TW201002252A - Steam cooker - Google Patents

Abstract

This invention provides a steam cooker that can enhance cleanness. The steam cooker 1 is constructed by the following components: a show case 2 which accommodates food F; a steam generating container 6, disposed under the show case 2; an electromagnetic induction heating device 8 which heats the steam generating container 6 and generates steam; a water-storage tank 11 in which the water used for steam generation is stored; a temperature sensor 22 which detects the remaining state of water in the steam generating container 6; and a water-supply means which is disposed in the water-storage tank 11 and supplies the water of the water-storage tank 11 to the steam generating container 6 according to the detection temperature of the temperature sensor 22. The water-supply means is constructed by a water-feeding valve 17 which is on/off controlled based on the detection temperature of the temperature sensor 22; and a water-feeding pipe 18 which is disposed at the outlet side of the water-feeding valve 17. The water-storage tank 11 and the water-feeding pipe 18 are disposed in a non-communicating state relative to the steam generating container 6.

Description

201002252 idoc 六、發明說明： 【發明所屬之技術領域】 本發明是有關於一種用以對食品進行加濕保溫的蒸 箱（steam cooker ) ° 【先前技術】201002252 idoc VI. Description of the Invention: [Technical Field of the Invention] The present invention relates to a steam cooker for humidifying and warming foods. [Prior Art]

近年來’在便利商店（convenience st〇re )等的店面内 會出售已蒸好的包子、即所謂的豆沙包或肉包等（以下稱 作食品）。該些食品触容於具備加濕保溫功能的蒸箱的陳 列櫃（show case)(食品收容室）内。作為進行此種加渴 保溫的構蒸箱，例如有如專利文獻丨以及專 所示的蒸箱。 專利文獻1的^相的蒸汽發生裝置（伽咖ge_i〇n devlce)包括以者加熱器 及貯存著水的財容器，且該蒸㈣ == 容器經由管路而連通。藉由該=為，巧容器與貯水 度始終與蒸汽發生容器的水面高度相Ϊ，ί面高 生容器受到加熱後蒸汽發生容 、肖此’自紐發 動地將水從貯水容器供仏至γ Γ於上水不斷蒸發，從而自 .專利文獻2的蒸箱包括器内。 receiving section)的蒸發里，設置、'二#及接水部（water (收容室），以及對蒸發服進彳發里之上的陳列櫃 (sheathed heater)。而且，構成為^1夾套加熱器 部經由導水部而連通。於該接水 、*皿的瘵發部與接水 之上裝卸自如地安裝著 201002252In recent years, in the storefronts such as the convenience store (convenience st〇re), steamed buns, so-called bean paste bags or meat packs (hereinafter referred to as foods) are sold. These foods are contained in a show case (food containment room) of a steamer with humidification and heat preservation function. As a steamer for carrying out such thirst-insulation, there are, for example, a patent document, and a steamer specifically shown. The vapor generating device (gaga ge_i〇n devlce) of Patent Document 1 includes a heater and a container for storing water, and the steam (4) == the container communicates via a pipe. With this =, the container and the water storage level are always opposite to the water level of the steam generating container, and the high-quality container is heated and the steam is generated, so that the water is supplied from the water storage container to the γ Γ The upper water continuously evaporates, and the steamer of Patent Document 2 is included in the apparatus. In the evaporation of the receiving section, the setting, the 'two#' and the water receiving part (water (containment chamber), and the sheathed heater above the evaporating suit) are also configured to be heated by the jacket. The device is connected to the water-conducting portion, and the 201002252 is detachably mounted on the water-receiving portion, the hair-emitting portion of the dish, and the water receiving device.

^ -L I V->k^X^.«Ct〇G 向上述接水部供水的水箱（water tank )。根據該蒸箱的構 成，隨著蒸發皿的蒸發部中水不斷蒸發，而隨時將水從水 箱經由接水部以及導水部而自動地供給至蒸發部中。 [專利文獻1 ]曰本專利特開平1 ] -151〗66號公報 [專利文獻2]日本專利特開2001-269268號公報 蒸汽發生容器（蒸發部）中為如下的構成：食品收容 至（蒸熱空間、收納谷益）中所收容的食品的殘渣會掉获、 或回收有在食品收容室的内壁上產生的結露水，因此六 積存雜質。此外，若長時間使用蒸箱，則蒸汽發生容^ 的水中所含的㈣、例如触分的雜質會: 必需頻繁地對蒸汽發生容器進行、、主 、仔所U, 是蒸汽發生容器與貯水部（―文獻2的洛箱而言， 相連通的構成，附❻汽發生、接水部以及水箱） 轉移至貯水部側，從而有可二令所積存的雜質亦容易 因此，使用者亦必需頻繁地清t目Γ部中亦積存著雜質。 瑣。 、、月你、7水部，從而清潔較為繁 【發明内容】 本發明是馨於上述情況而 種能夠提高清潔性的蒸箱。 、，“目的在於提供一 為了達成上述目的，本發 〜 食品收容室，收容令σ . _ 勺热相的特徵在於包括： I奋艮口口，瘵汽發峰 谷室的下方；加熱機構，對該篆;二，於該食品收 其產生蒸汽；貯水部，以相於容器進行加熱而使 :上述蒸汽發生容器為非連 ^r.doc 201002252 通的狀悲而設詈.糾^』山⑷ 必至上述/、水機構’將貯存於誠水部中的水供 :ΐ二：：容器中；餘水狀態檢測機構，對上述蒸 :二的餘水狀態進行檢測；以及控制機構，根據 構的檢測資訊來控制上述供水機構。 六哭明的蒸箱，由於貯水部是以相對於蒸汽發生 的狀態而設置’故而貯水部中所貯存的水與^ -L I V->k^X^.«Ct〇G A water tank that supplies water to the above water receiving unit. According to the configuration of the steamer, as the water in the evaporation portion of the evaporating dish evaporates, water is automatically supplied from the water tank to the evaporating portion via the water receiving portion and the water guiding portion at any time. In the steam generation container (evaporation unit), the steam generation container (evaporation unit) has the following configuration: food storage to (steaming heat) [Patent Document 1] Japanese Laid-Open Patent Publication No. 2001-269268 The residue of the food contained in the space and the storage of the grain will be lost, or the dew condensation water generated on the inner wall of the food containment chamber will be recovered, so that six impurities are accumulated. In addition, if the steamer is used for a long time, the impurities contained in the water in which the steam is generated may, for example, be exposed to impurities: it is necessary to frequently carry out the steam generating container, and the main and the small U are steam generating containers and water storage. In the department (the case of the magazine 2, the connected structure, the steam generation, the water receiving part, and the water tank) are transferred to the water storage side, so that the impurities accumulated in the second place are also easy, and the user must also Frequently clearing the t-heads also contains impurities. petty. , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , "The purpose is to provide a to achieve the above purposes, this hair ~ food containment room, containment order σ. _ spoon hot phase is characterized by: I Fenkou mouth, the bottom of the steaming peak valley room; heating mechanism, Second, in the food, it is steamed; the water storage part is heated by the container to make the steam generating container non-connected, and the sorrow is set. (4) must go to the above /, water agency 'storage water stored in the Chengshui Department: ΐ二:: container; residual water state detection mechanism, the above-mentioned steaming: the residual water state; and control mechanism, according to The detection information is used to control the water supply mechanism. The steaming box of the six crying, because the water storage part is set in a state relative to the steam, so the water stored in the water storage part and

中存在的水為非連通的狀態。藉此，即便蒸 ^ ^谷态中積存有雜質，亦可防止該雜質轉移至貯水部 :口而不易使貯水部產生污垢，從而能夠極大少貯 水部侧的清掃。 接為。襄本务明之上述特徵和優點能更明顯易懂，下文特 +貫施例，並配合所附圖式作詳細說明如下。 【實施方式】 以下’參照圖1至圖4來說明本發明的第丨實施形態。 首先，圖1表示蒸箱1的縱剖側視圖。而且，將圖i 的左侧作為前面侧（客人側）、將右側作為背面侧（使用者 側）來進行說明。 Α^箱1是對包子、即所謂的豆沙包或肉包等（以下稱 品卩）進行蒸熱的裝置，食品F擺放在收容食品卩的 良口口收谷至中，本情況下是擺放在玻璃製的陳列櫃2的數 個擱板（shelfboard) 3上。於各擱板3上形成著供蒸汽通 f的數個孔3a。而且，構成為如下’自陳列櫃2内取出食 σσ F或向陳列櫃2内放入食品F的動作，是從陳列櫃2的 201002252 aoc 背面侧進行。 於陳列櫃2的下方設置著具備蒸汽發生裝置4的框體 5，該蒸汽發生裝置4用以向陳列櫃2内供給蒸汽。於該框 體5的中央部形成著凹部5a，該凹部5a能夠收容下述蒸 汽發生裝置4的蒸汽發生容器6。凹部5a形成為大於蒸汽 發生裝置4的孔形狀。而且，於框體5的上表面形成著隨 著朝向凹部5a而向下方傾斜的傾斜面5b。 設置該傾斜面5b的目的在於：將作為蒸汽產生用而 供給至該傾斜面5b的水以及陳列櫃2的内壁上所產生的結 露水回收到凹部5a内的蒸汽發生裝置4中。此外，凹部 5a以及傾斜面5b是由不易附著污潰的材質所構成，例如 為陶瓷（ceramics)製。於該凹部5a的上端部設置著襯墊 (packing) 7 ° 蒸汽發生裝置4包括蒸汽發生容器6，該蒸汽發生容 器6對作為上述蒸汽產生用而供給的水以及結露水進行蒸 發。此時，蒸汽發生容器6為不鏽鋼製，且能夠相對於框 體5的凹部5a而裝卸自如。於蒸汽發生容器6的底部的一 部分形成著向下方突出的凹部6a。 此外，構成為如下，於蒸汽發生容器6的上端部形成 著向外側突出的凸緣部（flange) 6b，當將蒸汽發生容器6 收容於框體5的凹部5a時，該凸緣部6b位於襯墊7上。 藉此，當將蒸汽發生容器6收容於凹部5a内時，凹部5a 的上端部與蒸汽發生容器6的凸緣部6b之間藉由襯墊7 而成為密閉狀態，從而水等不會進入到蒸汽發生容器6與 201002252 凹部5a之間。 於蒸汽發生容器6的下方、即凹部5a的下侧的面上， 設置著用以對蒸汽發生容器6進行加熱而使其產生蒸汽的 加熱機構，本情況下是電磁感應加熱裝置（electromagnetic induction heating device) 8。此外，由蒸汽發生容器6及電 磁感應加熱裝置8來構成蒸汽發生裝置4。 於框體5的傾斜面5b上以覆蓋該蒸汽發生容器6(凹 部5a)的開口部分的方式而設置著防護罩（ cover) 9 〇 於 防護罩9上形成著供蒸汽通過的數個孔9a。此外，雖未圖 示，但於防護罩9與框體5的傾斜面5b之間設有縫隙，以 便能夠將作為上述蒸汽產生用而供給的水以及結露水回收 (流入）至蒸汽發生容器6中。 …=瘵箱1的框體5中，在陳列櫃2的背面側設置著由 貝丁水ί目Π及接水部12所構成的貯水部。