CN205006879U - Wireless monitoring facilities of vital sign parameter - Google Patents
Wireless monitoring facilities of vital sign parameter Download PDFInfo
- Publication number
- CN205006879U CN205006879U CN201520722148.6U CN201520722148U CN205006879U CN 205006879 U CN205006879 U CN 205006879U CN 201520722148 U CN201520722148 U CN 201520722148U CN 205006879 U CN205006879 U CN 205006879U
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- microprocessor chip
- wireless communication
- vital sign
- communication module
- outfan
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Abstract
The utility model discloses a wireless monitoring facilities of vital sign parameter, it includes microprocessor chip, electrocardio detection module, respiratory frequency detection module, pulse oxygen saturation detection module and computer, the microprocessor chip is connected with a wireless communication module and medical medicine electronic infusion pump respectively, electrocardio detection module's output, respiratory frequency detection module's output and pulse oxygen saturation detection module's output all is connected with the input of microprocessor chip, the microprocessor chip is through a wireless communication module and computer link. Through using the utility model discloses a monitoring facilities can bring very big convenience for the doctor, alleviates doctor's work burden, improves work efficiency. The utility model relates to a but a wireless monitoring facilities of vital sign parameter wide application is in medical field.
Description
Technical field
This utility model relates to wireless monitoring device, particularly relates to a kind of vital sign parameter wireless monitoring device based on medical electronic infusion pump.
Background technology
At present, medical electronic infusion pump, such as, electronic analgesia pump, chemotherapeutics electronic infusion pump, insulin electronic infusion pump, nutrient drug electronic infusion pump and antibiotics electronic infusion pump etc., be widely used in medical institutions, clinicist and nurse by arranging the infusion parameters of medical electronics front pump, thus can adjust infusion of drug amount.And due to the pharmacokinetics of various medicine and the effect of pharmacodynamics, and the diversity of individual patient, therefore, clinician and nurse need close observation at any time to pay close attention to the practical situation of patient, as the vital sign parameter of patient, and then the corresponding adjustment carrying out infusion parameters is arranged.But, current vital sign parameter monitoring device cannot realize wireless transmission, therefore, doctor will understand the vital sign parameter of patient, then need frequently repeatedly to hurry back and forth between doctor's office and ward or other medical supply unit (as β-Ultrasound Room, radiology department etc.), time-consuming bothersome effort is taken a lot of trouble, and cannot recognize the concrete condition of patient in time, thus is difficult to carry out adjustment setting to infusion of drug amount in time.
Utility model content
In order to solve the problems of the technologies described above, the purpose of this utility model is to provide a kind of vital sign parameter wireless monitoring device based on medical electronic infusion pump.
The technical scheme that this utility model adopts is: a kind of vital sign parameter wireless monitoring device, it comprises microprocessor chip, ECG detecting module, respiratory frequency detection module, pulse oxygen saturation detection module and computer, described microprocessor chip is connected to the first wireless communication module and medical electronic infusion pump, the outfan of described ECG detecting module, the outfan of respiratory frequency detection module and the outfan of pulse oxygen saturation detection module are all connected with the input of microprocessor chip, described microprocessor chip is connected with computer by the first wireless communication module.
Further, described ECG detecting module comprises left electrode, right electrode, the first signal amplification circuit, the first filter circuit and the first analog-digital converter, described left electrode is all connected with the input of the first signal amplification circuit with right electrode, and the outfan of described first signal amplification circuit is connected with the first analog-digital converter and then with the input of microprocessor chip by the first filter circuit successively.
Further, described respiratory frequency detection module comprises apnea detector, secondary signal amplifying circuit, the second filter circuit and the second analog-digital converter, and the outfan of described apnea detector passes through secondary signal amplifying circuit, the second filter circuit and the second analog-digital converter successively and then is connected with the input of microprocessor chip.
Further, described apnea detector comprises elastic binders and is arranged on the shell on elastic binders, and described elastic binders is through shell, and the side of described elastic binders is fixedly connected with shell; The inner chamber of described shell is respectively equipped with Hall sensor array and permanent magnet, and described permanent magnet is arranged on elastic binders, and the magnetic pole strength of described permanent magnet is to Hall sensor array.
