200827695 九、發明說明: 【發明所屬之技術領域】 本發明係關於一種檢測儀,尤指一種用於檢測被測零 件彎折角度是否合格的檢測儀。 【先前技術】 實際生產中,很多零件的彎折角度是有一定範圍要求 的,角度過大或過小都會因影響其使用而成為不合格產 品。比如電腦中用於固定散熱器的扣具,其兩側臂與;軸 線夾角的角度及兩夾角的對稱度,直接影響到散熱器與待 散熱元,貼合的緊祕,從而影響待散熱元件的散熱^果 及使用壽命。習智技術中,為判斷散熱器扣具的兩I 中軸線夾角的對稱度及夾角的角度值是否在合格範圍内Ϊ 零件放置於極限角度量規上,透過操作人員肉眼觀 件的兩側臂是否在量規的極限角度面以内 f件是否合格。但是,這樣的檢測方法效率 =零 因素及判斷視角的差別,容易產生誤判’導致=硯 合格產品,從而造成散熱元件的散熱效果:不 而造成電腦的性能缺陷。 吾至因此 因是,實有必要提供— 種檢測儀,以消除上述缺失。 【發明内容】 ' ° 鐾於以上内交,士 門谷 有必要提供一種能 測被測零件角度的檢測儀。 °放、準確地檢 200827695 一種檢測儀,用於檢測被測零件的弯折角度是 格,該被測零件為電導體,該檢測儀包括__檢^ > “ •測=上設有-固定被測零件的固定架、至少一檢測被測零 件畜折角度的檢測部、一輸出檢測結果的指示裝置及 部設有處理n的電氣控制箱,該檢測部可在檢測台上滑 $,該檢測部包括檢測被測零件的f折角度是否超出合格 範圍的一長檢測柱和一短檢測柱,該電氣控制箱中的處^ 益依據該㈣部的長檢肺和短檢㈣與制零件是否接 觸’控制指示裝置指示被測零件的彎折角度是否合格。 相較習知技術,該檢測儀透過被測零件與檢測柱的接 觸f月況來判斷被測零件的彎折角度是否合格,並透過處理 器將檢測結果輸出至指示裝置,從而有效避免了人工檢測 的誤檢,同時提高了檢測效率。 【實施方式】 、明參閱圖1,為本發明檢測儀的較佳實施方式,用於 檢測—被測零件的彎折角度是否合格,本實施方式中的被 j V件為政熱态扣具20。檢測儀包括一檢測台3〇、一固 定=40、一檢測組合體、一指示燈板7〇及一内部設有處 理益的電氣控制箱80。 明參閱圖2至圖4,散熱器扣具2〇為電導體,其包括 二桿,22及兩侧臂24、%。桿體22的中部平行偏置有一 =斤P 222,、4折部222與桿體22的其他部分共同限定一 、"面兩侧臂24、26分別自桿體22的兩端向彎折部222 200827695 .與桿體22的其他部分共同限定的平面的不同侧彎折,兩側 •臂24、26分別垂直於桿體22,且與該平面呈相同的銳角 ^該銳角A是否在規定範圍内,直接影響到散熱器與待 政熱元件貼合的緊密性,銳角八即為待檢測角度。每一側 臂24、26遠離桿體22的一端設一彎折的卡扣部Μ]、%。 用於與其他零件扣合以固定對應的散熱器。 、請參閱圖卜圖5和圖8,檢測台Ιο為一由四腳32 春支撐的板體,檢測儀的其他元件都設於檢測台上。 固定架40 1^於檢測台3G的中部,其下部包括一垂 直面,該垂直面上凸出兩對凸塊42〇,每對凸塊42〇之間 形成一收容槽422。固定架40的兩側分別設一凸耳424、 425,每一凸耳424、425上分別延伸出-凸柱428,其中 左凸耳424上還開設-長形的凹槽條。兩凸柱樣的上 緣與兩收容槽422的下緣處於同一直線上,檢測時,共同 用於支撐散熱器扣具20的桿體22。固定架則上部透過 _枢軸連接有-手柄44及—自由端設壓緊塊46的懸臂仏。 壓緊塊46的底面為平面’檢測時用於壓制固定散熱器扣具 20。手柄44與懸臂48之間樞轉連接,扳動手柄料,可透 過懸臂48帶動壓緊塊46運動。固定架扣的下部設有一接 地引線(圖未不當散熱益扣具2〇固定於固定架時, 散熱器扣具20透過固定架4〇而接地。 檢測組合體包括透過-聯動桿50聯動連接的兩檢測 部仏56。聯動桿50中部可樞轉地連接於檢測台3〇的底 面’聯動桿50的兩端分別設有一滑槽5〇2。兩檢測部52、 200827695 56分別可滑動地裝設於檢測台30上固定架40的兩對角 •處,每一檢測部52、56的座體底面分別凸設一柱體522、 • 562。柱體522、562分別收容於聯動桿50的對應滑槽502 内,以聯動連接兩檢測部5 2、5 6。每一檢測部5 2、5 6的 座體分別設有一絕緣塊523、563,絕緣塊523、563分別 設有一較長的檢測柱524、564和一較短的檢測柱526、 566,其中較短的檢測柱526、566與固定架40的距離較近。 該等檢測柱524、564、526、566的高度是根據散熱器扣具 ⑩20的合格角度範圍的臨界值確定的,每一檢測柱524、 564、526、566的底部有引線連接至電氣控制箱80内,該 等引線分別接高電平,並透過絕緣塊523、563與檢測台 30及固定架40絕緣。檢測部52靠近其檢測柱524的一端 設一推動塊528,推動推動塊528,檢測部52即可在檢測 台30上滑動,同時透過聯動桿50帶動檢測部56滑動。檢 測台30的底面設一與檢測部56接觸的行程開關530,當 _檢測部56開始滑動時,檢測部56不再接觸行程開關530, 行程開關530即可導通而產生觸發信號,電氣控制箱80 内的處理器開始運行。檢測部56鄰近檢测柱566的一端設 一凸塊568,凸塊568延伸出一平行於檢測台30表面的導 引柱570,導引柱570的自由端為一較細的感應銷572。檢 測台30上與檢測部56間隔一定距離處固定一抵頂塊 574,抵頂塊574上開設一可供導引柱570穿過的通孔。導 引柱570上套設一彈簀576,彈簧576的兩端分別抵頂凸 塊568和抵頂塊574。檢測台30上與抵頂塊574間隔一定 200827695 距離處設一光電開關580,光電開關580的中部設一感應 ’槽582,當導引柱570的感應銷572插入感應槽582中時, •光電開關580產生阻斷信號。 指示燈板7 0設於檢測台3 0靠近操作者的一角,以便 於操作者觀察。指示燈板70與電氣控制箱80内的處理器 相連接,用於輸出處理器的運算結果。指示燈板70上設七 個指示燈71、72、73、74、75、76、77。其中,指示燈71 為電源指示燈,燈亮表示檢測儀處於通電狀態。指示燈7 2 胃為合格指示燈,當檢測柱526、566都維持高電平而檢測柱 524、564都變為低電平時,指示燈72亮起,顯示被測散 熱器扣具20的兩側臂24、26完全合格。指示燈73為行程 指示燈,燈亮表示導引柱570的感應銷572已插入感應槽 582。指示燈74、75、76、77分別為角度合格情況指示燈, 燈亮表示散熱器扣具20的侧臂24、26彎折角度不合格, 其中,當檢測柱526變為低電平時,指示燈74亮起而顯示 0侧臂26彎折角度過小,當檢測柱566變為低電平時,指示 燈76亮起而顯示侧臂24彎折角度過小,當導引柱570的 感應銷572已插入感應槽582而檢測柱524仍維持高電平 時,指示燈75亮起顯示侧臂26彎折角度過大,當導引柱 570的感應銷572已插入感應槽582而檢測柱564仍維持 高電平時,指示燈77亮起顯示侧臂24彎折角度過大。 請參閱圖6至圖9,檢测時,給檢測儀接通電源,指 示燈71亮顯示電源已接通。將散熱器扣具20置於固定架 40的兩收容槽422内,凸柱428與收容槽422共同支撐散 11 200827695 扳動手柄44使壓緊塊46壓緊散熱器扣具 的杯體22,此一各兀件狀態如圖6所示 的桿體22包括彎折部222完全貼a 扣具20 士 r 凡王贴口於固疋架40下部的垂 辟乂散熱器扣具20的兩侧臂24、26分別懸空,其中側 檢24穿過固定架4〇的凹槽426,以防止散熱器扣且沈在 ϊ Γ透程:固了2 2的長度方向滑動。