貯水箱1】盍目中左The water present is in a non-connected state. Thereby, even if impurities are accumulated in the vapor state, the impurities can be prevented from being transferred to the water storage portion: the mouth is less likely to cause dirt in the water storage portion, and the cleaning on the water storage portion side can be extremely reduced. Connected as. The above features and advantages of the present invention can be more clearly understood. The following is a detailed description of the present invention and is described in detail below with reference to the drawings. [Embodiment] Hereinafter, a third embodiment of the present invention will be described with reference to Figs. 1 to 4 . First, Fig. 1 shows a longitudinal sectional side view of a steamer 1. Further, the left side of Fig. i will be described as the front side (guest side) and the right side as the back side (user side). Α^Box 1 is a device for steaming hot buns, so-called bean paste bags or meat bags (hereinafter referred to as 卩 卩), and food F is placed in the mouth of the mouth of the food. It is placed on several shelf boards 3 of the glass display case 2. A plurality of holes 3a for supplying steam to f are formed on each of the shelves 3. Further, the operation of taking out the food σσ F from the showcase 2 or putting the food F into the showcase 2 is performed from the back side of the 201002252 aoc of the showcase 2. Below the showcase 2, a casing 5 having a steam generating device 4 for supplying steam into the showcase 2 is provided. A concave portion 5a is formed in a central portion of the casing 5, and the concave portion 5a can accommodate the steam generating container 6 of the steam generating device 4 described below. The recess 5a is formed to be larger than the hole shape of the steam generating device 4. Further, an inclined surface 5b which is inclined downward toward the concave portion 5a is formed on the upper surface of the casing 5. The purpose of providing the inclined surface 5b is to collect the water supplied to the inclined surface 5b as steam generation and the dew condensation water generated on the inner wall of the showcase 2 into the steam generating device 4 in the recess 5a. Further, the concave portion 5a and the inclined surface 5b are made of a material that is less likely to adhere to the stain, and is made of, for example, ceramics. A packing 7 is provided at the upper end portion of the recessed portion 5a. The steam generating device 4 includes a steam generating container 6 that evaporates water and dew condensation water supplied as the steam generating unit. At this time, the steam generation container 6 is made of stainless steel and can be detachably attached to the recess 5a of the casing 5. A portion of the bottom portion of the steam generating container 6 is formed with a recess 6a that protrudes downward. In addition, a flange portion 6b that protrudes outward is formed in the upper end portion of the steam generation container 6, and when the steam generation container 6 is housed in the recess portion 5a of the casing 5, the flange portion 6b is located. On the pad 7. Thereby, when the steam generating container 6 is housed in the concave portion 5a, the upper end portion of the concave portion 5a and the flange portion 6b of the steam generating container 6 are sealed by the gasket 7, so that water or the like does not enter. The steam generating container 6 is between the recessed portion 5a of the 201002252. Below the steam generating container 6, that is, on the lower surface of the recess 5a, a heating mechanism for heating the steam generating container 6 to generate steam is provided, in this case, an electromagnetic induction heating device (electromagnetic induction heating device) Device) 8. Further, the steam generating device 4 is constituted by the steam generating container 6 and the electromagnetic induction heating device 8. A cover 9 is provided on the inclined surface 5b of the casing 5 so as to cover the opening portion of the steam generating container 6 (recess 5a). A plurality of holes 9a through which the steam passes are formed on the shield 9. . Further, although not shown, a gap is provided between the shield 9 and the inclined surface 5b of the casing 5 so that water and dew condensation water supplied as the steam generation can be recovered (flowed) to the steam generation container 6 in. In the casing 5 of the box 1, a water storage portion composed of a bedding water and a water receiving portion 12 is provided on the back side of the showcase 2. Storage tank 1]

味 的下端部所設置的供水都 3丨的逑結’是藉由使貯 口都也人 >入，丄.The water supply provided at the lower end of the taste is 3 丨 ’ ’ 是 是 是 是 是 是 是 是 是 是 是 是 是 是 是 是 是 是 是 是 是 是 是

口 13a相同的開口部〗4a。 201002252 ….aoc 於供水口部]3 一 裝置15。閥裝置】5叹置者進订供水口]3a的開閉的閥 侧堵住供水^】3a 下各部而構成··自貯水箱]】的内 侧施塵的彈性構件^體…，將閥體…向供水口❿ 闕體】5a的中旋彈菁㈤啊以及自 起】5 c。 、°P起向供水口 13 a的外侧突出的閥作動突The same opening portion 4a of the port 13a. 201002252 ....aoc in the water supply port] 3 a device 15. Valve device] 5 sighs are ordered to open the water supply port] 3a open and close the valve side to block the water supply ^] 3a under the various parts of the ... ... self-storage tank]] inside the dusty elastic member ^ body ..., the valve body...向 供水 】 】 】 】 】 】 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 , °P from the valve protruding from the outside of the water supply port 13 a

藉由該間裝晋丨^ A 未嵌合於供水口承接Hf，切水箱11的供水口部】3 螺旋彈箬I5b Γί 時，間裝置15的閥體…藉由 ⑶，其結果，施壓從而堵住供水口 一 战马不自供水口 13a出水的狀態。 時，^"7=#供水口部13嵌合於供水口承接部14 Μ二動突起以的前端經由供水口承接部 葬此Η二 抵接於接水部12的底壁部的上表面， 二力’ ^ &與閥作動突起15c 一併抵抗螺旋彈簧15b 力而_向上方。這樣，閥體⑸與供水口 Ha 曰、i產生縫隙’貯水箱n 0的水通過該缝隙而自供水口 13a被供給至接水部】2。 於接水部12内設置著對所貯存的水的水位進行檢測 的水位感測器16。水位感· 16例如是浮控開關⑶⑽ switch)。 於接水部12的陳列櫃2侧的面上，設置著用以將接 水部12 _水供給至蒸汽發生容器6的供水機構。供水機 構由設置於接水部12前方的供水閥17、以及設置於供水 閥17的出口侧的供水用配管18所構成。供水用配管18 ]〇 -i.doc 201002252 是向陳列櫃2 & & 大致為L字狀的:=二=!⑻朝向下方的剖面 開框體5的傾斜^ U 乂、水用配官]8的前端部18a離 接水部]2是以相f ^己置。即’貯水箱】1以及 置。 姆於心發生容器6為非連通的狀態而配 另外，於芝 溫度進行檢^^的陳列櫃2内設置著對陳列櫃2内的 熱裝置8的度感測器&蒸箱】對_感應加 的檢測溫錢⑺物測器21 汽發生容器6的離 又的乾圍内。此外，於蒸 6 ==:=巧作 機構、對蒸汽發生容 ^ 1揭餘水狀怨檢測 的空燒感測器、以茲：=Μ狀g進行檢測 測的污垢感㈣及對纽發生容器6的污錄態進行檢 測器22的附方生i 底部的下表面、即溫度感 溫度保二:==容=接的方式而設置著 use) 23。溫度保險絲太m从 度感測器22的故障箅的显當而道A ——… 在口為温 ^ 纟 ¥致?訊發生容器6達到| 吊度^错由熔斷而阻斷蒸箱！的電路 二 的運轉強制停止。 向使洛相1 一於瘵箱1的框體5的背面侧設置著如圖丨以 不的操作面板（0perating PaneI ) 24 Θ Μ Ζ尸/f不，於操 ..doc 201002252 作面_板=士設置著用以進行蒸箱i的運轉及停止的電源開 關顯示蒸箱]是否運轉的狀態的運轉燈％、根據庠内 溫賴測器21的檢測來顯示陳列櫃2的庫内溫度的庫内溫 度顯示部27、根據水位感測n ]6的檢測而在接水部^ 的水位變料猜點亮職水燈％、以及在需要清潔時進 打點党的清潔燈29。關於供水燈28以及清潔燈 制，下文將加以敍述。 “工 構的構成圖。蒸箱1包括作為控制機 構的m 3〇。該控制裝置3 (imcroc⑽pute〇構 j倣罨月自 向該控織置3〇httPr㈣面板24的背侧。 庫内溫度感· 開關25的信號，靖 以及來自水位心广二度感測器2 2的檢測溫度（信號）、 此外，4:…檢測水位(信號)。 溫度、檢測水位:f二：:為如下:根據上述各種檢測 由未圖示的驅私+ 、 u ’思的控制程式（program ),經 供Ha ㈣、庫内溫度顯示狼 以及電磁感應加：鳴器…而…、供水閥17 為如下：藉由-個^知機=控制。而且，蜂鳴器31構成 亮時發出鳴叫。口、為構而在供水燈28與清潔燈29點 接下來，亦失日73同 橫軸表示蒸箱！ = !來說明上述構成的作用。圖4的 測溫度。而且，m才日寸間，縱轴表示溫度感測器22的檢 態（狀態A),以由& +只、、泉來表示蒸箱1正常運轉的狀 泉來表示空燒狀態（狀態b以及狀態C ) .i.doc 201002252 2 了候*而’將•箱]長時間使用並 ^6内產生污垢的狀態作為狀態D〜狀態F而以實線來 表不·。 I先對洛知]正常運轉的狀態（狀態八）加以說明。 t用者向貯水箱U中放入水，並將該貯水箱11安 212上¥，閥裝置15的供水口 ]3a打開，貯水 斤，的°卩为被供給至接水部12。於該狀態下，例 ^水相11内的水位變成圖】所示的水位a，而且，水位 ^ =6對水位的最高值（參照圖】的水位b)進行檢測。 另外，於该時間點供水閥17關閉。 時///罢’當使用者接通操作面板24的電源開關25 汽發 1容、哭63。0使電磁感應加熱裝置8運轉從而加熱該蒸 =汽發生容器6受到加熱，而溫度感測器22檢測 度（例如12Q度）時，控制裝置3G根據溫度感 1时22的檢測溫度（檢測資訊），將供水閥17打開一固 時間。 心 =樣，如圖i所示，接水部12内的水自供水用配管 =、給至瞭列櫃2内。自供水用配管18所供給的水沿 者\斜面5b而供給至蒸汽發生容器6内。另外，告 用配管18出水時，自動地從貯水箱u供水，;I:By the assembly of the 丨 丨 ^ A is not fitted to the water supply port to receive Hf, the water supply port of the water tank 11 is cut into 3 screw magazines I5b Γί, the valve body of the device 15 is ... (3), and as a result, the pressure is applied Therefore, the state in which the horse is not discharged from the water supply port 13a is blocked. When the water supply port portion 13 is fitted to the water supply port receiving portion 14 , the front end of the second moving projection is immersed in the upper surface of the bottom wall portion of the water receiving portion 12 via the water supply port receiving portion. , the two force ' ^ & and the valve actuation protrusion 15c together with the force of the coil spring 15b _ upward. Thus, the valve body (5) and the water supply ports Ha 曰, i generate a gap. The water of the water tank n 0 is supplied to the water receiving portion 2 from the water supply port 13a through the slit. A water level sensor 16 that detects the water level of the stored water is provided in the water receiving portion 12. The water level feeling 16 is, for example, a float switch (3) (10) switch). A water supply mechanism for supplying the water receiving portion 12_water to the steam