CN212382778U - Artificial intelligence lower jaw occlusion and posture recorder - Google Patents

Abstract

The utility model relates to an artificial intelligence lower jaw interlock and gesture recorder supplies to join in marriage and wears at tester head, contains: a head holder, at least three pairs of light emitting diodes, and a microcomputer port mechanism. A microcomputer is arranged at the front side of the head fixer; three pairs of light emitting diodes respectively have different colors, are positioned at the periphery of the microcomputer and are visible positions for testers; the microcomputer port mechanism is provided with a conduction element, a pressure sensor and an inertia measuring element, one end of the conduction element is connected with the microcomputer, the other end of the conduction element is connected with the pressure sensor and the inertia measuring element, and the pressure sensor and the inertia measuring element are arranged in the oral cavity of a tester. So as to achieve the biological cycle action of induction, feedback and coordination, can record and store the posture and the occlusal force of the lower jaw in the whole course, can be widely applied to the follow-up clinical application and research, and can feed back and improve the obtained data to have the function of artificial intelligence learning.

Description

Artificial intelligence lower jaw occlusion and posture recorder

Technical Field

The present invention relates to a technique of an artificial intelligence mandibular occlusion and posture recorder, and more particularly to an artificial intelligence mandibular occlusion and posture recorder having functions of display, sensing, feedback, judgment, analysis, etc. and approaching to the functional movement of the actual occlusion.

Background

The conventional mandibular record is usually made by using an occlusion wax sheet as a static and fixed point, and this method has no sensing, feedback, judgment and coordination actions, and the actual functional actions of non-occlusion are static records made by matching a plaster model with the occlusion wax sheet, but the coordination actions of the biological functional actions through sensing, feedback, judgment and actions are completely different from the pure mechanical actions.

Therefore, the prior art often produces a result with a large difference from the actual jaw action, especially for the long-term tooth lacking person, the gum bone is deformed, the mouth is inclined, the difficulty is increased in manufacturing the implant or the movable false tooth, after the manufacturing, the occlusal paper is required to be used for testing and adjusting in the mouth for many times, and then a long adaptation period is required.

Therefore, how to create a sport device that can continuously record the biological function of the lower jaw and is convenient to carry so as to improve the overall practicability and convenience is the active disclosure of the present invention.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an artificial intelligence chin interlock and gesture recorder, mainly through the structural design who simplifies, let the tester wear at the head, so the tester can show the lamp number according to emitting diode and adjust the snap-in force by oneself, so that reach the response, repayment, coordinated physiological circulation action, and can whole record storage chin gesture and snap-in force, but with wide application in follow-up clinical research and application, but gained data repayment improvement utensil artificial intelligence learning function, and can promote whole practicality.

In order to achieve the above object, the utility model provides an artificial intelligence lower jaw interlock and gesture recorder supplies to join in marriage and wears at tester's head, contains: a head holder, at least three pairs of light emitting diodes, and a microcomputer port mechanism. A microcomputer is arranged at the front side of the head fixer; three pairs of light emitting diodes respectively have different colors, are positioned at the periphery of the microcomputer and are visible positions for testers; the microcomputer port mechanism is provided with a conduction element, a pressure sensor and an inertia measuring element, one end of the conduction element is connected with the microcomputer, the other end of the conduction element is connected with the pressure sensor and the inertia measuring element, and the pressure sensor and the inertia measuring element are arranged in the oral cavity of a tester.

In a preferred embodiment, the conductive element is a conductive wire electrically connecting the microcomputer and the pressure sensor and the inertial measurement unit. In another preferred embodiment, the conductive element is a wireless transmission port for connecting the microcomputer and the pressure sensor and the inertia measurement element by wireless transmission. In addition, the three pairs of light-emitting diodes can be replaced by a liquid crystal display screen or a voice player, and a tester can also see display subtitles or hear voice to automatically adjust the biting force.

Drawings

Fig. 1 is a perspective view of a preferred embodiment of the artificial intelligence mandibular occlusion and posture recorder of the present invention.

Fig. 2 is a schematic plan view of the artificial intelligence lower jaw occlusion and posture recorder according to a preferred embodiment of the present invention.

