M284342 八、新型說明: 【新型所屬之技術領域】 本創作是涉及-麵_結構,尤指域 =體雖糊___伽刪與保二; 禍構造。 …' 【先前技術】 加二!:面=T能在熱源停止燃燒後還能具有保溫或 加熱的功能,例如_專利公告第595413號「網煮鍋之結構」所 不’其包括:-外銷,於兩側上端設有對稱之检扣;一内锅 置入於外銷内,上端形成-把手,並在其側設凸塊,供把手跨置, 上緣形成-較寬之銷緣,可使其跨置於外銷上端,並於把手略 =與兩栓扣呈職位置處設定似,可配合栓扣助_定於 内盍,蓋合於内鋼鋼緣下端;—外蓋,蓋合於内鋼鋼 、、為,八特徵在於:該内鍋鍋底設有數個l形固定片,並供_ 單圈或複數__聚_設践定,而設於__底;方了 保留有0· 5mm〜1· 5mm的間隙。 ’ 又例如國内專利公告M256738號「離火續煮鶴構造」所示, 其申請專利範圍第1項所述之特徵在於··煮銷底部的中央以螺合 方式與聚熱環螺合,換言之,是在鋼底中央設置一螺桿與聚熱^ 中央的螺孔相互螺合固定,有如圖4所示。又,申請專利範圍第 1 〇項的特徵則在於··煮鍋底部有一固定環,該固定環的内壁具 内螺牙’以與外緣具有外螺紋的聚熱環相互螺合固定,有如、 9所示。 闺1 【新型内容】 5 M284342 一、 所欲解決之問題點: 刚述的問題點在於鍋底的聚熱圈或聚熱環是以生 a 聚熱圈(環)在爐火上加熱至通紅狀態時,溫度可達爆咖虽 仁在熱源停止燃燒後,聚熱圈⑷的溫度會隨著時間的 降低:自1熱圈(環)隨著内銷置入外锅後’雖可對内鎮的二 進仃續熱加溫而達燜煮效果,但生鐵製造的聚熱圈㈤卻 身鐵質材料受随傳導,使溫紐著時間的增長而獨降低,因 • 此便開始微量失熱,所以最佳的峨續鱗間通常只在前半個小 時内(約2 0〜3 〇分鐘),之後就只能達到保溫功能,無法再續 二加溫加熱’目此習式峨鍋_熱增溫時間有限,無法再延長 ,目此如何加長續熱增溫時間及如何制更節省能源的 政果,便成為本創作欲克服的問題點。 、 二、 本創作之技術手段: 為解決前述之問題點,本創作技術手段是這樣實現的,一種 燜煮鍋之續熱裝置,是由一可置入外鍋内的内鍋丄丄、數個環設 鲁 於内鎮1 1底面的蚊片1 2、及藉由固定片丨2安置固定的續 熱盤13組合而成,其特徵在於:續熱盤13為保溫石材,其藉 由前述固定片12而與内鍋11鍋底保持一定間距,且續熱盤^ 有供火源導入的大通孔131。 依據前述,大通孔131設置在續熱盤13中央為佳。 依據前述,大通孔131的週邊設置若干個小穿孔13 2。 依據前述,續熱盤13為天然保溫石研磨而成。 依據前述,續熱盤13為保溫磚燒製而成。 依據前述,續熱盤13為保溫土高溫燒結而成。 6 M284342 依據前述,續熱盤1 3中具有高鎂成份,其占總量的15%以 上0 依據前述,續熱盤1 3中的成分更包括鋁2〜5%、矽60〜70%、 鐵M5%及少許微量礦物元素。 依據前述,續熱盤1 3的厚度範圍以5〜25mm為佳。 三、對照先前技術之功效: 藉由本創作之實施可獲致下列優點:M284342 VIII, new description: [New technology field] This creation is related to - face _ structure, especially domain = body paste ___ gamma delete and protect two; ...' [Previous technology] Add two!: Surface = T can also have the function of heat preservation or heating after the heat source stops burning. For example, _ Patent Announcement No. 595413 "Structure of net skillet" does not include: - Export Symmetrical check buckles are arranged on the upper ends of the two sides; an inner pot is placed in the outer pin, the upper end is formed with a handle, and a bump is arranged on the side for the handle to straddle, and the upper edge is formed - a wider pin edge, It is placed on the upper end of the outer pin, and the handle is slightly set to be similar to the position of the two buckles. It can be matched with the buckle to help the inner ring, and is closed at the lower end of the inner steel edge; In the inner steel, the eight characteristics are: the inner pot bottom is provided with a number of l-shaped fixing pieces, and is provided for _ single ring or plural __ poly _ set to be set, and set at __ bottom; 0·5mm~1· 5mm gap. ' For example, as shown in the domestic patent publication M256738, "The structure of the fire-burning crane", the feature of the first application of the patent scope is that the center of the bottom of the cook pin is screwed to the heat collecting ring. In other words, a screw is arranged in the center of the steel bottom and the screw holes in the center of the heat collecting body are screwed and fixed to each other, as shown in FIG. Moreover, the feature of the first aspect of the patent application is that there is a fixing ring at the bottom of the cooking pot, and the inner wall of the fixing ring has an internal screw 'to be screwed together with a heat collecting ring having an external thread on the outer edge, for example, 9 is shown.