generating container 6 is provided on the surface of the water receiving portion 12 on the showcase 2 side. The water supply mechanism is composed of a water supply valve 17 provided in front of the water receiving portion 12 and a water supply pipe 18 provided on the outlet side of the water supply valve 17. Water supply pipe 18 ]〇-i.doc 201002252 It is a display cabinet 2 &&&&<========================================================================== The front end portion 18a of the 8 is separated from the water portion 2 by the phase f^. That is, the 'storage tank】 1 and set. In addition, the container 6 is provided in a state of non-communication, and the degree sensor & steamer of the heat device 8 in the showcase 2 is disposed in the showcase 2 for detecting the temperature of the cheese. Inductively added temperature detection (7) The measuring device 21 is in the dry circumference of the steam generating container 6. In addition, in the steaming 6 ==:= skillful mechanism, the air-burning sensor for detecting the steam generation capacity, and the detection of the dirt (4) and the occurrence of the nucleus The smear state of the container 6 is performed on the lower surface of the bottom of the detector 22, that is, the temperature sensing temperature is set to 2: == 容=connection is provided. The temperature fuse is too m from the fault of the sensor 22 and the channel A ——... is at the mouth of the temperature ^ 纟 ¥致? The container 6 is reached | Hanging ^ wrong by blowing to block the steamer! The operation of circuit 2 is forcibly stopped. The operation panel (0perating PaneI) 24 Θ Ζ Ζ / f f 于 . 02 02 02 02 02 02 02 02 02 02 02 02 02 02 02 02 02 02 板 板 板 板 板 板 板 板 板 板 板 板 板 板 板 板 板 板 板 板 板 板 板 板 板 板= The operation lamp % in the state in which the power switch for the operation and the stop of the steamer i is operated to display whether or not the steamer i is operating is displayed, and the temperature of the interior of the showcase 2 is displayed based on the detection of the internal temperature detector 21 The in-compartment temperature display unit 27 detects the water level of the water level in the water level of the water receiving unit based on the detection of the water level sensing n]6, and enters the cleaning lamp 29 of the party when cleaning is required. The water supply lamp 28 and the cleaning lamp system will be described later. "Structure of the construction. The steamer 1 includes m 3 作为 as a control mechanism. The control device 3 (imcroc (10) pute j 罨 自 自 自 控 控 控 控 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 · The signal of switch 25, Jing and the detected temperature (signal) from the water level sensor 2 2, in addition, 4: ... detects the water level (signal). Temperature, detection water level: f 2:: is as follows: The various detections described above are provided by a control program (program) for unloading +, u's, and for Ha (four), a temperature display in the library, a wolf and an electromagnetic induction plus a sounder... and the water supply valve 17 is as follows: It is controlled by a -> machine. Moreover, the buzzer 31 emits a beep when it is bright. The mouth and the structure are at the water supply lamp 28 and the cleaning lamp 29, and the day 73 is also the horizontal axis indicating the steamer! The function of the above configuration will be explained. The temperature is measured in Fig. 4. Moreover, m is the time interval, and the vertical axis indicates the state of the temperature sensor 22 (state A), and the steam is represented by & The spring of the normal operation of the tank 1 indicates the air-burning state (state b and state C). i.doc 201002252 2 waiting for * and ' • Box] The state in which the dirt is generated for a long period of time and the amount of dirt generated in the ^6 is indicated by the solid line as the state D to the state F. The state of the normal operation (state 8) will be described first. Water is placed in the water storage tank U, and the water storage tank 11 is closed 212, and the water supply port 3a of the valve device 15 is opened, and the water supply is supplied to the water receiving portion 12. In this state, for example, ^ The water level in the water phase 11 becomes the water level a shown in the figure, and the water level ^ = 6 detects the highest value of the water level (see the water level b in the figure). In addition, the water supply valve 17 is closed at this time. ///When the user turns on the power switch 25 of the operation panel 24, the air is turned on, and the battery is cooled. 63. The electromagnetic induction heating device 8 is operated to heat the steam. The steam generating container 6 is heated, and the temperature sensor is heated. At the detection degree (for example, 12Q degrees), the control device 3G opens the water supply valve 17 for a solid time based on the detected temperature (detection information) of the temperature sense 1 at 22. The heart = sample, as shown in Fig. i, the water receiving portion 12 The water in the water supply pipe is supplied to the column cabinet 2. The water supplied from the water supply pipe 18 is inclined. The surface 5b is supplied to the inside of the steam generation container 6. When the water is discharged from the piping 18, the water is automatically supplied from the storage tank u;

12的水位達到供水口部13的高度（水位b)。讀U 卜隨著水被供給至蒸汽發生容器6内，如圖4所示，蒗 汽發生容器6的溫度會下降，但由於電磁感應加熱裝置1 .doc 201002252 持續運轉，故蒸汽發生容器6的溫度會在供水後再次上 升。此處，將剛供水後的蒸汽發生容器6内的水位設為水 位c。 供給至蒸汽發生容器6内的水不斷被加熱，不久後會 自蒸汽發生耗6的水面產生蒸汽。所產生㈣汽通過； 護罩9的孔9a W及搁板3的孔3a而擴散至整個陳列樞2 内，藉此，食品F被蒸熱。此時，陳列櫃2的内壁上會產 生結露，且由該結露所產生的水（結露水）會沿著陳列樞 =内壁以及框體5的傾斜面5b而被回收至 哭 6内’該結露水再次被加錢成為蒸汽。 Μ ^ ^ 78 電磁感應加敎事置皿度感測益21的檢測溫度，對 下，nr:f 以及停止進行控制。於該狀態 ’飞么生谷态6的底部的溫度固定為約105度。 後除了妾If，若蒸汽發生容器6 _水不斷蒸發，則不久 圖1的^^生容器6的凹部6“乂外’會變得無水（參照 位的下夺而沾i。於該水位d的狀態下，離開凹部6a的部 中存在^，在直^^^升。而且，該狀態下由於凹部如 並且，=6a中無水之前不會成為空燒狀態。 則控制努署若溫度感測器22檢測出12〇度， 時間，彳“將溫f，：供水間二打開-固定 水部12的水位下'卩又，，备π發生合益6内。攻樣，由於接 内供冰。 牛，故會自動地從貯水箱11向接水部12 、要煞相1正常運轉，則自該供水開始直 J:.doc 201002252 為^—個循環約為2 G分鐘。H-1正带運W，重複進行供田了相 照圖4的狀態A)。 刀釦的循％ (參 此處’若貯水箱1 1 # ΑΑ , 位會下降。並且，若k 、7、用70 ’則接水部12内的水 定水位，則置=感測器16的檢測水則、於等於設 進行告知的㈣，、即酬測器16的檢測水位 使蜂鳴器3卜鳥叫1 面板2 4的供水㈣點亮且 箱u向接水部12二：=接水部12上’則自貯水 位b)進行檢測。^ 水位感測器16對規定水位（水 的信號，而解；U^：=則3G根據該水位感測器μ 常運轉)“31停止鳴叫)’並進行通常的運轉(正 Ο 箱充H彳Γ—告知的㈣’但錢用者未向貯水 久，基汽發生容116 _水全轉發完，不 的狀離B)。此；;會在無水狀態下受到加熱（參照圖4 制装i雜據度，則控 作，即，將供水皿 測溫度來進行如下動 蒸汽發生容哭:6Γ7打開一固定時間，以自接水部12向 控制裝置30 ^水。此時，由於接水部12中無水，故 Μ的供水燈知的控制，即，於維持著使操作面板 點亮的狀態下使蜂鳴器3 201002252 3 1 JOpl_L.doc 間。 此外，若直至溫度感測器22的檢測溫度達到2⑻度 為止的期間内，未向接水部12中供水，而溫 2 械測溫度達到了 200度時，控制裝置30便判斷為空紗 悲'，使電喊應加熱裝置8停止，並進行使 。而且，在溫度感測器心: 』度後及檢測出_度後警 =的燈的顏色及點亮(總減)狀態、以及蜂。 -當溫度朗器22發生故障時，若蒸汽發生容 ::的底部的溫度達到200度或輯以上的異 、丨酿度保險絲23'溶斷，蒸箱！的運轉被強制停止。又 此外’構成為，即便在策溢 ”中加八水，而使上=== = 控制裝置3G亦使電磁感應加熱1置8 = 攸而加熱該蒸汽發生容器6,但與上述狀態= 仃告知的控制以及警告的控制。 & 進 加以^對長時間使用蒸箱1的情況（狀態D〜狀態F) 錄、時間使用蒸箱1 ’則陳列櫃2中收容的食品F的 ===汽發生容器6内。此外，陳列櫃2的 生容哭所含的雜質有時亦會積存於蒸汽發 心π。進而，由於長時間使用蒸箱1，蒸汽發生容 内的水中所含的雜質、例如約成分的雜質有時合積存 ii.doc 201002252 方;、蒸 >气發生容器6内。 廷樣，若雜質積存於蒸汽發生容器6内、 於，汽發生容器6的底部，則經電磁感應加熱裝d 的鮝汽發生容器6的熱難以傳遞給水，此外，^ 口二 的熱（低溫的熱）亦難以傳遞至蒸汽發生容界6 水 η 含有雜質的水與潔淨的水相比沸點較高，不易墓’ =的情況下，溫度感測器22難以受顧供水帶^熱的^ 例如，如® 4的狀態D所示，當供水時蒸汽發生 。。的溫度會下降，但由於所積存的雜f會導致蒸汽= =6的溫度難以下降。此外，由於電磁感應加敎裝置^ 循=水，所供給的水的溫度難以上升，從而-個 緩續兩叫間變長，溫度感測器22的檢測溫度的變化變 表面的溫度會快^面無水，義開凹部&的部位的下 而且，若狀態B的循 發生容器6内供水，蒸汽發生寺容==’則即便向蒸汽 進—步降低（參照圖4的狀 °、的溫度亦難以 生如下現象：*於雜質^ )°此外’於狀態E下會產 發生容器6的熱將主;内，故蒸汽 ^内的水未被蒸發而容 從而溫度感測器22的檢測溫度亦如2;= 201002252 31438pif.doc 自接水部]2供水。 若狀態E的循環持續—段士 器6内供水，蒸汽發生容器6的1 曰产亦:便向蒸汽發生容 且會在更短時間内達到12。度，；：二:進—步降低， :以分鐘(參照圖4的狀“循 則㈣發生容器6會變成滿水的狀態。 