此時,散熱器扣 使檢接地。推動檢測部52的推動塊似, #近指示燈板7G的方向滑動,同時聯動桿 ▼動檢測部56向靠近光電開關的方向滑動 C關530導通,產生觸發信號,電氣控制箱“IS 開始記錄檢測柱524、564、526、566的電 經過運算使相應的指示燈72、73、74、7 ^兄亚 檢測結果。檢測部5 2、5 6滑動奸中# π起以顯示 八,,&土、 6 /月動過轾中,其檢測柱526、560 刀,口 #近散熱器扣具2〇的對應側臂26、24的方 若散熱器扣具20的草一也丨辟0 #近’ 庫的檢魅偏1 6彎折角度過小,其對 〜的㈣柱566、526將與不合格側 過散熱器扣具2〇及固定 亚透 平,卢棰时收L法 疋木40接地而由鬲電平變為低電 :處理益將此情況回饋而使對應的起 指示出角度過小的側臂24、车 紿儿起, 過小,兩指示燈74、76η:ΓΓΓ 、26都角度 林盡。^ f 76同枯壳起;散熱器扣具20為不合 工作結束。如所檢測的散熱器扣具2 產口。,檢測柱526、566蔣;ce 马。4 其下方透過,檢洌,5Γ 對側臂26、24並自 偏\ 心52、56繼續滑動,直至檢測桂524、 564分别接觸對應的側臂26、24而變為低電平,此二 12 200827695 不燈72亮起,指示被測產品合格,檢測部52、%停止滑 動,檢測工作結束。若散熱器扣具20的某一侧臂24、26 彎折角度過大,其對應的檢測柱564、524將不接觸不合柊 侧臂24、26而維持高電平,指示燈72不亮,可知被 品不合格。 請繼續參閲圖10至圖12,若散熱器扣具20的兩側臂 24、26都角度過大’檢測柱564、524將都不接觸對應的 側臂24、26並自其下方透過,檢測部”、兄繼續滑動, 直至檢測部56的感應銷572插入光電開目58〇的感應槽 582中,光電開關58〇產生阻斷信號使指示燈乃亮起 示操作者檢測結束,同_,處理器根據檢測柱似、泌 都維持高電平而使指示⑥75、77亮起,指示散熱器扣呈 20的兩侧臂26、24彎折角度都過大。 八 在檢測部52、56滑動過程中’散熱器扣具2〇的側臂 24、26與檢測柱524、564、汹、566接觸後,錢作者 '繼績推動檢測部52 ’散熱器扣具20的側臂24、26將會發 生輕微彈性變形而允許檢測柱524、5料、似、細自^ 方透=以編燈74、76中的一個亮起,即指示侧臂 24缸26中的—㈣折角度過小^合格後,操 滑動檢測部52、56,使不合格側臂24、26發生彈性變开: ,越過對應的檢測柱566、526,以檢測另-側臂26、/4 =合格或彎折角度過大。同樣,當散熱器 :臂24、26彎折角度過大,合袼指示燈72不亮時;作 者可繼續滑動檢測部52、56, 二= 13 200827695 性變形而越過對應的檢測柱564、524,以在指示燈73哀 起後,透過指示燈75、77的亮起情況,確定哪一侧臂24= • 26的彎折角度過大。總之,因散熱器扣具2〇的侧臂μ、 26與檢測柱524、564、526、566接觸後,可發生彈性變 形越過對應的檢測柱524、564、526、566而不發生損傷, 操作者可根據需要決定在發現被測產品不合格時即停止劳檢 測’或者直接滑動檢測部52、56至檢測部56的感應鎖切 插入光電開關580的感應槽582中,光電開關 斷信號使指示燈73亮起後,再根據各指示燈72、%、7/、 %、77亮起的情況判斷散熱器扣具2〇的側臂μ 合格及不合格的原因。 疋 檢測…束後,操作者只需鬆開對檢 528的推動’檢測部-即可在彈簧576的回復力== 回:測前的位置’同時檢測部52在 ;: 其斷開,電氣押制⑽開關530而使 y 、电矹控制相80内的處理器停止運行。 的彎=度trr用於檢測其他為電導體的弯折零件 度來調整檢測部和檢測被:=牛的彎折形狀和角 件的檢測需要。為便於摔作起的含義’以料被測零 示燈可根據其表示察’指示燈板%上的各指 燈為綠色,不合料@設為不同顏色,如合格指示 豆他指干f ¥ 曰不且為紅色等。指示燈板70還可以為 /、他知不裝置所代替, 疋』Μ马 木用”、具不幕顯示、聲音報警等裝 200827695 置輸出檢測結果。 本發明檢測儀透過被測零件與檢測柱 •斷被測零件的彎折自择s 、,4 』丨月况术判 _ 角又疋否&格,亚透過處理器將檢測紝 綱,顯示於指示燈板,從而有效避免了人工檢測的: 檢,同時提高了檢測效率。 、、 利申:ϋ述、’本發明符合發明專利要件,爰依法提出專 明,以上該者僅為本發明之較佳實施方式,舉凡 无…本案技藝之人士,在爰依本發明 或變化,皆應涵蓋於以下之申請專利範圍内。之4放修飾 【圖式簡單說明】 立趙本發明檢測儀較佳實施方式與一散熱器扣具的 本發明檢測儀較佳實施方式所檢測的 具的正視圖。 圖3係本發明檢測儀較佳實施方式所 具的左視圖。 圖4係本發明檢測儀較佳實施方式 具的仰視圖。 舣…™和 ^係本發明檢測儀較佳實施方式的另一方向視圖, ,、中的電氣控制箱未示出。 體jrtr檢测儀較佳實施方式與散熱器扣具的立 體組合圖,其中的電氣控制箱未示出。 圖7係本發明檢測儀較佳實施方式檢測散熱器扣具的 15 200827695 過程圖,其中的電氣控制箱未示出。 圖8和圖9係圖7的不同方向視圖。 圖10係本發明檢測儀較佳實施方式用於檢測兩側臂 彎折角度過大的散熱器扣具的最終狀態圖,其中的電氣控 制箱未示出。 圖11和圖12係圖10的不同方向視圖。 【主要元件符號說明】200827695 IX. DESCRIPTION OF THE INVENTION: TECHNICAL FIELD The present invention relates to a detector, and more particularly to a detector for detecting whether a bending angle of a workpiece to be tested is acceptable. [Prior Art] In actual production, the bending angle of many parts is required to be within a certain range. If the angle is too large or too small, it will become an unqualified product due to its influence. For example, in the computer for fixing the heat sink, the arms on both sides and the angle between the axis and the symmetry of the two angles directly affect the heat sink and the heat sink element, and the tightness of the fit, thereby affecting the components to be cooled The heat dissipation and the service life. In the wisdom technology, in order to judge whether the symmetry of the angle between the two I-axis of the heat sink clip and the angle value of the angle are within the acceptable range, the parts