• M364828 五、新型說明: 【新型所屬之技術領域】 本創作「高效節能瓦斯燃燒器」,涉及一種節能瓦斯 類燃燒器領域。 【先前技術】 目前’廣泛使用的瓦斯燃燒器,一般分為中壓和低 壓兩種瓦斯輸出壓力下燃燒的燃燒器,分別稱為中壓瓦 斯燃燒器和低壓瓦斯燃燒器。其中,中壓瓦斯燃燒器多 為大氣型瓦斯燃燒器,結構較為簡單,燃燒時嗓音較小 ,但燃燒效率低,靠中壓將瓦斯輸出帶動瓦斯混合來燃 燒,所以瓦斯來不及與空氣充分混合燃燒,就擴散了。 在大小火燃燒情況下的熱效率’經常連2〇%熱也達不到 〇 低壓燃燒器則多為鼓風式燃燒器,雖然熱效率較高 ,但燃燒時噪音較大,通常在8〇分貝左右。此外,鼓風 式燃燒的起火和小火燃燒不夠穩定,燃燒工作狀況也 比較差。另外’利用傳統的點火棒來點燃燃燒器的大小 火,操作繁瑣,安全性能也比較差。 從熱效率而言’瓦斯和空氣的混合比例及混合程度 在很大私度上決定著瓦斯的利用效率。目前的節能瓦 斯爐從瓦斯與空氣之間的結合情況而言,可分為兩種 疋直展式’二是預混式。所謂的直混式,就是將瓦 斯與工氣直接混合進行燃燒。前述的大氣型瓦斯燃燒器 及低壓燃燒器等,多 夕為直混式的燃燒器結構。 3 M364828 而預混式,指的是先將空氣與瓦斯進行預混,然後 再進行燃燒。這種結構的燃燒器或瓦斯爐,是目前常用 的結構。但如何更為充分地提供預混結構的燃燒效率, 仍是目前很難解決的問題。 【新型内容】 本創作的目的是提供一種高效節能瓦斯燃燒器,能 夠對瓦斯與空氣兩者實現更加充分的預混目的,從而大 幅度提高瓦斯的燃燒效率。 一種高效節能瓦斯燃燒器,其特徵在於該燃燒器包 括: 燃燒器爐膛架,它是設置在整個燃燒器上方,並封 裝有主火燃燒火孔盤的框架結構; 二次混合室,它由位於下部的二次混合分配器、位 於上部的主火燃燒火孔盤,以及位於側部且能夠置放二 次混合分配器和主火燃燒火孔盤所共同圍成; 一次混合室,它由位於下部的一次空氣分配器、位 於上部的二次混合分配器,以及位於侧部的器壁所共同 圍成, 進風室,它是對應著上述的一次空氣分配器設置的 腔體,並包括有與鼓風機相對應的開口。 進一步,所述的二次混合分配器,是上部表面與下 部表面均為弧面的放射型二次混合分配器。 所述的放射型二次混合分配器,是中間部分間距小 、兩側部分間距大的圓盤結構。 所述的二次混合分配器,是複合回路型二次混合分 M364828 配器’它由2級及2級以上相互套疊的混合分配器元件 上下套疊組成’每個套疊的混合分配器元件之間,其出 氣孔間位置相對應且能夠導通。 所述的複合回路型二次混合分配器,它由相互套疊 的2〜4級混合分配器元件所共同組成。 每個套疊的混合分配器元件之間,其出氣孔為直型 出氣孔’且相鄰的混合分配器元件的直型出氣孔之間構 成90〜150度的傾角。 在所述燃燒器爐膛架的表面,以及主火燃燒火孔盤 的表面’設置有通過稀土材料來實現的催化劑層。 在所述燃燒器爐膛架的表面,以及主火燃燒火孔盤 的表面’設置有通過無機陶瓷材料實現的遠紅外塗層。 本創作的優點在於:經過上述設計後的節能瓦斯燃 燒器’其結構合理’瓦斯與空氣的預混程度高,能有效 地提升熱效率,節能效果好,同時,使用方便、噪音低 ,是一種兼具引射型大氣型燃燒器與多級預混鼓風燃燒 器優點的新型瓦斯燃燒器具。 【實施方式】 利用本創作,能夠使空氣和瓦斯更加充分的混合, 在具體實現結構方面,本創作和現有的技術比較起來有 著獨特的優勢。 首先,對本創作所描述的電子打火燃燒器丨〇 〇作一 個總體的技術說明。 下組成部分: 結合包括第一圖在内的各附圖,該高效節能瓦斯燃 燒器100’它主要包括有如 5 M364828 (1)燃燒器爐腫架1 ’它是設置在整個燃燒器上方 ,並封裝有主火燃燒火孔盤2的框架結構。該燃燒器爐 膛架1,在使用時可以用來直接支撐鍋等炊具。另外, 二次混合室200等結構也可以封裴在該爐膛架内。結合 第一圖和第四圖所示,在所述的主火燃燒火孔盤2上, 設置有瓦斯出口。瓦斯和空氣的混合氣體通過瓦斯出口 導出之後’就可以在爐膛内燃燒了。 (2 )二次混合室2 0 0 ’它由位於下部的二次混合分 配器7、位於上部的主火燃燒火孔盤2,以及位於侧部且 能夠置放二次混合分配器7和主火燃燒火孔盤2所共同 圍成。該二次混合室2 0 0,它是進行空氣和瓦斯預混的 關鍵區域。預混後的氣體,可通過主火燃燒火孔盤2的 瓦斯出口導出。 (3 ) —次混合室3 0 0,它由位於下部的一次空氣分 配器10、位於上部的二次混合分配器7,以及位於側部 的器壁所共同圍成。該一次混合室3〇〇,它是進行瓦斯 和空氣初次混合的腔室,其中的瓦斯通過瓦斯輸氣管道 17導入,並設置有用於導氣的主火喷嘴8,而在主火喷 嘴上設置有主火分配器9。結合第十三圖與第十四圖所 不,可看到主火噴嘴8上均勻分佈有用於導出瓦斯的導 孔結構。在一次空氣分配器1〇上,設置有導氣孔,通過 該導氣孔可以直接導入空氣。經過一次混合室3〇〇混合 後的氣體,導入到二次混合室2〇〇中進行再次混合。 (4 )進風室4〇〇,它是對應著上述的一次空氣分配 器又置的腔體,並包括有與鼓風機19相對應的開口 。利用鼓風機19 ’可以直接進行鼓風,並將風通過一次 6 M364828 空氣分配器10導入到—次混合室300中。 進步所述的二次混合分配器7,是上部表面與 下。P表面均為弧面的放射型二次混合分配器7」,具體 可參第五圖與第六圖所示。• M364828 V. New Description: [New Technology Area] The creation of “Energy-efficient Gas Burner” relates to the field of energy-saving gas burners. [Prior Art] At present, the widely used gas burners are generally classified into burners which are combusted under medium and low pressure gas output pressures, respectively referred to as medium pressure gas burners and low pressure gas burners. Among them, the medium-pressure gas burner is mostly atmospheric gas burner, the structure is relatively simple, the sound is small when burning, but the combustion efficiency is low, and the gas output is driven by the medium pressure to burn the gas, so the gas is too late to be mixed with the air. It spreads. The thermal