CN114191126A - Electronic dental implant, method and system for monitoring body health index in real time - Google Patents

Abstract

The scheme comprises a dental crown body, an abutment and an implant, wherein the abutment comprises a collecting layer, a processing layer and a buffer layer, the collecting layer is connected with the implant, and signals are collected by a signal sensor in the collecting layer and transmitted to a main control chip of the processing layer; the main control chip is connected with a power supply module, and the power supply module is connected with a wireless charging chip; the dental crown body is connected with the implant through the buffer layer. The scheme provides a novel health index monitoring scheme, and based on the particularity of the environment where the electronic dental implant is located, the accuracy of monitoring the health index is effectively guaranteed, and meanwhile, the energy consumption problem of integrating various electronic elements in the small electronic dental implant is effectively guaranteed by means of a wireless charging mode.

Description

Electronic dental implant, method and system for monitoring body health index in real time

Technical Field

The disclosure belongs to the technical field of wearable medical technology and dental implants, and particularly relates to an electronic dental implant, a method and a system for monitoring a body health index in real time.

Background

The statements in this section merely provide background information related to the present disclosure and may not necessarily constitute prior art.

In recent years, with the continuous maturity of semiconductor chip technology, materials, batteries and other technologies, the size and the cost of wearable equipment are rapidly reduced, the user experience is good, and the wearable equipment has rapidly popularized technical indexes;

the inventor finds that the field of dental implantation is also accepted by more and more oral disease patients along with the continuous maturation of material technology, and the dental implantation needs to implant a dental base into oral jaw bone and has the advantages of natural wearable equipment, but most of the existing dental implantation only focuses on the functions of teeth and ignores the advantages of specific environments where the dental implantation is located; in addition, although some electronic dental implants exist, they are not perfect in terms of structural design, functional design and safety, and they are designed only in an ideal state and cannot be implemented effectively.

Disclosure of Invention

In order to solve the problems, the present disclosure provides an electronic dental implant, a method and a system for monitoring a health index in real time, wherein the scheme provides a novel health index monitoring scheme, the accuracy of monitoring the health index is effectively ensured based on the particularity of the environment where the electronic dental implant is located, and meanwhile, the energy consumption problem of integrating various electronic components in a tiny electronic dental implant is effectively ensured by using a wireless charging mode.

According to a first aspect of the disclosed embodiments, an electronic dental implant for monitoring a health index in real time is provided, which comprises a dental crown body, an abutment and an implant, wherein the abutment comprises a collection layer, a processing layer and a buffer layer, the collection layer is connected with the implant, and a signal sensor in the collection layer is used for collecting a signal and transmitting the signal to a main control chip of the processing layer; the main control chip is connected with a power supply module, and the power supply module is connected with a wireless charging chip; the dental crown body is connected with the implant through the buffer layer.

Furthermore, the base station integrally encapsulates the signal sensor, the processing chips and the micro battery inside the base station.

Furthermore, the signal sensor includes blood oxygen acquisition sensor, blood sugar acquisition sensor and temperature sensor, the signal sensor is connected with the signal acquisition chip respectively, the signal acquisition chip with main control chip connects, the signal transmission that the signal acquisition chip will gather arrives main control chip handles.

Furthermore, the main control chip adopts an ultra-low power consumption MCU main control module, which is respectively connected with an ADC digital-to-analog conversion module, a signal input interface control module, a signal wireless transmission module, a data bus module and a storage module.

Furthermore, the wireless charging chip is used for being connected with external wireless charging equipment to charge the micro battery.

According to a second aspect of the embodiments of the present disclosure, there is provided a working method of an electronic dental implant for monitoring a health index in real time, which is based on the above electronic dental implant for monitoring a health index in real time, the method including:

a signal sensor in the electronic dental implant collects human health index signals in real time;

the collected human health index signals are output to the main control chip after being preprocessed by the signal collection chip;

the main control chip compares the obtained index signal with a preset threshold value, and when the obtained index signal exceeds the threshold value range, an alarm is sent to an external terminal through the signal wireless sending module.

Further, the external terminal is a portable terminal device capable of interacting through wireless signals.

