M281303 四、創作說明(ο 【新型所屬之技術領域】 本創作係關於一種具積體電路元件之燃料電池,其特 別係提供一整合積體電路元件之燃料電池,並透過積體電 路元件於燃料電池上的構裝方式,以適應燃料電池的操作 環境。 【先前技術】 習知燃料電池係利用曱醇等含氳燃料,經由氧化還原 反應之後,形成電流迴路,用以提供電源之需。這類燃料 |電池在運作過程中須進行燃料供給、操作溫度等操作參數 之控制,而這些操作參數對於燃料電池之運作效率的影響 極大,使得必須提供可達成燃料電池各種操作參數之控制 手段的電氣線路,且此電氣線路必須同時具有可輕易地整 • 合燃料電池之特性。 ▲ 再者,由於燃料電池的操作環境係具有高溫以及具有 腐餘性,且對於小型化之燃料電池而言,燃料電池之電氣 /線路的形成必須能避免增加燃料電池過多的體積,且其電 氣線路必須能適應燃料電池的操作環境。 因此,本創作基於習用燃料電池之需求進行創作一種具積 〇體電路元件之燃料電池。 【新型内容】 本創作之主要目的係提供一種整合積體電路元件之燃 料電池。M281303 IV. Creation Instructions (ο [Technical Field of New Type] This creation is about a fuel cell with integrated circuit elements, which specifically provides a fuel cell integrated with integrated circuit elements, and uses the integrated circuit elements to fuel The structure of the battery is adapted to the operating environment of the fuel cell. [Previous Technology] It is known that fuel cells use thorium-containing fuels such as methanol to form a current loop after redox reaction to provide power. This Fuel | Battery During the operation, the fuel supply, operating temperature and other operating parameters must be controlled, and these operating parameters have a great impact on the operating efficiency of the fuel cell, making it necessary to provide electrical circuits that can control the various operating parameters of the fuel cell. And, this electrical circuit must also have the characteristics of easily integrating fuel cells. ▲ Furthermore, because the operating environment of the fuel cell is high temperature and has residual characteristics, and for a miniaturized fuel cell, the fuel cell The electrical / wiring must be formed to avoid adding fuel cells The volume is large, and its electrical circuit must be able to adapt to the operating environment of the fuel cell. Therefore, this creation is based on the needs of conventional fuel cells to create a fuel cell with integrated circuit components. [New Content] The main purpose of this creation is Provided is a fuel cell integrating integrated circuit elements.
第5頁 M281303 3、創作說明(2) 本創作之另一目的係 的構裝方式1以適應辦:電:體”元件於燃料電池上 具腐蝕性環境’或者係):料2作環境,•如高溫、 本創作之再一日a ^ u:u斗電池小型化之目的。 池1以達成燃料電池電路元件之燃料電 為達成本創作上述目的” ”呆作手段。 兀件之燃料電池,直仫^創作提供一種具積體電路 燃料電池,並於基板上i;:;f結構之基板’用以構成 極集電線路以及電氣線路置=組:陽極集;線路、陰 力。特別係該電氣線路且右订電化學反應而產生電 應配合燃料電池之運作?:或:=制手a’用以對 可達=牛’並透過積體電路元件之邏輯運算,t 料電、、=之控制手段。其中,1亥積體電路元件係配合: u”:需求而選擇使用-般的積體電路元件黏= j a考疋連接器技術。 文 效,ί 1吏熟悉該項技藝人士瞭解本創作之目的、特徵及功 作w f稭由下述具體實施例,並配合所附之圖式,對本創 作坪加說明如後。 之路之 件電成 元體構)> 路積所1C 電具1)(1 體的(1組 積作板極 具創基電 作本路膜 創。電有 本圖刷置 示視印設 顯體由1) 別立係1、 分構要 係結主 圖的0) 二角(1 第視池 3及同電 式以不料, 方一 池燃構 施第電之結 實 料件體 [ 燃元板 板 基 該 過 透 並 陽 M281303 四、創作說明(3) 極集電線路(1 1 a )、岭代# ^ Γ 1 ?、,而浐此- κ極木電線路(1 1 b )以及電氣線路 (⑴,而沒些凡件將分別 前述本創作里籍駚+的 (1 η立# 2體电元件之燃料電池中,該基板 數胸基板、環靡基板、 板材料之印刷電;Ϊ板二;子塑化基板或複合式材料為基 化學反應之核心元;=電極組(llc)係燃料電池電 s〇lut_所達成之:電說’其可以係採用Na— Μ 1 rO,i ffi 、電極、、且者,而透過所設置之膜電極組 雷線路(二::進行電化學反應而產生電力;該陽極集 對雇膜雷極極集電線路(11 b)係為導電線路,且分別 六S,、兴二ί…、丨C )電力輸出之陽極與陰極,用以輸出電 ^ 呪,各個集電線路的實施手段可在基板(丨j) 二料之蝕刻製程所達成;以及該電氣線路(12) 係配合燃料電池(1 〇、;隹# Φ 、1υ ’進仃電化學反應之運作,而可提供對 者、,其中,該電氣線路(12)進-步包= / 牛例术况其控制手段對應燃料電池之運 作係包括燃料電池之負載偵測以及功率輸出控制、燃料電 ,之直流穩壓控制等。另外,該積體電路元件(丨2a)係配 :燃料電池之特性需求而選擇使用一般的積體電路元件黏 著技術或連接器技術’I例來說,需要考慮的燃料電池特 it包括耐熱性、散熱性、抗腐蝕性、組裝性以及小型化。 因此,所知用之積體電路元件黏著技術的具體實施手段可 以係表面黏著技術(surface mount technology, SMT)、Page 5 M281303 3. Creation instructions (2) Another purpose of this creation is the installation method 1 to suit: electricity: the body is a corrosive environment on the fuel cell or the system): material 2 as the environment, • If the temperature is high, another day of this creation a ^ u: u bucket battery miniaturization purpose. Pool 1 uses the fuel and electricity of the fuel cell circuit elements to achieve the above-mentioned purpose of "cost-effective" means. , Zhi Zhi ^ creation provides a fuel cell with integrated circuit, and the substrate i;:; f structure on the substrate 'is used to form a pole collector line and electrical circuit set = group: anode set; line, Yin force. Special Is this electrical circuit and the right-hand electrochemical reaction to generate electricity should be compatible with the operation of the fuel cell ?: OR: = manipulation