TWI749553B - Wearable device - Google Patents
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- TWI749553B TWI749553B TW109115927A TW109115927A TWI749553B TW I749553 B TWI749553 B TW I749553B TW 109115927 A TW109115927 A TW 109115927A TW 109115927 A TW109115927 A TW 109115927A TW I749553 B TWI749553 B TW I749553B
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/103—Detecting, measuring or recording devices for testing the shape, pattern, colour, size or movement of the body or parts thereof, for diagnostic purposes
- A61B5/11—Measuring movement of the entire body or parts thereof, e.g. head or hand tremor, mobility of a limb
- A61B5/1118—Determining activity level
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B5/00—Measuring for diagnostic purposes; Identification of persons
- A61B5/68—Arrangements of detecting, measuring or recording means, e.g. sensors, in relation to patient
- A61B5/6801—Arrangements of detecting, measuring or recording means, e.g. sensors, in relation to patient specially adapted to be attached to or worn on the body surface
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- G—PHYSICS
- G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
- G16H—HEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
- G16H40/00—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices
- G16H40/60—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the operation of medical equipment or devices
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R13/00—Details of coupling devices of the kinds covered by groups H01R12/70 or H01R24/00 - H01R33/00
- H01R13/46—Bases; Cases
- H01R13/502—Bases; Cases composed of different pieces
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R31/00—Coupling parts supported only by co-operation with counterpart
- H01R31/06—Intermediate parts for linking two coupling parts, e.g. adapter
Abstract
Description
本揭露是關於一種用於形成一穿戴裝置的結合裝置、結合構造、訊號連接排線、用於感測使用者之運動參數的穿戴裝置、及其節點裝置,且特別是關於一種感測模組與訊號處理模組,用於形成一穿戴裝置的結合裝置、結合構造、訊號連接排線、用於感測使用者之運動參數的穿戴裝置、及其節點裝置。 This disclosure relates to a combination device for forming a wearable device, a combination structure, a signal connection cable, a wearable device for sensing the motion parameters of a user, and a node device thereof, and in particular to a sensing module And the signal processing module, used to form a combination device of a wearable device, a combination structure, a signal connection cable, a wearable device for sensing the user's motion parameters, and a node device.
由於科技的發達以及通訊技術的進步,高速連網與低延遲使各種電子裝置可互相通訊而可將資料傳到雲端伺服器處理,即萬物連網(IOT,Internet of thing)得以實現,雲端伺服器可分析這些資料,並藉由機器學習、或深度學習、大數據等AI人工智慧的方式來判斷,甚至可預測事件的發生。而在健康、醫療、照護、娛樂、虛擬實境等領域上,各種感測器可用於人體上來感側各種生理數據或運動數據,以實時監測人體的狀態,並可將這些資料傳送到雲端伺服器分析,以對個人的健康、醫療、照護作出即時示警、或達到預防保健的效果,這些感測器所感測到的生理數據或運動數據亦可用於各種虛擬實境中。 Due to the development of science and technology and the advancement of communication technology, high-speed networking and low latency enable various electronic devices to communicate with each other and transmit data to the cloud server for processing, that is, the Internet of things (IOT) is realized, and the cloud server The device can analyze these data, and use machine learning, deep learning, big data and other AI artificial intelligence methods to judge, and even predict the occurrence of events. In the fields of health, medical care, care, entertainment, virtual reality, etc., various sensors can be used on the human body to sense various physiological data or motion data to monitor the state of the human body in real time, and send these data to the cloud server Analyze by sensors to give immediate warnings on personal health, medical treatment, and care, or to achieve preventive and health care effects. The physiological data or exercise data sensed by these sensors can also be used in various virtual reality environments.
感測人體的運動狀態的方式可分成接觸式與非接觸式,接觸式的感測器需要結合到身上的衣物,然而感測器傳送感測訊號時通常需要 導線,人體在運動時,其關節處會彎曲,使得其肢體會伸展或收縮,因此導線需具有可撓性、且導線必須與感測器、以及身上的衣服結合,才能將感測到的生理訊號透過導線傳送出去處理。在現有的穿戴裝置或設備中,通常是直接將感測器以及導線藉由縫線或黏貼的方式來與導線結合,且將導線形成一特定形狀成而具有可撓性。例如在先前技術US20170319132中,其揭示一種用於生理監測服裝的裝置和方法,導線形成波浪狀而縫製在衣服布料上,感測器上的訊號線可藉由焊接直接連接到導線上,然後感測器可被縫製在衣服布料上,或是使用黏貼的方式貼附到衣服布料上,然而,其並未提供一種統整機構結合與電性結合的結構或裝置。 The way of sensing the motion state of the human body can be divided into contact type and non-contact type. The contact type sensor needs to be combined with the clothes on the body, but the sensor usually needs to transmit the sensing signal Wires. When the human body moves, its joints will bend, causing its limbs to stretch or contract. Therefore, the wires must be flexible, and the wires must be combined with the sensor and the clothes on the body in order to sense the physiology The signal is sent out through the wire for processing. In existing wearable devices or equipment, the sensor and the wire are usually directly combined with the wire by stitching or pasting, and the wire is formed into a specific shape to be flexible. For example, in the prior art US20170319132, it discloses a device and method for physiological monitoring of clothing. The wire is wavy and sewn on the cloth of the clothing. The signal wire on the sensor can be directly connected to the wire by welding, and then the sensor is directly connected to the wire by welding. The measuring device can be sewn on the cloth of the clothes, or attached to the cloth of the clothes by pasting. However, it does not provide a structure or device that integrates the integrated mechanism and the electrical connection.
習知技術並未使用將傳輸訊號的導線、運動感測器、處理模組、以及織物結合在一起的結構,也並未利用這種結構來互相組合運動感測器與處理模組,而來形成一套穿戴裝置,其可配戴在使用者不同的部位,並且這種結構可相互組合來應用穿戴在使用者的身體的不同部位。 The conventional technology does not use a structure that combines signal transmission wires, motion sensors, processing modules, and fabrics, and does not use this structure to combine motion sensors and processing modules with each other. A set of wearable devices are formed, which can be worn on different parts of the user, and this structure can be combined with each other to be worn on different parts of the user's body.
相對於上述技術前案的缺失,本揭示提出一種用於形成一套穿戴裝置服裝的結合結構、構造物、或組合裝置,其包含具有一第一導線的一第一結合結構、以及具有一第二導線的一第二結合結構,兩結合構造藉由該第一導線與該第二導線而形成結合結構、構造物、或組合裝置。各該結合構造具有相對應的複數機械結構與相對應的複數電性接點而來形成一機械結合與一電性結合。該第一結合構造包含具有感測模組的一第一剛性單元、一第一樞紐連接構件、以及一第一結合構件,三者藉由相對應的複數第一機械結構而形成一第一機械結合,且藉由相對應的複數第一電性 接點而形成一第一電性結合。該第二結合構造包含具有一處理模組的一第二剛性單元、一第二樞紐連接構件、以及一第二結合構件,三者藉由相對應的複數第二機械結構而形成一第二機械結合,且藉由相對應的複數第二電性接點而形成一第二電性結合。 With respect to the lack of the foregoing technical previous proposals, the present disclosure proposes a combination structure, structure, or combination device for forming a wearable device garment, which includes a first combination structure with a first wire and a first combination structure with a first wire. A second bonding structure of two wires, and the two bonding structures form a bonding structure, a structure, or a combined device by the first wire and the second wire. Each of the coupling structures has a corresponding plurality of mechanical structures and a corresponding plurality of electrical contacts to form a mechanical coupling and an electrical coupling. The first coupling structure includes a first rigid unit with a sensing module, a first hinge connecting member, and a first coupling member, the three of which form a first mechanical structure by corresponding plural first mechanical structures Combined with the corresponding plural first electrical properties The contacts form a first electrical connection. The second coupling structure includes a second rigid unit with a processing module, a second hinge connecting member, and a second coupling member, the three of which form a second machine by corresponding plural second mechanical structures Combined, and a second electrical connection is formed by the corresponding plurality of second electrical contacts.
各該樞紐連接構件可為一導線連接構件,其可結合具有複數撓性導線的彈性織物、感測模組。一結合構件可將該樞紐連接構件、該彈性織物、以及該感測模組結合而形成一結合構造,用以穿戴在使用者的肢體或身體上,來感測肢體或身體的運動狀態。該樞紐連接構件包含複數連接座,各該連接座可為一凹口形狀,且包含上座與下座,各該上座與下座具有左側孔與右側孔,以與該結合構件機械結合,各該上座與下座可形成一座槽,該複數撓性導線在與該樞紐連接構件在電性結合處形成直線的形狀,各該複數撓性導線崁入各該座槽中來形成電性連接。各該上座與下座分別具有一座上孔與一座下孔,用以將該樞紐連接構件與該感測模組電性連接。 Each of the hinge connection members can be a wire connection member, which can be combined with an elastic fabric with a plurality of flexible wires and a sensing module. A combining member can combine the hinge connecting member, the elastic fabric, and the sensing module to form a combined structure, which is used to wear on the limb or body of the user to sense the movement state of the limb or body. The hinge connecting member includes a plurality of connecting seats, each of the connecting seats can be a notch shape, and includes an upper seat and a lower seat, each of the upper seat and the lower seat has a left hole and a right hole to be mechanically combined with the connecting member, each The upper seat and the lower seat can form a slot, the plurality of flexible wires form a linear shape at the electrical junction with the hinge connecting member, and each of the plurality of flexible wires is embedded into each seat slot to form an electrical connection. Each of the upper seat and the lower seat has an upper hole and a lower hole for electrically connecting the hinge connecting member and the sensing module.
