1285732 •.九、發明說明: , 【發明所屬之技術領域】 本發明係關於一種檢測裝置,尤係關於一種檢測熱管性能的檢測裝置。 【先前技術】 熱管之基本構造係於密閉管材内壁襯以易吸收作動流體的多孔質毛細 . 結構層,而其中央的空間則為空胴狀態,並在抽真空的密閉管材内注入相當 於毛細結構層細孔總容積的作動流體,依吸收與散出熱量的相關位置可分為 蒸發段、冷凝段以及其間的絕熱段。 熱管的工作原理係當蒸發段吸收熱量使蘊含於毛細結構層中的液相作 動流體蒸發,並使蒸汽壓升高,而迅速將產生的高熱焓蒸汽流沿中央的通道 移往壓力低的冷凝段散出熱量,凝結液則藉毛細結構層的毛細力再度返回蒸 發段吸收熱量,如此週而復始地藉由作動流體相變化過程中吸收與散出大量 潛熱的循環,進行連續性的熱傳輸,且由於作動流體在上述過程中的液相與 汽相共存,以致熱管可在溫度幾乎保持不變的狀況下扮演快速傳輸大量熱能 的超導體角色而廣為各種領域所應用。 、由於熱管的性能測試主要著重在最大熱傳量(Qmax)以及由蒸發段至冷 凝段的溫度差(ΔΤ)兩項參數,因此在—給定的熱量傳輸狀況下可讀由該溫 • 錢^獲知其熱阻值,進崎估歸的性能;當給定的熱量超過熱管的最大 的溫度亦隨之驟升。 …、傳里#自於原正巾熱1傳輸機制遭到破壞而使熱阻值驟增,以致蒸發段 3=^=;!==:^溫度感例如熱電偶、1285732 • 9. Description of the Invention: [Technical Field] The present invention relates to a detecting device, and more particularly to a detecting device for detecting the performance of a heat pipe. [Prior Art] The basic structure of the heat pipe is such that the inner wall of the closed pipe is lined with a porous capillary which is easy to absorb the actuating fluid. The structural layer is in an open state, and the corresponding capillary is injected into the vacuum-tight closed pipe. The actuating fluid of the total pore volume of the structural layer can be divided into an evaporation section, a condensation section and an adiabatic section therebetween according to the relevant positions of absorption and heat dissipation. The heat pipe works by absorbing heat from the evaporation section to evaporate the liquid phase activating fluid contained in the capillary structure layer and raising the vapor pressure, and rapidly moving the generated high heat enthalpy vapor flow along the central passage to the low pressure condensation. The heat is dissipated in the segment, and the condensate is again returned to the evaporation section by the capillary force of the capillary structure layer to absorb heat, so that the continuous heat transfer is performed by the cycle of absorbing and dissipating a large amount of latent heat during the phase change of the actuating fluid, and Since the liquid phase and the vapor phase of the actuating fluid coexist in the above process, the heat pipe can be widely used in various fields as a superconductor role for rapidly transferring a large amount of heat energy while the temperature is almost constant. Since the performance test of the heat pipe mainly focuses on the maximum heat transfer amount (Qmax) and the temperature difference (ΔΤ) from the evaporation section to the condensation section, it can be read by the given heat transfer condition. ^ Know the thermal resistance value, the performance of the immigration estimate; when the given heat exceeds the maximum temperature of the heat pipe, it also rises. ..., Chuanli # Since the original towel heat 1 transmission mechanism was destroyed and the thermal resistance value increased sharply, so that the evaporation section 3 = ^ =;! ==: ^ temperature sense such as thermocouple,
同時以冷卻水套3為熱沉套設於冷凝段处 '電阻溫度感測 ^熱管的性能; ’因此不能準確 ,係以電熱絲1為 6 1285732 .表面,藉由量測電熱絲1的電壓與電流可以給定熱管2 —定的加熱功率,並同 時藉由調制冷卻纟套3的流量及入口水溫來移❺該加熱功率,並藉以控制熱 & 2在絶熱&2c的穩定操作溫度,而熱管2的最大熱傳量以及由蒸發段2a至冷 凝段2b之溫度差則可由設於熱管2表面的各溫度感測器4得知。 唯上述省知熱管性能檢測裝置仍有以下缺點··由於蒸發段以與冷凝段 2b的長度不轉確控制,是造成評賴管性能變異的重制素丨結於熱量 的散失及溫度的量測均易受到測試環境的影響而產生變異;以及熱管和熱源 •及熱沉的密合熱接觸不易有效控制等缺點,均不利於精確評估埶管的性能, >,W終裝觸卸十分繁_卫,上述習知熱管·檢職置僅翻於實驗 至規核的小量熱管測試,完全無法因應量產製程所需的檢測要求。 為配合熱管量產製程的檢測要求,必需對數量龐大且形式多樣化的執管 袼的品質把關;由於檢__形式的量產歸即需朔時使用大量的 且該等檢測機台需長期而頻繁的重複使用;因此,除了機台本身 其里1於铪、更必須對大量檢測機台的組裝變異作變異予以嚴格控 二==良_影響生產的良率與成本,業者勢必面臨檢測 有^對目前的熱管檢職置作大幅改進,從而將組裝U ,^稍讀製造的化料__人,哺錢f量絲程的檢測需 【發明内容】 U針對上述習知技⑽缺點,提出—種鮮性紐職置,特別 係義於量產製㈣熱管性能檢測裝置,主要包括—岐部及—活動部, 該固定部_嶋自細版缝精_,騎鱗可_定 部進行離合,其中觀定部與活動部的姆表面之間設有至少容 管的量測容置部及至少—使活動部油定部離合時防止其相對位置斷 定位機制,該量測容置部中設有至少_溫度感測器。