a 'is used to reach reach = cattle' and through the logical operation of integrated circuit elements, t material electricity, Control means of , =. Among them, the integrated circuit components of 1H are matched: u ”: It is necessary to choose to use -like integrated circuit component adhesion = ja test connector technology. For the text, people familiar with the art understand the purpose, features, and functions of this creation. The following specific examples will be used in conjunction with the accompanying drawings to explain this creation as follows. The components of the road are electric components) > Luji Institute 1C electric appliances 1) (1 body (1 set of product plates is very invasive and basic electric film). This picture is printed with a brush It is assumed that the display body consists of 1) a separate system 1, a substructure that is bound to 0), a two-corner (1, the first viewing cell 3, and the same electric type, as expected, and the square one firing the solid material body for the first power [ Ranyuan board and substrate should pass through and merge with M281303 IV. Creative Instructions (3) Pole collector circuit (1 1 a), Lingdai # ^ Γ 1?, And this-κ pole wood electric circuit (1 1 b ) And the electrical circuit (⑴, and all the pieces will be printed in the above-mentioned creation of 駚 + 's (1 η 立 # 2 bulk electrical component fuel cell). Electricity; plate two; the plasticized substrate or composite material is the core element of the base chemical reaction; = electrode group (llc) is a fuel cell electricity solut_ Achieved: electricity said 'It can be used Na-M 1 rO, i ffi, electrode, and or, through the provided membrane electrode group lightning circuit (two: the electrochemical reaction is performed to generate electricity; the anode set to the membrane lightning electrode current collecting circuit (11 b) system for Conductive circuit, and the anode and cathode of the power output are respectively 6S, Xing Er, and C) for outputting electricity. The implementation method of each current collecting circuit can be in the etching process of the substrate (丨 j). Reached; and the electrical circuit (12) is in cooperation with the fuel cell (10 ,; 隹 # Φ, 1υ) into the operation of the electrochemical reaction, and can provide the right, where the electrical circuit (12) into- Step package = / The operation method of the control method corresponding to the fuel cell operation includes fuel cell load detection and power output control, fuel power, DC voltage stabilization control, etc. In addition, the integrated circuit element (丨 2a) Matching: The characteristics of fuel cells are chosen to use general integrated circuit component bonding technology or connector technology. For example, the fuel cell features that need to be considered include heat resistance, heat dissipation, corrosion resistance, assembly, and Miniaturization. Therefore, the specific implementation method of the integrated circuit component adhesion technology that is known can be surface mount technology (SMT),
第7頁Page 7
以及濃度調節元件(1 3 體電路 例來說 件(1 3 a 積體電 值,則 至該溫 運作, 濃度調 段,並 M281303 四、創作說明(4) QFP系列、PLCC、SOP系列、DIP系列、L0C系列、金手指連 接器等。 第三圖係顯示本創作具積體電路元件之燃料電池具有 周邊裝置的結構示意圖。前述本創作具積體電路元件之燃 料電池中可進一步具有周邊裝置(1 3 ),用以進行偵測及/ 或控制該燃料電池(1 〇)之操作參數,而提供該積體電路元 件(1 2 a )進行對應之控制手段者。其中,燃料電池(1 0 )之 操作參數可包括膜電極組溫度、燃料濃度、燃料流量、電 力功率、電流/電壓強度等。該周邊裝置(13)選擇具有一 種或數種感測元件(1 3 a ),並進行偵測前述燃料電池之各 項物理特性,且該感測元件(1 3 a )對應各項物理特性所偵 測獲得之訊息則可傳輸至積體電路元件(丨2a),用以作為 達到其控制手段之邏輯運算所需訊息者。 再者,該周邊裝置(13)選擇具有溫度調節元件(13b) /又π π〜丨,w u W。成/皿反碉節兀件(i 3b )係透過; 元件(1 2 a )之控制手段,並對應進行溫度調整,舉 ,該溫度調節元件(l3b)可以係一風扇,當感測天 )偵測到燃料電池(10)之膜電極組(n 、, f =件(1 2a )之控制手段判斷此溫度值超X 1 透過知體電路元件(12a)之控 j疋 而達到降低膜電極組⑴C)溫度1 =的功率} =⑴…系透過積體電路元件(預 對應進仃燃料濃度調整,舉例來說,4 M281303 四、創作說明(5) 件(1 3 c )可以係一幫浦,當感測元件(1 3 a)偵測到燃料電池 (1 0 )之燃料濃度或燃料流量,並由積體電路元件(1 2a)之 控制手段判斷此數值低於預定值,則透過積體電路元件 (1 2 a)之控制手段輸出控制訊息至該濃度調節元件(1 3 c ), 用以操作幫浦在對應的功率下運作,而控制燃料濃度或燃 料流量達到至預定值。 以上所述者僅為用以解釋本創作之較佳實施例,並非 企圖據以對本創作作任何形式上之限制,是以,凡有在相 同之創作精神下所作有關本創作之任何修飾或變更,皆仍 φ應包括在本創作意圖保護之範疇。