五、新型說明: 【新型所屬之技術領域】V. New description: [New technology field]
本創作係種全猶星定位裝置,_是錢於一種 紅外線溫度感測功能的全球衛星定位裝置。 A 【先前技術】 無論細人通訊或車輛導航’全球衛星定位(Gk)bal PQSiti System)裝置目前已被廣泛的接受與大量的朗。 = 的不斷進步,如何讓3C科技產品更為貼近使用者的生活,提供 與便利的功能,-直是侧研發廠商不斷追求創_ —個重要課題。 量溫===:=:傳導感溫的原理來測 『娜響。又,相關產品會因為裝置開機後=== 無法準確測溫。另外,傳導感溫產品在測溫時, 測量的物體_近,_在使 ^f使“件與所 【新型内容】 為了解決上述問題,本創作 度感測功能的全球衛星定 ^ f灰供一種具有紅外線溫 接收物體表面喃射伙外s彳接觸式喊溫方式,利用 可有效避免因受傳導而無==題使用方便一 ^ 本創作目的之—係接 球衛星定位裝置,藉由蔣另二具有紅外線溫度感測功能的全 由將具有防水結構敝外線溫減測單元設置於 M383735 τ祕^者隨時雜個人财或是外界 獻^創作目的之一係提供一種具有紅外線溫度感測功能的全 钉星疋位裝置,使用具有防水結構的紅外線溫度感測單^ =度感測單元具有中空狀—金屬龍,由於金屬殼體具有_漏斗= ’區構成—漏斗型金屬反射面,可朗絲雜與聚焦伽,可增 卜界光線進入紅外線溫度感測元件的紅外光強度。 ^創作目的之一係提供一種具有紅外線溫度感測功能的全This creation is a kind of global satellite positioning device, which is a global satellite positioning device with infrared temperature sensing function. A [Prior Art] Regardless of the detailed communication or vehicle navigation, the Global Satellite Positioning (Gk) bal PQSiti System device has been widely accepted and extensively. The continuous improvement of how to make 3C technology products closer to the user's life, providing and convenient functions, is a key issue for the R&D vendors. Volume temperature ===:=: The principle of conduction temperature is measured to measure the sound of Na. In addition, the related products will not be able to accurately measure temperature because the device is turned on ===. In addition, when measuring the temperature of the temperature sensitive product, the measured object_near, _ in the ^f make "piece and the [new content] In order to solve the above problems, the global satellite of the creative degree sensing function A method for infra-red temperature receiving object surface annihilation s彳 contact type shouting temperature, which can effectively avoid the use of conduction without the use of == the title is convenient for a purpose of this purpose - the catching satellite positioning device, by Jiang The other two with infrared temperature sensing function will have a waterproof structure, the external temperature reduction unit is set at M383735 τ secret ^ Anytime miscellaneous personal wealth or external contribution ^ creation purpose to provide an infrared temperature sensing function The full-nail star-clamping device uses an infrared temperature sensing unit with a waterproof structure. The single-degree sensing unit has a hollow-metal dragon, and the metal casing has a _funnel='zone configuration-funnel-shaped metal reflecting surface. The langs and the focus gamma increase the intensity of the infrared light entering the infrared temperature sensing element. ^ One of the creative purposes is to provide a full infrared temperature sensing function.
^星定位裝置’使用具有防水結構的紅外線溫度感測單元,此紅外 =凰度感解(具有巾空狀—金屬殼體,由於金屬殼體與紅外線溫度 件接觸’―則金屬殼體可明加整體紅外線溫度感測單元的熱 nt可有效降低環境短暫溫度變化所產生的熱雜訊,另則可讓外 界/皿度%傳導至紅外線溫度感測元件内的熱敏電阻上,故可達到校正 功能。^Star positioning device 'uses infrared temperature sensing unit with waterproof structure, this infrared = phoenix sensation (with towel empty - metal shell, because the metal shell is in contact with infrared temperature parts' - then the metal shell can be clearly Adding the heat nt of the whole infrared temperature sensing unit can effectively reduce the thermal noise generated by the short-term temperature change of the environment, and the outside temperature can be transmitted to the thermistor in the infrared temperature sensing element, so that Correction function.