當活動部移向 7 1285732 守吏調槽孔的壁面與設置於其中的鮮管壁密合熱接觸崎低轨阻,反 之’當活物__TO物爾Μ,觸-待測 熱官快速插人至定位;再勤設置於固定部與活動部之_防呆定位機 制’使活動部移向或移離固定部時均涵蓋在定位機制的高度範圍内,且活 動部與固定部維持滑動密合狀g,以挪活動部與固定部的補位置不致At the same time, the cooling water jacket 3 is set as a heat sink sleeve at the condensation section. The resistance temperature sensing heat pipe performance; 'Therefore, it is not accurate, the heating wire 1 is 6 1285732. Surface, by measuring the voltage of the heating wire 1 And the current can be given a heating power of the heat pipe 2, and at the same time, by adjusting the flow rate of the cooling jacket 3 and the inlet water temperature to shift the heating power, and thereby controlling the heat & 2 stability in the adiabatic & 2c The operating temperature, and the maximum heat transfer amount of the heat pipe 2 and the temperature difference from the evaporation section 2a to the condensation section 2b can be known by the temperature sensors 4 provided on the surface of the heat pipe 2. However, the above-mentioned provincial heat pipe performance detecting device still has the following disadvantages: · Since the evaporation section is not controlled by the length of the condensation section 2b, it is caused by the loss of heat and the amount of heat caused by the variation of the performance of the evaluation tube. The measurement is easy to be affected by the test environment and the variation; and the heat and heat source and the heat sink are not easy to control effectively, which is not conducive to the accurate evaluation of the performance of the manifold, >, W final loading and unloading繁_卫, the above-mentioned conventional heat pipe and inspection positions only turn to the small-scale heat pipe test from the experimental to the regulation, and it is completely impossible to meet the testing requirements required for the mass production process. In order to meet the testing requirements of the mass production process of the heat pipe, it is necessary to check the quality of a large number of diversified forms of management; since the mass production of the inspection__ form is required to be used in large quantities, and the detection machines need to be long-term Frequent re-use; therefore, in addition to the machine itself, it must be rigorously controlled for the assembly variation of a large number of inspection machines. 2 == good _ affects the yield and cost of production, the industry is bound to face detection There are ^ to greatly improve the current heat pipe inspection, so that the assembly of U, ^ slightly read the production of chemical materials __ people, feeding money f wire length detection needs [invention content] U for the above-mentioned conventional technology (10) shortcomings , proposed - a variety of fresh new positions, especially for the mass production system (four) heat pipe performance testing device, mainly including - crotch and - activity, the fixed part _ 嶋 from the fine version of the sewing _, riding scales can be _ fixed Performing clutching, wherein the measuring portion and the surface of the movable portion are provided with at least a measuring and receiving portion of the tube and at least a mechanism for preventing the relative position of the movable portion from being separated when the movable portion is engaged, the measuring and receiving portion At least _ temperature sensor is provided in the department. When the movable part moves to the wall of the 7 1285732 sill, the wall of the sill hole is in close contact with the fresh tube wall disposed in the thermal contact with the low rail resistance. Otherwise, when the living thing __TO is er, the touch-test is quickly inserted. Positioning of the person; the defensive positioning mechanism of the fixed part and the moving part is used to move the moving part away from or away from the fixed part, and the moving part and the fixed part maintain the sliding tightness. The shape of the g, the position of the movable part and the fixed part is not
