TW202123900A - Artificial intelligence mandible occlusion and movement record device。 - Google Patents

Artificial intelligence mandible occlusion and movement record device。 Download PDF

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TW202123900A
TW202123900A TW108147718A TW108147718A TW202123900A TW 202123900 A TW202123900 A TW 202123900A TW 108147718 A TW108147718 A TW 108147718A TW 108147718 A TW108147718 A TW 108147718A TW 202123900 A TW202123900 A TW 202123900A
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Taiwan
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occlusion
microcomputer
force
inertial measurement
teeth
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TW108147718A
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Chinese (zh)
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劉宗全
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劉宗全
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Priority to TW108147718A priority Critical patent/TW202123900A/en
Priority to CN202010590424.3A priority patent/CN113017895A/en
Priority to CN202021197803.8U priority patent/CN212382778U/en
Publication of TW202123900A publication Critical patent/TW202123900A/en

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Abstract

The device containing the inertial measurement element and the force resistor sensors are fixed to the teeth of the lower jaw, and then a microcomputer wom on the human head is connected by wire or wirelessly. When the jaw moves, the inertial measurement element is linked to measure the change in movement. At the time of teeth occlusion, the force resistor sensors measures the occlusion pressure, transmits the signal to the microcomputer, and after digital processing, displays the intensity of the occlusal force, seperatly of the left and right sides. (light occlusion (green), middle occlusion (yellow)), heavy bite force (red)). The tester can adjust the occlusal force based on this information, and the entire record can be stored and analyzed, which will be widely used in subsequent clinical applications and research, The data can be fed back to improve the artificial intelligence learning function.

Description

人工智慧下顎咬合及姿態紀錄器 Artificial intelligence jaw bite and posture recorder

本裝置是偵測下顎動作,有顯示、感應、回饋、判斷、分析的功能,趨近於真正咬合的機能動作。 This device is to detect jaw movement, with display, induction, feedback, judgment, and analysis functions, which is close to the functional movement of real occlusion.

已知下顎紀錄為靜態、定點以咬合蠟片製作紀錄無感應、回饋、判斷、無協調動作,非咬合的真正機能動作,是以石膏模型配以咬合蠟片製作的靜態紀錄,然而生物機能動作是經感應、回饋、判斷、動作的協調動作與純機械動作很不同,因此先前技術往往產生與實際下顎動作差異大的結果,尤其是面對長年缺牙者,牙床骨早已變型,嘴歪臉斜,無論在製作植牙或活動假牙都困難度大增。製作完成後還需咬合紙在口內測試多次調整,之後往往還需很長的適應期。因此,需要發展,能提供連續紀錄下顎有生物機能的運動方法,且可攜帶之運動裝置。 It is known that the lower jaw record is static, fixed point made by occlusal wax film. There is no induction, feedback, judgment, and no coordinated action. The non-occlusal real functional action is a static record made by plaster model with occlusal wax film. However, biological function action The coordinated action through induction, feedback, judgment, and action is very different from pure mechanical action. Therefore, the previous technology often produces results that are very different from the actual mandibular action. Especially in the face of long-term tooth loss, the gum bone has long been deformed and the mouth is crooked. Oblique, whether in the production of dental implants or movable dentures, the difficulty is greatly increased. After the production is completed, the occlusal paper needs to be tested several times in the mouth, after which it often requires a long adaptation period. Therefore, there is a need to develop a portable exercise device that can provide a continuous recording of the biological function of the lower jaw.

將含慣性測量元件及壓力感應器之裝置以不妨害咬合為原則,用蠟片或其它黏著物固定於下顎的牙齒,再以有線或無線方式連接穿戴於人體頭部的微電腦。 The device containing the inertial measurement element and the pressure sensor is fixed on the teeth of the lower jaw with wax or other adhesives based on the principle of no bite, and then connected to the microcomputer worn on the human head in a wired or wireless manner.

