201232002 六、發明說明: 【發明所屬之技術頌威】 ⑽01] 本發明涉及一種電子設備剩試裝置,尤其涉及一種電子 設備按鍵測試裝置° 【先前技術】 [0002] 按鍵面板作為行動電話、電腦、遊戲機等電子設備之輸 入設備,其品質優劣直接影響電子設備之操作,故於產 品生產過程中通常需要對按鍵面板上之每個按鍵進行性 能測試。 W)〇3] g知之按鍵功能測試操作—般_人王按壓按鍵而進行 測試。此種方式不但費時費卫、測試效率低,且由於人 工按壓時力度大小不—致,容易造成不必要之損耗,且 不易獲付準確之測試ι結果。 【發明内容】 _4]有黎於此,有必要提供—㈣率較高之择鍵測試裝置。 [00〇5]—種按鍵測試裝置,包括工作舞、驅動機構、支撐機構 及測試機構,所述驅動機構包#第—驅動單元及第二驅 動單元,所述第一驅動單元設置於所述工作臺上,所述 第二驅動單元設置於所述第一驅動單元上,且於所述第 一驅動單元之驅動下沿—第一方向移動,待測產品放置 於所述第二驅動單元上,且於所述第二駆動單元之驅動 下沿垂直於所述第一方向之第二方向運動,所述支撐機 構包括设置於工作臺兩側之二立柱及連接於二立柱之間 之橫樑,所述測試機構包括複數個測試氣缸,每一測試 氣缸包括缸體及活塞,該缸體固定於所述橫樑上,所述 1002004346-0 1〇_429 表單編號删! 帛4頁/共21頁 201232002 活塞之一端可伸縮地容置於缸體内,另一端則固定有相 應之按壓部,該活塞於該缸體之控制下沿垂直於所述第 一方向及第二方向之第三方嚮往復移動,並使該按壓部 以一定之力度按壓於所述待測產品上。 [0006] 本發明之按鍵測試裝置藉由設置該驅動機構,使得按鍵 測試裝置能夠實現於二維空間内移動,從而快速地對同 一按鍵面板上之複數個測試點進行測量。 【實施方式】 〇 [〇〇〇7]請一併參閱圖1 ’本發明較佳實施方式提供一種按鍵測試 裝置100,包括工作臺10、驅動機構2&、支撐機構30、 測試機構40、調節單元5〇及控制單元6〇。: [0008]請一併參閱圖2及圖3,所述工作臺10呈箱齄狀,該驅動 機構20設置於該工作臺丨〇之頂部,包括底板21、第一驅 動單元22及第二驅動單元23。該底板21大致呈矩形板狀 ’其固定於所述工作臺1〇乏頂部位置。該第一驅動單元 22設置於該底板21上,包括二底座221、第一滾珠絲杠 〇 222、第一電機223、二滑轨224及滑動部225。該二底座 221固定於該底板21上,且垂直該底板21設置。二底座 221相對設置’每一底座221上開設有一轉動孔2211,所 述轉動孔2211貫通該底座221。所述第一滾珠絲杠222大 致呈圓柱狀,其外形尺寸與該轉動孔2211相應,用於穿 設於該轉動孔2211内。該第一滾珠絲杠222之表面還設置 有複數螺紋(圖未示)。該第一電機223可為習知之飼服 電機,§玄第滾珠絲杠222之' —端同轴地套設於該第一電 機223之傳動軸(圖未示)上,用在於該第一電機223之驅 100102429 表單編號A0101 第5頁/共21頁 1002004346-0 201232002 動下’於所述轉動孔2221内轉動。 [0009] [0010] 該滑軌224大致呈矩形條狀’兩者分別設置於該底座221 之兩侧’且與該第一滾珠絲杠222平行設置。該滑動部 225大致呈矩形板狀,其朝向該滑轨224之表面中部位置 設置有一滑塊2251,該滑塊2251上開設有一貫通之滑動 孔2252 ’該滑動孔2252之内壁上設置有螺紋(圖未示) ’用於將所述滑塊2251穿設於第一滾珠絲杠222上,且與 該第一滾珠絲杠222上之螺紋相配合》該滑塊2251之兩側 分别設置有至少一裝配部2253,所述裝配部2253大致呈 矩形塊狀,其遠離該滑動部225之底部設置有與滑軌224 形狀及結構相應之裝配槽2254,用於與該滑軌224相配合 ’以將該滑動部225可滑動雎裝設於對應之滑軌224上。 如此,當所述第一滾珠絲杠222於該第一電機223之控制 下於所述轉動孔2211内轉動時,將驅動該滑塊2251沿所 述第一滾珠絲杠222滑動,進而帶動與該滑塊2251相連之 滑動部2 2 5沿所述滑執22 4 #動。 該第二驅動單元23設置於該滑動雜225上,可於該第一驅 動單元22之驅動下,沿圖4所示0-ΧΥΖ直角座標系之X轴 方向滑動。該第二驅動單元23包括二支撐部231、第二滚 珠絲杠232、第二電機233、二導軌234及承載部235。該 支撐部231裝設於該滑動部225遠離底板21之表面上,且 垂直該滑動部225設置。二支撐部231相對設置,每一支 撐部231上開設有一支撐孔2311,所述支撐孔2311貫通 該支撐部231。所述第二滚珠絲杠232大致呈圓柱狀,其 外形尺寸與該支撑孔2 311相應,用於穿設於該支禮孔 100102429 表單編號A0101 第6頁/共21頁 1002004346-0 201232002 2311内’且與該第一滚珠絲杠222垂直設置。該第二滾珠 絲杠232表面設置有複數螺紋(圖未示)。該第二電機 233可為習知之伺服電機,該第二滚珠絲杠232之一端同 轴地套設於該第二電機233之傳動轴(圖未示)上,用在於 該第二電機233之驅動下,於所述支撐孔2311内轉動。 [0011] 該導軌234大致呈直條狀,兩者分別設置於該支撐部231 之兩側,且與該第二滾珠絲杠232平行設置。該承載部 235大致呈矩形板狀,包括滑動面235a及與該滑動面 0 235a相對且相互平行設置之承载面235b。該滑動面235a 之中部位置設置有一連接塊2351,該連接塊2351上開設 有一貫通之連接孔2352,該連接孔2352之内壁上設置有 螺紋(圖未示),用於將所述連接塊2351穿設於第二滾 珠絲杠232上,且與該第二滚珠絲杠232上之螺紋相配合 。該連接塊2351之兩側分別設置有至少一安裝部2353 ’ 所述安裝部2353大致呈矩形塊狀,其遠離該承載部235之 底部設置有與導軌234形狀及結構相慮之安裝槽2354 ’用 Q 於與該導軌234相配合,以將該承載部235可滑動地裝設 於對應之導軌234上。如此,當所述第二滾珠絲私232於 該第二電機233之控制下於所述支撐孔2311内轉動時’將 驅動該連接塊2351沿所述第二滚珠絲杠232滑動’進而帶 動與該連接塊2351相連之承載部235沿所述導軌234滑動 ’即沿圖4所示0-ΧΥΖ直角座標系之Y軸方向潸動。所述承 載面235b上劃分有複數個承載區域236,每*·*•承載區域 236内均可放置一承載治具(圖未示),該承載治具用於 承載待測試之按鍵面板。 100102429 表單編號A0101 第7頁/共21頁 1002004346-0 201232002 [0012] 該第二驅動單元23還可包括二缓衝部237,所述缓衝部 237分別設置於所述導軌234之外側。每一缓衝部237包 括二安裝板2371及軸承2372。該二安裝板2371相對且相 互平行設置,該輛承2372藉由一轉轴2373可轉動地裝設 於該安裝板2371之間。