闺1 【New content】 5 M284342 I. The problem to be solved: The problem just mentioned is that the heat collecting ring or the heat collecting ring at the bottom of the pot is heated to the red state on the fire by the heat ring (ring). When the temperature reaches the bursting coffee, although the heat source stops burning, the temperature of the heat collecting ring (4) will decrease with time: since the 1 hot ring (ring) is placed inside the outer pot with the inner pin, The second heat is heated and heated to achieve the effect of boiling, but the heat-generating circle produced by the pig iron (5) is controlled by the conduction of the iron material, which makes the temperature increase of the temperature alone, because of this, the micro-heat loss begins. Therefore, the best continuous scales are usually only in the first half hour (about 20 to 3 minutes), after which only the heat preservation function can be achieved, and it is impossible to continue heating for two more times. Time is limited and can no longer be extended. How to lengthen the time of continuous heat increase and how to make more energy-saving political achievements has become a problem that this creation wants to overcome. Second, the technical means of this creation: In order to solve the above problems, the creative technical means is realized in this way, a continuous heat device of the simmering pot is made up of an inner pot that can be placed in the outer pot. The ring is provided with a mosquito piece 1 2 on the bottom surface of the inner town 1 1 and a continuous heat plate 13 fixed by the fixed piece 2, wherein the continuous heat plate 13 is a heat insulating stone, which is The fixing piece 12 is kept at a certain distance from the bottom of the inner pot 11, and the continuous hot plate has a large through hole 131 for introducing the fire source. According to the foregoing, it is preferable that the large through hole 131 is provided in the center of the continuous heat plate 13. According to the foregoing, a plurality of small perforations 13 2 are provided around the periphery of the large through hole 131. According to the foregoing, the hot plate 13 is ground by natural heat preservation stone. According to the foregoing, the hot plate 13 is fired from the heat insulating brick. According to the foregoing, the hot plate 13 is formed by sintering the heat insulating material at a high temperature. 6 M284342 According to the foregoing, the hot plate 13 has a high magnesium component, which accounts for more than 15% of the total amount. According to the foregoing, the components in the hot plate 13 further include 2 to 5% of aluminum and 60 to 70% of bismuth. Iron M5% and a little trace minerals. According to the foregoing, the thickness of the hot plate 13 is preferably 5 to 25 mm. Third, the efficacy of the previous technology: With the implementation of this creation can achieve the following advantages:
本創作續熱盤13為保溫石盤,其與内鍋χ χ在爐火上加熱 時,火源可自續熱盤i 3的大通孔i 3 i竄入並向四週擴散,而 熱氣流可自小穿孔13 2往上竄升,使爐火不受續熱盤丨3阻礙 而能對内m 1織直接加熱,又續熱盤i 3在受熱後的溫度高 於内鍋11數倍,此蓄熱高溫能保持恒久不會快速降溫,並作為 後績加熱及保溫使用。 本,J作縯熱盤1 3之保溫石材的主要成份為鎂17〜25%、鋁 2〜5%、石夕60〜70%、鐵7〜15%及少許微量的礦物元素,其中,以石夕 成分最高,之後為鎮,再之後為鐵,並以銘最少;前述中的石夕成 份能使石娜溫’賴份絲加錢齡失溫,喊份能降低硬 度’鐵能達到增溫效果;在這之中,_成分至少占總量的⑽ 以上’由於-般石材少有極高_成份,所以本創作保溫石 爐火加熱後,其續熱及保溫_要比生鐵聚熱圈(環)長, 而且冷卻速度較慢,因此石材的續熱盤1 3是網煮_最佳續孰 =、續熱盤13的厚度範圍在一 7 M284342 【實施方式】 以下依細面所示之實施例詳細說明如後·· 如圖1所示為本創作之立體分解圖,圖中揭示出一内銷工 1數個環5又於内鋼丄工底面的固定片12、及以固定片1 2安 置固1續熱盤1 3 (該續熱盤為保溫石盤),另在内m i上加 置頂蓋1〇後即成為一燜燒内銷;其組合後的外觀如圖2所 示,而剖面構造則如圖3所示,。 φ 上述中’内銷11是一可置入保溫外锅(未揭示)内的金屬 銷體該内錢1 1可在火源上燃燒加熱。