Fig. 3 is a right side view of the artificial intelligence lower jaw occlusion and posture recorder according to a preferred embodiment of the present invention.

Fig. 4 is a left side schematic view of the artificial intelligence lower jaw occlusion and posture recorder according to a preferred embodiment of the present invention.

Figure 5 is the data map that the utility model discloses artificial intelligence lower jaw interlock and attitude recorder's inertial measurement component measured.

Fig. 6 is a data diagram of the pressure sensing element of the artificial intelligence mandibular occlusion and posture recorder of the present invention.

The various reference numbers in the figures are listed below:

1-artificial intelligent lower jaw occlusion and posture recorder

10-microcomputer

11-head holder

12-light emitting diode

13-microcomputer port mechanism

131-conductive element

132- -pressure sensor

133- -inertial measurement Unit

2- -testers

21- -lower jaw

22-temporomandibular joint

23- -Upper and lower jaw teeth

Detailed Description

Other advantages and capabilities of the present invention will be readily apparent to those skilled in the art from the disclosure herein.

The embodiments of the present invention will be described with reference to the drawings, wherein the drawings are simplified schematic drawings and are only schematic illustrations of the basic concepts of the present invention, and the structures related to the present invention are only illustrated in the drawings rather than drawn according to the number, shape and size of the elements in actual implementation.

First, please refer to fig. 1 to 6, which are a perspective view, a schematic plan view, a schematic right-side use state view, a schematic left-side use state view, a data graph measured by an inertia measurement element, and a data graph measured by a pressure sensing element of a preferred embodiment of the artificial intelligence mandibular occlusion and posture recorder of the present invention. As shown in the figure, the utility model discloses artificial intelligence lower jaw interlock and gesture recorder 1 contains: a head holder 11, at least three pairs of light emitting diodes 12, and a microcomputer port mechanism 13. A microcomputer 10 is arranged at the front side of the head fixer 11; three pairs of light emitting diodes 12 having different colors are positioned around the microcomputer 10 and are visible to the tester; the microcomputer port mechanism 13 has a conductive element 131, a pressure sensor 132 and an inertia measuring element 133, one end of the conductive element 131 is connected to the microcomputer 10, the other end is connected to the pressure sensor 132 and the inertia measuring element 133, and the pressure sensor 132 and the inertia measuring element 133 are disposed in the oral cavity of the tester 2.

In a preferred embodiment, the conductive element 131 is a conductive wire electrically connecting the microcomputer 10, the pressure sensor 132 and the inertia measurement element 133. In other preferred embodiments, the conducting element 131 can also be a wireless transmission port for wireless transmission and connection of the microcomputer 10, the pressure sensor 132 and the inertia measurement element 133.

In practice, the head of the patient is fixed on the dental chair or a specific fixing position by the head holder 11, the microcomputer 10 on the head holder 11 is connected with the pressure sensor 132 and the inertia measuring element 133 on the other side by the conducting element 131, and the device is fixed on the teeth of the lower jaw 21 by wax or other adhesive without damaging occlusion. When the lower jaw 21 acts with the temporal jaw joint 22 as a fulcrum, the inertial measurement unit 133 is linked, and the inertial measurement unit 133 is installed with a three-axis gyroscope and three-axis acceleration, so as to measure the angular velocity and acceleration of the lower jaw in three-dimensional space, and calculate the posture change data of the lower jaw (as shown in fig. 5). When the upper and lower teeth 23 are occluded, as shown in fig. 3 and 4, the occlusion pressure variation data measured by the resistance variation generated in the pressure sensors 132 on the left and right teeth of the lower jaw is shown in fig. 6, and all the measured data are transmitted to the microcomputer 10 via the connection line by the set communication protocol, and the software is written according to the data instruction table of the chip used. After being analyzed and judged by the microcomputer 10, the result is displayed by the light emitting diode 12 to be fed back to the tester, the bite force intensity of the mandible at two sides can be respectively displayed, the green light emitting diode 12 is lightened when the light bite force is set, the yellow light emitting diode 12 is lightened when the middle bite force is set, and the red light emitting diode 12 is lightened when the heavy bite force is set, so that the tester can automatically adjust the proper bite force according to the light signals with different colors, so as to achieve the biological cycle action of induction, feedback and coordination, can record and store the mandible posture and the bite force in the whole process, is widely applied to the research and clinical application of the follow-up medicine, and the obtained data can be fed back and improved to have the artificial intelligent learning function.

