201215867 六、發明說明: 【發明所屬之技術領域】 •本發明係關於一種漏液檢測裝置,特別是指可以檢測 環境的漏液狀態並精確地指出漏液位置的漏液檢測裝置。 【先前技術】 在製造廠房中通常具有冷卻系統與管線配置系統,其 中冷部系統使用-水槽以儲存冷卻水,而管線配置系統使 用鋼管或塑膠管來輸送液態原料或冷卻水。 在製造過程中,水槽裡的水可能會發生水位過高而溢 出來’將導致設備漏電或無法正常運作,或是造成地板座 ^利廠房人員行走。管線也可能因長時間使用而氧化或 疋文到外力而破裂,造成管線裡的液體外漏,若是沒有專 2人員定期做檢修,將造成液態原料浪費或是環境污染, 嚴重者可能散發出有毒氣體危害人體。 册因此,為了克服上述問題,習知漏液檢測器係利用感 ’貝、控制器及警示裝置來通報是否有漏液。然而,習知 漏液檢測器皆採取偵測類比信號的方式來判斷漏液檢測器 所在的區域是否有漏液,此一作法的問題是,無法得知真 正漏液發生的位置,以致於無法讓使用者即時地做出相對 應的因應措施,例如修補或疏散等。 【發明内容】 本發明提供一種漏液檢測裝置,用以偵測漏液並顯示 漏液發生的位置,以便讓使用者不僅以肉眼即可辨識出漏 液的位置並可以精確地得知漏液發生的位置,以快速地對 4/24 201215867 減少了尋找發生漏液的 發生漏液的位置進行修復或疏散, 位置所需要的時間。 為了達成上述目的,根據本 ,提供一觀液檢«置itΠ中—項技術方案 液檢測裝置包括-漏液檢測線及」漏=的漏液狀悲’漏 漏液檢測線與驗㈣模組電性^〃顧組’其中’ -P 电注運接。漏液檢測線用以顯 不%㈣齡位置,錢檢顺包括201215867 VI. Description of the Invention: [Technical Field] The present invention relates to a liquid leakage detecting device, and more particularly to a liquid leakage detecting device which can detect a liquid leakage state of an environment and accurately indicate a liquid leakage position. [Prior Art] A cooling system and a pipeline configuration system are usually provided in a manufacturing plant, in which a cold section system uses a water tank to store cooling water, and a pipeline configuration system uses a steel pipe or a plastic pipe to transport liquid raw materials or cooling water. During the manufacturing process, the water in the water tank may overflow and the water level may overflow, which may cause the equipment to leak or not function properly, or cause the floor staff to walk. The pipeline may also be oxidized due to prolonged use or smashed to external force, causing leakage of liquid in the pipeline. If there is no special personnel to do regular maintenance, it will cause waste of liquid raw materials or environmental pollution. In severe cases, it may emit toxic. Gas harms the human body. Therefore, in order to overcome the above problems, conventional leak detectors use a sensor, a controller, and a warning device to notify whether or not there is a leak. However, the conventional leak detectors use the method of detecting the analog signal to determine whether there is liquid leakage in the area where the liquid leakage detector is located. The problem with this method is that the position of the true liquid leakage cannot be known, so that it cannot be Allow users to make corresponding response measures on the fly, such as repair or evacuation. SUMMARY OF THE INVENTION The present invention provides a liquid leakage detecting device for detecting liquid leakage and displaying a position where liquid leakage occurs, so that the user can recognize the position of the liquid leakage not only by the naked eye but also accurately understand the liquid leakage. The position that occurred quickly to 4/24 201215867 reduced the time required to repair or evacuate the position where the liquid leakage occurred. In order to achieve the above objectives, according to the present, a liquid inspection is provided, and the liquid detection device includes: a liquid leakage detection line and a leaky liquid leakage leak detection line and a test (four) module. The electric ^〃顾 group 'where' -P electric injection transfer. The leak detection line is used to display the position of the (four) age, and the money inspection includes
=導電體、-第-絕緣層及—第二絕緣層,其^ 體線與第二導電體相鄰;第—罐 及第1電體,以隔^ 刀別包覆第一導電體 汉弟一導^H導電 緣層包覆第-絕緣層,且該第-嗜=二導::,第-絕 a 丄 乐一、、,巴緣層的顏色與第一絕緣 】的顏色成對比,U二絕緣層渗透到環境的—漏液時, 弟-絕緣層滲透到漏液的部份顯示第一絕緣層的顏色。藉 ^,使用者透—眼可觀_崎檢職的變色,以辨識 出發生漏液的位置。 除此之外,上述漏液檢測線具有一第一端及一第二端 ’其中,第-端設置-測試電阻,測試電阻分別與第一導 電,及第二導電體·連接。上述漏液制模喊漏液檢 測線的第二端電性連接’漏祕顧_制錄測線的 :迴路電阻值’並根據迴路電阻值判斷漏液檢測線是否有 /參透到一漏液。 θ為了達成上述目的,根據本發明的另一項技術方案, 提供一種漏液檢測系統,用以監控至少—區域的環境漏液 狀態,漏液檢測系統包括複數漏液檢測裝置及一主機,其 中’多個漏液檢繼置設置在至少_區域中並分別斑主機 互相通訊。多個驗檢顺置分财有—第—訊號傳輸介 5/24 201215867 面’多個第一訊號傳輸介面傳輸分別傳輸多個漏液檢測裝 置中之一所輸出的漏液檢測訊號,漏液檢測訊號包括正常 、斷線或漏液訊號;主機具有一第二訊號傳輸介面,第二 讯唬傳輪介面接收多個漏液檢測訊號,主機根據多個漏夜 +双測°孔號輸出一通知訊號或一警示訊號。藉此,使用者可 在主機端監控一區域内的多個位置的漏液檢測狀態, 監控多個區域的漏液檢測狀態。 π p關於本發明之技術手段的詳細說明,請參閱以下的實 施方式,並配合所附圖式一併參照。 、 【實施方式】 本發㈣提供-種可赫並_騎位置的漏液 裝置,可讓使用者更精確地且快速地得知漏液位置,以、 將配合圖式分贱明本發明之漏驗職 ^ 測裝置的騎檢測线。 漏夜檢 々請參考第一A圖、第一B圖、第二A圖及第二6圖, 第一 A圖顯示了本發明的一種漏液檢測裝置的—實施, 示思圖。如第一 A圖所示,所述的漏液檢測裝置1〇包括勺 漏液檢測線U及一漏液檢測模組]3,漏二― 編織線體的特殊材質及結構顯示騎發生的位用 測模組η用以判斷漏液制線u是奸滲_漏液,檢 輸出與漏液發生位置相對應的一提示訊號。 …,迎 =液檢測線η具有一第一端lla及一第二端m,其 第一端lla設置有一測試電阻110,第二端Ub與. 板測模組13電性連接;漏液檢測模組13包 如/之 -及-輪入單元137,其中,提示單元136可::早: 6/24 201215867 不燈或是led七段顯示器其中之一或組合,指示燈可顯示 一種以上不同顏色的燈光,依提示訊號產生不同亮度、顏 色或是閃爍頻率的燈號;LED七段顯示器用以顯示與提示 訊號相關的數字或文字;喇队用以發出與提示訊號有關的 語音或警示音;輸入單元137可為一按鈕或一旋鈕等,用 以接收使用者的操作,以設定與漏液檢測線丨〗的物理特性 、化學特性及通訊有關的參數。 第一 A圖為漏液檢測線I〗的一第一實施例。漏液檢測 線11包括一第一導電體111、一第二導電體113、一第一絕 緣層115、117及一第二絕緣層119,其中,第一導電體ηι 及第二導電體113具有相同的長度並相鄰,即互相不接觸 ;第一絕緣層115、117分別包覆第一導電線iU及第二導 電體113,且包覆後使第一導電體ln與第二導電體113隔 絕並緊密地相隔一固定的小距離;第二絕緣層119包覆第 一絕緣層115、117 ’使第一絕緣層H5、117不會顯露在外 〇 漏液檢測線11的第一實施例中,第一絕緣層115、117 可為兩個獨立的絕緣層,皆包括多股編織線,分別以編織 的方式包覆第一導電體111及第二導電體113,而第二絕緣 層119可為一編織線,將第一絕緣層115、117包覆成一編 織線體。 苐二B圖為漏液檢測線的第二實施例’其與漏液檢測 線的第一實施例的差別在於,漏液檢測線11’的第一絕緣層 115、117可為多股編織線,將第一導電體111及第二導電 體113以編織的方式包覆為一線體,而漏液檢測線11'的第 二絕緣層119可為多股編織線,編織在第一絕緣層115、117 7/24 201215867 外,使第一絕緣層115、117不顯露在外。 上述包覆的方式不限於此,漏液檢測線n的第 例與第二實施例僅為舉例而已,實際實施時,第—絕】 115、117包覆第-導電體U1及第二導電體113的方式, 以及第二絕緣層119包覆第一絕緣層115、117的方^ 束套或纏繞等方式相互搭配。 X 為 在漏液檢測線11的第一實施例與第二實施例中, 導電體111可為銅、II、銀或鎳其中之—或組合,例如 鍍錫銅、銅鎳合金、銅銀合金或銅鎳錫合金,第二導 體113為不鏽鋼。第一導電體111及第二導電體113具有 低阻抗及高傳輸距_雜,且制㈣沾濕後易ς蒸 發,具有可重複使用且不易受到腐钱及氧化的特性。 在漏液檢測線1〗的第—實施例與第二實施例中,第一 絕緣層m、117及第二絕緣層119可為尼龍、聚醋類 醯胺類、聚丙稀腈類、聚乙_或聚丙烯類之其中之二 或組合,第—絕緣層115、117第二絕緣層119的構造可 呈現編織帶體或線體等纖維物體,具有遇水易快速滲透 並迅速蒸乾等效果。 