-M324305 - 八、新型說明: 【新型所屬之技術領域】 本新型是一種快速抽取式印刷電路板燃料電池裝置,特別著重於印刷 電路板燃料電池之快速抽取裝置,該裝置使得電池基板與固定式插槽基座 可以快速的結合與分離,並且完成快速發電的特性。 - 【先前技術】 春燃料電池(Fuel Cell)誕生,啟祕聰年英譲illian Grove爵士所 研發的電化學裝置開始,利用燃料(甲醇、氫氣等)與氧化劑(氧氣)進行觸 媒反應後,因而產生電子與水分子粒物,此後該裝置稱馳料電池,由 於燃料電池發電過程並不會生成有礙於環境的污染物(一氧化碳、氮化 物),因此具備環保效益。近年來新的油源開採不易、石油消耗量大增導致 價格相當不穩定並域續不斷地攀升,此時物價波動與經濟成長緩慢等因 素影響,各個政府開始思考與面對能源缺乏的問題,並且透過替代能源(太 •陽能、風能、生質能、氫能)不斷地研究、發展與應用,減少人類對於化石 、 燃料過度的依賴性,燃料電池等氫能相關研究深受世人的注目與關心。 中華民國專利第M266561號之插卡式燃料電池裝置,利用燃料電池裝置 之第一扣合部與固定座上的扣桿之第二扣合部進行夾持固定。由於該裝置 存在幾項缺點。一、固定座上的扣桿在往復地操作狀態下,該扣桿容易發 生疲勞現象而導致變形,最終無法繼續維持固定夾持的功能。二、 料電 池裝置夾持於固定座,兩者需要進行分離動作時,必須施加一個較大力量 或同時需要兩隻手,才能將燃料電池與固定座進行分離,操作上極為不便 5 .M324305 - 因此本新型基於上述的燃料電池裝置等缺點進行改良與精進,新型出一種 可以快速抽取使用的印刷電路板燃料電池裝置。 【新型内容】 本新型主要目的係提供一種快速抽取式印刷電路板燃料電池裝置,依 ‘ 紐时所需的賴、神細,直触電絲板插置於蚊式插槽基座上 . 進行發電,提供給應用端一個穩定電力來源。 瞻 本新型之另-目的係提供一種快速抽取式印刷電路板燃料電池裝置, 利用本新型之固定式插槽基座裝置與電池基板達到固定爽持功能,固定式 插槽基座的氣體管路(電子線路)與電池基板的氣體管路(電子線路)同時達 到相互導通功能。 本新型之另—目_提供—種快速抽取式印刷電路板罐電池裝置, 利用本新里之固定式插槽基座與電路板插座兩者都可以達到快速固定夹 持與分離的功能。 、為達到上述新型之目的,本新型是—種快速抽取式印刷電路板燃料電 •池裝置。電池基板内安裝許多個膜電極組進行電化學反應發電,兩側各有 一個⑽可簡峡式插槽基座_槽相互結合,避免兩者結合後再次發 生聽。固定式插槽基座内部由兩個袭置所組成,由按钮與彈簧配合驅動 L槽基翻部__臂,被稱為第,裝置其中當按鈕往下 移動^連續帶動固定式插槽基座内部兩側的懸臂,同時產生一個向上推 _力里來推動伸縮推桿。其次是由伸縮推桿與彈簣所組成的裝置,被稱 為第二退«置,當電池基板從蚊式插槽基座分離時,兩側的懸臂推擠 6 M324305 第二退出裝置之伸縮推桿上的卡榫,纽_個向前擠壓的力量,使得電池 基板被強顺固定式插槽基座進行分離動作。#電池基板姻定式插槽基 座結合時’電池基板上的氣體管路與電子線路,同時與固定式插槽基座内 相對應的氧體管路與電子線路進行相互導通,最後氣體管路與電子線路連 接到外部㈣雜插座上,經自直流職騎行讎與整錢,最後才是 輸出到應用端使用。 為了讓熟悉該項技術人員能夠快速地瞭解本新型之目的、特徵及功 月b,茲藉由下述最佳具體實施例來加以說明。 【實施方式】 第一圖為本新型快速抽取式印刷電路板燃料電池裝置外觀示意圖,其中 快速抽取式印刷電路板燃料電池裝置(1〇〇)包括電池基板(1〇1)與固定式插 槽基座⑽)。電池基板(1Q1)隨著產品應用端所需要的功率,而安裝適當數 里的膜電極組⑽)在電池基板(1G1)内,該電池基板⑽)與@定式插槽基 座(201)進行結合動作,壓縮到該基座内兩側的伸縮推桿與彈簧,同時電池 基板(101)的凹槽(105)與固定式插槽基座(2〇1)的凸緣(2〇幻相互結合,以達 到固定夾持功能,接著氣體通路則是由第一端氣體管路(1〇4)與第二端氣體 官路(202)相互導通,電子線路則是第一端電子線路(1〇3)與第二端電子線路 (207)相結合,將電池基板(1〇1)所產生的電力經由電子線路導引到直流轉換 為進行整流與穩壓。當電池基板(101)與固定式插槽基座(2〇1)進行分離時, 固疋式插槽基座(201)上的按钮(2〇4)、懸臂(205)與伸縮推桿(2〇6)等零件將 會配合電池基板(101)進行分離的動作。固定式插槽基座(2〇1)底部有一個鳩 -M324305 尾插座(203),是用來與電路板插座(300)的鳩尾插槽(301)相互結合使用。 第二圖為本新型快速抽取式印刷電路板燃料電池之第一退出裝置的剖 面圖。電池基板(101)與固定插槽基座(201)進行分離時,固定插槽基座(2〇1) 上的按紐(204)往下移動時,帶動兩側的懸臂(2〇5)由下向上移動,推擠到第 二卡榫槽(210)内的卡榫(2〇6a),完成了電池基板(101)與固定插槽基座(2〇1) 的分離動作。完成上述動作後,按鈕(2〇4)内的彈簧(208)與懸臂(205)將回 復到原來的狀態。 第三圖為本新型快速抽取式印刷電路板燃料電池之第二退出裝置的剖 面圖。電池基板(101)與固定式插槽基座(2〇1)進行結合的動作時,電池基板 (101)垂直被插入在固定式插槽基座(2〇1),基座内的伸縮推桿(206)往後移 動,此時伸縮推桿(206)的卡榫(206a)由第一卡榫槽(210)往第二卡榫槽(211) 作用,槽内的彈簧(208)受到壓縮後,從動能轉換成彈簧壓縮能儲存能量, 同時間電池基板(101)的凸緣(1〇5)與固定式插槽基座(2〇1)的凹槽(2〇幻相 互結合,確保電池基板(1〇1)夾持的過程中不會脫落。當電池基板(1〇1)與固 定式插槽基座(201)進行分離時,兩側的懸臂(2〇5)推擠到卡榫(2〇6a),使得 壓縮狀態的彈簧(208)回復至原來狀況,將伸縮推桿(2〇6)的卡榫(2〇6a)由第 二卡榫槽(211)帶到第-卡榫槽(210),此時電池基板(1Q1)上的凸緣〇〇5) 與固定式插槽基座(201)的凹槽(209)造成分離後,電池基板(101)與固定式 插槽基座(201)便完全達到分離作用。 第四圖為本新型快速抽取式印刷電路板燃料電池的夾持與分離示意 圖第(1)圖疋固疋式插槽基座(201)與電池基板(ιοί)呈現分離的狀態,第 ⑵圖是電池基板(101)已經進入到固定式插槽基座⑽)内,第⑶圖是固 M324305 " 定式插槽基座(201)的兩側懸臂(205)開始動作,使得電池基板(101)被推擠 出去,第(4)圖是電池基板(101)與固定式插槽基座(2〇1)完成分離動作。 第五圖為本新型快速抽取式印刷電路板燃料電池裝置與電路板插座之 第一種樣式示意圖。首先把電路板插座(3〇〇)的鳩尾插槽(3〇1)與固定式插 槽基座(201)的鳩尾插座(2〇3)先行固定夾持,其次是電池基板(1〇1)被插置 • 到固定式插槽基座(2〇1)内便可以進行發電,此時第三端氣體管路(3〇2)與 、 第二端氣體管路(202)完成相互導通,第三端電子線路(303)與第二端電子 齡 、線路(207)完成相互導通,產生的電力輸送到電路板插座_)的直流轉換 器進行整流、穩Μ。最後按下按紐(3〇5)進行分離動作日夺,電池基板(1〇1) 直接與固定式插槽基座⑽)達到分離作用,但是固定式插槽基座(謝)則 是安裝到電路板插座(3〇〇)不移動。。 