M435680 五、新型說明: 【新型所屬之技術領域】 本創作係陕獅體移動檢知器,特別是關於—種物體移 動檢知器之結構。 【先前技術】 引市面上物體移動檢知缝類繁多,其巾焦電型紅外線 感測器(Pyr〇electric Infrared Rad_ 線之波長很廣,並料在室溫下使用。因此焦電型紅外線感测器 普遍應用於如:獅災害,像防災系統;預防犯罪,像檢測入侵 者、檢測危險場所人員之進人與火災檢知等等;及電腦、電器、 顯示器等3C電子產品之領域中,像照明之自_燈與紐、自動 門之開關、烹調器具、風扇、冷氣與電視節能等。 目前習知之焦電型紅外線感·,多具有—感氣件本體。 此感測元件本體通f具有三支接腳,如中華民國專彻2細2 號、第292775號與第聰號。舉例而言,此三支接腳可為一訊 號線、-接麟與-制線,當此三支接崎接至—印刷電路板 上時’會觸應概連接至印路板上之㈣歧電•外線 之相關電路,以形成得以應用於各種領域的焦電型紅外線 ^。然而’隨著科賴進步,許多電子產品也設計的越來越 ㈣紐小。因此,習知之焦電型紅外線感測器需要另外加褒上一 具有控制電路的印刷板,造成電子產品在體積縮= 中之阻礙。 ㈣枉 3 斛35680 【新型内容】 檢知2於此,本創作係提出—種物體㈣檢知11,此物體移動 闕:整^树_树與魏板上㈣此紅精_元件之相 —冰Y作仏提出種物體移動檢知器,此物體移動檢知器包括 、工外線感測元件、一轉接板盥一 件具有複數個第-接腳舰Γ 感測元 :兩側分別開設有-第-凹槽與-第二凹槽,並於凹槽= 隔離部具有複數個穿孔。紅外線感測元件與轉接板 〇置於_槽内。㈣咖元件♦接鳴設於隔離 連結二且第’_轉接板電性連接。轉接板之第二編 =據本創作之-實施例,上述之物體移動檢知器更包括一透 ''凹槽具有—第一開σ ’此透鏡覆蓋第—開口,並且紅外 線感測元件位於透鏡與第一凹槽之間。 根據本創作之-實施例,上述之物體移動檢知器更包括一第 一封膠材料,此第-封膠材料密封透鏡之邊緣與第—凹槽之間的 間隙。 根據本創作之-實施例,上狀物體移動檢知 二封膠材料。第二凹槽具有—第二開口, 板之面向第 器更包括一第 第二封膠材料覆蓋轉接 ^ 開口之—表面,並且第二封膠材料密封轉接板側緣 與弟一凹槽之内壁面之間的間隙。 M435680 器之紅外線感 根據本創作之一實施例’上述之物體移動檢知 測元件為一焦電(Pyroelectric)感測元件。 器更包括一 件外緣與第 根據本創作之另一實施例’上述之物體移動檢知 第三封膠材料,其中第三封膠材料密封紅外線感測元 一凹槽之内壁面之間的間隙。M435680 V. New description: [New technical field] This creation is the movement of the lion body movement detector, especially the structure of the object movement detector. [Prior Art] There are many types of object movement detection seams on the market, and the Pyroelectric Infrared Rad_ line has a wide wavelength and is used at room temperature. Therefore, the pyroelectric type infrared sensation Detectors are commonly used in areas such as lion disasters, disaster prevention systems, crime prevention, detection of intruders, detection of personnel in hazardous locations, and fire detection; and in the field of 3C electronic products such as computers, electrical appliances, and displays. Like lighting from _ lights and buttons, automatic door switches, cooking appliances, fans, air-conditioning and TV energy-saving. At present, the well-known pyroelectric type infrared sensation, and more - the sensing body. This sensing element body through f It has three pins, such as the Republic of China, 2, No. 2, No. 292775 and Dicong. For example, the three pins can be a signal line, a link and a line, when these three When it is connected to the printed circuit board, it will be connected to the circuit of the (4) EMI/External line on the printed circuit board to form a pyroelectric type infrared ray that can be applied to various fields. Ke Lai progress, many electronics The product is also designed to be more and more (four) New Zealand. Therefore, the conventional pyroelectric infrared sensor needs to be additionally attached to a printed circuit board with a control circuit, which causes the electronic product to be hindered in the volume reduction. (4) 枉3 斛35680 [New content] Detection 2, this creation proposes an object (4) detection 11, the object moves 阙: whole ^ tree _ tree and Wei board (four) the red essence _ component phase - ice Y as 仏The object movement detector is proposed. The object movement detector comprises: an external line sensing component, an adapter plate, and a plurality of first-pin ship sensing elements: two sides are respectively opened - the first The groove and the second groove have a plurality of perforations in the groove=isolation portion. The infrared sensing element and the adapter plate are placed in the slot. (4) The coffee element ♦ is connected to the isolation link and the first _ adapter plate electrical