五、新型說明: 【新型所屬之技術領域】 本新型是有關於一種物件檢測設計,特別是指一種 物件彎曲檢測裝置。 【先前技術】 參閱圖1、圖2 ’習知物件檢測裝置i包含有一機台 U,一設於該機台12上轉動之轉盤12, 一設於該轉盤12 一側且擷取待測件2影像之攝影組13,一設於該轉盤12 一側輔助該攝影組13影像擷取之檢測光源14(圖中以簡圖 表不),一與該攝影組13連結並將擷取影像進行分析之運 算裝置15,以及一設於該機台u上之壓頭偵測器16;其 中,該壓頭偵測器16係由一偏心機構161、昇降組162、 固定桿組163及壓掣組164所構成;另,該偏心機構ΐ6ι 具有一設於該轉盤12下方之偏心輪1611,及一與該偏心 輪1611相鎖固之偏心機構拉桿1612,另,該昇降組162 係與該偏心機構161連接,其具有一第一、第二昇降桿 1621、1622’及兩端各與該第一、第二昇降桿1621、1622 鎖固之拉動昇降桿1623,又,該固定桿組163係具有一固 定桿1631,及二端分別與該第二昇降桿1622、固定桿i63i 相鎖固之頂昇桿1632,至於,該壓掣組164係具有一設該 機台11上之探測組頭1641,及一可壓掣於該待測件2上 之壓頭1642。 是以檢測時,當該轉盤12將該待測件2傳送至檢測 位處時,該壓頭1642即會在該探測組頭1641帶動下壓掣 3 於該待測件2之頭部’同時該固定桿1631亦會在該偏心 機構⑹之作動下卿於該待測件2之端部上,俾使該待 測件2固&於該轉冑12間,經該檢測光源14、攝影組η 及運异裝i 15將該待測件2之影像操取並進行處理、 分析’如此即完成該待測件2之牙長、螺距亦或螺紋角度 等之檢測作業。 惟,實際使用後發現,受限該壓頭㈣器16係為— 固定該待測件2於該轉盤12上之設計因素,導致該檢測 裝置1僅能進行-般該待測件2之牙長、螺紋間距等等之 檢測而已,故對於該待測件2之桿體_曲即無法進行檢 測,實有待改進。 有鑒於此亦有業者另針對該桿體彎曲檢測加以開 發’即如目3所示,亦即該檢測裝置3包含有一機台3ι, 一設於該機台31上之轉盤32,以及一設於該轉盤32 一側 可針對該待測件2進行檢測之檢測單元33,前述該待測件 2可為一桿件,螺絲,螺桿、螺釘或釘子等;其中,該檢 測單70 33係由一抵撐座331、一橫移機構332、一昇降機 構333、一頂推件334及一判別機構335所組成,而前述 該橫移機構332具有一固定座3321,—可於該固定座3321 上滑移之連桿3322,一設於該連桿3322 —端上並受該連 桿1322往復作動之靠座1323,及一設於該連桿1322另一 端上之遮光座1324,同時該靠座1323具有一容件槽a,再 者’該昇降機構333具有一壓頭3331。 檢測時,該每一待測件2經該轉盤32移動至進行檢 剛處時’㈣頭3331即會受該昇降單元333移動向下位 移,以使該壓頭3331壓掣於該待測件2之上端上藉以 壓住穩定使該待測件2不致偏移,此時該靠座加則藉 由該連桿3322之滑移朝該待測件2之桿體21,使該桿^ 21可容置於該容件槽a内部,而該遮光座3324之端部即 會伸入該判別機構335内,並遮蔽該判別機構335之光 源’此時該待測件2的桿體21彎曲度係數標準,該判別 機構335即會輸出一符合標準之訊號,反之,若已檢測後 該待測件2的彎曲度係為異常,該1323的容件槽& 便無法套合該待測件2,同時該容件槽a亦無法貼靠於該 抵樓座331面上,同時彎曲異常的該待測件2與該抵撐座 331面間便具有一間距,使該判別機構335便會輸出一不 符合標準之訊號輸出,如此便完成該等待測件2彎曲度的 檢測作業。 然,實際使用後發現,檢測過程中,該靠座3323係 經該連桿3322作往復的移動,將該待測件2之桿體21夾 合其中,並貼靠於該抵撐座331上’因此不但移動速度慢, 同時亦會造成該遮光座3324之端部伸入該判別機構335 過程會有誤差產生’再者’若該待測件2之彎曲幅度大於 該容件槽a内部,同樣亦會影響該靠座3323之移動以及該 判別機構335的判別’且由於進行檢測時僅能移動該靠座 3323 ’使該待測件2之桿體21容置其中並貼靠該抵撑座 331面上,因此受限於該靠座3323之容件槽&之單一設 δ十,故僅旎適用於單一尺寸作該待測件2之桿體2檢測而 已,惟對於各種款式之該等待測件2,諸如直徑較為寬大 者’就必須再備置多種適用各尺寸之該等靠座3323更換 使用,如此便會造成使用上之不便,同時檢測過程中,亦 會党限該待測件2彎曲變形處之不同,而使該待測件之無 法有效被夾合住,更增加使用上之不便,實有待改善。 【新型内容】 因此,本新型之目的是在提供一物件彎曲檢測裝置, 其利用辅助裝置使待測件得以有效且快速達到彎曲度之 檢測,同時亦得以適用各種規格之待測件進行檢測,大幅 提昇檢測品質及增加使用之方便性。 於是’本新型物件彎曲檢測裝置,其包含有一機△, 一設於該機台上轉動之轉盤’一設於該轉盤一側且擷^待 測件影像之攝m於該㈣___助該攝影組影像 擷取之檢測光源,一與該攝影組連結並將擷取影像進行分 析之運算裝置’以及一設於該攝影組與檢測光源間之輔助 裝置;其中,該輔助裝置一設於該轉盤上方之壓掣組,以 及一與該壓掣組相對應且設於該轉盤下方之頂掣組,利用 該頂掣組與壓掣組上下夾持該待測件狀態,藉以判別該待 測件之彎曲度檢測;是以,前述檢測模式可針對不同規格 尺寸’無需另行備置不同夾持模具,即使該待測件呈不規 則形狀,亦可配合該檢測光源檢測輔助判別,更増加使用 之方便性與提昇檢測品質。 【實施方式】 有關本新型之技術内容、特點與功效,在以下配合參 M443846 考圖式之較佳實施例詳細說明,將可清楚明白。 參閱圖4,本新型之一較佳實施例’本實施例之物件 彎曲檢測裝置4包含有一機台41,一設於該機台41上轉 動之轉盤42,一設於該轉盤42 —側且擷取待測件5影像 之攝影組43,一設於該轉盤42 —側輔助該攝影組43影像 擷取之檢測光源44,以及一與該攝影組43連結並將操取 影像進行分析之運算裝置45;其中,前述該機台41、轉 盤42、攝影組43、檢測光源44及運算裝置45等構造, 均同於習知所述,不再詳述。 特別是,本實施例相對於該攝影組43與檢測光源44 間增設有一辅助裝置46,而該輔助裝置46具有一設於該 轉盤上方之壓掣組461,以及一與該壓掣組461相對應且 位於該轉盤42下方之頂掣組462 ;其中,本實施例該壓掣 組461具有一設於該機台41上之第一作動桿4611,以及 一設於該第一作動桿4611上且位於該轉盤42上方之壓掣 件4612,同時為使該壓掣件4612得以快速復歸,故於該 第一作動桿4611上穿設有一彈性件4613,以便該壓掣件 4612向下壓掣時,恰可頂掣該彈性件4613 ;另該頂掣 組462具有一設於該機台41上之第二作動桿4621,以及 一設於該第二作動桿4621上且位於該轉盤42下方之定位 件4622,另外該第二作動桿4621上亦穿設有一彈性件 4623,且該彈性件4623可使該定位件4622向上彈出,同 時前述該壓掣件4612與該定位件繼位置可依據該轉盤 42上所傳送之不同該等待測件5尺寸進行適當間距調整。 7 M443846 再者’前述該第-、第二作動桿46u、4621除前述之 構造設計外,當然亦可採氣壓式(圖中未示出)作動方式為 之,均是帶動該壓掣件4612與該定位件4622產生位 :於該動作方式相同,而本實施例以下之動作說明,僅以 前述構造加以詳述。 ,該寺得測件5進行檢測時,藉該轉盤“依 序將該每-待測件5傳送至檢測處,此時置於該轉盤U 7方之該定位件4622即會產生位移,即如本實施例中該 定位件4622在該第二作動桿彻的連動下,將該待測^ 1予以頂推至該Μ掣件4612下方,同時該待測件$受到該 疋位件4622的頂推’而無法頂孽該壓孽件4612時,此時 該屋掣件4612則無法與該定位件4622同步產生位移,即 ^該待測件5與該定位件4622、塵掣件係為不同 轴心,同時該待測件5的彎曲度已超越標準值之不良品(即 圖5所不)’反之’若該定位件繼與虔掣件4612夹持後 :同步產生位移,即表示該待測件5與該定位件彻、屡 件伯2係為同轴心,且其f曲度係屬標準值内之良品 ,® 7所不)’再者,檢測時亦會有另—狀況產生, ~待測件5 f曲度超出標準值,但受到該定位件4622 頂推時亦頂f到該_件衝’使㈣掌件4612與該定 ::同步生位移,此時便可再藉由該攝影組4 3輔助 —入々:、(即如圖8所示)’故檢測過程中,不會有檢測不 ^障事產生’且針對所摘取之影像經該運算裝置衫 理與刀析、判斷該每一待測件5之脊曲度係為符合 8 標準值内之要求,而後即依據所得之判斷結果,進行分選 集收作業’如此便可完成該等待測件5之彎曲度檢測作業。 