該感測模組感測使用者在運動時的至少一運動參數,再將其轉換成複數電訊號,其中該運動參數包含一加速度參數、一速度參數、以及一位移參數的至少其中之一。該感測模組藉由電性連接該導線連接構件而可將該複數電訊號傳送至一訊號處理模組進行分析與處理。該感測模組為剛性元件,且包含一保護蓋、一電路板、以及一模組連接座。該模組連接座具有一第一卡榫結構,該保護蓋具有一第二卡榫結構,該第一卡榫結構與該第二卡榫結構接合而將該電路板封裝於該感測模組內部。 The sensing module senses at least one motion parameter of the user during exercise, and then converts it into a complex electrical signal, where the motion parameter includes at least one of an acceleration parameter, a velocity parameter, and a displacement parameter. The sensing module can transmit the plurality of electrical signals to a signal processing module for analysis and processing by electrically connecting the wire connecting member. The sensing module is a rigid element and includes a protective cover, a circuit board, and a module connection seat. The module connector has a first tenon structure, the protective cover has a second tenon structure, and the first tenon structure is engaged with the second tenon structure to encapsulate the circuit board in the sensing module internal.
為了使該感測模組方便地配戴於使用者的不同部位,或是便 於更換或維護,該感測模組具有可拆解式的架構,它被設計成在該保護蓋與該模組連接座之間具有一間隙,以使該保護蓋可以徒手或使用適當工具拆開。該電路板固定於該保護蓋,因此在該保護蓋與該模組連接座分離後,該電路板也隨之分離。間隙設計是因應裝置外殼拆裝,但間隙又會在人體運動時,造成電路版與連接導線的接觸簧片發生相對位移而影響電性傳遞,故以具備預力可形變的彈簧連接器相連以適應因人體運動而發生的間隙變化,常保電性可靠傳遞。 In order to make the sensing module easily worn on different parts of the user, or convenient For replacement or maintenance, the sensing module has a detachable structure, which is designed to have a gap between the protective cover and the module connection base, so that the protective cover can be removed with bare hands or with appropriate tools. open. The circuit board is fixed to the protective cover, so after the protective cover is separated from the module connection base, the circuit board is also separated. The gap design is in response to the disassembly and assembly of the device shell, but the gap will cause the relative displacement of the circuit board and the contact reed of the connecting wire when the human body moves, which affects the electrical transmission. Therefore, the spring connector with a pre-force and deformable spring connector is used to connect to it. Adapt to the gap change caused by human movement, and always maintain electricity and reliable transmission.
本揭示提供了一種運動感測模組由複數個剛性結構件結合而成,互相結合的該等複數個剛性結構件之相對應的複數個結合處個別具有可變動位移量的結合間隙,複數個可形變的接合件對應地配置在此等複數個結合處以結合此等複數結合構件。 The present disclosure provides a motion sensing module that is formed by combining a plurality of rigid structural members. The corresponding joints of the plurality of rigid structural members that are combined with each other have a joint gap with a variable displacement amount. The deformable joint is correspondingly arranged at the plurality of joints to join the plurality of joint members.
感測模組的模組連接座與一結合構件結合,導線連接構件固定於該結合構件上並具有複數第一電性接點,該電路板上具有一複數第二電性接點,在該電路板與該導線連接構件之間藉由複數彈簧連接器來維持電性連接的可靠度。各該複數彈簧連接器可為一壓縮彈簧。由於該間隙的設計,以及該第一卡榫結構與該第二卡榫結構的卡合並非被緊密封閉鎖死,因此在使用者運動時,穿戴在身上的此等感測模組的該保護蓋與該模組連接座之間的該間隙便會因為身體運動而變動,易影響在電路板上的該複數第二電性接點與該導線連接構件的該複數第一電性接點之間的電性結合的穩定性。各該彈簧連接器配置於在該電路板與該導線連接構件之間,在該保護蓋與該模組連接座接合時,形成一壓縮預變形,在該保護蓋與該模組連接座卡合形成該間隙之後,當該身體運動而造成該間隙變大或變小 時,該複數彈簧連接器可適應性擴張或收縮長度而支撐住該電路板與該導線連接構件,此抵銷了該變動所可能發生的電性結合的不穩定性,確保了電性結合的可靠度。該訊號處理模組與該感測模組有相類似的結構,其亦可使用相類於該感測模組的維持電性連接的可靠度的方式。 The module connecting seat of the sensing module is combined with a connecting member. The wire connecting member is fixed on the connecting member and has a plurality of first electrical contacts. The circuit board has a plurality of second electrical contacts. A plurality of spring connectors are used between the circuit board and the wire connecting member to maintain the reliability of the electrical connection. Each of the plurality of spring connectors can be a compression spring. Due to the design of the gap, and the engagement of the first locking structure and the second locking structure, they are not tightly closed and locked, so when the user exercises, the protection of the sensing modules worn on the body The gap between the cover and the module connector will change due to body movement, which is easy to affect the second electrical contacts on the circuit board and the first electrical contacts of the wire connecting member. The stability of the electrical combination between. Each of the spring connectors is arranged between the circuit board and the wire connection member, and forms a compression pre-deformation when the protective cover is joined to the module connection base, and the protective cover is engaged with the module connection base After the gap is formed, when the body moves, the gap becomes larger or smaller At this time, the plurality of spring connectors can be adapted to expand or contract in length to support the circuit board and the wire connection member, which offsets the instability of the electrical connection that may occur due to the change, and ensures the electrical connection Reliability. The signal processing module has a similar structure to the sensing module, and it can also use a method similar to the sensing module to maintain the reliability of the electrical connection.
依據上述構想,本揭示提供一種穿戴裝置,用以供一使用者穿戴,以感測該使用者之一運動參數,穿戴裝置包含一第一結合構造,具有相對應的複數第一電性接點與相對應的複數第二電性接點以形成一第一電性結合,且第一結合構造包含一第一模組連接座、一第一導線連接構件、一第一保護蓋、以及複數第一彈簧連接器。該第一模組連接座具有一第一卡榫結構。該第一導線連接構件具有該相對應的複數第一電性接點。該第一保護蓋藉由該第一卡榫結構與該第一模組連接座接合,且在該第一模組連接座與該第一保護蓋之間具有一第一間隙。該第一電路板固定於該第一保護蓋上、配置於該第一模組連接座與該第一保護蓋之間、且具有該相對應的複數第二電性接點。該複數第一彈簧連接器電連接該相對應的該複數第一電性接點以形成複數第一電性連接、且電連接該相對應的該複數第二電性接點以形成複數第二電性連接、並配置於該第一模組連接座與該第一電路板之間以形成複數第一預變形,該複數第一彈簧連接器消除因應一運動所造成的該第一間隙的一第一變動,以使相對應的該複數第一電性接點與該相對應的複數第二電性接點維持該第一電性結合。 Based on the above conception, the present disclosure provides a wearable device for a user to wear to sense a movement parameter of the user. The wearable device includes a first coupling structure and has a corresponding plurality of first electrical contacts And the corresponding plurality of second electrical contacts to form a first electrical connection, and the first connection structure includes a first module connector, a first wire connection member, a first protective cover, and a plurality of first electrical contacts A spring connector. The first module connection base has a first tenon structure. The first wire connecting member has the corresponding plurality of first electrical contacts. The first protective cover is joined to the first module connecting seat through the first tenon structure, and there is a first gap between the first module connecting seat and the first protective cover. The first circuit board is fixed on the first protective cover, is disposed between the first module connection base and the first protective cover, and has the corresponding plurality of second electrical contacts. The plurality of first spring connectors are electrically connected to the corresponding plurality of first electrical contacts to form a plurality of first electrical connections, and the corresponding plurality of second electrical contacts are electrically connected to form a plurality of second electrical contacts Are electrically connected and arranged between the first module connection base and the first circuit board to form a plurality of first pre-deformations, and the plurality of first spring connectors eliminate a portion of the first gap caused by a movement The first change is so that the corresponding plurality of first electrical contacts and the corresponding plurality of second electrical contacts maintain the first electrical connection.
依據上述構想,本揭示提供一種穿戴裝置,用以供一使用者穿戴,以感測該使用者之一運動參數,穿戴裝置包含一模組連接座、一導線連接構件、一保護蓋、以及一電路板。該導線連接構件具有相對應的複 數第一電性接點。該保護蓋與該模組連接座接合。該電路板具有相對應的複數第二電性接點。該複數彈簧連接器電連接該相對應的複數第一電性接點以形成複數第一電性連接、且電連接該相對應的複數第二電性接點以形成複數第二電性連接、並配置於該導線連件與該電路板之間以形成複數第一預變形。 Based on the above conception, the present disclosure provides a wearable device for a user to wear to sense a movement parameter of the user. The wearable device includes a module connection base, a wire connection member, a protective cover, and a Circuit board. The wire connecting member has a corresponding complex Count the first electrical contact. The protective cover is engaged with the module connecting seat. The circuit board has a plurality of corresponding second electrical contacts. The plurality of spring connectors are electrically connected to the corresponding plurality of first electrical contacts to form a plurality of first electrical connections, and are electrically connected to the corresponding plurality of second electrical contacts to form a plurality of second electrical connections, And it is arranged between the wire connecting piece and the circuit board to form a plurality of first pre-deformations.
依據上述構想,本揭示提供一種穿戴裝置,用以供一使用者穿戴,以感測該使用者之一運動參數,該穿戴裝置包含一裝置本體、複數導線、一電路板、以及複數彈簧連接器。該複數導線設置於該裝置本體上、且用以傳導反映該運動參數之複數電訊號。該電路板設置於該裝置本體上,且具有複數第二電性接點。該複數彈簧連接器電連接於該複數第二電性接點及該複數導線之間,以在其間形成預力電連接。。 Based on the above conception, the present disclosure provides a wearable device for a user to wear to sense a motion parameter of the user. The wearable device includes a device body, a plurality of wires, a circuit board, and a plurality of spring connectors . The plurality of wires are arranged on the device body and used for conducting a plurality of electrical signals reflecting the motion parameters. The circuit board is arranged on the device body and has a plurality of second electrical contacts. The plurality of spring connectors are electrically connected between the plurality of second electrical contacts and the plurality of wires to form a pre-stressed electrical connection therebetween. .
本揭示的具體實施例請參閱圖式以更進一步說明本揭示的技術內容。 For specific embodiments of the present disclosure, please refer to the drawings to further illustrate the technical content of the present disclosure.