第六圖為本新型快速抽取式印刷電路板燃料電池裝置與電路板插座之 第二種樣式示意圖。首先電池基板⑽)先被插置於固定式插槽基板⑽) ,其次再插置於電路板插座(3〇〇)上便可以進行發電。其中電路板插座(3〇〇) 的轉尾插槽(301)是配合固定式插槽基座⑽)的鳩尾插座⑽)達到固定 夾持功此。最後按下按鈕(3〇5)進行分離動作時,電池基板(1〇1)與固定式 插槽基座⑽1)兩者-起從電路板插座⑽(j)達到分離作用。 第七圖為本新型快速抽取式印刷電路板燃料電池裝置與電路板插座之 第二種樣式示意圖。首先電池基板⑽)先被插置於固定式插槽基板 (201),其次再插置於電路板插座(3〇〇)上便可以進行發電。其中固定式插 槽基座(201)插置於電路板插座(3〇〇)内的矩形插槽(綱)後,往下移動到鳩 尾插槽(3G1)達咖定夾持。最後按下按鈕⑽5)進行分轉作時,電池基 9 M324305 板(101)與固疋式插槽基座(201)兩者一起從電路板插座(goo)達到分離。 本新型專利目的是一種快速抽取式印刷電路板燃料電池裝置,特別著 重印刷電路板燃料電池裝置具備快速結合與分離的功能。避免該裝置更換 、維修與組裝上繁雜流程,以達到快速供電之印刷電路板燃料電池裝置。 本新型專利另一個目的是内部結構簡單、成本低廉、體積小與重量輕 的特點’相當適合於印刷電路板燃料電裝置上,並且可以大量生產。 本新型專利另一個目的亦可以使用在液態燃料之曱醇或乙醇等類的燃 料電池裝置。 本新型專利乃是一種快速抽取式印刷電路板燃料電池裝置的創新設計 與概念,然而亦可以用其它之特定方法來實現,皆不脫離本新型之特點與 精神所在。因此文章所列舉之參數設定多募或概念性設計,在各方面皆應 5亥被視為例示性而不是限制性範例,故所有相似性的改變只要合乎本專利 之申請的範圍所定義及精神,均應該被包含在本專利所主張的範脅内。 【圖式簡單說明】 第一圖是本新型快速抽取式印刷電路板燃料電池裝置外觀示意圖。 第二圖為本新型快速抽取式印刷電路板燃料電池之第一退出裝置的剖面圖。 第三圖為本新型快速抽取式印刷電路板燃料電池之第二退出裝置的剖面圖。 弟四圖為本新型快速抽取式印刷電路板燃料電池的夾持與分離示意圖。 第五圖為本新型快速抽取式印刷電路板燃料電池裝置與電路板插座之第一 種樣式示意圖。 M324305 " 第六圖為本新型快速抽取式印刷電路板燃料電池裝置與電路板插座之第二 種樣式示意圖。 第七圖為本新型快逮抽取式印刷電路板燃料電池裝置與電路板插座之第三 種樣式示意圖。 【主要元件符號說明】-M324305 - VIII. New description: [New technical field] The new type is a fast-removable printed circuit board fuel cell device, with particular emphasis on the rapid extraction device of printed circuit board fuel cell, which makes the battery substrate and fixed type The slot base can be quickly combined and separated, and the characteristics of rapid power generation are achieved. - [Prior Art] The spring fuel cell was born, and the electrochemical device developed by Sir illian Grove, the first of the years, was started by the reaction of fuel (methanol, hydrogen, etc.) with oxidant (oxygen). Therefore, electrons and water molecules are generated. Since then, the device is called a battery, and since the fuel cell power generation process does not generate environmental pollutants (carbon monoxide, nitride), it has environmental benefits. In recent years, the exploitation of new oil sources is not easy, and the increase in oil consumption has caused prices to be quite unstable and continue to rise. At this time, factors such as price fluctuations and slow economic growth have caused governments to think and face the problem of energy shortage. And through the continuous research, development and application of alternative energy sources (Taiyang, wind energy, biomass energy, hydrogen energy), reducing human dependence on fossils and fuels, research on hydrogen energy such as fuel cells is deeply influenced by the world. Attention and concern. The plug-in type fuel cell device of the Republic of China Patent No. M266561 is clamped and fixed by the first engaging portion of the fuel cell device and the second engaging portion of the buckle on the fixed seat. There are several disadvantages due to this device. 1. When the buckle on the fixed seat is in the reciprocating operation state, the buckle is prone to fatigue and deformation, and finally the function of the fixed clamping cannot be maintained. 2. The battery device is clamped to the fixed seat. When the two need to be separated, it is necessary to apply a large force or two hands at the same time to separate the fuel cell from the fixed seat. The operation is extremely inconvenient. 