According to a third aspect of the embodiments of the present disclosure, a health index detection system is provided, the system includes the electronic dental implant for monitoring a health index in real time, a wireless charging device, and an external terminal device; wherein:

the electronic dental implant is used for acquiring human health index signals in real time;

the wireless charging equipment is used for charging the micro battery in the electronic dental implant based on a wireless charging mode;

and the external terminal equipment is used for receiving the human health index signal and the alarm information output by the electronic dental implant and visually displaying the human health index signal and the alarm information to a user.

Compared with the prior art, the beneficial effect of this disclosure is:

(1) the electronic implant realizes real-time monitoring of the health condition of an implant through a signal sensor, a signal control chip, a wireless charging chip and a micro battery, and enables the implant to conveniently monitor self health indexes in real time and have comfortable wearing experience through reasonably designing a dental crown body, a base station and an implant structure of the implant; the electronic dental implant is connected with the data of the implant through the in-vitro wireless communication equipment and the remote health data platform, so that the health condition of the implant can be monitored in real time, and the electronic dental implant can give an early warning in real time when abnormality occurs, and informs families and doctors of the implant to perform even treatment.

(2) Electronic planting tooth adopt one-time molding process, with signal sensor and a plurality of processing chip and the integrated encapsulation of micro battery inside the base station, guaranteed electronic component and human security, simultaneously, charge to micro battery through wireless charging mode, solved the problem that the micro battery energy storage can't satisfy various electronic component's power consumption demand in planting tooth, avoided the problem of repeated change battery difficulty.

(3) The electronic dental implant provided by the scheme has the tooth occlusion function of the traditional dental implant, and also has the intelligent function of acquiring and transmitting important health indexes such as blood oxygen and blood sugar of a human body in real time more accurately than an exposed wearable intelligent device by utilizing the advantage of close contact with the surface of the oral cavity of the human body.

Advantages of additional aspects of the disclosure will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the disclosure.

Drawings

The accompanying drawings, which are included to provide a further understanding of the disclosure, illustrate embodiments of the disclosure and together with the description serve to explain the disclosure and are not to limit the disclosure.

Fig. 1 is a schematic structural diagram of an electronic dental implant for monitoring a health index in real time according to a first embodiment of the present disclosure;

fig. 2 is a schematic diagram of a chip composition and an internal structure of a processing layer according to a first embodiment of the disclosure;

wherein, 10, the dental crown body; 20. a base station; 30. an implant; 100. an acquisition layer; 200. a treatment layer; 300. a buffer layer; 210. a signal sensor; 220. a signal acquisition chip; 230. a signal main control chip; 240. a wireless charging chip; 250. a micro battery; 211. a blood oxygen acquisition sensor; 212. a blood glucose collection sensor; 213. a temperature sensor; 214. other biosensors; 221. a signal amplification module; 222. a filtering module; 223. a signal processing module; 224. an output module; 231. an ultra-low power consumption MCU master control module; 232. an ADC digital-to-analog conversion module; 233. a signal input interface control module; 234. a signal wireless transmitting module; 235. a power supply control module; 236. a bus module; 237. and a data storage module.

Detailed Description

The present disclosure is further described with reference to the following drawings and examples.

It should be noted that the following detailed description is exemplary and is intended to provide further explanation of the disclosure. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this disclosure belongs.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present disclosure. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

The embodiments and features of the embodiments in the present disclosure may be combined with each other without conflict.

The first embodiment is as follows:

the embodiment aims to provide the electronic dental implant capable of monitoring the body health index in real time.

An electronic dental implant for monitoring a body health index in real time comprises a dental crown body, an abutment and an implant, wherein the abutment comprises an acquisition layer, a processing layer and a buffer layer, the acquisition layer is connected with the implant, and a signal sensor in the acquisition layer is used for acquiring a signal and transmitting the signal to a main control chip of the processing layer; the main control chip is connected with a power supply module, and the power supply module is connected with a wireless charging chip; the dental crown body is connected with the implant through the buffer layer.

Furthermore, the base station integrally encapsulates the signal sensor, the processing chips and the micro battery inside the base station.

Furthermore, the signal sensor includes blood oxygen acquisition sensor, blood sugar acquisition sensor and temperature sensor, the signal sensor is connected with the signal acquisition chip respectively, the signal acquisition chip with main control chip connects, the signal transmission that the signal acquisition chip will gather arrives main control chip handles.