10,30,40:穿戴裝置 10, 30, 40: wearable device
20:用於形成一穿戴裝置的結合裝置 20: Combined device used to form a wearable device
USR:使用者 USR: User
ACT1,ACT2,ACT3,ACT4:活動部位 ACT1, ACT2, ACT3, ACT4: active part
22:第一結合構造 22: The first combination structure
24:第二結合構造 24: The second combination structure
P1:訊號連接孔 P1: Signal connection hole
Q1:訊號連接頭 Q1: Signal connector
21,23:附著構件 21, 23: Attachment member
101:織物 101: Fabric
N1:第一結合構件 N1: The first joining member
N2-S:第一導線連接構件 N2-S: The first wire connection member
N3-S,N6-H:模組連接座 N3-S, N6-H: Module connector
P1:訊號連接孔 P1: Signal connection hole
P3,Q3:訊號導線固定元件 P3, Q3: signal wire fixing element
P2_1:訊號連接線 P2_1: Signal connection line
P4:複數第二導線 P4: Multiple second wires
P7:彈性構件 P7: Elastic member
P8:複數第一導線 P8: Plural first wire
P5:保護座 P5: Protective seat
SN:感測節點 SN: sensor node
P6:保護蓋 P6: Protective cover
MCH1,MCH2:機械結合 MCH1, MCH2: mechanical combination
ELT1,ELT2:電性結合 ELT1, ELT2: electrical combination
ND:節點裝置 ND: Node device
SM:感測模組 SM: Sensing module
222:穿戴裝置本體 222: Wearable device body
P71,P72:彈性織物 P71, P72: elastic fabric
N2-S:第一導線連接構件 N2-S: The first wire connection member
N21-S:第一連接座 N21-S: The first connecting seat
N11:第二連接座 N11: The second connecting seat
N22-S:第一連接座槽 N22-S: The first connecting seat slot
N12:第二連接座槽 N12: The second connecting seat slot
N23-S,N13:座上孔 N23-S, N13: Seat hole
N25-S,N26-S:複數第一機構接點 N25-S, N26-S: plural first mechanism contacts
N24-S,N14:座下孔 N24-S, N14: Hole under the seat
N15,N16:複數第二機構接點 N15, N16: plural second mechanism contacts
N21-S,N11,N25-S,N26-S,N15,N16:複數第一機械結構 N21-S, N11, N25-S, N26-S, N15, N16: plural first mechanical structure
N23-S,N24-S,N13,N14:複數第一電性接點 N23-S, N24-S, N13, N14: plural first electrical contacts
N25-S:座左側孔 N25-S: Hole on the left side of the seat
N15:座左凸起 N15: Seat left raised
N26-S:座右側孔 N26-S: Hole on the right side of the seat
N16:座右凸起 N16: seat right raised
N27-S:凹部 N27-S: recess
N17:凸部 N17: Convex
WR1:第一部分 WR1: Part One
WR2:第二部分 WR2: Part Two
WR:訊號連接排線 WR: Signal connection cable
NP9E,NQ9E:穩固單元 NP9E, NQ9E: Stable unit
P9,Q9:剛性單元 P9, Q9: rigid unit
P9E,N3-S:模組連接座 P9E, N3-S: Module connector
P9D,Q9E:PCB座 P9D, Q9E: PCB seat
P9C,Q9C:銜接環 P9C, Q9C: connecting ring
P9E1,P9D1,P9B2,P9B1P9E11,P9D11,P9’D11:複數第二電性接點 P9E1, P9D1, P9B2, P9B1, P9E11, P9D11, P9’D11: plural second electrical contacts
Q9E1,Q9D1,Q9B2,Q9E11,Q9D11,Q9’D1:複數第四電性接點 Q9E1, Q9D1, Q9B2, Q9E11, Q9D11, Q9’D1: the fourth electrical contact
P9B:印刷電路板 P9B: printed circuit board
P9A,Q9A:保護蓋 P9A, Q9A: Protective cover
P9D3,Q9D3:PCB座定位件 P9D3, Q9D3: PCB seat positioning parts
P9D2,Q9D2:PCB座定位孔 P9D2, Q9D2: PCB seat positioning hole
P9B3:PCB定位孔 P9B3: PCB positioning hole
GAP1,GAP2:間隙 GAP1, GAP2: gap
N5-H:第二導線連接構件 N5-H: The second wire connection member
N4:第二結合構件 N4: The second joining member
N51-H:連接座 N51-H: connecting seat
N41:定位板 N41: positioning plate
N52-H:連接座槽 N52-H: connecting seat slot
N45:定位左側突起 N45: Locate the protrusion on the left
N53-H:座上孔 N53-H: Hole on the seat
N46:定位右側突起 N46: Position the right protrusion
N54-H:座下孔 N54-H: Hole under the seat
N47:卡榫結構 N47: Tenon structure
N55-H:座左側孔 N55-H: Hole on the left side of the seat
N56-H:座右側孔 N56-H: Hole on the right side of the seat
21-1,21-2:附著構件 21-1,21-2: Attachment member
N57-H:凹部 N57-H: recess
P10:複數第二導線 P10: Plural second wire
PGP1,PGP2:彈簧連接器 PGP1, PGP2: spring connector
ELC1,ELC2,ELC3,ELC4:複數電性連接 ELC1, ELC2, ELC3, ELC4: multiple electrical connections
PS1,PS2:預變形 PS1, PS2: pre-deformation
VR1,VR2:變動 VR1, VR2: changes
P9A1,Q9A1:第二卡榫結構 P9A1, Q9A1: the second tenon structure
402:裝置本體 402: Device body
404:複數導線 404: complex wire
406:電路板 406: Circuit Board
4060:複數第二電性接點 4060: Plural second electrical contacts
408:複數彈簧連接器 408: Plural spring connectors
本揭露得藉由下列圖式之詳細說明,俾得更深入之瞭解: This disclosure can be explained in detail with the following diagrams for a more in-depth understanding:
第一圖A,B為本揭示較佳實施例結合總成穿戴裝戴於肢體的配置之示意圖。 The first figure A and B are schematic diagrams showing the configuration of the preferred embodiment combined with the assembly to be worn on the limbs.
第二圖為本揭示較佳實施例用於形成一穿戴裝置的結合裝置的示意圖。 The second figure is a schematic diagram of a coupling device used to form a wearable device according to a preferred embodiment of the disclosure.
第三圖為本揭示較佳實施例第一結合構造的示意圖。 The third figure is a schematic diagram of the first coupling structure of the preferred embodiment of the disclosure.
第四圖為本揭示較佳實施例第一結合構造內部結構的示意圖。 The fourth figure is a schematic diagram showing the internal structure of the first coupling structure of the preferred embodiment.
第五圖為本揭示較佳實施例第二結合構造的示意圖, The fifth figure is a schematic diagram of the second combination structure of the preferred embodiment of the disclosure.
第六圖為本揭示較佳實施例剛性單元的示意圖。 The sixth figure is a schematic diagram of the rigid unit of the preferred embodiment of the disclosure.
第七圖為本揭示較佳實施例剛性單元的辨識電性孔的示意圖。 The seventh figure is a schematic diagram showing the identification of electrical holes of the rigid unit of the preferred embodiment.
第八圖為本揭示較佳實施例第一結合構造的示意圖。 The eighth figure is a schematic diagram of the first coupling structure of the preferred embodiment of the disclosure.
第九圖為本揭示較佳實施例第二結合構造的內部結構的示意圖。 The ninth figure is a schematic diagram showing the internal structure of the second coupling structure of the preferred embodiment.
第十圖為本揭示較佳實施例另一剛性單元的示意圖。 The tenth figure is a schematic diagram of another rigid unit of the preferred embodiment of the disclosure.
第十一圖為本揭示較佳實施例另一剛性單元的辨識電性孔的示意圖。 The eleventh figure is a schematic diagram of identifying electrical holes of another rigid unit of the preferred embodiment of the disclosure.
第十二圖為本揭示較佳實施例第二結合構造的示意圖。 Figure 12 is a schematic diagram showing the second combination structure of the preferred embodiment.
第十三圖為本揭示較佳實施例剛性單元藉由位置指示來識別不同配帶位置的示意圖。 Figure 13 is a schematic diagram of the rigid unit in the preferred embodiment of the present disclosure to identify different strap positions through position indicators.
第十四圖為本揭示較佳實施例穿戴裝置利用彈簧連接器來預變形電性連接的示意圖。 Figure 14 is a schematic diagram of the wearable device of the preferred embodiment using the spring connector to pre-deform the electrical connection.
第十五圖為本揭示較佳實施例穿戴裝置的剖面結構的示意圖。 Figure 15 is a schematic diagram showing the cross-sectional structure of the wearable device according to the preferred embodiment.
第十六圖A,B為本揭示較佳實施例穿戴裝置的感測模組的保護蓋與模組連接座之間的間隙剖面結構的示意圖。 Sixteenth Figures A and B are schematic diagrams showing the cross-sectional structure of the gap between the protective cover of the sensing module of the wearable device and the module connection base of the preferred embodiment.
第十七圖為本揭示較佳實施例彈簧連接器的長度具有變動時的示意圖。 Figure 17 is a schematic diagram of the preferred embodiment of the disclosure when the length of the spring connector is changed.
第十八圖為本揭示較佳實施例穿戴裝置的示意圖。 Figure 18 is a schematic diagram of a wearable device according to a preferred embodiment of the disclosure.
請參酌本揭示的附圖來閱讀下面的詳細說明,其中本揭示的附圖是以舉例說明的方式,來介紹本揭示各種不同的實施例,並供瞭解如何實現本揭示。本揭示實施例提供了充足的內容,以供本領域的技術人員來實施本揭示的實施例,或實施依本揭示的內容所衍生的實施例。須注意的是,該些實施例彼此間並不互斥,且部分實施例可與其他一個或多個實施例作適當結合,以形成新的實施例,亦即本揭示的實施並不局限於以下所揭示的實施例。此外為了簡潔明瞭舉例說明,在各實施例中並不會過度 揭示相關的細節,即使揭示了具體的細節也僅舉例說明以使讀者明瞭,在各實施例中的相關具體細節也並非用來限制本案的揭示。 Please read the following detailed description with reference to the accompanying drawings of the present disclosure. The accompanying drawings of the present disclosure are used as examples to introduce various embodiments of the present disclosure and to understand how to implement the present disclosure. The embodiments of the present disclosure provide sufficient content for those skilled in the art to implement the embodiments of the present disclosure or implement embodiments derived from the content of the present disclosure. It should be noted that these embodiments are not mutually exclusive with each other, and some embodiments can be appropriately combined with one or more other embodiments to form new embodiments, that is, the implementation of the present disclosure is not limited to Examples disclosed below. In addition, for the sake of conciseness and clarity, the examples are not excessive Relevant details are disclosed, even if specific details are disclosed, only examples are used to clarify the readers, and the relevant specific details in each embodiment are not used to limit the disclosure of this case.