當該承載部235沿所述第二導轨 234滑動時,該緩衝部237用於支撐該承載部235 ’且減 少該承載部235沿所述第二導執234滑動時產生之摩擦。 [0013] 請再次參閱圖1,該支撐機構30包括設於工作臺1 0上並位 於工作臺10兩側之二立柱31及橫樑32。該立枉31分別固 定於所述驅動機構2〇之兩側,且垂直該工作臺10設置。 該橫樑32大致呈矩形條狀,其連接於該二立柱31之頂端 之間’並與該立柱31構成大致呈“Π”形狀之結構。該 橫樑32之中部位置設置有一大致呈條狀板體之隔板321, 所述隔板321垂直該橫樑32設置,且將該橫樑32分割為二 個測試區域322。每一測試區域322内開設有至少一容置 孔323 〇 [0014] 該測試機構40包括複數個測試氣缸41,該複數個測試氣 缸41分成二組,分別容置於相應之測試區域322内之容置 孔323内。每一測試氣缸41包括缸體411及活塞412。該 缸體411固疋於所述容置孔323内。所述活塞412之一端 可伸縮地容置於缸體411内,另一端則穿過相應之容置孔 323,且從靠近所述驅動機構2〇之—侧露出。該活塞412 遠離缸體411之端部固定有相應之按壓部413。該活塞 412可於該缸體411之控制下沿圖4所示〇_χγζ直角座標系 之ζ軸方向上下往復移動,並使該按壓部413以預定之力 100102429 表單編號Α0101 第8頁/共21頁 1002004346-0 201232002 [0015] 度按壓於待測試之按鍵面板上。 可理解,該按壓部413之外側還套設一由塑膠等彈性材料 製成之彈性部414,用於避免按壓部413對按鍵面板造成 非疲勞損壞。 [0016] 該調節單元50設置於該工作臺1〇之側面上,包括一組氣 壓調節閥51、與氣壓調節閥51數量相應之啟動開關52及 與氣壓調節閥51數量相應之氣壓錶53。於本實施例中, 該組氣壓調節閥51之數量為1〇個,均用於調節所述測試 Ο 氣缸41之下壓力度。藉由分別調節每一氣壓調節閥51, 可使得該等測試氣缸41提供可調節之下壓力度(如 3Kg-50Kg),以適應不同類型之按鍵面板。當每一氣壓 調節閥51均調節完畢後,可藉由分別啟動相應之啟動開 關52,以控制該測試氣缸41以不同之力度分別施加於相 應類型之按鍵面板上。該氣壓錶53用於顯示測試氣缸41 之下壓力度值。 [0017] Ο 該控制單元60可為一觸控面板,設置於該工作臺1〇之側 面上,用於讓操作者輸入控制命令,如按鍵測試裝置1〇〇 對按鍵面板之按壓次數、按壓力度之大小及按壓頻率等 ,並將測試結果或控制命令進行相應之顯示。 [0018] 請一併參閱圖4,當需要對可檇式電子裝置之按鍵面板進 行測試時’首先將複數個該待測試之按鍵面板分別容置 於相應之承載治具内,並將該複數個承載治具分別放置 於相應之承載區域236内。接著根據待測之按鍵面板所需 承受之按屋力度,選擇具有相應按壓力度之啟動開關52 100102429 表單編號A0101 第9頁/共21頁 1002004346-0 201232002 。例如,當該組待測試之按鍵面板需要承受之按壓力度 為3Kg時,則找到顯示按壓力度值為3Kg之氣壓錶53。再 啟動與該氣壓錶53相應之啟動開關52,以使測試氣缸41 以一定之按壓力度(3Kg)按壓於該待測之按鍵面板之其 中一按鍵上。接著啟動該驅動機構20,使得該複數個待 測按鍵面板於該驅動機構20之驅動下沿圖中所示X軸及Y 轴方向移動,以使該測試氣缸41以相同之按壓力度(3Kg )對該待測之按鍵面板之剩餘按鍵依次進行按壓,進而 對該按鍵面板之所有按鍵均進行測試。最後將測試結果 傳送至該控制單元60進行顯示。 [0019] 可理解,本發明項所述之按鍵測試裝置100可對不同類型 之按鍵面板進行測試。測試時,僅需根據待測之按鍵面 板類型選擇不同類型之承載治具,並將承載治具放置於 相應之承載區域236内,同時根據該待測之按鍵面板所需 承受之按壓力度操作相應之啟動開關52即可。另外,本 發明之按鍵測試裝置100—次可測試複數個按鍵面板,測 試效率較高,且安裝方便。 [0020] 可理解,本發明按鍵測試裝置100中之底板21可省略,而 將所述第一驅動單元22直接設置於該工作臺10上。 [0021] 顯然,本發明之按鍵測試裝置100藉由設置該驅動機構20 ,使得按鍵測試裝置100能夠實現於二維空間内移動,從 而快速地對同一按鍵面板上之複數個測試點進行測量。 [0022] 綜上所述,本發明符合發明專利要件,爰依法提出專利 申請。惟,以上所述者僅為本發明之較佳實施例,本發 100102429 表單編號A0101 第10頁/共21頁 1002004346-0 201232002 明之範圍並不以上述實施例為限,舉凡熟悉本案技藝之 人士援依本發明之精神所作之等效修飾或變化,皆應涵 蓋於以下申請專利範圍内。 【圖式簡單說明】 [0023] 圖1為本發明較佳實施方式之按鍵測試裝置之分解示意圖 [0024] 圖2為圖1所示按鍵測試裝置中驅動機構之分解示意圖。201232002 VI. Description of the invention: [Technology of the invention] (10) 01 The present invention relates to an electronic device residual test device, and more particularly to an electronic device key test device. [Prior Art] [0002] A button panel is used as a mobile phone, a computer, The input device of an electronic device such as a game machine directly affects the operation of the electronic device. Therefore, it is usually required to perform performance test on each button on the button panel in the production process. W) 〇 3] g know the function of the button test operation - the general _ people press the button to test. This method is not only time-consuming and cost-effective, but also has low test efficiency, and it is easy to cause unnecessary wear and tear due to the strength of the manual press, and it is difficult to obtain accurate test results. [Summary of the Invention] _4] There