CN219251415U - Electrical stimulation intelligence-improving system for percutaneous auricular points - Google Patents
Electrical stimulation intelligence-improving system for percutaneous auricular points Download PDFInfo
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- CN219251415U CN219251415U CN202320475779.7U CN202320475779U CN219251415U CN 219251415 U CN219251415 U CN 219251415U CN 202320475779 U CN202320475779 U CN 202320475779U CN 219251415 U CN219251415 U CN 219251415U
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Abstract
The utility model relates to the medical field, and particularly provides a percutaneous auricular point electrical stimulation intelligent system, which comprises a through Pi Erxue intelligent instrument, a cloud data platform, remote acquisition equipment and an expert diagnosis and treatment platform, wherein the through Pi Erxue intelligent instrument and the remote acquisition equipment are respectively in communication connection with the cloud data platform, and the cloud data platform is in communication connection with the expert diagnosis and treatment platform; the meridian Pi Erxue intelligence development instrument comprises an electrode patch, an electrode wire and a host, wherein the electrode patch is used for being attached to ears of a person, electrodes are arranged in the electrode patch, the electrodes and the electrode wire are arranged in pairs, one end of the electrode wire is connected with the electrodes, the other end of the electrode wire is connected with the host, and the host is used for controlling the electrodes to perform auricular point stimulation according to test instructions of an expert diagnosis and treatment platform. The expert of the utility model can diagnose the user in a remote way and provide a targeted electric stimulation scheme, has higher intelligent degree, has an effect of improving intelligence and has obvious effect.
Description
Technical Field
The utility model relates to the field of medical equipment, in particular to a percutaneous auricular point electrical stimulation intelligence development system.
Background
Ear acupuncture refers to a method of preventing and treating diseases by stimulating auricle acupoints with acupuncture or other methods. The auricles have a certain corresponding relation with each part of the human body. The disease can be diagnosed in an auxiliary way by observing the shape, color, luster and the like of the ear, and the aim of preventing and treating the disease can be achieved by stimulating auricle acupoints. The ear-needle has certain reference significance for diagnosing diseases, and the ear-needle has wide treatment range and convenient operation.
The medicine has obvious curative effects on subhealth, chronic diseases (such as hypertension, hyperlipidemia and diabetes), cardiovascular and cerebrovascular diseases (coronary heart disease, cerebral infarction and cerebral hemorrhage), tumor patients, cerebral diseases (epilepsy, depression, insomnia, cerebral palsy and autism) and other people with cognitive decline and mental retardation continuous disease spectrum (subjective cognitive decline, mild cognitive impairment and mild-moderate mental retardation) by stimulating auricle acupoints.
The percutaneous ear acupoint electric stimulation is a therapy combining ear acupoints and electric pulses, an intelligent system suitable for stimulating the ear acupoints is not seen in the market at present, the intelligent degree of the percutaneous ear acupoint electric stimulation equipment is low, the treatment accuracy is low, the threshold stimulation is too low, the operation is difficult, and the percutaneous ear acupoint electric stimulation equipment is inconvenient to wear in daily life, so that the percutaneous ear acupoint electric stimulation equipment cannot meet the diversified requirements of users, and cannot be well suitable for home self-care of the users.
Disclosure of Invention
The present utility model has been made in view of the above problems, and it is an object of the present utility model to provide a percutaneous auricular point electrical stimulation system which overcomes the above problems.
The percutaneous auricular point electrical stimulation intelligent development system comprises a Pi Erxue intelligent development instrument, a cloud data platform, a remote acquisition device and an expert diagnosis and treatment platform, wherein the Pi Erxue intelligent development instrument and the remote acquisition device are respectively in communication connection with the cloud data platform, the cloud data platform is in communication connection with the expert diagnosis and treatment platform, the remote acquisition device is used for transmitting information of a person to be tested to the expert diagnosis and treatment platform through the cloud data platform, and the expert diagnosis and treatment platform is used for transmitting a test instruction to the percutaneous auricular point intelligent development instrument through the cloud data platform;
the meridian Pi Erxue intelligence development instrument comprises an electrode patch, an electrode wire and a host, wherein the electrode patch is used for being attached to ears of a person, electrodes are arranged in the electrode patch, the electrodes and the electrode wire are arranged in pairs, one end of the electrode wire is connected with the electrodes, the other end of the electrode wire is connected with the host, and the host is used for controlling the electrodes to perform auricular point stimulation according to test instructions of an expert diagnosis and treatment platform.