職怒F， 因此，控制裝置30對供水間^ 兩次打開動作進行判斷，在如此的=The water level of 12 reaches the height of the water supply port portion 13 (water level b). When the water is supplied to the steam generating container 6, as shown in FIG. 4, the temperature of the steam generating container 6 is lowered, but since the electromagnetic induction heating device 1.doc 201002252 continues to operate, the steam generating container 6 is The temperature will rise again after the water supply. Here, the water level in the steam generating container 6 immediately after the water supply is set to the water level c. The water supplied to the steam generating container 6 is continuously heated, and soon after, steam is generated from the water surface where the steam generation is consumed. The generated (four) steam passes through the holes 9a to W of the shield 9 and the holes 3a of the shelf 3 and diffuses into the entire display hinge 2, whereby the food F is steamed. At this time, dew condensation occurs on the inner wall of the showcase 2, and water (dew condensation water) generated by the condensation is collected along the display hinge=inner wall and the inclined surface 5b of the frame 5 to the inside of the crying 6' The water is again added to the steam. Μ ^ ^ 78 Electromagnetic induction plus 敎 置 度 度 度 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 21 In this state, the temperature at the bottom of the fly-flying state 6 is fixed at about 105 degrees. After the 妾If, if the steam generation container 6 _ water evaporates continuously, the concave portion 6 of the container 6 of Fig. 1 will soon become "outside" and will become waterless (the reference position will be digested by i. at this water level d In the state of the recessed portion 6a, there is a ^ in the portion of the recessed portion 6a, and in this state, since the recessed portion is, for example, the water is not burned before the water in the =6a, the temperature is sensed. The device 22 detects 12 degrees, time, 彳 "will be warm f,: the water supply room is opened twice - the water level of the fixed water portion 12 is below", and the preparation of π occurs within the benefit of 6. The sample is due to the internal supply of ice. The cow will automatically go from the storage tank 11 to the water receiving part 12 and the normal phase 1 of the water supply unit. The water supply starts from the water supply. J:.doc 201002252 is a cycle of about 2 G minutes. H-1 is positive. With the transport W, repeat the supply of the field to the state A of Figure 4. The percentage of the knife buckle (refer to 'If the water tank 1 1 # ΑΑ, the position will drop. And if k, 7, 70' will be the water level in the water receiving part 12, then set = sensor 16 The detection water is equal to the notification (4), that is, the detection water level of the detector 16 causes the buzzer 3 to call the water supply of the panel 2 4 (4) to light up and the box u to the water receiving portion 12: The water receiving portion 12 is 'detected from the water storage level b'. ^ The water level sensor 16 pairs the specified water level (the signal of the water, and the solution; U^:=3G according to the water level sensor μ normally operates) "31 stops the tweet" and performs the normal operation (the positive box is filled with H)彳Γ—Informed (4) 'But the money user has not stored water for a long time, the base steam has a capacity of 116 _ water is completely re-routed, no detachment from B). This; will be heated in the waterless state (refer to Figure 4 i miscellaneous degree, then control, that is, the temperature of the water supply dish to carry out the following steam generation bubble: 6Γ7 open for a fixed time, to the water from the water receiving unit 12 to the control device 30. At this time, due to water In the portion 12, there is no water, so the control of the water supply lamp is controlled, that is, the buzzer 3 201002252 3 1 JOpl_L.doc is maintained while the operation panel is being lit. Further, if it is up to the temperature sensor 22 When the detected temperature reaches 2 (8) degrees, the water is not supplied to the water receiving portion 12, and when the temperature of the temperature is 200 degrees, the control device 30 determines that the air yarn is sad, and the electric heater 8 is stopped. And make it. Also, in the temperature sensor heart: After the degree and after detecting the _ degree, the color of the lamp = Light up (total reduction) state, and bee. - When the temperature horn 22 fails, if the temperature of the steam generation capacity:: the bottom temperature reaches 200 degrees or more, the enthalpy fuse 23' is dissolved, steaming The operation of the box! is forcibly stopped. In addition, the 'construction is to add eight waters even in the overflow, and the upper === = control device 3G also sets the electromagnetic induction heating 1 to 8 = 攸 to heat the steam generating container 6, but with the above state = 仃 informed control and warning control. & advance ^ for the long-term use of the steamer 1 (state D ~ state F) record, time using the steamer 1 'the showcase 2 The contained food F === in the steam generating container 6. In addition, the impurities contained in the display chamber 2 may also accumulate in the steam core π. Further, since the steam box 1 is used for a long time, steam generation occurs. The impurities contained in the water in the volume, for example, the impurities of the components may be accumulated in the ii.doc 201002252 square; the steamed > gas generating container 6. In the sample, if the impurities are accumulated in the steam generating container 6, the steam When the bottom of the container 6 occurs, the xenon generating container 6 is heated by electromagnetic induction heating. It is difficult to transfer heat to the water. In addition, the heat of the mouth (low temperature heat) is difficult to transfer to the steam generation boundary. 6 Water η The water containing impurities has a higher boiling point than the clean water, and it is not easy tomb '= The temperature sensor 22 is difficult to be taken care of by the water supply belt. For example, as indicated by the state D of the 4, the temperature of the steam is lowered when the water is supplied. However, the steam accumulated due to the accumulated impurities f ==6 In addition, since the temperature of the supplied water is hard to rise due to the electromagnetic induction twisting device, the temperature of the supplied water becomes longer, and the temperature of the temperature sensor 22 changes to the surface. The temperature will be fast, the surface will be waterless, and the part of the concave and concave portion will be lowered. If the water in the container 6 of the state B is generated, the steam generation will be reduced to the steam (refer to FIG. 4). The temperature of the shape ° is also difficult to produce the following phenomenon: * in the impurity ^) ° In addition, in the state E will produce the heat of the container 6 will be the main; inside, so the water in the steam ^ is not evaporated and the temperature sensing The detection temperature of the device 22 is also as 2; = 201002252 31438pif.doc self-watering Ministry] 2 water supply. If the circulation of the state E continues - the water supply in the segment 6 is 6 , the steam generation container 6 is also produced in the same manner as the steam generating container 6 and will reach 12 in a shorter time. Degree, ;: 2: step-down, : in minutes (refer to Figure 4, the flow of the container 6 will become full of water.) The anger F, therefore, the control device 30 opens the water supply twice The action is judged in such a =

;，況下(5分鐘以内連續進行兩次供水動SC 磁感應加熱裝置8的運轉停止，並_° ：^生找，使電 窄科〇〇 g丄 了亚進仃使刼作面板24的清 4燈29點売、且使蜂鸡器3 ^ 清潔的控制。 U騎間U告知必需 根據上述構成，貯水箱u以及接水部12 =供水和以及供水用配f 18，而被供給至某汽衫 =6内。本實施形態中’是如下構成：供水用配管\ 的别端部18a與框體5的傾斜面％相分離，㈣水箱^ 2接水部]2以相對於蒸汽發生容器6為非連通的狀態而 因此貯水箱11以及接水部12中貯存的水與蒸汽發 生各器6中存在的水處於非連通的狀態。 上丄藉此，即便蒸汽發生容器6中積存有雜質，亦可防止 貝轉移至貯水箱n以及接水部12侧，因此可使貯水 相^1]以及接水部12不易產生污垢，從而能夠極大地減少 貯水箱11以及接水部12侧的清潔。 201002252 3J438pif.doc 當對条/ΊΑ生谷β 6的底部溫度進行檢測的溫度感測 器22的檢測溫度達到供水開始溫度（12〇度）時，自接水 部]2供水，而當接水部12中無水時，藉由供水燈28的點 亮以及蜂鳴器31的鳴叫而將該情況告知使用者，故可藉由 餘水狀態的檢測來防止空燒。此外，於上述狀態下未水 時（達到200度時）’會發出警告，故可進—步防止產生空 燒。 由於涤，飞發生容器6構成為可裝卸地設置於框體5的 凹部5a上，所以能夠自框體5中取出蒸汽發生容器6並進 行清潔，因此容易進行清潔。 由於在蒸汽發生容器6的底部設置著凹部如，且溫度 =:22設置於避開凹部6a的部位上，故即便溫度感測 ::測出供水開始温度的120度時，亦可使空燒的產生 被延遲了凹部6a中所貯存的水的蒸發時間量。 —t使用電磁感應加熱裝置8來作為蒸汽發生容器6 ’ &與使用火的加熱機構相比可更有效地對蒸 =。^ 6進行加熱，從而可縮短直至蒸汽產生為止的 太邱疋如下構成：若將裝有水的貯水箱11安農在接 部。17 &上，則會自貯水箱11的供水口 13a自動地向接水 1 供水’故能夠極大地省去將水供給至蒸箱1中的工 由於構成為如下： 而供水的時間的間隔變 若根據溫度感測器22的檢測溫度 短（5分以内進行兩次或兩次以上 19 201002252 JJ4J5pn.doc 、一 則乜制巢置30判斷出蒸汽發 哭 8 2^8 獲知_生輸㈣=。'_⑽者，故容易 由於構成為如下： 度保險絲23，當蒸汽發生：底部設置箸溫 1的運轉強制停止，故可：二*吊溫度時，使蒸箱 或防止蒸箱！整體發生故广备生容器6的異常加熱、 接下來，來昭固< 能…’、、固5〜圖7來說明本發明的筮？麻a 實施形態相同的部分附上= 於第2實施形態中 來代替第1實施的發生容器41 4"鴂部平坦，；生广：：。械發生容器 知。此時，蒸汽發生容=其Λ 態中所示的凹部 41的清潔變得容易〜。41基本上热凹凸，蒸汽發生容器 而且，；— ? 41 設置對蒸汽於了叹置电磁感應加熱裝置8之外，亦 加熱機構，本情:二41的上部至中央部進行加熱的辅助 助加熱器42。輔_疋設置，套⑽,加熱器構成的輔 置8對墓汽發 口熱杰42疋用來輔助電磁感應加熱裝 相比，使基^^器41的加熱，與電磁感應加熱裝置8 該輔二谷器6的溫度上升較低。 