CN212631443U

CN212631443U - System for providing electronic pulse output mode

Info

Publication number: CN212631443U
Application number: CN202020782049.8U
Authority: CN
Inventors: 关新
Original assignee: Lei Lei Mdt Infotech Ltd Shanghai
Current assignee: Zhixian Zhikang (Shanghai) Intelligent Technology Co.,Ltd.
Priority date: 2020-05-12
Filing date: 2020-05-12
Publication date: 2021-03-02
Anticipated expiration: 2030-05-12

Abstract

The utility model relates to a system for provide electronic pulse output mode. A system for providing an electronic pulse output pattern, comprising at least one wearable device for collecting physiological information; the remote server is in communication connection with the at least one wearable device and comprises a data processing module used for performing big data analysis on the physiological information acquired by the at least one wearable device; and the pattern generation module is used for generating at least one electronic pulse output pattern aiming at the current wearable equipment according to the physiological information collected by the current wearable equipment and by combining the result of the big data analysis. The system can generate the electronic pulse output mode aiming at the individual, provide the personalized electronic pulse output scheme, stimulate and treat the wearer, and further provide more flexible and effective treatment schemes for different wearers.

Description

System for providing electronic pulse output mode

Technical Field

The utility model relates to a wearable equipment field especially relates to a system for providing electronic pulse output mode.

Background

Along with the improvement of living standard, people pay more and more attention to their health. At present, the traditional electronic acupuncture and acupuncture point therapeutic apparatus and equipment special for medical institutions or for household use can provide stimulation, vibration and massage functions of different parts of the body, acupuncture points and nerves through electronic acupuncture and acupuncture points, ultrasonic waves or laser, but the equipment is usually large in size, provides inherent functions and cannot provide a flexible physiotherapy scheme.

SUMMERY OF THE UTILITY MODEL

In view of the above, there is a need to provide a system for providing an electronic pulse output mode that addresses the above-mentioned problems.

A system for providing an electronic pulse output pattern, comprising at least one wearable device for collecting physiological information; the remote server is in communication connection with the at least one wearable device and comprises a data processing module used for performing big data analysis on the physiological information acquired by the at least one wearable device; and the pattern generation module is used for generating at least one electronic pulse output pattern aiming at the current wearable equipment according to the physiological information collected by the current wearable equipment and by combining the result of the big data analysis.

The system for providing the electronic pulse output mode can collect and gather physiological information collected by a plurality of wearable devices, so that enough data samples can be provided for big data analysis, and the data processing module analyzes and researches the collected data by using a certain algorithm. In combination with the result of the big data analysis and the individual physiological information acquired by a specific wearable device, the mode generation module can generate an electronic pulse output mode for the specific wearable device, that is, can provide a personalized electronic pulse output scheme, thereby providing a more flexible and effective treatment scheme for different wearers.

In one embodiment, the system further comprises a display unit, wherein the display unit is connected with the remote server and is used for visually displaying the big data analysis.

In one embodiment, the wearable device further comprises a resource library, the resource library is connected with the pattern generation module, and the pattern generation module generates an electronic pulse output pattern for the current wearable device according to the physiological information collected by the current wearable device and by combining the result of the big data analysis and the information in the resource library.

In one embodiment, the repository includes a profile database for providing existing relevant profiles and/or an information input module for receiving manual input of external information.

In one embodiment, the system further comprises a development platform, wherein the development platform is connected with the remote server and is used for developing the electronic pulse output mode; the pattern generation module is further used for selecting a proper electronic pulse output pattern from the electronic pulse output patterns provided by the development platform according to the physiological information collected by the current wearable device and by combining the result of the big data analysis.

In one embodiment, the development platform is further configured to publish the developed electronic pulse output pattern for user subscription

In one embodiment, the wearable device is further configured to output an electronic pulse according to the electronic pulse output pattern; comprises a control module for controlling the output of the electronic pulse; the communication module is used for sending the acquired physiological information to the remote server, acquiring an electronic pulse output mode from the remote server and sending the electronic pulse output mode to the control module; the electrode slice is arranged on one side, which is in contact with a human body, of the wearable device and used for outputting electronic pulses.

In one embodiment, the electrode sheet includes a plurality of sections, the plurality of sections being individually controllable, and the electronic pulse output pattern further includes activation information for each section.

In one embodiment, the control module is further configured to select a current electronic pulse output mode from at least one electronic pulse output mode for the current wearable device, and the electrode pad is further configured to output the electronic pulse according to the selected current electronic pulse output mode.