值得一提的是,第-絕緣層115、117及第二絕緣層 】】9可分別染色成兩個對比的顏色或是—深—淺的顏色 ’兩個對比的顏色即為互補色’也就是在「色相環中」 (Johannes Itten co丨or wheel)任兩個顏色的相對位置呈 180度.;深淺程度則是在色彩空間中具有不同的飽和度 aturation或Chroma),舉例來說,第一絕緣層〗15、 二:相對於第二絕緣層119具有較高的飽和度,其中第 ”、邑緣層115、、117為深紅色,第二絕緣層119為白色 8/24 201215867 實際實施時,在乾燥的狀態下, 呈現的顏色為第二絕緣層119ό^ Μ檢測線11所 滲透到環境的液態物時,第二絕緣屌’當漏液檢測線11 近似透明,因此,第一絕緣層115、Y U9會因遇水變得 出來’也鱿是從第二絕緣層119外二:的顏色會被顯露 115、117的顏色,藉此,讓使用者2察到第-絕緣層 的所在位置,且漏液檢測線U A眼辨識發生漏液 使用,當漏液檢測線η上滲透的:回復性,可重複 測線11恢復為呈現第二絕緣層119属的夜蒸發時,漏液檢 當漏液檢測線11被放置在1味顏色。 漏液時,崎檢測線η的線段中渗透、/料透到環境的 ’從第二絕緣㉟119的顏色轉變為第的部份會變色 顏色,因此,具有視覺上的可辨識性。、:^層115、117的 人員經過漏液檢測線u附近時,或ς::上沒有相關 視變色的存在,即忽視騎的存在。=太=,仍會忽 檢測線μ能無法讓使用者即時觀^液 漏液進仃彳晴應_減施。 立對 漏液檢測裝置10利用漏液檢測模組 ,電阻量測,漏液檢測線η的測試電阻== m :第體1二第二料體113電性連接使得第-導電體 第一導纽113形成—迴路,如第—B圖所示,為本 =之漏液檢麟之第—f_之示錢。漏驗測模組 13置測此迴路的-迴路電阻值R,並根據 液檢測線11是㈣__境的驗。 貫際貫施時,採用的測試電阻110的阻抗遠大於第一 9/24 201215867 =體111及第二導電體113的阻抗,因此, 爍時且此迴路沒右鼢始士 田衣i兄為釔 檢測線11的、㈣有斷線時,漏液檢測模組13可量測到漏液 R,也就電阻值11約為測試電阻110的測試電阻值 ,也就疋第-導電體ln及第二導電體113的 广。式電阻110触抗較小而不考慮;而當 ’任 ^段斷料,此迴路呈賴路,齡制 ^液檢猶11的魏試轨丨 忒電阻值Rt。 、境為潮濕或存在漏液時,液態物從第二絕緣層ιΐ9 /參透到第―絕緣層115、117,滲透到漏液的第—絕緣層115 二1π將導通第一導電體m與第二導電體113,也就是第 導電& 111與第二導電體113導通的地方從漏液檢測線 山的第一端11a處的測試電阻110變為第一端lla與第二 碥11b之間的一滲透處llc,因此,漏液檢測模組13可量 至]漏液;^測線11的迴路電阻值r小於測試電阻η〇的測 試電阻值Rt。 、 藉此,漏液檢測模組〗3可根據量測漏液檢測線η的 廼路電阻值R來判斷漏液檢測線n是否有斷線或漏液,並 且,漏液檢測模組13更可以根據漏液檢測線丨1的迴路電 阻值R來計算發生漏液的位置與漏液檢測模組13之間的距 離。 舉例來說,漏液檢測線11的總長度為L,漏液檢測線 11的總長度L約等於第一導電體111或第二導電體113的 長度,而迴路的長度為第一導電體111加上第二導電體113 的長度2L。發生漏液的滲透處lie距離漏液檢測模組13 的距離為L,’利用電阻定律R = P2L’/A ’換算得到漏液發生 10/24 20i215867 的位置’即計算出 及第二導雷鱗知線n的電阻率,約為第一導電體1]fI 電體113的電阻率吏同 111及第二導_ n3呈右X二”第—導電體 體⑴或第二導電體u; 5的電阻率,A约為第-導電 等電粗113的截面積。= electrical conductor, - first insulating layer and - second insulating layer, the body line is adjacent to the second electrical conductor; the first can and the first electrical body are covered with the first conductor a conductive layer of H is coated with the first insulating layer, and the first-family=two-conductor::, the first-a-a-a, the color of the fringe layer is compared with the color of the first insulating layer, When the U two insulating layer penetrates into the environment - when leaking, the portion of the insulating layer that penetrates into the liquid leakage shows the color of the first insulating layer. By means of the user, the user can see through the discoloration of the saki inspection job to identify the location where the liquid leakage occurred. In addition, the liquid leakage detecting line has a first end and a second end, wherein the first end is provided with a test resistor, and the test resistor is respectively connected to the first conductive and the second electrical conductor. The second end of the liquid leakage molding leak detection line is electrically connected to the leak detection _ the line resistance value ‘ and the loop resistance value is determined according to the loop resistance value to determine whether the liquid leakage detection line is/infiltrated into a leak. In order to achieve the above object, according to another aspect of the present invention, a liquid leakage detecting system for monitoring an environmental leakage state of at least a region, the liquid leakage detecting system includes a plurality of liquid leakage detecting devices and a host, wherein 'Multiple leak detection relays are set in at least the _ area and the plaque hosts communicate with each other. Multiple inspections and inspections are available. - Signal transmission 5/24 201215867 Surface transmission of multiple first signal transmission interfaces respectively. The detection signal includes a normal, disconnected or leaking signal; the host has a second signal transmission interface, and the second signal transmission interface receives a plurality of liquid leakage detection signals, and the host outputs a notification according to a plurality of leaky nights + double measurement aperture numbers. Signal or a warning signal. Thereby, the user can monitor the liquid leakage detection state of a plurality of locations in an area on the host side, and monitor the liquid leakage detection state of the plurality of areas. For a detailed description of the technical means of the present invention, reference is made to the following embodiments, and reference is made to the accompanying drawings. [Embodiment] The present invention provides a liquid leakage device capable of arranging and riding the position, so that the user can know the liquid leakage position more accurately and quickly, and the present invention will be described in conjunction with the drawings. Leak the inspection line of the inspection device. Leak-night inspection 々 Refer to the first A diagram, the first B diagram, the second A diagram, and the second diagram 6. The first diagram A shows an implementation and a diagram of a liquid leakage detecting device of the present invention. As shown in FIG. A, the liquid leakage detecting device 1 includes a spoon leak detection line U and a liquid leakage detecting module 3, and the special material and structure of the leaky-woven wire body show the position where the riding occurs. The test module η is used to judge that the liquid leakage line u is a oozing liquid, and the detection output corresponds to a prompt signal of the position where the liquid leakage occurs. The liquid detecting line η has a first end 11a and a second end m. The first end 11a is provided with a test resistor 110, and the second end Ub is electrically connected to the panel module 13; The