是以,在使用上,透過該轉盤42上、下方具有該壓 掣組461與頂掣組462上下夾持該待測件5狀態之設計, 利用此檢測模式可針對不同規格尺寸,無需另行備置^種 不同夾持模具,即可因應各種不同規格之該待測件5的檢 測要求,即使該待測件5呈不規則形狀,亦可配合該攝影 組輔助判別檢測,皆可使該每一待測件5有效、且快速進 行彎曲度檢測,故不但有效提升該每一待測件5檢測之判 斷與正確性,更增加使用之方便性。 參閲圖9,本新型另一較佳實施例,仍包含有前一實 施例所述之構件,在本實施例中,特別於該壓掣件4612 上設有一感應器4614(圖中以簡圖表示),因此當該定位件 4622與壓擎件4612上下夾持該待測件5時,藉由該感應 器4614有無被該待測件5遮擋住,進而得以判斷該待測 件5之彎曲度;是以,若該感應器4614無法受到該待測 件5的遮擋,則該待測件5之彎曲度已超越標準值之外, 即該定位件4622與壓掣件4612便不會再帶動該待測件5 進行後續檢測;反之,若夾持該待測件5時,該壓掣件4612 中之該感應器4614受到遮擋,即表示該待測件5與該定 位件4622、壓掣件4612為同軸心,其彎曲度無超出標準 值之外,便可再進行後續檢測作業的輔助判別,藉此更能 有效提升該每一待測件5檢測之判斷與正確性,更增加使 用之方便性。 M443846 歸納前述’本新型物件彎曲檢測裝置具有一設於轉盤 上方之壓掣組,以及一設於轉盤下方之頂掣組等結構設 計,且藉該壓掣組與該頂掣組得以在該轉盤傳送待測件的 過程_於上下位置央持該待測件,達到快速判別該待測件 之彎曲度外,並且前述檢測模式可針對不同規格尺寸,無 需另行備置不同夹持模具,即使該待測件呈不規則形狀, 亦可配合該檢測光源檢測輔助判別,更增加使用之方便性 與提昇檢測品質,確實能達到本新型之目的。 惟以上所述者,僅為說明本新型之較佳實施例而已, 當不能以此限定本新型實施之範圍,即大凡依本新型申請 專利範圍及新魏明㈣容所作之簡單的等效變化與修 飾,皆應仍屬本新型專利涵蓋之範圍内。 【圓式簡單說明】 圖1是習知物件檢測裝置i之示意圖; 圖2是該習知之局部構件動作示意圓; 圖3是習知物件檢測裝置3之示意圖; 圖4是本新型一較佳實施例之示意圖; 圖5至圖8是該較佳實施例之局部構件動作示意圖;及 圖9是本新型另一較佳實施例之示意圖。 【主要元件符號說明】 4 物件彎曲檢測裝置 41 機台 42 轉盤 43 攝影組 44 檢測光源 45 運算裝置 46 辅助裝置 10 M443846 461 壓掣組 462 頂掣組 4611 第一作動桿 4612 壓掣件 4613 彈性件 4614 感應器 4621 第二作動桿 4622 定位件 4623 彈性件 5 待測件 11V. New type description: [New technical field] The present invention relates to an object detection design, in particular to an object bending detection device. [Prior Art] Referring to FIG. 1 and FIG. 2, the conventional object detecting device i includes a machine U, a turntable 12 disposed on the table 12, and one side of the turntable 12 and drawing the device to be tested. The image capturing group 13 of the image is disposed on the side of the turntable 12 to assist the detecting light source 14 of the image capturing group 13 (not shown in the figure), and is connected with the shooting group 13 and analyzes the captured image. The computing device 15 and an indenter detector 16 disposed on the machine u; wherein the indenter detector 16 is comprised of an eccentric mechanism 161, a lifting group 162, a fixed rod group 163, and a compression group The eccentric mechanism ΐ6ι has an eccentric 1611 disposed under the turntable 12, and an eccentric mechanism pull rod 1612 that is locked with the eccentric 1611. The lift group 162 is coupled to the eccentric mechanism. The connecting member 161 has a first and second lifting rods 1621 and 1622' and a pulling lifting rod 1623 which is locked with the first and second lifting rods 1621 and 1622 at both ends. Further, the fixing rod group 163 has a fixing rod 1631, and the two ends are respectively locked with the second lifting rod 1622 and the fixing rod i63i Rod 1632, as the line pressure set 164 having a detent disposed on the probe set of the machine 11 of 1641, and a detent may be pressed to the indenter 2 on the 1642 test specimen. In the detection, when the turntable 12 transmits the device under test 2 to the detection position, the indenter 1642 will be pressed by the probe group head 1641 to the head of the device under test 2 while The fixing rod 1631 is also slid on the end of the to-be-tested component 2 under the action of the eccentric mechanism (6), so that the to-be-tested component 2 is fixed between the switch 12 and the detection light source 14 and the photography group. The η and the transporting device i 15 take the image of the device under test 2 and process it and analyze it. Thus, the detecting operation of the tooth length, the pitch or the thread angle of the device 2 to be tested is completed. However, after actual use, it is