Further, the warp Pi Erxue educational apparatus further comprises an ear cap which is worn on the ear of the person, and the electrode patch is connected with the ear cap.
Further, the earcaps are in earplug-shaped structures, or earmuff-shaped structures, or bracket-shaped structures.
Further, the host comprises a first display module, a microcontroller, an electrode control circuit, a first communication module, a battery module and a battery management module, wherein the output end of the battery module is connected with the input end of the battery management module, the output end of the battery management module is respectively connected with the first display module, the microcontroller, the electrode control circuit and the first communication module, the electrode control circuit is connected with the electrode wire, and the first communication module is connected with the remote acquisition equipment.
Further, the host computer also comprises a battery charging module.
Further, the host computer also includes a parameter adjustment module, the parameter adjustment module is connected with the microcontroller, and the parameter adjustment module includes: the device comprises a working mode selection module, a time length adjustment module, a frequency adjustment module, a current intensity adjustment module and a wave type selection module.
Further, the remote acquisition equipment is intelligent terminal equipment, the intelligent terminal equipment includes second communication module, integrated control chip, second display module, first storage module, image acquisition module and third communication module, the second communication module outside with through Pi Erxue benefit intelligence appearance communication connection, the third communication module outside with high in the clouds data platform communication connection, the second communication module inside with integrated control chip connects, integrated control chip respectively with storage module, second display module, image acquisition module and third communication module connect.
Further, expert diagnoses platform includes fourth communication module, controller, third display module and signal input module, fourth communication module outside with high in the clouds data platform communication connection, fourth communication module inside with the controller is connected, the controller respectively with third display module, signal input module are connected.
The percutaneous auricular point electrical stimulation intelligent system provided by the utility model comprises a Pi Erxue intelligent instrument, a cloud data platform, a remote acquisition device and an expert diagnosis and treatment platform, wherein the Pi Erxue intelligent instrument and the remote acquisition device are respectively in communication connection with the cloud data platform, the cloud data platform is in communication connection with the expert diagnosis and treatment platform, the remote acquisition device is used for transmitting information of a person to be tested to the expert diagnosis and treatment platform through the cloud data platform, and the expert diagnosis and treatment platform is used for transmitting a test instruction to the percutaneous auricular point intelligent instrument through the cloud data platform; the meridian Pi Erxue intelligence development instrument comprises an electrode patch, an electrode wire and a host, wherein the electrode patch is used for being attached to ears of a person, electrodes are arranged in the electrode patch, the electrodes and the electrode wire are arranged in pairs, one end of the electrode wire is connected with the electrodes, the other end of the electrode wire is connected with the host, and the host is used for controlling the electrodes to perform auricular point stimulation according to test instructions of an expert diagnosis and treatment platform. The utility model creates an intelligent percutaneous ear acupoint electric stimulation intelligent system, and an expert can diagnose a user in a remote mode and provide a targeted electric stimulation scheme.
The foregoing description is only an overview of the present utility model, and is intended to be implemented in accordance with the teachings of the present utility model in order that the same may be more clearly understood and to make the same and other objects, features and advantages of the present utility model more readily apparent.