is a Li, and it is necessary to provide - (4) a higher-value selective key test device. [00〇5] a button test device, including a work dance, a drive mechanism, a support mechanism, and a test mechanism, the drive mechanism package #第 drive unit and a second drive unit, the first drive unit is disposed in the a second driving unit is disposed on the first driving unit, and is driven in a first direction by the driving of the first driving unit, and the product to be tested is placed on the second driving unit. And moving in a second direction perpendicular to the first direction, driven by the second swaying unit, the support mechanism includes two uprights disposed on two sides of the workbench and a cross beam connected between the two uprights. The test mechanism includes a plurality of test cylinders, each test cylinder includes a cylinder and a piston, and the cylinder is fixed on the beam, the 1002004346-0 1〇_429 form number is deleted!帛4 pages/total 21 pages 201232002 One end of the piston is retractably received in the cylinder body, and the other end is fixed with a corresponding pressing portion which is perpendicular to the first direction and the second under the control of the cylinder The third direction of the two directions reciprocates, and the pressing portion is pressed against the product to be tested with a certain force. [0006] The button test device of the present invention enables the button test device to be moved in a two-dimensional space by setting the drive mechanism, thereby quickly measuring a plurality of test points on the same button panel. [Embodiment] 〇 [〇〇〇7] Please refer to FIG. 1 together. A preferred embodiment of the present invention provides a button testing device 100 including a table 10, a driving mechanism 2 & a supporting mechanism 30, a testing mechanism 40, and an adjustment Unit 5〇 and control unit 6〇. Referring to FIG. 2 and FIG. 3 together, the table 10 is in the shape of a box. The driving mechanism 20 is disposed on the top of the table, and includes a bottom plate 21, a first driving unit 22, and a second. Drive unit 23. The bottom plate 21 has a substantially rectangular plate shape, which is fixed to the top position of the table 1 which is lacking. The first driving unit 22 is disposed on the bottom plate 21 and includes two bases 221, a first ball screw 222, a first motor 223, two sliding rails 224, and a sliding portion 225. The two bases 221 are fixed to the bottom plate 21 and disposed perpendicular to the bottom plate 21. The two bases 221 are oppositely disposed. A rotating hole 2211 is defined in each of the bases 221, and the rotating hole 2211 penetrates the base 221. The first ball screw 222 is substantially cylindrical and has an outer dimension corresponding to the rotating hole 2211 for being inserted into the rotating hole 2211. The surface of the first ball screw 222 is also provided with a plurality of threads (not shown). The first motor 223 can be a conventional