CN104138256A - Human body physiological information detection equipment - Google Patents
Human body physiological information detection equipment Download PDFInfo
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- CN104138256A CN104138256A CN201310185614.7A CN201310185614A CN104138256A CN 104138256 A CN104138256 A CN 104138256A CN 201310185614 A CN201310185614 A CN 201310185614A CN 104138256 A CN104138256 A CN 104138256A
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- receiving system
- processing host
- harvester
- human body
- human physiology
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- Measurement And Recording Of Electrical Phenomena And Electrical Characteristics Of The Living Body (AREA)
- Measuring And Recording Apparatus For Diagnosis (AREA)
Abstract
The invention discloses human body physiological information detection equipment. The equipment comprises a physiological information processing host, an acquiring device and a receiving device, wherein the acquiring device is used for acquiring and wirelessly sending human body physiological information, the receiving device is used for receiving the human body physiological information sent by the acquiring device and transmitting the human body physiological information to the processing host through a lead, and processing software is preset on the physiological information processing host and used for processing the human body physiological information transmitted by the receiving device. According to the human body physiological information detection equipment, the processing host is prevented from being directly connected to a human body through a lead, larger movement space is given to a detected person, continuous monitoring is facilitated, and existing detection equipment can be upgraded conveniently and rapidly at a low cost.
Description
Technical field
The present invention relates to a kind of armarium, particularly a kind of Human Physiology information detecting apparatus.
Background technology
In medical apparatus and instruments field, electrocardiograph, electroencephalograph, electromyograph(EMG are all conventional equipment.The basic comprising of current these equipment is: as shown in Figure 1, comprise a host C 0, main frame can complete analyses such as electrocardio/brain electricity/electromyographic signal time domain frequency domains and have the functions such as demonstration, printing; Also comprise in addition multiple electrodes, shown in Fig. 1 three is respectively T11, T12, T13, and each electrode is connected on main frame by a conducting wire W.When use, electrode is placed on the specific part of human body, during such as measurement electrocardio, multiple electrodes are placed on the different parts of chest and extremity, while measuring brain electricity, multiple electrodes are placed on the diverse location of head, and electrode is transferred to main frame for detection of the signal of telecommunication of human body and by the signal of telecommunication collecting by conducting wire, carry out analyzing and processing for main frame.Current this equipment is owing to there being numerous conducting wires, make troubles to detection, under the situation of particularly monitoring continuously, detected person's range of activity is limited, can not leave around main frame, otherwise the electrode that is placed on human body can only be moved away, suspend and detect, to provide certain activity space to detected person, such as the particular case such as visiting the restroom.
Summary of the invention
The object of the present invention is to provide a kind of Human Physiology information detecting apparatus easy to use, be intended to solve in existing checkout equipment and carry out between the main frame of signal analysis and processing and the electrode of acquired signal, being provided with too much conducting wire, the problem of making troubles to detection.
The invention provides a kind of Human Physiology information detecting apparatus, comprise physiologic information processing host, harvester, receiving system, described harvester is used for gathering Human Physiology information and sends by wireless, described receiving system flows to processing host for receiving the Human Physiology information that harvester sends and Human Physiology information exchange being crossed to wire, and described physiologic information processing host is preset with process software and carries the Human Physiology information of coming for the treatment of receiving system.
Preferably, described harvester comprises 2 above proximal electrodes, and each proximal electrode comprises the sensor being arranged in a housing, an analog-to-digital conversion module, a near-end wireless transport module, a power supply; Described receiving system comprises 2 above remote electrodes, and each remote electrode comprises the far-end wireless transport module being arranged in a housing; The proximal electrode number of described harvester is consistent with the remote electrode number of receiving system, forms 2 pairs of above proximal electrode and remote electrodes, and each remote electrode is arranged on the outside of processing host, is connected to main frame by conducting wire independently.More preferably, each proximal electrode also comprises a signal amplification module, and each far-end electricity level also comprises a signal attenuation module.