Drawings
Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the utility model. In the drawings:
FIG. 1 is a block diagram of a percutaneous auricular point electrical stimulation intelligence development system according to an embodiment of the present utility model;
fig. 2 is a schematic structural diagram of a percutaneous ear acupoint intelligent device according to an embodiment of the utility model;
FIG. 3 is a block diagram of a host computer of the through Pi Erxue educational apparatus according to an embodiment of the present utility model;
the figure indicates:
1. through Pi Erxue intelligence development instrument; 2. remote acquisition equipment; 3. a cloud data platform; 4. an expert diagnosis and treatment platform;
1.1A, the bonding position of the electrode patch; 1.1B electrode patch; 1.2, electrode wires; 1.3 a host;
1.31, a first display module; 1.32, a parameter adjusting module; 1.33 electrode control circuitry; 1.34, a microcontroller; 1.35, a battery management module; 1.36, a first communication module, 1.37 battery modules.
Detailed Description
In order that those skilled in the art will better understand the present utility model, a technical solution of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
It should be noted that the terms "first," "second," and the like in the description and the claims of the present utility model and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the utility model described herein may be implemented in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus. In addition, the technical features of the different embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other.
Fig. 1 schematically illustrates a structural schematic diagram of a percutaneous ear acupoint electric stimulation intelligent device according to an embodiment of the present utility model, as shown in fig. 1, where the percutaneous ear acupoint electric stimulation intelligent device provided by the embodiment of the present utility model includes a Pi Erxue intelligent device 1, a cloud data platform 3, a remote acquisition device 2, and an expert diagnosis and treatment platform 4, where the Pi Erxue intelligent device 1 and the remote acquisition device 2 are respectively in communication connection with the cloud data platform 3, the cloud data platform 3 is in communication connection with the expert diagnosis and treatment platform 4, the remote acquisition device 2 is used to transmit information of a person to be tested to the expert diagnosis and treatment platform 4 through the cloud data platform 3, and the expert diagnosis and treatment platform 4 transmits a test instruction to the percutaneous ear acupoint intelligent device 1 through the cloud data platform 3.
When a user uses the percutaneous auricular point electric stimulation intelligent device, basic information and photo information of the user are transmitted to the cloud data platform 3 through the remote acquisition equipment 2, an expert calls the basic information and the photo information of the user from the cloud data platform 3 through the expert diagnosis and treatment platform 4, diagnosis is made for the user, a targeted electric stimulation scheme is provided, the electric stimulation scheme is transmitted to the percutaneous auricular point intelligent device 1 through the cloud data platform 3, the electric stimulation scheme is converted into a control instruction through a host computer 1.3 in the Pi Erxue intelligent device 1, and electric stimulation is performed on ears by each electrode slice so as to achieve accurate treatment on the user, and the treatment effect of the percutaneous Pi Erxue intelligent device 1 is improved. The percutaneous auricular point electric stimulation intelligence development system provided by the utility model realizes electric stimulation on each acupuncture point on auricles by using the percutaneous auricular point intelligence development instrument 1, and has obvious treatment effects on people suffering from cognitive decline and complicated with sub-health, chronic diseases, tumor patients, brain diseases and the like, and patients suffering from intelligence loss.
Fig. 2 schematically illustrates a structural schematic diagram of a percutaneous ear acupoint intelligent device 1 according to an embodiment of the present utility model, as shown in fig. 2, the percutaneous ear acupoint intelligent device 1 provided by the embodiment of the present utility model includes an electrode patch 1.1B, an electrode wire 1.2 and a host 1.3, where the electrode patch 1.1B is attached to an ear of a person, and an electrode is disposed therein, and is disposed in pairs with the electrode wire 1.2, and one end of the electrode wire 1.2 is connected to the electrode, and the other end is connected to the host 1.3.
The electrode patch 1.1B of the embodiment of the utility model is a multifunctional composite hydrogel electrode patch 1.1B, the electrode patch 1.1B is attached to an acupoint on the ear of a user during treatment to perform electric pulse treatment, the electrode patch 1.1B is attached to a position 1.1A corresponding to an exemplary heart, liver, spleen and kidney, and specific acupoint selection compatibility is transmitted to the cloud data platform 3 according to the expert diagnosis and treatment platform 4. It should be noted that, because the acupoints on the ears are numerous, and other acupoints are included in addition to the illustrated acupoints, the electrode patch 1.1B in the embodiment of the utility model includes multiple pieces, and the electrode wire 1.2 is detachably inserted on the host computer 1.3, so that a user can select a corresponding number of electrode patches 1.1B according to different electro-stimulation schemes, and attach the electrode patches to the correct ear acupoints for treatment.