feeding motor, and the 'end end of the ball screw 222 is coaxially sleeved on the driving shaft (not shown) of the first motor 223 for use in the first The drive 223 of the motor 223 100102429 Form No. A0101 Page 5 / 21 page 1002004346-0 201232002 Moves under the rotation hole 2221. [0010] The slide rails 224 are substantially rectangular strips ‘two are disposed on both sides of the base 221' and are disposed in parallel with the first ball screw 222. The sliding portion 225 has a substantially rectangular plate shape, and a slider 2251 is disposed at a central portion of the surface of the sliding rail 224. The sliding plate 2252 defines a sliding hole 2252. The inner wall of the sliding hole 2252 is provided with a thread ( (not shown) 'for inserting the slider 2251 on the first ball screw 222 and cooperating with the thread on the first ball screw 222 》the sides of the slider 2251 are respectively provided with at least a mounting portion 2253, the mounting portion 2253 is substantially in the shape of a rectangular block, and is disposed away from the bottom of the sliding portion 225 with a fitting groove 2254 corresponding to the shape and structure of the sliding rail 224 for cooperating with the sliding rail 224. The sliding portion 225 is slidably mounted on the corresponding sliding rail 224. When the first ball screw 222 is rotated in the rotating hole 2211 under the control of the first motor 223, the slider 2251 is driven to slide along the first ball screw 222, thereby driving The sliding portion 2 2 5 connected to the slider 2251 moves along the sliding gate 22 4 . The second driving unit 23 is disposed on the sliding 225, and is slidable in the X-axis direction of the 0-ΧΥΖ rectangular coordinate system shown in FIG. 4 by the driving of the first driving unit 22. The second driving unit 23 includes two supporting portions 231, a second ball screw 232, a second motor 233, two rails 234, and a bearing portion 235. The support portion 231 is mounted on the surface of the sliding portion 225 away from the bottom plate 21, and is disposed perpendicular to the sliding portion 225. The two support portions 231 are oppositely disposed. Each of the support portions 231 defines a support hole 2311. The support hole 2311 penetrates the support portion 231. The second ball screw 232 has a substantially cylindrical shape and has an outer dimension corresponding to the support hole 2 311 for inserting into the support hole 100102429. Form No. A0101 Page 6 / 21 pages 1002004346-0 201232002 2311 'And perpendicular to the first ball screw 222. The surface of the second ball screw 232 is provided with a plurality of threads (not shown). The second motor 233 can be a conventional servo motor, and one end of the second ball screw 232 is coaxially sleeved on a transmission shaft (not shown) of the second motor 233 for use in the second motor 233. Under the driving, it rotates in the support hole 2311. [0011] The guide rail 234 is substantially