M296512 七、 指定代表圖: (一) 本案指定代表圖為:第(二)圖。 (二) 本代表圖之元件符號簡單說明: : 21 :熱感應偵測信號;‘ 22 :電子裝置; 2 3 ·隔熱兀件, 24 :反偵測元件; • 25 ··熱能;以及 26 :熱感應偵測裝置。 八、 新型說明: 【新型所屬之技術領域】 本創作係為一種軍事用電子裝置,用於避免一熱感應偵 測信號之偵測,特別是一種透過一外殼或利用一包覆物表面 φ 之塗料,藉以達到匿蹤的目的。 【先前技術】 現今電子裝置由於科技進步,其處理速度愈來愈快,處 理的資料量也愈來愈龐大,但隨之而來在電子裝置運作時所 產生的熱能也愈來愈多,在一般的使用環境中,只要把散熱 做好,就不會有什麼太大的問題,然而當處在軍事環境中 時,請參閱第一圖,係顯示軍事環境中電子裝置之示意圖, M296512 電子裝置13運作所產生的熱能,會讓熱感應偵測裝置11 所發出的熱感應偵測信號12搜尋到電子裝置13所在位置, 進而危及使用者之安全。於是,如何能有效的隔絕電子裝置 内部的熱源,使其不被熱感應裝置所偵測,並進一步吸收熱 感應裝置所發出的熱感應信號,對於軍事用之電子裝置是非 常重要的。 為滿足上述所提出的隔絕電子裝置内部熱源的需求。本 創作人基於多年從事研究與諸多實務經驗,經多方研究設計 與專題探討,遂於本創作提出一種軍事用電子裝置以作為前 述期望一實現方式與依據。 【新型内容】 有鑑於上述課題,本創作之目的為提供一種軍事用電子 裝置,用於避免一熱感應偵測信號之偵測,特別是一種透過 一外殼或一塗料,藉以阻隔電子裝置内部之熱源並吸收熱感 應裝置所發出之信號,以避免被熱感應裝置追蹤,進而達到 匿蹤的目的,亦使電子裝置於軍事環境中能正常運作。 緣是,為達上述目的,依本創作之軍事用電子裝置,用 於避免一熱感應彳貞測信號之偵測,其包含一電子裝置、一隔 熱元件及一反偵測元件。電子裝置係於運作時產生一熱能, 隔熱元件係建置在電子裝置表面,用以隔絕電子裝置所產生 之熱能,反偵測元件係建置在隔熱元件表面,用以吸收熱感 應偵測信號。 5 M296512 承上所述,因依本創作之電子裝置之隔熱系統及反偵測 系統,具有以下優點: (1) 確保電腦設備不因所產.生的内部熱源在軍事之工作 環境下仍能夠正常且持續的運作。 (2) 確保電腦設備不因所產生的内部熱源在軍事之工作 環境下能夠免於洩漏使用者之所在位置。 (3) 增加電腦設備不因所產生的内部熱源在軍事之工作 環境下的可用性。 (4) 增加電腦設備不因所產生的内部熱源在軍事之工 作環境下的運作效率。 茲為使貴審查委員對本創作之技術特徵及所達成之 功效有更進一步之瞭解與認識,下文謹提供較佳之實施例及 相關圖式以為辅佐之用,並以詳細之說明文字配合說明如 後。 【實施方式】 以下將參照相關圖式,說明依本創作較佳實施例之軍事 用電子裝置。 請參閱第二圖,係顯示本創作之軍事用電子裝置之方塊 圖,其包含一熱感應偵測信號21、一電子裝置22、一隔熱 元件23及一反偵測元件24。熱感應偵測信號21為一熱感 應偵測裝置26所發出,電子裝置22係於運作時產生一熱能 25,隔熱元件23係建置在電子裝置22表面,用以隔絕電子 裝置22所產生之熱能25,反偵測元件24係建置在隔熱元 件23表面,用以吸收熱感應偵測信號21。 6 M296512 其中,隔熱元件23係為一使用隔熱材質所建構之殼體 或一隔熱塗料,反偵測元件24係為一使用反熱感應偵測材 質所建構之殼體或一反熱感應偵測塗料。另,電子裝置22 較佳的是一電腦系統。另,此軍事用電子裝置更包含一導熱 元件,用以將熱能25導出軍事用電子裝置,又,上述電子 裝置22較佳的是一電腦系統。 請參閱第三圖,係顯示本創作之軍事用電子裝置之較佳 實施例方塊圖,其包含一紅外線熱感應信號31、一紅外線 g 熱感應器36、一電腦系統32、一隔熱塗料33、一反偵測塗 料34及一導熱元件37。紅外線熱感應信號31係由一紅外 線熱感應器36所發出,用以偵測一熱能35,電腦系統32 係於運作時產生一熱能3 5 ’隔熱塗料3 3係塗覆在電腦糸統 32表面,用以隔絕電腦系統32所產生之熱能35,反偵測塗 料34係塗覆在隔熱塗料33表面,用以吸收紅外線熱感應信 號31,導熱元件37係用以將熱能35導出此軍事用電子裝 置。 ⑩ 以上所述僅為舉例性,而非為限制性者。任何未脫離本 創作之精神與範疇,而對其進行之等效修改或變更,均應包 含於後附之申請專利範圍中。 7 M296512 【圖式簡單說明】 第一圖係顯示軍事環境中電子裝置之示意圖; 第二圖係顯示本創作之軍事”子裝置之方塊圖;以及 弟二圖係顯林翁之軍事㈣μ置之較佳實施例方塊 【主要元件符號說明 熱感應偵測裝置; ·熱感應偵測裝置; 熱感應偵測信號; 31 :紅外線熱感應信號; 電子裝置; 32:電腦系統; 熱感應偵測信號; 33 :隔熱塗料; 電子裝置; 34 :反偵測塗料; 隔熱元件; 35 :熱能; 反偵測元件; ·紅外線熱感應器;以及 熱能; 37 ·導熱元件。M296512 VII. Designated representative map: (1) The representative representative of the case is: (2). (2) A brief description of the component symbols of this representative diagram: 21: thermal sensing detection signal; '22: electronic device; 2 3 · thermal insulation component, 24: anti-detection component; • 25 · thermal energy; : Thermal sensing detection device. VIII. New Description: [New Technology Field] This creation is a military electronic device for avoiding the detection of a thermal sensing signal, especially through a casing or by using a cladding surface φ. Paint, in order to achieve the purpose of disappearance. [Prior Art] Due to advances in technology, electronic devices are becoming faster and faster, and the amount of data processed is becoming larger and larger, but the heat generated by the operation of electronic devices is increasing. In a general environment, as long as the heat is done well, there will be no major problems. However, when in a military environment, please refer to the first figure, which shows a schematic diagram of the electronic device in the military