Further, it also comprises blood pressure detecting module, and the described outfan of blood pressure detecting module is connected with the input of microprocessor chip; Described blood pressure detecting module is blood pressure detecting bracelet, and described blood pressure detecting bracelet comprises for wearing at user bracelet on hand, and described bracelet is provided with pressure transducer, and the outfan of described pressure transducer is connected with the input of microprocessor chip.
Further, described computer comprises central processing unit, described central processing unit is connected to the second wireless communication module, keyboard and display screen, described microprocessor chip successively by the first wireless communication module with the second wireless communication module and then be connected with central processing unit.
Further, described display screen number is that multiple, described computers also comprises split screen device, and described central processing unit is connected by split screen device and then with multiple display screen.
Further, described first wireless communication module is zigbee wireless communication module, and described zigbee wireless communication module comprises zigbee chip, signal sending circuit, signal receiving circuit and antenna; Described signal sending circuit comprises the 3rd signal amplification circuit and upconverter, and the outfan of described zigbee chip is successively by the 3rd signal amplification circuit and upconverter and then be connected with the input of antenna; Described signal receiving circuit comprises low-converter, the 3rd filter circuit and the 4th signal amplification circuit, and the outfan of described antenna passes through low-converter, the 3rd filter circuit and the 4th signal amplification circuit successively and then is connected with the input of zigbee chip; Described zigbee chip is connected with microprocessor chip.
Further, it also comprises mobile terminal, and described microprocessor chip is connected with mobile terminal by the first wireless communication module.
Further, described mobile terminal comprises smart mobile phone, IPAD and PDA.
The beneficial effects of the utility model are: the outfan of ECG detecting module of the present utility model, the outfan of respiratory frequency detection module and the outfan of pulse oxygen saturation detection module are all connected with the input of microprocessor chip, and described microprocessor chip is connected with computer by the first wireless communication module, therefore, utilize ECG detecting module, the hrv parameter that respiratory frequency detection module and pulse oxygen saturation detection module collect, respiratory frequency parameter and pulse oxygen saturation parameter all can be wirelessly transmitted to and be arranged on the computer of doctor's office, like this by checking the vital sign parameter that computer receives, doctor also can recognize the actual concrete condition of patient in office, and the setting of infusion parameters can be carried out in time to adjust infusion of drug amount in ward or other medical supply unit, and without the need to frequently repeatedly hurrying back and forth between doctor's office and ward or other medical supply unit.Can obtain thus, by using monitoring equipment of the present utility model, can be bringing great convenience property of doctor, alleviating the work load of doctor, increasing work efficiency.
Accompanying drawing explanation
Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is described further:
Fig. 1 is the structured flowchart of a kind of vital sign parameter wireless monitoring device of this utility model;
Fig. 2 is a specific embodiment structured flowchart of ECG detecting module in a kind of vital sign parameter wireless monitoring device of this utility model;
Fig. 3 is a specific embodiment structured flowchart of respiratory frequency detection module in a kind of vital sign parameter wireless monitoring device of this utility model;
Fig. 4 is a specific embodiment structured flowchart of the first wireless communication module in a kind of vital sign parameter wireless monitoring device of this utility model.
Detailed description of the invention
As shown in Figures 1 to 4, a kind of vital sign parameter wireless monitoring device, it comprises microprocessor chip, ECG detecting module, respiratory frequency detection module, pulse oxygen saturation detection module and computer, described microprocessor chip is connected to the first wireless communication module and medical electronic infusion pump, the outfan of described ECG detecting module, the outfan of respiratory frequency detection module and the outfan of pulse oxygen saturation detection module are all connected with the input of microprocessor chip, described microprocessor chip is connected with computer by the first wireless communication module.Described microprocessor chip, ECG detecting module, respiratory frequency detection module, pulse oxygen saturation detection module, medical electronic infusion pump and the first wireless communication module are all arranged in ward or other medical supply unit, and described computer is then arranged in the office of doctor.