are placed on the limit angle gauge, and the two sides of the eye through the operator's naked eye are observed. Whether the f piece is qualified within the limit angle of the gauge. However, the efficiency of such a detection method = the difference between the zero factor and the judgment angle of view is easy to cause a false positive 'causes = 砚 qualified product, thereby causing the heat dissipation effect of the heat dissipation component: not causing a performance defect of the computer. Therefore, it is necessary to provide a detector to eliminate the above-mentioned defects. [Summary of the Invention] ' ° 鐾 In the above internal, it is necessary to provide a detector that can measure the angle of the part to be tested. °Place and accurately check 200827695 A detector for detecting the bending angle of the part to be tested is the grid, the part to be tested is an electrical conductor, and the detector includes __check^ > a fixing frame for fixing the component to be tested, at least one detecting portion for detecting a folding angle of the measured component, an indicating device for outputting the detection result, and an electric control box for processing the n, the detecting portion being slidable on the detecting platform by $, The detecting portion includes a long detecting column and a short detecting column for detecting whether the f-folding angle of the tested component exceeds the qualified range, and the benefit in the electrical control box is based on the long lung detection and short inspection (four) of the (four) portion. Whether the part is in contact with the 'control indicating device indicates whether the bending angle of the tested part is qualified. Compared with the prior art, the detector determines whether the bending angle of the tested part is qualified by the contact condition of the tested part and the detecting column. And outputting the detection result to the pointing device through the processor, thereby effectively avoiding the false detection of the manual detection and improving the detection efficiency. [Embodiment] Referring to FIG. 1, a better embodiment of the detector of the present invention is provided. The method is used for detecting whether the bending angle of the tested component is qualified. In the embodiment, the j-shaped member is the political thermal state buckle 20. The detector includes a detecting station 3〇, a fixed=40, and a detecting assembly. An indicator board 7〇 and an electrical control box 80 having a processing benefit therein. Referring to FIG. 2 to FIG. 4, the heat sink clip 2 is an electrical conductor, which includes two rods, 22 and two side arms 24, The middle portion of the rod body 22 is offset in parallel with a pin P 222, and the four-fold portion 222 and the other portions of the rod body 22 together define a " face arms 24, 26 respectively from the ends of the rod body 22 Bending portion 222 200827695. Different sides of the plane defined together with other portions of the rod body 22 are bent, and the two sides • arms 24, 26 are perpendicular to the rod body 22, respectively, and have the same acute angle as the plane ^the acute angle A is Within the specified range, the tightness