M329773 八、新型說明·· 【新型所屬之技術領域】 本創作涉及-種振動測試裝置,尤指—種用以對電子 裝置進行振動測試之振動測試裝置。 【先前技術】 .刀片飼服器一般係藉由安裝於其殼體兩側之滑執 -機櫃中,且其在正常工作時常常會產生振 果該殼體及滑執之強度不符合要求,該殼體及滑 該ΐ服器正常工作時發生形變,從而損壞固定於該殼體内 件’如主機板等。故’為確保該殼體及滑執之強 又,應對生產出來的殼體進行振動測試。 習知技術之振動測試裝置通常包括一測試平台 =該測試平台上之兩固定架。_試平台不僅可沿預定方 …且可於一定之振動頻率範圍内隨機振動 :體成“成。該贿器固定料兩固定架間。該 口、動服器藉由該兩固定架而與該測試平台同步 之;二預ΪΓ的振動後,即可檢測出該飼服器殼體 /月况。;、、、、而,習知技術之兩固定架不僅體積盥重量 ^不便於將料Μ架安裝於該測試平台上,更有甚者,M329773 VIII. New Description·· 【New Technology Fields】 This creation involves a vibration test device, especially a vibration test device for vibration testing of electronic devices. [Prior Art] The blade feeding device is generally installed in the sliding-cabinet on both sides of its casing, and it often produces vibration during normal operation. The strength of the casing and the sliding handle does not meet the requirements. The housing and the sliding device are deformed during normal operation, thereby damaging the internal components of the housing such as a motherboard or the like. Therefore, in order to ensure the strength of the casing and the slippery, the produced casing should be subjected to vibration testing. Conventional vibration testing devices typically include a test platform = two mounts on the test platform. _The test platform can not only be along the predetermined side... and can be randomly vibrated within a certain range of vibration frequency: the body is formed into a "fixed." The bribe fixes the two fixing frames. The mouth and the movable device are connected by the two fixing frames. The test platform is synchronized; after the vibration of the pre-twisting, the casing of the feeding device/month can be detected.;,,,,,,, the two fixing frames of the prior art are not only the weight of the container, but also the inconvenience The truss is installed on the test platform, and even more,
=由-些移動與抬升裝置才能安裝。此外,由於咳兩固 疋采係對應該伺服器之尺寸來 、W 能用以固定同一尺寸作刑十的故’該兩固定架僅 對 、之伺服器,當該振動測試裝置要 之魏器畴振動㈣時,該兩固定架均 而被重新設計製造,通用性極差。 „ M329773 .【新型内容】 #於以上内谷’有必要提供—種結構簡單、通用強之 振動測試裝置。 一種振動測試裝置,用以對電子裝置進行振動測試, 包括一可沿預定方向振動之測試平台及複數固定架,每一 •,定架包括可相互分離之兩基座及—安裝板,該兩基座固 疋於該測試平台上,該安裝板固定於該兩基座上並用以安 裝該電子裝置。 與習知技術相比,本創作振動測試裝置中之固定架由 ^相互刀離之兩基座及—安裝板組合而成,結構極為簡 單,且有利於藉由調整該固定架間之距離來適應不同尺寸 類型之電子裝置之振動測試要求,通用性強。 【實施方式】 响參閱圖1,本創作振動測試裝置之較佳實施方式包 括測"式平台10及兩對結構對稱之固定架2〇。 • 該測試平台10蘭設複數成矩陣排布之固定孔12。 、 請參閱圖2,每一固定架2〇包括兩結構相同之基座22 及一安裝板24。每一基座22包括一位於水平方向之基部 從、-與基部222垂直之固定部故及—形成於該固定部 224頂部並與該基部222平行之支擇部—。該基部您 ,、該口,疋# 224間设有—傾斜之加強部228,以使該基座 於又力之if況下’不易發生形變。該基部222分別於靠 近該固定部224及該加強部228之端部沿垂直方向開設一 通孔助。該固定部224開設複數沿垂直方向等間距分佈 6 ‘ M329773 .之水平固定孔2242。該支撐部226沿垂直方向開設一固定 孔2262。該安裝板24包括一位於垂直方向之安裝部242 • 及分別自該安裝部242之上下兩邊緣垂直彎折但彎折方向 ’ 相反之一第一水平部244及一第二水平部246。該安裝部 242對應該兩基座22之固定部224之固定孔2242分別於 靠近其兩侧邊緣處開設複數沿垂直方向等間距排列之通孔 2422,並於靠近該兩側邊緣之一與該等相鄰通孔2422間開 設複數沿垂直方向等間距排列之方形定位孔2424。該第一 w水平部244對應該兩基座22之基部222之靠近該固定部 224之通孔2222開設兩通孔2442。該第二水平部246對應 該兩基座22之支撐部226之固定孔2262開設兩通孔2462。 續請參閱圖3及圖4,每對固定架20上可安裝一滑軌 組合30,該滑執組合30包括一第一滑軌32及一滑動裝設 於該第一滑執32上之第二滑執34。該第一滑軌32之前端 外侧表面固定一固定件322,該固定件322之前端向内垂 •直彎折一折壁3222、該折壁3222開設三個沿垂直方向等 、間距排列之鎖固孔3224。該第一滑軌32之後端向内垂直 彎折一折壁324,該折壁324開設三個沿垂直方向等間距 排列之鎖固孔3242。該第一滑執32靠近該後端之内侧表 面固定一定位件326,該定位件326具有一沿垂直方向延 伸且大致與該第一滑軌32之内側表面垂直之定位片 3262,該定位片3262沿垂直方向開設一長形定位孔3264。 該第二滑軌34之下邊緣水平向外彎折延伸一支撐壁342。 固定該等固定架20前,可先將每一固定架20之兩基 7 • M329773 座22之固定部224之固定孔2242及支撐部226之固定孔 2262分別與該安裝板24之安裝部242之通孔2422及第二 • 水平部246之通孔2462對應,然後藉由複數鎖固件201、 ’ 203,如螺絲或銷釘,分別穿入該等通孔2422、2462,並 固定於該等固定孔2242、2262中,從而將該兩基座22及 安裝板24固定一起。此時,該安裝板24之第一水平部244 之兩通孔2442分別與該兩基座22之基部222之靠近該固 定部224之通孔2222對齊。 — 將上述組裝一起之每一固定架20放置於該測試平台 10預定位置上,並使每一對固定架20之安裝板24之安裝 部242之定位孔2424相對,每一固定架20之兩基座22 之基部222上之兩通孔2222分別與該測試平台10之對應 位置之固定孔12對齊,然後藉由四個鎖固件204,如螺絲, 分別穿入該每一固定架20之安裝板24之第一水平部244 之兩通孔2442與該兩基座22之對應通孔2222中,並鎖入 •該測試平台10之固定孔12中,從而將每一固定架20固定 、於該測試平台10之預定位置上,同時,亦將該安裝板24 之第一水平部244固定於每一固定架20之兩基座22之基 部222上。 安裝該兩滑執組合30時,將每一滑執組合30分別放 置於每對固定架20之兩安裝板24間,並使該第一滑軌32 之前後兩端之三鎖固孔3224、3242分別與該安裝板24之 三相鄰定位孔2424對齊,然後藉由四個鎖固件301,如螺 絲,分別插入該兩固定架20之兩安裝板24之上下兩定位 8 .M329773 , 孔2424,並鎖入該第一滑執32之前後兩端之對應兩鎖固 孔3224、3242中,從而將該兩滑軌組合30安裝在該等固 — 定架20上。 〃 請參閱圖5,本創作振動測試裝置可用以測試一電子 裝置,如一刀片伺服器40,該伺服器40包括一殼體41, 該殼體41内安裝有資料存取器、風扇、主機板等電子元件 (圖未示),並具有兩平行相對的側壁42。每一側壁42之 前端向外垂直彎折一凸耳424,該凸耳424上開設一鎖固 零孔426。每一側壁42之後端稍向外傾斜延伸一突片428。 續請參閱圖6,測試前,將該伺服器40放置於該滑軌 組合30之第二滑軌34之支撐壁342上,並沿水平方向推 動該伺服器40,從而使該伺服器40之兩側壁42之突片428 分別插入該兩滑執組合30之第一滑執32之定位孔3264 中。當該伺服器40之兩側壁42之凸耳424分別抵靠於該 兩固定架20之安裝板24上時,該兩凸耳424之鎖固孔426 φ分別與該兩滑執組合30之第一滑軌32之前端之中間鎖固 、孔3224及該兩安裝板24之定位孔2424對齊。藉由兩固定 件303,如手動螺絲,穿入該兩凸耳424之鎖固孔426、該 兩安裝板24之對應定位孔2424及該兩滑軌組合30之第一 滑執32之中間鎖固孔3224中,從而將該伺服器40固定於 該兩對固定架20上。 測試時,該測試平台10不僅可沿上下、前後及左右方 向振動,且可於一定振動頻率範圍(如10-500赫茲)内隨 機振動。該測試平台10振動時,藉由該兩對固定架20帶 9 M329773 動該兩滑軌組合3〇A該飼服器4〇时振動。於預定之時 ,間(如-小時)後’使該測試平台1G停止振動,然後檢測 該伺服态40之殼體41及該兩滑軌組合3〇之變形情況,以 確定該殼體41及該兩㈣組合%係否制所需之強度要 求。 本創作振動測試裝置不僅結構簡單,且體積小、重量 ,輕’因此’可报方便地將該固定架2〇固定於該測試平台 籲1U之不同位置上,從而可很容易地將不同尺寸類型之伺服 定於該固定架20上,以實現對該不同尺寸類型之祠服 盗進行測試,無需對該兩固定架2 0重新設計製造,通用性 強。 綜上所述,本創作確已符合新型專利要求,爰依法提 =專利申明。惟,以上所述者僅為本創作之較佳實施方式, 舉凡熟悉本創作技藝之人士,爰依本創作之精神所作之等 效修飾或變化,皆應涵蓋於以下之申請專利範圍内。 鲁【圖式簡單說明】 、 圖1係本創作振動測試裝置較佳實施方式之立體圖。 •圖2係圖1中固定架之立體分解圖。 圖圖3係本創作振動測試裝置與兩滑執組合之立體組裝 圖4係圖3中滑軌組合之立體圖。 圖5係一伺服器之立體圖。 β二係本創作振動測試裝置與伺服器之立體組裝圖。 主要元件符號說明】 M329773 測試平台 固定架 - 基部 , 固定部 支撐部 加強部 安裝部 定位孔 ®通孔 通孔 滑執組合 固定件 鎖固子匕 鎖固孑L 定位片= can be installed by some moving and lifting devices. In addition, because the two coughing systems are corresponding to the size of the servo, W can be used to fix the same size, so the two fixed frames are only the server, when the vibration test device is required In the case of domain vibration (4), both mounts are redesigned and manufactured with extremely poor versatility. „ M329773 . [New content] #在内内谷'It is necessary to provide a simple and universal vibration test device. A vibration test device for vibration testing of electronic devices, including a vibration in a predetermined direction The test platform and the plurality of fixing frames, each of which includes two bases and a mounting plate that are separable from each other, the two bases are fixed on the test platform, and the mounting plate is fixed on the two bases and used for The electronic device is installed. Compared with the prior art, the fixing frame in the artificial vibration testing device is composed of two bases and a mounting plate which are separated from each other, and the structure is extremely simple, and is advantageous for adjusting the fixing. The distance between the racks is adapted to the vibration test requirements of electronic devices of different sizes, and the versatility is strong. [Embodiment] Referring to FIG. 1, a preferred embodiment of the present vibration testing device includes a measuring platform 10 and two pairs. The structure is symmetrically fixed. 