Obtained by above-mentioned, this utility model is provided with the first wireless communication module, therefore, utilize ECG detecting module, the hrv parameter that respiratory frequency detection module and pulse oxygen saturation detection module collect, respiratory frequency parameter and pulse oxygen saturation parameter all can be wirelessly transmitted to and be arranged on the computer of doctor's office, check the vital sign parameter (hrv parameter that computer receives like this, respiratory frequency parameter and pulse oxygen saturation parameter), doctor just can recognize the actual concrete condition of patient in office, then doctor can according to the patient recognized actual concrete condition thus judge whether to need to adjust infusion of drug amount, if desired, doctor just can arrive ward in time thus the infusion of drug amount of patient be carried out to the adjustment setting of infusion parameters.Can obtain thus, by using monitoring equipment of the present utility model, doctor is then without the need to frequently repeatedly hurrying back and forth between doctor's office and ward or other medical supply unit, and the adjustment setting of infusion parameters can be carried out in time to the infusion of drug amount of patient, be bringing great convenience property of doctor like this, alleviate the work load of doctor, increase work efficiency.
Be further used as preferred embodiment, described computer comprises central processing unit, described central processing unit is connected to the second wireless communication module, keyboard and display screen, described microprocessor chip successively by the first wireless communication module with the second wireless communication module and then be connected with central processing unit.Preferably, described display screen number is that multiple, described computers also comprises split screen device, and described central processing unit is connected by split screen device and then with multiple display screen.
Because the central processing unit of described computer is connected with keyboard, described microprocessor chip is connected with medical electronic infusion pump, therefore, doctor is by input through keyboard infusion parameters, and described infusion parameters can successively by the second wireless communication module and the first wireless communication module and then be sent on microprocessor chip, the infusion parameters received is sent on medical electronic infusion pump by described microprocessor chip, to realize the infusion parameters setting of infusion of drug amount.Such doctor, without the need to ward, also can realize the infusion parameters setting of infusion of drug amount, improve convenience of the present utility model and real-time further.
Be further used as preferred embodiment, described ECG detecting module comprises left electrode, right electrode, the first signal amplification circuit, the first filter circuit and the first analog-digital converter, described left electrode is all connected with the input of the first signal amplification circuit with right electrode, and the outfan of described first signal amplification circuit is connected with the first analog-digital converter and then with the input of microprocessor chip by the first filter circuit successively.Described left electrode and right electrode are for adopting heart rate signal.Obtained by above-mentioned, ECG detecting module of the present utility model have structure simple, be easy to realize, low cost and other advantages.
Be further used as preferred embodiment, described respiratory frequency detection module comprises apnea detector, secondary signal amplifying circuit, the second filter circuit and the second analog-digital converter, and the outfan of described apnea detector passes through secondary signal amplifying circuit, the second filter circuit and the second analog-digital converter successively and then is connected with the input of microprocessor chip.
Be further used as preferred embodiment, described apnea detector comprises elastic binders and is arranged on the shell on elastic binders, and described elastic binders is through shell, and the side of described elastic binders is fixedly connected with shell; The inner chamber of described shell is respectively equipped with Hall sensor array and permanent magnet, described permanent magnet is arranged on elastic binders, the magnetic pole strength of described permanent magnet is to Hall sensor array, and the outfan of described Hall sensor array is connected with the input of secondary signal amplifying circuit.For above-mentioned apnea detector, its operation principle for: the bellyband that described apnea detector adopts is elastic binders, by tensile elasticity bellyband, relative motion can occur between described permanent magnet and Hall sensor array; When the wearer inhales the air, abdominal cavity is expanded, and is equivalent to the elastic binders that stretched, when the wearer exhales the air, the elastic binders be before stretched recovers original state, can obtain thus, between user is breathed, elastic binders will inevitably drive permanent magnet to do periodic reciprocating motion, the magnetic field through Hall sensor array is caused to change, by the Hall sensor array to changes of magnetic field sensitivity, frequency and the amplitude of permanent magnet motion can be obtained, and then obtain frequency and the intensity of user breathing.And for described apnea detector, it is not limited in this detailed description of the invention, it can also paste by electrocardiogram the mode that obtains respiration information or alternate manner realizes.
Be further used as preferred embodiment, it also comprises blood pressure detecting module, and the described outfan of blood pressure detecting module is connected with the input of microprocessor chip; Described blood pressure detecting module is blood pressure detecting bracelet, and described blood pressure detecting bracelet comprises for wearing at user bracelet on hand, and described bracelet is provided with pressure transducer, and the outfan of described pressure transducer is connected with the input of microprocessor chip.
