart and lung sounds pick off and amplification filtering circuit, and the heart and lung sounds signal of described heart and lung sounds sensor acquisition is given described heart and lung sounds signal wireless transmission module via the amplification filtering circuit transmission of described heart and lung sounds detection module.

Described wireless communication module comprises audio collection amplifying circuit, full duplex radio telecommunication circuit and amplifier circuit for sound frequency signal, and the described audio collection amplifying circuit that described wireless monitoring signals collecting sends the described wireless communication module of any one subsystem in subsystem and two subsystems of described wireless monitoring signal receiving subsystem is transferred to described amplifier circuit for sound frequency signal in another subsystem via the described full duplex radio telecommunication circuit in the described full duplex radio telecommunication circuit in the same subsystem and another subsystem successively with audio signal.

Described heart and lung sounds signal wireless transmission module is the ANTENNAUDIO module, described ANTENNAUDIO module comprises A/D convertor circuit and transtation mission circuit, and the heart and lung sounds signal of gathering from described heart and lung sounds detection module is transferred to described heart and lung sounds signal wireless receiver module via the A/D convertor circuit and the transtation mission circuit of described ANTENNAUDIO module successively.

Described heart and lung sounds signal wireless receiver module comprises receiving circuit, DA change-over circuit and amplification filtering circuit, gathers from the heart and lung sounds signal of described heart and lung sounds signal wireless transmission module and gives described auscultation module via receiving circuit, DA change-over circuit and the amplification filtering circuit transmission of described heart and lung sounds signal wireless receiver module successively.

Advantage and the good effect that the utlity model has are: send subsystem by at the monitoring end wireless monitoring signals collecting being set, at the consultation of doctors end wireless monitoring signal receiving subsystem is set, utilize communication transmission patient's physiological signals such as vital sign, heart and lung sounds, can make that medical personnel and expert are long-range to hold a consultation and guard, making the doctor needn't arrive the scene can diagnose patient.Reduce the probability that the doctor is infected on the one hand under the situation of not taking to protect, on the other hand, be convenient to multidigit expert, the doctor consultation of doctors simultaneously inside and outside the ward.Be particularly suitable in spacer assemblys such as isolation ward, isolating stretcher and isolation ambulance, using, the spacer assembly original structure can not changed, do not destroy under the situation of spacer assembly seal, realize epidemic victim, the wireless vital sign monitoring of being infected with the sick and wounded of biochemical war agent, wireless auscultation and wireless doctors and patients dialogue in the spacer assembly.This system can make the medical worker under not contagion patient's situation patient be implemented monitoring, greatly reduces the probability that the medical worker is infected or be infected with.Portability that this system had and versatility characteristics make it to be easy to be applied in the various spacer assemblys, can improve the information-based function of existing spacer assembly, remedy the deficiency of existing spacer assembly.

Description of drawings

Fig. 1 is a structural representation block diagram of the present utility model;

Fig. 2 is the structural representation block diagram that this utility model multi-parameter life sign detected transmission module reaches the receiving unit corresponding with it;

Fig. 3 is the structural representation block diagram that this utility model heart and lung sounds detected transmission module reaches the receiving unit corresponding with it.

The specific embodiment

For further understanding summary of the invention of the present utility model, characteristics and effect, exemplify following examples now, and conjunction with figs. is described in detail as follows:

See also Fig. 1～Fig. 3, a kind of portable intelligent integrated wireless monitor system 100 that is used for spacer assembly comprises that the wireless monitoring signals collecting sends subsystem 101 and wireless monitoring signal receiving subsystem 102.

Described wireless monitoring signals collecting sends subsystem 101 and comprises multi-parameter life sign detected transmission module 103, heart and lung sounds detected transmission module 104, wireless communication module 105-1 and power module.

Described wireless monitoring signal receiving subsystem 102 comprises multi-parameter life sign wireless receiving module 112, demonstration and operational module 114, auscultation module 115, heart and lung sounds signal wireless receiver module 113, wireless communication module 105-2 and power module.