environment. M296512 electronic device The thermal energy generated by the operation of the 13 detects the thermal sensing signal 12 emitted by the thermal sensing device 11 to the location of the electronic device 13, thereby endangering the safety of the user. Therefore, how to effectively isolate the heat source inside the electronic device from being detected by the heat sensing device and further absorb the heat sensing signal from the heat sensing device is very important for the military electronic device. In order to meet the above-mentioned requirements for isolating the internal heat source of the electronic device. Based on many years of research and many practical experiences, this creator has developed a military electronic device as a realization and basis for the above-mentioned expectations. [New content] In view of the above problems, the purpose of the present invention is to provide a military electronic device for preventing detection of a heat-sensing detection signal, in particular, through a casing or a coating, thereby blocking the inside of the electronic device. The heat source absorbs the signal from the heat sensing device to avoid being tracked by the heat sensing device, thereby achieving the purpose of hiding, and also enabling the electronic device to operate normally in a military environment. Therefore, in order to achieve the above object, the military electronic device according to the present invention is used for avoiding detection of a thermal sensing signal, which comprises an electronic device, a heat insulating element and an anti-detecting element. The electronic device generates a thermal energy during operation, and the thermal insulation component is built on the surface of the electronic device to isolate the thermal energy generated by the electronic device. The anti-detection component is built on the surface of the thermal insulation component for absorbing thermal sensing. Measuring signal. 5 M296512 As mentioned above, the insulation system and anti-detection system of the electronic device according to the present invention have the following advantages: (1) Ensure that the computer equipment is not produced due to the internal heat source generated by the military in the military working environment. Ability to operate normally and continuously. (2) Ensure that the computer equipment is not protected from leaking the user's location in a military work environment due to the internal heat source generated. (3) Increase the availability of computer equipment in the military work environment due to the internal heat source generated. (4) Increase the operational efficiency of computer equipment in the military working environment due to the internal heat source generated. In order to provide a better understanding and understanding of the technical features and the efficacies achieved by the reviewers, the following examples are provided to facilitate the use of the preferred embodiments and related drawings, with detailed explanations and explanations. . [Embodiment] Hereinafter, a military electronic device according to a preferred embodiment of the present invention will be described with reference to the related drawings. Referring to