Be further used as preferred embodiment, described first wireless communication module is zigbee wireless communication module, and described zigbee wireless communication module comprises zigbee chip, signal sending circuit, signal receiving circuit and antenna; Described signal sending circuit comprises the 3rd signal amplification circuit and upconverter, and the outfan of described zigbee chip is successively by the 3rd signal amplification circuit and upconverter and then be connected with the input of antenna; Described signal receiving circuit comprises low-converter, the 3rd filter circuit and the 4th signal amplification circuit, and the outfan of described antenna passes through low-converter, the 3rd filter circuit and the 4th signal amplification circuit successively and then is connected with the input of zigbee chip; Described zigbee chip is connected with microprocessor chip.Can obtain thus, described zigbee wireless communication module has the advantage that structure is simple, be easy to realization.
When the first wireless communication module is zigbee wireless communication module, the second described wireless communication module then adopts zigbee wireless communication module to realize accordingly.In addition, for the first described wireless communication module and the second wireless communication module, their type can also include but not limited to WIFI wireless communication module, 3G wireless communication module, 4G wireless communication module, blue tooth wireless communication module etc.
Be further used as preferred embodiment, it also comprises mobile terminal, and described microprocessor chip is connected with mobile terminal by the first wireless communication module.Described mobile terminal comprises smart mobile phone, IPAD and PDA.Can obtain thus, the hrv parameter, respiratory frequency parameter and the pulse oxygen saturation parameter that utilize ECG detecting module, respiratory frequency detection module and pulse oxygen saturation detection module to collect all can be wirelessly transmitted on mobile terminal, so then can be convenient to doctor whenever and wherever possible by checking that the vital sign parameter (hrv parameter, respiratory frequency parameter and pulse oxygen saturation parameter) that mobile terminal receives understands the practical situation of patient, thus more to arrive ward or other medical supply unit be in time that the infusion of drug amount of patient adjusts setting accordingly.Or; because mobile terminal can be provided with signal input device usually; as button or touch screen; therefore; doctor can also by the signal input device input infusion parameters of mobile terminal; described infusion parameters is by the first wireless communication module and then be wirelessly transmitted on medical electronic infusion pump; to realize the adjustment setting of the infusion of drug amount of patient; such doctor then also can carry out adjustment for the infusion of drug amount of patient set without the need to arriving ward or other medical supply unit; can obtain thus, so more can improve convenience of the present utility model and operating flexibility.
Finally it should be noted that, this utility model only relates to structural improvement, do not relate to the improvement on software approach, although the microprocessor chip in this utility model and central processing unit relate to the content of data signal transmission, but it is all adopt prior art means, does not have any improvement in data processing method, therefore, this utility model does not relate to the improvement in the methods such as date processing, does not namely relate to the improvement on any software.
More than that better enforcement of the present utility model is illustrated, but this utility model is created and is not limited to described embodiment, those of ordinary skill in the art also can make all equivalent variations or replacement under the prerequisite without prejudice to this utility model spirit, and these equivalent distortion or replacement are all included in the application's claim limited range.
Claims (10)
1. a vital sign parameter wireless monitoring device, it is characterized in that: it comprises microprocessor chip, ECG detecting module, respiratory frequency detection module, pulse oxygen saturation detection module and computer, described microprocessor chip is connected to the first wireless communication module and medical electronic infusion pump, the outfan of described ECG detecting module, the outfan of respiratory frequency detection module and the outfan of pulse oxygen saturation detection module are all connected with the input of microprocessor chip, described microprocessor chip is connected with computer by the first wireless communication module.
2. a kind of vital sign parameter wireless monitoring device according to claim 1, it is characterized in that: described ECG detecting module comprises left electrode, right electrode, the first signal amplification circuit, the first filter circuit and the first analog-digital converter, described left electrode is all connected with the input of the first signal amplification circuit with right electrode, and the outfan of described first signal amplification circuit is connected with the first analog-digital converter and then with the input of microprocessor chip by the first filter circuit successively.