Furthermore, the signal acquisition chip comprises a signal amplification module, a filtering module and an output module which are connected in sequence.

Further, the filtering module comprises a high-frequency filtering circuit, a low-frequency filtering circuit and a bandwidth filtering circuit.

Furthermore, the main control chip adopts an ultra-low power consumption MCU main control module, which is respectively connected with an ADC digital-to-analog conversion module, a signal input interface control module, a signal wireless transmission module, a data bus module and a storage module.

Furthermore, the wireless charging chip is used for being connected with external wireless charging equipment to charge the micro battery in the power module.

Specifically, for ease of understanding, the embodiments of the present disclosure are described in detail below with reference to the accompanying drawings:

as shown in fig. 1 and 2, the present disclosure provides an electronic dental implant for monitoring a physical health index in real time, which includes a crown 10, an abutment 20, and an implant 30.

As shown in FIG. 1, the crown body 10 is coupled with the abutment 20 by a concave groove structure, and the abutment 20 is coupled with the implant 30 by a convex groove structure.

As shown in fig. 1, the submount 20 comprises an acquisition layer 100, a handling layer 200 and a buffer layer 300. The acquisition layer 100 is connected to the handling layer 200. The handle layer 200 is connected to the buffer layer 300. An acquisition layer 100 is attached to the implant 30. The buffering layer 300 is connected to the crown body 10.

As shown in fig. 2, the processing layer 200 includes a signal sensor 210, a signal acquisition chip 220, a signal main control chip 230, a wireless charging chip 240, and a micro battery 250; the signal sensor 210 is connected with the signal acquisition chip 220, and the signal acquisition chip 220 is connected with the signal main control chip 230. The wireless charging chip 240 is connected with the micro battery 250; the micro battery 250 is connected with the signal main control chip 230; the micro battery 250 is connected with the signal sensor 210; the micro battery 250 is connected to the signal acquisition chip 220.

As shown in fig. 2, the signal sensors 220 include a blood oxygen collecting sensor 211, a blood sugar collecting sensor 212, a temperature sensor 213 and other biosensors 214. Wherein, the blood oxygen collecting sensor 211 is connected to the signal collecting chip 220. The blood glucose collecting sensor 212 is connected to the signal collecting chip 220. The temperature sensor 213 is connected with the signal acquisition chip 220; the other bio-signal sensors 214 are connected to the signal acquisition chip 220.

As shown in fig. 2, the signal acquisition chip 220 includes a body health index signal amplification module 221, a filtering module 222, a signal processing module 223, and an output module 224. The body health index signal amplification module 221 includes a small signal amplification circuit for blood oxygen acquisition signals, blood sugar acquisition signals, and temperature acquisition signals. The filtering module 222 includes high-frequency filtering, low-frequency filtering, and bandwidth filtering circuits for small signals of the blood oxygen collecting signal, the blood sugar collecting signal, and the temperature collecting signal. The signal processing module 223 includes other processing of the sensor acquisition signals; the output module 224 includes an output circuit for amplifying and filtering the signals of the blood oxygen collecting signal, the blood sugar collecting signal and the temperature collecting signal.

As shown in fig. 2, the signal main control chip 230 includes an ultra-low power consumption MCU main control module 231, an ADC digital-to-analog conversion module 232, a signal input interface control module 233, a signal wireless transmission module 234, a power control module 235, a bus module 236, and a data storage module 237. The ADC digital-to-analog conversion module is connected to the MCU main control module 231 through the bus module 236. The signal input interface control module 234 is connected with the MCU main control module 231 through the bus module 236; the signal wireless transmitting module 234 is connected with the MCU main control module 231 through the bus module 236; the power control module 235 is connected with the MCU main control module 231 through the bus module 236; the data storage module 237 is connected to the MCU master control module 231 through the bus module 236.

Further, the wireless charging chip 240 is connected to an external wireless charging device (which may be an ear-band wireless charging device or a pillow-type wireless charging device) as needed, and simultaneously charges the micro battery 250.