connection. Adapter plate second edition = according to the present embodiment - the above object movement detector further includes a transparent ''groove has - first open σ' this lens coverage An opening, and the infrared sensing element is located between the lens and the first recess. For example, the object movement detector further includes a first encapsulant material that seals a gap between the edge of the lens and the first groove. According to the present invention, the upper object moves. Detecting the second sealant material. The second groove has a second opening, and the facing surface of the plate further comprises a second sealing material covering the surface of the transfer opening, and the second sealing material sealing the adapter plate The gap between the side edge and the inner wall surface of the groove of the younger brother. The infrared sensation of the M435680 device According to one embodiment of the present invention, the above object movement detecting and detecting component is a pyroelectric sensing component. An outer edge and a second movement of the object according to another embodiment of the present invention, wherein the third sealant seals a gap between the inner wall surfaces of the recess of the infrared sensor.
綜上所述’本創作係提供一種物體移動檢知器。此物體移動 檢知器可將紅祕感測元件之複數個第—接腳透過—轉接板轉接 為複數個第二_。本創作之轉接板相當於習知之具有多種控制 紅外線感測器之相關電路的印刷電路板。因此,本創作提供:種 結構與功能均較為完整,但㈣單化且模組化的物體移動檢知 益。物體移動檢知器可對應各種應用領域而祕至各種領域之電 子賴^此各種領域的設計人員不需要再針對摘作之物體移 動檢知器設計—種控制此物體移動檢知器之印刷電路板。 、二上之關於本創作内容之說明及以下之實施方式之說明係用 請 j丁軏^轉糊作之精神與_,並且提供本齡之專利申 範圍更進一步之解釋。 【實施方式】 『第 圖 1圖』柄體移動檢知ϋ 10之第-實施例之立體示意 2圖』為物體移動檢知器10之第-實施例沿著剖面線2_2 之〇’j面圖,請同時灸『 10包括一么工外㈣弟圖』與『第2圖』。物體移動檢知器 外額t線感測树11G、—轉接板120與-連結件130。红 外線感測TL件11〇 、·工 /、有複數個第—接腳〗14,轉接板120具有複數 5 M435680 :第二接腳124。連結件130相對兩側分別開設有-第-零132 ”—弟二凹槽134。在本實施财,紅外線感測耕no收置曰於第 凹槽132内’轉接板12〇收置於第二凹槽〗34内。第—凹槽⑶ 槽Μ —隔離部133 ’隔離部133具有複數個 _卜其中’紅外線感測元件則之各第-接腳114係穿設 p離部133之穿孔1331,且各第—接腳ιΐ4與轉接板⑽電性 、接。轉接板12G之各第二接腳124自連結件13〇伸出。 ^實施例中,紅外線感測元件11〇為一焦電(加如蝴感 件。當紅外線人射到物體移動檢知器之焦電感測树時,隹 電感測元件將產生溫度變化而導致輸出電流改變,進而藉由此電 流的改變_到例如人體的移動或火災之偵測等,但不限於此。 在本創作之其它實施例中,紅外線感測元件no可為-献電堆 元件、-驗元件、—光應元件或—級元 件0 本貫施例之各第-接腳114穿設於隔離部133,隔離部⑶可 電性隔離紅外線感測元件11◦、轉接板⑽以及各第—接腳114 ’ 並且各第-接腳114與難板m電性連接。藉由本創作第一實 施例之結構,物體移動檢知㈣之紅外線感測树⑽之各卜 接腳114透舰離部133 _敏120紐連接。蝴接板12〇 具有多個紅外線感測元件UG之相關控制電路,第-接腳114再 透過轉接板120上的控制電路(未繪式)與至少一第二接腳以電性 連接’形成-模組化的物體移動檢知器ω。本實施例中,第二接 M435680 腳124為金屬針頭,並且自連結件! 之物盤移输μ敎洲。當朗者在剌定本=作 動檢知器10的時候’可直接將第二接腳124連姓戈/例之物移 、相關儀心備上,但秘於此。在產品實際應用的過程中,為 了各種配置空間方面的需求’第二接腳124亦 ::利用排線可挽的特性使得本創作之物一 性地调整所欲偵測的範圍。In summary, the present invention provides an object movement detector. The object movement detector can transfer a plurality of first-pins of the red-sense sensing component to the plurality of second _ through the adapter plate. The adapter plate of the present invention is equivalent to a conventional printed circuit board having various circuits for controlling an infrared sensor. Therefore, this creation provides: a variety of structures and functions are relatively complete, but (4) single and modular object movement detection benefits. The object movement detector can be used in various fields of application and can be used in various fields. The designers in various fields do not need to move the detector design for the object to be picked up - the printed circuit for controlling the object movement detector board. The description of the contents of this creation and the description of the following implementations are for the purpose of using the spirit of _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ [Embodiment] FIG. 1 is a perspective view of a first embodiment of an object movement detector 10, and a second embodiment of the object movement detector 10 is a section along the section line 2_2. Figure, please also moxibustion "10 includes a work outside (four) brother map" and "Figure 2". The object movement detector external t-line sensing tree 11G, the adapter plate 120 and the - link 130. The infrared line sensing TL device 11 〇 , · / / has a plurality of first pin 14 , the adapter plate 120 has a plurality of 5 M435680 : the second pin 124 . On the opposite sides of the connecting member 130, there are respectively - the first - zero 132" - the second two grooves 134. In the present embodiment, the infrared sensing tilling is disposed in the first groove 132. The second groove 34. The first groove (3) groove 隔离 - the partition portion 133 'the partition portion 133 has a plurality of _ 卜, wherein the 'infrared sensing element' each of the first leg 114 is passed through the p-off portion 133 The through hole 1331, and each of the first pin ΐ4 is electrically connected to the adapter plate (10). The second pins 124 of the adapter plate 12G extend from the connecting member 13〇. In the embodiment, the infrared sensing element 11〇 For a coke (adding a sense of light. When the infrared person hits the focus sensor of the object movement detector tree, the inductance component will produce a temperature change that causes the output current to change, and thus the current change. For example, the movement of the human body or the detection of a fire, etc., but is not limited thereto. In other embodiments of the present invention, the infrared sensing element no may be a battery component, a component, a light component, or a class. Each of the first-pins 114 of the present embodiment is disposed in the isolation portion 133, and the isolation portion (3) electrically isolates the infrared sensation. The measuring element 11A, the adapter plate (10) and each of the first pins 114' are electrically connected to each of the first pins 114. The structure of the first embodiment of the present invention detects the infrared sensation of the object movement (4) Each of the measuring pins (10) of the measuring tree (10) is connected to the ship 133 _ sensitive 120 NZ. The splicing plate 12 〇 has a plurality of related control circuits of the infrared sensing component UG, and the first pin 114 is transmitted through the adapter plate 120. The control circuit (not shown) is electrically connected to the at least one second pin to form a -formed object movement detector ω. In this embodiment, the second connection M435680 foot 124 is a metal needle, and The connection piece! The object disk is transferred to μ Weizhou. When the Langer is in the setting book = the motion detector 10, the second pin 124 can be directly moved to the surname of the object/case, and the relevant instrument is prepared. However, in the process of actual application of the product, in order to meet the requirements of various configuration spaces, the second pin 124 also: utilizes the pullable characteristics of the cable to make the object of the creation adjust the desired one. range.
