1336773 九、發明說明: 【發明所屬之技術領域】 本發明係'有關於-種溫度量測方法及溫度量測裝置,詳 言之,係關於一種用於移動表面之溫度量測方法及溫度量 測裝置。 【先前技術】 在一烘乾爐中’金屬络(例如:結箱)之溫度均句性對於 後端產品之捲成品質影響甚巨,為能破實掌握溫度分佈特 性曲線,必須在金屬落生產過程中量測各部位溫度之U 變化。習知在供乾爐中之溫度量測m ·· 一是在該供 乾爐中選擇某些定點,以測溫棒量測爐氛溫度;另一是於 該烘乾爐之入口及出口,利用紅外線照射一金屬猪之表 面,以取得該金屬箔之溫度分佈。 然而,第一種以測溫棒量測爐氛溫度之溫度量測方法, 因未於該金屬落作直接測溫,其具有難以克服之問題例 如:爐氛溫度並不代表該金屬箔之表面溫度;(2)爐氛 溫度之變化並不代表該金屬箔表面溫度之變化。 另外,第二種利用紅外線量測金屬帛之表面溫度方法, 其僅能顯示出該金屬落進行加溫前及加溫後之表面溫度變 化,但此法無法取得該金屬落表面溫度之變化在烘乾爐中 加熱時之表面溫度變化’因此無法在加熱過程中據以調整 烘乾爐内之溫度分佈,以使烘乾爐内之溫度均勻分佈。 因此’有必要提供一創新且富有進步性之用於移動表面 之溫度量測方法及溫度量測裝置,以解決上述問題。 120760.doc ^336773 * 【發明内容】 本心月之目的在於提供一種用於移動表面之溫度量測 裝置其包括•一加熱空間及測溫元件。該測溫元件設置 於該加熱工間内,其具有一中空管件及複數個熱電偶,該 ‘ $熱電偶由該中空管件内間隔地穿設出該中空管件,以顯 , ❻於該中工官件外’該等熱電偶接觸-移動待測物之-表 面,用以量測該待測物之該表面之溫度。 • 本發明之另一目的在於提供一種用於移動表面之溫度量 測方法,該溫度量測方法包括:⑷提供一待測物該待測 物具有一表面;(b)移動該待測物通過一加熱空間丨及 利用一測溫元件量測該待測物之該表面之溫度其中該 測溫元件設置於該加熱空間内,其具有一中空管件及複數 個熱電偶,該等熱電偶由該中空管件内間隔地穿設出該中 空管件,以顯露於該中空管件外,該等熱電偶接觸該待測 物之該表面,以量測該待測物之該表面之溫度。 • 藉由本發明之用於移動表面之溫度量測方法及溫度量測 裝置,可確實地連續多點量測該待測物之該表面溫度。再 者,可根據分析該待測物之該表面溫度差異變化調整該 加熱空間内之溫度,使該加熱空間内之溫度分佈均勻,進 • 而製得品質較佳之產品。 【實施方式】 圖1顯示本發明用於移動表面之溫度量測方法之流程 圖。圖2顯示本發明用於移動表面之溫度量測裝置2之示立 圖。配合參考步驟SU及圖2,首先,提供一待測物21,^ 120760.doc 1336773 待測物21具有一表面211 ·〇在本實施例中,該待測物21係 為一片狀鋁材。配合參考步驟S12及圖2,移動該待測物2ι 通過加熱空間22(在本實施例中,該加熱空間22係由一 加熱爐體20所界定,例如:該加熱爐體2〇可為一烘乾 爐)。其中,該加熱空間22具有一入口及一出口(圖未示 出),該待測物21則由該加熱空間22之該入口進入該加熱 空間22,並由該加熱空間22之該出口離開該加熱空間22 ^ 配合參考步驟S13及圖2,利用一測溫元件23量測該待測 物21之該表面211之溫度。其中,該測溫元件23設置於該 加熱空間22内,該測溫元件23具有一中空管件23丨及複數 個熱電偶232 ^該等熱電偶232由該中空管件23丨内間隔地 穿設出該中空管件23 1,以顯露於該中空管件23 1外。該等 熱電偶232接觸該待測物21之該表面211,以量測該待測物 21之該表面211之溫度。參考步驟8丨4,較佳地,另可利用 一轉動裝置24以轉動該中空管件231使該等熱電偶232接觸 該待測物21之該表面211。 要注意的是,在步驟S14之後,另可包括一步驟si5,利 用一控制器25以控制該轉動裝置24,以控制及轉動該中空 官件231 (例如:控制該轉動裝置以連動該中空管件Μ〗之 轉動角度、轉動力量及轉動之間隔時間),更進一步確保 該等熱電偶232接觸該待測物21之該表面2n。 *另外,參考步驟s丨6,亦可利用一溫度紀錄器%紀錄該 等熱電偶232所測得之溫度資訊。參考步驟S17,㈣接-刀析裒置27(例如:電腦)至該溫度紀錄器%,用以讀取該 I20760.doc 1336773 溫度紀錄器26所儲存之資.訊,並分析該待測物2丨之該表面 211溫度差異變化。 其中’該等熱電偶232係利用其本身所具有之剛性應 力’以彈性地緊密接觸該待測物2 1之該表面211,以達到 多點連續量測溫度之功效。較佳地’每一熱電偶232具有 一結合測溫部分233,該結合測溫部分233可經研磨步驟以 形成片狀’而該等熱電偶232之該結合測溫部分233接觸該 待測物21之該表面2 11,以量測該表面211之溫度。 再參考圖2,本發明之該溫度量測裝置2包括:一加熱空 間22及測溫元件23。在本實施例中,該加熱空間22係由一 加熱爐體20所界定,例如:該加熱爐體2〇可為一烘乾爐。 配合參考圖2及圖3,該測溫元件23設置於該加熱空間22 内,該測溫元件23具有一中空管件23丨及複數個熱電偶 232。較佳地,該中空管件231之材質係為金屬,例如:該 中空官件23 1為一鋼管。要注意的是,該測溫元件23可另 包括一填充體234,該填充體234則設置於該中空管件231 内’用以固定及保護該等熱電偶232。 該等熱電偶232由該中空管件23 1内間隔地穿設出該中空 官件23 1,以顯露於該中空管件23丨外。其中,該等熱電偶 232係利用其本身所具有之剛性應力,以彈性地緊密接觸 該待測物21之該表面2H,以達到多點連續量測溫度之功 效。較佳地,每一熱電偶232可具有一結合測溫部分233。 在本實施例中,該結合測溫部分233係為片狀。該待測物 21移動地通過該加熱空間22,該等熱電偶232之該結合測 120760.doc 1336773 溫部分2 3 3接觸該待測物i 1之該表面211,用以量測該待測 物21之該表面211之溫度。在本實施例中,該待測物21係 為一片狀銘材。 較佳地,該測溫元件23之形狀係配合該待測物21之該表 面211之形狀。在本實施例中’該待測物21之該表面211係 為一平面,該中空管件231係為一直管,該等熱電偶232大 致設置於同一水平位置。在其他應用中,該待測物2丨之該 表面211可為一曲面,該中空管件231可為一曲管,該等熱 電偶232大致沿該表面211之曲度而設置。 該溫度量測裝置2可另包括一轉動裝置24,該轉動裝置 24連接該中空管件231,以轉動該中空管件231,更進一步 確保該等熱電偶232接觸該待測物21之該表面211 ^要注意 的是,該轉動裝置24可為一把手,或者,該轉動裝置24亦 可為一馬達。 其中,该等熱電偶232係利用其本身所具有之剛性應 力,以彈性地緊密接觸該待測物^之該表面2丨丨(一般物皆 具有不平坦之波浪表面”以達到多點連續量測溫度之功 效。較佳地’該溫度量測褒置2可另包括一控制器25,該 控制器25連接該轉動裝置24,用以控制及轉動該中空管件 23 1(例如:控制該轉動裝置以連動該中空管件231之轉動 角度、轉動力量及轉動之間隔時間)。 另外”亥/JD度篁測裝置2可另包括一溫度紀錄器26,該 又、己錄器26連接該等熱電偶232,用以紀錄儲存該等熱 %偶232所測得該待測物2丨之該表面211溫度。較佳地’該 I20760.doc -10- 溫度量測裝f 2 ·5Γ V a , 了另包括♦一分析裝置27,該分析裝置27連 接該溫度紀錄器26’用以讀取該溫度紀錄㈣所儲存之資 =並刀析該待測物21之該表面211溫度差異變化。在本 :】中該分析裝置27係為一電腦,用以快速、準確地 刀^及。十算出該待測物2 1之該表面2 11溫度差異變化。 