M313776 八、新型說明:. 【新型所屬之技術領域】 : 本創作是有關於一種熱源偵測裝置,尤指可偾·測 一物體是否發生異常及發生異常之位置,達到快速檢 驗、節省檢測費用及準確性之特性。 [先前技術]M313776 VIII. New description: [New technical field]: This creation is about a heat source detection device, especially for detecting whether an object has an abnormality or an abnormal position, achieving rapid inspection and saving inspection costs. And the characteristics of accuracy. [Prior technology]
如中華民國專利公告第Μ270440號之「保健偵測 裝置」’請參閱第8圖,一種保健偵測裝置,主要包含 有:一紅外線感測器10,係用以偵測人體體溫;一控 制電路板11,與該紅外線感測器1〇連接,並可於其 中輸入體溫或,數等預設數值,以及為該紅外線感 測器10所測得體溫之實際數值;一顯示器12,與該 控制電路板11連接且係用以顯示相關之預設數值或 偵測所得之實際數值;其特徵在於··該紅外線感測器 10為進行偵測體溫時無需與人體接觸,且係設於包含 有反射鏡或透鏡之一集光器13的焦點處,且該紅外線 感測器10可將所接收到的紅外線輻射能信號,轉換成 可供該控制電路板u讀取與運算之信號。 雖然上述習用之保健偵測裝置可藉紅外線感測器 感測體溫變化,判別是否出現異常;但是,由於該保 健偵測裝置須經楨測一段時間才能得知是否異常,且 無法得知異常之位置,導致使用上之不便,故,一般 前 3776 之習用者並無灰符合實際使用時之所需。 心 • Λ’ ’ ’ 【新型内容】 / 本創作之主要目的係在於,可使該熱源偵測裝置 偵測一物體是否有發生異常及發生異常之位置,並達 到快速檢驗、節省檢驗費用及正確之特性。 為達上述之目的,本創作係一種熱源偵測裝置, 丨係由一攝影裝置、一數位訊號處理裝置、一電源供應 裝置及一顯示裝置所構成。該攝影裝置係包含一一般 影像單元及熱源偵測單元之攝影模式設定單元及一鏡 頭單疋。該熱源偵測裝置可利用該攝影模式設定單元 選擇進行一般影像或熱源分佈影像拍攝。該熱源倩測 j置之偵測方法係拍攝該物體之—般影像及熱源分佈 影像,並使該一般影像及熱源分佈影像重疊進行比對 分析。 【實施方式】 :參閱『帛!及第2圖』所示’係為本創作之 體外觀示意圖及本創作之基本架構示意圖。如圖 ::本創作係-種熱源债測裝置5,其係由一攝影 數位訊號處理裝置2、—電源供應裝置3及 顯不裝置4所構成。 M313776 該攝影裝查1係至少包含一攝影模式設定單元以 及一鏡頭單元12,該攝影模式設定單元u係包含p 一般影像單元111及一熱源偵測單元112,則使用者可 選擇一般影像及熱源分佈影像。 該數位訊號處理裝置2係至少包含一數位訊號轉 換單元21及一記憶單元22,用以接收拍攝該物體之 熱源偵測訊號及一般影像訊號,並轉換為數位訊號; 該記憶單元22係用以儲存所拍攝之物體影像。 該電源供應裝置3係與上述數位訊號處理裝置2 連接,提供電源。 該顯示裝置4係包含一影像定位單元41及一影像 重疊顯不單元42,並與數位訊號處理裝置2之數位訊 號轉換單元21連接,用於顯示經轉換之物體熱源分佈 影像或-般影像,而該顯示裝置4為一液晶顯示榮 幕。如是,藉由上述之排列構成一熱源偵測裝置5。 立印參閱『第3圖』所示’係分別為本創作使用 、、圖如圖所不.本創作係為一種熱源偵測裝置, 用於拍攝具熱源之物體,如鍋爐及電路板等,分別: f該物體之—般影像及熱源分佈影像,並將該-化 :熱源:佈影像進行重疊比對,且分析檢測該待丨 ,生異常之位置。該熱源價測裝 ==模式設定單…選擇一】= 或熱源偵測單元112,並透過該鏡頭單元12對』 M313776 待測物進行拍攝’該一般影像訊號或熱源偵測訊號瓦 傳至該該數位訊號處理裝置2之數位訊號轉換單元hi: 進行訊號轉換’並轉換為數位訊號,係可將該影像存 入該記憶單元22,以作為下次使用時之參考。該轉換 後之數位訊號係可傳入該顯示裝置4,該顯示裝置4 係利用該影像定位單元41,係於該物體之一般影像進 仃邊界掃描,建立一定位框,當進行拍攝該物體之熱 源分佈影像時,使該物體之邊界與定位框之邊界貼 合二,於該定位框内。拍攝完成時,利用該影像重疊 …貝示單元42進行影像重疊,該一般影像之定位框與熱 源分佈影像之定位框重疊,係可得知發生異常之位置^ 清參閱『第4及第5A〜5C圖』所示,係本創作之 第-實施例之❹示意圖、本創作之第—實施例之一 ”像示意圖、本創作之第-實施例之熱源分佈影傳 不意圖及本創作之第—實施例之影像比對分析示意 :::圖所示:該熱源偵測裝置5係可於設備之例行 檢= 吏用。該熱_測裝置”貞測一使用中之銷爐 。二亥熱源偵測裝置5先拍攝該鍋爐6之一般影像η, fm_7ii(如第5a圖所示),再拍攝該銷爐 佈影像72,使該物體之邊界貼合定位框⑵ 之定位[I 5B圖所示卜拍攝完成後,將-般影像71 疋位框川及熱源分佈影像72之定 進 叠比對W),即可得知發生異常之 M313776 如第5C圖所.呆,該熱源分佈影像72之右下角係為熱 源集中溫度較高之區域72卜將該一般影像71與熱嘗 分佈影像72重疊,即可知道該熱源集中溫度較高之區 域721於該銷爐6之右下角,發現該異常之位置可進 一步進行調查,防範危險發生。 請參閱『第6及第7A〜7C圖』所示,係本創作之 第二實施例之使用示意圖、本創作之第二實施例之一 般影像示意圖、本創作之第二實施例之熱源分佈影像 示意圖及本創作之第二實施例之影像比對分析示意 圖。如圖所示」該熱源偵測裝置5係可於偵測故障物 體時使用。該熱源偵測裝置5偵測一發生故障之具中 央控制器81之電路板8。該熱源偵測裝置5先拍攝該 電路板8之一般影像91,並建立一定位框911 (如第7a 圖所示),再拍攝該電路板8之熱源分佈影像92,使該 物體乏邊界貼合定位框922之邊界(如第7B圖所示), 拍攝完成後,將一般影像71之定位框711及熱源分佈 影像72之定位框722進行重疊比對(如第7C圖所示), 即可知道該電路板8發生故障之位置。如第7C圖所 示’該熱源分佈影像92之中間有熱源集中溫度較高的 區域921 ’將該一般影像91與熱源分佈影像92重疊, 即可知道該熱源集中溫度較高之區域921於該電路板 8之中央處理器81,該熱源偵測裝置5係可快速檢測 且準確得知該電路板8故障之位置。 M313776 綜上所述,本創作熱源偵測裝置可有效改善習两 之攆種缺點,可使該使用者於設備之例行檢查或偵 物體故障原因等狀況時,達到快速檢驗、準確及節省 檢驗費用之功效,進而使本創作之産生能更進步、更 實用、更符合工作者之所須,確已符合創作專利申請 之要件,爰依法提出專利申請。 惟以上所述者,僅為本創作之較佳實施例而已, 當不能以此限定本創作實施之範圍;故,凡依本創作 申請專利II ϋ及創作說明書内容所作之簡卩的等致變 化與修飾,皆應仍屬本創作專利涵蓋之範圍内。 M313776 【圖式簡單說明】·、' 第1圖’係本創作之外觀立體示意@。 l 第2圖,係本創作之基本架構示意圖。 , 第3圖,係本創作之使用示意目。 =圖係:本創作之第一實施例之使用示意圖。 圖係本創作之第一實施例之一般影像示意圖。 B目’係本創4乍之第一實施例之熱源分佈影像示 意圖。 >帛5C ®,係本創作之第-實施例之影像比對分析示 忍圖。 =6圖,係本創作之第二實施例之使用示意圖。 2圖’係本創作之第二實施例之一般影像示意圖。 ®係本創作之第二實施例之熱源分佈影像示 意圖。 @ ^本創作< S二實施例之f彡像比對分析示 > 意圖。 第8圖,係習用之立體外觀示意圖。 