請參閱第一圖A,B,其為本揭示較佳實施例結合總成穿戴裝戴於肢體的配置10之示意圖。請參閱第二圖,其為本揭示較佳實施例用於形成一穿戴裝置的結合裝置20的示意圖。請參閱第三圖,其為本揭示較佳實施例第一結合構造22的示意圖。請參閱第四圖,其為本揭示較佳實施例第一結合構造22內部結構的示意圖。請合併參照第一、第二、第三、以及第四圖來了解以下的說明。該結合裝置10包含一第一結合構造22、以及一第二結合構造24。該第一結合構造22具有相對應的複數第一機械結構N21-S,N11,N25-S,N26-S,N15,N16與相對應的複數第一電性接點N23-S,N24-S,N13,N14而來形成一第一機械結合MCH1與一第一電性ELT1結合,且該第一結合構造22包含一第一導線連接構件N2-S、一第一結合構件N1、以及一彈性構件P7。其中該第一導線連接構件N2-S、該第一結合構件N1、以及該彈性構件P7藉由該相對應的複數第一機械結構N21-S(ㄇ型結合構件),N11(ㄇ型結合凸塊連接座),N25-S(ㄇ型結合構件左下角孔,未示出),N26-S(ㄇ型結合構件右上角孔),N15(ㄇ型結合凸塊左下側凸起),N16(ㄇ型結合凸塊右上側凸起)而來形成該第一機械結合MCH1。該第一導線連接構件N2-S、該第一結合構件N1、以及該彈性構件P7藉由該相對應的複數第一電性接點N23-S(ㄇ型導電件),N24-S(ㄇ型導電件),N13(ㄇ型導電座),N14(ㄇ型導電座)而來形成該第一電性結合ELT1。請再參閱第五圖,其為本揭示較佳實施例第二結合構造24的示意圖,該第二結合構造24包含一訊號連接線P2_2,該訊號連接線P2_2與該彈性構件P7電性相連的該訊號連
接線P2_1電性連接,而來結合該第一結合構造22與該第二結合構造24。
Please refer to the first figures A and B, which are schematic diagrams of the
在第一圖A,B中,第一結合構造22、第二結合構造24分別藉由附著構件21,23而依附於織物101上,例如依附於使用者USR的服裝上。第一結合構造22的附著構件21-1,21-2分別配置於使用者USR的肢體上臂以及下臂,在非關節的位置,以利使用者USR在其肢體活動時感測器能夠感測使用者USR的肢體的運動狀態。在第一圖A中的附著構件23未示出,其配置於肩膀上的編織物下方。
In the first figures A and B, the first joining
如前述實施例的任一實施例中,該第一導線連接構件N2-S包含複數第一連接座N21-S,各該第一連接座N21-S的構造每一個皆相同,其中各該第一連接座N21-S具有複數第一機構接點N25-S,N26-S,且該複數第一連接座N21-S分別具有複數第一連接座槽N22-S。該第一結合構件N1包含複數第二連接座N11,各該第二連接座N11具有複數第二機構接點N15,N16。例如該相對應的複數第一機械結構N21-S,N11,N25-S,N26-S,N15,N16包含該複數第一連接座N21-S、該複數第二連接座N11、該複數第一機構接點N25-S,N26-S、以及複數第二機構接點N15,N16。該彈性構件P7具有複數第一導線P8,該複數第一導線P8對應地崁入(或使用焊接等方式)該複數該第一連接座槽N22-S,以電性連接到該第一導線連接構件N2-S。該複數第一機構接點N25-S,N26-S對應地崁入該複數第二機構接點N15,N16,藉此該複數第一連接座N21-S對應地崁入(或使用黏接等方式)該複數第二連接座N11以與該第一結合構件N1機械連接。複數第一連接座N21-S的排列方式可為相鄰連接座在垂直方向上彼此交錯的排列方式。 As in any one of the foregoing embodiments, the first wire connecting member N2-S includes a plurality of first connecting seats N21-S, and each of the first connecting seats N21-S has the same structure, and each of the first connecting seats N21-S has the same structure. A connecting seat N21-S has a plurality of first mechanism contacts N25-S, N26-S, and the plurality of first connecting seats N21-S respectively have a plurality of first connecting seat slots N22-S. The first coupling member N1 includes a plurality of second connecting seats N11, and each of the second connecting seats N11 has a plurality of second mechanism contacts N15 and N16. For example, the corresponding plural first mechanical structures N21-S, N11, N25-S, N26-S, N15, N16 include the plural first connecting seats N21-S, the plural second connecting seats N11, and the plural first connecting seats. Mechanism contacts N25-S, N26-S, and plural second mechanism contacts N15, N16. The elastic member P7 has a plurality of first wires P8, and the plurality of first wires P8 are correspondingly embedded (or soldered, etc.) into the plurality of the first connection sockets N22-S to be electrically connected to the first wire connection Component N2-S. The plurality of first mechanism contacts N25-S, N26-S are correspondingly embedded into the plurality of second mechanism contacts N15, N16, whereby the plurality of first connection bases N21-S are correspondingly embedded (or using bonding, etc.) Mode) The plurality of second connecting seats N11 are mechanically connected with the first connecting member N1. The arrangement of the plurality of first connecting seats N21-S may be a staggered arrangement of adjacent connecting seats in the vertical direction.
如前述任一實施例中,該第一結合構造22一般可配戴在一使
用者USR的一活動部位ACT1,ACT2,ACT3,ACT4,其包含肢體、頭部、頸部、軀幹、臀部,足部包括大腿或小腿等的至少其中之一。該彈性構件P7為一彈性編織構件,且包含複數彈性織物P71,P72與該複數第一導線P8,其中各該彈性織物上配置有該複數第一導線P8;或是使用編織的方式將複數第一導線P8編織於該複數彈性織物P71,P72上。該複數第一導線P8間具相同的間隔配置排列,並具有形狀以及可撓性,其中該形狀為波浪狀。各該第一連接座N21-S為一導體座,各該第二連接座N11為一絕緣體座。該複數第二連接座N11分別具有複數第二連接座槽N12。該複數第一導線P8還分別崁入該複數第一連接座槽N22-S中以達成電性連接,再將該複數第一連接座槽N22-S配置在該複數第二連接座槽N12中以與該第一結合構件N1機械連接。該複數第一機構接點N25-S,N26-S包含複數穿孔,例如分別為座左側孔N25-S與座右側孔N26-S,且該複數第二機構接點N15,N16包含複數凸起。例如分別為座左凸起N15與座右凸起N16,該複數凸起對應地崁入該複數穿孔以與該複數第一連接座N21-S機械連接。各該第一連接座N21-S還具有一凹部N27-S、以及位於該凹部N27-S底部的複數第一電性接點N23-S,N24-S,且各該第二連接座N11還具有一凸部N17、以及位於該凸部N17的頂部的一座上孔N13與一座下孔N14。該凸部N17崁入該凹部N27-S,該複數第一電性接點N23-S,N24-S對應地機械連接於該座上孔N13,與該座下孔N14,藉此使該複數第一連接座N21-S與該複數第二連接座N11相對應地機械連接。在第四圖中,複數第一電性接點N23-S,N24-S為該第一連接座N21-S的座上孔N23-S與座下孔N24-S。
As in any of the foregoing embodiments, the
請參閱第六圖,其為本揭示較佳實施例剛性單元P9的示意 圖。請參閱第七圖,其為本揭示較佳實施例剛性單元P9的辨識電性孔的示意圖。請合併參閱第六圖與第七圖,例如該剛性單元P9為一運動感測模組,其包含一模組連接座N3-S(即剛性單元P9的模組連接座P9E)、印刷電路板(PCB)座P9D、銜接環P9C、印刷電路板P9B、以及保護蓋P9A。 Please refer to the sixth figure, which is a schematic diagram of the rigid unit P9 of the preferred embodiment of the present disclosure picture. Please refer to the seventh figure, which is a schematic diagram of identifying electrical holes of the rigid unit P9 of the preferred embodiment of the present disclosure. Please refer to Figure 6 and Figure 7 together. For example, the rigid unit P9 is a motion sensing module, which includes a module connector N3-S (that is, the module connector P9E of the rigid unit P9) and a printed circuit board (PCB) Seat P9D, adapter ring P9C, printed circuit board P9B, and protective cover P9A.