藉由本發明之用於移動表面之溫度量測方法及溫度量測 裝置2可確實地連續多點量測該待測物2丨之該表 面211溫 度再者,可根據分析該待測物21之該表面211溫度差異 變化調整該加熱空間22内之溫度,使該加熱空間22内之 溫度分佈均勻,進而製得品質較佳之產品。 上述實施例僅為說明本發明之原理及其功效,並非限制 本發月。因此習於此技術之人士對上述實施例進行修改及 變化仍不脫本發明之精神。本發明之權利範圍應如後述之 申請專利範圍所列。 【圖式簡單說明】 圖1顯示本發明用於移動表面之溫度量測方法之流程 圖; 圖2顯示本發明用於移動表面之溫度量測裝置之示意 圖;及 圖3顯示丰發明測溫元件之示意圖。 【主要元件符號說明】 20 加熱爐體 21 待測物 22 加熱空間 120760.doc 1336773 23 測溫元件 · 24 轉動裝置 25 控制器 26 溫度紀錄器 27 分析裝置 211 表面 231 中空管件 232 熱電偶 233 結合測溫部分 234 填充體 120760.doc1336773 IX. Description of the Invention: [Technical Field] The present invention relates to a temperature measuring method and a temperature measuring device, and more particularly to a temperature measuring method and a temperature amount for moving a surface Measuring device. [Prior Art] In a drying oven, the temperature of the metal system (for example, the junction box) has a great influence on the quality of the back-end product. In order to grasp the temperature distribution characteristic curve, it must be in the metal. The U change in the temperature of each part is measured during the production process. It is customary to measure the temperature in the dry furnace. · First, select some fixed points in the dry furnace, measure the temperature of the furnace with the temperature measuring rod, and the other is at the entrance and exit of the drying furnace. The surface of a metal pig is irradiated with infrared rays to obtain the temperature distribution of the metal foil. However, the first temperature measurement method for measuring the temperature of the furnace atmosphere by the temperature measuring rod has difficulty in overcoming the temperature because the metal is not directly subjected to temperature measurement. For example, the furnace temperature does not represent the surface of the metal foil. Temperature; (2) The change in furnace temperature does not represent a change in the surface temperature of the metal foil. In addition, the second method for measuring the surface temperature of the metal crucible by using infrared rays can only show the surface temperature change of the metal falling before and after heating, but this method cannot obtain the change of the surface temperature of the falling surface of the metal. The surface temperature changes during heating in the drying furnace 'Therefore, the temperature distribution in the drying furnace cannot be adjusted during the heating process so that the temperature in the drying furnace is evenly distributed. Therefore, it is necessary to provide an innovative and progressive temperature measurement method and temperature measuring device for moving surfaces to solve the above problems. 120760.doc ^336773 * [Summary of the Invention] The purpose of the present invention is to provide a temperature measuring device for moving a surface including a heating space and a temperature measuring element. The temperature measuring component is disposed in the heating chamber, and has a hollow tubular member and a plurality of thermocouples. The thermocouple is pierced from the hollow tubular member to form the hollow tubular member, so as to be visible in the middle Outside the official 'the thermocouple contacts - moves the surface of the object to be tested to measure the temperature of the surface of the object to be tested. Another object of the present invention is to provide a temperature measuring method