201110800 六、發明說明: 【發明所屬之技術領域】 本發明為提供一種鋁板發熱結構,尤指一種可降 低消耗功率之加熱板結構。 【先前技術】 按,現今較常見且普遍使用的電熱元件,大致如 φ 第圖所示之電熱絲1、電熱管2以及金屬電熱板3 ,其所應用的範圍相當廣泛,從工業、民生、運輸到 醫療方面,如加熱器、熱風機、烤箱、飲水機、電熱 毯、保溫箱、保暖墊、除霧裝置、車用電熱裝置與電 暖器等等,而電熱絲i、電熱管2以及金屬電熱板3 均是利用導電材料本身的電阻係數’故通電後,材料 本身因電阻產生熱能而發熱,以供人們應用,若要獲 • 得精確的熱能,必需很精確的計算出該材料的特性, 並依計算的結果,精確地製作出一定材料、一定長产 、一定截面積的電熱絲、1、電熱管2以及金屬電熱= 3,但是,由於材料本身的因素,實在難以製作出能 精確發出固定熱量的電熱元件,再者,由於電熱絲丄&、 電熱管2以及金屬電熱板3本身電阻值較高,因 使用時非常耗費電力。 故,如何將上述之問題加以摒除,訾失 貝為本案發明 201110800 人所欲解決之技術困難點之所在。 【發明内容】 故,本發明之發明人有鑒於上述缺失,乃搜集相 關資料,經由多方評估及考量,並以從事於此行業累 積之多年經驗,經由不斷試作及修改,始設計出此種 發明專利者。 本發明之主要目的在於:其主要由一基板、至少 /一電熱層與二導電層所組成,先行將導電層導通電流 後,使電熱層發出熱量並傳導至基板,進而使基板產 生可使用之熱能,且由於電熱層主要由石墨與矽之混 合材質所製成,因此,可使導電層達到快速發熱、降 低消耗功率以及增加使用壽命之目的。 本發明之次要目的在於:由於電熱層之配置結構 可達到鬲導熱特性,因此電熱層僅需以局部方式塗佈 於基板’而不需完全塗布於基板表面,即可達到產生 足夠之熱能,藉此以達到降低製作成本之目的。 【實施方式】 為達成上述目的及功效,本發明所採用之技術手 段及構造,茲繪圖就本發明較佳實施例詳加說明其特 徵與功能如下,俾利完全了解。 請參閱第二圖、第三圖、第四圖、第五圖與第六 圖所示,係為本發明之立體外觀圖、立體分解圖、局 201110800 部示意圖、剖視圖與較佳實施例圖,由圖中可清楚看 出,本發明之結構其主要由一為紹製材質之基板4、 至少-電熱層5以及二由含銀之膝態物質所製成之導 電層6所組成,其中電熱層5主要由石墨與梦之混合 材質所製成,其中混合材質中石墨之含量至少在8 〇 %以上,而其他則為發,本發明之電熱層5之所以使 用石墨與石夕之混合材質,乃在於石墨具有良好的導電 •性、導熱性、财熱性,以及不易與氧化合、不受任何 酸類影響與熔點高等特性,石夕則具有化學性質非常穩 定以及遇熱膨脹係數不大等特性,在設置方面,電熱 層5主要是塗佈於基板4局部表面,而二導電層6則 分別塗佈於電熱層5之二端,電熱層5表面並塗佈有 一以樹脂材質所製成之絕緣層7,在使用時,由塗佈 於電熱層5二端之導電層6導通電流,進而使電熱層 • 5發出熱量’並將熱量傳導至基板4上,俾使基板4 產生可使用之熱能,而在電熱層5之表面上塗佈之絕 緣層7,主要是防止導電層6在導通電流後電流擊穿 電熱層5而發生危險; 另外,請參閱第七圖與第八圖所示,係為本發明 之進一步實施例圖,由圖中可清楚看出,由於本發明 電熱層5之配置結構可達到高導熱特性,因此電熱層 5在塗佈於基板4導通電流時,不需塗滿整個基板4 201110800 表面’僅需塗佈局部區塊即可達到產生足夠之熱量, 因此可依照使用需求塗佈成方形、矩形、圓形或不規 則型態,藉此,可大幅降低製作電熱層5之成本; 而就本發明與一般習用所使用之電熱板,在相同 環境與欲達成之目的下,進行實驗以取得各項數據值 比實驗方式主要是分別在二個不鏽鋼碗内倒入5 〇 C C約5 8 C的咖哪,並在二個不鏽鋼碗底部分別置 放本創作與習用電熱板,使用直流電對本創作與習用 電熱板進行通電,且持續加熱不鏽鋼碗内之咖啡,使 咖啡維持在5 Οΐ約1 〇分鐘,並測得下列電壓與電 流等數據: '201110800 VI. Description of the Invention: [Technical Field] The present invention provides an aluminum plate heating structure, and more particularly to a heating plate structure capable of reducing power consumption. [Prior Art] According to the electric heating elements, which are more common and commonly used today, the heating wire 1, the electric heating tube 2 and the metal electric heating plate 3 shown in Fig. φ are widely used in a wide range of applications from industry to people's livelihood. Transportation to medical aspects, such as heaters, hot air blowers, ovens, water dispensers, electric blankets, incubators, warm mats, defogging devices, automotive electric heaters and electric heaters, etc., and heating wires i, electric heating tubes 2 and The metal electric heating plate 3 utilizes the electric resistance coefficient of the conductive material itself. Therefore, after the electric current is applied, the material itself generates heat due to the heat generated by the electric resistance for the application of the human body. In order to obtain accurate thermal energy, it is necessary to accurately calculate the material. Characteristics, and according to the calculation results, accurately produce a certain material, a certain length of production, a certain cross-sectional area of the heating wire, 1, electric heating tube 2 and metal electric heating = 3, but due to the material itself, it is difficult to make energy Accurately radiating a fixed amount of electric heating elements, and further, since the electric heating wire amp &, the electric heating tube 2 and the metal electric heating plate 3 have high resistance values, they are very expensive to use. Force. Therefore, how to eliminate the above problems, the loss of the case is the technical difficulties that the 201110800 people want to solve. SUMMARY OF THE INVENTION Therefore, the inventors of the present invention have invented such inventions in view of the above-mentioned deficiencies, collected relevant materials, evaluated and considered through various parties, and accumulated years of experience in the industry, through continuous trials and revisions. Patent holder. The main purpose of the present invention is that it mainly consists of a substrate, at least one electric heating layer and two conductive layers. After the conductive layer is turned on, the electric heating layer emits heat and conducts