Further, in order to facilitate the user to more accurately identify each acupoint on the auricle, the meridian Pi Erxue intelligent instrument 1 according to a preferred embodiment of the present utility model further comprises an ear cap (not shown in the drawings), wherein the ear cap is worn on the ear of the user, and the electrode patch 1.1B is connected to the ear cap. In the embodiment of the utility model, each electrode patch 1.1B is fixedly connected and arranged on the earcap, and as long as a user can correctly wear the earcap, each electrode patch 1.1B can be accurately attached to each acupoint position on the auricle.
Further, a preferred embodiment of the present utility model can adapt to different models of earcaps according to the shape and/or size of a person's ear; or, custom-made earcaps of a particular shape and size according to the shape and/or size of a person's ear. Correspondingly, the specific positions of the electrode patches 1.1B on the earcaps are slightly different, so that each electrode is more accurately positioned at the corresponding acupuncture point on the auricle. In addition, the earcap structure related to the embodiment of the utility model can be matched with different treatment schemes for use, namely, earcaps with different types can be matched with different treatment purposes.
Further, the earcap of the embodiment of the utility model is in an earplug-like structure, or an earmuff-like structure, or a bracket-like structure, so as to be firmly worn on the ear of a person. The earcap provided by the embodiment of the utility model can realize rapid wearing of the percutaneous ear acupoint intelligent device 1, is more accurate in positioning of the ear acupoint of a user, and further improves the treatment effect.
Fig. 3 schematically shows a block diagram of a host computer of the through Pi Erxue educational apparatus according to an embodiment of the present utility model, it can be seen from fig. 3 that the host computer 1.3 of the embodiment of the present utility model includes a first display module 1.31, a microcontroller 1.34, an electrode control circuit 1.33, a first communication module 1.36, a battery module 1.37 and a battery management module 1.35, an output end of the battery module 1.37 is connected with an input end of the battery management module 1.35, an output end of the battery management module 1.35 is respectively connected with the first display module 1.31, the microcontroller 1.34, the electrode control circuit 1.33 and the first communication module 1.36, the electrode control circuit 1.33 is connected with the electrode wire 1.2, and the first communication module 1.36 is connected with the remote collecting device 2 in a communication manner.
Further, for convenience of use, the battery module 1.37 of the embodiment of the present utility model uses a rechargeable battery, so the host 1.3 of the embodiment of the present utility model further includes a battery charging module.
Further, in order to facilitate the user to directly adjust the therapeutic parameters through the host 1.3, the host 1.3 of the embodiment of the present utility model further includes a parameter adjusting module 1.32, where the parameter adjusting module 1.32 is connected to the microcontroller 1.34, and the parameter adjusting module 1.32 includes: the device comprises a working mode selection module, a time length adjustment module, a frequency adjustment module, a current intensity adjustment module and a wave type selection module.
Specifically, the parameter adjusting module 1.32 includes a key system on the casing of the host 1.3, where the working mode selecting module specifically includes a manual mode key and an automatic mode key, the time length adjusting module specifically includes a time length increasing key and a time length decreasing key, the frequency adjusting module specifically includes a frequency increasing key and a frequency decreasing key, the current intensity adjusting module specifically includes a current intensity increasing key and a current intensity decreasing key, and the wave mode selecting module includes a continuous wave key, an intermittent wave key and a dense wave key.