As shown in fig. 2, the micro battery 250 has an ultra-small volume and ultra-low leakage current, is charged by the wireless charging chip 240, and provides working currents for the signal sensor 210, the signal acquisition chip 220, and the signal main control chip 230.

The wearable device is not the second choice for sub-health people, old people, patients, chronic patients and common patients who need to monitor the body health index in real time, and can judge the body condition according to the body health index data collected in real time, so that the body health can be ensured even if correct actions are taken.

The blood oxygen sensor, the blood sugar sensor and the temperature sensor of the dental implant are the most significant health indexes of heart, blood pressure, exercise, diet and cold and warm, and the sensing result is transmitted to the signal acquisition chip. The signals amplified and filtered by the signal acquisition chip can be transmitted to the signal processing chip for calculation and processing, if abnormal data exists, the signal processing chip starts wireless transmission, and the data and the early warning information are transmitted to the communication equipment and the data cloud platform. And the data cloud platform further judges the health index of the data, and if the health index of the data is definitely abnormal, early warning information is sent to the mobile phone of the electronic dental implant or the mobile phone of family members.

Furthermore, the adopted signal sensor, the signal acquisition chip, the signal processing chip, the wireless charging chip, the micro battery and the like are all ultra-low in power consumption and ultra-small in area and are packaged in the dental implant abutment so as to reduce the size and weight of the wearable dental implant. Meanwhile, the signal sensor is positioned on the bottom surface of the dental implant abutment and keeps smooth contact with the gum so as to ensure that the information of blood oxygen and blood sugar is collected in real time.

Furthermore, the implant abutment comprises all electronic sensors and chips for collecting and processing the electronic implant, so that the signal sensor, other processing chips and the micro battery are integrated and packaged in the abutment for a one-time forming process, and the sealing property, the water resistance, the pressure resistance and the corrosion resistance of the wearable implant are ensured.

When the signal acquisition and processing chip or the micro battery needs to be replaced, the implanted tooth crown body is detached, the implanted tooth abutment is detached from the implanted tooth implant, and the whole body is replaced by a new electronic implanted tooth abutment. As a dental implant maintenance consumable, the mode of integrally replacing the abutment is convenient for the long-term stable work of the dental implant, the experience degree of an intelligent electronic dental implant is good, the maintainability is good, the problem of tooth completion is solved, and the problem of monitoring the body health-care index in real time is also solved.

Example two:

the embodiment aims to provide a working method of an electronic dental implant for monitoring a body health index in real time.

An operating method of an electronic dental implant for monitoring a health index in real time is based on the electronic dental implant for monitoring the health index in real time, and the method comprises the following steps:

a signal sensor in the electronic dental implant collects human health index signals in real time;

the collected human health index signals are output to the main control chip after being preprocessed by the signal collection chip;

the main control chip compares the obtained index signal with a preset threshold value, and when the obtained index signal exceeds the threshold value range, an alarm is sent to an external terminal through the signal wireless sending module.

Further, the external terminal is a portable terminal device capable of interacting through wireless signals, and may be a mobile phone, a tablet, or the like.

EXAMPLE III

The embodiment aims at providing a health index detection system.

A health index detection system comprises an electronic dental implant, wireless charging equipment and external terminal equipment, wherein the electronic dental implant is used for monitoring a body health index in real time; wherein:

the electronic dental implant is used for acquiring human health index signals in real time;

the wireless charging equipment is used for charging the micro battery in the electronic dental implant based on a wireless charging mode;

and the external terminal equipment is used for receiving the human health index signal and the alarm information output by the electronic dental implant and visually displaying the human health index signal and the alarm information to a user.

Further, the system further comprises a remote data cloud platform.

Further, the external terminal may be a portable terminal device capable of interacting through a wireless signal, and the external terminal may perform data interaction with the remote data cloud platform through the wireless signal.

Further, the external terminal can be a mobile phone, a router, a switch, an intelligent sound box, an intelligent network camera and an intelligent wireless charging pillow.

Furthermore, the wireless communication module in the electronic dental implant transmits signals to the wireless transceiver chip, and the two modes of regular transmission and triggering transmission are included. When the data for monitoring the body health index of the user in real time is abnormal, the electronic dental implant autonomously triggers data signal transmission. The remote data cloud platform personnel and the family members of the users can receive the early warning information in time and dispose in time.

