CN211911602U - Body signal acquisition, processing and transmitting system - Google Patents
Body signal acquisition, processing and transmitting system Download PDFInfo
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- CN211911602U CN211911602U CN201921637182.8U CN201921637182U CN211911602U CN 211911602 U CN211911602 U CN 211911602U CN 201921637182 U CN201921637182 U CN 201921637182U CN 211911602 U CN211911602 U CN 211911602U
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Abstract
The utility model provides a body signal acquisition, processing and sending system, which comprises an electroencephalogram acquisition device, a myoelectricity acquisition device, a terminal information sender and a host; the brain electricity collecting device is in signal connection with the host, the myoelectricity collecting device is electrically connected with the host, the myoelectricity collecting device is in signal connection with the host, the host is in signal connection with the terminal information transmitter, and the host is connected with an external terminal through the terminal information transmitter; the electroencephalogram/electromyogram quantitative evaluation method has the advantages that the electroencephalogram acquisition equipment, the electromyogram acquisition equipment and the host are combined, three modal signals of electroencephalogram/electromyogram are fused to carry out quantitative evaluation on spasm, a construction method of a nerve feedback model, the research and development of a electroencephalogram and electromyogram information acquisition device, the construction of diversified rehabilitation scenes in a VR system, an immersive human-computer interaction key technology is adopted, and the most suitable rehabilitation training model is matched according to the uploaded big data of the motion data of a patient, so that the method has a good development prospect.
Description
[ technical field ] A method for producing a semiconductor device
The utility model relates to a health signal acquisition device especially relates to a health signal acquisition handles and sending system.
[ background of the invention ]
At present, stroke becomes the first cause of death in China and is also the leading cause of disability of adults in China, and the stroke has the characteristics of high morbidity, high mortality and high disability rate. Most of patients who survive the stroke suffer from limb muscle tension spasm, and the patients are seriously hindered from returning to families and society. The existing spasm treatment methods mainly comprise a plurality of treatment methods including medicine and operation treatment, electrical stimulation therapy, physical therapist treatment, a motion rehabilitation robot and rehabilitation assistive training, but the methods cannot accurately and effectively guide a patient to carry out correct rehabilitation training, meanwhile, a large amount of patient rehabilitation training information is difficult to collect, the rehabilitation training contents of different patients cannot be effectively adjusted, at present, a nerve feedback model related to muscle spasm does not exist, a target point of spasm nerve feedback rehabilitation is lacked, a spasm rehabilitation training system integrating assessment and real-time nerve feedback does not exist clinically, and a virtual reality rehabilitation system lacks pertinence.
[ Utility model ] content
The utility model discloses aim at solves the rehabilitation training content that can't effectively adjust different patients that current health signal collection system exists, does not have the neural feedback model about muscle spasm at present, lacks the recovered target point of the neural feedback of spasm, and clinical not yet see aassessment and the integrative spasm rehabilitation training system of real-time neural feedback, and the recovered system of virtual reality lacks the problem of pertinence, and provides a health signal collection handles and transmitting system.
The utility model discloses a realize through following technical scheme: a body signal acquisition processing and transmitting system comprises an electroencephalogram acquisition device, a myoelectricity acquisition device, a terminal information transmitter and a host;
the brain electricity collection device is in signal connection with the host, the myoelectricity collection device is electrically connected with the host, the myoelectricity collection device is in signal connection with the host, the host is in signal connection with the terminal information transmitter, and the host is connected with an external terminal through the terminal information transmitter.
Furthermore, the electroencephalogram acquisition equipment comprises an electroencephalogram acquisition cover, an elastic band, an electroencephalogram signal device, a plurality of leads and electroencephalogram neurons;
the brain electricity gather the cover with the elastic cord is the integral type structure setting, the brain electricity gather the cover with the elastic cord is used for being fixed in the head, a plurality of brain electrical neuron distributes and covers in brain electricity is gathered, a plurality of wire one end is connected on a plurality of brain electrical neuron, just a plurality of wire other end is connected on the EEG signal ware, the EEG signal ware be used for gather and send brain electrical information extremely the host computer.
Furthermore, the myoelectricity acquisition equipment comprises a plurality of magic tapes, myoelectricity neurons and a lead;
the plurality of myoelectric neurons are arranged inside the magic tape, the magic tape is fixed on an arm, one ends of the plurality of leads are connected to the plurality of myoelectric neurons, and the other ends of the plurality of leads are connected to the host.