According to the percutaneous auricular point electric stimulation intelligent device, a user can select a manual mode or an automatic mode through the parameter adjusting module 1.32, and when the user selects the automatic mode, the host 1.3 of the Pi Erxue intelligent device 1 generates corresponding control parameters according to an electric stimulation scheme given by an expert through the expert diagnosis and treatment platform 4 to control specific electric stimulation operation of each electrode slice so as to provide treatment for the user. When the user selects the manual mode, the time length, frequency, current magnitude and waveform selection of the electric stimulation can be adjusted through each key of the parameter adjusting module 1.32 so as to select a diagnosis and treatment scheme which is more suitable for the user. In addition, the host computer 1.3 of the intelligence development instrument 1 through Pi Erxue is also used for collecting and recording treatment habit data of the user when the user selects a manual mode, such as the time length, the frequency, the current magnitude, the waveform and the like of the electrical stimulation selected by the user habit, and uploading the treatment habit data of the user to the cloud data platform 3, so that an expert can conveniently make a more targeted electrical stimulation scheme according to the habit of the user when diagnosing and treating the expert on the expert diagnosis and treatment platform 4, for example, the user feel comfortable when the intensity of the electrical stimulation is high through the collection of the treatment habit data, and the user experience is further improved.
Further, the remote acquisition device 2 in the embodiment of the present utility model is an intelligent terminal device, which may specifically be a mobile phone, a computer, a tablet computer, etc., where the intelligent terminal device includes a second communication module, an integrated control chip, a first storage module, an image acquisition module, and a third communication module, where the second communication module is externally connected with the intelligence development instrument 1 through Pi Erxue, the third communication module is externally connected with the cloud data platform 3, the second communication module is internally connected with the integrated control chip, and the integrated control chip is respectively connected with the storage module, the second display module, the image acquisition module, and the third communication module. The user collects photos of the parts such as the face, the tongue, the ear and the like through an image collection module of the intelligent terminal device, stores the photos and corresponding patient information into a first storage module, and transmits the photos and corresponding patient information to the expert diagnosis and treatment platform 4 through an integrated control chip and a third communication module. In addition, the remote acquisition device 2 of the embodiment of the utility model can be directly connected with the intelligent instrument 2 through the Pi Erxue through the second communication module so as to transmit corresponding information such as diagnosis and treatment schemes.
Further, the expert diagnosis and treatment platform 4 comprises a fourth communication module, a controller, a third display module and a signal input module, wherein the fourth communication module is externally connected with the cloud data platform 3 in a communication manner, the fourth communication module is internally connected with the controller, and the controller is respectively connected with the third display module and the signal input module. The third display module is used for displaying the current state of illness and other information of the patient, the signal input module is used for receiving the diagnosis and treatment scheme input by an expert on the diagnosis and treatment platform, and the information is stored in the storage module on the controller and is further transmitted to the operation data platform 3 through the fourth communication module.
The percutaneous auricular point electrical stimulation intelligence development system provided by the embodiment of the utility model comprises a Pi Erxue intelligence development instrument 1, a cloud data platform 3, a remote acquisition device 2 and an expert diagnosis and treatment platform 4, wherein the Pi Erxue intelligence development instrument 1 and the remote acquisition device 2 are respectively in communication connection with the cloud data platform 3, the cloud data platform 3 is in communication connection with the expert diagnosis and treatment platform 4, the remote acquisition device 2 is used for transmitting information of a person to be tested to the expert diagnosis and treatment platform 4 through the cloud data platform 3, and the expert diagnosis and treatment platform 4 transmits a test instruction to the percutaneous auricular point intelligence development instrument 1 through the cloud data platform 3; the warp Pi Erxue educational apparatus 1 comprises an electrode patch 1.1B, an electrode wire 1.2 and a host computer 1.3, wherein the electrode patch 1.1B is used for being attached to ears of a person, electrodes are arranged in the electrode patch, the electrodes and the electrode wire 1.2 are arranged in pairs, one end of the electrode wire 1.2 is connected with the electrodes, the other end of the electrode wire 1.2 is connected with the host computer 1.3, and the host computer 1.3 is used for controlling the electrodes to perform auricular point stimulation according to test instructions of an expert diagnosis and treatment platform 4. The utility model creates an intelligent percutaneous ear acupoint electric stimulation intelligent system, and an expert can diagnose a user in a remote mode and provide a targeted electric stimulation scheme.