for a moving surface, the temperature measuring method comprising: (4) providing a sample to be tested, the object to be tested has a surface; and (b) moving the object to be tested through a heating space 量 and measuring the temperature of the surface of the object to be tested by using a temperature measuring component, wherein the temperature measuring component is disposed in the heating space, and has a hollow tube member and a plurality of thermocouples, wherein the thermocouples are The hollow tube member is spaced apart from the hollow tube member to be exposed outside the hollow tube member, and the thermocouple contacts the surface of the object to be tested to measure the temperature of the surface of the object to be tested. • With the temperature measuring method and the temperature measuring device for a moving surface of the present invention, the surface temperature of the object to be tested can be reliably measured continuously in multiple points. Furthermore, the temperature in the heating space can be adjusted according to the change in the surface temperature difference of the object to be tested, so that the temperature distribution in the heating space is uniform, and a better quality product can be obtained. [Embodiment] Fig. 1 is a flow chart showing a temperature measuring method for a moving surface of the present invention. Fig. 2 shows an elevational view of the temperature measuring device 2 for a moving surface of the present invention. With reference to the step SU and FIG. 2, first, a test object 21 is provided, ^ 120760.doc 1336773 The object to be tested 21 has a surface 211. In the present embodiment, the object to be tested 21 is a piece of aluminum. . With reference to step S12 and FIG. 2, the object to be tested 2 is moved through the heating space 22 (in the present embodiment, the heating space 22 is defined by a heating furnace body 20, for example, the heating furnace body 2 can be a Drying furnace). Wherein, the heating space 22 has an inlet and an outlet (not shown), and the object to be tested 21 enters the heating space 22 from the inlet of the heating space 22, and exits from the outlet of the heating space 22 The heating space 22 ^ is matched with the reference step S13 and FIG. 2, and the temperature of the surface 211 of the object 21 to be tested is measured by a temperature measuring element 23. The temperature measuring component 23 is disposed in the heating space 22, and the temperature measuring component 23 has a hollow tubular member 23丨 and a plurality of thermocouples 232. The thermocouples 232 are spaced apart from the hollow tubular member 23 The hollow tubular member 23 1 is exposed outside the hollow tubular member 23 1 . The thermocouple 232 contacts the surface 211 of the object 21 to measure the temperature of the surface 211 of the object 21 to be tested. Referring to step 8丨4, preferably, a rotating device 24 is used to rotate the hollow tubular member 231 to bring the thermocouples 232 into contact with the surface 211 of the object to be tested 21. It is to be noted that after step S14, a step si5 may be further included, and a controller 25 is used to control the rotating device 24 to control and rotate the hollow member 231 (for example, controlling the rotating device to interlock the hollow tubular