of the heat sink and the heat-receiving element is directly affected, and the acute angle is the angle to be detected. Each side arm 24, 26 is provided with a bent buckle portion away from the end of the rod body 22. Μ], %. Used to fasten with other parts to fix the corresponding heat sink. Please refer to Figure 5 and Figure 8, The measuring platform Ιο is a plate body supported by four feet 32 springs, and other components of the detecting device are arranged on the detecting table. The fixing frame 40 1 is located at the middle of the detecting table 3G, and the lower portion thereof comprises a vertical surface, the vertical surface Two pairs of the protrusions 42 are protruded, and a receiving groove 422 is formed between each pair of the protrusions 42. The two sides of the fixing frame 40 are respectively provided with a lug 424, 425, and each of the lugs 424, 425 respectively extends - The protrusion 428 has an elongated groove strip on the left lug 424. The upper edge of the two protrusions is in line with the lower edge of the two receiving slots 422, and is used to support the radiator buckle when detecting. The rod body 22 has 20. The upper part of the fixing frame is connected via a pivot joint with a handle 44 and a cantilever jaw of the free end of the pressing block 46. The bottom surface of the pressing block 46 is a flat surface for detecting and fixing the heat sink clip 20 when inspected. The handle 44 is pivotally coupled to the cantilever 48 to pull the handle material to move the compression block 46 through the cantilever 48. The lower part of the fixing frame buckle is provided with a grounding lead. (The figure is not improperly disposed. When the fixing device 2 is fixed to the fixing frame, the heat sink fastening device 20 is grounded through the fixing frame 4〇. The detecting assembly includes the linkage-linking rod 50 linkage connection. Two detecting portions 仏 56. The middle portion of the linkage rod 50 is pivotally connected to the bottom surface of the detecting table 3〇. The two ends of the linkage rod 50 are respectively provided with a sliding groove 5〇2. The two detecting portions 52, 200827695 56 are slidably mounted respectively. The pillars 522 and 562 are respectively protruded from the bottom surfaces of the bases of the detecting portions 30 and 56. The pillars 522 and 562 are respectively received by the linkage rod 50. In the corresponding sliding slot 502, the two detecting portions 5 2, 5 6 are connected in linkage. The bases of each detecting portion 5 2, 5 6 are respectively provided with an insulating block 523, 563, and the insulating blocks 523, 563 are respectively provided with a long one. The detection columns 524, 564 and a shorter detection column 526, 566, wherein the shorter detection columns 526, 566 are closer to the holder 40. The heights of the detection columns 524, 564, 526, 566 are based on heat dissipation. Determining the critical value of the acceptable angular range of the clip 1020, each detection post 524, 5 The bottoms of the 64, 526, and 566 wires are connected to the electrical control box 80, and the leads are respectively connected to a high level, and insulated from the detecting