In one embodiment, the wearable device further comprises a mobile terminal, the mobile terminal is in communication connection with the remote server and the wearable device, the mobile terminal obtains at least one electronic pulse output mode from the remote server and selects the electronic pulse output mode to be output to send to the wearable device, and the wearable device is used for outputting electronic pulses according to the electronic pulse mode.

Drawings

FIG. 1 is a schematic block diagram of an embodiment of a system for providing an electronic pulse output pattern in accordance with the present application;

fig. 2 is a schematic block diagram of a wearable device according to an embodiment of a system for providing an electronic pulse output pattern according to the present application;

fig. 3 is a schematic diagram of electrode pad zones of a wearable device according to an embodiment of a system for providing an electronic pulse output pattern according to the present application.

Detailed Description

Please refer to fig. 1, which is a schematic block diagram of an embodiment of a system for providing an electronic pulse output mode according to the present application. As shown, a system 100 for providing an electronic pulse output pattern includes

wearable devices

110a, 110b, 110c and a remote server 120. Each

wearable device

110a, 110b, 110c can be worn on a different person for collecting physiological information of the wearer, including clinical indicators, behavioral indicators, psychosocial indicators, and the like. Clinical indicators include, but are not limited to, heart rate variability, respiration, blood pressure, etc.; behavioral indicators include, but are not limited to, sleep stage and quality, type and duration of exercise, etc.; psychosocial indicators include, but are not limited to, mood, stress, anxiety symptoms, and the like. The remote server 120 is in communication connection with the

wearable devices

110a, 110b, and 110c, respectively, and includes a data processing module 121 and a pattern generation module 122, where the data processing module 121 is configured to perform big data analysis after gathering all the physiological information collected by the

wearable devices

110a, 110b, and 110 c. A pattern generating module 122, configured to generate at least one electronic pulse output pattern for a current wearable device 110a according to physiological information collected by the current wearable device, such as the wearable device 110a, and according to a result of the big data analysis, the electronic pulse output pattern is selectable by a wearer. The electronic pulse output pattern may be determined by any one or any combination of frequency, pulse width, intensity, duration of the electronic pulse. In some embodiments, the wearer may select a mode to be currently output from the provided at least one electronic pulse output mode for output; in other embodiments, the wearable device may also automatically select a default electronic pulse output mode for output. It will be appreciated that the pattern of electronic pulse output generated by the pattern generation module 122 may be different for different wearable devices. Additionally, it is understood that these

wearable devices

110a, 110b, and 110c may also be different types of wearable devices worn on the same wearer. Therefore, the physiological information of the same wearer can be collected simultaneously through different types of wearable devices worn at different parts of the same wearer, the collection range of the individual physiological information can be improved, and the accuracy of data analysis is further improved.

The remote server can collect and gather physiological information collected by a plurality of wearable devices, so that enough data samples can be provided for big data analysis, the data processing module utilizes a certain algorithm to analyze and research the collected data, and further the evaluation of group health conditions and the evaluation and prediction of disease risks can be carried out. In combination with the result of the big data analysis and the individual physiological information acquired by a specific wearable device, the mode generation module can generate an electronic pulse output mode for the specific wearable device, that is, can provide a personalized electronic pulse output scheme, thereby providing a more flexible and effective treatment scheme for different wearers. The system for providing an electronic pulse output pattern is further able to construct a laterally extended ecosphere, since a remote server can be connected to a plurality of wearable devices.

In one embodiment, the system 100 for providing an electronic pulse output mode further comprises a display unit 130 connected to the remote server 120 for visually displaying the big data analysis, the collected physiological information, and the like. Further, the generated at least one electronic pulse output mode may also be displayed for selection by the wearer. In some embodiments, the display unit may be a smart terminal, such as a smart phone. In other embodiments, the display unit may also be integrated in a wearable device. Therefore, the user can conveniently and visually know the related big data analysis information, the related physiological information, the health condition and the like.