efficiency in the case of large and small fires is often not even 2%%. The low-pressure burners are mostly blast-type burners. Although the thermal efficiency is high, the noise is large when burning, usually around 8 〇 decibels. . In addition, the flaming and small fires of blast-type combustion are not stable enough, and the combustion conditions are also poor. In addition, the use of a conventional ignition rod to ignite the size of the burner is cumbersome and has poor safety performance. In terms of thermal efficiency, the mixing ratio and mixing degree of gas and air determine the gas utilization efficiency in a large degree of privacy. The current energy-saving gas furnace can be divided into two types of direct-distribution from the combination of gas and air, and the second is pre-mixed. The so-called direct mixing type is to mix gas and gas directly for combustion. The above-mentioned atmospheric gas burners and low-pressure burners are mostly straight-mixed burner structures. 3 M364828 Premixed, which refers to premixing air with gas before burning. Burners or gas burners of this construction are currently commonly used structures. However, how to more fully provide the combustion efficiency of the premixed structure is still a problem that is currently difficult to solve. [New content] The purpose of this creation is to provide an energy-efficient gas burner that can achieve more sufficient premixing of both gas and air, thereby greatly improving the combustion efficiency of gas. An energy efficient gas burner, characterized in that the burner comprises: a burner furnace truss, which is a frame structure disposed above the entire burner and enclosed with a main fire burning hole plate; a secondary mixing chamber, which is located a lower secondary mixing distributor, a main fire burning orifice disk at the upper portion, and a side mixing portion capable of placing a secondary mixing distributor and a main fire burning orifice disk; a mixing chamber, which is located a lower primary air distributor, a secondary mixing distributor located at the upper portion, and a wall at the side are collectively formed, the air inlet chamber, which is a cavity corresponding to the primary air distributor described above, and includes An opening corresponding to the blower. Further, the secondary mixing distributor is a radiation type secondary mixing distributor in which the upper surface and the lower surface are curved surfaces. The radial secondary mixing distributor is a disc structure having a small pitch in the middle portion and a large spacing between the two sides. The secondary mixing distributor is a composite circuit type secondary mixing sub-M364828 adapter. It consists of two and more stages of mixing distributor elements that are nested one on top of the other. Between them, the position between the vents corresponds and can be turned on. The composite loop type secondary mixing distributor is composed of two to four stages of mixing