M431321 五、新型說明: 【新型所屬之技術領域】 本新型是有關於-種測試儀,特別是指一種可測織物 溫昇溫降之測試儀。 【先一技術】 由於地球日趨暖化’導致每年夏日溫度不斷攀升,因 此,纺織業者無不著力於開發各種功能性的織物,以滿足 使用者對織物需具備散熱、涼爽、曰光遮蔽或保暖等不同 的需束。 有人提出-種評估一待測織物是否具有瞬間涼感效果 的方式,所謂瞬間涼感(touch feeling 〇f wanmh 〇r 〇lness/Q max)疋拉擬人體接觸該待測織物時,皮膚表面瞬 間熱量流失所感受到的涼感。該方式是將一大小為‘X 的該待測織物放置在—怪溫抑的冷板上,再將 C的熱板平放於該待測織物上,同時量測該熱板在g 2秒内 經由該待測織物移除的熱量,其單位為wattW。 由於違方法利用熱傳導方式比較該待測織物在瞬間被 移除的熱量,卻無法得知該待測織物長時間在高溫或低田 的環境下的所能達到的吸熱與散熱效果,且無法同時進= 多件待測織物的比較β τ 【新型内容】 因此’本新型之目的’即在提供-種具有同時比較複 數待測織物,皿度變化的可測織物溫昇溫降之測試儀。 於是’本新型可測織物溫昇溫降之測試儀,適用於同 時比較至少二待測織物溫度的變化,該可測織物溫昇溫降 之測試儀包含一改變該等待測織物溫度的溫度源裝置、一 吁連續地偵測且記錄該等待測織物溫度變化的感溫模組、 一介於該溫度源裝置與該等待測織物之間的遮蔽件、一待 測件固定裝置,及一架體。 該待測件固定裝置包括一鏤空的框體、一自該框體側 邊沿伸的套管及一插設於該套管的連接件.,該溫度源裝置 、該感溫模組、該遮蔽件與該待測件固定裝置的連接件設 置於該架體。 本新型之功效在於:藉由該溫度源裝置能使該等待測 織物產生溫昇或溫降的作用,並利用該感溫模組連續地偵 測該等待測織物溫度變化,而產生同時比較複數待測織物 溫度變化的效果。 【實施方式】 有關本新型之前述及其他技術内容、特點與功效,在 乂下配S參考圖式之二個較佳實施例的詳細說明中,將可 清楚的呈現。 在本新型被詳細描述之前,要注意的是,在以下的說 明内容中,類似的元件是以相同的編號來表示。 _參閱圖1,本新型可測織物溫昇溫降之測試儀,適用於 同時比較二待測織物卜2溫度的變化,該等待測織物卜2 刀別為-標準織物& —功能性織物。 —該可測織物溫昇溫降之測試儀的第一較佳實施例包含 改變π亥等待測織物丄、2溫度的溫度源裝置3、 一感溫模 M431321 組4、一遮蔽件5、一待測件固定裝置6,及—架體厂 • 該感溫模組4包括—感溫單元以-資科處理單 ,該貢料,…有一顯示元件421。該等待測織物 1、2固疋於該待測件固定裝置6。 ' 該溫度源裝置3、該遮蔽件5、該待測件^裝置6盘 • 該感遇模組4的感溫單元41設置於該架體7,該待測件固 與該遮蔽件5設置於該溫度源裝置3與該感溫模 • 組4的感溫單元41之間,且該遮蔽件5設置於該溫… • 置3與待測件固定裝置6之間。 、 幻、 該,模組4的感溫單元41可即時偵測該等待測織物 1时2 一皿度變化’亚將感測獲得的一組資料傳送至該資料處 S早π 42 ’該感溫模組4的資料處理單元42可連續地記錄 該感溫k 41在不同時間傳送的資料,並將該等資料經過 處理成為圖表,再利用該顯示元件421呈現。 該待測件Μ裝置6,如圖2所示,包括_鏤㈣㈣ _ 61、—自該姉61側邊沿伸的套管62及-插設於該套管 • 62的連接件63 ’該待測件固定裝置6的連接件63設置於 該架體7 ’藉由調整該套管62與該連接件63的相對位置, 能夠改變該框體61與水平面所夾的角度。 在本第一較佳實施例中,該溫度源襄置3為-熱溫元 :7 1該熱恤7G件3 1為一鹵素燈,藉此,模擬日光照射該 待測織物。1 ' 2時,該等待測織物i、2的吸熱、隔熱效 4 m單元.41為-紅外線熱影像儀,該㈣處理單元 42為—電腦’該紅外線熱影像儀藉由—傳輸線電連接至該 5 電腦’該顯示元件42〗A — θ5 - „„ 仟42丨馮顯不器。值得一提的是:該熱 溫元件31可以為一投射燈,該感溫單元41也可以藉由無 線傳輸將該資料傳送至該資料處理單元42,而該顯示元件 421也可以是一投影機。 使用本新型可測織物溫昇溫降之測試儀時,使用者先 將該等待測織物卜2分別併排放置且固定於該待測件固定 裝置6的框體61上,並調整該套管^與該連接件μ,使 該框體61是呈水平的,再調整該遮蔽件5位置,使該遮蔽 件5不會阻檔該溫度源裝置3照射該等待測織物卜2。將 該感溫模组4的感溫單元41、f料處理單元42,及顯示元 件421的電源打開,使該感溫模組4的感溫單元^能㈣ 過鏤空的該㈣61卩絲❹以記錄料待測織物卜之下 表面的溫度變化,需要說明的是:該溫度源裝i 3鱼 溫單元41應分別對齊該等待測織物卜2的交界,使= 待測織物1、2能同時均勻受埶,並 物卜2的溫度變化 U⑼時偵測該等待測織 最後打開熱溫元件31電源使該等待測織物卜 度上昇,或者,可以再關閉熱 估 、孤 物卜2的溫度恢❹P 使該等待測織 二此’使用者可以藉由該感溫模組4的顯示元件切 連、.只地觀察該等待測織物丨、2.的溫 較該等待測織物卜2溫度變化的效果。而產生同時比 值得-提的是,❹者欲更換該等㈣織物卜) 僅需調整該遮蔽件5位置,使該遮 ' 件5随擋該溫度源裝 置3照射到該等待測織物卜2與該感溫單元4ι,而產 早細作的效果。 參閱圖3,本新型的—第二較佳實施例是類似於該第— 較佳實施例,其主要差異處在於: 該溫度源裝置3為一冷溫元件32,該冷溫元件32.為一 氮氣冷源’藉由該冷溫元件32讓該等待測織物卜2的、θ 度下降’或者’可以再關閉冷溫元件32使該等待測織.二 、2的溫度恢復室溫,藉此,模擬在寒冷氣候下,該等待測 織物1、2的隔冷效果。 、 如此該第一較佳實施例也可達到與上述第一較佳· 施例相同的目的盘功f Λ 一力效而且,可藉由快速更換不同的溫 度源裝置3產生簡覃極朴& 4 降測試的作用早㈣的效果,且產生可進行溫昇或溫 •^第_ 5,本新型的一第三較佳實施例是類似於 该第二較佳貫施例,其主要差異處在於: 该感溫模組4的感溫單元41盥 -測件固U置6的同原裝置3在該待 °側,且調整該套管62與該連接 的相對位置,使該柩舻μ θ & 逆茌仟63 使魏體61是與水平面呈一角度,讓 斜射該待測件固定裝置而不會阻撐該感溫:: 4的感溫單元41偵_等待測織物卜2上表面的溫度 如此’该第三較佳實施例也可達到與上述第—較 施例相同的目的與功效 41可偵、忑感皿模組4的感溫單元 不織物Μ的上表面溫度,而產生可進行 不同利°式方式的作用。 M431321 或者’該感溫模级4的感溫單元4ι與該溫 在該待測件岐裝置6的相反側,如_ 6所示,藉此1 感溫模組4的感溫單元41可债測該等待測織物卜2的; ^面溫度’而達到與上述相同的目的與功效。值得說明的 疋.利用上述測試方式能夠比較同—待測織物的上表面鱼 下表面溫度差異,藉此瞭解該待測織物的隔熱與散熱效果 :以較厚的織物與較薄的織物為例’較厚的織物隔熱效果 ’所以上、下表面溫度在測試初期差異較大,但上表面 =與較薄的織物相近;而以功能性的織物與較薄的織 物為例,功能性的織物雖然上、下表面溫度差異不大,作 :體溫度比較薄的織物低,藉以說明功能性的織物非僅隔 …效果好,且吸熱少、散熱多,因而達到較低的整體溫度 〇 笮内上述本新型可測織物溫昇溫降之 下述功效及優點,故確實能達到本新型之目的:儀 一、本新型利用㈣溫模Μ 4連續地觀察該等待測織 田1 2的溫度變化’而產生同時比較該等待測織物1、2 溫度變化的效果。 二、本新型藉由調整該遮蔽件5位置,使該遮蔽件5 阻指該溫度源裝置3照射到該等待測織物卜2與該感溫單 ^ ’能在更換該特測織物丨、2時產生簡單操作的效果 〇 三、本新型利用該溫度源裝置.3為熱源元件31或冷源 兀件32,可快速更摈產生簡單操作的效果,且產生可進行 8 /皿昇或溫降測試的作用。 四本新型藉由該感溫模組4的感溫單元4 源裝置3 a — # ^ 。待測件固定裝置6的同-側或相反側,且該 二又〜置3是斜射該待測件固定裝置6,而產生可進 同測試方式的作用。