In one embodiment, the system 100 for providing an electronic pulse output pattern further comprises a repository 140 coupled to the pattern generation module 122 of the remote server 120. The pattern generation module 122 generates an electronic pulse output pattern for the current wearable device according to the physiological information collected by the current wearable device, and the result of the big data analysis and the information in the resource library 140. By utilizing the information in the repository 140, the electronic pulse output pattern generated by the current wearable device is more accurate and precise, in addition to the big data analysis result. In one embodiment, repository 140 includes a profile database 141 and/or an information input module 142. The profile database 141 may be a dedicated database or may be linked to a related professional database for providing existing related professional profiles, which may be updated, and the repository provided to the pattern generation module may be updated to facilitate generation of the electronic pulse pattern as well as to keep pace with the updating of the information. The information input module 142 may be used to receive external information manual input, such as an intelligent terminal, and a professional (e.g., a doctor) inputs relevant professional opinions according to clinical experience or personal judgment of the physiological information collected by the current wearer, and the pattern generation module combines big data analysis and professional judgment of the professional, so that the generated electronic pulse pattern is more targeted and reliable.

In one embodiment, the system 100 for providing an electronic pulse output pattern further comprises a development platform 150, the development platform 150 being connected to the remote server 120 for developing the electronic pulse output pattern. That is, the professional can design and develop a TENS/TEAS electronic pulse output mode suitable for various scenes, that is, a health care scheme, such as a relaxation mode, a sleep mode, a reading mode, etc., through the development platform 150. The pattern generation module 122 is further configured to select an appropriate electronic pulse output pattern from the electronic pulse output patterns provided by the development platform 150 according to the physiological information collected by the current wearable device and in combination with the result of the big data analysis. Through the development platform 150, professionals can be provided with more electronic pulse output modes, and the outputtable content of the system providing the electronic pulse output modes is enriched.

In one embodiment, the development platform is further configured to publish the developed electronic pulse output patterns for user subscription. The pattern generation module combines the result of the big data analysis according to the physiological information collected by the current wearable device, and then preferably selects a proper electronic pulse pattern from the electronic pulse patterns subscribed by the user. Therefore, professionals release the electronic pulse output modes developed according to different scenes through the development platform, and users select and subscribe the electronic pulse output modes preferred by the users through the development platform, so that a closed ecological chain of platform-content-user-terminal is formed.

In one embodiment, the generated at least one electronic pulse output mode for the current wearable device can be manually set or modified, so that the wearer can set according to own preference, and the setting is more flexible.

Please refer to fig. 2, which is a schematic block diagram of a wearable device according to an embodiment of the system for providing an electronic pulse output mode of the present application. In this embodiment, the wearable device 110 may also output an electronic pulse according to an electronic pulse output pattern obtained from the remote server 120. As shown, the wearable device 110 includes a control module 111, a communication module 112, and an electrode pad 113. The wearable device 110 collects physiological information of the wearer, including clinical, behavioral, and psychosocial indicators. Clinical indicators include, but are not limited to, heart rate variability, respiration, blood pressure, etc.; behavioral indicators include, but are not limited to, sleep stage and quality, type and duration of exercise, etc.; psychosocial indicators include, but are not limited to, mood, stress, anxiety symptoms, and the like. The control module 111 is used to control the output of the electronic pulses. The communication module 112 is used for sending the collected physiological information to the remote server 120, and acquiring the electronic pulse output mode from the remote server 120 and sending the electronic pulse output mode to the control module 111. The electrode pad 113 is disposed on a side of the wearable device 110 contacting a human body, and is attached to the skin of the human body to output an electronic pulse according to a selected electronic pulse output mode. In one embodiment, the wearable device may be a smart watch, and the electrode pad 113 may be disposed on the inner side of the watch or the inner side of the watchband, which is not particularly limited. The system with the wearable device and the electronic pulse output mode can conveniently collect the physiological information of the human body and output the electronic pulse through the electrode plates, stimulate the corresponding acupuncture points of the human body, and realize the functions of health care, treatment and the like.

Referring to fig. 3, a schematic diagram of electrode pad zones of a wearable device according to an embodiment of the system for providing an electronic pulse output pattern of the present application is shown. As shown, the electrode sheet 113 may include a plurality of

partitions

113a, 113b, 113c, each of which may individually control and output pulses, and an output pattern further includes activation information of each partition. The activation information may include any one or any combination of an activation status, an activation duration, and an activation timing. According to different output modes, partial partitions or combinations of different partitions can be selected to output the electronic pulse. For example, in a first time period, the

active sub-sections

113a, 113c output an electronic pulse, and the sub-section 113b does not output an electronic pulse; in a second time period, the

active sub-sections

113b, 113c output the electronic pulse, the sub-section 113a stops outputting the electronic pulse, and so on. Therefore, the stimulation effect can be more accurately and effectively realized under the condition that the acupuncture points are dense or the contact area of the electrode plate is large.