The embodiments of the present utility model have been described above with reference to the accompanying drawings, but the present utility model is not limited to the above-described embodiments, which are merely illustrative and not restrictive, and many forms may be made by those having ordinary skill in the art without departing from the spirit of the present utility model and the scope of the claims, which are to be protected by the present utility model.
Claims (8)
1. The percutaneous ear acupoint electric stimulation intelligent system is characterized by comprising a through Pi Erxue intelligent instrument, a cloud data platform, a remote acquisition device and an expert diagnosis and treatment platform, wherein the through Pi Erxue intelligent instrument and the remote acquisition device are respectively in communication connection with the cloud data platform, the cloud data platform is in communication connection with the expert diagnosis and treatment platform, the remote acquisition device is used for transmitting information of a person to be tested to the expert diagnosis and treatment platform through the cloud data platform, and the expert diagnosis and treatment platform transmits a test instruction to the percutaneous ear acupoint intelligent instrument through the cloud data platform;
the meridian Pi Erxue intelligence development instrument comprises an electrode patch, an electrode wire and a host, wherein the electrode patch is used for being attached to ears of a person, electrodes are arranged in the electrode patch, the electrodes and the electrode wire are arranged in pairs, one end of the electrode wire is connected with the electrodes, the other end of the electrode wire is connected with the host, and the host is used for controlling the electrodes to perform auricular point stimulation according to test instructions of an expert diagnosis and treatment platform.
2. The percutaneous ear acupoint electrical stimulation system according to claim 1, wherein the warp Pi Erxue educational apparatus further comprises an ear cap, the ear cap being worn on a person's ear, the electrode patch being connected to the ear cap.
3. The percutaneous ear acupoint electrical stimulation system according to claim 2, wherein the earcap is an earplug-like structure, or an earmuff-like structure, or a stent-like structure.
4. The percutaneous auricular point electrical stimulation intelligence development system according to claim 1, wherein the host comprises a first display module, a microcontroller, an electrode control circuit, a first communication module, a battery module and a battery management module, wherein an output end of the battery module is connected with an input end of the battery management module, an output end of the battery management module is respectively connected with the first display module, the microcontroller, the electrode control circuit and the first communication module, the electrode control circuit is connected with the electrode wire, and the first communication module is connected with the remote acquisition device in a communication manner.
5. The percutaneous ear acupoint electrical stimulation system according to claim 4, wherein the host further comprises a battery charging module.
6. The percutaneous ear acupoint electrical stimulation intelligence development system of claim 4, wherein the host further comprises a parameter adjustment module, the parameter adjustment module being connected to the microcontroller, the parameter adjustment module comprising: the device comprises a working mode selection module, a time length adjustment module, a frequency adjustment module, a current intensity adjustment module and a wave type selection module.
7. The percutaneous ear acupoint electric stimulation intelligence development system according to claim 1, wherein the remote acquisition device is an intelligent terminal device, the intelligent terminal device comprises a second communication module, an integrated control chip, a second display module, a first storage module, an image acquisition module and a third communication module, the second communication module is externally in communication connection with the trans Pi Erxue intelligence development instrument, the third communication module is externally in communication connection with the cloud data platform, the second communication module is internally connected with the integrated control chip, and the integrated control chip is respectively connected with the storage module, the second display module, the image acquisition module and the third communication module.
8. The percutaneous ear acupoint electric stimulation intelligence development system according to claim 1, wherein the expert diagnosis and treatment platform comprises a fourth communication module, a controller, a third display module and a signal input module, wherein the fourth communication module is externally connected with the cloud data platform in a communication manner, the fourth communication module is internally connected with the controller, and the controller is respectively connected with the third display module and the signal input module.
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