Preferably, described harvester comprises 2 above probe and near-end transmission control unit (TCU)s, and each probe comprises the sensor being arranged in a housing, an analog-to-digital conversion module; Near-end transmission control unit (TCU) comprises the near-end wireless transport module being arranged in a housing, an acquisition control circuit, a power supply, and each probe is connected to near-end transmission control unit (TCU) by conducting wire independently.Described receiving system comprises the far-end wireless transport module being arranged in a housing, a reception control circuit; Described receiving system is arranged on the outside of processing host, is connected to main frame by a conducting wire.More preferably, described receiving system can also be arranged on the inside of processing host, and described processing host is a portable main machine.
Human Physiology information detecting apparatus provided by the invention, at near-end, the harvester that is placed on human body has used wireless transport module, at far-end, be provided with the receiving system being connected with main frame, in receiving system, be also provided with wireless transport module, it is mutual that near-end and far-end carry out signal by wireless module, avoid being directly connected to human body with conducting wire from main frame, given detected person more activity space, brought convenience to monitoring continuously.
Brief description of the drawings
A kind of Human Physiology information detecting apparatus schematic diagram of Fig. 1, prior art.
Fig. 2, a kind of Human Physiology information detecting apparatus schematic diagram provided by the invention.
Fig. 3, a kind of Human Physiology information detecting apparatus structural representation provided by the invention.
Fig. 4, another kind of Human Physiology information detecting apparatus structural representation provided by the invention.
Detailed description of the invention
In order to make object of the present invention, technical scheme and advantage clearer, below in conjunction with drawings and the specific embodiments, the present invention is further elaborated.Should be appreciated that specific embodiment described herein, only for explaining the present invention, is not intended to limit the present invention.
Embodiment mono-
As shown in Figure 2, a kind of Human Physiology information detecting apparatus that the present embodiment provides, comprise physiologic information processing host C0, harvester S, receiving system R, harvester S is used for gathering Human Physiology information and sends by wireless, receiving system R flows to processing host C0 for receiving the Human Physiology information that harvester S sends and Human Physiology information exchange being crossed to wire W, and physiologic information processing host C0 is preset with process software and carries the Human Physiology information of coming for the treatment of receiving system R.Human Physiology information includes but not limited to ecg information, brain electric information, myoelectric information.
Embodiment bis-
As shown in Figure 3, a kind of Human Physiology information detecting apparatus that the present embodiment provides, comprise physiologic information processing host C0, harvester S0, receiving system R0, harvester S0 is used for gathering Human Physiology information and sends by wireless, receiving system R0 flows to processing host C0 for receiving the Human Physiology information that harvester S0 sends and Human Physiology information exchange being crossed to wire, and physiologic information processing host C0 is preset with process software and carries the Human Physiology information of coming for the treatment of receiving system R0.Harvester S0 comprises 2 above proximal electrodes, and in Fig. 3, signal draws 3 proximal electrodes, is respectively DN1, DN2, DN3.Each proximal electrode comprises the sensor being arranged in a small shell, an analog-to-digital conversion module, a near-end wireless transport module, a power supply.Sensor is for responding to the physiologic information of human body, analog-to-digital conversion module is for converting the physiologic information of the human body of analog quantity to digital signal, near-end wireless transport module is used for sending digital physiological signal, and power supply is for powering to sensor, analog-to-digital conversion module, near-end wireless transport module.Power supply is button cell preferably.Receiving system R0 comprises 2 above remote electrodes, and in Fig. 3, signal draws 3 remote electrodes, is respectively DF1, DF2, DF3.Each remote electrode comprises the far-end wireless transport module being arranged in a small shell.Far-end wireless transport module is for receiving the wireless human body physiologic information that harvester S0 sends.Therefore, the proximal electrode number of harvester S0 is consistent with the remote electrode number of receiving system R0, and in Fig. 3, signal draws proximal electrode and the remote electrode of 3 pairs.As shown in Figure 3, receiving system R0 is arranged on the outside of processing host C0, is connected to C0 by conducting wire.It is the outside that each remote electrode is arranged on processing host C0, each remote electrode is connected to processing host by conducting wire independently, in Fig. 3, have 3 remote electrodes, have 3 conducting wires to pick out from 3 remote electrodes respectively, the other end of conducting wire all accesses processing host C0.More preferably, each proximal electrode can also comprise a signal amplification module, for wireless sending again after Human Physiology information is amplified, increase signal intensity, can avoid distortion and expand tested human body and the distance of processing host C0, correspondingly, each far-end electricity level can also comprise a signal attenuation module, for the Human Physiology information receiving is decayed, process for the processing host C0 of rear end.Processing host C0 can be preset with the software of various signal processing, Human Physiology information can be carried out to the functions such as spectrum analysis, printout.