distributor elements that are nested with each other. Between each of the nested mixing distributor elements, the venting holes are straight venting ports' and the straight venting holes of adjacent mixing distributor elements form an angle of inclination of 90 to 150 degrees. A catalyst layer realized by a rare earth material is disposed on the surface of the burner truss and the surface of the main fire burning orifice disk. A far infrared coating by an inorganic ceramic material is provided on the surface of the burner truss and the surface of the main fire burning orifice disk. The advantage of this creation is that the energy-saving gas burner after the above design has a reasonable structure, and the premixing degree of gas and air is high, which can effectively improve the thermal efficiency, and has the advantages of good energy saving, and at the same time, it is convenient to use and low in noise, and is a kind of A new gas burner with the advantages of an ejector-type atmospheric burner and a multi-stage premixed blast burner. [Embodiment] With this creation, air and gas can be more fully mixed, and the present invention has unique advantages in comparison with the existing technology in terms of concrete realization of the structure. First, an overall technical description of the electronic ignition burner described in this creation is presented. The following components: In combination with the drawings including the first figure, the energy efficient gas burner 100' mainly includes a burner such as 5 M364828 (1) burner 1 ' it is placed over the entire burner, and The frame structure of the main fire burning orifice disk 2 is packaged. The burner truss 1 can be used to directly support a cooker such as a pan during use. In addition, the structure of the secondary mixing chamber 200 or the like may be enclosed in the furnace truss. As shown in the first and fourth figures, a gas outlet is provided on the main fire burning orifice disk 2. After the gas mixture of gas and air is exported through the gas outlet, it can be burned in the furnace. (2) Secondary mixing chamber 200 ' It consists of a secondary mixing distributor 7 located at the lower portion, a main fire burning orifice disk 2 at the upper portion, and a side portion capable of placing the secondary mixing distributor 7 and the main The fire burning hole plate 2 is enclosed together. The secondary mixing chamber 200, which is a critical area for air and gas premixing. The premixed gas can be exported through the gas outlet of the main fire burning orifice disk 2. (3) The secondary mixing chamber 300 is enclosed by a primary air distributor 10 located at the lower portion, a secondary mixing distributor 7 at the upper portion, and a wall at the side. The primary mixing chamber 3 is a chamber for initial mixing of gas and air, wherein the gas is introduced through the gas transmission pipe 17, and is provided with a main fire nozzle 8 for conducting air, and is disposed