5. M324305 - Therefore, the present invention is based on the above-described fuel cell device and the like, and is improved and refined. A new type of printed circuit board fuel cell device that can be quickly extracted and used is proposed. [New content] The main purpose of this new type is to provide a fast-removable printed circuit board fuel cell device, which is inserted into the mosquito-type slot base according to the required lining and thinness of the button. Power generation provides a stable source of power to the application. The other is to provide a fast-removable printed circuit board fuel cell device, which uses the fixed slot base device of the present invention to achieve a fixed holding function of the battery substrate, and a gas line of the fixed slot base. The (electronic circuit) and the gas line (electronic circuit) of the battery substrate simultaneously achieve mutual conduction function. The present invention provides a quick-removable printed circuit board can battery device that utilizes both the fixed socket base and the circuit board socket of the present invention to achieve rapid fixing and separation. In order to achieve the above-mentioned new purpose, the present invention is a rapid extraction type printed circuit board fuel electric battery device. A plurality of membrane electrode sets are installed in the battery substrate for electrochemical reaction, and one (10) can be combined with each other on both sides to prevent the two from being combined. The inside of the fixed slot base is composed of two attacking units. The button and the spring cooperate to drive the L-slot base __ arm, which is called the first, and the device moves when the button moves downwards ^ continuously drives the fixed slot base. The cantilever on both sides of the seat simultaneously produces an upward push _ force to push the telescopic push rod. Secondly, the device consisting of telescopic push rod and magazine is called the second retreat. When the battery substrate is separated from the mosquito slot base, the cantilever on both sides pushes the 6 M324305. The click on the push rod, the force of the forward squeeze, causes the battery substrate to be separated by the strong fixed slot base. #电池基板定定式式式槽的'''''''''''''''''''''' Connected to the external (four) miscellaneous sockets with the electronic circuit, after the ride from the DC position and the whole money, the output is finally used to the application end. In order to enable those skilled in the art to quickly understand the objects, features, and functions of the present invention, the invention will be described by the preferred embodiments. [Embodiment] The first figure is a schematic view of the appearance of a novel quick-removable printed circuit board fuel cell device, wherein the quick-removable printed circuit board fuel cell device (1〇〇) includes a battery substrate (1〇1) and a fixed slot. Base (10)). The battery substrate (1Q1) is mounted with a suitable number of membrane electrode