module 13 includes a / and - wheeling unit 137, wherein the prompting unit 136 can:: early: 6/24 201215867 one or a combination of no lights or led seven-segment display, the indicator light can display more than one different The color of the light, according to the prompt signal to generate different brightness, color or flashing frequency of the light; LED seven-segment display is used to display the number or text related to the prompt signal; the racquet is used to send a voice or warning tone related to the prompt signal The input unit 137 can be a button or a knob or the like for receiving a user's operation to set parameters related to the physical characteristics, chemical characteristics, and communication of the liquid leakage detecting line. The first A is a first embodiment of the liquid leakage detecting line I. The liquid leakage detecting line 11 includes a first conductive body 111, a second conductive body 113, a first insulating layer 115, 117 and a second insulating layer 119, wherein the first conductive body η1 and the second conductive body 113 have The same length and adjacent to each other, that is, no contact with each other; the first insulating layers 115, 117 respectively cover the first conductive line iU and the second conductive body 113, and after cladding, the first conductive body ln and the second conductive body 113 Isolated and closely spaced apart by a fixed small distance; the second insulating layer 119 envelops the first insulating layer 115, 117' such that the first insulating layer H5, 117 is not exposed in the first embodiment of the outer leakage detecting line 11 The first insulating layer 115, 117 may be two independent insulating layers, each of which includes a plurality of braided wires, respectively covering the first conductive body 111 and the second conductive body 113 in a braided manner, and the second insulating layer 119 may be As a braided wire, the first insulating layers 115, 117 are covered into a braided wire body. The second embodiment of the liquid leakage detecting line is different from the first embodiment of the liquid leakage detecting line in that the first insulating layers 115, 117 of the liquid leakage detecting line 11' may be a multi-strand braided wire. The first conductive body 111 and the second conductive body 113 are woven in a woven manner as a linear body, and the second insulating layer 119 of the liquid leakage detecting line 11 ′ may be a multi-strand braided wire woven on the first insulating layer 115 . 117 7/24 201215867, the first insulating layers 115, 117 are not exposed. The manner of the above-mentioned coating is not limited thereto, and the first example and the second embodiment of the liquid leakage detecting line n are merely examples. In actual implementation, the first and second conductors U1 and the second conductor are covered by the first and second conductors 115 and 117. The manner of 113, and the manner in which the second insulating layer 119 covers the first insulating layers 115, 117 or the windings are matched with each other. X is in the first embodiment and the second embodiment of the liquid leakage detecting line 11, and the electric conductor 111 may be copper, II, silver or nickel, or a combination thereof, such as tin-plated copper, copper-nickel alloy, copper-silver alloy. Or copper nickel tin alloy, the second conductor 113 is stainless steel. The first electric conductor 111 and the second electric conductor 113 have low impedance and high transmission distance, and are easy to evaporate after being wetted, and are reusable and less susceptible to rot and oxidation. In the first embodiment and the second embodiment of the liquid leakage detecting line 1 , the first insulating layer m, 117 and the second insulating layer 119 may be nylon, polyacetamide, polyacrylonitrile, polyethylene The second insulating layer 119 of the first insulating layer 115, 117 may have a fiber object such as a braided belt or a wire body, and has the effects of rapid penetration with water and rapid evaporation. . It is worth mentioning that the first insulating layer 115, 117 and the second insulating layer can be dyed into two contrasting colors or a deep-light color, and the two contrasting colors are complementary colors. That is, in the "Johannes Itten co丨or wheel", the relative positions of the two colors are 180 degrees. The depth is in the color space with different saturations or Chroma). For example, An insulating layer 15 and 2 have a higher saturation with respect to the second insulating layer 119, wherein the first, the edge layer 115, 117 is dark red, and the second insulating layer 119 is white 8/24 201215867 When the color is in the dry state, the color of the second insulating layer 119 Μ Μ detection line 11 penetrates into the environment, the second insulating 屌 'when the liquid leakage detecting line 11 is approximately transparent, therefore, the first insulation The layers 115 and Y U9 will come out due to water contact. 