Embodiment tri-
As shown in Figure 4, a kind of Human Physiology information detecting apparatus that the present embodiment provides, comprise physiologic information processing host C0, harvester S1, receiving system R1, harvester S1 is used for gathering Human Physiology information and sends by wireless, receiving system R1 flows to processing host C0 for receiving the Human Physiology information that harvester S1 sends and Human Physiology information exchange being crossed to wire, and physiologic information processing host C0 is preset with process software and carries the Human Physiology information of coming for the treatment of receiving system R1.Harvester S1 comprises 2 above probe and near-end transmission control unit (TCU) NC, and 3 probes shown in Fig. 4, are respectively T1, T2, T3.Each probe comprises the sensor being arranged in a small shell, an analog-to-digital conversion module, and sensor is for responding to the physiologic information of human body, and analog-to-digital conversion module is for converting the physiologic information of the human body of analog quantity to digital signal.Each probe is connected to near-end transmission control unit (TCU) NC by conducting wire independently.Near-end transmission control unit (TCU) NC comprises the near-end wireless transport module being arranged in a small shell, an acquisition control circuit, a power supply.Near-end wireless transport module is used for sending digital physiological signal, acquisition control circuit is for controlling three information that probe sends of wireless transport module time-division processing transmitting, and power supply is for powering to sensor, analog-to-digital conversion module, near-end wireless transport module, acquisition control circuit.Receiving system R1 comprises the far-end wireless transport module being arranged in a small shell, a reception control circuit.Far-end wireless transport module is for receiving the wireless human body physiologic information that harvester S0 sends, and reception control circuit is for controlling the wireless human body physiologic information that far-end wireless receiving transport module timesharing reception & disposal harvester S0 sends.Receiving system R1 is arranged on the outside of processing host C0, is connected to main frame by a conducting wire.
Between Human Physiology information detecting apparatus near-end provided by the invention and far-end, carry out signal with wireless module mutual, avoided being directly connected to human body with conducting wire from processing host, give detected person more activity space, bring convenience to monitoring continuously.In addition, under the guidance of above-described embodiment, the current widely used checkout equipment of can upgrading easily.Checkout equipment in above-described embodiment, conducting wire and interface in the conducting wire between receiving system and main frame and Interface design one-tenth and current widely used checkout equipment between electrode and main frame are consistent.When renewal, only need the electrode of current widely used checkout equipment to replace with the harvester described in above-described embodiment and receiving system.Thus can be easily, rapidly, the existing checkout equipment of upgrading at low cost.
In addition, processing host C0 can also be designed to portable main machine, receiving system R1 be arranged on to the inside of processing host C0.
Disclosed above is only preferred embodiment of the present invention, certainly can not limit with this interest field of the present invention, and the equivalent variations of therefore doing according to the present patent application the scope of the claims, still belongs to the scope that the present invention is contained.
Claims (6)
1. a Human Physiology information detecting apparatus, comprise physiologic information processing host, harvester, receiving system, it is characterized in that, described harvester is used for gathering Human Physiology information and sends by wireless, described receiving system flows to processing host for receiving the Human Physiology information that harvester sends and Human Physiology information exchange being crossed to wire, and described physiologic information processing host is preset with process software and carries the Human Physiology information of coming for the treatment of receiving system.