【主要元件符號說明】 (本創作部份) 攝影裝置1 攝影模式設定單元11 一般影像單元111 熱源偵測單元112 M313776 鏡頭單元12·' 數位訊號處理裝置2 數位訊號轉換單元21 記憶單元22 電源供應裝置3 顯示裝置4 影像定位單元41 影像重疊顯示單元42 > 熱源偵測裝置5 銷爐6 一般影像71、91 定位框 711、722、911、922 熱源分佈影像72、92 熱源集中溫度較高之區域721、921 電路板8 中央處理器81 •(習用部份) 紅外線感測器10 控制電路板11 顯示器12 集光器13 12For example, please refer to Figure 8, a health care detection device, which mainly includes an infrared sensor 10 for detecting human body temperature and a control circuit. The board 11 is connected to the infrared sensor 1A, and can input a preset value such as a body temperature or a number, and an actual value of the body temperature measured by the infrared sensor 10; a display 12, and the control The circuit board 11 is connected and used to display the relevant preset value or the actual value obtained by the detection; the infrared sensor 10 does not need to be in contact with the human body when detecting the body temperature, and is included in the At the focus of the concentrator 13 of the mirror or lens, the infrared ray sensor 10 converts the received infrared radiant energy signal into a signal that can be read and operated by the control circuit board u. Although the above-mentioned health care detecting device can sense the temperature change by the infrared sensor to determine whether an abnormality occurs; however, since the health detecting device has to be tested for a certain period of time, it is known whether the abnormality is abnormal, and the abnormality cannot be known. The location is inconvenient to use, so generally the first 3776 users do not have the ash to meet the needs of actual use.心• Λ' ' ' [New Content] / The main purpose of this creation is to enable the heat source detection device to detect whether an object has an abnormality and an abnormal position, and to achieve rapid inspection, save inspection costs and correct Characteristics. For the above purposes, the present invention is a heat source detecting device comprising a photographic device, a digital signal processing device, a power supply device and a display device. The photographing device comprises a photographing mode setting unit of a general image unit and a heat source detecting unit, and a lens unit. The heat source detecting device can select the general image or heat source distribution image capturing by using the shooting mode setting unit. The detection method of the heat source is to capture the image of the object and the heat source distribution image, and overlap the general image and the heat source distribution image for comparison analysis. [Embodiment]: See "帛! And the diagram shown in Figure 2 is a schematic diagram of the appearance of the creation and the basic structure of the creation. As shown in the following figure: The present invention is a heat source debt measuring device 5 which is composed of a photographic digital signal processing device 2, a power supply device 3, and a display device 4. M313776 The photographic reading 1 includes at least one photographic mode setting unit and a lens unit 12, wherein the photographic mode setting unit u includes a p general image unit 111 and a heat source detecting unit 112, and the user can select a general image and a heat source. Distributed images. The digital signal processing device 2 includes at least a digital signal conversion unit 21 and a memory unit 22 for receiving a heat source detection signal and a general image signal for capturing the object, and converting the signal into a digital signal; the memory unit 22 is used for Store images of the subject you are shooting. The power supply device 3 is connected to the digital signal processing device 2 to supply power. The display device 4 includes an image positioning unit 41 and an image overlapping display unit 42 and is connected to the digital signal conversion unit 21 of the digital signal processing device 2 for displaying the converted object heat source distribution image or the general image. The display device 4 is a liquid crystal display honor