sets (10) in accordance with the power required at the application end of the product, in the battery substrate (1G1), and the battery substrate (10) is connected to the @定式槽 base (201). Combining the action, compressing the telescopic push rod and the spring on both sides of the base, while the groove (105) of the battery substrate (101) and the flange of the fixed socket base (2〇1) Combined to achieve a fixed clamping function, then the gas passage is electrically connected between the first end gas line (1〇4) and the second end gas official path (202), and the electronic circuit is the first end electronic circuit (1) 〇3) combined with the second-end electronic circuit (207), the power generated by the battery substrate (1〇1) is guided to the direct current via the electronic circuit for conversion and rectification. When the battery substrate (101) and the fixed When the slot base (2〇1) is separated, the buttons (2〇4), the cantilever (205) and the telescopic pusher (2〇6) on the fixed slot base (201) will be The battery board (101) is used for separation. The bottom of the fixed slot base (2〇1) has a 鸠-M324305 tail socket (203), which is used to The dovetail slot (301) of the board socket (300) is used in combination with each other. The second figure is a cross-sectional view of the first exit device of the novel quick-removable printed circuit board fuel cell. The battery substrate (101) and the fixed slot base When the seat (201) is separated, when the button (204) on the fixed slot base (2〇1) moves downward, the cantilever (2〇5) on both sides is moved from bottom to top and pushed to the second. The cassette (2〇6a) in the cassette groove (210) completes the separation operation between the battery substrate (101) and the fixed slot base (2〇1). After the above operation is completed, the button (2〇4) is completed. The spring (208) and the cantilever (205) will return to their original state. The third figure is a cross-sectional view of the second exit device of the novel quick-removable printed circuit board fuel cell. The battery substrate (101) and the fixed slot When the pedestal (2〇1) is engaged, the battery substrate (101) is vertically inserted into the fixed socket base (2〇1), and the telescopic push rod (206) in the base moves backward. The latch (206a) of the telescopic push rod (206) is acted upon by the first latching slot (210) to the second latching slot (211), and the spring (208) in the slot is compressed and then It can be converted into a spring compression energy to store energy, and at the same time, the flange (1〇5) of the battery substrate (101) and the groove of the fixed socket base (2〇1) are combined with each other to ensure the battery substrate ( 1〇1) It does not fall off during the clamping process. When the battery substrate (1〇1) is separated from the fixed socket base (201), the cantilever (2〇5) on both sides is pushed to the cassette ( 2〇6a), the spring (208) in the compressed state is returned to the original condition, and the cassette (2〇6a) of the telescopic push rod (2〇6) is brought from the second cassette groove (211) to the first