straight and disposed on both sides of the support portion 231 and disposed parallel to the second ball screw 232. The carrying portion 235 has a substantially rectangular plate shape and includes a sliding surface 235a and a bearing surface 235b disposed opposite to the sliding surface 0 235a and disposed in parallel with each other. A connecting block 2351 is defined in the middle of the sliding surface 235a. The connecting block 2351 defines a through hole 2352. The inner wall of the connecting hole 2352 is provided with a thread (not shown) for connecting the connecting block 2351. The second ball screw 232 is disposed on the second ball screw 232 and cooperates with the thread on the second ball screw 232. Each of the two sides of the connecting block 2351 is provided with at least one mounting portion 2353 ′. The mounting portion 2353 has a substantially rectangular block shape, and a mounting slot 2354 ′ that is opposite to the shape and structure of the guiding rail 234 is disposed away from the bottom of the supporting portion 235 . The rail 234 is mated with Q to slidably mount the carrier portion 235 to the corresponding rail 234. In this way, when the second ball 232 is rotated in the support hole 2311 under the control of the second motor 233, 'the connecting block 2351 will be driven to slide along the second ball screw 232' to drive and The bearing portion 235 to which the connecting block 2351 is connected slides along the guide rail 234, that is, it is tilted in the Y-axis direction of the 0-ΧΥΖ rectangular coordinate system shown in FIG. The bearing surface 235b is divided into a plurality of bearing areas 236, and each of the loading areas 236 can be placed with a bearing fixture (not shown) for carrying the button panel to be tested. 100102429 Form No. A0101 Page 7 of 21 1002004346-0 201232002 [0012] The second driving unit 23 may further include two buffer portions 237 which are respectively disposed on the outer sides of the guide rails 234. Each of the buffer portions 237 includes two mounting plates 2371 and bearings 2372. The two mounting plates 2371 are oppositely and parallel to each other, and the carrier 2372 is rotatably mounted between the mounting plates 2371 by a rotating shaft 2373. When the carrier portion 235 slides along the second rail 234, the buffer portion 237 serves to support the carrier portion 235' and reduces friction generated when the carrier portion 235 slides along the second guide 234. Referring again to FIG. 1, the support mechanism 30 includes two uprights 31 and beams 32 disposed on the table 10 and located on opposite sides of the table 10. The stand 31 is fixed to both sides of the drive mechanism 2, and is disposed perpendicular to the table 10. The beam 32 has a substantially rectangular strip shape and is connected between the top ends of the two columns 31 and has a substantially "Π" shape with the column 31. A partition 321 is formed in the middle of the beam 32. The partition 321 is disposed