station 30 and the fixing frame 40 through the insulating blocks 523 and 563. The detecting portion 52 is adjacent to the detecting column. One end of the 524 is provided with a pushing block 528 to push the pushing block 528, and the detecting portion 52 can slide on the detecting table 30, and simultaneously slides the detecting portion 56 through the linkage rod 50. The bottom surface of the detecting table 30 is provided in contact with the detecting portion 56. The stroke switch 530, when the detecting portion 56 starts to slide, the detecting portion 56 no longer contacts the stroke switch 530, the stroke switch 530 can be turned on to generate a trigger signal, and the processor in the electrical control box 80 starts to operate. The detecting portion 56 is adjacent to the detecting portion 56. One end of the measuring column 566 is provided with a bump 568. The protruding block 568 extends from a guiding post 570 parallel to the surface of the detecting table 30. The free end of the guiding post 570 is a thin sensing pin 572. The detecting portion 56 is fixed at a distance from the top block 574, and a through hole is formed in the topping block 574 for guiding the guiding column 570. The guiding column 570 is sleeved with a magazine 576, and both ends of the spring 576 are disposed. Abut the top bump 568 and the abutting block 574. The detecting station 3 A photoelectric switch 580 is disposed at a distance from the top block 574 at a distance of 200827695, and an induction 'slot 582 is disposed in the middle of the photoelectric switch 580. When the induction pin 572 of the guide post 570 is inserted into the sensing slot 582, the photoelectric switch 580 A blocking signal is generated. The indicator board 70 is disposed at a corner of the detecting station 30 close to the operator for the operator to observe. The indicator board 70 is connected to the processor in the electrical control box 80 for outputting the processor. The result of the operation. The indicator board 70 is provided with seven indicator lights 71, 72, 73, 74, 75, 76, 77. Among them, the indicator light 71 is a power indicator light, and the light is on to indicate that the detector is powered. The indicator light 7 2 is a qualified indicator light. When the detection columns 526 and 566 are both maintained at a high level and the detection columns 524 and 564 are both turned low, the indicator light 72 is illuminated to display two of the measured heat sink clips 20 The side arms 24, 26 are fully qualified. The indicator light 73 is a stroke indicator light, and the light is on indicating that the induction pin 572 of the guide post 570 has been inserted into the sensing slot 582. The indicator lights 74, 75, 76, and 77 are respectively angle-qualified indicator lights, and the lights are on, indicating that the bending angles of the side arms 24, 26 of the heat sink clip 20 are unqualified, wherein when the detecting column 526 becomes a low level, the indicator light 74 is lit and the 0 side arm 26 bending angle is too small. When the detecting column 566 becomes low level, the indicator light 76 lights up and the bending angle of the side arm 24 is too small, when the sensing pin 572 of