found that the restriction of the indenter (four) 16 is a design factor for fixing the to-be-tested component 2 on the turntable 12, so that the detecting device 1 can only perform the teeth of the device 2 to be tested. Since the detection of the length, the pitch of the thread, and the like is the same, the detection of the rod body of the member to be tested 2 cannot be performed, and improvement is required. In view of this, other manufacturers have developed the rod bending detection, which is shown in FIG. 3, that is, the detecting device 3 includes a machine table 3, a turntable 32 disposed on the machine table 31, and a setting. a detecting unit 33 for detecting the to-be-tested component 2 on the side of the turntable 32. The detecting component 2 can be a rod, a screw, a screw, a screw or a nail, etc., wherein the detecting unit 70 33 is composed of An abutment 331 , a traverse mechanism 332 , a lifting mechanism 333 , a pushing member 334 and a discriminating mechanism 335 , and the traverse mechanism 332 has a fixing seat 3321 , wherein the fixing seat 3321 can be used The upper sliding link 3322, a seat 1332 disposed on the end of the connecting rod 3322 and reciprocated by the connecting rod 1322, and a light blocking seat 1324 disposed on the other end of the connecting rod 1322, The seat 1323 has a container slot a, and the lifting mechanism 333 has a pressing head 3331. During the detection, when the test piece 2 is moved to the inspection position by the turntable 32, the (4) head 3331 is moved downward by the lifting unit 333, so that the pressure head 3331 is pressed against the test piece. The upper end of the second end is pressed to stabilize the object to be tested 2 without being offset. At this time, the seat is applied to the rod 21 of the member to be tested 2 by the sliding of the link 3322, so that the rod 21 The end of the light-shielding seat 3324 can be inserted into the discriminating mechanism 335 and shield the light source of the discriminating mechanism 335. At this time, the rod body 21 of the device under test 2 is bent. The degree coefficient standard, the discriminating mechanism 335 will output a signal conforming to the standard. Conversely, if the curvature of the device under test 2 is abnormal after the detection, the container slot & 1132 cannot fit the test. The member 2, at the same time, the container slot a can not be abutted against the surface of the abutment 331, and the space between the device 2 to be tested and the abutment 331 is abnormally curved, so that the discriminating mechanism 335 A signal output that does not conform to the standard is output, so that the test of waiting for the bending of the measuring piece 2 is completed. After the actual use, it is found that the seat 3323 is reciprocated by the connecting rod 3322 during the detecting process, and the rod 21 of the device to be tested 2 is clamped therein and abuts against the abutting seat 331. 'Therefore, not only the moving speed is slow, but also the end of the light-shielding seat 3324 is extended into the discriminating mechanism 335. There is an error in the process of generating a 'furrow'. If the bending depth of the device under test 2 is larger than the inside of the container slot a, The movement of the seat 3323 and the discrimination of the discriminating mechanism 335 are also affected, and only the seat 3323 can be moved due to the detection. The rod 21 of the device under test 2 is accommodated therein and abuts against the support. The 331 face of the seat is limited by the single groove δ of