當下顎動作時連動慣性測量元件,得以測得動作變化。於牙齒咬合時,壓力感應器測得咬合壓力,將信號傳至微電腦主機,經數位方式處理後以發光二極體分別顯示兩側下顎咬合力強度(輕咬合力(綠色),中咬合力(黃色),重咬合力(紅色))。測試者可根據此資料自行調整咬合力,全程紀錄儲存、分析,將可廣泛應用於後續臨床應用及研究,所得數據可回饋改進具人工智慧學習功能。 When the lower jaw moves, the inertial measuring element is connected to measure the movement change. When the teeth are occluding, the pressure sensor measures the occlusal pressure, and transmits the signal to the microcomputer host. After digital processing, the light-emitting diodes display the occlusal strength of the lower jaws on both sides (light occlusal force (green), medium occlusal force ( Yellow), heavy bite force (red)). The tester can adjust the bite force by himself based on this data, and the whole process of record storage and analysis will be widely used in subsequent clinical applications and research. The data obtained can be fed back to improve the artificial intelligence learning function.

10‧‧‧頭部固定器 Headset Headset head holder 10 ‧‧‧

20‧‧‧微電腦處理器 Microprocessor Microprocessor 20 ‧‧‧ micro-processor

30‧‧‧紅色發光二極體 Red Light Emitted Diode 30 ‧‧‧Red Light Emitted Diode

31‧‧‧黃色發光二極體 Yellow Light Emitted Diode 31 ‧‧‧Yellow Light Emitted Diode

32‧‧‧綠色發光二極體 Green Light Emitted Diode 32 ‧‧‧Green Light Emitted Diode

40‧‧‧連接線 Connected Wire 40 ‧‧‧Connected Wire

50‧‧‧壓力感應器 Force Sensing Resistor 50 ‧‧‧Force Sensing Resistor

60‧‧‧慣性測量元件 Inertial Measurement Unit 60 ‧‧‧Inertial Measurement Unit

70‧‧‧測試者頭部 Tester Head 70 ‧‧‧Tester Head

80‧‧‧測試者顳顎關節 Tester Temporomandibular Joint 80 ‧‧‧ testers temporomandibular joint Tester Temporomandibular Joint

90‧‧‧測試者牙齒 Tester Teeth 90 ‧‧‧Tester Teeth

100‧‧‧測試者下顎 Tester Mandibular 100 ‧‧‧Tester Mandibular

1圖係根據本發明之一運動裝置圖。 Figure 1 is a diagram of an exercise device according to the present invention.

2圖係本發明之局部立體分解圖。 Figure 2 is a partial three-dimensional exploded view of the present invention.

3圖係本發明之右側使用狀態示意圖視圖。 Figure 3 is a schematic view of the right side of the present invention in use.

4圖係本發明之正面使用狀態之示意圖。 Fig. 4 is a schematic diagram of the front use state of the present invention.

5圖係本發明之慣性測量元件測得資料例圖。 Figure 5 is an example diagram of data measured by the inertial measurement device of the present invention.

6圖係本發明之壓力感應元件測得資料例圖。 Figure 6 is an example diagram of the measured data of the pressure sensing element of the present invention.

先將測試者頭部固定於牙醫診療椅上或固定桿上,將本發明之含微型電腦之裝置固定套於測試者頭部如第1圖,以軟性傳導線連接另一含慣性測量元件與壓力感應器的裝置,此裝置以不妨害咬合為原則,用蠟片或其它黏著物固定於下顎齒列上。如第3、4圖,當下顎動作時連動慣性測量元件,測得動作姿態變化如第5圖。於牙齒上下顎咬合時,於牙齒處之左右兩側下顎壓力感應器測得咬合壓力如第6圖,連接線將其信號傳至微電腦主機,經數位方式處理後分別以輕咬合力(綠色)中咬合力(黃色)重咬合力(紅色)發光二極體顯示,測試者可根據此顯示資料調整咬合力以得到實際咬合時的動作與咬合力紀錄如第5、6圖,並全程儲存、整理、分析,以廣泛應用於後續醫學的研究及臨床應用,所得數據可回饋改進具人工智慧學習功能。 First fix the tester’s head on the dentist’s chair or on the fixed rod, and fix the device with the microcomputer of the present invention on the tester’s head as shown in Figure 1, and connect another inertial measurement element with a flexible conductive wire. Pressure sensor device, this device is based on the principle of no bite, fixed on the dentition of the mandible with wax or other adhesives. As shown in Figures 3 and 4, when the lower jaw moves, the inertial measurement element is connected, and the change in the posture of the movement is measured as shown in Figure 5. When the teeth are occluding the upper and lower jaws, the occlusal pressure is measured by the lower jaw pressure sensors on the left and right sides of the teeth as shown in Figure 6. The connection cable transmits the signal to the microcomputer host, and the light bite force (green) is respectively processed after digital processing. Medium bite force (yellow) and heavy bite force (red) LED display. The tester can adjust the bite force according to the displayed data to obtain the actual bite movement and bite force record as shown in Figures 5 and 6, and store them all the way. Organize and analyze to be widely used in follow-up medical research and clinical applications, and the data obtained can be fed back and improved with artificial intelligence learning functions.