2. The test platform 10 is provided with a plurality of fixing holes 12 arranged in a matrix. Referring to FIG. 2, each fixing frame 2 includes two identical structures. The base 22 and a mounting plate 24. Each base 22 includes a base portion in a horizontal direction, a fixing portion perpendicular to the base portion 222, and a cutting portion formed on the top of the fixing portion 224 and parallel to the base portion 222. The base portion, the mouth, the 疋# 224 is provided with a slanting reinforcement portion 228, so that the base is not easily deformed under the force of the force. The base portion 222 is adjacent to the fixed portion respectively. 224 and the end of the reinforcing portion 228 are provided with a through hole in the vertical direction. The fixing portion 224 defines a plurality of horizontal fixing holes 2242 which are equally spaced in the vertical direction and 6' M329773. The supporting portion 226 defines a fixing hole in the vertical direction. 2262. The mounting plate 24 includes a mounting portion 242 in a vertical direction and a first horizontal portion 244 and a second horizontal portion 246 that are vertically bent from the upper and lower edges of the mounting portion 242 but are bent in the opposite direction. The fixing portion 2242 of the fixing portion 224 of the two bases 22 respectively defines a plurality of through holes 2422 arranged at equal intervals in the vertical direction near the side edges of the two bases 22, and is adjacent to one of the two side edges. The adjacent through holes 24 The plurality of square positioning holes 2424 are arranged at equal intervals in the vertical direction. The first w horizontal portion 244 defines two through holes 2442 corresponding to the through holes 2222 of the base portion 222 of the two bases 22 adjacent to the fixing portion 224. The two horizontal portions 246 define two through holes 2462 corresponding to the fixing holes 2262 of the supporting portions 226 of the two bases 22. Referring to FIG. 3 and FIG. 4, a pair of sliding rail assemblies 30 can be mounted on each pair of fixing brackets 20, The assembly 30 includes a first slide rail 32 and a second slide 34 that is slidably mounted on the first slide 32. The front side of the front end of the first slide rail 32 is fixed with a fixing member 322, and the fixing member 322 is fixed. The front end is inwardly sagged. The straight wall is folded into a folded wall 3222, and the folded wall 3222 defines three locking holes 3224 arranged in a vertical direction and at a distance. The rear end of the first sliding rail 32 is vertically bent inwardly by a folding wall 324. The folding wall 324 defines three locking holes 3242 arranged at equal intervals in the vertical direction. The positioning member 326 is fixed to the inner surface of the rear end of the first sliding portion 32. The positioning member 326 has a positioning piece 3262 extending in a vertical direction and substantially perpendicular to an inner side surface of the first sliding rail 32. The positioning piece The 3262 defines an elongated positioning hole 3264 in the vertical direction. The lower edge of the second slide rail 34 is bent horizontally outward to extend a support wall 342. Before fixing the fixing brackets 20, the fixing holes 2242 of the fixing portions 224 of the fixing portions 224 of the M329773 seats 22 and the fixing holes 2262 of the supporting portion 226 and the mounting portion 242 of the mounting plate 24 may be respectively respectively. The through hole 2422 corresponds to the through hole 2462 of the second horizontal portion 246, and then penetrates the through holes 2422 and 2462 respectively by a plurality of fasteners 