加熱為42構成為配合電磁感應加熱裝置8的 20 201002252 J 14.1 spif.doc 運轉以及停^而運轉以及停止。而且，於本實施形 由蒸汽發生谷/ 41、電磁感應加熱裝置8以及獅加執哭 42來構成祭汽發生裝置43。 …、°σ 於本實施形態中，在輔助加熱器4 對蒸汽發生容器41的上部至中央寸、置考 進行檢測的温度感測器二; f' t. 評細敍迷，其料餘錄測I 揮功能。 私 此外，於療；ά發生容器41的底部設置著與 ==?器22。第2實施形態的溫度感測二 述’其作為空燒感測器-污垢感測器 圖6是蒸箱1的電性構成圖，除 亦將溫度感測器44的檢測溫度弟/广开， 3〇中。而且，控制裝置30構成置 度、檢測水位的輪入以及預先記憶 二動:， 示的驅動電路而對運轉燈26、庫叫== 28、清潔燈29、蜂鳴器3 ，.、、員不雜供水燈 置8以及辅助加_ 42進行控制；、電磁感應加熱裝 打來二亦參照圖7來說明上述構成的作用。圖7的 才頁軸表不瘵箱1的運鏟拄 人JIF用園/的 溫度感測器44的檢測溫产。此:不’皿度感測器22以及 溫度’以兩，闕線來表示㈣測1144的檢測 …相1正吊運轉的狀態時的溫度 201002252 314J^pn'.doc 感測益22的檢測溫度。此外，以虛線來表示空燒狀態（狀 態Η以及狀態〇時的溫度感測器44的檢測溫度。進而， 於狀態G之後，將蒸汽發生容器4丨中積存污垢的狀態作 為狀恕J而表示。 此外，由於空燒狀態時的溫度感測器44的檢測溫度 並不用於控制，故省略圖示。 首先，對蒸箱]正常運轉的狀態（狀態G)進行說明。 與第]實施形態相同，當使用者將裝有水的貯水箱η 安裝在接水部12上時，貯水箱u的水的一部分會被供給 至接水部12中。 接著，當使用者接通操作面板24的電源開關25時， ，用電磁感應加熱裝置8以及輔助加熱器4 2來對蒸汽發生 容器41進行加熱。此處，蒸汽發生容器41中，比起辅助 =熱态42附近’電磁感應加熱裝置8附近的溫度更容易提 升所以度感測斋22的檢測溫度變得高於溫度感測器 44的檢測溫度。 ；迟狀悲下，構成為如下：若溫度感測器44檢測 出供水開始溫度的12G度，則控姆置3Q根據溫度感測器 44的檢測溫度，而將供水閱17打開一固定時間，從而自 接水部12向蒸汽發生容器41内供水。 一隨者水被供給至蒸汽發生容器41内，如圖7所示， ，汽發生容器41的温度會降低，但由於電磁感應加 8以及輔助加熱器42持續運轉 ’、、= 溫度在供水後會再次上升的n 201002252 -3i4jiipif.doc 便會產生蒸汽，且利用所產生的蒸汽將食品F蒸熱。 、、© 此時的溫度感測器22的檢測溫度固定為約丨〇5产， 、、西 度感測器44的檢測溫度固定為比溫度感測器22的二測 度略低的100度。溫度感測器22與溫度感測器44 ^檢 測溫度的差異的原因在於：溫度感測器2 2設置於電磁感: 加熱裝置8附近，而溫度感測器44設置於輔助加熱器c 附近。 、 伴Ik著來自療汽發生容器41的水的蒸發，當溫度感 測器44附近無水時（參照圖5的水位⑴，溫 二 的檢測溫度會快速上升。此外，由於蒸汽發生容器41;的4 下部有餘水，故溫度感測器22的檢測溫度仍維持在約1〇5 度。 亚且’若溫度感測器44檢測出供水開始溫度即12〇 =:刪憤置观温度感測器44的檢測溫度，而將 水閥二打開一固定時間，從而進行供水。此 I心發生谷$ 41内有餘水亦進行供水。而且，只 ^常運轉’則自該供水起直至下―次供水為止的 -们·哀的時間約為20分鐘（參照狀態g)。 =狀態G下，若在編的正常運#的中途 咖完，則接水部12_水位會下降。並且 下16的檢測水位變成設定水位或設定水位以 16的二實施形態相同，控制裝置3〇根據水位感測器 水行告知的控制，即，使操作面板24的供 且28』兜，並且使蜂鳴㈣鳴叫—固定時間。 201002252 31438pif.doc 該貯水箱]】安裝在接水部]2上鄭Sn亚，次將 位感測m6的信號，解除告知的^ 置3G根據該水 (正常運轉）。 上制，亚進行通常的運轉 但是，若使用者未向貯水箱】】 ，容器6内的水會全部蒸發，不久後蒸汽發 無水狀態下受到加熱（參照圖7㈣態會於 感測器44檢測出120度，則控制裴置3 4处，右溫度 測器料的檢測溫度，而進行將供水^ 〇會根據該溫度感 從而自接水部12向蒸汽發生容器 彳了開—固定時間， 由於接水部12中無水，故控的動作。此時’ =，f維㈣使操作面板24的供抑^行^知的控制， 鳥為31鳴叫—固定時間。 點冗的狀恝下使 此外，若直至溫度感測器22 度為止的期間内，未向接水部丨 ^溫度檢測出200 22的檢測溫度達到了 2〇〇度時 /壯水，而溫度感測器 燒狀態，使電磁感應加熱裝置8以^衣i 30便判斷為空 並且進行使蜂鳴器31鳴叫一 助加熱器42停止， 而且，構成為如下：二，間的警告的控制。 貯水箱Π中放入水，而使用者1的運轉開始時未向 照狀態I)，控制|置30亦使電^了電源開關25時（參 :而加熱該蒸汽發生容器6 ^加熱裝置8作動， ，水位感測器16的檢測水位以及態Η同樣地，根 度’進行告知的控制以及馨告;^感測器、22的檢測溫 201002252 31438pif.doc 另一方面，伴隨著長時間使用，若雜質積存於蒸 生容器41白勺底部，則電磁感應力口熱裝置8的熱將被用於^ 質的加熱。這樣，雖然溫度感測器44檢測出約1〇〇度的1 度，但溫度感測盗22的檢測溫度卻已超過]2〇度（彔照 7的狀態J)。 乡'、?、團 因此，只要溫度感測器22超過異常溫度（例如】奶 度），且溫度感測器44小於等於通常的溫度（例如小於 Ο 於105度），則控制裝置30判斷為蒸汽發生容器41產生污 垢，並根據溫度感測器22以及溫度感測器44的檢測溫度， 使電磁感應加熱裝置8以及輔助加熱器42的運轉停止^ 進仃使操作面板24的清潔燈29點亮、且使蜂鳴器31鳴叫 —固定時間的控制。 根據上述構成，與第丨實施形態同樣地，由於貯水箱 11中貯存的水與蒸汽發生容器41中存在的水處於非連通 的狀態，所以即便蒸汽發生容器41中積存有雜質，亦可防 (J 、、_亥雜貝轉移至貝丁水箱11侧，故可使貯水箱η不易產生 /亏垢，從而能夠極大地減少貯水箱η侧的清掃。 ±構成為當溫度感測器44達到供水開始溫度（丨20度） 時自接水部12供水，而當接水部12中無水時，利用供水 ^ 28的點亮以及蜂鳴器31的鳴叫而將該情況告知使用 、、’因此能夠藉由餘水狀態的檢測來防止空燒。此外，構 ，為於該狀態下未供水時（達到2⑽度時），會進行使蜂鳴 恣31鳴叫的警告，所以可進一步防止空燒產生。 構成為如下：當控制裝置3〇根據溫度感測器 22以及 201002252 31438pif.doc 溫度感測器44的檢測信號，而判斷為蒸汽發生容器41需 要清潔時，控制裝置30使電磁感應加熱裝置8以及輔助加 熱器42停止，並向使用者進行供水燈28的點亮以及蜂鳴 器31的鳴叫，因此容易獲知蒸汽發生容器6的清潔的時期。 由於蒸汽發生容器41是凹凸比較少的形狀，所以容 易進行清潔。 此外，與第1實施形態相同的構成部分，實現與第1 實施形態相同的作用效果。 接下來，參照圖8來說明本發明的第3實施形態。而 且，對與上述第1實施形態及第2實施形態相同的部分附 上相同符號，並省略其詳細的說明。此外，將圖8的左侧 作為前面侧（客人侧），將右侧作為背面側（使用者侧）而 加以說明。 於圖8所示的蒸箱51的陳列櫃2的下方，設置著用 以向陳列櫃2内供給蒸汽的蒸汽發生裝置52。 蒸汽發生裝置52具備對提供用於蒸汽產生用的水以 及結露水進行蒸發的蒸汽發生容器53。本情況下，蒸汽發 生容器53是不鏽鋼製的器皿狀，於外周部形成有隨著朝向 中央而向下方傾斜的傾斜面53a，且於該傾斜面53a所包 圍的内周部上形成著平坦面的平坦部53b。 於蒸汽發生容器53的平坦部53b的下側的面上，作 為對蒸汽發生容器53進行加熱的機構，例如設置著由夾套 加熱器構成的主加熱器54，且於傾斜面53a的中央的面上 設置著輔助加熱器42。於本實施形態中，由蒸汽發生容器 26 201002252 3I438pif.doc t主加熱1154叹輔助加熱來構成蒸汽發生裝置 斜面53 lil、獅力σ熱③42的附近、本情況下是在與傾 至中卓邱二-的位置上’設置著對蒸汽發生容器53的上部 i = 内的溫度進行檢測的溫度感·'44。進 ：^；w '54 53b 置著對蒸汽發生容器53的底部的溫度進 仃松測的皿度感測器22以及溫度保險絲23。 二生容器53的上方，以覆蓋該蒸汽發生容器 53的方式而设置著防護罩9。 於陳列櫃2的下方，設置著對陳列樞]以及 衣置52進行支持固定的框體％。而且體、' /二 央上部配置著上述蒸汽發生裝置52。 處以的中 於框體55内的蒸汽發生裝置52的下方 ^ 部、本情況下為貯水箱56。在貯水箱56 =丁水 所貯存的水的水位進行檢_水位❹"57。置考射内部 :該貯水箱56的下部，設置著連接 供水用配管58。供水用8 2 2内的 中央，以相對於蒸汽發生容二:：58a 狀悲的方式位於蒸汽發 53的 為非連通 該供水舰㈣的中間部、本情況下是較^^方。於 下侧的位置上，設置著抽汲貯水箱56内的知二％更靠 且，由該供水用配管％及果59來構成供水機^ %。而 此外，於該貯水箱56的背面側下部設置著 補充用 27 201002252 丨 1438pif.doc 配管60，該水補夯 而沿著框體55白勺^面己二6〇於框體55的背面側延伸，進 的框體55側的前=而向上方延伸。於水補充用配管60 於該⑽的下側^ = 閉式的門…而且， 測的玻璃製的窗口 ^者⑽糾水箱56内的水位進行目 藉此’構成為如 箱爾水量，，下二用自窗口 62軸忍貯水 當地向貯水箱56 時’可打開⑽’適 固定量时錢行並端如料箱56的水量為 箱5:體:::;：=庫内溫度感 置著操作面板24。側上士本情況下是門61的上方設 同’成實施形態的電性構成圖大致相 , . 且構成為如下：將第2實施形離的带成 感應加熱裝置8變更為主加熱器 二、磁 ，將第2實施形態的水二 更為水位感測器57。 4列如16受 ，著’對上述構成的作用加以說明。而 形態中，與第2實施形態同樣地，構成為根據溫二;丨： 22以及溫度感測器料，來進行供水的顯示以 :因卿作卿•形= 面板56 Mg時’若制者接通操作 面板“原開關25，則控制裝置3〇使主加熱器％以 28 201002252 31438pif.doc 及輔助加熱器42運轉，從而加熱蒸汽發生容器53。蒸汽 發生谷為53文到加熱後，溫度感測器44檢測出供水開始 ，度的]20度時，控制裝置3〇根據溫度感測器私的檢測 酿度（檢測資訊），而使泵％驅動一固定時間。 藉，，貯水箱56内的水通過供水用配管58而自該供 水用配管58的前端部58a出水，並通過蒸汽發生容器53 的傾斜面53a而被供給至蒸汽發生容器53内。此外，:水; (In the case of two consecutive water supply movements within 5 minutes, the operation of the magnetic induction heating device 8 is stopped, and _°: ^ is found, so that the electric narrow 〇〇 丄 亚 亚 亚 亚 亚 亚 亚 亚 面板 面板 面板The control of the 4th lamp is 29 o'clock and the bee chicken device 3 is cleaned. The U-seat U is informed that it is necessary to supply the water tank u and the water receiving portion 12 = water supply and water supply with the f 18 according to the above configuration. In the present embodiment, the configuration is such that the other end portion 18a of the water supply pipe is separated from the inclined surface % of the casing 5, and (4) the water tank 2 is connected to the steam generating container. 6 is a non-connected state, and thus the water stored in the water storage tank 11 and the water receiving portion 12 is in a non-communicating state with the water present in the steam generating unit 6. The upper sputum thereby allows impurities to be accumulated in the steam generating container 6. Further, it is possible to prevent the shell from being transferred to the water storage tank n and the water receiving portion 12 side, so that the water storage phase 1 and the water receiving portion 12 are less likely to generate dirt, and the cleaning of the water storage tank 11 and the water receiving portion 12 side can be greatly reduced. 201002252 3J438pif.doc When detecting the bottom temperature of the strip/ΊΑ谷# 6 When the detected temperature of the degree sensor 22 reaches the water supply start temperature (12 degrees), the water is supplied from the water receiving portion 2, and when the water receiving portion 12 is free of water, the light is supplied from the water supply lamp 28 and the buzzer 31 The user can inform the user of the situation, so that the air-burning can be prevented by the detection of the residual water state. In addition, when there is no water in the above state (when the temperature reaches 200 degrees), a warning will be issued, so that it can be prevented. Since the polyester/flying generating container 6 is detachably provided in the recessed portion 5a of the casing 5, the steam generating container 6 can be taken out from the casing 5 and cleaned, so that it is easy to clean. The bottom of the generating container 6 is provided with a concave portion, for example, and the temperature=:22 is provided at a portion avoiding the concave portion 6a. Therefore, even if the temperature is sensed: when the water supply starting temperature is measured at 120 degrees, the generation of the empty burning can be caused. The amount of evaporation time of the water stored in the recess 6a is delayed. -t using the electromagnetic induction heating device 8 as the steam generating container 6'& can more efficiently perform steaming than the heating mechanism using the fire. Heating, which can be shortened until steamed The production of Taiqiu is as follows: If the water tank 11 containing water is placed in the joint, 17 & the water supply from the water supply port 13a of the storage tank 11 is automatically supplied to the water 1 The work for supplying water to the steamer 1 is omitted as follows: The interval of the water supply time is changed according to the detection temperature of the temperature sensor 22 (two or more times within 5 minutes 19 201002252 JJ4J5pn .doc, a nested nest 30 to determine the steam is crying 8 2^8 know _ raw (four) = . '_ (10), so it is easy to form as follows: degree fuse 23, when steam occurs: the bottom is set to 1 temperature The operation is forcibly stopped, so it can be: 2* lifting the temperature, make the steamer or prevent the steamer! The abnormal heating of the wide preparation container 6 occurs as a whole, and the following is a description of the invention of the present invention. The same part of the embodiment is attached = in the second embodiment, instead of the generation container 41 of the first embodiment, the flat portion is flat; Mechanical generation container knows. At this time, the steam generation capacity = the cleaning of the concave portion 41 shown in the state becomes easy. 41 is basically hot-concave, steam generating container and; - ? 