the guiding post 570 is inserted. When the sensing slot 582 and the detecting post 524 are still maintained at a high level, the indicator light 75 lights up to indicate that the bending angle of the side arm 26 is too large, when the sensing pin 572 of the guiding post 570 has been inserted into the sensing slot 582 and the detecting post 564 remains high. When the indicator light 77 is lit, the bending angle of the side arm 24 is too large. Referring to Figures 6 through 9, when detecting, the detector is powered on and the indicator 71 is illuminated to indicate that the power is on. The heat sink clips 20 are placed in the two receiving slots 422 of the mounting frame 40. The protrusions 428 and the receiving slots 422 support the dispersing 11 200827695. The handle 44 is pressed to press the pressing block 46 against the cup 22 of the radiator clip. The rod body 22 shown in FIG. 6 includes a bent portion 222 which is completely attached to the side of the hook 乂 radiator clip 20 which is attached to the bottom of the tamping frame 40. The arms 24, 26 are respectively suspended, wherein the side inspection 24 passes through the recess 426 of the mounting bracket 4 to prevent the radiator buckle from sinking in the longitudinal direction of the Γ Γ 固 2 2 . At this point, the heat sink buckle is grounded. Pushing the pushing block of the detecting portion 52, the direction of the near-lighting plate 7G slides, and the interlocking lever detecting portion 56 slides in the direction close to the photoelectric switch to turn off the C-turn 530 to generate a trigger signal, and the electrical control box "IS starts recording. The electric detection of the detection columns 524, 564, 526, 566 is operated to cause the corresponding indicator lights 72, 73, 74, 7 to detect the result. The detection unit 5 2, 5 6 slides the # # to display eight, &; soil, 6 / month moving through the sputum, its detection column 526, 560 knives, mouth # near the radiator buckle 2 〇 corresponding side arms 26, 24 square if the radiator buckle 20 grass is also 丨 0 #近' The inspection of the enchantment of the library is too small, the angle of the bend is too small, the pair of (four) columns 566, 526 will be with the unqualified side of the radiator buckle 2 〇 and fixed sub-turbo, Lu Wei when the L method 40 grounding and changing from 鬲 level to low power: processing benefits this situation feedback so that the corresponding side arm 24, the rut is too small, the two indicators 74, 76η: ΓΓΓ, 26 are The angle is forested. ^ f 76 with the dead shell; the radiator clip 20 is the end of the work. If the detected heat sink fastener 2 production mouth, check The test column 526, 566 jiang; ce horse. 4 below the through, check 洌, 5 Γ the side arms 26, 24 and the self-biasing \ heart 52, 56 continue to slide until the detection of Gui 524, 564 respectively contact the corresponding side arm 26, 24 becomes low level, and the second 12 200827695 does not light 72, indicating that the tested product is qualified, the detecting portion 52, % stops sliding, and the detecting operation ends. If one side arm 24, 26 of the radiator clip 20 If the bending angle is too large, the corresponding detection columns 