為了達到上述目的’本創作一實施例之一種具有紅外線溫度感 =能的全猶星定位裝置,係包括:—巾央處理單元;一全球衛 星=位單元’雜巾央處理單元電性連接;—紅外線溫賴測單元, 係設^於全球衛星定位裝置之—殼體上並與中央處理單元電性連 接;示單元,係與中央處理單域性連接;_輸人單元,係與中 央處理單元紐連接;以及—電_換與控群元,係與巾央處理單 兀電性連接。其中,紅外線溫度感測單㈣包括:-金屬殼體,係為 一中空狀4中金屬殼體向外的-端具有—漏斗狀聚光區;以及-紅 外線感而元件’係容置於金屬殼體觸另_端並暴露—紅外線感測區 域於漏斗狀聚光區之底部。 以下藉由具體實施例配合所附的圖式詳加說明,當更容 易瞭解本創作之目的、技術内容、特點及其所達成之功效。 【實施方式】 A其詳細說明如下,所述較佳實施例僅做一說明非用以限 定本創作。 圖1為本創作一實施例具有紅外線溫度感測功能的全球衛 星定位裝置100的架構示意圖。如圖i所示,於本實施例中, 此全球衛星定位裝置100,係包括:一中央處理單元110; 一全球衛 星定位單元120 ; —紅外線溫度感測單元13〇,係設置於全球衛星定 ^裝置110之一殼體丨02上(如圖3所示);一顯示單元14〇 ; 一輸入 單元150 ;以及一電源轉換與控制單元16〇。 其中,全球衛星定位單元120、紅外線溫度感測單元13〇、顯示 單元H0、-輸入單it 150與-電源轉換與控制單幻6(H系分別與中 央處理單元110電性連接,如圖丨所示。 接續上述說明,請參照圖2A與圖2B,本創作一實施例中紅 夕卜線溫度感測單元130之分解與組裝示意圖。於本實施例 ’紅外線溫度感測單元系包括:一金屬殼體1〇以及一 感測元件20。 一山於本實施例中,金屬殼體1G係為—中空狀且金屬殼體⑴向外的 ^具有i核聚光區丨2。紅外_測元件2()係容置於金屬殼體 内的另-端縣露-紅外線感測區域22於漏斗狀聚光區η之底 。’如H2A與圖2B所示。漏斗狀聚光區12係為外寬内窄因 ,金屬殼體10具有漏斗型金屬反射面,可達到光線聚_聚:作用, 可增加外界練it人紅树溫度❹伏件2()敝外光強度。 請繼續參照圖2A與圖2B ’於一實施例 ZT:0: Γ〇, :! 貫關中,紅外線溫度制單元更包括-紅外線 、 ^鏡,設置於金屬套環3G與漏斗狀聚光區12心 ο .50姻置於紅外職光元件40之兩側用以固定二^ 40於金屬殼體10内。 (圖圖2B ’金屬殼體10與金屬套環可以螺紋結構 (圖上未裝在-起,可⑽紅外線溫度感測元件1 30和金屬殼體10之間的埶僂導保捭 、’職 m .....寺1畅,減小測量過程中出現的熱 ,。金屬叙體H)與金屬套環3()明紋結構緊固安裝,並配八 與52的仙,更可纽防止特錢的進人_良好的防水效 體s 續卜於本創作中’顯示單元14G可為發光二極 顯示器單元或其他。輪人單元則可^按鍵單元 的;入單Γ圖如圖3所示,顯示單元140亦可用作觸控式 的翰入早兀(圖上未標)。 =4越4射出_能量就獻,短波成分也越多。由於 皮2為波長較長的可見光和紅外線,而紅外線s顯 者的熱趙波長越短能量越大,錄效應較明顯。 4卜線/皿度感/則單元130债測物體的紅外線輕射強度的方式,主 -杜f用工外線的熱效應使紅外線溫度感測單S130内部的紅外熱敏 ί庙(圆上未示)韻,通過紅外線溫度感測單元130β部具有i電 的熱電堆將紅外熱敏元件的熱量轉化為電壓訊號輸出。 訊號測單元1观測外界物體紅外線輻射後輸出帽 ’。二_的表面溫度值相對應。通過相關儀器的測量即可得到物體 ^度與紅外線溫度感測單元130之間的對應關係,並且 的發屮/厂疋U〇運算使用。待測物體與紅外線溫度感测單元130 的輪出電堡之間的關係如下: ②個溫度與電壓關係的公式中,U。^ :熱電堆輸出電壓 值’ T°b •目標溫度’ Tsens :傳感器基體溫度,K和ε為係數。 紅外測溫的過程係將外界物體輻射出的紅外線經過紅外 線感叫口進入紅外線溫度感測單元1 3 〇的内部,紅外線溫度 f測單70 130會把入射的紅外線的能量轉換為相應的電壓信 〉輸出由感測單元的訊號處理電路(圖上未示)把此電訊 蛻、j過運算放大器(〇p )放大、濾波等處理,轉換成中央處 理單70 110可以識別和使用的數據,由中央處理單元11〇依 據紅外感測元件、訊號處理電路的物理特性,以及感測到電訊號 強度’通過一系列的算法進行運算,最後計算出外界物體的實際溫 度。通過顯示單元140把溫度值顯示出來。In order to achieve the above object, an all-jux star positioning device having an infrared temperature sense=energy according to an embodiment of the present invention includes: a towel central processing unit; and a global satellite=bit unit 'small central processing unit electrical connection; - Infrared temperature measurement unit, which is connected to the housing of the global satellite positioning device and electrically connected to the central processing unit; the display unit is connected to the central processing single domain; _ input unit, system and central processing The unit is connected; and the electric_changing and controlling group element is electrically connected with the towel central processing unit. Wherein, the infrared temperature sensing unit (4) comprises: - a metal shell, which is a hollow shape, wherein the metal shell has an outward-end end having a funnel-shaped concentrating area; and - an infrared sensation and the element is placed in the metal The housing is in contact with the other end and exposed - the infrared sensing area is at the bottom of the funnel shaped collecting area. The following is a detailed description of the specific embodiments and the accompanying drawings, and it is easier to understand the purpose, technical content, features and functions of the present invention. [Embodiment] A is described in detail below, and the description of the preferred embodiment is not intended to limit the creation. FIG. 1 is a schematic structural diagram of a global satellite positioning apparatus 100 having an infrared temperature sensing function according to an embodiment of the present invention. As shown in FIG. 1 , in this embodiment, the global satellite positioning device 100 includes: a central processing unit 110; a global satellite positioning unit 120; an infrared temperature sensing unit 13〇, which is set in a global satellite. ^ One of the devices 110 is on the housing 02 (shown in FIG. 3); a display unit 14A; an input unit 150; and a power conversion and control unit 16A. The global satellite positioning unit 120, the infrared temperature sensing unit 13〇, the display unit H0, the input unit it 150 and the power conversion and control unit phantom 6 (the H system is electrically connected to the central processing unit 110 respectively, as shown in FIG. In the following description, please refer to FIG. 2A and FIG. 2B , which is a schematic diagram of the decomposition and assembly of the red line temperature sensing unit 130 in the present embodiment. In the embodiment, the infrared temperature sensing unit includes: The metal casing 1〇 and a sensing element 20. In the present embodiment, the metal casing 1G is hollow and the metal casing (1) has an i-nuclear concentrating zone 丨2. The element 2 () is housed in a metal housing and the other end of the dew-infrared sensing area 22 is at the bottom of the funnel-shaped concentrating area η. 