41 is set to the steam in addition to the electromagnetic induction heating device 8, and the heating mechanism, the situation: the upper part of the second 41 to the central part of the heating auxiliary heating 42. Auxiliary _ 疋 setting, set (10), auxiliary set of 8 heaters to the tomb steam vents hot Jie 42 疋 used to assist the electromagnetic induction heating installation, the heating of the base 41, and the electromagnetic induction heating device 8 The temperature rise of the secondary granulator 6 is low. The heating 42 is configured to cooperate with the electromagnetic induction heating device 8 201002252 J 14.1 spif.doc operation and stop operation and stop. Further, in the present embodiment, the steam generation valley 41, the electromagnetic induction heating device 8, and the lion plus cry 42 constitute the sacrificial steam generating device 43. ..., °σ In the present embodiment, the temperature sensor 2 for detecting the upper portion to the center of the steam generating container 41 by the auxiliary heater 4; f't. Test I wave function. In addition, in the treatment, the bottom of the container 41 is provided with a ==? The temperature sensing second embodiment of the second embodiment is described as an air-burning sensor-dirty sensor. FIG. 6 is an electrical configuration diagram of the steamer 1, except that the temperature of the temperature sensor 44 is also detected. , 3 〇. Further, the control device 30 constitutes a set, detects the rounding of the water level, and pre-memorizes the two movements: the drive circuit shown, the operation lamp 26, the library call == 28, the cleaning lamp 29, the buzzer 3, . The control of the above configuration is also described with reference to FIG. 7 without the control of the water supply lamp set 8 and the auxiliary addition _42. The axis table of Fig. 7 is not detected by the temperature sensor 44 of the JIF garden/sink. This: The 'temperature sensor 22 and the temperature' are indicated by two, 阙 line (4) Detecting the detection of 1144... The temperature at the time of the phase 1 hoisting operation 201002252 314J^pn'.doc The detection temperature of the sense 22 . In addition, the air-burning state (state Η and the detected temperature of the temperature sensor 44 in the state 〇) is indicated by a broken line. Further, after the state G, the state in which the dirt is accumulated in the steam generating container 4 is expressed as the state J. In addition, since the detected temperature of the temperature sensor 44 in the air-burning state is not used for control, the illustration is omitted. First, the state in which the steamer is normally operated (state G) will be described. When the user installs the water storage tank η with the water on the water receiving portion 12, a part of the water of the water storage tank u is supplied to the water receiving portion 12. Next, when the user turns on the power of the operation panel 24 At the time of the switch 25, the steam generating container 41 is heated by the electromagnetic induction heating device 8 and the auxiliary heater 42. Here, in the steam generating container 41, near the vicinity of the auxiliary = hot state 42 'near electromagnetic induction heating device 8 The temperature is more easily increased, so that the detected temperature of the sense sensor 22 becomes higher than the detected temperature of the temperature sensor 44. The configuration is as follows: if the temperature sensor 44 detects the start temperature of the water supply 12 At G degree, the control device 3Q is turned on for a fixed time according to the detected temperature of the temperature sensor 44, thereby supplying water from the water receiving portion 12 to the steam generating container 41. A water is supplied to the steam. In the generation container 41, as shown in Fig. 7, the temperature of the steam generation container 41 is lowered, but the electromagnetic induction plus 8 and the auxiliary heater 42 continue to operate ', and the temperature will rise again after the water supply. n 201002252 -3i4jiipif The .doc generates steam and uses the generated steam to heat the food F. ,, © The temperature of the temperature sensor 22 is fixed at about 丨〇5, and the detection of the west sensor 44 The temperature is fixed to be slightly lower than the two measures of the temperature sensor 22. The reason why the temperature sensor 22 and the temperature sensor 44 detect the difference in temperature is that the temperature sensor 2 2 is placed in the electromagnetic sense: heating In the vicinity of the device 8, the temperature sensor 44 is disposed near the auxiliary heater c. With the evaporation of water from the steam generating container 41, when the temperature sensor 44 is near water (refer to the water level (1) of Fig. 5, The temperature of the second temperature will be detected quickly. In addition, since the lower portion of the steam generating container 41 has residual water, the detected temperature of the temperature sensor 22 is maintained at about 1 〇 5 degrees. If the temperature sensor 44 detects the water supply starting temperature, that is, 12 〇. =: Insulting the temperature of the temperature sensor 44, and opening the water valve two for a fixed time to supply water. This I heart occurs in the valley $ 41 with water remaining for water supply. Moreover, only ^ often run ' The time from the water supply to the next water supply is about 20 minutes (see state g). = In the state G, if the coffee is finished in the middle of the normal operation, the water receiving unit 12 _ The water level will drop. And the detected water level of the lower 16 becomes the set water level or the set water level is the same as the two embodiment of the water level. The control device 3 控制 according to the control of the water level sensor water line, that is, the supply panel 24 is supplied. "Bag, and make the beep (four) tweet - fixed time. 201002252 31438pif.doc The water storage tank]] is installed in the water receiving section]2 Zheng Zheng, the second time to sense the signal of m6, the release of the notification 3G according to the water (normal operation). In the system, if the user does not go to the water storage tank], the water in the container 6 will all evaporate, and soon after the steam is heated in the waterless state (refer to Fig. 7 (four) state, the sensor 44 detects When the temperature is 120 degrees, the control temperature is set at 34, and the temperature of the right temperature sensor is detected, and the water supply is turned on according to the temperature sense, and the water is discharged from the water receiving portion 12 to the steam generating container. There is no water in the water receiving part 12, so the action is controlled. At this time, '=, f-dimensional (four) makes the control panel 24 control the control, the bird is 31-sound-fixed time. In the period until the temperature sensor is 22 degrees, the temperature of the water detecting unit 200 22 is detected to be 2 degrees/strong water, and the temperature sensor is burned to make the electromagnetic The induction heating device 8 judges that it is empty and causes the buzzer 31 to sound and the heater 42 to stop, and is configured as follows: Second, the control of the warning is placed in the water tank, and the water is placed in the water tank. When the operation of user 1 starts, the state I is not photographed, control | When the power switch 25 is turned on, the control of the power level switch 25 is also performed (see: heating the steam generating container 6 and the heating device 8 is