'Also, the color from the second insulating layer 119 will be exposed to the color of 115, 117, thereby allowing the user 2 to see the first insulating layer. Location, and leak detection line UA eye identification leaking use When the leak detection line η is infiltrated: resilience, the repeatable line 11 returns to the night evaporation of the second insulating layer 119 genus, the liquid leakage detection leak detection line 11 is placed in a 1-color color. In the line segment of the smear detection line η, the material that has penetrated into the environment and changes from the color of the second insulation 35119 to the first portion will change color, and thus has visual identifiability. When the person in 117 passes near the leak detection line u, or there is no relevant visual discoloration on the ς::, that is, the existence of the ride is neglected. = too =, the line μ can still be detected, and the user can not immediately see the liquid leakage. The liquid entering the 仃彳 应 should be reduced _. The vertical leak detection device 10 uses the liquid leakage detection module, the resistance measurement, the leakage resistance detection line η test resistance == m: the first body 2 second material body 113 electricity The sexual connection causes the first conductor 113 to form a loop, as shown in the first-B diagram, which is the first of the liquid leakage detection-f_. The leakage inspection module 13 detects this. The loop-loop resistance value R, and according to the liquid detection line 11, is the test of the (four)__ context. The impedance of the test resistor 110 is used during the continuous application. Greater than the first 9/24 201215867 = the impedance of the body 111 and the second conductor 113, therefore, when the circuit is blinking and the circuit is not right, the Shishiyi brother is the detection line 11 of the 钇, (4) when there is a disconnection, the liquid leakage The detecting module 13 can measure the leakage R, that is, the resistance value 11 is about the test resistance value of the test resistor 110, that is, the width of the first conductor ln and the second conductor 113. Small but not considered; and when the 'Ren ^ section breaks the material, this loop is the Lai Road, the age system ^ liquid test is still 11 Wei test track resistance value Rt. When the environment is wet or there is liquid leakage, the liquid material passes from the second insulating layer ι 9 / penetrates into the first insulating layer 115, 117, and penetrates into the first insulating layer 115 of the liquid leakage, and the first conductive body m and the first conductive body The two conductors 113, that is, where the first conductive & 111 and the second electrical conductor 113 are turned on, are changed from the test resistor 110 at the first end 11a of the liquid leakage detecting line to between the first end 11a and the second side 11b. One of the infiltrations is the net, therefore, the liquid leakage detecting module 13 can measure the liquid leakage; the loop resistance value r of the measuring line 11 is smaller than the test resistance value Rt of the test resistance n?. Therefore, the liquid leakage detecting module 3 can determine whether the liquid leakage detecting line n is broken or leaked according to the resistance value R of the liquid leakage detecting line η, and the liquid leakage detecting module 13 further The distance between the position where the liquid leakage occurs and the liquid leakage detecting module 13 can be calculated from the loop resistance value R of the liquid leakage detecting line 丨1. For example, the total length of the liquid leakage detecting line 11 is L, and the total length L of the liquid leakage detecting line 11 is approximately equal to the length of the first electrical conductor 111 or the second electrical conductor 113, and the length of the loop is the first electrical conductor 111. The length 2L of the second electric conductor 113 is added. The distance at which the leaking liquid leaks from the leak detection module 13 is L, 'The displacement is 10/24 20i215867 by the resistance law R = P2L'/A ', and the second guide is calculated. The resistivity of the line n is about the first conductor 1] fI electrical body 113 resistivity 吏 111 and the second guide _ n3 is right X two" first - conductor body (1) or second conductor u; The resistivity of 5, A is approximately the cross-sectional area of the first-conductivity isoelectric thick 113.
電體11^加=離L,在乾燥且無斷線的情況下約為第-導 =:導電體113的總長度的兩倍,即I>L 端lib 時’則漏液距離L’約為漏液檢測線Π的第二 有多處滲透二的;若在漏液檢測線U上具 近的漏液位置盘漏液離^堇代表與第二端11b最 罝/、漏液铋測模組13之間的距離的。 由於迴路電阻值尺包括了 ^及漏液本身的液體電阻值,為了更‘二2導電體 :之請參考第一 C圖,為本發明 ::騎位 例大致相同,其;異::所測線-與第-實施 導電體m與第二導電體 作為-補償線。當漏液檢測㈣:透= 體m與第二導電體113形成一第二二由J二導電 量測第二迴路電阻值尺,來檢測漏』 ,亚將先前得到的迴路電阻值尺扣掉 、液體電阻 ’以進-步制較精確的騎距離L,。 電阻值R1 在本實施例中,第一導電體⑴ 鋼、锡、銀或鎳其中之,戈袓人弟二導電體】12為 導電體Π3為不鏽鋼。成口例如鑛锡鋼等’第二 實際實施時,物峨置1G可放置心地板,漏 Π/24 201215867 液檢測線11、1Γ可延牆角邊緣佈設,以偵測地板漏液的狀 態;漏液檢測裝置10也可以設置在管線附近’漏液檢測線 11、1Γ可延管線纏繞,以偵測管線漏液的狀態;漏液檢測 裝置10也可以設置在冷卻水槽或污水處理槽上,漏液檢測 線11、1Γ佈設在水槽内側壁,大約設置在水位臨界線上, 以偵測水位是否超過水位臨界線。 為了詳細地描述漏液檢測模組13的運作,請參考第三 圖,為本發明之漏液檢測模組的一第一實施例的方塊圖。 漏液檢測模組13包括一微控制單元130、一類比轉數位轉 換器131、一電阻檢測單元133、一記憶單元135、一提示 單元136、-輸人單元137 ' —第—訊號傳輸介面138及二 電源電路139,其中類比轉數位轉換器⑶、記憶單元山 、提示單元136、輸人單元137、第一訊號傳輸介面 ,源電路139分別與微控制單元13Q電性連接;電阻檢 夺兀133分職錢檢觀u、u,及魏概 電性連接。 付状裔 ㈣繼組13的第-實施例中,電源電路139 , -交流市電連接,並將交流市電轉換為—直流電壓,如 電=單St類比轉數位轉換器131、電阻檢和 兀3及弟汛唬傳輸介面138。電阻檢測單元1幻可 歐姆計(oh__,若電阻檢測單元]33與漏液線^ 電性連接時,電阻檢測單元133分別與第一導電體j 第二導電體113電性連接,電阻檢測單元u : 的測試電壓至第―導電體ill及第二導電體m,U 檢測線11的第一端lib處的第一導電體ln I第心 H3的端縣賴電壓,電崎鮮元133彻檢⑤ 12/24 201215867 teaivanometer)測量流經第一導電體山及 的-迴路電流,再·_輯^導電體113 k路電阻值R。