cassette. The groove (210), when the flange 〇〇5) on the battery substrate (1Q1) is separated from the groove (209) of the fixed socket base (201), the battery substrate (101) and the fixed slot The pedestal (201) completely achieves separation. The fourth figure is a schematic diagram of the clamping and disengagement of the fuel cell of the novel quick-removable printed circuit board. (1) The state in which the solid-state slot base (201) and the battery substrate (ιοί) are separated, (2) The battery substrate (101) has entered the fixed socket base (10), and the (3) is the fixed M324305 " fixed slot base (201) on both sides of the cantilever (205) starts to act, so that the battery substrate (101) ) is pushed out, and the (4) figure shows the separation operation between the battery substrate (101) and the fixed socket base (2〇1). The fifth figure is a first schematic diagram of the novel quick-removable printed circuit board fuel cell device and circuit board socket. First, the tail socket (3〇1) of the circuit board socket (3〇〇) and the tail socket (2〇3) of the fixed socket base (201) are fixed and clamped first, followed by the battery substrate (1〇1). ) is inserted into the fixed slot base (2〇1) to generate electricity. At this time, the third end gas line (3〇2) and the second end gas line (202) are mutually conductive. The third-end electronic circuit (303) is electrically connected to the second-end electronic age and the line (207), and the generated power is sent to the DC converter of the circuit board socket for rectification and stabilization. Finally, press the button (3〇5) to separate the operation, and the battery substrate (1〇1) is directly separated from the fixed socket base (10), but the fixed socket base (Xie) is installed. Do not move to the board socket (3〇〇). . The sixth figure is a second schematic diagram of the novel quick-removable printed circuit board fuel cell device and circuit board socket. First, the battery substrate (10) is first inserted into the fixed slot substrate (10), and then inserted into the circuit board socket (3 turns) to generate electricity. The tail socket (301) of the circuit board socket (3〇〇) is the tail-end socket (10) that fits the fixed socket base (10) to achieve a fixed clamping function. When the button (3〇5) is finally pressed to perform the separating operation, both the battery substrate (1〇1) and the fixed socket base (10) 1) are separated from the circuit board socket (10) (j). The seventh figure is a second schematic diagram of the fuel cell device and the circuit board socket of the novel quick-removable printed circuit board. First, the battery substrate (10) is first inserted into the fixed slot substrate (201), and then inserted into the circuit board socket (3 turns) to generate electricity. The fixed slot base (201) is inserted into the rectangular slot (outlet) in the circuit board socket (3〇〇), and then moved down to the tail slot (3G1). Finally, when the button (10) 5) is pressed, the battery base 9 M324305 board (101) and the solid-state slot base (201) are separated from the board socket (goo). The purpose