on the main fire nozzle. There is a main fire distributor 9. In combination with the thirteenth and fourteenth views, it can be seen that the main fire nozzle 8 is uniformly distributed with a guide hole structure for deriving gas. On the primary air distributor 1 导, an air guiding hole is provided through which air can be directly introduced. The gas mixed through the mixing chamber 3 is introduced into the secondary mixing chamber 2 to be mixed again. (4) The air inlet chamber 4 is a cavity corresponding to the above-mentioned primary air distributor, and includes an opening corresponding to the air blower 19. Blowing can be performed directly by the blower 19', and the wind is introduced into the secondary mixing chamber 300 through a 6 M364828 air distributor 10. The secondary mixing distributor 7 described above is the upper surface and the lower surface. The surface of the P surface is a radial secondary mixing distributor 7", which can be seen in the fifth and sixth figures.
這種實施例中,二次混合分配器了的上部表面呈放 射狀擴展,向外導出混合氣體時,更I»於擴展氣體;下 部表面呈凹陷狀,纟彙集混合氣體時,更加高效。 θ為了加強前述的效果,還可以將所述的放射型二次 " 器7 1,做成中間部分間距小、兩側部分間距 大的圓盤結構,第五圖與第六圖中展示的就是這種實施 因為二次混合分配器 著承前啟後的作用,因此 著非常重要的作用。 7’在瓦斯和空氣預混方面起 其結構對瓦斯的預混效果起 不剧作中’還提供具有更 7的其他實現結構In this embodiment, the upper surface of the secondary mixing distributor expands in a radiating manner, and when the mixed gas is led outward, the gas is further expanded; the lower surface is recessed, and the mixed gas is more efficient when the mixed gas is collected. θ In order to enhance the aforementioned effect, the radial secondary device 7 1 may be formed into a disc structure having a small intermediate portion pitch and a large pitch at both sides, as shown in the fifth and sixth figures. It is this implementation that plays a very important role because of the role of the secondary mixing distributor. 7' in terms of gas and air premixing, the structure's premixing effect on the gas is not in progress. 'Other implementations with 7 more are also provided.
請參閱第七圖、第八圖’以及第九圖、第十圖所示 配/二二次現合分配器7,是複合回路型二次混合分 具體說來’它由2級及2級以上相互套疊的 二"配态7L件7-2」上下套疊組成,每個 分配器元件 導通。 2 — 1之間,其出氣孔間位置相對應且能夠 路型^可以大幅度地提升瓦斯和空氣在複合回 一久此合分配器7-2中的停留時間,並且,通過 疊的混合分配器元件7-2-1,更可以提# % ^ 尺J以抚供具有傾角的導 大幅度增加瓦斯的渦旋程度,從而更好地提 7 M364828 升瓦斯和空氣的混合率。 作為優秀的實施例,所述的複合回路型二次混合分 配器7-2’它由相互套疊的2〜4級混合分配器元件7-2-1 所共同組成。 在第七圖與第八圖所示的實施例中,採用了 2級混 合分配器元件7 - 2 -1,來組成複合回路塑二次混合分配 器 7-2。 在第九圖與第十圖所示的實施例中,採用了 3級混 合分配器元件7 - 2 -1 ’來組成複合回路型二次混合分配 器 7-2。 另外’為了使每個套疊的混合分配器元件7-2-1上 的出氣孔更容易加工,可以採用直條形狀的出氣孔結構 ’稱為直型出氣孔。為了使得相鄰的混合分配器組件 7-2-1間出氣孔能夠使氣體更好地渦旋,可以將相鄰的 混合分配器元件7-2_ 1的直型出氣孔之間’所構成的傾 角取在90〜150度之間。 進一步’為了更好地實現瓦斯的充分燃燒,還可以 在所述燃燒器爐膛架1的表面,特別是指内側的表面, 以及主火燃燒火孔盤2的表面,特別是其上側部分的表 面’設置有通過稀土材料來實現的催化劑層。利用稀土 材料對燃燒的催化性能,來提升燃燒強度與燃燒的徹底 程度。 為改善能量的利用性能’催化劑並不是唯_的選擇 〇 還可以在所述燃燒器爐膛架1的表面,特別是指内 側的表面,以及主火燃燒火孔盤2的表面,特別是其上 8 M364828 側部分的表面,設置通過無機陶瓷材料實現的遠紅外塗 層無機陶瓷材料在加熱狀態下’可以釋放出更多的遠 紅外輻射,而遠紅外輻射的熱效益更為明顯。設置具有 無機陶瓷材料的塗層之後,可以顯著提高燃燒器的遠紅 外波段的輻射量,從而提升瓦斯的利用效率。 下面再整體說明一下該燃燒器的工作結構。 