Furthermore, the muscle movement acquisition equipment comprises a plurality of muscle movement induction plates, muscle movement neurons and a muscle movement annunciator;
the myodynamic neuron is arranged in the myodynamic response plate, the myodynamic response plates are inserted into the magic tape and fixed on the arm, the myodynamic neuron is electrically connected with the myodynamic annunciator through a wire, and the myodynamic annunciator is connected with the host through a wireless module.
Further, the host comprises a VR system and a motion recognition camera;
the VR system is arranged on a wall body and used for providing standard demonstration for rehabilitation actions for a user;
the motion recognition camera is arranged below the VR system, is in signal connection with the VR system and is used for recognizing user actions, uploading the user actions to the terminal information transmitter and transmitting the user actions to the terminal;
further, the wireless module is one or more of WIFI, Bluetooth and GPRS.
Furthermore, the electroencephalogram signal device is connected with the host through a Bluetooth module.
The beneficial effects of the utility model reside in that: the electroencephalogram/electromyogram quantitative evaluation method has the advantages that the electroencephalogram acquisition equipment, the electromyogram acquisition equipment and the host are combined, three modal signals of electroencephalogram/electromyogram are fused to carry out quantitative evaluation on spasm, a construction method of a nerve feedback model, the research and development of a electroencephalogram and electromyogram information acquisition device, the construction of diversified rehabilitation scenes in a VR system, an immersive human-computer interaction key technology is adopted, and the most suitable rehabilitation training model is matched according to the uploaded big data of the motion data of a patient, so that the method has a good development prospect.
[ description of the drawings ]
Fig. 1 is a schematic structural view of an electroencephalogram acquisition device of the body signal acquisition, processing and transmission system of the utility model;
FIG. 2 is a schematic structural diagram of an electroencephalograph of the body signal acquisition, processing and transmission system of the present invention;
FIG. 3 is a structural diagram of the myoelectric collecting device and the myoelectric collecting device of the body signal collecting, processing and transmitting system of the present invention;
FIG. 4 is a schematic diagram of the body signal collecting, processing and transmitting system supporting the musical instrument;
reference numerals: 1. an electroencephalogram acquisition cover; 2. a head portion; 3. elastic bands; 4. an electroencephalogram signal device; 41. a circuit board; 5. a face; 6. brain electrical neurons; 7. a hand portion; 8. magic tape; 9. myoelectric neurons; 10. a muscle dynamic response plate; 11. a myokinetic neuron; 12. a VR system; 13. a terminal information transmitter; 14. motion recognition camera.
[ detailed description ] embodiments
The invention will be further described with reference to the accompanying drawings and specific embodiments:
the first embodiment is as follows:
as shown in fig. 1, 2, 3 and 4, a body signal collecting, processing and transmitting system comprises an electroencephalogram collecting device, a myoelectricity collecting device, a terminal information transmitter 13 and a host;
the brain electricity collection device is in signal connection with the host, the myoelectricity collection device is electrically connected with the host, the myoelectricity collection device is in signal connection with the host, the host is in signal connection with the terminal information transmitter 13, and the host is connected with an external terminal through the terminal information transmitter 13.
Preferably, the electroencephalogram acquisition equipment comprises an electroencephalogram acquisition cover 1, an elastic band 3, an electroencephalogram signal device 4, a plurality of leads and an electroencephalogram neuron 6;
the brain electricity is gathered and is covered 1 with elastic cord 3 is the integral type structure setting, brain electricity gather cover 1 with elastic cord 3 is used for being fixed in the head, a plurality of brain electrical neuron 6 distributes on brain electricity is gathered and is covered 1, a plurality of wire one end is connected on a plurality of brain electrical neuron 6, just a plurality of wire other end is connected on brain electrical signal ware 4, brain electrical signal ware 4 is used for gathering and sending brain electrical information extremely the host computer.
Preferably, the myoelectricity collecting device comprises a plurality of magic tapes 8, myoelectricity neurons 9 and a lead;
the myoelectric neurons 9 are arranged inside the magic tape 8, the magic tape 8 is fixed on the arm, one ends of the leads are connected to the myoelectric neurons 9, and the other ends of the leads are connected to the host.
Preferably, the muscle movement acquisition equipment comprises a plurality of muscle movement induction plates 10, muscle movement neurons 11 and a muscle movement annunciator;
the myodynamic neuron 11 is arranged in the myodynamic response plate 10, the myodynamic response plates 10 are inserted into the magic tape 8 and fixed on the arm, the myodynamic neuron 11 is electrically connected with the myodynamic annunciator through a lead, and the myodynamic annunciator is connected with the host through a wireless module.