偏離=㈣歸猶縫面與㈣管壁密合熱接觸;福由在量測槽孔 壁面上綠的至少—支溫度❹m,#插人待測熱管時使其龍於熱管管 壁乍為檢測熱管性能的指標;具有上述特徵的本發明熱管性能檢測裝置 係错由防綠収额化設計職術手段達職合量紐測絲,使所组 裝與操作的熱管檢測裝置具有良好的準確性、便利性、快速性、一致性、 重現性、與可靠性等多重優點。 本發明有如下優點; 本發明藉由縣設計的技射段,使熱管性驗測裝置_模組化設 相付合ϊ產檢測需求,達到在絲大量複製及使職裝置時不論由何操 作員組裝及測試,該等裝置所量測的結果具有良好的—致性、重現性、及 可靠性。 本發明另藉由設於_部上的驅動部,使其與固定部進行線性運動, 促使活動部與gj定部之間所職的制概可和插人熱管的管鍊合熱接 觸以降低熱阻,並將完成檢_熱管快速取出或更換,達到檢測的便利性 及快速性之功效。 本發明再藉由設於活動職gj定部的縣定位凸耳,使轉部的線性 運動受到準確導5卜避免長麵繁的使用4位,進-步確保檢測機台量 8 1285732 測的結果具有良好的一致性與重現性。 本發明又藉由在至少兩顧觸狀_蚊部與辦部_且有一 高度差且呈交互錯置的定位凸台,建構能同時進行檢測至少兩支熱管的檢 ‘之加速性能檢測 測裝置,達到降低檢測裝置成本、簡化構造以及量產熱管 需求。 【實施方式】 置予以進一步說 以下參照第二圖至第四圖,對本發明熱管性能檢測裝 明 部30。其中: 第二圖為本發明熱管性能檢測裝置之第—實施例的—外觀立體圖,第 .圖為第二圖的-立體分解圖。該檢測裝置主要包括_固定部加及—活動 固定部20為鎖固於一穩固平台例如測試桌或其他支撐機構的不動件, 係由導熱性良好的材質製成,該固定部2G内部設有供冷卻液通過的流道(圖 未不)’並猎由冷卻液入出σ接頭22和外部的恆溫冷卻液循環系統(圖未示) 連接’該固定部2〇上表面設有與熱管冷凝段管壁密合熱接觸的至少—散敎 凹槽24,以便順利將熱管自熱源傳輪的熱量移除;為達上述目的,在固定、 部朝活動部30方向設置防呆凸耳25 (定位機制),該防呆凸耳Μ伟朝 活動㈣方向峨部射卜趣面延伸的薄形凸出物,使活動部%移向 或移離固定部料均涵蓋梅凸耳25的高度範_,且使活動部黯 防呆凸耳25之間的壁面維持滑動密合狀態,以確保活動部30與固定部2〇 的相對位置不致偏離,從而顧固定部2〇的散熱凹槽Μ壁面與妖管管辟 密合熱接觸,·並藉由在散熱凹槽24中的壁面上設置可獨立運作且能_ 9 1285732 貼於熱"壁的至少—支溫度感靡2δ,作為檢測熱管性能的指標丨為防 止固疋部2G的熱量分流至穩固平台,在固定部2()背面與穩固平台之間需 設置一絕熱底板。 活動部30對應於固定部2〇的散熱凹槽%位置設置相對應的定位凹槽 3曰2’以便當活動部3()移向固定部料形成至少—量測槽孔犯,使設置於 量測槽孔如中的熱管管壁與槽孔壁面密合熱接觸以降低熱阻;為達上述目 的,活動部3G的外形與尺寸需配合固定部所設置的防呆凸耳25,使活 動部30沿散熱凹槽24方向的兩脑_人防呆凸耳25的㈣為進一 步確保鮮管類制航5G壁面密合熱觸,可以細至少—扣件或螺 絲使稍部_定啊拆卸及扣合,但為達_管量產製程的檢測需求以 及在大量組裝時醉確定位,本發_實施财__種承載㈣來負責 熱管性能檢聰置的整體結構及群定位,轉代上述翻平台及扣件或 螺絲等傳統_與扣合方式,朗定部2G成_於承載㈣的不動 ^牛,並_能料進行線性運動的驅動部4Q,使活動部3q藉由固定於承載 部10上的驅動部40來導引’達到活動部3〇朝固定部2〇進行精準線性運 動之目的,使設置測槽孔5时的熱管管壁與槽孔壁面密合熱接觸以降 低熱阻。該活動部30藉由在定位凹槽32的壁面上設置可獨立運作且自動 密貼於熱管管義至少-支溫度感 36,作為檢測熱管性能的指標;為 方便檢測,本發縣熱管插人量職孔5Q的方向朝向接近操作者,而· 卻液入出_㈣及溫賴廳%、36轉餐出方向細遠離料 彎與壓扁製程, 另外,在實際應用中熱管冷凝段的散熱面可能會經折 1285732 該量測槽孔的尺寸與雜係依據鮮冷凝段的賴面尺寸與形狀 例如待測熱管的冷凝段騎板狀或扁平狀時,制定部與活動部 :=!置細凹槽等結構,™〜平: ==容置部,藉由該量測容置部的平面〜狀或扁 ,、、冷碰即可’溫度❹編彳設置於該量翁置部的平面上。在 本發明巾僅以最常使用的圓形管為例作說明。 /則,上述設置於峡部的防呆凸耳25亦可設置於活動部%,而此時 固定部20的外形與尺寸亦需配合活動部%所設置的防呆凸耳(圖未示), 將口疋4 20沿定位凹槽24方向的兩側面滑動嵌入防呆凸耳的内面,亦可 達到相同的準確定位效果。 承載部10包括-基體(例如電磁吸盤、升降調整座、固定支撐座等) 12與基體12鎖固的第一板14及兩端攻有螺紋的複數支撐桿15、以及 與第-板14呈-定間距並藉由複數支撐桿15 @定於第一板μ的第二板 16。該基體12、第-板14、第二板16及支撐桿15組合形成_組立支架結 構。其中,該基體12除具有將熱管性能檢測裝置穩固於測試桌面外,並可 搭配具有间度、角度的調整機構以配合實際熱管性能檢測的需要,本發明 中僅以電磁讀為例作為以下實關的·。棚定部W射細於承載部 第板14上的不動件,為防止固定部2〇的熱量分流至承載部1〇的第一 板14 ’在固定部2〇背面與承載部1〇的第一板14之間需設置一絕熱底板 28,為確保於大量組裝時的準確定位,在絕熱底板28上設有一與固定部% 背面疋位的防呆定位槽285,在第一板14上亦設有一與絕熱底板28定位的 另防呆疋位槽145,該絕熱底板28朝向承載部1〇第一板的表面上設有一 π 1285732 的導通槽282。 V引出溫度感/則器26的感溫線260 另外,刖_ 12與第一板14連接的方式適用於本實施例的垂直組 立應用’機崎爾_ 2㈣御更軸賴需作調 整角度的顧,因此該基體12可絲於其他位置以配合實務需求。 驅動部4_如氣缸或油敎或步進街)伽定於承載部賴 -板16上,通過-螺桿42穿過活動部蓋板34 (活動部蓋板Μ上設有與螺 .桿42結合的通孔)及承载部1G第二板16與活動部3鳴,以便將活動 部3〇與固定部進行線性運動;本發明藉由設於活動部30上的驅動部40導 引裝置’使活動㈣峨㈣進行雜·,其概括:⑴使活動 邛3〇移離固疋部2〇 一短距離(如約㈣,以便將待測熱管的冷凝段順利 插入里測槽孔5〇巾、或將已完成檢測的熱管糊移離量顺孔% ;⑺使 _ 3G細定部2卜短距離,以便對已插人量測槽孔财的待測熱 官冷凝段和_ 2G散熱讀24 _硫合熱_,從叫低冷凝段移 熱的接觸熱阻。上述藉由設於活動部3〇上的驅動部4〇,使其與固定部 進仃線性運動,達到制醇雜、便繼及快紐之功效。 另’在實際翻中亦可使活動部3〇與固定部2〇的位置互換,並且亦 :使驅動部4〇導引裝置安裝於#近狀部2()的位置;亦即可以改為藉由 没於原固定部20上的驅動部4〇導引裝置,使原固定部2()朝原活動部% 妨線性物’柯達__效果;亦可關時在綠動部3〇與原固定 部20上分別裝設該驅動部40導引裝置。 上述固定部2〇、活動部3〇與驅動部4〇的功能發揮係藉由該承栽部扔 的組農整合及鮮定位,構成—種適驗量產製程巾的熱管性能檢測裝置。 12 1285732 一弟四圖u)為本翻鮮性能檢測裝置第二實施·活動部與固定部 之外觀立體不意圖,第四圖㈦為第四圖⑷的另一角度外觀立體示 意,第四圖(C)為第四圖(a)中活動部之一立體示意圖,第四圖⑷為 第四圖UU固定部之一立體示意圖;本實施例與前述實施例的區別在於: =熱官性能檢測裝置中設置可同時檢測兩支熱管,其係分別由設於固 =P G上的兩條散熱凹槽24’以及分別由對應於上述兩條散熱凹槽24而 • „又於轉部3G上的兩條雜凹槽32所構成的兩條量測槽孔%,且為順利 將兩支折彎成形的細认兩條量職㈤同時進行檢測,在兩條量測槽 孔^0之間的固定部20與活動部3〇採用具有一高度差且呈交互錯置的粒 7 (疋位機制),建構能同時進行檢測兩支折彎成形的熱管的檢 測裝置。 ^ 另外’對於未經折形鮮則不需該高度差,而可以將兩條量測 槽孔50設铜_平_解檢測裝置達成;上述檢繼置並可細本發明 所提出的各種喊與絕熱措施,只需烟—台冷卻顏魏置使其分別與 固定部2〇的冷卻液人出σ接頭η連m需使用—台設於活動部%上 的驅動°M〇導引裳置,使活動部30朝固定部20進行線性運動,即可達到 降低成本、簡化構造以及量產鮮之加速性紐測需求。 同樣地,藉由上述技術可以將熱管的檢測數量作進一步的擴充,發揮 更大的效益。 為達簡化加工及降低成本的需求,該該活動部3〇、絕熱底板四、活動 4蓋板34可以採用一種易於成形且熱導性差的材料,例如塑膠、 等藉由射出、衝壓、鑄造或以電木、鐵弗龍等藉由機械加工等成形方式製 13 1285732 -.