+因此,本創作提供-種模組化的物體移動檢知^⑽。更詳細 而石’習知之紅外線感測耕之各第—接腳會再對應電性連接至 Ρ刷電路板上之相關控制電路。本創作則將紅外線感測元件與轉 接板整合為-物體㈣檢知器,而轉接板上可配置_電路板上 制電路。因此本創作形成—結構與功能均較為完整,但 :間早之她化的物體移動檢知n 1G。故本創作之㈣移動檢知 為1 〇在應用到各種不同領域的電子產品時,設計人員不需要再針 對本創作之物體移動檢知器m綺另—控制電路板,_本創作 具有更佳的利用性且更小的體積。 接著請參考『第3圖』與『第4圖』,『第3圖』為第二實於 例之物體移動檢知器20分解立體示意圖,『第4圖』為第二 體移動檢知器20沿著剖面線4_4之剖面圖。第二實施= 第貫施例相同的標號代表相同或類似的結構,以下將不再 逃。請同時參考『第3圖』與『第4圖』,第二實施例與第—實於 例之差異在於_多動檢知器20更包括-透鏡M0。其中,物^ 7 M435680 移動檢知器2G之第―凹槽132具有—第―開口咖。而透鏡⑽ 覆蓋第-開口 132a ’並且紅外線感測耕UG位於透鏡14〇與第 -凹槽132之間。而藉由此透鏡14〇可將更大範圍之環境中之紅 外線折射進入紅外線感測元件11〇,使此物體移動檢知器如呈有 更大的4貞測範圍。 請繼續參考『第3圖』與『第4圖』,物體移動檢知器2〇更 包括-第-封膠材料副與一第二封膠材料⑽。第一封膠材料 湖密封透鏡H0之邊緣與第一凹槽132之間的間隙。第二凹槽 m具有-第二開σ ma,第二封膠材料漏覆蓋轉接請之 面向第二和ma之-表面121,並料二封膠材料⑽密封轉 接板120側緣與第二凹槽134之内壁面之間的間隙。在本實施例 中,第-封膠材料刷與第二封膠材料⑽為以塗佈之方式形成, 但:限於此。在本創作之其它實施例t,第—封膠材料刷可為 ’、壞,用以緊配於透鏡⑽之邊緣與第—凹槽132之間的間 隙’以達到防止水氣之效果。 藉由封膠材料細_多動檢知器2〇接合處之間隙,可使得 外界水氣不紐人她__G _之電路。此電路可例如 為紅外線❹⑽m _幾场输板上蝴電路, 因此本實施例之物體移動檢知器2G可具有較長的使用壽命。 然而’上述的實施例並雜制本創作必須同時包括第一封膠 =ΓΓ及第二封勝材料180。而在本創作之部分實施例中,物 體移動獅料只包含第—封膠材料㈣密封透謂邊緣與 M435680 才第的間隙,以防止水氣從透鏡i4G邊緣與第—凹 射物2G °綱叙部分實施 丨中物私純的20可只包含第二_材料⑽密 ::緣與第一凹槽134之内壁面之間的間隙,以防止水氣從轉接 器2〇⑽緣與第二凹槽134内壁面之間的間隙進入物體移動檢知 連心?3:Π『第3圖』與『第4圖』,物體移動檢知器20之 =件⑽更包括一第—結合部136與—第二結合部ΐ3δ。第—姓 =1Γ結件130外側表面向連結件13叫^ 和8由連結件13〇外側表面向連結件13〇外 姓 ⑶用以與-第-螺鎖元件137結合,第二結合部138用以= 螺鎖疋件丨39結合。在本實施例巾,第—觸元件I3?與第二 螺鎖凡件139為螺絲。並且第—螺鎖元件137與第:螺鎖元件139 結合物體移動檢知謂之方向不限—種方向。如『第4圖』所示, 第一螺鎖7L件137與第二螺鎖元件139可將物體移動檢知器2〇往 第一凹仙2面向第一開σ 132a的方向結合,例如是與一基板22〇 結合。而在後續的實施例中,再詳細說明其它的結合方向。另外, 在摘作之部分實施例巾,連結件⑽可只包括第一結合部136, 人第、,、口 口 4 136並且搭配第一螺鎖元件137帛以固定物體移動 檢知為20,亦或不具備任何螺鎖元件與結合部。如第—實施例之 轉接板12〇上的第二接聊以可替代螺鎖元件與結合部之功能, 用以固定或***至所需的應用系統當中。故本創作之物體移動檢 9 M435680 知益2〇之結合部數量可依實際應用需求做不同的變更。 接著請參考『第5圖』與『第6圖』,『第5圖』為第三, 例之移動檢知器3〇之立體示意圖,『第6圖』為第三實施例 t物體移動檢知器3〇沿著6_6剖面之剖面結構圖。第三實施例盘 貫施例相同的標號代表相同或類似的結構,以下將不 j °月參考『第5圖』’第三實施例與第二實施例之差異在於第: 實蝴之物體移動檢知器3〇並不具有透鏡。因此本實施例為了防 止外界水氣進入例如紅外線感測元件11〇或轉接板12 :元件’物體移動檢知器3。更具有一第三封膠材料2。。。:= 膠材料2〇0松封紅外線感測元件則外緣與第-凹槽132之内辟 面之間的間隙。在本實施财,第三封膠材料·為以塗佈之二 式形成,但秘於此。在本創作之其讀_卜 200可Λ—嬙舺择 矛一对修材科 之_1 以緊配於透鏡14G之邊緣與第—凹槽132 之間的間隙,以達到防止水氣之效果。 入除此之外’物體移動檢知器3〇之連結件i3〇更包括一第一社 3部150與一第二結合部152。 。 件151处人〜 弟、口口 #15〇可與一第一螺鎖元 本實^Γ弟二結合部152可與一第二螺鎖元件153結合。在 本貫%例+,第-螺鎖元件151盘第 且第—螺鎖元件⑸與第-螺鎖元=累^件153為螺絲。並 153結合鐘移動檢知器30 之方向不限一種方向。如『第 元件^ 弟W』所不,本實施例之第-螺鎖 =弟二螺鎖元件153可將物體移—^ 面向弟二開口 ma的方向結合,例如是與—基板·結合。 M435680 „ 240之外圍可再結合上一廣角透鏡⑽並覆蓋在物體移動 柘知益3〇之上方’使物體移動檢知器3〇具有更廣的環境红外線 之感測範I摘作之部分實施射,獅元狀數量與螺鎖元 件結合物體移動檢知11之方向可依實際需求做不_調整,此絕 非用來限定本創作之範轉。 巴 於4,者:考第7圖』,『第7圖』為第二實施例之物體移動 之製作錄圖。流程詳細說明如下。首先,先將轉接板平 連。件之第—凹槽,且各第二接腳面向第二凹槽之第二開口 (步驟S6〇〇)。再將連結件之第一凹槽對準紅外線感測元件之複數 個第一接腳套入(步驟_),第一凹槽面向第-開口之表面且有 對應之複數個穿孔,此時各第—接腳插人第—開对對應之 2中。此時紅外線感測^件之複數個第—接腳會自動套入轉接 ^亚且將碰_—接腳點焊在轉接板上。接著,將第 材料覆蓋細W㈣繼板侧緣与 :槽内壁㈣物_ s㈣)。勝嶋覆蓋在第一 —㈢之第開口(步驟S63G),並且紅外線感測元件位於透鏡盘第 -凹槽之間。此時’此物體移動檢知糾可將更多的紅外線歧 2紅外糊谢。㈣,—麵_透鏡之邊緣 凹槽之__(步驟咖)。此時,由於第— 槽壁面之間的間隙。因此,物體移動檢知器即具有 ^35680 同一種=、封•材科、第二封膠材料與第三封膠材料可以是 :==㈣的材料。例如在本創作之部分實施例 、…可以疋紫外線㈣ravioiei Rays,UV)硬化膠。但不限於 ,只要能將透鏡之邊緣與第—凹槽之__密封,以及轉接 面之間的間隙密封之等效材料皆可。 综上所述’本創作之物體移動檢知器具有—連結件、一紅外 連=兀件與一轉接板。而紅外線感測元件之各第-接腳穿設此 ',、。件之_部,並且各第—接腳與轉接㈣ 上具有控制物峨_刚_元物作二= 作之物體軸檢的具有模組化之功效。如者不需要在岸用本 ===時,去設計或另外增蹲—控制電路控制物 雖然本創作以前述之實施例揭露如上, 創作。在不脫離本創作之精神和範圍内,所為二^ t本創作之專梅護錢。關於本創作所界定之保護 ^ 所附之申請專利範圍。 I考 【圖式簡單說明】 『第 之剖面圖 圖』為第一實施例之物體移動檢知器沿著剖面線 第1圖』為第-實施例之物ϋ移動檢知器立體示意圖 2-2 第3圖』為第二實施例之物體移動檢知 遛不意® 圖』為第二貫施例之物體移動檢知器沿著刮面線^ 12+ Therefore, this creation provides a modular object movement detection ^ (10). In more detail, each of the "infrared sensing ploughs" of the stone "recognition" is electrically connected to the associated control circuit on the squeegee circuit board. This creation integrates the infrared sensing component and the adapter plate into an object (four) detector, and the adapter board can be configured with a circuit board. Therefore, the creation of this creation - structure and