Described multi-parameter life sign detected transmission module 103 comprises multi-parameter monitoring unit 106 and wireless communication data link unit 107.

Multi-parameter monitoring unit 106 is a kind of multi-parameter monitors based on embedded microprocessor and embedded real-time operating system integrated platform in this enforcement, comprises that physiological signal extracts subelement 202, microprocessor 201 and demonstration and operational module 207.Demonstration comprises liquid crystal display, keyboard and the alarm device that links to each other with described microprocessor 201 with operational module 207.Microprocessor 201 adopts the ARM9 series S3C2440 type processor of Samsung company, and a large amount of functional modules that inside is integrated comprise TCP/IP interface, USB mouth, LCD control module etc.Described physiological signal extracts subelement 202 and comprises electrocardio/breathing/measurement of bldy temperature submodule 203, blood pressure measurement submodule 204, Oximetry submodule 205 and expansion serial ports 206.Described electrocardio/breathing/measurement of bldy temperature submodule 203 adopts the electrocardio/breathing/measurement of bldy temperature module of Mai Rui company.Described blood pressure measurement submodule 204 adopts the arm-type non-invasive blood pressure module of the CRNE EP80FA of company type.Described Oximetry submodule 205 adopts the blood oxygen module of Berry company.

Wireless communication data link 107 adopts the short-distance wireless communication mode, based on short-distance transmission mode pluses and minuses relatively more commonly used at present, adopt the wireless communication technology of nonstandard protocol, take Point-to-Point Data Transmission, the 2.4GHz of hardware using Nordic company wireless communication module NRF24L01.

Described electrocardio/breathing/measurement of bldy temperature submodule 203, described blood pressure measurement submodule 204 and described Oximetry submodule 205 send to described microprocessor 201 with patient's vital sign parameter signals of gathering via expansion serial ports 206.Described microprocessor 201 is transferred to described multi-parameter life sign wireless receiving module 112 with output signal via described wireless communication data link unit 107.Described multi-parameter life sign wireless receiving module 112 is transferred to described demonstration and operational module 114 with the signal that receives.

Described demonstration and operational module 114 comprise 160X64 lattice lcd display, keyboard and buzzer.But liquid crystal display display waveform, menu, warning and various measurement parameter, abundant trend chart.Keyboard is provided with ALARM and reports to the police and key, SILENCE to be set to report to the police and key, FREEZE freezing key, START start and stop blood pressure measurement key and MENU are set refresh Menu key.Described demonstration and operational module 114 comprise keyboard, and described demonstration and operational module 114 are transferred to described multi-parameter monitoring unit 106 with the operational order of input via described multi-parameter life sign wireless receiving module 112 and described wireless communication data link unit 107.

Described heart and lung sounds detected transmission module 104 comprises heart and lung sounds detection module 108 and heart and lung sounds wireless transport module 109.Described heart and lung sounds detection module 108 comprises heart and lung sounds pick off and amplification filtering circuit.In this enforcement, heart and lung sounds detection signal module 108 has adopted the HKY-06B type heart and lung sounds sampling module of Hefei Huake Electron Technique Research Academy's development, is a integrated sensor that integrates heart and lung sounds pick off, amplification filtering circuit.This pick off is output as the Low ESR audio signal of 0.5-1.5V, and very convenient late-class circuit carries out the AD conversion process.Heart and lung sounds wireless transport module 109 adopts the ANTENNAUDIO module of integrated form 2.4GHz to come the AD conversion of audio signal and the wireless receiving and the transmission of digital signal.Heart and lung sounds wireless transport module 109 transmission of digital audio signals are given heart and lung sounds signal wireless receiver module 113, convert analogue signal to through the DA change-over circuit, analogue signal is restored the earphone work that drives auscultation module (115) for patient's original heart and lung sounds through amplifying circuit again.