接著,微控制單元13〇可 、後輸出-The electric body 11 is added = L, which is about twice the total length of the first conductor =: conductor 113 in the case of dryness and no disconnection, that is, I > L terminal lib, then the liquid leakage distance L' is about For the leakage detection line, there are multiple penetrations of the second part; if there is a near liquid leakage position on the liquid leakage detection line U, the disk leakage liquid is the most 罝/, and the liquid leakage is detected. The distance between the modules 13. Since the loop resistance scale includes the liquid resistance value of the leak and the liquid itself, in order to more 'two 2 conductors', please refer to the first C diagram, which is the invention: the riding position example is substantially the same, and the difference is: The line-and-first implementation conductor m and the second conductor act as a compensation line. When the liquid leakage detection (4): the body m and the second electrical conductor 113 form a second two by the J two conductivity measurement second loop resistance scale to detect the leakage, the sub-deduction of the previously obtained loop resistance scale The liquid resistance 'takes a more precise riding distance L in a step-by-step manner. Resistance value R1 In the present embodiment, the first conductor (1) is made of steel, tin, silver or nickel, and the conductor of the second conductor is 12, and the conductor Π3 is stainless steel. In the second actual implementation of the mouth, such as mineral tin steel, the object can be placed on the heart floor with 1G, and the leak detection/24 201215867 liquid detection line 11 and 1Γ can be extended at the edge of the corner to detect the leakage of the floor; The liquid detecting device 10 can also be disposed in the vicinity of the pipeline. The liquid leakage detecting line 11 and 1 can extend the pipeline to detect the state of leakage of the pipeline. The liquid leakage detecting device 10 can also be disposed on the cooling water tank or the sewage treatment tank. The liquid detection lines 11, 1 are arranged on the inner side wall of the water tank, and are arranged on the water level critical line to detect whether the water level exceeds the water level critical line. In order to describe in detail the operation of the liquid leakage detecting module 13, please refer to the third drawing, which is a block diagram of a first embodiment of the liquid leakage detecting module of the present invention. The liquid leakage detecting module 13 includes a micro control unit 130, an analog-to-digital converter 131, a resistance detecting unit 133, a memory unit 135, a prompting unit 136, and an input unit 137'--the signal transmission interface 138. And a power supply circuit 139, wherein the analog-to-digital converter (3), the memory unit mountain, the prompting unit 136, the input unit 137, the first signal transmission interface, and the source circuit 139 are electrically connected to the micro control unit 13Q, respectively; 133 points of money to check the u, u, and Wei are electrically connected. Fuzhou (4) In the first embodiment of the group 13, the power supply circuit 139, - AC mains connection, and convert the AC mains to - DC voltage, such as electricity = single St analog to digital converter 131, resistance check and 兀 3 And the transmission interface 138. The resistance detecting unit 1 ohmic ohmmeter (oh__, if the resistance detecting unit) 33 is electrically connected to the liquid leakage line, the resistance detecting unit 133 is electrically connected to the first conductor j and the second conductor 113, respectively, and the resistance detecting unit u : The test voltage to the first conductor ill and the second conductor m, U the first conductor lib at the first end lib of the detection line 11 is the end of the county H3 voltage, the electric zea 133 Check 5 12/24 201215867 teaivanometer) to measure the - loop current flowing through the first conductor mountain, and then _ _ ^ conductor 113 k road resistance value R. Then, the micro control unit 13 can output and then output -
判斷漏液檢顺11是否錢線轉透到^液姆電阻值R =理,若電阻檢測單元133與漏液檢測線 單元133分別與第-導電體m、;電= 113電性連接及第三導電體112電性 ^導電體It is judged whether the liquid leakage check 11 is turned to the liquid resistance value R = rational, and if the resistance detecting unit 133 and the liquid leakage detecting line unit 133 are electrically connected to the first conductor m, respectively; Three conductors 112 electrical ^ conductor
:::檢測線U’之間的開關單元(圖未示):=: ^電肢111及紅導電體113 &迴路電阻 電體113及第三導電體112的第二迴路電阻^疋第一導 人員戶ΤίίΪ各觀崎測方法係為雜_域中之技術 、斤可知心之手段,因此即不再對詳細的 ^必須=綱岐,上騎說_,皆料實施料 例不’本發明並不限於❹上述實施方式,亦可以是餘 出測试電流,再偵測輸出電屢。 在漏液檢測模組13的第一實施例中,記憶單元135儲 子位置對照表,此位置對照表為根據電 對照表,也就是在特定的電阻率p及截面似下^: 不同的迴路電阻值R對_不_導通長度,即不同的導 通長度代表著減應的滲祕lle麟驗檢測模组i 液距離L,處。 '、 輸入單元137用以接收使用者設定與漏液檢測線n有 關的參數’此參數經微控制單元13〇分析處理後建立上述 之位置對照表,並儲存於纖單元W,上述參數例如測試 13/24 201215867 電阻值Rt、電阻率P及截面積八等; 阻檢測單㈣所量測的迴路電阻值 := 液檢測訊號’漏液檢測狀態包 出爲 路電阻值r小於戦纽值R日4夜,當迴 ^ _Rt時,微控制單元130可將迴 路電位置對照表比對後得到相對應的漏液位置 新县、丨/^例巾’微控制單元13Q將電阻檢測單元133 所量測的迴路電阻值R與第二迴路餘值R,相減,得到漏 液檢測線11,的漏液位置。 十战⑽漏 的比:35 據迴路電阻值R與測試電阻值Rt ^ 果控制提示單元136輸出與漏液檢測線11的漏液 ^測狀態相對應提示訊號,或是根據迴路電阻值R與位置 =照表比對結果控職示單元136輸出與驗檢測線U上 6、漏液位置相對應的提示訊號,即漏液位置訊號,例如以 led七段顯示器顯示漏液位置的數值;輸人單元137亦可 以接收錢麵設定有關提示單元136所顯示的提示訊號 例如‘色燈賴表騎檢測線11為正常,橘色燈號代表 漏液檢穩11斷線,純色燈號代表騎制線11滲透 到漏液’上述提示訊號_色對關係也經由微控制單元 135儲存至記憶單元I%。 ^第四圖為本發明的漏液檢測系統的一第一實施例之示 意圖。如第四圖所示,漏液檢測系統1包括-主機15盘福 數個:液檢測裴置_、1〇a2至1〇如,其中N可為二% 中任一個整數1個騎檢測裝置IGa,、池2至i〇aN分別 串在同條傳輸線上並與主機15透過此條傳輸線作通訊。 在漏’夜檢測系統的第一實施例中,多個漏液檢測裝置 14/24 201215867 l〇a〗、10a2至l〇aN分別包括一漏液檢測模組13,其中,每 一個漏液檢測模組13包括一第一訊號傳輸介面138,用以 與主機15中的第二訊號傳輸介面(圖未示)互相通訊。每一 個第一訊號傳輸介面138與第二訊號傳輸介面可為RS-485 介面或RS-232介面等有線訊號傳輸介面。