請合併參閱第六圖、第七圖、以及第四圖,在前述實施例的任一實施例中,該第一導線連接構件N2-S具有複數第一電性接點N23-S,N24-S,該第一結合構造22更包含該剛性單元P9,其中該剛性單元P9具有複數第二電性接點P9E1,P9D1,P9B2,P9B1,P9E11,P9D11,如第六圖及第七圖所示,且該複數第二電性接點P9E1,P9D1,P9B2,P9B1電性連接於該複數第一電性接點N23-S,N24-S以使該剛性單元P9電性連接於該第一導線連接構件N2-S,如第六圖、第七圖、以及第四圖所示,該複數第二電性接點P9E1,P9D1,P9B2,P9B1,P9E11,P9D11中的至少其中之一(例如P9E11,P9D11)被使用以形成一電性導通或一電性斷開,其中該導通或該斷開被使用以判斷該剛性單元P9在肢體上的配戴位置。
Please refer to the sixth, seventh, and fourth figures together. In any of the foregoing embodiments, the first wire connecting member N2-S has a plurality of first electrical contacts N23-S, N24- S. The
在第六圖中,印刷電路板P9B藉由PCB定位孔P9B3、PCB座定位孔P9D2、PCB座固定件P9D3、電性接點P9B1,、P9D1固定於PCB座P9D、銜接環P9C套接於PCB座P9D,再塞入模組連接座N3-S,使PCB座固定於模組連接座N3-S之中,蓋子P9A再蓋入模組連接座N3-S。請合併參閱第六圖、第七圖、以及第四圖,在前述實施例的任一實施例中,模組連接座N3-S具有卡榫結構P9E2,第一結合構件N1也具有一卡榫結構N18,藉以將模組連接座N3-S固定於第一結合構件N1。各該第二連接座N11還具有複數孔位N13,N14,其中該複數第一電性接點N23-S,N24-S分別對應地耦接於該複數 孔位N13,N14與該複數第二電性接點P9E1,P9D1,P9B2,P9B1,P9E11,P9D11,以使該剛性單元P9固定於該第一結合構件N1上。穩固單元NP9E穿過第一結合構件N1而鎖入模組連接座N3-S的一內螺孔(位於模組連接座N3-S的背面,未顯示)中,以使該剛性單元P9直接與第一結合構件N1機械結合,以增加剛性單元P9的穩固性,避免鬆脫。 In the sixth figure, the printed circuit board P9B is fixed to the PCB seat P9D through the PCB positioning hole P9B3, the PCB seat positioning hole P9D2, the PCB seat fixing part P9D3, the electrical contacts P9B1, and P9D1 are fixed to the PCB seat P9D, and the adapter ring P9C is sleeved on the PCB Insert P9D into the module connecting seat N3-S to fix the PCB seat in the module connecting seat N3-S, and cover P9A into the module connecting seat N3-S. Please refer to Figures 6, 7, and 4 together. In any of the foregoing embodiments, the module connector N3-S has a tenon structure P9E2, and the first coupling member N1 also has a tenon Structure N18, whereby the module connection base N3-S is fixed to the first coupling member N1. Each of the second connecting bases N11 also has a plurality of holes N13, N14, and the plurality of first electrical contacts N23-S, N24-S are respectively coupled to the plurality of holes. Holes N13, N14 and the plurality of second electrical contacts P9E1, P9D1, P9B2, P9B1, P9E11, P9D11, so that the rigid unit P9 is fixed on the first coupling member N1. The stable unit NP9E passes through the first coupling member N1 and is locked into an internal screw hole (located on the back of the module connection base N3-S, not shown) of the module connection base N3-S, so that the rigid unit P9 is directly connected with The first coupling member N1 is mechanically coupled to increase the stability of the rigid unit P9 and avoid loosening.
在第三圖中,該第一結合構造22更包含一訊號線固定元件P3以及另一訊號連接線P2_1,其包括複數第二導線P4、以及一訊號連接孔P1,其中該複數第一導線P8在該訊號線固定元件P3的地方分別與該複數第二導線P4電性連接。訊號線固定元件P3包含一保護蓋P6與一保護座P5用以將該複數第二導線P4固定並封裝起來,以確保電性訊號的傳遞。該第一結合構造22與該第二結合構造24組合以形成該結合裝置20,其中該第二結合構造24包含用於與該訊號連接孔P1電性連接的一訊號連接頭Q1。
In the third figure, the
請參閱第八圖,其為本揭示較佳實施例第一結合構造22的示意圖。從第八圖可知,第一結合構造22包含兩個剛性單元P9,例如為運動感測模組,各該第一結合構件N1、以及各該第一導線連接構件N2-S將各該剛性單元P9藉由機械結合MCH1與電性結合ELT1連接並固定於包含有撓性導線P8的彈性構件P7上。保護蓋P6與保護座P5則用來固定撓性導線P8與訊號連接線P2_1,使運動感測模組所感測到的訊號可藉由訊號連接線P2_1傳遞至資料收集中心,再由資料收集中心傳送到後端運算中心來進行分析。
Please refer to the eighth figure, which is a schematic diagram of the
請參閱第九圖,其為本揭示較佳實施例第二結合構造24的內部結構的示意圖。請合併參閱第五圖與第九圖,該第二結合構造24更包含一第二導線連接構件N5-H,該第二導線連接構件N5-H包含複數第三連接座
N51-H,各該第三連接座每一個構造皆相同,其中各該第三連接座N51-H具有複數第三機構接點N55-H,N56-H,例如第二導線連接構件N51-H的左側孔N55-H(孔,未示出)以及右側孔N56-H(孔)。該第二結合構造24更包含一第二結合構件N4,該第二結合構件N4包含複數第四機構接點N45,N46,各該第四機構接點N45,N46間的結構位置對應各該第三機構接點N55-H,N56-H來配置,例如在第二結合構件N4上的定位左突起N45與定位右突起N46。該訊號連接線P2_2具有複數第二導線P10。該複數第三連接座N51-H分別具有複數第三連接座槽N52-H。該複數第二導線P10對應地崁入(或焊接)該複數第三連接座槽N52-H,以電性連接到該第二導線連接構件N5-H。該複數第三機構接點N55-H,N56-H對應地崁入該複數第四機構接點N45,N46,以與該第二結合構件N4機械連接。該第二結合構造24配戴在一使用者USR的相對穩固的部位上,例如該部位包含肩膀,胸部、背部、以及腰部的至少其中之一。該第二結合構件N4更包含複數定位凸部N41。該複數第三連接座N51-H依照該複數定位凸部N41來配置以與該第二結合構件N4機械連接,例如各該定位凸部N41為定位板。各該第三連接座N51-H為一導體座,且該複數定位凸部N41分別為複數絕緣體部。該複數第三機構接點N55-H,N56-H包含複數穿孔,該複數第四機構接點N45,N46包含複數凸起,該複數凸起對應地崁入該複數穿孔以與該複數第三連接座N51-H機械連接。各該第三連接座N51-H還具有一凹部N57-H、以及位於該凹部N57-H上的複數第三電性接點N53-H,N54-H,例如為各該第三連接座N51-H的座上孔N53-H與座下孔N54-H。
Please refer to FIG. 9, which is a schematic diagram of the internal structure of the
參閱第十圖,其為本揭示較佳實施例另一剛性單元Q9的示 意圖。請參閱第十一圖,其為本揭示較佳實施例另一剛性單元Q9的辨識電性孔的示意圖。請合併參閱第十圖與第十一圖,例如該剛性單元Q9為一訊號處理模組,其包含一模組連接座N6-H、印刷電路板(PCB)座Q9D、銜接環Q9C、印刷電路板Q9B(未顯示)、以及保護蓋Q9A。 Refer to the tenth figure, which is a diagram of another rigid unit Q9 of the preferred embodiment of the present disclosure intention. Please refer to FIG. 11, which is a schematic diagram of identifying electrical holes of another rigid unit Q9 according to a preferred embodiment of the present disclosure. Please refer to Figure 10 and Figure 11 together. For example, the rigid unit Q9 is a signal processing module, which includes a module connector N6-H, a printed circuit board (PCB) seat Q9D, an adapter ring Q9C, and a printed circuit Board Q9B (not shown), and protective cover Q9A.
請合併參閱第十圖、第十一圖、以及第九圖,在前述實施例的任一實施例中,該第二導線連接構件N5-H具有複數第三電性接點N53-H,N54-H,該第二結合構造24更包含該剛性單元Q9,其中該剛性單元Q9具有複數第四電性接點Q9E1,Q9D1,Q9B2,Q9B1(未顯示),Q9E11,Q9D11,如第十圖及第十一圖所示,且該複數第四電性接點Q9E1,Q9D1,Q9B2,Q9B1電性連接於該複數第三電性接點N53-H,N54-H以使該剛性單元Q9電性連接於該第二導線連接構件N5-H,如第十圖、第十一圖、以及第九圖所示,該複數第四電性接點Q9E1,Q9D1,Q9B2,Q9B1,Q9E11,Q9D11中的至少其中之一(例如Q9E11,Q9D11)被使用以形成一導通或一斷開,其中該導通或該斷開被使用以判斷該剛性單元Q9的配戴位置。
Please refer to the tenth figure, the eleventh figure, and the ninth figure together. In any one of the foregoing embodiments, the second wire connecting member N5-H has a plurality of third electrical contacts N53-H, N54 -H, the
在第十圖中,印刷電路板Q9B藉由PCB定位孔Q9B3(未顯示)、PCB座定位孔Q9D2、PCB座定位件Q9D3、電性接點Q9B1(未顯示),Q9D1配置於PCB座Q9D、銜接環Q9C套接於PCB座Q9D並塞入模組連接座N6-H(即Q9E),使PCB座固定於模組連接座N6-H之中,蓋子Q9A再蓋入模組連接座Q9E。請合併參閱第十圖、第十一圖、以及第五圖,在前述實施例的任一實施例中,模組連接座Q9E具有卡榫結構Q9E3,第二結合構件N4也具有一卡榫結構N47,藉以將模組連接座Q9E固定於第二結合構件N4。該複數第三電性接點N53-H,N54-H分別對應地耦接於該複數第四電性接點
Q9E1,Q9D1,Q9B2,Q9B1,Q9E11,Q9D11,固定於該第二結合構件N4上的該剛性單元Q9與該訊號連接線P2_22電性連接。穩固單元NQ9E穿過第二結合構件N4而鎖入模組連接座Q9E的一內螺孔(位於模組連接座Q9E的背面,未顯示)中,以使該剛性單元Q9直接與第二結合構件N4機械結合,以增加剛性單元Q9的穩固性,避免鬆脫。該第二結合構造24與該第一結合構造22組合以形成該結合裝置20,該訊號連接線P2_2更包括一訊號連接頭Q1,且該第一結合構造22包含用於與該訊號連接頭Q1電性連接的一訊號連接孔P1。