3. a kind of vital sign parameter wireless monitoring device according to claim 1, it is characterized in that: described respiratory frequency detection module comprises apnea detector, secondary signal amplifying circuit, the second filter circuit and the second analog-digital converter, the outfan of described apnea detector passes through secondary signal amplifying circuit, the second filter circuit and the second analog-digital converter successively and then is connected with the input of microprocessor chip.
4. a kind of vital sign parameter wireless monitoring device according to claim 3, it is characterized in that: described apnea detector comprises elastic binders and is arranged on the shell on elastic binders, described elastic binders is through shell, and the side of described elastic binders is fixedly connected with shell; The inner chamber of described shell is respectively equipped with Hall sensor array and permanent magnet, and described permanent magnet is arranged on elastic binders, and the magnetic pole strength of described permanent magnet is to Hall sensor array.
5. a kind of vital sign parameter wireless monitoring device according to claim 1, it is characterized in that: it also comprises blood pressure detecting module, the described outfan of blood pressure detecting module is connected with the input of microprocessor chip; Described blood pressure detecting module is blood pressure detecting bracelet, and described blood pressure detecting bracelet comprises for wearing at user bracelet on hand, and described bracelet is provided with pressure transducer, and the outfan of described pressure transducer is connected with the input of microprocessor chip.
6. a kind of vital sign parameter wireless monitoring device according to claim 1, it is characterized in that: described computer comprises central processing unit, described central processing unit is connected to the second wireless communication module, keyboard and display screen, described microprocessor chip successively by the first wireless communication module with the second wireless communication module and then be connected with central processing unit.
7. a kind of vital sign parameter wireless monitoring device according to claim 6, is characterized in that: described display screen number is that multiple, described computers also comprises split screen device, and described central processing unit is connected by split screen device and then with multiple display screen.
8. a kind of vital sign parameter wireless monitoring device according to claim 1, it is characterized in that: described first wireless communication module is zigbee wireless communication module, described zigbee wireless communication module comprises zigbee chip, signal sending circuit, signal receiving circuit and antenna; Described signal sending circuit comprises the 3rd signal amplification circuit and upconverter, and the outfan of described zigbee chip is successively by the 3rd signal amplification circuit and upconverter and then be connected with the input of antenna; Described signal receiving circuit comprises low-converter, the 3rd filter circuit and the 4th signal amplification circuit, and the outfan of described antenna passes through low-converter, the 3rd filter circuit and the 4th signal amplification circuit successively and then is connected with the input of zigbee chip; Described zigbee chip is connected with microprocessor chip.
9. a kind of vital sign parameter wireless monitoring device according to claim 1, is characterized in that: it also comprises mobile terminal, and described microprocessor chip is connected with mobile terminal by the first wireless communication module.
10. a kind of vital sign parameter wireless monitoring device according to claim 9, is characterized in that: described mobile terminal comprises smart mobile phone, IPAD and PDA.
Priority Applications (1)
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CN201520722148.6U CN205006879U (en) | 2015-09-17 | 2015-09-17 | Wireless monitoring facilities of vital sign parameter |
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CN201520722148.6U CN205006879U (en) | 2015-09-17 | 2015-09-17 | Wireless monitoring facilities of vital sign parameter |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US11039754B2 (en) | 2018-05-14 | 2021-06-22 | Baxter International Inc. | System and method for monitoring and determining patient parameters from sensed venous waveform |
US11039753B2 (en) | 2016-12-15 | 2021-06-22 | Baxter International Inc. | System and method for monitoring and determining patient parameters from sensed venous waveform |
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2015
- 2015-09-17 CN CN201520722148.6U patent/CN205006879U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US11039753B2 (en) | 2016-12-15 | 2021-06-22 | Baxter International Inc. | System and method for monitoring and determining patient parameters from sensed venous waveform |
US11950890B2 (en) | 2016-12-15 | 2024-04-09 | Baxter International Inc. | System and method for monitoring and determining patient parameters from sensed venous waveform |
US11039754B2 (en) | 2018-05-14 | 2021-06-22 | Baxter International Inc. | System and method for monitoring and determining patient parameters from sensed venous waveform |
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C14 | Grant of patent or utility model | ||
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CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160203 Termination date: 20180917 |