of the novel patent is a fast-removable printed circuit board fuel cell device, which particularly emphasizes the function of rapid integration and separation of the printed circuit board fuel cell device. Avoid the complicated process of replacement, repair and assembly of the device to achieve a fast-powered printed circuit board fuel cell device. Another object of the present patent is that the internal structure is simple, the cost is low, the volume is small, and the weight is light. It is quite suitable for a printed circuit board fuel electric device, and can be mass-produced. Another object of the present invention is also to use a fuel cell device such as methanol or ethanol in a liquid fuel. This new patent is an innovative design and concept of a fast-removable printed circuit board fuel cell device. However, it can be implemented by other specific methods without departing from the spirit and spirit of the present invention. Therefore, the parameters listed in the article are multi-raised or conceptually designed. In all respects, 5 hai is regarded as an illustrative rather than a restrictive example, so all similarity changes are as defined and spirited by the scope of the patent application. , should be included in the scope of the patent claims. [Simple description of the drawing] The first figure is a schematic view of the appearance of the fuel cell device of the novel quick-removable printed circuit board. The second figure is a cross-sectional view of the first exit device of the novel quick-removable printed circuit board fuel cell. The third figure is a cross-sectional view of a second exit device of the novel quick-removable printed circuit board fuel cell. The fourth picture of the brother is the schematic diagram of the clamping and separation of the fuel cell of the new fast-removable printed circuit board. The fifth figure is a first schematic diagram of the fuel cell device and circuit board socket of the novel quick-removable printed circuit board. M324305 " The sixth figure is a second schematic diagram of the new quick-removable printed circuit board fuel cell device and circuit board socket. The seventh figure is a third schematic diagram of the fuel cell device and the circuit board socket of the new fast-moving and extracting printed circuit board. [Main component symbol description]
100 抽取式印刷電路板燃料電池裳置 101 電池基板 102 膜電極組 103 第一端電子線路 104 第一端氣體管路 105 凸緣 201 固定式插槽基座 202 第二端氣體管路 203 鳩尾插座 204 按紐 205 懸臂 206 伸縮推桿 206a 卡榫 207 第二端電子線路 11 M324305100 removable printed circuit board fuel cell skirt 101 battery substrate 102 membrane electrode assembly 103 first end electronic circuit 104 first end gas line 105 flange 201 fixed socket base 202 second end gas line 203 tail socket 204 button 205 cantilever 206 telescopic push rod 206a card 207 second end electronic circuit 11 M324305
208 彈簧 209 凹槽 210 第一卡榫槽 211 第二卡榫槽 300 電路板插座 301 鳩尾插槽 302 第三端氣體管路 303 第三端電子線路 304 矩形插槽 305 按钮208 spring 209 groove 210 first card slot 211 second card slot 300 circuit board socket 301 tail socket 302 third end gas line 303 third end electronic circuit 304 rectangular slot 305 button