M431321 V. New description: [New technical field] This new type is related to a kind of tester, especially a tester that can measure the temperature rise and fall of fabric. [First technology] As the temperature of the earth warms up, the summer temperature rises every year. Therefore, the textile industry is dedicated to the development of various functional fabrics to meet the needs of users for heat dissipation, cooling, tanning or Different needs such as warmth. It has been proposed to evaluate whether a fabric to be tested has an instant cool feeling effect. The so-called instant feeling (touch feeling 〇f wanmh 〇r 〇lness/Q max) pulls the skin to instantaneously lose heat when it touches the fabric to be tested. The feeling of cool feeling. In this method, a fabric of the size of 'X is placed on a cold plate of a strange temperature, and then a hot plate of C is laid flat on the fabric to be tested, and the hot plate is measured at g 2 seconds. The heat removed through the fabric to be tested is in units of wattW. Because the method of using heat conduction compares the heat of the fabric to be tested in an instant, it is impossible to know the heat absorption and heat dissipation effect of the fabric to be tested in a high temperature or low field environment for a long time, and cannot simultaneously Progress = Comparison of multiple pieces of fabric to be tested β τ [New content] Therefore, 'the purpose of this new type' is to provide a tester that can simultaneously measure the temperature rise and fall of measurable fabrics with a plurality of fabrics to be tested. Therefore, the tester for measuring the temperature rise and fall of the fabric is suitable for simultaneously comparing the change of the temperature of at least two fabrics to be tested, and the tester for measuring the temperature rise and fall of the fabric comprises a temperature source device for changing the temperature of the fabric to be tested, A temperature sensing module for continuously detecting and recording the temperature change of the fabric to be tested, a shielding member between the temperature source device and the waiting fabric, a fixture fixing device, and a frame. The fixture to be tested includes a hollow frame, a sleeve extending from a side edge of the frame, and a connecting member inserted into the sleeve. The temperature source device, the temperature sensing module, the A connecting member of the shielding member and the fixture fixing device is disposed on the frame body. The utility model has the advantages that the temperature source device can generate the temperature rise or the temperature drop of the waiting fabric, and the temperature sensing module continuously detects the temperature change of the fabric under waiting, and simultaneously generates a plurality of comparisons. The effect of the temperature change of the fabric to be tested. [Embodiment] The foregoing and other technical contents, features and effects of the present invention will be apparent from the detailed description of the preferred embodiments of the present invention. Before the present invention is described in detail, it is noted that in the following description, similar elements are denoted by the same reference numerals. _ Referring to Fig. 1, the tester for measuring the temperature rise and fall of the fabric is suitable for simultaneously comparing the changes of the temperature of the two fabrics to be tested, and the fabric is a standard fabric & functional fabric. - The first preferred embodiment of the tester for measuring the temperature rise and fall of the fabric comprises a temperature source device 3 for changing the temperature of the fabric, a temperature sensing device M431321 group 4, a shielding member 5, a waiting The measuring device fixing device 6, and the frame body