function are relatively complete, but: the early movement of her object to detect n 1G. Therefore, the creation of this (4) mobile detection is 1 〇 when applied to electronic products in various fields, the designer does not need to move the detector for the object of the creation, and the control board is better. The usability and smaller size. Next, please refer to "3rd picture" and "4th picture", "3rd picture" is an exploded view of the object movement detector 20 of the second embodiment, and "4th picture" is the second body movement detector 20 is a cross-sectional view along section line 4_4. Second Embodiment = The same reference numerals are used for the same or similar structures, and the following will not escape. Please refer to "Fig. 3" and "Fig. 4" at the same time. The difference between the second embodiment and the first embodiment is that the multi-detection detector 20 further includes a lens M0. Among them, the object ^ 7 M435680 mobile detector 2G - the groove 132 has - the first opening coffee. The lens (10) covers the first opening 132a' and the infrared sensing cultivating UG is located between the lens 14'' and the first groove 132. By this lens 14, the infrared rays in a wider range of environments can be refracted into the infrared sensing element 11 〇, so that the object moving detector has a larger range of 4 measurements. Please continue to refer to "Fig. 3" and "Fig. 4", and the object movement detector 2 includes a - a sealant material pair and a second sealant material (10). The first adhesive material is a gap between the edge of the lake sealing lens H0 and the first groove 132. The second groove m has a second opening σ ma, the second sealing material leaks the cover to face the second and the ma-surface 121, and the second sealing material (10) seals the side edge of the adapter plate 120 The gap between the inner wall surfaces of the two grooves 134. In the present embodiment, the first sealing material brush and the second sealing material (10) are formed by coating, but are not limited thereto. In other embodiments of the present invention t, the first sealant material brush may be ', bad, to fit tightly between the edge of the lens (10) and the first groove 132 to achieve the effect of preventing moisture. By means of the gap between the sealing material and the multi-detection detector 2, the external water and gas can not make her __G _ circuit. This circuit can be, for example, an infrared ray (10) m _ a few field on-board butterfly circuits, so the object movement detector 2G of the present embodiment can have a long service life. However, the above embodiment and the simplification of the creation must include both the first sealant ΓΓ and the second seal material 180. In some embodiments of the present invention, the object moving lion material only contains the first sealing material (4) sealing the edge and the gap of the M435680 to prevent moisture from the lens i4G edge and the first-concave object 2G ° The embodiment 20 can only contain the second material (10) dense: the gap between the edge and the inner wall surface of the first groove 134 to prevent moisture from the adapter 2 (10) edge and the first The gap between the inner wall surfaces of the two grooves 134 enters the movement of the object to detect the concentricity? 