Figure 108147718-A0101-11-0002-8
Figure 108147718-A0101-11-0002-8

10‧‧‧頭部固定器 Headset 10‧‧‧Headset

20‧‧‧微電腦處理器 Microprocessor 20‧‧‧Microprocessor

30‧‧‧紅色發光二極體 Red Light Emitted Diode 30‧‧‧Red Light Emitted Diode

31‧‧‧黃色發光二極體 Yellow Light Emitted Diode 31‧‧‧Yellow Light Emitted Diode

32‧‧‧綠色發光二極體 Green Light Emitted Diode 32‧‧‧Green Light Emitted Diode

40‧‧‧連接線 Connected Wire 40‧‧‧Connected Wire

50‧‧‧壓力感應器 Force sensing Resistor 50‧‧‧Force sensing Resistor

60‧‧‧慣性測量元件 Inertial Measurement Unit 60‧‧‧Inertial Measurement Unit

70‧‧‧測試者頭部 Tester Head 70‧‧‧Tester Head

80‧‧‧測試者顳顎關節 Tester Temporomandibular Joint 80‧‧‧Tester Temporomandibular Joint

90‧‧‧測試者牙齒 Tester Teeth 90‧‧‧Tester Teeth

100‧‧‧測試者下顎 Tester Mandibular 100‧‧‧Tester Mandibular

Claims (4)

一種運動裝置,包括: A sports device, including: 一頭部固定器,其上設有一放置微電腦部份;其進一步包括至少3對不同顏色發光二極體定位在測試者可見與該微電腦連接埠之機構,微電腦以一傳導線連接與置於口腔之慣性測量元件與壓力感應器之機構。 A head holder on which a microcomputer is placed; it further includes at least 3 pairs of light-emitting diodes of different colors positioned at the tester’s visible connection port with the microcomputer. The microcomputer is connected with a conductive wire and placed in the oral cavity. The mechanism of inertial measurement element and pressure sensor. 根據申請專利範圍第1項之運動裝置,其中微電腦以一傳導線連接與置於口腔之慣性測量元件與壓力感應器之機構亦可以無線裝置傳導。 According to the motion device of the first item in the scope of patent application, the mechanism of the microcomputer connected with the inertial measurement element and the pressure sensor placed in the oral cavity by a conductive wire can also be conducted by a wireless device. 根據申請專利範圍第1項之運動裝置,其不同顏色發光二極體亦可以液晶螢幕數字顯示之。 According to the motion device in the first item of the scope of patent application, the LEDs of different colors can also be digitally displayed on the LCD screen. 根據申請專利範圍第1項之運動裝置,對於無牙者可製作蠟堤替代之。 According to the motion device of item 1 in the scope of patent application, for those who have no teeth, a wax embankment can be made instead.
TW108147718A 2019-12-24 2019-12-24 Artificial intelligence mandible occlusion and movement record device。 TW202123900A (en)

Priority Applications (3)

Application Number Priority Date Filing Date Title
TW108147718A TW202123900A (en) 2019-12-24 2019-12-24 Artificial intelligence mandible occlusion and movement record device。
CN202010590424.3A CN113017895A (en) 2019-12-24 2020-06-24 Artificial intelligence lower jaw occlusion and posture recorder
CN202021197803.8U CN212382778U (en) 2019-12-24 2020-06-24 Artificial intelligence lower jaw occlusion and posture recorder

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Application Number Priority Date Filing Date Title
TW108147718A TW202123900A (en) 2019-12-24 2019-12-24 Artificial intelligence mandible occlusion and movement record device。

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TW202123900A true TW202123900A (en) 2021-07-01

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