Furthermore, when the micro battery is not enough in power supply, the electronic dental implant gives an alarm to a user in advance, and prompts the user to wirelessly charge in time, and the charging process of the electronic dental implant can be completed when the user is in a sleeping state by matching with external wireless charging equipment (can be ear-hanging type or pillow type wireless charging equipment), so that the use is convenient.

Furthermore, the electronic dental implant for monitoring the body health index in real time not only connects the body health index data of the electronic dental implant with the in-vitro communication equipment and the remote data cloud platform, but also can be connected with the communication equipment (such as a mobile phone) of the family of the user in real time. The body health index of the electronic dental implant can be timely and effectively monitored, body abnormal data and emergency conditions can be early warned in advance, and family members can be informed.

Furthermore, the remote data cloud platform can perform statistical analysis on the staged human health index information of the user, and timely give out early warning information to the user of the electronic dental implant and the terminal equipment of family members, so that the user can be guaranteed to be well treated in time.

In further embodiments, there is also provided:

the electronic dental implant, the method and the system for monitoring the body health index in real time can be realized, and have wide application prospects.

The above description is only a preferred embodiment of the present disclosure and is not intended to limit the present disclosure, and various modifications and changes may be made to the present disclosure by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present disclosure should be included in the protection scope of the present disclosure.

Claims (10)

1. An electronic dental implant capable of monitoring a body health index in real time is characterized by comprising a dental crown body, an abutment and an implant, wherein the abutment comprises an acquisition layer, a processing layer and a buffer layer; the main control chip is connected with a power supply module, and the power supply module is connected with a wireless charging chip; the dental crown body is connected with the implant through the buffer layer.

2. The electronic dental implant for monitoring the body health index in real time of claim 1, wherein the base station integrally packages the signal sensor, the processing chips and the micro battery inside the base station.

3. The electronic dental implant according to claim 1, wherein the signal sensors comprise a blood oxygen collecting sensor, a blood sugar collecting sensor and a temperature sensor, the signal sensors are respectively connected with a signal collecting chip, the signal collecting chip is connected with the main control chip, and the signal collecting chip transmits the collected signals to the main control chip for processing.

4. The electronic dental implant for monitoring the body health index in real time according to claim 3, wherein the signal acquisition chip comprises a signal amplification module, a filtering module and an output module which are connected in sequence.

5. The electronic dental implant for monitoring the body health index in real time according to claim 4, wherein the filtering module comprises a high frequency filtering circuit, a low frequency filtering circuit and a bandwidth filtering circuit.

6. The electronic dental implant for monitoring the body health index in real time as claimed in claim 1, wherein the main control chip adopts an ultra-low power consumption MCU main control module, which is connected with an ADC digital-to-analog conversion module, a signal input interface control module, a signal wireless transmission module, a data bus module and a storage module, respectively.

7. The electronic dental implant for monitoring the body health index in real time according to claim 1, wherein the wireless charging chip is used for being connected with an external wireless charging device to charge the micro battery in the power module.

8. An operating method of an electronic dental implant for monitoring a physical health index in real time, which is based on an electronic dental implant for monitoring a physical health index in real time according to any one of claims 1 to 7, the method comprising:

a signal sensor in the electronic dental implant collects human health index signals in real time;

the collected human health index signals are output to the main control chip after being preprocessed by the signal collection chip;

the main control chip compares the obtained index signal with a preset threshold value, and when the obtained index signal exceeds the threshold value range, an alarm is sent to an external terminal through the signal wireless sending module.

9. The method for operating an electronic dental implant capable of monitoring the physical health index in real time as claimed in claim 8, wherein the external terminal is a portable terminal device capable of interacting with the external terminal through wireless signals.

10. A health index detection system, characterized in that the system comprises the electronic dental implant for monitoring the body health index in real time according to any one of claims 1 to 7, a wireless charging device and an external terminal device; wherein:

the electronic dental implant is used for acquiring human health index signals in real time;

the wireless charging equipment is used for charging the micro battery in the electronic dental implant based on a wireless charging mode;

and the external terminal equipment is used for receiving the human health index signal and the alarm information output by the electronic dental implant and visually displaying the human health index signal and the alarm information to a user.

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