member) Further, the rotation angle, the rotational force, and the interval between the rotations are further ensured that the thermocouples 232 are in contact with the surface 2n of the object 21 to be tested. * In addition, referring to step s丨6, a temperature recorder % can also be used to record the temperature information measured by the thermocouples 232. Referring to step S17, (4) a knife-disconnecting device 27 (for example, a computer) to the temperature recorder % for reading the information stored in the I20760.doc 1336773 temperature recorder 26, and analyzing the object to be tested The surface temperature of the surface 211 varies. Wherein the thermocouples 232 utilize their own rigid stresses to elastically closely contact the surface 211 of the test object 2 1 to achieve multi-point continuous measurement of temperature. Preferably, each thermocouple 232 has a combined temperature measuring portion 233 which can be subjected to a grinding step to form a sheet shape and the combined temperature measuring portion 233 of the thermocouples 232 contacts the object to be tested. The surface 21 of 21 is used to measure the temperature of the surface 211. Referring again to Figure 2, the temperature measuring device 2 of the present invention includes a heating space 22 and a temperature measuring element 23. In the present embodiment, the heating space 22 is defined by a heating furnace body 20. For example, the heating furnace body 2 can be a drying furnace. Referring to FIG. 2 and FIG. 3, the temperature measuring element 23 is disposed in the heating space 22. The temperature measuring element 23 has a hollow tube member 23 and a plurality of thermocouples 232. Preferably, the material of the hollow tubular member 231 is metal. For example, the hollow official member 23 1 is a steel tube. It should be noted that the temperature measuring component 23 can further include a filling body 234 disposed in the hollow tubular member 231 for fixing and protecting the thermocouples 232. The hollow thermocouples 232 are spaced apart from the hollow tubular member 23 1 to form the hollow official member 23 1 to be exposed outside the hollow tubular member 23 . The thermocouples 232 utilize the rigid stresses themselves to elastically closely contact the surface 2H of the object 21 to achieve a multi-point continuous measurement of temperature. Preferably, each thermocouple 232 can have a combined temperature measuring portion 233. In the present embodiment, the combined temperature measuring portion 233 is in the form of a sheet. The test object 21 moves through the heating space 22, and the combined measurement of the thermocouples 232 120760.doc 1336773 the temperature portion 2 3 3 contacts the surface 211 of the object to be tested i 1 for measuring the to-be-tested The temperature of the surface 211 of the object 21. In the present embodiment, the object to be tested 21 is a piece of a name material. Preferably, the shape of the temperature measuring element 23 is matched to the shape of the surface 211 of the object 21 to be tested. In the present embodiment, the surface 211 of the object to be tested 21 is a flat surface, and the hollow tube member 231 is a straight tube, and the thermocouples 232 are disposed at substantially the same horizontal position. In