作,並與採用—導熱性良好的金屬,如銅、鱗所製成的固定部匹配,且 可藉由在散熱凹槽壁_銀、___伽而使接觸面氧化,進 而導致熱傳效率降低的缺失。 综上所述’本創作勤㈣設計的技術手段,使鮮性能檢測裝置符 合f產檢繼求’為達上述需求本發雜取的技術手段包括: 藉由設於活動部上_動部,使其與ϋ定部進行雜《,促使活動 频固定部之嶋形成的量測槽孔可和插人的熱管進行緊密熱接觸而進行 • 冑效_熱傳; 藉由設於蚊部或活動部的縣凸耳,使活動部的祕運動受到和防 呆凸耳密合滑動的準確導引,不受長期頻繁使用而移位,進而使本發明裝 置及其所量泰結果具有良好的準確性、便繼、快速性、—致性、重現 性、及可靠性等多重優點。 藉由在至少兩條散熱槽孔之_固定部與活動部採用具有—高度差且 呈交互錯置的定位機制,建構能同時進行檢測至少兩支折彎成形的熱管檢 測裝置,達鱗低成本、簡化構造以及量產熱管之加舰能檢測需求。 較之習知技術的不利於準確評估熱管性能,安裝與拆卸十分繁項費 工,以及僅適合實驗㈣小量測試等缺點,實難關應量產製程㈣的檢 測要求;本創作已大幅改善習知技術的缺點,故不論就成本效益言、就產 。。可罪度έ、就|產應用言、就檢測效能言,本創作藉由防 手段並經模組化設計之熱管性能檢測裝置明顯優於習知熱管性能檢測裝 置,並同時於實驗室及量產製程的各項鮮性能參數的量測。 綜上所述,本發明確已符合發明專利之要件,遂依法提出專利申請。 14 1285732 惟,以上所述者僅為本發明之較佳實施例,自不能以此限制本案之申过專 利乾圍。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】 一回4 口…官性能檢測裝置的結構示意圖。 第1係本發明熱管性能檢測裝置第—實施例之立體圖。Deviation = (4) 犹 犹 面 面 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与 与The index of the performance of the heat pipe; the heat pipe performance detecting device of the present invention having the above characteristics is wrongly designed by the anti-green recycling design tool, and the heat pipe detecting device assembled and operated has good accuracy. Multiple advantages such as convenience, speed, consistency, reproducibility, and reliability. The invention has the following advantages: the invention adopts the technical section designed by the county, so that the heat pipe inspection device _ modularized the phase combination production inspection demand, and achieves no matter what operation when the wire is copied and used in a large amount. Assembled and tested, the results measured by these devices have good consistency, reproducibility, and reliability. According to the invention, the driving portion provided on the _ portion is linearly moved with the fixing portion, so that the system between the movable portion and the gj fixed portion can be in thermal contact with the tube chain of the inserted heat pipe to reduce heat. Resistance, and will complete the inspection _ heat pipe quickly removed or replaced, to achieve the convenience and rapid effect of detection. The invention furtherly uses the county positioning lug provided in the active position of the gj, so that the linear motion of the rotating part is accurately guided. 5 uses the long position to avoid the use of 4 positions, and the step-by-step ensures the detection machine quantity 8 1285732 The results are consistent and reproducible. The invention further constructs an acceleration performance detecting device capable of detecting at least two heat pipes at the same time by at least two contact-type mosquitoes and the office portion, and having a height difference and an interactively offset positioning boss. To reduce the cost of the test device, simplify the structure and the demand for mass production of heat pipes. [Embodiment] Further, the heat pipe performance detecting unit 30 of the present invention will be described below with reference to Figs. 2 to 4 . The second figure is an external perspective view of the first embodiment of the heat pipe performance detecting device of the present invention, and the second drawing is an exploded perspective view of the second figure. The detecting device mainly includes a fixing portion and a movable fixing portion 20 for fixing a fixed platform such as a test table or other supporting mechanism, and is made of a material having good thermal conductivity, and the fixing portion 2G is internally provided. The flow passage through which the coolant passes (not shown) is hunted by the coolant into and out of the σ joint 22 and the external constant temperature coolant circulation system (not shown). The upper surface of the fixed portion 2 is provided with the heat pipe condensation section. The tube wall is in close contact with at least the heat dissipating