screen. If so, a heat source detecting device 5 is constructed by the above arrangement. For the printing, please refer to the "Figure 3" for the purpose of the creation of the original, the picture is not shown. This creation is a heat source detection device for shooting objects with heat sources, such as boilers and circuit boards, etc. Respectively: f The image of the object and the heat source distribution image, and the illuminating: the heat source: the cloth image is overlapped and compared, and the position of the abnormality is detected and detected. The heat source price measurement == mode setting sheet...select one]= or the heat source detecting unit 112, and through the lens unit 12, "M313776 the object to be tested is photographed", the general image signal or the heat source detecting signal is transmitted to the The digital signal conversion unit hi of the digital signal processing device 2: performs signal conversion and converts the digital signal into a digital signal, and the image can be stored in the memory unit 22 for reference in the next use. The converted digital signal can be transmitted to the display device 4. The display device 4 uses the image positioning unit 41 to scan the general image of the object to create a positioning frame, when the object is photographed. When the heat source distributes the image, the boundary of the object and the boundary of the positioning frame are bonded to each other in the positioning frame. When the shooting is completed, the image overlap is performed by the image display unit 42. The positioning frame of the general image overlaps with the positioning frame of the heat source distribution image, and the position where the abnormality occurs is known. See "4th and 5th ~ 5C is a schematic diagram of the first embodiment of the present invention, one of the first embodiment of the present invention, a schematic diagram, a heat source distribution of the first embodiment of the present invention, and a copy of the present invention. - Image comparison analysis of the embodiment::: The heat source detecting device 5 can be used for routine inspection of the device. The heat detecting device measures a pin furnace in use. The second sea heat source detecting device 5 first captures the general image η of the boiler 6, fm_7ii (as shown in Fig. 5a), and then photographs the pin furnace image 72 so that the boundary of the object fits the positioning frame (2). After the completion of the shooting in FIG. 5B, the M-image of the normal image 71 and the heat source distribution image 72 are matched into the stacking ratio W), and the abnormality of the M313776 is known, as shown in FIG. 5C. The lower right corner of the distribution image 72 is the region 72 where the heat source concentration is high. The general image 71 is overlapped with the heat distribution image 72, and the region 721 where the heat source concentration is high is known to be in the lower right corner of the pin furnace 6. The location of the anomaly can be further investigated to prevent danger. Please refer to the schematic diagrams of the second embodiment of the present invention, the general image diagram of the second embodiment of the present invention, and the heat source distribution image of the second embodiment of the present invention. A schematic diagram of the image comparison analysis of the second embodiment of the present invention. As shown in the figure, the heat source detecting device 5 can be used when detecting a faulty object. The heat source detecting means 5 detects a circuit board 8 of the faulty central controller 81. The heat source detecting device 5 first captures