the seat groove & 3 of the seat 3323, so it is only suitable for the single body to be the rod 2 of the test piece 2, but for various styles. The waiting test piece 2, such as a relatively large diameter, must be replaced with a plurality of suitable seats 3323 for use in various sizes, which may cause inconvenience in use, and during the detection process, the party is limited to the test. The difference between the bending deformation of the piece 2 makes the test piece Shared folder method is effective, it adds to the inconvenience of using real room for improvement. [New content] Therefore, the object of the present invention is to provide an object bending detecting device which utilizes an auxiliary device to effectively and quickly achieve the detection of the bending degree, and is also applicable to the testing of the various parts to be tested. Greatly improve the quality of inspection and increase the convenience of use. Thus, the novel object bending detecting device comprises a machine △, a turntable disposed on the machine table is disposed on one side of the turntable and the camera image of the object to be tested is taken in the (four) ___ assisting the photography a detection light source for capturing an image, an operation device coupled to the photography group and extracting the image for analysis, and an auxiliary device disposed between the photography group and the detection light source; wherein the auxiliary device is disposed on the turntable The upper pressing group and the top group corresponding to the pressing group and disposed under the rotating plate, the top group and the pressing group are used to clamp the state of the workpiece to be tested, thereby discriminating the to-be-tested part The bending degree detection is that the foregoing detection mode can be different for different specifications. There is no need to separately set different clamping molds, even if the to-be-tested parts have an irregular shape, the detection light source can be used to detect and assist the discrimination, and the use is convenient. Sex and improve detection quality. [Embodiment] The technical content, features and effects of the present invention will be clearly explained in the following detailed description of the preferred embodiment of the reference model M443846. Referring to FIG. 4, a preferred embodiment of the present invention, the object bending detecting device 4 of the present embodiment includes a machine table 41, a turntable 42 disposed on the machine table 41, and a side of the turntable 42. The photographing group 43 for capturing the image of the image to be tested 5, the detecting light source 44 for capturing the image captured by the photographing group 43 on the side of the turntable 42, and the operation of connecting the photographing group 43 and analyzing the image for analysis The device 45; wherein the mechanism 41, the turntable 42, the photographing group 43, the detecting light source 44, the arithmetic unit 45, and the like are the same as those described in the prior art, and will not be described in detail. In particular, an auxiliary device 46 is disposed between the camera group 43 and the detecting light source 44, and the auxiliary device 46 has a pressing group 461 disposed above the turntable, and a pressing group 461. Correspondingly, the top set 462 is located below the turntable 42. The press set 461 of the embodiment has a first actuating rod 4611 disposed on the machine 41, and a first actuating rod 4611 is disposed on the first actuating rod 4611. The pressing