'As shown in H2A and Figure 2B. Funnel-shaped concentrating area 12 For the outer width and narrowness, the metal casing 10 has a funnel-shaped metal reflecting surface, which can achieve the light-convergence of the light, and can increase the external light intensity of the external man-made mangrove temperature stagnation piece 2 (). 2A and 2B' in an embodiment ZT: 0: Γ〇, :! In the cross-cut, infrared temperature system The unit further includes an infrared ray, a mirror, and is disposed on the metal collar 10G and the funnel-shaped concentrating area 12, and is disposed on both sides of the infrared light-emitting component 40 for fixing the metal housing 10. (Fig. 2B 'The metal casing 10 and the metal collar can be threaded (the figure is not installed in the figure, and the (10) infrared temperature sensing element 1 30 and the metal casing 10 are between m ..... Temple 1 is smooth, reducing the heat that occurs during the measurement process. Metallic body H) is fastened with metal collar 3 () open structure, and is equipped with eight and 52 cents, more Preventing the entry of special money _ Good waterproof effect s Continued in this creation 'display unit 14G can be a light-emitting diode display unit or other. The wheel unit can be a button unit; As shown, the display unit 140 can also be used as a touch-sensitive Hanjin early (not shown). =4 The more 4 shots are _ energy, the more short-wave components are. Since the skin 2 is a longer wavelength visible light And infrared, and the shorter the wavelength of the thermal Zhao of the infrared s, the greater the energy, the recording effect is more obvious. 4 line / dish sense / then the unit 130 debt measurement object infrared The light-intensity intensity of the line, the thermal effect of the main-du-f external line makes the infrared temperature sensing the infrared heat-sensitive temple inside the single S130 (not shown), and the infrared temperature sensing unit 130 has the thermoelectricity of the i-electricity. The stack converts the heat of the infrared thermistor into a voltage signal output. The signal measuring unit 1 observes the infrared radiation of the external object and outputs the cap. The surface temperature value of the second_ corresponds to the value of the object. The correspondence between the infrared temperature sensing units 130 and the use of the 屮/疋疋〇 operation. The relationship between the object to be tested and the wheel of the infrared temperature sensing unit 130 is as follows: 2 temperatures and voltages In the formula of the relationship, U. ^ : Thermopile output voltage value 'T°b • Target temperature' Tsens : Sensor base temperature, K and ε are coefficients. The infrared temperature measurement process is to inject the infrared rays radiated from the external object into the infrared temperature sensing unit 13 3 through the infrared sensing port, and the infrared temperature f measuring unit 70 130 converts the incident infrared energy into the corresponding voltage signal. 〉 Output is processed by the signal processing circuit (not shown) of the sensing unit to amplify, filter, etc. the signal 蜕, j over the operational amplifier (〇p), and convert it into data that can be recognized and used by the central processing unit 70 110. The central processing unit 11 运算 operates according to the physical characteristics of the infrared sensing component, the signal processing circuit, and the sensed electrical signal strength through a series of algorithms, and finally calculates the actual temperature of the external object. The temperature value is displayed by the display unit 140.