other applications, the surface 211 of the object to be tested 2 can be a curved surface, and the hollow tube 231 can be a curved tube. The thermocouples 232 are disposed substantially along the curvature of the surface 211. The temperature measuring device 2 may further include a rotating device 24 connected to the hollow tubular member 231 to rotate the hollow tubular member 231 to further ensure that the thermocouples 232 contact the surface 211 of the object to be tested 21 It should be noted that the rotating device 24 can be a handle, or the rotating device 24 can also be a motor. Wherein, the thermocouples 232 utilize the rigid stresses themselves to elastically closely contact the surface 2 of the object to be tested (the general object has an uneven wave surface) to achieve a multi-point continuous amount. Preferably, the temperature measuring device 2 further includes a controller 25 coupled to the rotating device 24 for controlling and rotating the hollow tubular member 23 1 (eg, controlling the rotation) The device is configured to interlock the rotation angle of the hollow tubular member 231, the rotational force and the interval between the rotations. The "Hai/JD degree measuring device 2" may further include a temperature recorder 26, and the recorder 26 is connected to the thermoelectric devices. Even 232, used to record the temperature of the surface 211 of the object 2 measured by the heat source 232. Preferably, the I20760.doc -10- temperature measurement device f 2 ·5Γ V a , Further comprising: an analyzing device 27, the analyzing device 27 is connected to the temperature recorder 26' for reading the stored value of the temperature record (4) and analyzing the temperature difference of the surface 211 of the object to be tested 21. The analysis device 27 is a computer for fast, Accurately calculating the temperature difference of the surface 2 11 of the object to be tested 2 1. The temperature measuring method for the moving surface and the temperature measuring device 2 of the present invention can reliably measure multiple points continuously. The temperature of the surface 211 of the object to be tested 2 is adjusted, and the temperature in the heating space 22 is adjusted according to the temperature difference of the surface 211 of the object 21 to be analyzed, so that the temperature distribution in the heating space 22 is uniform. The above-described embodiments are merely illustrative of the principles and effects of the present invention, and are not intended to limit the scope of the present invention. The scope of the invention should be as set forth in the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 shows a flow chart of a method for measuring the temperature of a moving surface of the present invention; Figure 2 shows the temperature of the present invention for moving a surface Schematic diagram of the measuring device; and Fig. 3 shows a schematic diagram of the measuring element of the invention. [Main component symbol description] 20 Heating furnace body 21 Object to be tested 22 Heating space 120760.doc 1336773 23 Temperature measuring element · 24 Rotating device 25 Controller 26 Temperature recorder 27 Analytical unit 211 Surface 231 Hollow tube 232 Thermocouple 233 Combined temperature measurement part 234 Filler 120760.doc