In the tenth figure, the printed circuit board Q9B is provided with PCB positioning holes Q9B3 (not shown), PCB base positioning holes Q9D2, PCB base positioning parts Q9D3, and electrical contacts Q9B1 (not shown). Q9D1 is arranged on PCB base Q9D, The adapter ring Q9C is sleeved on the PCB base Q9D and inserted into the module connection base N6-H (ie Q9E), so that the PCB base is fixed in the module connection base N6-H, and the cover Q9A is then covered into the module connection base Q9E. Please refer to the tenth figure, the eleventh figure, and the fifth figure together. In any of the foregoing embodiments, the module connector Q9E has a tenon structure Q9E3, and the second coupling member N4 also has a tenon structure N47, whereby the module connecting seat Q9E is fixed to the second coupling member N4. The plurality of third electrical contacts N53-H, N54-H are respectively coupled to the plurality of fourth electrical contacts
Q9E1, Q9D1, Q9B2, Q9B1, Q9E11, Q9D11, the rigid unit Q9 fixed on the second coupling member N4 is electrically connected to the signal connection line P2_22. The stabilizing unit NQ9E passes through the second coupling member N4 and is locked into an inner screw hole (located on the back of the module connecting seat Q9E, not shown) of the module connecting seat Q9E, so that the rigid unit Q9 is directly connected to the second connecting member N4 mechanical combination to increase the stability of the rigid unit Q9 and avoid loosening. The
在第五圖中,該第二結合構造24更包含一訊號線固定元件P3以及另一訊號連接線P2_2,其包括複數第二導線P10、以及一訊號連接頭Q1,其中該複數第二導線P10在該訊號線固定元件P3的地方分別與該複數第二導線P4電性連接。
In the fifth figure, the
請參閱第十二圖,其為本揭示較佳實施例第二結合構造24的示意圖。從第五圖、第九圖、第十二圖可知,第二結合構造24包含剛性單元Q9,例如為訊號處理模組,該第二結合構件N4、以及該第二導線連接構件N5-H將該剛性單元Q9藉由機械結合MCH2與電性結合ELT2連接並固定連接於兩訊號連接線P2_2。使用訊號處理模組可藉由訊號連接線P2_2接收來自感測模組的感測訊號,例如(角)加速度訊號、角速度訊號等等,並將其傳遞至資料收集中心,再由資料收集中心傳送到後端運算中心來進行分析。該剛性單元Q9或P9可固定於一附著構件21,例如一織物或是一皮革上,此附著構件21再附著於使用者USR所穿著的衣物上,此附著方式可以是黏著劑、縫合、縫製的固定附著方式,或者可以魔鬼氈、拉鍊、鈕釦
或是其他可拆卸的扣件,可拆卸式地安置在如第一圖A,B所示的該附著構件21上,該附著構件21再配置在穿戴於肢體的該織物101上,可拆卸該剛性單元Q9或P9,方便該織物101如習用織物一般可以藉水清洗;另外,則可以視應用上的需要來增加或減少穿戴在肢體上的該剛性單元Q9,即訊號處理/傳遞模組或裝置,或該剛性單元P9,即運動感測模組或裝置。
Please refer to FIG. 12, which is a schematic diagram of the
請回到第三圖與第四圖,其為本揭示另一較佳實施例用於形成一穿戴裝置的結合構造22,其包含一導線連接構件N2-S、一結合構件N1、以及一彈性構件P7。在前述實施例的任一實施例中,該導線連接構件N2-S包含複數第一連接座N21-S,其中各該第一連接座N21-S具有複數第一機構接點N25-S(孔,未示出),且該複數第一連接座N21-S分別具有該複數第一連接座槽N22-S。該結合構件N1包含複數第二連接座N11,各該第二連接座N11具有複數第二機構接點N15(凸起),N16(凸起)。該彈性構件P7具有複數第一導線P8,其中該複數第一導線P8對應地崁入(或焊接到)該複數第一連接座槽N22-S,並藉此電性連接到該導線連接構件N2-S。該複數第一機構接點N25-S(孔,未示出),N26-S(孔)對應地崁入該複數第二機構接點N15(凸起),N16(凸起),藉此該複數第一連接座N21-S對應地崁入該複數第二連接座N11以與該結合構件N1機械連接。
Please return to the third and fourth figures, which show another preferred embodiment of the disclosure for forming a
請回到第五圖與第九圖,其亦顯示本揭示另一較佳實施例用於形成一穿戴裝置(例如在第一圖A,B中的穿戴裝置10)的結合構造24,其包含一導線連接構件N5-H、一結合構件N4、以及一訊號連接線P2_2。在前述的任一實施例中,該導線連接構件N5-H包含複數連接座N51-H,其中各該連接座N51-H具有複數第一機構接點N55-H(孔,未示出),N56-H(孔),
且該複數連接座N51-H分別具有複數連接座槽N52-H。該結合構件N4包含複數第二機構接點N45(凸起),N46(凸起)。該訊號連接線P2_2具有複數第二導線P10,其中該複數第二導線P10對應地電性連接於該複數連接座槽N52-H,以與該導線連接構件N5-H電性連接。該複數第一機構接點N55-H,N56-H對應地崁入該複數第二機構接點N45,N46,以與該結合構件N4機械連接。
Please return to the fifth and ninth figures, which also show another preferred embodiment of the present disclosure for forming a combined
請回到第三圖與第四圖,其亦顯示本揭示較佳實施例節點裝置ND的示意圖。在前述的任一實施例中,該節點裝置ND在一穿戴裝置(例如在第一圖A,B中的穿戴裝置10)的一訊號連接線P2_1上形成一感測點SN之一節點裝置ND,其中該訊號連接線P2_1具複數訊號線P8,且該訊號連接線P2_1用於連接一感測模組SM,以形成該感測點SN,該節點裝置ND包含一穿戴裝置本體222、複數連接座SN21-S,其上有複數電性接點N23-S,N24-S及複數連接座槽N22-S,設於該穿戴裝置本體上。複數電性接點N23-S,N24-S分別設於該複數連接座N21-S上,且分別電連接於該複數訊號線P8,用以形成該節點裝置ND。
Please return to the third and fourth figures, which also show schematic diagrams of the node device ND according to the preferred embodiment of the present disclosure. In any of the foregoing embodiments, the node device ND forms a sensing point SN on a signal connection line P2_1 of a wearable device (such as the
在第四圖中,其亦顯示本揭示較佳實施例訊號連接排線WR的示意圖。該訊號連接排線WR係為一種供一穿戴裝置10用的一訊號連接排線WR,其包含一排線基材P7以及複數訊號線P8。該複數訊號線P8設置於該基材P7上,其中各該訊號線P8具一第一部份WR1及一第二部份WR2。各該第一部份WR1共同形成一感測點SN,用於連接一感測模組SM,以形成該感測點SN,其中各該第一部份WR1皆為直線。
In the fourth figure, it also shows a schematic diagram of the signal connection cable WR of the preferred embodiment of the present disclosure. The signal connection cable WR is a signal connection cable WR for a
請參閱第十三圖,其為本揭示較佳實施例剛性單元P9,P9’, Q9,Q9’藉由位置指示來識別不同配帶位置的示意圖。剛性單元Q9’的電性接點Q9’D1代表已經與電路板斷開,其以空心圓圈表示;而剛性單元Q9的電性接點Q9D1代表與電路板電性導通,其以實心圓表示。藉此可來判斷剛性單元Q9,Q9’配戴在使用者USR上的位置。例如,剛性單元Q9,Q9’為訊號處理模組,剛性單元Q9’配戴在胸前的位置時,設定剛性單元Q9’的電性接點Q9’D1與電路板斷開;剛性單元Q9配戴在背部的位置時,設定剛性單元Q9的電性接點Q9D1與電路板導通。 Please refer to the thirteenth figure, which is the rigid unit P9, P9' of the preferred embodiment of the present disclosure. Q9, Q9' is a schematic diagram of identifying different belt positions by position indicators. The electrical contact Q9'D1 of the rigid unit Q9' represents that it has been disconnected from the circuit board, which is represented by a hollow circle; and the electrical contact Q9D1 of the rigid unit Q9 represents electrical conduction with the circuit board, which is represented by a solid circle. By this, the position of the rigid unit Q9, Q9' on the user's USR can be judged. For example, rigid unit Q9, Q9' are signal processing modules, when rigid unit Q9' is worn on the chest, set the electrical contact Q9'D1 of rigid unit Q9' to be disconnected from the circuit board; rigid unit Q9 is equipped with When it is worn on the back, the electrical contact Q9D1 of the rigid unit Q9 is set to conduct with the circuit board.
同樣地,剛性單元P9’的電性接點P9’D11代表已經與電路板斷開,其以空心圓圈表示;而剛性單元P9的電性接點P9D11代表與電路板電性導通,其以實心圓表示。藉此可來判斷剛性單元P9,P9’配戴在使用者上的位置。例如,剛性單元P9,P9’為感測模組,剛性單元P9’配戴在下肢體的位置時,設定剛性單元P9’的電性接點P9’D11與電路板斷路;剛性單元P9配戴在上肢體的位置時,設定剛性單元P9的電性接點P9D11與電路板短路導通。 Similarly, the electrical contact P9'D11 of the rigid unit P9' represents that it has been disconnected from the circuit board, which is represented by a hollow circle; while the electrical contact P9D11 of the rigid unit P9 represents electrical conduction with the circuit board, which is represented by a solid Circle representation. By this, the position of the rigid unit P9, P9' on the user can be judged. For example, the rigid unit P9 and P9' are sensing modules, and when the rigid unit P9' is worn at the position of the lower limb, set the electrical contact P9'D11 of the rigid unit P9' to be disconnected from the circuit board; the rigid unit P9 is worn at When the position of the upper limb is set, the electrical contact P9D11 of the rigid unit P9 is short-circuited with the circuit board.