Preferably, the host includes a VR system 12 and a motion recognition camera 14;
the VR system 12 is arranged on a wall body, and the VR system 12 is used for providing a user with a rehabilitation action specification demonstration;
the motion recognition camera 14 is arranged below the VR system 12, the motion recognition camera 14 is in signal connection with the VR system 12, and the motion recognition camera 14 is used for recognizing user actions, uploading the user actions to the terminal information transmitter 13, and transmitting the user actions to a terminal;
preferably, the wireless module is one or more of WIFI, bluetooth and GPRS.
Preferably, the electroencephalogram signal device 4 is connected with the host computer through a Bluetooth module.
Appropriate changes and modifications to the embodiments described above will become apparent to those skilled in the art from the disclosure and teachings of the foregoing description. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and changes to the present invention should fall within the protection scope of the claims of the present invention. Furthermore, although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.
Claims (7)
1. A body signal acquisition processing and transmitting system is characterized in that: the system comprises an electroencephalogram acquisition device, a myoelectricity acquisition device, a terminal information transmitter and a host;
the brain electricity collection device is in signal connection with the host, the myoelectricity collection device is electrically connected with the host, the myoelectricity collection device is in signal connection with the host, the host is in signal connection with the terminal information transmitter, and the host is connected with an external terminal through the terminal information transmitter.
2. The body signal acquisition processing and transmission system according to claim 1, wherein: the electroencephalogram acquisition equipment comprises an electroencephalogram acquisition cover, an elastic band, an electroencephalogram signal device, a plurality of leads and electroencephalogram neurons;
the brain electricity gather the cover with the elastic cord is the integral type structure setting, the brain electricity gather the cover with the elastic cord is used for being fixed in the head, a plurality of brain electrical neuron distributes and covers in brain electricity is gathered, a plurality of wire one end is connected on a plurality of brain electrical neuron, just a plurality of wire other end is connected on the EEG signal ware, the EEG signal ware be used for gather and send brain electrical information extremely the host computer.
3. The body signal acquisition processing and transmission system according to claim 1, wherein: the myoelectricity acquisition equipment comprises a plurality of magic tapes, myoelectricity neurons and leads;
the plurality of myoelectric neurons are arranged inside the magic tape, the magic tape is fixed on an arm, one ends of the plurality of leads are connected to the plurality of myoelectric neurons, and the other ends of the plurality of leads are connected to the host.
4. The body signal acquisition processing and transmission system according to claim 3, wherein: the muscle movement acquisition equipment comprises a plurality of muscle movement induction plates, muscle movement neurons and a muscle movement annunciator;
the myodynamic neuron is arranged in the myodynamic response plate, the myodynamic response plates are inserted into the magic tape and fixed on the arm, the myodynamic neuron is electrically connected with the myodynamic annunciator through a wire, and the myodynamic annunciator is connected with the host through a wireless module.
5. The body signal acquisition processing and transmission system according to claim 1, wherein: the host comprises a VR system and a motion recognition camera;
the VR system is arranged on a wall body and used for providing standard demonstration for rehabilitation actions for a user;
the motion recognition camera is arranged below the VR system, the motion recognition camera is in signal connection with the VR system, and the motion recognition camera is used for recognizing user actions, uploading the user actions to the terminal information transmitter and transmitting the terminal.
6. The body signal acquisition processing and transmission system according to claim 4, wherein: the wireless module is one or more of WIFI, Bluetooth and GPRS.
7. The body signal acquisition processing and transmission system according to claim 2, wherein: the brain electric signal device is connected with the host machine through a Bluetooth module.
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CN201921637182.8U CN211911602U (en) | 2019-09-29 | 2019-09-29 | Body signal acquisition, processing and transmitting system |
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CN201921637182.8U CN211911602U (en) | 2019-09-29 | 2019-09-29 | Body signal acquisition, processing and transmitting system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN116269434A (en) * | 2023-02-27 | 2023-06-23 | 江苏乐易智慧科技有限公司 | Electroencephalogram electromyographic signal acquisition device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN116269434A (en) * | 2023-02-27 | 2023-06-23 | 江苏乐易智慧科技有限公司 | Electroencephalogram electromyographic signal acquisition device |
CN116269434B (en) * | 2023-02-27 | 2024-01-23 | 江苏乐易智慧科技有限公司 | Electroencephalogram electromyographic signal acquisition device |
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Granted publication date: 20201113 Termination date: 20210929 |