在一較佳的實施 例中’每一個第一訊號傳輸介面138與第二訊號傳輸介面::: Switch unit between detection lines U' (not shown): =: ^Electrical limb 111 and red conductor 113 & loop resistor body 113 and third loop resistor of third conductor 112 A guide staff Τ ί Ϊ Ϊ Ϊ Ϊ Ϊ Ϊ Ϊ Ϊ Ϊ Ϊ Ϊ Ϊ Ϊ Ϊ Ϊ Ϊ Ϊ Ϊ Ϊ Ϊ Ϊ Ϊ Ϊ Ϊ Ϊ Ϊ Ϊ 域中 域中 域中 域中 域中 域中 域中 域中 域中 域中 域中 域中 域中 域中 域中 域中 域中 域中 域中 域中 域中The present invention is not limited to the above embodiment, and it is also possible to reserve the test current and then detect the output power. In the first embodiment of the liquid leakage detecting module 13, the memory unit 135 stores the position comparison table, and the position comparison table is based on the electrical comparison table, that is, at a specific resistivity p and a cross section: different circuits The resistance value R is _ not _ conduction length, that is, the different conduction length represents the distance L of the liquefaction detection module i liquid distance L. The input unit 137 is configured to receive a parameter related to the liquid leakage detecting line n by the user. The parameter is analyzed and processed by the micro control unit 13 to establish the above position comparison table, and is stored in the fiber unit W. The above parameters are for example tested. 13/24 201215867 Resistor value Rt, resistivity P and cross-sectional area eight; resistance test single (4) measured loop resistance value: = liquid detection signal 'leak detection status out of the road resistance value r is less than 戦 value R 4 nights, when ^_Rt is returned, the micro control unit 130 can compare the loop electrical position comparison table to obtain the corresponding liquid leakage position, the new county, the 丨/^ 巾 'micro control unit 13Q will be the resistance detecting unit 133 The measured loop resistance value R is subtracted from the second loop residual value R to obtain a liquid leakage position of the liquid leakage detecting line 11. The ratio of the tenth battle (10) leakage: 35 According to the loop resistance value R and the test resistance value Rt ^, the control prompting unit 136 outputs a warning signal corresponding to the liquid leakage detection state of the liquid leakage detecting line 11, or according to the loop resistance value R and Position=photo comparison result control unit 136 outputs a prompt signal corresponding to the liquid leakage position on the inspection line U, that is, the liquid leakage position signal, for example, the value of the liquid leakage position is displayed by the LED seven-segment display; The person unit 137 can also receive the money surface setting related to the prompt signal displayed by the prompting unit 136, for example, the 'color lamp ray table riding detection line 11 is normal, the orange color number represents the liquid leakage detection and the stability is 11 broken line, and the solid color light number represents the riding system. The line 11 penetrates into the leaking liquid. The above-mentioned prompt signal_color pair relationship is also stored to the memory unit I% via the micro control unit 135. The fourth figure is a schematic view of a first embodiment of the liquid leakage detecting system of the present invention. As shown in the fourth figure, the liquid leakage detecting system 1 includes a plurality of main engine 15: liquid detecting device _, 1 〇 a2 to 1, for example, wherein N can be any one of two integers and one riding detecting device IGa, pools 2 to i〇aN are respectively strung on the same transmission line and communicate with the host 15 through the transmission line. In the first embodiment of the leak detection system, a plurality of liquid leakage detecting devices 14/24 201215867 l〇a, 10a2 to l〇aN respectively include a liquid leakage detecting module 13, wherein each liquid leakage detecting The module 13 includes a first signal transmission interface 138 for communicating with a second signal transmission interface (not shown) in the host 15. Each of the first signal transmission interface 138 and the second signal transmission interface may be a wired signal transmission interface such as an RS-485 interface or an RS-232 interface. In a preferred embodiment, each of the first signal transmission interface 138 and the second signal transmission interface
為RS-485介面,互相進行半雙工傳輸,即一問一答地輪流 傳送與接收。而主機15與多個漏液檢測裝置l〇ai、l〇a2至 l〇aN之間的訊號傳輸協定可為一傳輸控制/網路通訊協定 (Transmission Control Protocol/Internet Protocol ; TCP/IP)或 一儀錶通訊協定(ModBus-RTU) 〇 在漏液檢測系統的第一實施例中,主機15透過第二訊 號傳輸介面定時地發出一輪詢訊號(Polly signal)至多個漏 液檢測裝置l〇ai、1〇七至l〇aN,每一個微控制單元13〇接 收到輪詢訊號後,根據電阻檢測單元133所檢測到的迴路 電阻值R判斷漏液檢測線U的漏液檢測狀態,並控制第一 ,戒傳輸介面238輸出與漏液檢測狀態有關的漏液檢測訊 唬至主機15 實際實施時,漏液檢測訊號包括正常、斷線 及,液三種訊號,舉例來說,漏液檢測訊號為⑻〇時代表 正常,FFF時代表斷線,* 010時代表漏液。藉此,使用 者可以在域15端根據多個漏崎測裝置_ ' _至 ,所輸出的漏液檢測訊號監控多個漏液檢難置咖、 至1 OaN的漏液檢測狀態。 當漏賴_號絲騎時,微控财元i3G更傳輸 通至主機15’主機15根據漏液位置訊號輸出一 通知喊以通知主機15端的使㈣根據騎位置訊號進行 15/24 201215867 修,通知訊號如文字簡訊或語音廣播;或是由主機 刪電綱,剩受檢測的設 作來排除漏液’例如控制水槽端的一耕水 排除過多的水量,或是關閉管線輸入端的開 ,闕’轉止輸送原料來防止原料外露或發出 、=广測訊號代表斷線時,主機15根據漏液檢 a號輸出-通知訊號至使用者或輸出一控制訊號至一邀 圖未示),以控制警示模組發出一警示訊號:祕: 相關人貝更換漏液檢測線u。 為了使多個漏液檢測裝置10ai、10a2For the RS-485 interface, half-duplex transmission is performed with each other, that is, transmission and reception are alternately answered in a question-and-answer manner. The signal transmission protocol between the host 15 and the plurality of liquid leakage detecting devices 10a, l〇a2 to l〇aN may be a Transmission Control Protocol/Internet Protocol (TCP/IP) or A meter communication protocol (ModBus-RTU) In the first embodiment of the liquid leakage detecting system, the host 15 periodically sends a polling signal to the plurality of liquid leakage detecting devices l〇ai through the second signal transmission interface. 