剛性單元Q9,Q9’的其中一故障時,另一就可以藉由將電性接點從導通設定為不導通(或是從不導通設定為導通),而可改變配戴位置,將故障的元件替換掉。同樣地,剛性單元P9,P9’的其中一故障時,另一就可以藉由將電性接點從導通設定為不導通(或是從不導通設定為導通),而可改變配戴位置,將故障的元件替換掉。請參閱第十四圖,其為本揭示較佳實施例穿戴裝置30利用彈簧連接器PGP1來預變形電性連接的示意圖。用彈簧連接器PGP1以預力的方式來結合P9A,P9E及N1,並因此預力的結合方式使得P9A及P9E之間具有因應受力而對應的一限定位移,即一間
隙,的受力下的移動自由度而可拆卸式的組合及分開,在配戴於使用者USR身上時,此等剛性單元Q9,P9在肢體活動或運動時,Q9及P9因肢體運動而受力作用的表現相同,此處以P9為例說明,即P9A及P9E由於肢體運動形成的慣性力變化對應PGP1彈簧的變形預力,使P9A及P9E間的該間隙變化受限定,進而可保持由PGP1所形成的內部電性連接的穩定性。由於P9A及P9E可拆卸式的組合及分開的功能可以滿足使用者USR將該等裝置拆裝到使用者不同部位的需求,如此一來,該第一結合構造22以及該第二結合構造24可拆解地與該織物本體101結合,並可配戴於該使用者USR的不同部位,該彈性構件P7可拆解地與該織物本體101結合,並可與該織物本體101分離清洗。為此,本揭示提供了可滿足至少上述需求的設計機制與結構。
When one of the rigid units Q9, Q9' fails, the other can be changed from conducting to non-conducting (or from non-conducting to conducting), and the wearing position can be changed to prevent the malfunction. The components are replaced. Similarly, when one of the rigid units P9, P9' fails, the other can change the wearing position by setting the electrical contact from conductive to non-conductive (or from non-conductive to conductive). Replace the defective component. Please refer to FIG. 14, which is a schematic diagram of the
請參閱第十五圖,其為本揭示較佳實施例穿戴裝置30的剖面結構的示意圖。穿戴裝置3可為剛性元件P9,Q9,例如感測模組或/及訊號分析模組。請參閱第十六圖A,其為本揭示較佳實施例穿戴裝置30間隙接近零時彈簧連接器維持電性結合的示意圖。請參閱第十六圖B,其為本揭示較佳實施例穿戴裝置30具有間隙時彈簧連接器維持電性結合的示意圖。第十六圖A,B是以穿戴裝置30以感測模組為例,其保留間隙用以可拆解地結合保護蓋P9A與模組連接座P9E,訊號分析模組也是類似的方式。請參閱第十七圖,其為本揭示較佳實施例彈簧連接器PGP1的長度具有變動VR1時的示意圖。在第十四圖中以剛性單元P9為例,其亦可應用在另一剛性單元Q9。請合併參考第三圖、第四圖、第六圖、第七圖、第十四圖、第十五圖、以及第十七圖,穿戴裝置30用以供一使用者USR穿戴,以感測該使用者USR之一運動參數,包含一第一結合構造22,其具有相對應的複數第一電性接點
N23-S,N24-S,與相對應的複數第二電性接點P9D11以形成一第一電性結合ELT1,且包含一第一模組連接座P9E、一第一導線連接構件N2-S、一第一保護蓋P9A、一第一電路板P9B、以及複數第一彈簧連接器PGP1。該第一模組連接座P9E具有一第一卡榫結構P9E2。該第一導線連接構件N2-S具有該相對應的複數第一電性接點N23-S,N24-S。該第一保護蓋P9A藉由該第一卡榫結構P9E2與該第一模組連接座P9E接合,且在該第一模組連接座P9E與該第一保護蓋P9A之間具有一第一間隙GAP1。該第一電路板P9B固定於該第一保護蓋P9A上、配置於該第一模組連接座P9E與該第一保護蓋P9A之間、且具有該相對應的複數第二電性接點P9D11。該複數第一彈簧連接器PGP1電連接相對應的該複數第一電性接點N23-S,N24-S以形成複數第一電性連接ELC1、且電連接相對應的該複數第二電性接點P9D11以形成複數第二電性連接ELC2、並配置於該第一模組連接座P9E與該第一電路板P9B之間以形成複數第一預變形PS1,其中:該第一模組連接座P9E與該第一保護蓋P9A之間隨著該肢體運動而使該第一間隙GAP1產生一第一變動VR1;以及該複數第一彈簧連接器PGP1的預力對應地消除因應該運動而發生的該第一變動VR1,以使該相對應的複數第一電性接點N23-S,N24-S與該相對應的複數第二電性接點P9D11維持該第一電性結合ELT1。
Please refer to FIG. 15, which is a schematic diagram of the cross-sectional structure of the
承上,該穿戴裝置30更包括一第一結合構件N1、一彈性構件P7、以及具有一第一訊號連接線P2_2的一第二結合構造24,其中:在該第一保護蓋P9A與該第一模組連接座P9E接合時,該第一間隙GAP1趨近於零。該複數第一彈簧連接器PGP1用以維持該第一電性結合ELT1的一可靠度。各該複數第一彈簧連接器PGP1是一第一壓縮彈簧連接器。該運動參數
包含一加速度參數、一速度參數、以及一位移參數的至少其中之一。該第一結合構件N1藉由該第一卡榫結構P9E2而與該第一模組連接座P9E結合。該彈性構件P7配置於該第一導線連接構件N2-S與該第一結合構件N1之間。
In addition, the
在第十七圖中,各該複數第一彈簧連接器PGP1包含一第一固定部PGP11以及一第一接觸頂針PGP12。該第一結合構造22更包含一第一剛性單元P9,其中:該第一剛性單元P9包含該第一電路板P9B以及該第一保護蓋P9A,且具有配置於該第一電路板P9B上的複數第二電性接點P9D11。各該複數第一彈簧連接器PGP1固定於各該複數第二電性接點P9D11。各該複數第一接觸頂針PGP12穿過且接觸各該複數第二電性接點P9D11與各該複數第一電性接點N23-S,N24-S,以使該第一剛性單元P9電性連接於該第一導線連接構件N2-S。該第一保護蓋P9A具有一第二卡榫結構P9A1以與該第一模組連接座P9E結合。該第一卡榫結構P9E2與第二卡榫結構P9A1接合而在該第一保護蓋P9A與該第一模組連接座P9E之間形成一第一扣合力SF1,其是因為所配置的該複數第一彈簧連接器PGP1的壓縮彈簧在第一保護蓋P9A與該第一模組連接座P9E封閉接合時發生變形所形成。該複數第一彈簧連接器PGP1在相對應的該複數第一電性接點N23-S,N24-S與該複數第二電性接點P9D11之間以一第一預力EF1形成該第一電性結合ELT1,其中該第一預力EF1對應該第一預變形PS1、該第一預力EF1相對該第一扣合力SF1是為反向的一第一外擴力,例如壓縮彈簧被壓縮後的彈力、且該第一外擴力對應該第一扣合力SF1。當所施加於該第一保護蓋P9A的一第一開蓋力OPN1與該第一預力EF1之和大於或等於該第一扣合力SF1條件下,該第一保護蓋P9A被拆開,否則該第一保護蓋P9A與該第一模組連接座P9E維持接合。
In the seventeenth figure, each of the plurality of first spring connectors PGP1 includes a first fixing portion PGP11 and a first contact thimble PGP12. The
而當使用者USR運動或活動時,此運動會導致P9A或P9E發生慣性力,促使該複數第一彈簧連接器PGP1上的彈簧的既有形變發生變化而使該第一間隙GAP1產生變動VR1,例如在該第一保護蓋P9A與該第一模組連接座P9E接合時,該第一間隙GAP1趨近於零,而在P9隨肢體運動時,該第一間隙GAP1的該變動VR1便會變化,然而由於此時該複數彈簧連接器PGP1的彈簧是為壓縮狀態,因此即使該第一間隙GAP1擴大,該複數彈簧連接器PGP1的彈簧仍保持壓縮狀態而支撐維持電性結合。 When the user USR is moving or moving, the movement will cause P9A or P9E to generate inertial force, which will cause the existing deformation of the springs on the plurality of first spring connectors PGP1 to change and cause the first gap GAP1 to change VR1, for example When the first protective cover P9A is engaged with the first module connecting seat P9E, the first gap GAP1 approaches zero, and when P9 moves with the limbs, the variation VR1 of the first gap GAP1 will change. However, since the springs of the plurality of spring connectors PGP1 are in a compressed state at this time, even if the first gap GAP1 is enlarged, the springs of the plurality of spring connectors PGP1 still maintain a compressed state to support and maintain electrical connection.
請合併參閱第五圖、第九圖、第十圖、第十一圖、第十五圖、以及第十七圖,該第二結合構造24更包含一第二剛性單元Q9。該第二剛性單元Q9包含一第二電路板Q9B以及一第二保護蓋Q9A,且具有配置於該第二電路板Q9B上的複數第四電性接點Q9B2。該第二結合構造24還包含複數第二彈簧連接器PGP2與一第二模組連接座Q9E,該複數第二彈簧連接器PGP2電連接該相對應的各該複數第三電性接點N53-H,N54-H以形成複數第三電性連接ELC3、且電連接該相對應的各該複數第四電性Q9B2接點以形成複數第四電性連接ELC4、並配置於該第二模組連接座Q9E與該二電路板Q9B之間以形成複數第二預變形PS2。該第二模組連接座Q9E與該第二保護蓋Q9A之間具有一第二間隙GAP2。在該第二保護蓋Q9A與該第二模組連接座Q9E接合時,該第二間隙GAP2趨近於零。而當使用者USR運動或活動時此運動會導致該第二模組連接座Q9E與該第二保護蓋Q9A發生慣性力,促使該複數第二彈簧連接器PGP2上的彈簧的既有形變發生變化而使該第二間隙GAP2產生一第二變動VR2;類似前述PGP1的預力功能,該複數第二彈簧連接器PGP2的預力對應地消除因應該第二運動而發生的該第二變動VR2,以
使該相對應的該複數第三電性接點N53-H,N54-H與該相對應的複數第四電性接點Q9B2維持該第二電性結合ELT2。
Please refer to the fifth figure, the ninth figure, the tenth figure, the eleventh figure, the fifteenth figure, and the seventeenth figure together. The
承上,在第十七圖中,各該複數第二彈簧連接器PGP2包含一第二接觸頂針PGP22以及一第二固定部PGP21。各該複數第二彈簧連接器PGP2固定於各該複數第四電性接點Q9B2。各該第二固定部PGP21及各該第二接觸頂針PGP22分別定位且接觸各該複數第四電性接點Q9B2與該複數第三電性接點N53-H,N54-H,以使該第二剛性單元Q9電性連接於該第二導線連接構件N5-H。該第二保護蓋Q9A具有一第四卡榫結構Q9A1以與該第二模組連接座Q9E結合。 In addition, in the seventeenth figure, each of the plurality of second spring connectors PGP2 includes a second contact thimble PGP22 and a second fixing part PGP21. Each of the plurality of second spring connectors PGP2 is fixed to each of the plurality of fourth electrical contacts Q9B2. Each of the second fixing portions PGP21 and each of the second contact thimble PGP22 are respectively positioned and contact each of the plurality of fourth electrical contacts Q9B2 and the plurality of third electrical contacts N53-H, N54-H, so that the first The two rigid units Q9 are electrically connected to the second wire connecting member N5-H. The second protective cover Q9A has a fourth latch structure Q9A1 to be combined with the second module connector Q9E.