Shenzhen grace is a cheap than the EB352TP/R2.4GHz that scientific ﹠ technical corporation releases, the wireless digital music earphone transceiver module that structure is small and exquisite.This module is operated in the free frequency range of 2.4GHz, adopts the digital communication mode, has very strong anti-interference.In the present embodiment, heart and lung sounds wireless transport module 109 adopts the EB352TP module, and heart and lung sounds signal wireless receiver module 113 adopts the EB352R module.ANTENNAUDIO transmitter module EB352TP carries out AD conversion and Digital Signal Processing with the simulated audio signal of heart and lung sounds sampling module HKY-06B output, with its inner special communication protocol the voice data packing is sent then.ANTENNAUDIO receiver module EB352R carries out just obtaining after the DA conversion patient's original heart and lung sounds signal with the signal that receives, and will output drive earphone after its power amplification then.EB352R has the audio output function of 50mW, can directly drive earphone work.

The described wireless doctors and patients module 105-1 that converses comprises that audio collection amplifying circuit 110-1, full duplex radio telecommunication circuit 111-1 and audio signal amplify (receiver) circuit 112-1; The described wireless doctors and patients module 105-2 that converses comprises that audio collection amplifying circuit 110-2, full duplex radio telecommunication circuit 111-2 and audio signal amplify (receiver) circuit 112-2.The described audio collection amplifying circuit that described wireless monitoring signals collecting sends the described wireless communication module of any one subsystem in subsystem 101 and 102 two subsystems of described wireless monitoring signal receiving subsystem is transferred to described amplifier circuit for sound frequency signal in another subsystem via the described full duplex radio telecommunication circuit in the described full duplex radio telecommunication circuit in the same subsystem and another subsystem successively with audio signal, can realize the wireless communication between above-mentioned two subsystems.

Above-mentioned audio collection amplifying circuit is the audio collection amplifying circuit with high tone quality and cancelling out echo characteristic; The full duplex radio telecommunication circuit adopts frequency synthesis double conversion wireless transmit-receive technology to realize the full-duplex communication of voice signal.In this enforcement, adopt the technical grade 8 channel full duplex radios conversation module YESU-PHONE-V of Billthink company, have the advantage that price is low, volume is little and low in energy consumption.This module adopt frequency synthesis double conversion wireless transmit-receive technology and and electromangnetic spectrum, the dynamic compressor-expander of built-in compacting background noise.Operating frequency can be 409/465,430/450,450/470,610/630, the 650/670MHz frequency range, and conversation sound is clear.Peripheral circuit is simple, and only need add loudspeaker, miaow head and antenna gets final product work, and very suitable native system is portable, the requirement of low-power consumption.

Although in conjunction with the accompanying drawings preferred embodiment of the present utility model is described above; but this utility model is not limited to the above-mentioned specific embodiment; the above-mentioned specific embodiment only is schematic; be not restrictive; those of ordinary skill in the art is under enlightenment of the present utility model; not breaking away under the scope situation that this utility model aim and claim protects, can also make a lot of forms, these all belong within the protection domain of the present utility model.

Claims (9)

1. a portable intelligent integrated wireless monitor system that is used for spacer assembly is characterized in that, this system comprises that the wireless monitoring signals collecting sends subsystem and wireless monitoring signal receiving subsystem;

Described wireless monitoring signals collecting sends subsystem and comprises multi-parameter life sign detected transmission module, heart and lung sounds detected transmission module and wireless communication module;

Described multi-parameter life sign detected transmission module comprises multi-parameter monitoring unit and wireless communication data link unit; Described heart and lung sounds detected transmission module comprises heart and lung sounds detection module and heart and lung sounds signal wireless transmission module;

Described wireless monitoring signal receiving subsystem comprises multi-parameter life sign wireless receiving module, demonstration and operational module, heart and lung sounds signal wireless receiver module, auscultation module and wireless communication module;

Described multi-parameter monitoring unit is transferred to described demonstration and operational module with its detected patient physiological signals via described wireless communication data link unit and described multi-parameter life sign wireless receiving module; Described heart and lung sounds detection module is transferred to described auscultation module with its detected heart and lung sounds signal via described heart and lung sounds signal wireless transmission module and described heart and lung sounds signal wireless receiver module;

Described wireless monitoring signals collecting transmission subsystem and described wireless monitoring signal receiving subsystem transmit and received speech signal by described wireless communication module separately.