recess 24 so as to smoothly remove the heat of the heat pipe from the heat source wheel; for the above purpose, the anti-staying lug 25 is disposed in the direction of the fixed portion and toward the movable portion 30 (positioning) Mechanism), the thin-shaped protrusion extending from the 射 射 朝 活动 活动 活动 活动 活动 活动 活动 活动 活动 活动 活动 活动 活动 活动 活动 活动 活动 活动 活动 射 射 射 射 薄 薄 薄 薄 薄 薄 薄 薄 薄 薄 薄 薄 薄 薄 薄 薄 薄 薄 薄 薄And maintaining the sliding contact state between the wall portions between the movable portion and the anti-staying lug 25 to ensure that the relative positions of the movable portion 30 and the fixed portion 2 are not deviated, thereby taking care of the heat dissipating groove wall surface of the fixing portion 2 The demon tube is in close contact with the heat, and The wall surface of the groove 24 is provided with independent operation and can be attached to the thermal wall of at least the temperature sense 靡 2δ, as an indicator for detecting the performance of the heat pipe, to prevent the heat of the solid portion 2G from being shunted to the stable platform. An insulating bottom plate is required between the back surface of the fixing portion 2 () and the stable platform. The movable portion 30 is provided with a corresponding positioning groove 3曰2' corresponding to the position of the heat dissipating groove % of the fixing portion 2〇 so that when the movable portion 3() moves toward the fixed portion to form at least the measuring slot hole, the setting is performed on The heat pipe wall of the measuring slot is in close contact with the wall surface of the slot to reduce the thermal resistance; for the above purpose, the shape and size of the movable part 3G need to match the anti-staying lug 25 provided by the fixing part, so that the movable part 30 (4) of the two brains along the direction of the heat dissipating groove 24 (4) to further ensure that the fresh tube type 5G wall surface is in close contact with the hot touch, and at least a fastener or a screw can be used to disassemble and buckle. In order to meet the testing requirements of the mass production process and the drunkenness in the mass assembly process, the _ implementation of the financial __ bearing (four) to be responsible for the overall structure and group positioning of the heat pipe performance inspection, transfer the above The conventional _ and the fastening method of the platform and the fasteners or the screws, the 2G of the slanting part is _ in the bearing (4), and the driving part 4Q capable of linear movement, so that the movable part 3q is fixed to the carrying part The driving portion 40 on the 10 guides the 'moving portion 3 to the fixing portion 2 to perform fine Linear movement of the object, so that the heat pipe wall is provided with slots measuring slot wall adhesion contact to reduce heat 5:00 low thermal resistance. The movable portion 30 is disposed on the wall surface of the positioning groove 32 and can be independently operated and automatically adhered to the heat pipe to control at least the temperature sense 36 as an index for detecting the performance of the heat pipe; for the convenience of detection, the heat pipe of the county is inserted. The direction of the working hole 5Q is close to the operator, and the liquid is in and out of the _ (four) and the temperature of the room, 36, the direction of the meal is fine away from the material bending and squeezing process, in addition, in the practical application, the heat dissipation surface of the heat pipe condensation section It may be folded 1285732. The size of the measuring hole and the miscellaneous line according to the size and shape of the fresh condensing section, such as the condensation section of the heat pipe to be tested, when the