In one embodiment, the control module is further configured to select a current electronic pulse output mode from at least one electronic pulse output mode for the current wearable device, and the electrode pad is further configured to output an electronic pulse according to the selected current electronic pulse output mode.

In one embodiment, the system for providing the electronic pulse output mode further comprises a mobile terminal, the mobile terminal is in communication connection with the remote server and the wearable device, the mobile terminal acquires at least one electronic pulse output mode from the remote server and selects the electronic pulse output mode to be output to send to the wearable device, and the wearable device is used for outputting the electronic pulse according to the electronic pulse mode. In this embodiment, the mobile terminal may be, for example, a smart phone, and the wearable device may be further configured to provide electronic pulses, so that the wearable device may output the electronic pulses according to an electronic pulse mode obtained from the mobile terminal, and realize functions of stimulating corresponding acupuncture points of a human body, realizing health care and treatment, and the like. And the mobile terminal may also provide updates and upgrades to the wearable device. In one embodiment, one mobile terminal can also correspond to a plurality of wearable devices, and corresponding electronic pulse output modes are respectively selected for the wearable devices, so that a wearer can conveniently manage a plurality of different wearable devices, and different acupuncture point stimulation is realized.

It is understood that the wearable device described above includes, but is not limited to, a wrist-worn wearable device (e.g., a smart watch, a smart bracelet), a smart helmet, glasses, etc., wherein the electrode sheet may be disposed on any surface of the wearable device that is in contact with the skin, and is not limited to the inside of the watch face of the smart watch, and may also be disposed on a watch band, etc., and there is no particular limitation thereto.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims

1. A system for providing an electronic pulse output pattern, comprising at least one wearable device for collecting physiological information;

a remote server in communication with the at least one wearable device, the remote server comprising:

the data processing module is used for carrying out big data analysis on the physiological information acquired by the at least one wearable device; and

and the pattern generation module is used for generating at least one electronic pulse output pattern aiming at the current wearable device according to the physiological information acquired by the current wearable device and by combining the result of the big data analysis.

2. The system for providing an electronic pulse output mode of claim 1, further comprising a display unit connected to said remote server for visually displaying said big data analysis.

3. The system for providing an electronic pulse output pattern according to claim 1, further comprising a resource library connected to the pattern generation module, wherein the pattern generation module generates an electronic pulse output pattern for a current wearable device according to physiological information collected by the current wearable device, and the result of the big data analysis and information in the resource library.

4. The system of claim 3, wherein the repository includes a data base for providing existing relevant data and/or an information input module for receiving manual input of external information.

5. The system for providing an electronic pulse output pattern according to claim 1, further comprising a development platform connected to said remote server for developing said electronic pulse output pattern; the pattern generation module is further used for selecting a proper electronic pulse output pattern from the electronic pulse output patterns provided by the development platform according to the physiological information collected by the current wearable device and by combining the result of the big data analysis.

6. The system for providing an electronic pulse output modality of claim 5, wherein the development platform is further configured to publish the developed electronic pulse output modality for user subscription.

7. The system for providing an electronic pulse output pattern according to claim 1, wherein the wearable device is further configured to output an electronic pulse according to the electronic pulse output pattern; comprises that

A control module for controlling the output of the electronic pulse;

the communication module is used for sending the acquired physiological information to the remote server, acquiring the electronic pulse output mode from the remote server and sending the electronic pulse output mode to the control module;

the electrode slice is arranged on one side, which is in contact with a human body, of the wearable device and is used for outputting the electronic pulse.

8. The system for providing an electronic pulse output pattern of claim 7, wherein said electrode pad comprises a plurality of sections, said plurality of sections being individually controllable, said electronic pulse output pattern further comprising activation information for each of said sections.

9. The system of claim 7, wherein the control module is further configured to select a current electronic pulse output mode from the at least one electronic pulse output mode for the current wearable device, and wherein the electrode pad is further configured to output an electronic pulse according to the selected current electronic pulse output mode.

10. The system according to any one of claims 1 to 6, further comprising a mobile terminal communicatively connected to the remote server and the wearable device, the mobile terminal obtaining the at least one electronic pulse output pattern from the remote server and selecting an electronic pulse output pattern to be output to the wearable device, the wearable device outputting an electronic pulse according to the electronic pulse pattern.