564, 524 will not contact the non-engaging side arms 24, 26 to maintain a high level, and the indicator light 72 is not bright, so that the product is unqualified. Please continue to refer to FIG. 10 to FIG. If the arms 24, 26 on both sides of the heat sink clip 20 are too large, the detection posts 564, 524 will not touch the corresponding side arms 24, 26 and pass underneath, the detection portion", the brother continues to slide until the detection The sensing pin 572 of the portion 56 is inserted into the sensing slot 582 of the photoelectric opening 58 ,, and the photoelectric switch 58 〇 generates a blocking signal so that the indicator light is illuminated to indicate the end of the operator's detection, and the processor maintains the image according to the detection column and the secretion. High level causes the indications 675, 77 to illuminate, indicating that the heat sink buckle is on both sides of the arm 26, 24 bending angles are too large. 8. After the detecting portions 52, 56 are sliding, the side arms 24, 26 of the heat sink clip 2 are in contact with the detecting posts 524, 564, 汹, 566, and the money author's succession detecting portion 52 'heat sink clips The side arms 24, 26 of 20 will be slightly elastically deformed to allow the detection posts 524, 5, like, fine to pass through = to illuminate one of the braids 74, 76, i.e. to indicate the side arm 24 cylinder 26 After the pass angle is too small, the slide detecting portions 52, 56 are operated to elastically open the unqualified side arms 24, 26: over the corresponding detection columns 566, 526 to detect the other side arm 26, / 4 = Pass or bend angle is too large. Similarly, when the heat sink: the arms 24, 26 are bent too far, and the closing indicator 72 is not bright; the author can continue to slide the detecting portions 52, 56, two = 13 200827695 deformed and crossed the corresponding detecting columns 564, 524, After the illuminating of the indicator light 73, it is determined by which the light-emitting indicators 75, 77 are lit to determine which side of the arm 24 = • 26 is too large. In short, after the side arms μ, 26 of the heat sink clip 2 are in contact with the detecting posts 524, 564, 526, 566, elastic deformation can occur over the corresponding detecting columns 524, 564, 526, 566 without damage. If necessary, the device may decide to stop the detection when the product under test is found to be unsatisfied or directly slide the detecting portion 52, 56 to the sensing slot 582 of the detecting portion 56 to be inserted into the photoelectric switch 580. After the lamp 73 is lit, the cause of the side arm μ of the heat sink clip 2〇 is judged to be unqualified according to the situation in which the indicator lamps 72, %, 7/, %, 77 are lit. After detecting the bundle, the operator only needs to release the push of the check 528 'detection section - the restoring force at the spring 576 == back: the position before the test' while the detecting portion 52 is in;: its disconnected, electrical The switch 530 is pressed (10) to stop the processor in the y, power control phase 80. The bend = degree trr is used to detect the degree of bending of the other electrical