請參閱第十八圖,其為本揭示較佳實施例穿戴裝置40的示意圖。該穿戴裝置40用以供一使用者USR穿戴,以感測該使用者USR之一運動參數,該種穿戴裝置40包含一裝置本體402、複數導線404、一電路板406、以及複數彈簧連接器408。該複數導線404設置於該裝置本體402上、且用以傳導反映該運動參數之複數電訊號。該電路板406設置於該裝置本體402上,且具有複數第二電性接點4060。該複數彈簧連接器408電連接於該複數第二電性接點4060及該複數導線之間404,以在其間形成預力電連接。
Please refer to FIG. 18, which is a schematic diagram of a
在第十八圖中的實施例可與前述的任一實施例組合而成為新的實施例。例如,複數導線404對應到第三圖中的複數第一導線P8、以及第五圖中的複數第二導線P4,其分別透過導線連接構件N2-S,N5-H電性連接到複數彈簧連接器408,即第十四圖、第十五圖、以及第十七圖中的複數彈簧連接器PGP1,PGP2。電路板406對應到第六圖的電路板P9B、以及第十五圖中的電路板Q9B,其分別透過複數第二電性接點4060,即第六圖中的複
數第二電性接點P9B2、以及第十圖中的複數第四電性接點Q9B2與複數彈簧連接器PGP1,PGP2電性連接。
The embodiment in Figure 18 can be combined with any of the foregoing embodiments to become a new embodiment. For example, the
承上,該裝置本體402包含模組連接座P9E,Q9E、導線連接構件N2-S,N5-H、以及保護蓋P9A,Q9A。該模組連接座P9E,Q9E,具有第一卡榫結構P9E1,Q9E1。該導線連接構件N2-S,N5-H具有相對應的複數第一電性接點N23-S,N24-S,N53-H,N54-H。該保護蓋P9A,Q9A藉由該第一卡榫結構P9E1,Q9E1而與該模組連接座接合P9E,Q9E。該複數彈簧連接器PGP1,PGP2電連接該相對應的複數第一電性接點N23-S,N24-S以形成複數第一電性連接ELC1,ELC3、且電連接該相對應的複數第二電性接點P9B2,Q9B2以形成複數第二電性連接ELC2,ELC4、並配置於該導線連接構件N2-S,N5-H與該電路板P9B,Q9B之間以形成複數第一預變形PS1,PS2。該模組連接座P9E,Q9E與該保護蓋P9A,Q9A之間分別具有一第一間隙GAP1與一第二間隙GAP2。在該保護蓋P9A,Q9A與該模組連接座P9E,Q9E接合時,該第一間隙GAP1與該第二間隙GAP2分別趨近於零。由於使用者USR運動或活動時而導致該模組連接座P9E,Q9E與該保護蓋P9A,Q9A發生慣性力,促使該複數第一彈簧連接器PGP1及該複數第二彈簧連接器PGP2上的彈簧的既有形變發生變化而分別使該第一間隙GAP1與該第二間隙GAP2產生一第一變動VR1以及一第二變動VR2。該複數彈簧連接器PGP1,PGP2之個別的預力對應地消除因應該運動而發生的該第一變動VR1與該第二變動VR2,以分別使該相對應的複數第一電性接點N23-S,N24-S,N53-H,N54-H與該相對應的複數第二電性接點P9B2,Q9B2維持一第一電性結合ELT1及一第二電性結合ELT2。
In addition, the
該複數彈簧連接器PGP1,PGP2用以維持該第一電性結合ELT1及該第二電性結合ELT2的可靠度。各該複數彈簧連接器PGP1,PGP2是一壓縮彈簧連接器。各該複數彈簧連接器PGP1,PGP2包含一接觸頂針PGP12,PGP22以及一固定部PGP11,PGP21。各該固定部PGP11,PGP21及各該接觸頂針PGP12,PGP22穿過且接觸該複數第二電性接點P9B2,Q9B2與該複數第一電性接點N23-S,N24-S,N53-H,N54-H,以使該剛性單元電性連接於該導線連接構件N2-S,N5-H。該保護蓋P9A,Q9A具有一第二卡榫結構P9A1,Q9A1以與該模組連接座P9E,Q9E結合。該第一卡榫結構P9E1,Q9E1與第二卡榫結構P9A1,Q9A1接合而在該保護蓋P9A,Q9A與該模組連接座P9E,Q9E之間形成一第一扣合力SF1,SF2。該複數彈簧連接器PGP1,PGP2在該複數第一電性接點N23-S,N24-S,N53-H,N54-H與該複數第二電性接點P9B2,Q9B2之間以一第一預力EF1,EF2形成該第一電性結合ELT1及該第二電性結合ELT2,其中該第一預力EF1,EF2對應該第一預變形PS1,PS2、該第一預力EF1,EF2為相對於該第一扣合力SF1,SF2則為反向的一第一外擴力。當所施加於該保護蓋P9A,Q9A的一第一開蓋力OPN1,OPN2與該第一預力EF1,EF2的合成係大於或等於該第一扣合力SF1,SF2時,該保護蓋P9A,Q9A被拆開,否則該保護蓋P9A,Q9A與該模組連接座P9E,Q9E維持接合。 The plurality of spring connectors PGP1 and PGP2 are used to maintain the reliability of the first electrical connection ELT1 and the second electrical connection ELT2. Each of the plural spring connectors PGP1 and PGP2 is a compression spring connector. Each of the plurality of spring connectors PGP1, PGP2 includes a contact thimble PGP12, PGP22 and a fixed part PGP11, PGP21. Each of the fixed parts PGP11, PGP21 and each of the contact thimble PGP12, PGP22 pass through and contact the plurality of second electrical contacts P9B2, Q9B2 and the plurality of first electrical contacts N23-S, N24-S, N53-H , N54-H, so that the rigid unit is electrically connected to the wire connection member N2-S, N5-H. The protective cover P9A, Q9A has a second tenon structure P9A1, Q9A1 to be combined with the module connector P9E, Q9E. The first tenon structure P9E1, Q9E1 and the second tenon structure P9A1, Q9A1 are joined to form a first fastening force SF1, SF2 between the protective cover P9A, Q9A and the module connecting seat P9E, Q9E. The plurality of spring connectors PGP1, PGP2 have a first connection between the plurality of first electrical contacts N23-S, N24-S, N53-H, N54-H and the plurality of second electrical contacts P9B2, Q9B2. The pre-forces EF1 and EF2 form the first electrical connection ELT1 and the second electrical connection ELT2, wherein the first pre-forces EF1, EF2 correspond to the first pre-deformation PS1, PS2, and the first pre-forces EF1, EF2 are Relative to the first buckling force SF1, SF2 is a reverse first outward spreading force. When the combination of a first opening force OPN1, OPN2 applied to the protective cover P9A, Q9A and the first pre-force EF1, EF2 is greater than or equal to the first fastening force SF1, SF2, the protective cover P9A, Q9A is disassembled, otherwise the protective covers P9A, Q9A and the module connector P9E, Q9E remain engaged.
該運動參數包含一加速度參數、一速度參數、以及一位移參數的至少其中之一。該裝置本體402藉由一彈性構件P7而依附於一織物本體101。該彈性構件P7藉由一魔鬼氈、一拉鍊、一縫紉材料、以及一膠黏物質的至少其中之一而依附於該織物本體101。該裝置本體402可拆解地與該織物本體101結合,並可配戴於該使用者USR的不同部位。該彈性構件P7可拆
解地與該織物本體101結合,並可與該織物本體101分離清洗。
The motion parameter includes at least one of an acceleration parameter, a velocity parameter, and a displacement parameter. The
提出於此之本揭露多數變形例與其他實施例,將對於熟習本項技藝者理解到具有呈現於上述說明與相關圖式之教導的益處。因此,吾人應理解到本揭露並非受限於所揭露之特定實施例,而變形例與其他實施例意圖是包含在以下的申請專利範圍之範疇之內。 Many modifications and other embodiments of the present disclosure proposed here will be understood by those who are familiar with the art to have the benefits of the teaching presented in the above description and related drawings. Therefore, we should understand that the present disclosure is not limited to the specific embodiments disclosed, and the modifications and other embodiments are intended to be included in the scope of the following patent applications.
40:穿戴裝置 40: Wearable device
402:裝置本體 402: Device body
406:電路板 406: Circuit Board
404:複數導線 404: complex wire
4060:複數第二電性接點 4060: Plural second electrical contacts
408:複數彈簧連接器 408: Plural spring connectors
Claims (10)
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CN202010953366.6A CN113662532A (en) | 2020-05-13 | 2020-09-11 | Wearable device for sensing motion parameters of a user |
US17/318,172 US20210296834A1 (en) | 2020-03-20 | 2021-05-12 | Wearable device for sensing motion parameter of user having motion |
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US7462035B2 (en) * | 2005-07-27 | 2008-12-09 | Physical Optics Corporation | Electrical connector configured as a fastening element |
US20090197749A1 (en) * | 2005-08-01 | 2009-08-06 | Merkel Carolyn M | Wearable fitness device and fitness device interchangeable with plural wearable articles |
JP2008234997A (en) * | 2007-03-20 | 2008-10-02 | Sumitomo Electric Ind Ltd | Connection structure, wiring-board connector, wiring-board module, and electronic equipment |
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JP6826878B2 (en) * | 2016-12-19 | 2021-02-10 | 日本航空電子工業株式会社 | Sliding connector |
CN208355452U (en) * | 2017-06-30 | 2019-01-11 | 金鼎联合科技纤维股份有限公司 | Sense Transmission system |
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