201, '203, such as screws or pins, and is fixed to the fixed holes. In the holes 2242, 2262, the two bases 22 and the mounting plate 24 are fixed together. At this time, the two through holes 2442 of the first horizontal portion 244 of the mounting plate 24 are respectively aligned with the through holes 2222 of the base portion 222 of the two bases 22 adjacent to the fixing portion 224. - placing each of the above-mentioned assembled brackets 20 at a predetermined position of the test platform 10, and aligning the positioning holes 2424 of the mounting portions 242 of the mounting plates 24 of each pair of fixing brackets 20, two of each of the fixing brackets 20 The two through holes 2222 on the base 222 of the base 22 are respectively aligned with the fixing holes 12 of the corresponding positions of the test platform 10, and then respectively inserted into the mounting brackets 20 by four locking members 204, such as screws. The two through holes 2442 of the first horizontal portion 244 of the plate 24 and the corresponding through holes 2222 of the two bases 22 are locked into the fixing holes 12 of the test platform 10, thereby fixing each fixing frame 20 to At a predetermined position of the test platform 10, at the same time, the first horizontal portion 244 of the mounting plate 24 is also secured to the base 222 of the two bases 22 of each of the mounting brackets 20. When the two sliding assemblies 30 are installed, each sliding assembly 30 is placed between the two mounting plates 24 of each pair of fixing frames 20, and the three locking holes 3224 of the front and rear ends of the first sliding rail 32 are respectively 3242 is respectively aligned with the adjacent positioning holes 2424 of the mounting plate 24, and then inserted into the upper and lower positioning positions of the two mounting plates 24 of the two fixing frames 20 by four locking members 301, such as screws. M329773, hole 2424 And locking into the corresponding two locking holes 3224, 3242 of the front and rear ends of the first sliding handle 32, so that the two sliding rail assemblies 30 are mounted on the fixing brackets 20. Referring to FIG. 5, the artificial vibration testing device can be used to test an electronic device, such as a blade server 40, which includes a housing 41 in which a data accessor, a fan, and a motherboard are mounted. An electronic component (not shown) has two parallel opposing side walls 42. A lug 424 is bent outwardly from the front end of each of the side walls 42. A locking hole 426 is defined in the lug 424. A protrusion 428 extends obliquely outwardly from the rear end of each side wall 42. Referring to FIG. 6 , before the test, the server 40 is placed on the support wall 342 of the second slide rail 34 of the slide rail assembly 30, and the server 40 is pushed in the horizontal direction, thereby making the server 40 The tabs 428 of the two side walls 42 are respectively inserted into the positioning holes 3264 of the first sliding handles 32 of the two sliding combinations 30. When the lugs 424 of the two side walls 42 of the server 40 respectively abut against the mounting plates 24 of the two fixing brackets 20, the locking holes 426 φ of the two lugs 424 and the two sliding combination 30 respectively The middle lock of the front end of the slide rail 32, the hole 3224 and the positioning holes 2424 of the two mounting plates 24 are aligned. The two locking