perpendicular to the beam 32, and the beam 32 is divided into two test areas 322. Each of the test areas 322 is provided with at least one receiving hole 323. [0014] The testing mechanism 40 includes a plurality of test cylinders 41. The plurality of test cylinders 41 are divided into two groups and are respectively accommodated in the corresponding test areas 322. The hole 323 is accommodated. Each test cylinder 41 includes a cylinder 411 and a piston 412. The cylinder block 411 is fixed in the receiving hole 323. One end of the piston 412 is telescopically received in the cylinder 411, and the other end passes through the corresponding receiving hole 323 and is exposed from the side close to the driving mechanism 2'. A corresponding pressing portion 413 is fixed to the end of the piston 412 away from the cylinder 411. The piston 412 can be reciprocated up and down in the direction of the x-axis of the 〇 χ χ ζ right angle coordinate system shown in FIG. 4 under the control of the cylinder 411, and the pressing portion 413 is numbered by a predetermined force 100102429 Α 0101 page 8 / total Page 21 1002004346-0 201232002 [0015] Press on the button panel to be tested. It can be understood that the elastic portion 414 made of an elastic material such as plastic is disposed on the outer side of the pressing portion 413 for preventing the pressing portion 413 from causing non-fatigue damage to the button panel. The adjusting unit 50 is disposed on the side of the table 1B, and includes a set of the air pressure adjusting valve 51, a starting switch 52 corresponding to the number of the air pressure adjusting valves 51, and a barometer 53 corresponding to the number of the air pressure adjusting valves 51. In the present embodiment, the number of the air pressure regulating valves 51 is one, which is used to adjust the pressure degree under the test 气缸 cylinder 41. By separately adjusting each of the air pressure regulating valves 51, the test cylinders 41 can be provided with an adjustable downward pressure (e.g., 3Kg - 50Kg) to accommodate different types of key panels. After each of the air pressure regulating valves 51 is adjusted, the corresponding starting switch 52 can be activated to control the test cylinders 41 to be applied to the corresponding types of button panels at different strengths. The barometer 53 is used to display the pressure degree value under the test cylinder 41. [0017] The control unit 60 can be a touch panel disposed on the side of the table 1 for allowing the operator to input control commands, such as the number of presses of the button test device 1 on the button panel, and pressing The magnitude of the force and the frequency of pressing, etc., and display the test results or control commands accordingly. [0018] Please refer to FIG. 4 together, when the button panel of the portable electronic device needs to be tested, 'firstly, a plurality of the button panels to be tested are respectively placed in the corresponding