Compared with the prior art, the utility model discloses artificial intelligence chin interlock and gesture recorder mainly through the structural design who retrencies, reach response, repayment, the physiological cycle action of coordination to but chin gesture and occlusal force are stored to whole record, but with wide application in follow-up clinical research and application, but gained data repayment improvement utensil artificial intelligence learning function, and can promote whole practicality, will more press close to modern's demand in the use, with promote holistic practicality and convenience.

While the foregoing description and drawings represent the preferred embodiments of the present invention, it will be understood that various additions, modifications and substitutions may be made therein without departing from the spirit and scope of the principles of the present invention as defined in the accompanying claims. One of ordinary skill in the art will appreciate that the invention may be used with many modifications of form, structure, arrangement, proportions, materials, elements, and components, and otherwise, used in the practice of the invention. Accordingly, the embodiments disclosed herein should be considered illustrative of the present invention and not limiting thereof. The scope of the present invention should be determined by the scope of the appended claims, and their legal equivalents are covered thereby and are not limited to the foregoing description.

Claims (9)

1. An artificial intelligence mandibular occlusion and posture recorder for wearing on a tester's head, comprising:

a head fixer, a microcomputer is arranged on the front side;

at least three pairs of light emitting diodes, which have different colors and are positioned at the periphery of the microcomputer and are visible positions of testers; and

the microcomputer port mechanism is provided with a conduction element, a pressure sensor and an inertia measuring element, one end of the conduction element is connected with the microcomputer, the other end of the conduction element is connected with the pressure sensor and the inertia measuring element, and the pressure sensor and the inertia measuring element are arranged in the oral cavity of the tester.

2. The artificial intelligence mandibular occlusion and posture recorder of claim 1, wherein said conductive element is a conductive wire electrically connecting said microcomputer and said pressure sensor and said inertial measurement unit.

3. The artificial intelligence mandibular occlusion and posture recorder of claim 1, where the conducting element is a wireless transmission port for wireless transmission connecting the microcomputer and the pressure sensor and the inertial measurement unit.

4. An artificial intelligence mandibular occlusion and posture recorder for wearing on a tester's head, comprising:

a head fixer, a microcomputer is arranged on the front side;

at least one liquid crystal display screen positioned at the periphery of the microcomputer and at a position visible to a tester; and

the microcomputer port mechanism is provided with a conduction element, a pressure sensor and an inertia measuring element, one end of the conduction element is connected with the microcomputer, the other end of the conduction element is connected with the pressure sensor and the inertia measuring element, and the pressure sensor and the inertia measuring element are arranged in the oral cavity of the tester.

5. The artificial intelligence mandibular occlusion and posture recorder of claim 4, wherein said conductive element is a conductive wire electrically connecting said microcomputer and said pressure sensor and said inertial measurement unit.

6. The artificial intelligence mandibular occlusion and posture recorder of claim 4, where the conducting element is a wireless transmission port for wireless transmission connecting the microcomputer and the pressure sensor and the inertial measurement unit.

7. An artificial intelligence mandibular occlusion and posture recorder for wearing on a tester's head, comprising:

a head fixer, a microcomputer is arranged on the front side;

at least one voice player positioned at the periphery of the microcomputer and at a position visible to the tester; and

the microcomputer port mechanism is provided with a conduction element, a pressure sensor and an inertia measuring element, one end of the conduction element is connected with the microcomputer, the other end of the conduction element is connected with the pressure sensor and the inertia measuring element, and the pressure sensor and the inertia measuring element are arranged in the oral cavity of the tester.

8. The artificial intelligence mandibular occlusion and posture recorder of claim 7, wherein said conductive element is a conductive wire electrically connecting said microcomputer and said pressure sensor and said inertial measurement unit.

9. The artificial intelligence mandibular occlusion and posture recorder of claim 7, wherein said conducting element is a wireless transmission port for wireless transmission connecting said microcomputer and said pressure sensor and said inertial measurement unit.

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