又上述中的固定片12 是呈S形,其以焊接方式固定在内鍋1 1底面。其次,上述 縯熱盤1 3是石製材質,所以不能如同習式聚細(環)以小螺 絲固定或明合等技術固定,因此續謎1 3触夾壓固定的方 式來固^,如本實施例是以“&,,形的固定片1 2夾ϋ著續熱盤 13的週邊,並使續熱盤13與内鍋11底面保持些微間距,續 熱盤1 3具有適當厚度,該厚度適合範圍為3〜35mm,並以5〜25mm • 為最佳,又實施中的續熱盤13設有大通孔131並以分佈在中 央為佳,大通孔131因孔徑較大,所以不能設置多個,否則易 因結構脆弱而造成斷裂,當設置為一個大通孔時以設在中央為最 佳,這時可設計成大孔徑,而當設置二個以上時,須將孔徑縮小 以避免前述結構減弱的問題發生;又前述中央大通孔13丄週邊 可增設若干個小穿孔13 2並以等角度分佈,該小穿孔i 3 2是 以鑽孔製造方式而得。 所述續熱盤13為保溫石材,其以天然保溫石研磨製成保溫 石盤’為了在加熱時使爐火能直接對内鋼1 1加熱,必須在保溫 8 M284342 石盤上進行穿孔作業,但孔數愈多或愈密都會影響結構強度,反 之,愈少會妨礙爐火的燃燒及加熱,有鑑於此,為避免上述問題 發生,本創作在保溫石盤中央設置的大通孔i 3 i能使爐火在燃 燒時牙過大通孔131而向上竄入後再往四週擴散(可參圖4), 以對内鍋11底面直接進行加熱,而單一大通孔丄3丄也不會影 響保溫石盤的結構強度,至於小穿孔丄3 2則使部份熱氣流能夠 對流向上,以彌補大通孔i 31的不足。 φ 上述續熱盤13為保溫石材,其以天然保溫石研磨製成保溫 石盤,材質中包含鎂17〜25%、鋁2〜5%、矽60〜70%、鐵7〜15%及少 許微量礦物元素(參圖6所示),其中,以矽成分最高(65 84%), 之後為鎂(20· 07%),再之後為鐵(11· 26%),並以鋁(2· 83%)最少; 若與一般石材比較,本創作最大的不同處在於石材中含有極高的 鎂成份,約占總量的15以上,所以加熱後的溫度不易降低,冷卻 速度減慢’而且也不易受熱破裂。再者,除了以保溫石材研磨製 作續熱盤13外,亦能以下列石盤取代,如相似材質燒製而成的 鲁保溫磚、或以保溫土高溫燒結而成。 如圖4所示,為本創作的加熱示意圖,由圖中可知續熱盤1 3是安置在固定片12的下半部,藉此與内鍋1 1底面保持適當 間距’當爐火透過大通孔131或小穿孔13 2對内鍋11加熱 時,續熱盤1 3的溫度會不斷增至高溫,但不會傳導至内鍋1 1, 而且加熱後續熱盤1 3溫度高出内鍋1 1甚多,其溫度高達600°C 以上,因此溫度可高於生鐵材質的聚熱圈(環)。 又如圖5所示’為本創作之燜燒與保溫示意圖,由圖中可知 内銷r 1 1先行加熱直至鍋内食物沸騰,此沸騰時間比習式更快(如 9 M284342 1公斤的賴5相紅減合域,約4.5分鐘 習式快約2分鐘),在彿騰之後,便可將其移置另一…x時間比 内,並以外鋼頂幻5封閉後,形成為—個網燒4 時藉由續熱盤i 3的高溫蓄熱源對内銷i丄食物^;這 化轉為透化’使風味更佳美味,由於續行加=早= 間比習式聚熱圈(環)可增長一倍以上(例如; 創作可長達6小時),所以在節省能源方面,本創作優於二,^The creation hot plate 13 is a heat preservation stone plate, and when the inner pot is heated on the fire, the fire source can be infiltrated into and spread to the periphery through the large through hole i 3 i of the hot plate i 3 , and the hot air flow can be self-generated. The small perforation 13 2 rises upwards, so that the fire can be directly blocked by the inner m 1 woven without being hindered by the continuous hot plate , 3, and the temperature of the hot plate i 3 after heating is higher than that of the inner pot 11 several times. The heat storage high temperature can be kept for a long time without rapid cooling, and is used as a post-heating and heat preservation. Ben, J is the main component of the thermal insulation stone of the hot plate 13 is magnesium 17~25%, aluminum 2~5%, Shixi 60~70%, iron 7~15% and a little trace of mineral elements, among which Shi Xi has the highest composition, followed by the town, and then iron, and the least is the same; the above-mentioned Shi Xi ingredients can make Shi Nawen 'Lai's silk add money to lose weight, shouting can reduce the hardness' iron can increase Temperature effect; among them, _ ingredients account for at least the total amount of (10) or more 'Because the stone has less high _ ingredients, so after the creation of the heat preservation stone furnace fire, its continuous heat and heat preservation _ than the pig iron heat The ring (ring) is long, and the cooling rate is slow. Therefore, the continuous hot plate of the stone is the net boiled _ the best continuation 孰 =, the thickness of the hot plate 13 is in the range of 7 M284342 [embodiment] DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS As shown in FIG. 1 , an exploded perspective view of the present invention is shown. The figure shows a fixed piece 12 of a number of rings 5 and a bottom surface of the inner steel. The film 1 2 is fixed to the 1st hot plate 1 3 (the hot plate is a heat preservation stone plate), and the top cover 1 is placed on the inner mi to become a