factory, the temperature sensing module 4 includes a temperature sensing unit, a processing unit, and a display element 421. The waiting fabric 1 and 2 are fixed to the fixture fixing device 6. The temperature source device 3, the shielding member 5, the device to be tested, and the device 6 are provided. The temperature sensing unit 41 of the sensor module 4 is disposed on the frame body 7. The device to be tested is fixed to the shielding member 5 The temperature source device 3 is disposed between the temperature sensing unit 41 and the temperature sensing unit 41 of the temperature sensing module group 4, and the shielding member 5 is disposed between the temperature setting device 3 and the device under test fixture 6. , illusion, the module 4 of the temperature sensing unit 41 can immediately detect the waiting for the measurement of the fabric 1 when a change in the degree of 'the sub-sensing a set of data transmitted to the data portion S π 42 ' The data processing unit 42 of the temperature module 4 can continuously record the data transmitted by the temperature sensing k 41 at different times, and process the data into a graph, which is then presented by the display element 421. The device under test device 6, as shown in FIG. 2, includes _镂(4)(4) _61, a sleeve 62 extending from the side edge of the 姊61, and a connecting member 63' inserted into the sleeve 62. The connecting member 63 of the device to be tested 6 is disposed on the frame 7'. By adjusting the relative position of the sleeve 62 and the connecting member 63, the angle between the frame 61 and the horizontal plane can be changed. In the first preferred embodiment, the temperature source device 3 is - a thermal temperature element: 7 1 The hot plate 7G member 31 is a halogen lamp, whereby the simulated sunlight is irradiated to the fabric to be tested. 1 ' 2, the heat absorption and heat insulation effect of the waiting fabrics i, 2 is 4 m unit. 41 is - infrared thermal imager, and the (4) processing unit 42 is - computer 'the infrared thermal imager is electrically connected by a transmission line To the 5 computers 'the display element 42〗 A - θ5 - „„ 仟42丨 Feng Xian. It is worth mentioning that the thermal element 31 can be a projection lamp, and the temperature sensing unit 41 can also transmit the data to the data processing unit 42 by wireless transmission, and the display element 421 can also be a projector. . When the tester for measuring the temperature rise and fall of the fabric is used, the user first places the waiting fabrics 2 in parallel and fixed on the frame 61 of the fixture fixing device 6, and adjusts the sleeve and The connector μ is such that the frame 61 is horizontal, and the position of the shielding member 5 is adjusted so that the shielding member 5 does not block the temperature source device 3 from illuminating the waiting fabric. The temperature sensing unit 41, the f material processing unit 42 of the temperature sensing module 4, and the power of the display element 421 are turned on, so that the temperature sensing unit of the temperature sensing module 4 can (4) the (four) 61 卩 silk 镂Recording the temperature change of the surface under the fabric to be tested, it should be noted that the temperature source unit i 3 fish temperature unit 41 should be respectively aligned with the boundary of the waiting fabric 2, so that the fabrics 1 and 2 to be tested can simultaneously Evenly subjected to the enthalpy, and the temperature change U(9) of the object 2 detects the waiting for the weaving and finally turns on the power of the hot-temperature element 31 to increase