2. the portable intelligent integrated wireless monitor system that is used for spacer assembly according to claim 1, it is characterized in that the demonstration of described wireless monitoring signal receiving subsystem and operational module are transferred to described multi-parameter monitoring unit with the operational order of input via described multi-parameter life sign wireless receiving module and described wireless communication data link unit.

3. the portable intelligent integrated wireless monitor system that is used for spacer assembly according to claim 1, it is characterized in that, described multi-parameter monitoring unit comprises microprocessor, show and operational module, electrocardio/breathing/measurement of bldy temperature submodule, the blood pressure measurement submodule, Oximetry submodule and expansion serial ports, described electrocardio/breathing/measurement of bldy temperature submodule, described blood pressure measurement submodule and described Oximetry submodule send to described microprocessor with patient's vital sign parameter signals of gathering via the expansion serial ports, and described microprocessor is transferred to described multi-parameter life sign wireless receiving module with output signal via described wireless communication data link unit; The unitary demonstration of described multi-parameter monitoring is connected with described microprocessor with operational module.

4. the portable intelligent integrated wireless monitor system that is used for spacer assembly according to claim 3, it is characterized in that the unitary demonstration of described multi-parameter monitoring comprises liquid crystal display, keyboard and the alarm device that links to each other with described microprocessor with operational module.

5. the portable intelligent integrated wireless monitor system that is used for spacer assembly according to claim 3 is characterized in that described microprocessor is embedded in the described multi-parameter life sign detected transmission module.

6. the portable intelligent integrated wireless monitor system that is used for spacer assembly according to claim 1, it is characterized in that, described heart and lung sounds detected transmission module comprises heart and lung sounds detection module and heart and lung sounds signal wireless transmission module, described heart and lung sounds detection module comprises heart and lung sounds pick off and amplification filtering circuit, and the heart and lung sounds signal of described heart and lung sounds sensor acquisition is given described heart and lung sounds signal wireless transmission module via the amplification filtering circuit transmission of described heart and lung sounds detection module.

7. the portable intelligent integrated wireless monitor system that is used for spacer assembly according to claim 1, it is characterized in that, described wireless communication module comprises the audio collection amplifying circuit, the described audio collection amplifying circuit that full duplex radio telecommunication circuit and amplifier circuit for sound frequency signal, described wireless monitoring signals collecting send the described wireless communication module of any one subsystem in subsystem and two subsystems of described wireless monitoring signal receiving subsystem is transferred to described amplifier circuit for sound frequency signal in another subsystem via the described full duplex radio telecommunication circuit in the described full duplex radio telecommunication circuit in the same subsystem and another subsystem successively with audio signal.

8. the portable intelligent integrated wireless monitor system that is used for spacer assembly according to claim 1, it is characterized in that, described heart and lung sounds signal wireless transmission module is the ANTENNAUDIO module, described ANTENNAUDIO module comprises A/D convertor circuit and transtation mission circuit, and the heart and lung sounds signal of gathering from described heart and lung sounds detection module is transferred to described heart and lung sounds signal wireless receiver module via the A/D convertor circuit and the transtation mission circuit of described ANTENNAUDIO module successively.

9. the portable intelligent integrated wireless monitor system that is used for spacer assembly according to claim 1, it is characterized in that, described heart and lung sounds signal wireless receiver module comprises receiving circuit, DA change-over circuit and amplification filtering circuit, gathers from the heart and lung sounds signal of described heart and lung sounds signal wireless transmission module and gives described auscultation module via receiving circuit, DA change-over circuit and the amplification filtering circuit transmission of described heart and lung sounds signal wireless receiver module successively.

Images