member 4612 is located above the turntable 42 and the elastic member 4613 is disposed on the first operating rod 4611 so that the pressing member 4612 is pressed downward. The top member 462 has a second actuating lever 4621 disposed on the table 41, and is disposed on the second actuating lever 4621 and below the turntable 42. The positioning member 4622, the second actuating lever 4621 is also provided with an elastic member 4623, and the elastic member 4623 can eject the positioning member 4622 upward, and the pressing member 4612 and the positioning member can be positioned according to the position. The size of the waiting for the measuring piece 5 transmitted on the turntable 42 is Appropriate spacing adjustment. 7 M443846 In addition to the above-mentioned first and second actuating levers 46u and 4621, in addition to the above-mentioned structural design, it is of course also possible to adopt a pneumatic type (not shown) to actuate the pressing member 4612. The position of the positioning member 4622 is the same as that of the operation mode, and the following description of the operation of the present embodiment will be described in detail only with the above configuration. When the test piece 5 of the temple is tested, the turntable is sequentially conveyed to the detecting portion in sequence, and the positioning member 4622 placed on the turntable U 7 is displaced. In the embodiment, the positioning member 4622 pushes the to-be-tested 1 to the underside of the element 4612 under the joint action of the second actuation rod, and the device to be tested is subjected to the clamping member 4622. When the pressing member 4612 is not pushed up, the eaves member 4612 cannot be displaced in synchronization with the positioning member 4622, that is, the to-be-tested member 5 and the positioning member 4622 are Different axial centers, at the same time, the bending degree of the test piece 5 has exceeded the standard value of the defective product (ie, not shown in FIG. 5). If the positioning member is held after the clamping member 4612, the displacement is synchronously generated, that is, The test piece 5 and the positioning member are coaxial and the second piece is coaxial, and the f curvature is a good value within the standard value, and the ® 7 does not) 'again, there will be another when detecting - The condition is generated, ~ the curvature of the workpiece to be tested 5 f exceeds the standard value, but when the positioning member 4622 is pushed, the top f is also pushed to the _ piece to make the (four) palm member 4612 and the predetermined:: synchronous Displacement, at this time, it can be assisted by the camera group 4, (ie, as shown in FIG. 8), so during the detection process, no detection will occur, and for the extracted The image is subjected to the calculation and analysis of the operation device, and the ridge curvature of each of the DUTs 5 is determined to meet the requirements of the 8 standard values, and then the sorting and collecting operation is performed according to the judgment result obtained. The bending degree detecting operation of the waiting test piece 5 is completed. Therefore, in use, the design of the state of the device under test 5 is performed by the press group 461 and the top turn group 462 on the upper and lower sides of the turntable 42. The detection mode can be different in size and size, and it is not necessary to separately prepare different clamping molds, and the detection requirements of the test piece 5 of various specifications can be met, even if the test piece 5 