plate is flat or flat, the development department and the moving part: =! Structure such as groove, TM~flat: == accommodating part, by measuring the plane of the accommodating part ~ shape or flat, cold touch can be 'temperature ❹ 彳 彳 彳 彳 彳 彳 彳on. In the present invention, only the most commonly used circular tube will be described as an example. The above-mentioned anti-staying lug 25 disposed in the isthmus portion may also be disposed at the movable portion %, and the shape and size of the fixing portion 20 at this time also need to match the anti-staying lug (not shown) provided by the movable portion. The two sides of the mouth groove 40 in the direction of the positioning groove 24 are slid into the inner surface of the anti-staying lug, and the same accurate positioning effect can be achieved. The carrying portion 10 includes a base body (for example, an electromagnetic chuck, a lifting and adjusting seat, a fixed support base, and the like) 12 and a first plate 14 that is locked with the base body 12 and a plurality of support rods 15 that are threaded at both ends, and the first plate 14 - a second plate 16 which is fixed to the first plate μ by a plurality of support rods 15 @. The base body 12, the first plate 14, the second plate 16, and the support rod 15 are combined to form a stacking bracket structure. The base body 12 has the requirement of fixing the heat pipe performance detecting device to the test table, and can be matched with the adjustment mechanism with the degree and the angle to meet the actual heat pipe performance detection. In the present invention, only the electromagnetic reading is taken as an example. Off. The slat portion W is thinner than the movable member on the carrier plate 14 and is configured to prevent the heat of the fixing portion 2 from being shunted to the first plate 14 ′ of the carrier portion 1 ′ at the back of the fixing portion 2 and the carrier portion 1 A heat-insulating bottom plate 28 is disposed between the plates 14. In order to ensure accurate positioning during mass assembly, the heat-insulating base plate 28 is provided with a foolproof positioning groove 285 which is aligned with the back portion of the fixing portion. A further anti-slumping slot 145 is provided, which is positioned with the heat insulating bottom plate 28. The heat insulating bottom plate 28 is provided with a guiding groove 282 of π 1285732 on the surface of the first plate facing the bearing portion 1 . V, the temperature sensing line 26 of the temperature sensing device 26 is additionally applied to the vertical assembly application of the present embodiment. Therefore, the substrate 12 can be threaded in other locations to meet practical needs. The driving portion 4_ such as a cylinder or an oil pan or a stepping street is galvanized on the carrier portion-plate 16 and passes through the movable portion cover plate 34 through the - screw 42 (the movable portion cover plate is provided with the screw rod 42 The combined through hole) and the second plate 16 of the carrying portion 1G and the movable portion 3 are slid to linearly move the movable portion 3〇 and the fixed portion; the present invention guides the device by the driving portion 40 provided on the movable portion 30 Let the activity (4) 峨 (4) carry out the miscellaneous, and summarize it: (1) Move the movable 邛3〇 away from the solid 〇 2〇 a short distance (such as about (4), so that the condensation section of the heat pipe to be tested can be smoothly inserted into the measuring hole 5 〇 Or, the heat pipe paste that has been tested is removed by the amount of the hole; (7) The _3G fine part 2 is short-distance, so as to read the heat-condensing section and the _ 2G heat-dissipating section of the metering