to the substrate, thereby making the substrate usable. Thermal energy, and because the electrothermal layer is mainly made of a mixture of graphite and tantalum, the conductive layer can be quickly heated, reduced in power consumption, and increased in service life. The secondary object of the present invention is that since the arrangement structure of the electrothermal layer can achieve the thermal conductivity of the crucible, the electrothermal layer only needs to be applied to the substrate in a partial manner without completely coating the surface of the substrate, so that sufficient heat energy can be generated. In order to achieve the purpose of reducing production costs. [Embodiment] In order to achieve the above objects and effects, the technical means and the structure of the present invention will be described in detail with reference to the preferred embodiments of the present invention, and the features and functions are as follows. Please refer to the second, third, fourth, fifth and sixth figures, which are schematic diagrams, perspective exploded views, schematic diagrams of sections 201110800, sectional views and preferred embodiments of the present invention. As is clear from the figure, the structure of the present invention is mainly composed of a substrate 4 of a material, at least an electrothermal layer 5, and a conductive layer 6 made of a silver-containing knee material. The layer 5 is mainly made of a mixed material of graphite and dream, wherein the content of graphite in the mixed material is at least 8 〇% or more, and the others are hair. The electric heating layer 5 of the present invention uses a mixed material of graphite and stone eve. However, graphite has good electrical conductivity, thermal conductivity, heat, and is not easily oxidized, not affected by any acid and high melting point. Shi Xi has the characteristics of very stable chemical properties and small thermal expansion coefficient. In terms of setting, the electrothermal layer 5 is mainly applied to a partial surface of the substrate 4, and the two conductive layers 6 are respectively applied to the two ends of the electrothermal layer 5, and the surface of the electrothermal layer 5 is coated with a resin material. The edge layer 7, when in use, conducts current from the conductive layer 6 applied to both ends of the electrothermal layer 5, so that the electrothermal layer 5 emits heat and conducts heat to the substrate 4, so that the substrate 4 can be used. The thermal energy, and the insulating layer 7 coated on the surface of the electric heating layer 5, mainly prevents the current of the conductive layer 6 from breaking down the electric heating layer 5 after the current is turned on; and, please refer to the seventh and eighth figures. It is a further embodiment of the present invention. As is clear from the figure, since the arrangement structure of the electrothermal layer 5 of the present invention can achieve high thermal conductivity, the electrothermal layer 5 does not need to be applied to the substrate 4 to conduct current. Coating the entire substrate 4 201110800 The surface 'only need to apply a local block to generate enough heat, so it can be coated into a square, rectangular, circular or irregular shape according to the use requirements, thereby greatly reducing the production. The cost of the electric heating layer 5; and the electrothermal plate used in the present invention and the conventional use, in the same environment and the purpose to be achieved, the experiment is carried out to obtain various data values than the experimental method mainly in two stainless steel bowls respectively. Pour 5 〇CC about 5 8 C, and place the creation and custom electric heating plates on the bottom of the two stainless steel bowls. Use DC to energize the creation and the conventional electric heating plate, and continue to heat the coffee in the stainless steel bowl. Keep the coffee at 5 Οΐ for about 1 , minutes and measure the following voltage and current data: '