參第一圖〜第十六圖所示,該燃燒器的主要結構包 括:燃燒器爐膛架1,主火燃燒火孔盤2,燃燒混合底座 鲁 3,苗火噴嘴4,苗火分配器5,電子點火頭6,二次混 合分配器7,主火喷嘴8,主火分配器9,一次空氣分配 器1 〇,一次風氣混合器11,苗火混合管i 2,主火輸氣 管13 ’主火閥門14,苗火引射器π,苗火閥門a,瓦 斯輸氣管道17,電子點火器18,以及鼓風機19。 在一次風氣混合器11内,設置有瓦斯主火喷嘴8, 主火分配器9和一次空氣分配器1 〇,一次風氣混合器11 的一側進風口則與鼓風機1 9相連。 % 瓦斯輸出管道分為兩路:一路通過主火閥門14與安 裝在一次風氣混合器11 _的主火輸氣管13,主火喷嘴8 ,主火分配器9相連接,與主火燃燒火孔盤2,燃燒混 合底座3 ’二次混合分配器7,鼓風機19 一起構成主火 燃燒裝置;另一路通過苗火閥門16,苗火引射器15,苗 火混合管12,苗火喷嘴4,苗火分配器5相連接,一起 構成燃燒氣的小火燃燒裝置。電子點火器18與安裝在主 火燃燒火孔盤2上的電子點火頭6相連接,構成了電子 點火裝置。 經過上述設計後的電子點火低壓瓦斯燃燒器,結構 9 -M364828 μ 率高’❹調節方便,節能效 ,點火簡單。 卞《低 ^上所述,本案「高效節能瓦斯燃燒器」 谷元全符合新型專利之取得要件。本案在產f上綠^ ㈣用’於中請前未曾見於刊物或公開使用,且 ::知悉,技術。再者’本案有效解決先前技術令長: 子的問題並達成相關使用者與消費者長期的需求 厂 新賴性」肖「進步性」等要件,麦依法 '月專利’懇言青釣局詳查,並儘早為准予專利之審定 ,以保護申請人之智慧財產權,俾勵創新。 本新型雖藉由前述實施例來描述,但仍可變化其形 態與細節’於不脫離本新型之精神*達成,並由熟悉此 項技藝之人士可瞭解。冑述本案之較佳實施命卜僅‘藉 本案原理可以具體實施的方式之―,但並不以此為限^ ’應依後附之申請專利範圍所界定為准。Please refer to the seventh and eighth figures' and the matching/secondary rendezvous distributor 7 shown in the ninth and tenth figures, which is a composite loop type secondary mixing sub-specifically, it is composed of level 2 and level 2. The above-mentioned mutually nested two "stationary 7L pieces 7-2" are stacked one on top of the other, and each distributor element is turned on. Between 2 and 1, the position between the air outlets is corresponding and the road type can greatly increase the residence time of the gas and the air in the composite separator 7-2 for a long time, and through the stacked mixing distributor Element 7-2-1, it is also possible to increase the degree of vortex of the gas by increasing the vortex of the gas with a dip angle to better improve the mixing ratio of 7 M364828 liters of gas and air. As an excellent embodiment, the composite loop type secondary mixing distributor 7-2' is composed of a nested 2 to 4 stage mixing distributor element 7-2-1. In the embodiment shown in the seventh and eighth figures, a two-stage mixing distributor element 7 - 2 -1 is employed to constitute a composite circuit plastic secondary mixing distributor 7-2. In the embodiment shown in the ninth and tenth diagrams, the three-stage mixing distributor element 7 - 2 -1 ' is employed to constitute the composite circuit type secondary mixing distributor 7-2. Further, in order to make the vent hole on each of the nested mixing distributor elements 7-2-1 easier to process, a straight-shaped vent structure can be employed, which is called a straight vent. In order to make the air vent between the adjacent mixing distributor assemblies 7-2-1 to vortex the gas better, the straight air outlets of the adjacent mixing distributor elements 7-2_1 can be formed. The angle of inclination is between 90 and 150 degrees. Further 'in order to better achieve full combustion of the gas, it is also possible to surface the surface of the burner truss 1, in particular the inner surface, and the surface of the main fire burning orifice disk 2, in particular the surface of the upper side portion thereof. 