1〇7 to l〇aN, after receiving the polling signal, each micro control unit 13 determines the leakage detection state of the liquid leakage detecting line U according to the loop resistance value R detected by the resistance detecting unit 133, and controls the first First, the transmission interface 238 outputs a liquid leakage detection signal related to the liquid leakage detection state to the host computer 15. In actual implementation, the liquid leakage detection signal includes normal, disconnected, and liquid three signals. For example, the liquid leakage detection signal is (8) When 〇 represents normal, FFF represents broken line, and * 010 represents leakage. Thereby, the user can monitor the leak detection state of the plurality of liquid leakage detection and the 1 OaN based on the leak detection signal outputted by the plurality of leak detection devices _ ' _ to the domain 15 end. When the _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The notification signal is a text message or a voice broadcast; or the host deletes the power, and the detected device is left to exclude the leakage. For example, control a water in the water tank to remove excessive water, or turn off the input of the pipeline. Turning off the conveying material to prevent the raw material from being exposed or emitted, and when the wide measuring signal represents the disconnection, the host 15 outputs a notification signal to the user according to the leak detection a-notification signal or outputs a control signal to an invitation map (not shown) to control The warning module sends a warning signal: Secret: The relevant person replaces the leak detection line u. In order to make a plurality of liquid leakage detecting devices 10ai, 10a2
同的設備上,依照不同的設備需要可分別對多個漏 攻欢"、置】0a丨、收2至i〇aN中的每一個作設定,使運用 有主彈性’例如每一個輸入單元137接收使用者設定 口。ηι日_!間及反應時間’其中取樣時間為類比轉數位轉換 益⑶母隔一特定時間便對電阻檢測單幻幻所檢測的迴 路電阻取樣並作類比數位轉換後得到數位的迴路電阻值R •^^^為^控制單凡請接收到輪詢訊號後^隔一 丰又時間才輪出漏液檢測訊號至主機15。 請參考第五圖,為本發明之漏液檢測模組之第二實施 =方,圖’並配合參考六圖,為本發明之漏液檢測系統 ϋΓ施例之示意圖。漏液檢聰組的第二實施例與漏 =測模組的第-實施例大致相同,其差異在於,漏液檢 ’貝Ά23具有-第一無線訊號傳輸介面23 ⑽電性連接,取代了第—訊號傳輸介面138,並且漏= 測板組23更包括-定位單元说與微控制單以3Q電性連 接。疋位早兀232可為GPS、GpRs或AGps等,用以接收 16/24 201215867 一衛星訊號並根據衛星訊號輸出一定位訊號至微控制單元 130,微控制單元130輸出漏液檢測訊號時,同時輸出定位 訊號。 漏液檢測系統的第二實施例與漏液檢測系統的第_實 施例大致相同’其差異在於,漏液檢測系統2的主機25外 接複數無線傳輸模組27a〗、27a]至27aM,其中Μ為1〜256 中的任一整數。多個無線傳輸模組27a】、27&2至27aM中的 每一個包括一第三訊號傳輸介面(圖未示),每一個第三訊號 φ 傳輸介面分別與主機25的一第四訊號傳輸介面互相通訊, 多的訊號傳輸介面與第四訊號傳輸介面可為RS-485或 RS232等有線訊號傳輸介面。多個無線傳輸模組27ai、27a2 至27aM中的每一個包括還包括一第二無線訊號傳輸介面( 圖未示),每一個第二無線訊號傳輸介面分別與多個漏液檢 測裝置201、202至20M中的每一個第一無線訊號傳輸介面 238互相通訊’其中第一無線訊號傳輸介面238及多個第二 無線訊號傳輸介面可為Zigbee或RF等無線傳輸介面。 • 多個漏液檢測裝置201、202至20M中的每一個可選擇 地與最近的多個無線傳輸模組27a]、27a2至27aM中的一個 互相通訊,多個無線傳輸模組27a]、27a2至27aM分別暫時 地儲存多個漏液檢測裝置201、202至20M所輸出的漏液檢 測訊號、定位訊號或漏液位置訊號,並當多個無線傳輸模 組27a!、27as至27aM接收到主機25的輪詢訊號後,將漏 液檢測訊號、定位訊號或漏液位置訊號回傳至主機25,主 機25端的使用者便可以得知發生漏液所在的位置或區域。 藉此,漏液檢測系統2利用無線傳輸可使多個漏液檢測裝 置201、202至20M設置的位置更加具有彈性,並擴大了檢 17/24 201215867 測漏液的範圍。 綜合上述’已揭露了本發明所提供的漏液檢測 漏液檢測线所使用的觸手段,彻驗檢測線' 可顯示漏㈣生的位置’並且由騎檢職組可 = 檢測線上滲透騎的位置與騎檢賴組之_距離,= 此,漏液檢_統可同時監控多個騎檢職置的漏: 測狀況,並發出通知訊號或警示訊號提醒相關人員作出 對應的處理。 ' 惟以上所述者,僅為本發明之較佳實施例而已,當不 ^以此限定本發明實施之_,即大凡依本發日騎請^利 乾圍及發魏_容所作之簡單的等效變化與修飾,皆仍 屬本發明專利涵蓋之範圍内。 【圖式簡單說明】On the same device, according to the needs of different devices, each of the multiple missed attacks, "0a", and 2 to i〇aN can be set separately, so that the application has the main elasticity 'for example, each input unit 137 receives the user setting port. Ηι日_! and reaction time 'where the sampling time is analogous to the digital conversion benefit (3) the mother is separated by a specific time to sample the loop resistance detected by the resistance detection single phantom and analog digital conversion to obtain the digital loop resistance value R • ^^^ is the control unit. After receiving the polling signal, the leak detection signal is sent to the host 15 after a certain time. Please refer to the fifth figure, which is a second embodiment of the liquid leakage detecting module of the present invention. FIG. 2 is a schematic diagram of a leakage detecting system according to the present invention. The second embodiment of the liquid leakage test group is substantially the same as the first embodiment of the leak test module, and the difference is that the liquid leakage test 'Beibei 23 has the first wireless signal transmission interface 23 (10) electrically connected, replacing The first signal transmission interface 138, and the drain = the test board group 23 further includes a positioning unit said to be electrically connected to the micro control unit by 3Q. The 兀 兀 232 can be GPS, GpRs or AGps, etc., for receiving 16/24 201215867 a satellite signal and outputting a positioning signal according to the satellite signal to the micro control unit 130, and the micro control unit 130 outputs the liquid leakage detecting signal simultaneously Output positioning signal. The second embodiment of the liquid leakage detecting system is substantially the same as the first embodiment of the liquid leakage detecting system. The difference is that the main body 25 of the liquid leakage detecting system 2 is externally connected to the plurality of wireless transmission modules 27a, 27a] to 27aM, wherein Is any integer from 1 to 256. Each of the plurality of wireless transmission