本發明 習用電熱板 發熱材胃石墨與矽之齡聚醯亞胺薄膜印The invention uses the electric heating plate, the heating material, the stomach graphite and the enamel age polyimine film printing
物質所製成 3 5 * 3 5 m m 1 · 5 V 〜5 V 尺寸 電壓 電流 發熱面* 電功率 ---------Made of substance 3 5 * 3 5 m m 1 · 5 V ~ 5 V Dimensions Voltage Current Heating surface * Electric power ---------
9 . 9W c m 2/W = 刷電阻材料 4 5 * 4 5 m9 . 9W c m 2/W = brush resistance material 4 5 * 4 5 m
V mV m
Ο · 4 2 WΟ · 4 2 W
201110800 〇 · 8 Ο 1.41 當維持二不鏽鋼碗内之咖_溫度在5 〇 °c,且維 持1 0分鐘後可發現,在必須達成相同目的之限制之 下’本發明之電熱層5需要1·5V〜5V之電壓以 及2 . 20A之電流,而習用電熱板需要9V之電壓 以及2 · 9 6 A之電流,並透過下列電功率公式由本 • 發明與習用電熱板之電壓、電流數值以及發熱面積進 行計算: 功率(P )=消耗電能(E )/經過時間(t ) P = I v = I 2r = v2/r 計算單位: 功率(P )—瓦特(W) 電流(I )—安培(A) 電壓(V)~>伏特(V)電阻(R)—歐姆(Ω) 最後得知,本發明電熱層5總共消耗電功率僅為 9 · 9瓦特(W ),每平方公分則平均消耗〇 · 8 〇瓦 特(W),而習用電熱板則總共消耗電功率為2 〇 · 4 2瓦特(W)’每平方公分平均消耗i · 4丄瓦特(w) ,在計箅數據值相較之下,本發明之電熱層5的確比 一般習用電熱板所必須消耗的電功率低,且所需之發 熱面積較小,因此除了可達到節能省電之目的外,亦 可達到降低製作成本之目的。 201110800 紅上所述,本發明之鋁板發熱結構於使用時,為 確實能達到其功效及目#,故本發明誠.實用性優 異之創作’為符合發明專利之申請要件,爰依 申請,盼審委早曰賜准本創作,以保障發明1 苦創作,倘若鈞局審委有任何稽疑,請不吝 示,發明人定當竭力配合,實感德便。"來函指201110800 〇· 8 Ο 1.41 When the temperature of the coffee in the two stainless steel bowls is maintained at 5 °C, and it is maintained for 10 minutes, it can be found that the electrothermal layer 5 of the present invention needs to be 1 under the limitation that the same purpose must be achieved. The voltage of 5V~5V and the current of 2. 20A, while the conventional electric heating plate needs the voltage of 9V and the current of 2 · 9 6 A, and the voltage and current values and the heating area of the invention and the conventional electric heating plate are carried out by the following electric power formula. Calculation: Power (P) = Power Consumption (E) / Elapsed Time (t) P = I v = I 2r = v2/r Unit of Calculation: Power (P) - Watts (W) Current (I) - Ampere (A) Voltage (V) ~ > Volt (V) Resistance (R) - Ohm (Ω) Finally, it is known that the electric heating layer 5 of the present invention consumes only a total of 9 9 watts (W) of electric power, and consumes an average of 〇 per square centimeter. 8 watts (W), while conventional electric heating panels consume a total of 2 〇 · 4 2 watts (W) 'average consumption per square centimeter · 4 watts (w), compared to the calculated data values, The electric heating layer 5 of the present invention is indeed lower than the electric power that must be consumed by the conventional electric heating plate. And the smaller area required for heat generation, and therefore in addition to the purpose of energy saving, but also it can reduce the manufacturing cost of the object. 201110800 Red, the aluminum plate heating structure of the present invention can achieve its efficacy and purpose when used, so the invention of the present invention with excellent practicality is in accordance with the application requirements of the invention patent, and is applied for. The trial committee gave this book early to guarantee the creation of the invention. If there is any doubt in the trial committee, please do not show that the inventor will try his best to cooperate with him. " Letter to
8 201110800 【圖式簡單說明】 第一圖係習用之立體外觀圖。 第二圖係本發明之立體外觀圖。 第三圖係本發明之立體分解圖。 第四圖係本發明之局部示意圖。 第五圖係本發明之剖視圖。 第六圖係本發明之較佳實施例圖。 第七圖係本發明之進一步實施例圖一。 第八圖係本發明之進一步實施例圖二。 【主要元件符號說明】 習用部分· 電熱絲.....1 電熱管.....2 金屬電熱板· · · 3 本發明部分: 基板......4 電熱層.....5 導電層.....6 絕緣層.....78 201110800 [Simple description of the diagram] The first picture is a stereoscopic appearance of the application. The second drawing is a perspective view of the present invention. The third figure is a perspective exploded view of the present invention. The fourth drawing is a partial schematic view of the invention. The fifth drawing is a cross-sectional view of the present invention. Figure 6 is a diagram of a preferred embodiment of the present invention. Figure 7 is a first embodiment of the present invention. The eighth figure is a second embodiment of the present invention. [Main component symbol description] Conventional part · Electric heating wire.....1 Electric heating tube.....2 Metal heating plate · · · 3 Part of the invention: Substrate...4 Electric heating layer.... .5 Conductive layer.....6 Insulation layer.....7