members 303, such as manual screws, are inserted into the locking holes 426 of the two lugs 424, the corresponding positioning holes 2424 of the two mounting plates 24, and the middle lock of the first sliding handle 32 of the two sliding rail assemblies 30. The fixed hole 3224 is fixed to the server 40 to the two pairs of mounts 20. During the test, the test platform 10 can vibrate not only in the up, down, front, back, and left and right directions, but also in a certain vibration frequency range (for example, 10-500 Hz). When the test platform 10 vibrates, the two pairs of mounts 20 are moved by the M329773 to move the two slide rails together. At the time of the reservation, the test platform 1G is stopped to vibrate after the interval (eg, -hour), and then the deformation of the housing 41 of the servo state 40 and the combination of the two slide rails 3 is detected to determine the housing 41 and The two (four) combination % is the required strength requirement. The creation vibration test device is not only simple in structure, but also small in size, weight, and light. Therefore, it is convenient to fix the fixing frame 2 to different positions of the test platform 1U, so that different size types can be easily The servo is fixed on the fixing frame 20 to test the different size types of the service pirates, and the two fixing frames 20 need not be redesigned and manufactured, and the versatility is strong. In summary, this creation has indeed met the requirements of the new patent, and is legally mentioned. However, the above-mentioned ones are only preferred embodiments of the present invention, and those who are familiar with the creative art, and the equivalent modifications or changes made in accordance with the spirit of the present invention should be included in the following patent application. Lu [Simplified illustration of the drawings], Fig. 1 is a perspective view of a preferred embodiment of the present vibration testing device. • Figure 2 is an exploded perspective view of the mounting bracket of Figure 1. Figure 3 is a three-dimensional assembly of the combined vibration testing device and the two sliding assemblies. Figure 4 is a perspective view of the sliding rail assembly of Figure 3. Figure 5 is a perspective view of a server. The two-dimensional assembly diagram of the vibration test device and the servo of the β-series. Main component symbol description] M329773 Test platform Fixing frame - Base, fixing part Supporting part Strengthening part Mounting part Positioning hole ® Through hole Through hole Sliding combination Fixing piece Locking piece 锁 Locking 孑L Positioning piece
φ第二滑軌 、鎖固件 伺服器 侧壁 鎖固子L 10 固定孔 12 20 基座 22 222 通孔 2222 224 固定孔 2242 226 固定子L 2262 228 安裝板 24 242 通孔 2422 2424 第一水平部 244 2442 第二水平部 246 2462 鎖固件 201、203、204 30 第一滑執 32 322 折壁 3222 3224 折壁 324 3242 定位件 326 3262 定位孔 3264 34 · 支撐壁 342 301 固定件 303 40 殼體 41 42 凸耳 424 426 突片 428 11φ second slide rail, lock servo server side wall lock L 10 fixing hole 12 20 base 22 222 through hole 2222 224 fixing hole 2242 226 fixing piece L 2262 228 mounting plate 24 242 through hole 2422 2424 first horizontal part 244 2442 Second horizontal part 246 2462 Locking block 201, 203, 204 30 First sliding block 32 322 Folding wall 3222 3224 Folding wall 324 3242 Positioning piece 326 3262 Positioning hole 3264 34 · Supporting wall 342 301 Fixing piece 303 40 Housing 41 42 convex Ear 424 426 tab 428 11