bearing fixtures, and the plural number is The bearing fixtures are respectively placed in the corresponding bearing areas 236. Then, according to the pressing force required by the button panel to be tested, select the start switch 52 100102429 with the corresponding pressing force. Form No. A0101 Page 9 of 21 1002004346-0 201232002. For example, when the pressing panel of the group to be tested needs to withstand a pressing force of 3 Kg, a barometer 53 showing a pressing force value of 3 Kg is found. The start switch 52 corresponding to the air pressure gauge 53 is restarted to press the test cylinder 41 against a button of the button panel to be tested with a certain pressing force (3 Kg). Then, the driving mechanism 20 is activated, so that the plurality of button panels to be tested are driven by the driving mechanism 20 to move in the X-axis and Y-axis directions as shown in the figure, so that the test cylinder 41 has the same pressing force (3Kg). The remaining buttons of the button panel to be tested are sequentially pressed, and then all the buttons of the button panel are tested. Finally, the test results are transmitted to the control unit 60 for display. [0019] It can be understood that the button testing device 100 of the present invention can test different types of button panels. When testing, it is only necessary to select different types of bearing fixtures according to the type of the button panel to be tested, and place the bearing fixture in the corresponding bearing area 236, and operate according to the pressing force required by the button panel to be tested. The start switch 52 can be used. In addition, the button testing device 100 of the present invention can test a plurality of button panels in a second time, and the testing efficiency is high, and the installation is convenient. [0020] It can be understood that the bottom plate 21 in the key testing device 100 of the present invention can be omitted, and the first driving unit 22 can be directly disposed on the work table 10. [0021] It is apparent that the button testing device 100 of the present invention enables the button testing device 100 to be moved in a two-dimensional space by providing the driving mechanism 20, thereby quickly measuring a plurality of test points on the same button panel. [0022] In summary, the present invention complies with the requirements of the invention patent, and submits a patent application according to law. However, the above description is only a preferred embodiment of the present invention, and the scope of the present invention is not limited to the above embodiments, and those who are familiar with the skill of the present invention are not limited to the above embodiments. Equivalent modifications or variations made in accordance with the spirit of the invention are intended to be included within the scope of the following claims. BRIEF DESCRIPTION OF THE DRAWINGS [0023] FIG. 1 is an exploded perspective view of a button testing device according to a preferred embodiment of the present invention. [0024] FIG. 2 is an exploded perspective view of a driving mechanism in the button testing device of FIG.