綜合上述,本創作藉由非接觸式的感溫方式,利用接收物體表 面所輕射的紅外線來測量溫度,可有效避免因受傳導而無法準轉測溫 問題;將具有防水結構的紅外線溫度感測單元設置於全球衛星定位 裂置殼體上’可提供伽者晴監控個人體溫或是外界觀或物體之 溫度。本創作由於個具有防水結構的紅外線溫度制單元,此紅外 線溫度感測單70具有中空狀-金屬殼體,由於金屬殼體具有—漏斗型 水光區構成-漏斗型金屬反射面,可達到光線雜與聚焦作用,可辦 加外界光線進入紅外線溫度感測元件的紅外光強度。本創作使用具^ 防水結構的紅外線溫度制單元,此紅外線溫度感測單元具有中空狀 -金屬殼體’由於金驗體與紅外線溫度感測元件朗,—則金 體可以增加整體紅外線溫度_單元的熱當量,故可有效降低環产^ 暫溫度變化所產生的鮮訊,另财料界溫度能料餘外線 感測元件内的熱敏電阻上’故可達到校正功能。 、咖X 以上所述之實施例僅係為說明本創作之技術思想及 點,其目的在使熟習此項技藝之人士能夠瞭解本創作之六 並據以實施,當不能以之限定本創作之專利範圍,即 = 本創作所揭示之精神所作之均等變化或修飾,仍應涵蓋在^ M383735 創作之專利範圍内。 【圖式簡單說明】 圖1為本創作一實施例之示意圖。。 圖2A與圖2B為本創作一實施例中紅外線溫度感測單元之 示意圖。 圖3為本創作一實施例之示意圖。In summary, the present invention uses a non-contact temperature sensing method to measure the temperature by using infrared rays that are lightly radiated on the surface of the receiving object, thereby effectively avoiding the problem that the temperature measurement cannot be quasi-rotation due to conduction; and the infrared temperature sense having a waterproof structure The measurement unit is set on the global satellite positioning split housing' to provide gamma to monitor the temperature of the individual or the temperature of the external view or object. The present invention has a hollow-metal housing with a waterproof structure, and the infrared temperature sensing unit 70 has a hollow-metal housing. The metal housing has a funnel-shaped water-light region-funnel-shaped metal reflecting surface to achieve light. Miscellaneous and focusing, it can be used to add infrared light into the infrared temperature sensing element. This creation uses an infrared temperature unit with a waterproof structure. The infrared temperature sensing unit has a hollow-metal shell. Due to the gold specimen and the infrared temperature sensing element, the gold body can increase the overall infrared temperature. The thermal equivalent, so it can effectively reduce the fresh news generated by the temporary temperature change of the ring production, and the temperature of the material boundary can be used to calculate the thermistor in the external sensing component. The above-mentioned embodiments are merely illustrative of the technical ideas and points of the present invention, and the purpose thereof is to enable those skilled in the art to understand the sixth of the creation and implement it according to the definition. The scope of the patent, ie the equivalent changes or modifications made by the spirit of this creation, should still be covered by the patents created by M383735. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of an embodiment of the present invention. . 2A and 2B are schematic views of an infrared temperature sensing unit in an embodiment of the present invention. FIG. 3 is a schematic diagram of an embodiment of the present invention.
【要元件符號說明】[Requires symbol description]
100 具有紅外線溫度感測功能的全球衛星定位裝置 110 中央處理單元 120 全球衛星定位單元 130 紅外線溫度感測單元 140 顯示單元 150 輸入單元 160 電源轉換與控制單元 10 金屬殼體 12 漏斗狀聚光區 20 紅外線感測元件 22 紅外線感測區域 30 金屬套環 40 紅外線濾光元件 M383735 50 Ο型環 Ο型環 52100 Global satellite positioning device 110 with infrared temperature sensing function Central processing unit 120 Global satellite positioning unit 130 Infrared temperature sensing unit 140 Display unit 150 Input unit 160 Power conversion and control unit 10 Metal housing 12 Funnel shaped concentrating area 20 Infrared sensing element 22 Infrared sensing area 30 Metal collar 40 Infrared filter element M383735 50 Ο-type ring type ring 52