has an irregular shape, The photographic group assisted discriminating detection can make the each test piece 5 effective and quickly perform the bending degree detection, so that the judgment and correctness of the detection of each test piece 5 can be effectively improved, and the convenience of use is further increased. Referring to Figure 9, another preferred embodiment of the present invention The embodiment further includes the member described in the previous embodiment. In this embodiment, a special inductor 4614 (shown in a simplified manner) is disposed on the pressing member 4612, so when the positioning member 4622 is When the pressure-receiving member 4612 clamps the device to be tested 5 up and down, the presence or absence of the sensor 4614 is blocked by the device under test 5, thereby determining the curvature of the device under test 5; The bending of the DUT 5 is beyond the standard value, that is, the positioning member 4622 and the pressing member 4612 will no longer drive the DUT 5 for subsequent detection; On the other hand, when the DUT 5 is clamped, the inductor 4614 in the pressing member 4612 is blocked, that is, the DUT 5 and the positioning member 4622 and the pressing member 4612 are concentric, and the curvature thereof is curved. If the standard value is not exceeded, the auxiliary discrimination of the subsequent detection operation can be performed, thereby more effectively improving the judgment and correctness of the detection of each of the components to be tested 5, and further increasing the convenience of use. M443846 summarizes the above-mentioned 'the object bending detection device has a compression set disposed above the turntable, and a top design group disposed under the turntable, and the press set and the top set are available on the turntable The process of transmitting the device to be tested _ holding the device to be tested in the upper and lower positions, to quickly determine the curvature of the device to be tested, and the foregoing detection mode can be different for different specifications, without separately providing different clamping dies, even if the The measuring piece has an irregular shape, and can also cooperate with the detecting light source to detect and assist the discrimination, thereby increasing the convenience of use and improving the detection quality, and can truly achieve the purpose of the novel. However, the above description is only for the purpose of illustrating the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, that is, the simple equivalent change made by the novel application scope and the new Weiming (four) capacity. And modifications should remain within the scope of this new patent. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of a conventional article detecting device i; FIG. 2 is a schematic view of a conventional component moving device; FIG. 3 is a schematic view of a conventional article detecting device 3; BRIEF DESCRIPTION OF THE DRAWINGS FIG. 5 to FIG. 8 are schematic views showing the operation of a partial member of the preferred embodiment; and FIG. 9 is a schematic view of another preferred embodiment of the present invention. [Main component symbol description] 4 Object bending detection device 41 Machine 42 Turntable 43 Photography group 44 Detection light source 45 Operation device 46 Auxiliary device 10 M443846 461 Pressure group 462 Top group 4611 First actuator rod 4612 Pressure member 4613 Elastic member 4614 sensor 4621 second actuating rod 4622 positioning member 4623 elastic member 5 member to be tested 11