2. checkout equipment as claimed in claim 1, it is characterized in that, described harvester comprises 2 above proximal electrodes, and each proximal electrode comprises the sensor being arranged in a housing, an analog-to-digital conversion module, a near-end wireless transport module, a power supply; Described receiving system comprises 2 above remote electrodes, and each remote electrode comprises the far-end wireless transport module being arranged in a housing; The proximal electrode number of described harvester is consistent with the remote electrode number of receiving system, forms 2 pairs of above proximal electrode and remote electrodes, and each remote electrode is arranged on the outside of processing host, is connected to main frame by conducting wire independently.
3. checkout equipment as claimed in claim 2, is characterized in that, each proximal electrode also comprises a signal amplification module, and each far-end electricity level also comprises a signal attenuation module.
4. checkout equipment as claimed in claim 1, is characterized in that, described harvester comprises 2 above probe and near-end transmission control unit (TCU)s, and each probe comprises the sensor being arranged in a housing, an analog-to-digital conversion module; Near-end transmission control unit (TCU) comprises the near-end wireless transport module being arranged in a housing, an acquisition control circuit, a power supply, and each probe is connected to near-end transmission control unit (TCU) by conducting wire independently.
5. checkout equipment as claimed in claim 4, is characterized in that, described receiving system comprises the far-end wireless transport module being arranged in a housing, a reception control circuit; Described receiving system is arranged on the outside of processing host, is connected to main frame by a conducting wire.
6. checkout equipment as claimed in claim 5, is characterized in that, described receiving system can also be arranged on the inside of processing host, and described processing host is a portable main machine.
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CN201310185614.7A CN104138256A (en) | 2013-05-10 | 2013-05-10 | Human body physiological information detection equipment |
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CN201310185614.7A CN104138256A (en) | 2013-05-10 | 2013-05-10 | Human body physiological information detection equipment |
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Citations (7)
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CN101032397A (en) * | 2007-04-05 | 2007-09-12 | 上海交通大学 | Portable wireless communication multichannel brain electric data collecting instrument |
CN101357061A (en) * | 2007-08-01 | 2009-02-04 | 圣美申医疗科技(上海)有限公司 | No-electrode line wireless physiological phenomenon description and record system |
US20090062670A1 (en) * | 2007-08-30 | 2009-03-05 | Gary James Sterling | Heart monitoring body patch and system |
CN201445522U (en) * | 2009-05-21 | 2010-05-05 | 陈笠 | Novel heart rate monitor |
CN102160785A (en) * | 2011-04-21 | 2011-08-24 | 华中科技大学 | 12-lead wireless realtime Electrocardiograph monitoring and analysis system |
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2013
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Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
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CN1907216A (en) * | 2005-08-01 | 2007-02-07 | 周常安 | Paster style physiological monitoring device, system and network |
US20070149887A1 (en) * | 2005-12-22 | 2007-06-28 | Samsung Electronics Co., Ltd. | Portable electrocardiogram measurement device |
CN101032397A (en) * | 2007-04-05 | 2007-09-12 | 上海交通大学 | Portable wireless communication multichannel brain electric data collecting instrument |
CN101357061A (en) * | 2007-08-01 | 2009-02-04 | 圣美申医疗科技(上海)有限公司 | No-electrode line wireless physiological phenomenon description and record system |
US20090062670A1 (en) * | 2007-08-30 | 2009-03-05 | Gary James Sterling | Heart monitoring body patch and system |
CN201445522U (en) * | 2009-05-21 | 2010-05-05 | 陈笠 | Novel heart rate monitor |
CN102160785A (en) * | 2011-04-21 | 2011-08-24 | 华中科技大学 | 12-lead wireless realtime Electrocardiograph monitoring and analysis system |
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Application publication date: 20141112 |