activated, and the water level sensor 16 detects the water level and the state, the root degree'馨告;^Detector, 22 detection temperature 201002252 31438pif.doc On the other hand, with long-term use, if impurities accumulate in the bottom of the steaming container 41, the heat of the electromagnetic induction heat device 8 will be For the heating of the mass. Thus, although the temperature sensor 44 detects 1 degree of about 1 degree, the detection temperature of the temperature sensing thief 22 has exceeded 2 degrees (state 7 of the reference 7) Therefore, as long as the temperature sensor 22 exceeds an abnormal temperature (for example, milkiness) and the temperature sensor 44 is less than or equal to a normal temperature (for example, less than 度105 degrees), the control device 30 determines. The steam generating container 41 is fouled, and the operation of the electromagnetic induction heating device 8 and the auxiliary heater 42 is stopped according to the temperature detected by the temperature sensor 22 and the temperature sensor 44, so that the cleaning lamp 29 of the operation panel 24 is turned on. Light up and make the buzzer 31 sound - solid According to the configuration described above, the water stored in the water storage tank 11 and the water existing in the steam generation container 41 are not in communication with each other, and therefore, even if impurities are accumulated in the steam generation container 41, It is also possible to prevent (J, _ _ 杂 杂 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移 转移When the water supply start temperature (丨20 degrees) reaches the water supply start temperature (丨20 degrees), the water is supplied from the water receiving portion 12, and when the water receiving portion 12 is not watered, the lighting of the water supply unit 28 and the buzzer 31 are used to notify the use of the situation. , 'Therefore, it is possible to prevent air burning by detecting the remaining water state. In addition, when the water supply is not supplied in this state (when 2 (10) degrees is reached), a warning is given to sound the buzzer 31, so that the occurrence of air-burning can be further prevented. The control device 30 causes the electromagnetic induction heating device 8 to be activated when the control device 3 determines that the steam generating container 41 needs cleaning according to the detection signals of the temperature sensor 22 and the 201002252 31438pif.doc temperature sensor 44. The auxiliary heater 42 is stopped, and the lighting of the water supply lamp 28 and the buzzer 31 are uttered to the user, so that the period of cleaning of the steam generating container 6 is easily known. Since the steam generating container 41 has a shape in which the unevenness is relatively small, it is easy to clean. Further, the same components as those of the first embodiment achieve the same operational effects as those of the first embodiment. Next, a third embodiment of the present invention will be described with reference to Fig. 8 . The same portions as those in the first embodiment and the second embodiment are denoted by the same reference numerals, and their detailed descriptions are omitted. Further, the left side of Fig. 8 is referred to as the front side (guest side), and the right side is referred to as the back side (user side). Below the showcase 2 of the steamer 51 shown in Fig. 8, a steam generator 52 for supplying steam to the showcase 2 is provided. The steam generating device 52 is provided with a steam generating container 53 that supplies water for steam generation and evaporation of dew condensation water. In this case, the steam generating container 53 is in the shape of a stainless steel vessel, and an inclined surface 53a which is inclined downward toward the center is formed in the outer peripheral portion, and a flat surface is formed on the inner peripheral portion surrounded by the inclined surface 53a. Flat portion 53b. On the lower surface of the flat portion 53b of the steam generating container 53, as a means for heating the steam generating container 53, for example, a main heater 54 composed of a jacket heater is provided, and the center of the inclined surface 53a is provided. An auxiliary heater 42 is disposed on the surface. In the present embodiment, the steam generating container 26 201002252 3I438pif.doc t main heating 1154 sighs auxiliary heating to constitute the steam generating device inclined surface 53 lil, the vicinity of the lion force σ heat 342, in this case is in the direction of the middle to Zhuo Qiu At the position of the second position, a temperature sense "44" for detecting the temperature in the upper portion i = of the steam generation container 53 is set. In the range of ^; w '54 53b, the temperature sensor 23 and the temperature fuse 23 for the temperature of the bottom of the steam generating container 53 are placed. A protective cover 9 is provided above the secondary container 53 so as to cover the steam generating container 53. Below the showcase 2, a frame % for supporting and fixing the display hinges and the garments 52 is provided. Further, the above-described steam generating device 52 is disposed in the upper portion of the body. The lower part of the steam generating device 52 in the casing 55 is in the present case, and in this case, the water storage tank 56. Check the water level of the water stored in the water storage tank 56 = butyl water _ water level ❹ " 57. The inside of the test chamber is provided: a water supply pipe 58 is connected to the lower portion of the water storage tank 56. The center of the water supply is in the center of 8 2 2, which is located in the middle of the water supply ship (4) in a way that is opposite to the steam generation capacity:: 58a. The middle part of the water supply ship (4) is in this case. At the lower position, the inside of the pumping water tank 56 is provided with a more than 5%, and the water supply pipe % and the fruit 59 constitute the water supply machine. Further, a replenishing 27 201002252 丨1438pif.doc pipe 60 is provided at a lower portion of the back side of the water storage tank 56, and the water is filled and the side surface of the casing 55 is slid along the frame 55. Extending, the front side of the frame 55 on the side of the frame is extended upward. The water replenishing pipe 60 is on the lower side of the (10) ^ = closed door... Moreover, the water level in the glass-made window (10) of the water-reducing tank 56 is measured, and the water level is as follows: When using the window 62 to forstand the storage of water locally to the storage tank 56, the amount of water that can be opened (10) is a fixed amount, and the amount of water in the tank 56 is the tank: body:::;:= Panel 24. In the case of the side shovel, the upper portion of the door 61 is substantially the same as the electric configuration diagram of the embodiment, and is configured as follows: the second embodiment of the belt-inductive heating device 8 is changed to the main heater 2 The magnetic water of the second embodiment is further changed to the water level sensor 57. The four columns are as received by 16 and the effect of the above configuration is explained. Further, in the same manner as in the second embodiment, the display of the water supply is performed based on the temperature two; 丨: 22 and the temperature sensor material: 卿 作 • • = = = = = = = = = = When the operation panel "original switch 25 is turned on, the control device 3 causes the main heater % to operate with 28 201002252 31438pif.doc and the auxiliary heater 42 to heat the steam generating container 53. The steam generation valley is 53 after heating to the temperature. When the sensor 44 detects the start of the water supply, the control device 3 驱动 drives the pump % for a fixed time according to the temperature sensor's private detection of the brewing degree (detection information). By, the water storage tank 56 The water in the water is discharged from the front end portion 58a of the water supply pipe 58 through the water supply pipe 58 and is supplied to the steam generation container 53 through the inclined surface 53a of the steam generation container 53.