the temperature of the waiting fabric, or the temperature of the heat estimation and the object 2 can be turned off again. ❹P makes the waiting for weaving two. The user can cut through the display elements of the temperature sensing module 4, and only observe the temperature of the waiting fabric 丨, 2. effect. However, it is worthwhile to mention that the latter wants to replace the (four) fabrics.) It is only necessary to adjust the position of the shielding member 5 so that the shielding member 5 is irradiated to the temperature-measuring device 3 to wait for the fabric to be measured. With the temperature sensing unit 4, the effect is produced early. Referring to FIG. 3, the second preferred embodiment of the present invention is similar to the first preferred embodiment. The main difference is that the temperature source device 3 is a cold temperature element 32, and the cold temperature element 32. A nitrogen cold source 'by the cold temperature element 32 allows the θ degree to decrease, or 'can be turned off again' to cool the temperature element 32 to wait for the weaving. The temperature of the second and second temperatures is restored to room temperature. Thus, it is simulated that in the cold climate, the cooling effect of the fabrics 1 and 2 is awaited. Thus, the first preferred embodiment can achieve the same purpose as the first preferred embodiment described above, and can be produced by quickly changing different temperature source devices 3 to generate a simple and simple &amp 4 The effect of the drop test is early (four), and the temperature rise or temperature can be performed. The third preferred embodiment of the present invention is similar to the second preferred embodiment, and the main difference is The difference between the temperature sensing unit 41 of the temperature sensing module 4 and the same device 3 of the measuring device U is 6 on the side of the standby, and the relative position of the sleeve 62 to the connection is adjusted to make the 柩舻μ θ & reverse 茌仟 63 makes the Wei body 61 at an angle to the horizontal plane, so that the fixture to be tested is obliquely shielded without blocking the temperature sensing: 4 temperature sensing unit 41 _ waiting for the fabric 2 The temperature of the upper surface is such that the third preferred embodiment can achieve the same purpose and effect as the above-described first embodiment. The temperature of the upper surface of the temperature sensing unit of the sensor module 4 is not the same. And the effect can be made in different ways. M431321 or 'the temperature sensing unit 4ι of the temperature sensing module 4 and the temperature on the opposite side of the device to be tested 6 as shown in FIG. 6, whereby the temperature sensing unit 41 of the temperature sensing module 4 can be debt The same purpose and effect as described above are measured by measuring the surface temperature of the fabric. It is worthy of explanation. Using the above test method, it is possible to compare the temperature difference of the lower surface of the fish on the upper surface of the same fabric to be tested, thereby understanding the heat insulation and heat dissipation effect of the fabric to be tested: thicker fabric and thinner fabric are For example, 'thicker fabric insulation effect', so the upper and lower surface temperatures differ greatly at the beginning of the test, but the upper surface = close to the thinner fabric; and the functional fabric and the thinner fabric as an example, the functionality Although the temperature difference between the upper and lower surfaces of the fabric