slot. 24 _ sulphur heat _, the contact thermal resistance from the low condensation section heat transfer. The above-mentioned driving part 4 设 provided on the movable part 3〇, linearly moves with the fixed part to achieve alcohol, It will follow the effect of the quick button. In addition, the position of the movable part 3〇 and the fixed part 2〇 can be interchanged in the actual turning, and also: the driving part 4〇 guiding device At the position of the proximal portion 2 (); that is, the guiding device can be replaced by the driving portion 4 没 not on the original fixing portion 20, so that the original fixed portion 2 () is directed to the original movable portion. __Effects; the driving unit 40 guiding device is respectively installed on the green moving portion 3〇 and the original fixing portion 20. The function of the fixing portion 2〇, the movable portion 3〇 and the driving portion 4〇 is Through the integration and fresh positioning of the farmer thrown by the planting department, it constitutes a heat pipe performance detecting device for measuring the production process towel. 12 1285732 One brother and four figures u) The second implementation of the freshening performance detecting device The appearance of the portion and the fixed portion is not intended to be stereoscopic. The fourth figure (7) is a perspective view of the other angle of the fourth figure (4), and the fourth figure (C) is a perspective view of the movable part of the fourth figure (a). Figure 4 is a perspective view of a UU fixing portion of the fourth figure; the difference between the embodiment and the foregoing embodiment is that: = the thermal performance detecting device is arranged to simultaneously detect two heat pipes, which are respectively disposed on the solid=PG The two heat dissipation grooves 24' are respectively corresponding to the two heat dissipation grooves 24 described above. The two measuring grooves formed by the two kinds of miscellaneous grooves 32 on the rotating portion 3G are two measuring slots, and the two measuring units (five) for smoothly forming the two bending portions are simultaneously detected, and the two measuring slots are simultaneously measured. The fixing portion 20 between the ^0 and the movable portion 3〇 adopts a particle 7 (clamping mechanism) having a height difference and being misaligned, and constructs a detecting device capable of simultaneously detecting two bent heat pipes. 'For the unfolded fresh, the height difference is not needed, and the two measuring slots 50 can be set up by the copper_flat_solution detecting device; the above-mentioned inspection can be used to fine-tune various shouting and heat insulation proposed by the invention. The measure is that only the smoke-stage cooling Yan Wei set is connected to the cooling liquid of the fixed part 2, and the σ joint is connected with the η joint, and the drive is set on the movable part. The linear movement of the movable portion 30 toward the fixed portion 20 achieves the need for cost reduction, simplified construction, and accelerated acceleration measurement. Similarly, with the above technology, the number of heat pipes can be further expanded to achieve greater benefits. In order to simplify the processing and reduce the cost, the movable portion 3, the heat insulating bottom plate 4, and the movable 4 cover 34 may adopt a material which is easy to form and has poor thermal conductivity, such as plastic, etc., by injection, stamping, casting or It is made of Bakelite, Teflon, etc. by mechanical processing, etc., and is matched with a fixed part made of a metal having good thermal conductivity, such as copper or scale, and can be cooled by heat. The groove walls _ silver, ___ gamma cause oxidation of the contact surface, which in turn leads to a loss of heat transfer efficiency. In summary, the technical means of the design of the creative work (four) make the fresh performance testing device meet the requirements of the f-test, and the technical means for achieving the above-mentioned demand include: by setting the moving part to the moving part, It is mixed with the ϋ定部, and the measuring slot formed by the 活动 of the active frequency fixing portion can be made in close thermal contact with the inserted heat pipe. 