And concentration adjustment element (1 3 body circuit example) (1 3 a integrated electrical value, then the temperature operation, concentration adjustment, and M281303 IV. Creation instructions (4) QFP series, PLCC, SOP series, DIP Series, L0C series, gold finger connector, etc. The third diagram is a schematic diagram showing the structure of the fuel cell with integrated circuit elements of the present invention having a peripheral device. The fuel cell of the present invention with integrated circuit elements may further have a peripheral device. (1 3), for detecting and / or controlling the operating parameters of the fuel cell (10), and providing the corresponding control means of the integrated circuit element (1 2 a). Among them, the fuel cell (1 0) operating parameters may include membrane electrode group temperature, fuel concentration, fuel flow, electric power, current / voltage strength, etc. The peripheral device (13) is selected to have one or several sensing elements (1 3 a) and perform Detect various physical characteristics of the aforementioned fuel cell, and the information detected by the sensing element (1 3 a) corresponding to each physical characteristic can be transmitted to the integrated circuit element (丨 2a) for use as a Those who need information for the logical operation of its control means. Furthermore, the peripheral device (13) chooses to have a temperature adjustment element (13b) / π π ~ 丨, wu W. Cheng / dish anti-jamming element (i 3b) It is through the control means of the element (1 2 a) and correspondingly adjusts the temperature. For example, the temperature adjustment element (l3b) can be a fan when the sky is detected. The membrane electrode group of the fuel cell (10) is detected. (N ,, f = the control means of the piece (1 2a) judges that the temperature value exceeds X 1 through the control of the body circuit element (12a) to reduce the membrane electrode group ⑴C) temperature 1 = power} = ⑴ ... It is through integrated circuit components (pre-corresponding to fuel concentration adjustment, for example, 4 M281303). 4. Creation instructions (5) pieces (1 3 c) can be connected to a pump. When the sensing element (1 3 a) detects When the fuel concentration or fuel flow of the fuel cell (1 0) is measured, and the value is judged to be lower than a predetermined value by the control means of the integrated circuit element (12a), the control means of the integrated circuit element (12a) is used. Output control information to the concentration adjusting element (1 3 c) for operating the pump to operate at the corresponding power And control the fuel concentration or fuel flow to reach a predetermined value. The above is only to explain the preferred embodiment of this creation, and is not intended to limit the creation in any form, so, where Any modification or change related to the creation under the spirit of creation should still be included in the scope of protection of the intention of the creation.
第9頁 M281303 圖式簡單說明 【圖式簡單說明】 第一圖係顯示本創作具積體電路元件之燃料電池一具體實 施例之立體視圖; 第二圖係顯示本創作第一圖另一視角之立體視圖; 第三圖係顯示本創作具積體電路元件之燃料電池具有周邊 裝置的結構示意圖。 【主要元件符號說明】 燃料電池(1 〇) 0基板(11) 陽極集電線路(1 1 a ) 陰極集電線路(11 b ) 膜電極組(1 1 c ) • 電氣線路(1 2 ) 積體電路元件(12a) 周邊裝置(1 3 ) 、感測元件(1 3 a ) 溫度調節元件(1 3 b ) 濃度調節元件(1 3 c )Page 9 M281303 Brief description of the drawings [Simplified illustration of the drawings] The first diagram is a perspective view showing a specific embodiment of the fuel cell with integrated circuit elements of the present invention; the second diagram is another perspective of the first picture of the present invention A three-dimensional view; the third diagram is a schematic diagram showing the structure of the fuel cell with integrated circuit elements and peripheral devices of the present invention. [Description of main component symbols] Fuel cell (1 0) 0 substrate (11) anode current collecting circuit (1 1 a) cathode current collecting circuit (11 b) membrane electrode group (1 1 c) • electrical circuit (1 2) product Body circuit element (12a), peripheral device (1 3), sensing element (1 3a), temperature adjustment element (1 3b), concentration adjustment element (1 3c)