domestic sales. After the appearance of a combination shown in Figure 2, the cross-sectional configuration as shown in FIG 3. φ The above middle inner 11 is a metal pin which can be placed in an insulated outer pot (not disclosed). The inner money 1 1 can be burned and heated on a fire source. Further, the fixing piece 12 in the above is in an S shape, and is fixed to the bottom surface of the inner pot 1 1 by welding. Secondly, the above-mentioned hot plate 13 is made of stone material, so it cannot be fixed by a small screw or a combination of the same as the conventional poly (ring), so the continuation of the riddle is fixed by the way of clamping, such as this embodiment. For example, the "&," shaped fixing piece 12 is clamped around the periphery of the hot plate 13, and the heat-reproducing disk 13 is kept at a slight distance from the bottom surface of the inner pot 11, and the heat-reproducing disk 13 has a proper thickness. The suitable range is 3~35mm, and 5~25mm is the best, and the continuous hot plate 13 in the implementation is provided with a large through hole 131 and is preferably distributed in the center. The large through hole 131 cannot be set because of the large aperture. Otherwise, it is easy to break due to fragile structure. When it is set as a large through hole, it is best to be located in the center. At this time, it can be designed as a large aperture. When two or more are set, the aperture should be reduced to avoid the above structure weakening. The problem occurs; a plurality of small perforations 13 2 can be added around the central large through hole 13 并 and distributed at equal angles, and the small perforations i 3 2 are obtained by drilling. The hot plate 13 is a heat preservation stone. , which is made of natural heat preservation stone 'In order to heat the inner steel 1 1 when heating, the perforation must be carried out on the 8 M284342 stone plate. However, the more or the number of holes will affect the structural strength. Conversely, the less the furnace will be hindered. In view of this, in order to avoid the above problems, the large through hole i 3 i provided in the center of the heat preservation stone plate can make the fire spread over the large through hole 131 when the fire is burned, and then spreads upward and then spreads to the periphery ( Referring to Figure 4), the bottom surface of the inner pot 11 is directly heated, and the single large through hole 丄3丄 does not affect the structural strength of the heat insulating stone disc. As for the small perforated 丄3 2, part of the hot air flow can be convected upward to compensate Insufficient for large through hole i 31. φ The above-mentioned hot plate 13 is a heat-insulating stone, which is made of natural heat-insulated stone to make a heat-insulating stone plate. The material contains magnesium 17~25%, aluminum 2~5%, 矽60~70%, iron. 7~15% and a little trace mineral elements (as shown in Figure 6), in which the highest content of strontium (65 84%), followed by magnesium (20. 07%), followed by iron (11. 26%), And aluminum (2. 