modules 27a, 27 & 2 to 27aM includes a third signal transmission interface (not shown), and each of the third signal φ transmission interfaces and a fourth signal transmission interface of the host 25 respectively Communication with each other, multiple signal transmission interfaces and fourth signal transmission interface can be wired signal transmission interfaces such as RS-485 or RS232. Each of the plurality of wireless transmission modules 27ai, 27a2 to 27aM further includes a second wireless signal transmission interface (not shown), each of the second wireless signal transmission interfaces and the plurality of liquid leakage detecting devices 201, 202 Each of the first wireless signal transmission interfaces 238 to 20M communicates with each other. The first wireless signal transmission interface 238 and the plurality of second wireless signal transmission interfaces may be wireless transmission interfaces such as Zigbee or RF. • Each of the plurality of leak detecting devices 201, 202 to 20M is selectively communicable with one of the nearest plurality of wireless transmission modules 27a], 27a2 to 27aM, and the plurality of wireless transmission modules 27a], 27a2 The liquid leakage detecting signal, the positioning signal or the liquid leakage position signal outputted by the plurality of liquid leakage detecting devices 201, 202 to 20M are temporarily stored to 27aM, and the plurality of wireless transmission modules 27a!, 27as to 27aM receive the host. After the polling signal of 25, the leak detection signal, the positioning signal or the leaking position signal is transmitted back to the host 25, and the user at the end of the host 25 can know the location or area where the liquid leakage occurs. Thereby, the liquid leakage detecting system 2 can make the positions of the plurality of liquid leakage detecting devices 201, 202 to 20M more flexible by wireless transmission, and expands the range of the leak detecting liquid. In combination with the above-mentioned "touching means used for the leak detection leak detection line provided by the present invention, the detection line ' can display the position of the leak (four) and the position of the leak can be detected by the riding inspection group = detecting the infiltration of the line The distance between the location and the riding check group, = this, the leak detection _ system can simultaneously monitor the leakage of multiple riding positions: measure the situation, and send a notification signal or warning signal to remind the relevant personnel to make corresponding processing. The above is only the preferred embodiment of the present invention, and when it is not limited to the implementation of the present invention, it is simple to ride on the hair of the day and to make a profit. Equivalent variations and modifications are still within the scope of the invention. [Simple description of the map]
第一 A圖:本發明的一種漏液檢測裝置的第一 之示意圖; J 第一 B圖:本發明的一種漏液檢測線的第—實施例之 示意圖; 第一 C圖:本發明的一種漏液檢測線的第二實施 示意圖; —第二A圖:本發明的一種漏液檢測線的第—實施例之 示意圖; ' 第二B圖:本發明的一種漏液檢測線的第二實施例之 示意圖; 第二圖:本發明的一種漏液檢測模組的第—實施例之 方塊圖; ' 18/24 201215867 第四圖:本發明的一種漏液檢測系統的第一實施例之 不意圖, 第五圖:本發明的一種漏液檢測模組的第二實施例之 方塊圖;及 第六圖:本發明的一種漏液檢測系統的第二實施例之 示意圖。 【主要元件符號說明】 1、2 ·漏液檢測糸統 10 :漏液檢測裝置 11 ' 11' 漏液檢測線 111 第一導電體 113 第二導電體 115 第一絕緣層 117 第一絕緣層 119 第二絕緣層 110 測試電阻 11a 第一端 lib 第二端 13、23 漏液檢測核組 130 微控制單元 131 類比轉數位轉換器 133 電阻檢測單元 135 記憶單元 136 提示單元 137 輸入單元 19/24 201215867 138 :第一訊號傳輸介面 139 :電源電路 238 :第一無線訊號傳輸介面 232 :定位單元 15、25 :主機 10a!、10a2、l〇aN、20a]、20a2、20aM :漏液檢測裝置 27a]、27a2、27aM :無線傳輸模組 L:漏液檢測線總長度 L':漏液距離 11c :滲透處 20/241A is a first schematic view of a liquid leakage detecting device of the present invention; J first B: a schematic view of a first embodiment of a liquid leakage detecting line of the present invention; and a first C drawing: a type of the present invention A second embodiment of a liquid leakage detecting line; a second A: a schematic view of a first embodiment of a liquid leakage detecting line of the present invention; 'second B: a second embodiment of a liquid leakage detecting line of the present invention BRIEF DESCRIPTION OF THE DRAWINGS FIG. 2 is a block diagram of a first embodiment of a liquid leakage detecting module of the present invention; '18/24 201215867 FIG. 4: a first embodiment of a liquid leakage detecting system of the present invention Intended, FIG. 5 is a block diagram of a second embodiment of a liquid leakage detecting module of the present invention; and a sixth drawing: a schematic view of a second embodiment of a liquid leakage detecting system of the present invention. [Description of main component symbols] 1, 2, liquid leakage detecting system 10: liquid leakage detecting device 11 '11' liquid leakage detecting line 111 first electric conductor 113 second electric conductor 115 first insulating layer 117 first insulating layer 119 Second insulating layer 110 Test resistor 11a First end lib Second end 13, 23 Leak detection core group 130 Micro control unit 131 Analog to digital converter 133 Resistance detection unit 135 Memory unit 136 Prompt unit 137 Input unit 19/24 201215867 138: first signal transmission interface 139: power supply circuit 238: first wireless signal transmission interface 232: positioning unit 15, 25: host 10a!, 10a2, l〇aN, 20a], 20a2, 20aM: liquid leakage detecting device 27a] , 27a2, 27aM: wireless transmission module L: total length of leak detection line L': leakage distance 11c: penetration 20/24