3: 第 "3" and "4", the object movement detector 20 (10) further includes a first joint 136 and - the second joint ΐ 3δ. The first outermost position of the first member 138 is used for the outer joint surface of the joint member 13 and the outer joint surface of the joint member 13 to the outer joint of the joint member 13 (3) for coupling with the first-thread-locking member 137, and the second joint portion 138 for Combined with = screw lock 丨 39. In the present embodiment, the first touch element I3? and the second screw lock member 139 are screws. Moreover, the direction in which the first screw-locking element 137 and the first: screw-locking element 139 are combined with the movement of the object is not limited. As shown in FIG. 4, the first screw lock 7L member 137 and the second screw lock member 139 can combine the object movement detector 2 in the direction of the first concave fairy 2 facing the first opening σ 132a, for example, Combined with a substrate 22〇. In the following embodiments, other bonding directions will be described in detail. In addition, in the embodiment of the present invention, the connecting member (10) may include only the first joint portion 136, the human body, the mouth port 4 136, and the first screw-locking member 137 帛 is detected as a fixed object movement of 20, Nor does it have any screw-locking elements and joints. The second chatter on the adapter plate 12 of the first embodiment can replace the function of the screw-locking element and the joint for fixing or inserting into the desired application system. Therefore, the movement of the object of this creation 9 M435680 The number of the joints of Zhiyi 2〇 can be changed according to the actual application needs. Next, please refer to "5th" and "6th", "5th" is the third, the three-dimensional schematic diagram of the mobile detector 3, "6th" is the third embodiment t object movement inspection The cross-sectional structure of the 6_6 section is known. The same reference numerals in the third embodiment represent the same or similar structures, and the following will not refer to "figure 5". The difference between the third embodiment and the second embodiment lies in the fact that: The detector 3 does not have a lens. Therefore, in this embodiment, in order to prevent external moisture from entering, for example, the infrared ray sensing element 11 or the adapter plate 12: the component 'object movement detector 3. More has a third sealant material 2. . . := Glue material 2〇0 loosely seals the gap between the outer edge and the inner surface of the first groove 132. In the present embodiment, the third sealant material is formed by the coating method, but this is the secret. In this creation, the reading of the _ _ 200 can be Λ 嫱舺 嫱舺 矛 一对 一对 一对 一对 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以. In addition to the above, the link movement i3 of the object movement detector 3 includes a first body portion 150 and a second joint portion 152. . The member 151 is a member of the second screw-locking member 153. The member 152 can be combined with a second screw-locking member 153. In the present example, the first and second screw-locking members 151 and the first-screw-locking member (5) and the first-stud-locking member=reducing member 153 are screws. And the direction of the 153 combined with the clock movement detector 30 is not limited to one direction. For example, the "first element ^ brother W" does not, the first-spiral lock = the second two-locking element 153 of the present embodiment can be combined with the object facing the opening of