胄 _ _ heat transfer; by being located in the mosquito or moving part The county's lug makes the secret movement of the active part be accurately guided by the anti-slipping lug and is not displaced by long-term frequent use, so that the device of the invention and the measured result thereof have good accuracy. Multiple advantages such as success, speed, consistency, reproducibility, and reliability. The heat pipe detecting device capable of detecting at least two bending forms at the same time is constructed by using a positioning mechanism having a height difference and an offset between the fixing portion and the movable portion of the at least two heat dissipating slots. The simplified construction and mass production of heat pipes can detect the demand. Compared with the conventional technology, it is not conducive to the accurate evaluation of the performance of the heat pipe, the installation and disassembly is very complicated and laborious, and it is only suitable for the shortcomings of the experiment (4) small-scale test, it is difficult to meet the testing requirements of the mass production process (4); Knowing the shortcomings of technology, it is cost-effective and productive. . The degree of guilt, | 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产 产Measurement of various fresh performance parameters of the production process. In summary, the present invention has indeed met the requirements of the invention patent, and has filed a patent application according to law. 14 1285732 However, the above is only a preferred embodiment of the present invention, and it is not possible to limit the patent application of this case. Equivalent modifications or variations made by persons skilled in the art in light of the spirit of the invention are intended to be included within the scope of the following claims. [Simple description of the diagram] A 4-port... structure diagram of the official performance detecting device. Fig. 1 is a perspective view showing a first embodiment of the heat pipe performance detecting device of the present invention.
第二圖係第一圖之立體分解圖。 之軸撕物第:細麟動部與固定部 第四圖㈦係第四圖(a)的另—角度外觀立體示意 第四圖㈦係第四圖(a)中活動部之一立體示意圖 第四圖⑷係第四圖(a)中 【主要元件符號說明】 -丁 承載部 10 第一板 14 支撐桿 15 固定部 20 散熱凹槽 24 溫度感測器 26、36 絕熱底板 28 活動部 30 活動部蓋板 34 螺桿 42 基體 12 防呆定位槽 145、285 第二板 16 冷卻液入出口接頭22 定位凸耳 25 定位凸台 27、37 導通槽 282 定位凹槽 32 驅動部 40 量測槽孔 50The second figure is an exploded perspective view of the first figure. The shaft tearing part: the fourth part of the thinning moving part and the fixed part (7) is the fourth figure of the fourth figure (a), the three-dimensional representation of the angle of the fourth figure (7) is the third figure of the moving part in the fourth picture (a) Figure 4 (4) is the fourth figure (a) [Main component symbol description] - D-bearing portion 10 First plate 14 Support rod 15 Fixing portion 20 Heat sink groove 24 Temperature sensor 26, 36 Insulated floor 28 Active portion 30 Activity Cover plate 34 Screw 42 Base 12 Deterioration positioning groove 145, 285 Second plate 16 Coolant inlet and outlet joint 22 Positioning lug 25 Positioning boss 27, 37 Conducting groove 282 Positioning groove 32 Driving portion 40 Measuring slot 50
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