is not large, the fabric with a relatively low body temperature is low, so as to show that the functional fabric is not only separated, but has a good effect, and has less heat absorption and more heat dissipation, thereby achieving a lower overall temperature. The above-mentioned new measurable fabric temperature rise and fall of the following effects and advantages, it can indeed achieve the purpose of the new model: instrument one, the new use of (four) warm model Μ 4 continuous observation of the temperature change of the waiting for the field 12 'The effect of simultaneously comparing the temperature changes of the waiting fabrics 1, 2 is produced. 2. The present invention adjusts the position of the shielding member 5 so that the shielding member 5 blocks the temperature source device 3 from being irradiated to the waiting fabric 2 and the temperature sensing unit can replace the special fabric 丨 2 The effect of simple operation is obtained. Third, the novel uses the temperature source device. 3 is the heat source element 31 or the cold source element 32, which can quickly and easily produce the effect of simple operation, and can generate 8 / liter or temperature drop The role of the test. The four new types of temperature sensing unit 4 of the temperature sensing module 4 are source devices 3 a — # ^ . The same side or the opposite side of the fixture fixing device 6 and the two-to-three are obliquely projecting the fixture fixing device 6, and the effect of the test mode can be produced.
At 、所述者,僅為本新型之較佳實施例而已,當不 月匕以此限定本新型實 ^ 1貫靶之靶圍,即大凡依本新型申請專利 :圍及新型說明内容所作之簡單的等效變化與修飾皆仍 屬本新型專利涵蓋之範圍内。 【圖式簡單說明】 —圖1是本新型可測織物溫昇溫降之測試儀-第-較佳 貫施例的正視圖; 圖2疋該第一較佳實施例的一待測件固定裝置的立體 圖; 圖3疋本新型可測織物溫昇溫降之測試儀一第二較佳 實施例的正視圖; 圖κ本新里可測織物溫昇溫降之測試儀一第三較佳 實施例的正視圖; 圖5疋忒第二較佳實施例的側視圖;及 圖:是該第三較佳實施例的側視圖,說明一感溫模组 的感溫单兀與-溫度源裝置在該待測件固定裝置的相反側 M431321 【主要元件符號說明】 1 ..........待測織物 2 ..........待測織物 3 ..........溫度源裝置 31 .........熱溫元件 32 .........冷溫元件 4 ..........感溫权組 41 .........感溫單元 42 .........資料處理單元 421 .......顯示元件 5 ..........遮蔽件 6 ..........待測件固定裝置 61 .........框體 62 .........套管 63 .........連接件 7 ..........架體 10At, the above is only a preferred embodiment of the present invention, and when the moon is not used to limit the target range of the new type of target, that is, according to the new patent application: the surrounding and the new description content Simple equivalent changes and modifications are still within the scope of this new patent. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view of a tester-first preferred embodiment of the measurable fabric temperature rise and fall; FIG. 2 is a test object fixing device of the first preferred embodiment. Figure 3 is a front elevational view of a second preferred embodiment of the tester for temperature rise and fall of the novel measurable fabric; Figure κBenxin Detectable fabric temperature rise and fall tester according to a third preferred embodiment Figure 5 is a side view of the second preferred embodiment; and is a side view of the third preferred embodiment illustrating a temperature sensing unit and a temperature source device of a temperature sensing module The opposite side of the fixture to be tested M431321 [Description of the main components] 1 .......... fabric to be tested 2 .......... fabric to be tested 3 ... ....temperature source device 31 ....heat temperature element 32 .... cold temperature element 4 ..... temperature sensing group 41 . ........sensing unit 42 ....data processing unit 421 . . . display element 5 ..........shading member 6 .. ........DOM fixture 61 ....frame 62 ......... casing 63 ......... connector 7 ..........frame 10