the second figure, a block diagram of the military electronic device of the present invention is shown, which includes a thermal sensing signal 21, an electronic device 22, a thermal insulation component 23 and an anti-detection component 24. The thermal sensing signal 21 is generated by a thermal sensing device 26, and the electronic device 22 generates a thermal energy 25 during operation. The thermal insulating component 23 is built on the surface of the electronic device 22 to isolate the electronic device 22. The thermal energy 25, the anti-detection component 24 is built on the surface of the thermal insulation component 23 for absorbing the thermal sensing signal 21. 6 M296512 wherein the heat insulating component 23 is a shell or a heat insulating coating constructed using an insulating material, and the anti-detecting component 24 is a shell constructed by using an anti-heat sensing material or an anti-heating material. Inductively detects paint. In addition, the electronic device 22 is preferably a computer system. In addition, the military electronic device further includes a heat conducting component for directing the thermal energy 25 to the military electronic device. Further, the electronic device 22 is preferably a computer system. Referring to the third drawing, a block diagram of a preferred embodiment of the military electronic device of the present invention includes an infrared thermal sensing signal 31, an infrared g thermal sensor 36, a computer system 32, and an insulating coating 33. An anti-detection coating 34 and a thermally conductive element 37. The infrared heat sensing signal 31 is emitted by an infrared heat sensor 36 for detecting a heat energy 35, and the computer system 32 is operated to generate a heat energy 3 5 'insulation coating 3 3 system coated on the computer system 32 The surface is used to isolate the thermal energy 35 generated by the computer system 32. The anti-detection coating 34 is applied on the surface of the thermal insulation coating 33 for absorbing the infrared thermal sensing signal 31. The thermal conduction component 37 is used to derive the thermal energy 35 from the military. Use electronic devices. The above description is for illustrative purposes only and not as a limitation. Any equivalent modifications or alterations to the spirit and scope of this creation should be included in the scope of the appended patent application. 7 M296512 [Simple diagram of the diagram] The first diagram shows the schematic diagram of the electronic device in the military environment; the second diagram shows the block diagram of the military "sub-device" of this creation; and the second diagram of the military of the Linlin Weng (4) Preferred embodiment block [main component symbol description thermal sensing detection device; thermal sensing detection device; thermal sensing detection signal; 31: infrared thermal sensing signal; electronic device; 32: computer system; thermal sensing detection signal; 33: thermal insulation coating; electronic device; 34: anti-detection coating; thermal insulation component; 35: thermal energy; anti-detection component; · infrared thermal sensor; and thermal energy; 37 · thermal conduction component.