[0025] 圖3為圖1所示按鍵測試裝置中驅動機構另一角度下之分 解示意圖。 [0026] 圖4為圖1所示按鍵測試裝置之組裝示意圖。 【主要元件符號說明】 [0027] 按鍵測試裝置:100 [0028] 工作臺:10 [0029] 驅動機構:20 [0030] 支撐機構:30 [0031] 測試機構:40 [0032] 調節單元:5 0 [0033] 控制單元:60 [0034] 底板:21 [0035] 第一驅動單元:22 [0036] 第二驅動單元:23 100102429 表單編號A0101 第11頁/共21頁 1002004346-0 201232002 [0037] 立柱:31 [0038] 橫樑:32 [0039] 測試氣缸.41 [0040] 氣壓調節閥:51 [0041] 啟動開關:52 [0042] 氣壓錶:53 [0043] 底座:221 [0044] 第一滾珠絲杠:222 [0045] 第一電機:223 [0046] 滑軌:224 [0047] 滑動部:225 [0048] 支撐部:231 [0049] 第二滾珠絲杠:232 [0050] 第二電機:233 [0051] 導軌:234 [0052] 承載部:235 [0053] 承載區域:236 [0054] 缓衝部:237 [0055] 隔板:321 100102429 表單編號A010] 第12頁/共21頁 1002004346-0 201232002 [0056] 測試區域:322 [0057] 容置孔:323 [0058] 缸體:411 [0059] 活塞:412 [0060] 按壓部:413 [0061] 彈性部:414 [0062] f) 轉動孔:2211 [0063] 滑塊:2251 [0064] 滑動孔:2252 [0065] 裝配部:2253 [0066] 裝配槽:2254 [0067] 支撐孔:2311 [0068] Ο 滑動面:235a [0069] 承載面:235b [0070] 連接塊:2351 [0071] 連接孔:2352 [0072] 安裝部:2353 [0073] 安裝槽:2354 [0074] 安裝板:2371 100102429 表單編號A0101 第13頁/共21頁 1002004346-0 201232002 [0075] 軸承 [0076] 轉轴 2372 2373 100102429 表單編號A0101 第14頁/共21頁 1002004346-03 is a schematic exploded view of the driving mechanism of the key testing device shown in FIG. 1 at another angle. [0025] FIG. 4 is a schematic view showing the assembly of the button testing device shown in FIG. 1. [Main component symbol description] [0027] Button test device: 100 [0028] Workbench: 10 [0029] Drive mechanism: 20 [0030] Support mechanism: 30 [0031] Test mechanism: 40 [0032] Adjustment unit: 5 0 [0033] Control unit: 60 [0034] Base plate: 21 [0035] First drive unit: 22 [0036] Second drive unit: 23 100102429 Form number A0101 Page 11/Total 21 page 1002004346-0 201232002 [0037] :31 [0038] Beam: 32 [0039] Test cylinder. 41 [0040] Air pressure regulator: 51 [0041] Start switch: 52 [0042] Barometer: 53 [0043] Base: 221 [0044] First ball Bar: 222 [0045] First motor: 223 [0046] Slide rail: 224 [0047] Slide: 225 [0048] Support: 231 [0049] Second ball screw: 232 [0050] Second motor: 233 [0051] Guide rail: 234 [0052] Bearing portion: 235 [0053] Bearing area: 236 [0054] Buffering portion: 237 [0055] Separator: 321 100102429 Form No. A010] Page 12/Total 21 Page 1002004346-0 201232002 [0056] Test area: 322 [0057] accommodating hole: 323 [0058] Cylinder: 411 [0059] Piston: 412 [0060] Pressing section: 413 [0061] Elastic part: 414 [0062] f) Rotating hole: 2211 [0063] Slider: 2251 [0064] Sliding hole: 2252 [0065] Mounting part: 2253 [0066] Mounting groove: 2254 [0067 Support hole: 2311 [0068] 滑动 sliding surface: 235a [0069] bearing surface: 235b [0070] connecting block: 2351 [0071] connecting hole: 2352 [0072] mounting part: 2353 [0073] mounting groove: 2354 [0074 ] Mounting plate: 2371 100102429 Form No. A0101 Page 13 of 21 1002004346-0 201232002 [0075] Bearing [0076] Shaft 2372 2373 100102429 Form No. A0101 Page 14 of 21 1002004346-0