'The catalyst layer is realized by a rare earth material. The catalytic performance of rare earth materials for combustion is used to improve the combustion intensity and the degree of complete combustion. In order to improve the energy utilization performance, the catalyst is not the only choice, but also on the surface of the burner truss 1, especially the inner surface, and the surface of the main fire burning orifice disk 2, in particular 8 M364828 The surface of the side part, the far-infrared coating inorganic ceramic material realized by inorganic ceramic material can release more far-infrared radiation under heating, and the thermal benefit of far-infrared radiation is more obvious. By providing a coating with an inorganic ceramic material, the amount of radiation in the far-red band of the burner can be significantly increased, thereby increasing the utilization efficiency of the gas. The working structure of the burner will be described in its entirety. Referring to the first to the sixteenth, the main structure of the burner includes: burner truss 1, main fire burning hole disk 2, combustion mixing base Lu 3, seedling nozzle 4, seedling distributor 5 , electronic ignition head 6, secondary mixing distributor 7, main fire nozzle 8, main fire distributor 9, primary air distributor 1 一次, primary air mixer 11, seedling mixing tube i 2, main fire gas pipe 13 ' The main fire valve 14, the seedling ejector π, the seedling valve a, the gas transmission pipe 17, the electronic igniter 18, and the blower 19. In the primary air gas mixer 11, a gas main fire nozzle 8, a main fire distributor 9 and a primary air distributor 1 are provided, and one side air inlet of the primary air gas mixer 11 is connected to the air blower 19. The % gas output pipe is divided into two paths: one through the main fire valve 14 and the main fire gas pipe 13 installed in the primary air gas mixer 11 _, the main fire nozzle 8, the main fire distributor 9 is connected, and the main fire combustion fire hole Disk 2, combustion mixing base 3 'secondary mixing distributor 7, blower 19 together constitute a main fire burning device; the other passes through the seedling valve 16, the seedling ejector 15, the seedling mixing tube 12, the seedling nozzle 4, The seedling fire distributors 5 are connected to each other to form a small fire combustion device for the combustion gas. The electronic igniter 18 is connected to an electronic ignition head 6 mounted on the main fire burning orifice disk 2 to constitute an electronic ignition device. After the above-mentioned design of the electronic ignition low-pressure gas burner, the structure 9 - M364828 has a high μ rate, convenient adjustment, energy saving and simple ignition.