conductors to adjust the detection portion and the detection is: = the bending shape of the cow and the need for the detection of the corners. In order to facilitate the meaning of the fall, the zero indicator light can be measured according to its indication. The indicator lights on the indicator board % are green, and the non-conformity @ is set to different colors. Oh, not red, etc. The indicator board 70 can also be replaced by /, he knows that the device is not used, 疋 Μ Μ 木 ” 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 • The bending of the part to be tested is determined by s, 4, 丨 况 况 _ _ 角 角 角 角 角 角 角 角 角 角 角 角 角 角 角 角 角 角 角 角 角 角 角 角 角 角 角 角 角 角 角 角 角 角 角 角 角The inspection also improves the detection efficiency. ,, Lishen: narration, 'The invention meets the requirements of the invention patent, and the specifics are stipulated according to law. The above is only the preferred embodiment of the present invention. The person in charge of the present invention or the changes thereof shall be covered by the following patent application. The 4th modification [simplified description of the drawing] The preferred embodiment of the invention of the invention and the heat sink fastener 3 is a front view of a preferred embodiment of the detector of the present invention. Fig. 4 is a bottom plan view of a preferred embodiment of the detector of the present invention. TM and ^ Another aspect of the preferred embodiment of the detector of the present invention is not shown in the electrical control box. A three-dimensional combination of a preferred embodiment of the body jrtr detector and the heat sink clip, wherein the electrical control box is not Figure 7 is a process diagram of a preferred embodiment of the detector of the present invention for detecting a heat sink clip 15 200827695, wherein the electrical control box is not shown. Figures 8 and 9 are different orientation views of Figure 7. A preferred embodiment of the detector of the present invention is used to detect a final state diagram of a heat sink clip having an excessively bent angle of both arms, wherein the electrical control box is not shown. Figures 11 and 12 are different orientation views of Figure 10. [Main component symbol description]
散熱器扣具 20 .桿體 22 彎折部 222 側臂 24、26 卡扣部 242 ^ 262 檢測台 30 腳 32 固定架 40 凸塊 420 ^ 568 收容槽 422 凸耳 424 、 425 凹槽 426 凸柱 428 手柄 44 壓緊塊 46 懸臂 48 聯動桿 50 滑槽 502 檢測部 52、56 柱體 522 > 562 絕緣塊 523 、 563 檢測柱 524 、 526 、 564 ^ 566 推動塊 528 行程開關 530 導引柱 570 感應銷 572 抵頂塊 574 彈簧 576 光電開關 580 感應槽 582 16 200827695Radiator clip 20. Rod 22 Bending 222 Side arm 24, 26 Buckle 242 ^ 262 Test stand 30 Foot 32 Fixing bracket 40 Bump 420 ^ 568 Receiving groove 422 Lug 424, 425 Groove 426 Post 428 Handle 44 Pressing block 46 Cantilever 48 Linking rod 50 Chute 502 Detection part 52, 56 Column 522 > 562 Insulation block 523, 563 Detection column 524, 526, 564 ^ 566 Push block 528 Travel switch 530 Guide post 570 Induction pin 572 Abuts block 574 Spring 576 Photoelectric switch 580 Induction slot 582 16 200827695
V 指示燈板 70 Λ 指示燈 71、72、73、74、75、76、77 • 電氣控制箱80V indicator board 70 Λ Indicators 71, 72, 73, 74, 75, 76, 77 • Electrical control box 80
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