the second opening ma, for example, combined with the substrate. M435680 „ The periphery of 240 can be combined with the upper wide-angle lens (10) and covered by the moving object 柘 〇 ' ' 使 物体 物体 物体 物体 物体 物体 物体 物体 物体 物体 物体 物体 物体 物体 物体 物体 物体 物体 物体 物体 物体 物体 物体 物体 物体 物体 物体 物体 物体 物体 物体 物体 物体 物体Shooting, the number of lions and the combination of the snail-locking elements and the movement of the object can be adjusted according to the actual needs. This is by no means used to limit the scope of this creation. Ba Yu 4, the test: Figure 7 , "Fig. 7" is the production record of the object movement of the second embodiment. The flow is described in detail as follows. First, the adapter plate is first connected. The first groove of the piece, and the second pin faces the second a second opening of the groove (step S6 〇〇). Aligning the first groove of the connecting member with the plurality of first pins of the infrared sensing element (step _), the first groove facing the first opening The surface has a corresponding plurality of perforations, and at this time, each of the first pins is inserted into the corresponding second opening. At this time, the plurality of first-pins of the infrared sensing component are automatically inserted into the adapter. And the bump _-pin is spot-welded on the transfer plate. Then, the material is covered with the fine W (four) and the side edge of the plate and the groove Wall (four) object _ s (four)). The 嶋 嶋 covers the first opening of the first - (three) (step S63G), and the infrared sensing element is located between the first groove of the lens disk. At this time, the movement of the object can be corrected. Infrared ambiguity 2 infrared paste. (4), - face _ lens edge groove __ (step coffee). At this time, due to the gap between the wall surface of the first groove, therefore, the object movement detector has ^35680 The same type =, sealing material, second sealing material and third sealing material can be: == (d) material. For example, in some embodiments of the present invention, ... can be ultraviolet (four) ravioiei Rays, UV) hardening glue. However, it is not limited to, as long as the edge of the lens can be sealed with the __ of the first groove, and the equivalent material of the gap between the transfer faces can be used. In summary, the object movement detector of the present invention has - a connecting piece, an infrared connection = a piece and an adapter plate, and the first leg of the infrared sensing element is passed through the ', the part of the piece, and the first leg and the transfer (4) It has the modular effect of controlling the object 峨 _ _ _ yuan for the second = for the object axis inspection. It is not necessary to design or otherwise enhance the control circuit control when the shore is used ===. Although the present invention is disclosed above in the foregoing embodiments, it is created without departing from the spirit and scope of the present invention. This article is dedicated to the protection of the money. The scope of the patent application attached to the protection defined by this creation ^ I. [Simple diagram of the diagram] The "section diagram of the section" is the object movement detector along the first embodiment. Fig. 1 is a perspective view of a moving detector of the first embodiment. 2-2. Fig. 3 is a second embodiment of the object movement detection of the second embodiment. Object movement detector along the scraping line ^ 12