卞 "Low", the case "high-efficiency energy-saving gas burner" Gu Yuanquan meets the requirements for new patents. This case is on the production of green ^ (four) with 'in the middle of the request has not been seen in the publication or public use, and :: know, technology. In addition, 'this case effectively solves the problem of the former technical commander: the sub-problem and reach the long-term demand of the relevant users and consumers. The new "progressive" and other elements, Mai law 'month patent' rumors Qing fishing bureau Check and approve the patent as soon as possible to protect the intellectual property rights of the applicant and encourage innovation. The present invention is described by the foregoing embodiments, but it can be changed in its form and details without departing from the spirit of the invention, and will be understood by those skilled in the art. The preferred implementation of this case is only ‘the way in which the principle of the case can be implemented specifically, but it is not limited to this. ’ shall be subject to the scope of the patent application attached.
佐證本新型並非能輕易完成。本案富具專利法規定之「 產業利用性 产Supporting this new model is not easy to accomplish. This case is rich in the industrial use of the patent law.
【圖式簡單說明】 第圖.係本創作所述的高效節能瓦斯燃燒器的結構示 意圖。 第二圖:係本創作所述的高效節能瓦斯燃燒器中的苗火 分配器的結構示意圖。 第三圖:係本創作所述的高效節能瓦斯燃燒器中的苗火 分配器的另一結構示意圖。 第四圖.係本創作所述的高效節能瓦斯燃燒器中的主火 燃燒火孔盤的結構示意圖。 M364828 圖係本創作所述的高效節能瓦斯燃燒器中的二次 空氣分配器的結構示意圖,該實施例中的二次 氣分配器為放射型二次混合分配器。 圖係本創作所述的高效節能瓦斯燃燒器中的二次 空氣分配器的另一結構示意圖,該實施例中的 —久空氣分配器為放射型二次混合分配器。 七圖.係本創作所述的高效節能瓦斯燃燒器中的二次 屈•合分配器的結構示意圖,該實施例中的二次 隹工氣分配器為複合回路型二次混合分配器。 第八圖.係本創作所述的高效節能瓦斯燃燒器中的二次 處合分配器的另一結構示意圖,該實施例中的 二次空氣分配器為複合回路型二次混合分配 器。 第九圖:係本創作所述的高效節能瓦斯燃燒器中的二次 混合分配器的結構示意圖,該實施例中的二次 空氣分配器為複合回路型二次混合分配器,為 % 另一實施例。 第十圖:係本創作所述的高效節能瓦斯燃燒器中的二次 處合分配器的另一結構示意圖,該實施例中的 —次空氣分配器為複合回路型二次混合分配 器’為另一實施例。 第-4- 丁 一圖:係本創作所述的高效節能瓦斯燃燒器中的燃 燒混合底座的結構示意圖。 第十二圖:係本創作所述的高效節能瓦斯燃燒器中的燃 燒混合底座的另一結構示意圖。 第十三圖:係本創作所述的高效節能瓦斯燃燒器中的主 11 M364828 火分配器的結構示意圖。 中的主 中的一 構示意 中的一 結構示 第十四圖:係本創作所述的高效節能瓦斯燃燒器 火分配器的另一結構示意圖。 第十五圖:係本創作所述的高效節能瓦斯燃燒器 次風氣混合器與一次空氣分配器的結 圖。 第十六圖:係本創作所述的高效節能瓦斯燃燒器 次風氣混合器與一次空氣分配器的另— 鲁 意圖。 【主要元件符號說明 1 燃燒器爐膛架 10 100 11 12 13 14 15 16 17 18 19 2 2〇〇 3 一次空氣分配器 高效節能瓦斯燃燒器 一次風氣混合器 苗火混合管 主火輸氣管 主火閥門 苗火引射器 苗火閥門 瓦斯輸氣管道 電子點火器 鼓風機 主火燃燒火孔盤 二次混合室 燒混合底座 12 * M364828 Η " 300 一次混合室 4 苗火喷嘴 400 進風室 5 苗火分配器 6 電子點火頭 7 二次混合分配器 7-1 放射型二次混合分配器 7-2 複合回路型二次混合分配器 7 _ 2 _ 1 混合分配為'元件 8 主火噴嘴 9 主火分配器 13BRIEF DESCRIPTION OF THE DRAWINGS Fig. is a schematic illustration of the structure of an energy efficient gas burner as described in the present application. Fig. 2 is a schematic view showing the structure of a seedling fire distributor in the high-efficiency energy-saving gas burner described in the present invention. Fig. 3 is a schematic view showing another structure of the seedling fire distributor in the high-efficiency energy-saving gas burner described in the present invention. Fig. 4 is a schematic view showing the structure of a main fire burning orifice disk in the high-efficiency energy-saving gas burner described in the present invention. M364828 is a schematic view showing the structure of a secondary air distributor in the energy efficient gas burner of the present invention, and the secondary gas distributor in this embodiment is a radial secondary mixing distributor. Another schematic diagram of a secondary air distributor in the energy efficient