83%) is the least; if compared with general stone, this creation is the largest The difference lies in the fact that the stone contains extremely high magnesium content, which accounts for more than 15% of the total amount, so the temperature after heating is not easy to reduce, the cooling rate is slowed down, and it is not easily broken by heat. In addition, the heat is made by grinding the stone. Outside the plate 13, it can also be replaced by the following stone plates, such as Lu insulation bricks fired from similar materials, or sintered at high temperature with insulating soil. As shown in Figure 4, the heating diagram of the creation is continued. The hot plate 13 is placed in the lower half of the fixing piece 12, thereby maintaining a proper spacing from the bottom surface of the inner pot 11. When the fire is heated through the large through hole 131 or the small perforation 13 2, the hot plate 1 is continued. The temperature of 3 will continue to increase to high temperature, but will not be transmitted to the inner pot 1 1, and the temperature of the subsequent hot plate 1 3 is higher than that of the inner pot 11. The temperature is higher than 600 ° C, so the temperature can be higher than the pig iron. The heat collecting ring (ring) of the material. Also shown in Figure 5 is the schematic diagram of the simmering and heat preservation of the creation. It can be seen from the figure that the domestic sales r 1 1 is heated first until the food in the pot boils. This boiling time is faster than the formula (such as 9 M284342 1 kg 赖5 phase red reduction field, about 4.5 minutes for about 4.5 minutes. After Fo Teng, you can shift it to another...x time ratio, and after the outer steel roof is closed, it will be formed into a network. When burning 4, the high-temperature heat storage source of the hot plate i 3 is used to feed the food to the domestic food; this is turned into permeabilization to make the flavor more delicious, because the continuous addition plus = early = intermediate ratio hot circle (ring) Can more than double (for example; creation can be up to 6 hours), so in terms of saving energy, this creation is better than two, ^
因冷卻時間較習式聚熱圈(環)慢,所以食物保溫效果更佳時間 更久。 以上’是依據_所示的實施觸細說明了本創作的構造、 特徵及伽效果,由於符合新觀進步性餅,依法提出 型專利申請。 M284342 【圖式簡單說明】 圖1:本創作與内鍋分解的立體圖。 圖2 :本創作與内锅組合的立體圖。 圖3 :本創作與内鍋組合後的剖面圖。 圖4:本創作與内锅在爐火上加熱的示意圖。 圖5 :本創作與内锅移置外鋼内的示意圖。 圖6 :本創作續熱盤的石材成份分析圖表。 【主要元件符號說明】 ’ 1 0 :頂蓋 1 1 :内鍋 1 2 :固定片 1 3 :續熱盤 131:大通孔 13 2 :小穿孔 14:保溫外鍋 > 15:外鍋頂蓋 2 0 :燜燒鍋裝置 11Because the cooling time is slower than the conventional heat collecting ring (ring), the food insulation effect is better and longer. The above is based on the implementation details shown in _ to illustrate the structure, characteristics and gamma effect of the creation. Because it conforms to the new progressive cake, the patent application is filed according to law. M284342 [Simple description of the diagram] Figure 1: A perspective view of the creation and decomposition of the inner pot. Figure 2: A perspective view of the combination of the creation and the inner pot. Figure 3: Sectional view of the combination of the creation and the inner pot. Figure 4: Schematic diagram of the creation and heating of the inner pot on the fire. Figure 5: Schematic diagram of the creation and internal pot displacement of the outer steel. Figure 6: Analysis of the stone composition of the hot plate of this creation. [Main component symbol description] ' 1 0 : Top cover 1 1 : Inner pot 1 2 : Fixing piece 1 3 : Continuous hot plate 131 : Large through hole 13 2 : Small perforated 14 : Insulated outer pot > 15: Outer pot top cover 2 0 : 焖 pot device 11