the general image 91 of the circuit board 8, and creates a positioning frame 911 (as shown in FIG. 7a), and then captures the heat source distribution image 92 of the circuit board 8, so that the object has a borderless sticker. The boundary of the positioning frame 922 (as shown in FIG. 7B), after the shooting is completed, the positioning frame 711 of the general image 71 and the positioning frame 722 of the heat source distribution image 72 are overlapped and compared (as shown in FIG. 7C), that is, It is known where the board 8 is faulty. As shown in FIG. 7C, a region 921 having a higher heat source concentration temperature in the middle of the heat source distribution image 92 overlaps the general image 91 with the heat source distribution image 92, and the region 921 having a higher heat source concentration temperature is known. The central processing unit 81 of the circuit board 8 can quickly detect and accurately know the location of the fault of the circuit board 8. M313776 In summary, the creative heat source detecting device can effectively improve the shortcomings of the two, so that the user can quickly check, accurately and save the test when the device routinely checks or detects the cause of the object failure. The effectiveness of the fee, in turn, makes the creation of this creation more progressive, more practical, and more in line with the needs of the workers. It has indeed met the requirements for the creation of a patent application, and has filed a patent application in accordance with the law. However, the above is only a preferred embodiment of the present invention, and it is not possible to limit the scope of the creation of the creation; therefore, the simple change of the content of the patent application and the content of the creation specification according to the creation of the creation. And the modifications should still be within the scope of this creation patent. M313776 [Simple description of the diagram]·, 'The first picture' is the three-dimensional representation of the appearance of this creation. l Figure 2 is a schematic diagram of the basic architecture of this creation. , Figure 3, is the use of this creation. = Graph: A schematic diagram of the use of the first embodiment of the present creation. The figure is a general image diagram of the first embodiment of the present creation. The B-head is the heat source distribution image of the first embodiment of the present invention. > 帛 5C ® is the image comparison analysis of the first embodiment of the present invention. Fig. 6 is a schematic view showing the use of the second embodiment of the present creation. 2 is a general image diagram of the second embodiment of the present creation. ® is a heat source distribution image of the second embodiment of the present invention. @^本创作<S 2 embodiment of the f-image comparison analysis > intent. Figure 8 is a schematic view of the stereoscopic appearance of the conventional use. [Main component symbol description] (This creation part) Photographing device 1 Photo mode setting unit 11 General image unit 111 Heat source detecting unit 112 M313776 Lens unit 12·' Digital signal processing device 2 Digital signal conversion unit 21 Memory unit 22 Power supply Device 3 display device 4 image positioning unit 41 image superimposed display unit 42 > heat source detecting device 5 pin furnace 6 general image 71, 91 positioning frame 711, 722, 911, 922 heat source distribution image 72, 92 heat source concentration temperature is higher Area 721, 921 Circuit board 8 Central processing unit 81 • (customized part) Infrared sensor 10 Control circuit board 11 Display 12 Light collector 13 12