gas burner of the present invention is a radial secondary mixing distributor in this embodiment. Figure 7 is a schematic view showing the structure of a secondary flexing and condensing distributor in the high-efficiency and energy-saving gas burner of the present invention. The secondary sputum gas distributor in this embodiment is a composite loop type secondary mixing distributor. Fig. 8 is a schematic view showing another configuration of the secondary dispensing distributor in the high-efficiency energy-saving gas burner of the present invention, and the secondary air distributor in this embodiment is a composite circuit type secondary mixing distributor. Figure 9 is a schematic view showing the structure of the secondary mixing distributor in the high-efficiency energy-saving gas burner according to the present invention. The secondary air distributor in this embodiment is a composite circuit type secondary mixing distributor, which is % another. Example. FIG. 10 is another schematic structural view of a secondary disassembly distributor in the high-efficiency energy-saving gas burner according to the present invention. In this embodiment, the secondary air distributor is a composite loop type secondary mixing distributor. Another embodiment. Section -4-1: A schematic view of the structure of the combustion mixing base in the high-efficiency energy-saving gas burner described in the present application. Fig. 12 is a schematic view showing another structure of the combustion mixing base in the high-efficiency energy-saving gas burner described in the present invention. Thirteenth Figure: Schematic diagram of the main 11 M364828 fire distributor in the energy efficient gas burner described in this creation. One of the structures in the main structure is shown in Fig. 14: another structural diagram of the high-efficiency energy-saving gas burner fire distributor described in the present invention. Figure 15: A diagram of the energy efficient gas burner described in the present creation, the secondary air gas mixer and the primary air distributor. Figure 16: Another intent of the high-efficiency, energy-efficient gas burner described in this work, the secondary air mixer and the primary air distributor. [Main component symbol description 1 Burner furnace truss 10 100 11 12 13 14 15 16 17 18 19 2 2〇〇3 Primary air distributor High-efficiency energy-saving gas burner Primary air gas mixer Miao fire mixing pipe Main fire gas pipe Main fire valve Miao fire ejector seedling fire valve gas transmission pipe electronic igniter blower main fire combustion hole plate secondary mixing chamber burning mixing base 12 * M364828 Η " 300 once mixed chamber 4 seedling nozzle 400 inlet chamber 5 seedling fire Dispenser 6 electronic ignition head 7 secondary mixing distributor 7-1 radial secondary mixing distributor 7-2 composite circuit type secondary mixing distributor 7 _ 2 _ 1 mixing distribution as 'component 8 main fire nozzle 9 main fire Distributor 13