^來表示貯水箱56中供水後的水位。其後，進行與 貫施形態相同的控制。 水f彳面，當貯水箱56 +未放入水時或者雖然有供 =旦里不充分時，若使用者接通該操作面板24的電源開關 ft#貝t制裝置3〇會使主加熱器54以及輔助加熱器42 I從而加熱蒸汽發生容器53。此處，由於貯水箱％ 六，放入水或者雖然有供水但量不充分，所以蒸汽發生 谷态53中並未被供水。 ^於該狀態時，由於水位感測器57並未檢測出供水所 而的水位，故控制裝置30根據水位感測器16的檢測水位， 。而進行使操作面板24的供水燈28點亮、且使蜂鳴器31 鳴叫一固定時間的告知的控制。 右使用者向貯水箱56中補充規定量的水，則水位感 測裔16檢測出規定水位（水位e)，控制裝置3〇根據該水 位感剩器57的信號，而進行通常的運轉（第2實施形態的 通常的運轉）。 " 另一方面，在溫度感測器22達到2〇〇度為止的期間 29 201002252 31438pif.doc 内，未向貯水箱56中供水時，控制裝置3〇使主加埶哭 以及輔助加熱H 42停止，並且進行鱗㈣3 : 4^ indicates the water level after the water supply in the storage tank 56. Thereafter, the same control as the configuration is performed. When the water tank 56+ is not filled with water or if there is insufficient supply, if the user turns on the power switch of the operation panel 24, the main switch will be heated. The heater 54 and the auxiliary heater 42 I thereby heat the steam generating container 53. Here, since the water storage tank is filled with water or the water supply is insufficient, the steam is not supplied to the valley state 53. In this state, since the water level sensor 57 does not detect the water level of the water supply, the control device 30 determines the water level based on the water level sensor 16. On the other hand, control is performed to notify the water supply lamp 28 of the operation panel 24 that the buzzer 31 is sounded for a fixed period of time. When the right user adds a predetermined amount of water to the water storage tank 56, the water level sensing person 16 detects a predetermined water level (water level e), and the control device 3 performs normal operation based on the signal of the water level sensor 57. 2 normal operation of the embodiment). " On the other hand, in the period 29 201002252 31438pif.doc until the temperature sensor 22 reaches 2 degrees, when the water is not supplied to the water storage tank 56, the control device 3 causes the main crying and the auxiliary heating H 42 Stop and carry scales (4) 3 : 4

定時間的警告的控制。 U 上述構成亦與第2實施形態相同，貯水箱％ 存的水與蒸汽發生容器53中存在的水處於 : 態’因此即便蒸汽發生容器53中積存有雜質，亦可：： 雜質轉移至貯水箱56侧，故可使貯水箱兄不易 二 從而能夠極大地減少貯水箱56側的清掃。 '° 此外，使用溫度感測器22以及^感測器4 與第2實施形態_的仙，㈣實現與第2實施形= ^的防止空燒的效果，並且實現容易獲知清潔的時_效 蒸汽發生容器5 3雖無法裝卸’作由 與平，而構成’故凹凸較二由易=^^ & 本發明並不限定於上述及圖面所示的實施形 悲，=進仃如下所示的變形、擴展。 、升 f、1至第3實施形態中，作為對蒸汽發生 水狀㈣颂㈣餘水狀態㈣ ^ 測器22，亦可使用水位感測器。 於酸度感 的形態的蒸箱1中，亦可使用第3實施形態 3 )實施；^來汽發生裝置4,亦可如第2(第 =行利用溫度感測器22以及溫度感測器料 二、的頒示以及清潔顯示的控制。 方'乐2 μ及第3實施形態中，亦可與第1實施形態相 30 201002252 31438pif.doc 同，僅使用—個溫度感測器22，來 污垢的控制。 q啤仏水、空燒、 於第3實施形態的蒸箱5] 態的蒸汽發生裝置4來代替蒸汽:生=用第1實施形 於第3實施形態中，對使用主 =了說明，但亦可使用電磁感應; 來代替第]實施形態以及第2 ㈣主加熱器' % 置8。 貝也幵人悲的電磁感應加熱裝 僅為此Γ上述所說明的實施形態的構成、溫度、時門箄 僅為-例，可適當地加以變更。 4間寻 隹:、、、:本舍明已以實施例 本發明，任何所屬技術領 ^J、其亚非用以限定 本發明之精神和範圍内，、，在不脫離 發明之保護範圍當視後附= 3動與'顯，故本 【圖式簡單說明】 之甲明專利乾圍所界定者為準。 圖1是矣-丄 圖 、丁發明的弟i實施形態的蒸箱的縱剖侧視 ^操作面板的正視圖。 箱幅構成圖。 的圖 。^料的運轉時間與溫度感測器的溫度變化 圖實施形態的相當於圖]的圖。 201002252 31438pif.doc 圖7是相當於圖4的圖。 圖8是表示本發明的第3實施形態的相當於圖1的圖。 【主要元件符號說明】 1、51 :蒸箱 2 :陳列櫃（食品收容室） 3 :擱板 3a、9a:孔 4、 43、52 :蒸汽發生裝置 5、 55 :框體 5a、6a :凹部 5b、53a :傾斜面 6、 41、53 :蒸汽發生容器 6b :凸緣部 7 :襯墊 8 :電磁感應加熱裝置（加熱機構） 9 :防護罩 1卜56 :貯水箱（貯水部） 12 :接水部（貯水部） 13 :供水口部 13 a :供水口 14 :供水口承接部 14a :開口部 15 :閥裝置 15a :閥體 201002252 31438pif.doc 15b :螺旋彈簧 15c :閥作動突起 16、57:水位感測器 17 :供水閥（供水機構） 18、58 :供水用配管（供水機構） 1 8a、58a、60a :前端部 21 :庫内溫度感測器 广-% 22 :溫度感測器（餘水狀態檢測機構、空燒感測器、 污垢感測器） 23 :溫度保險絲 24 :操作面板 25 :電源開關 26 :運轉燈 27 :庫内溫度顯示部 28 :供水燈 29 :清潔燈 U 30 :控制裝置（控制機構） 31 :蜂鳴器 42 :輔助加熱器（輔助加熱機構） 44 :溫度感測器（餘水狀態檢測機構、污垢感測器） 53b :平坦部 54 :主加熱器（加熱機構） 59 :泵（供水機構） 60 :水補充用配管 201002252 31438pif.doc 61 ： η 62 :窗口 a、b、c、d :水位 F :食品 34Control of the warning of a fixed time. In the above configuration, as in the second embodiment, the water stored in the water storage tank % and the water present in the steam generation container 53 are in the state of "therefore, even if impurities are accumulated in the steam generation container 53, the impurities can be transferred to the storage tank. On the side of the 56th side, it is possible to make the water storage tank brother difficult to use, so that the cleaning of the water storage tank 56 side can be greatly reduced. In addition, the use of the temperature sensor 22 and the sensor 4 and the second embodiment _, (4) achieve the effect of preventing the air-burning in the second embodiment, and realize the easy-to-know cleaning time. Although the steam generating container 53 cannot be attached or detached, it is composed of the same as that of the flat surface. Therefore, the present invention is not limited to the embodiment shown in the above and the drawings. Deformation and expansion. Further, in the third embodiment, as the steam generating water (four) 颂 (4) residual water state (four) detector 22, a water level sensor can also be used. In the steamer 1 of the acidity state, the third embodiment 3) can be used; the steam generating device 4 can be used as the second (the second row uses the temperature sensor 22 and the temperature sensor material) Second, the presentation and the control of the clean display. In the case of the second embodiment and the third embodiment, the same as the first embodiment 30 201002252 31438pif.doc, only the temperature sensor 22 is used to remove the dirt. In the third embodiment, the steam generator 5 in the steamer of the third embodiment is used instead of the steam: the first embodiment is in the third embodiment, and the main control is used. In addition, the electromagnetic induction may be used instead of the first embodiment and the second (fourth) main heater '%. 8. The electromagnetic induction heating device of the sorrow is only the configuration of the above-described embodiment, The temperature and time threshold are only examples, and can be appropriately changed. 4 searches: , , , : 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本 本Within the spirit and scope of the invention, and without departing from the scope of protection of the invention, BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a front elevational view of a side view of an operation box of a steamer of a 矣-丄 diagram and a younger embodiment of the invention. Fig. 7 is a view corresponding to Fig. 4. Fig. 8 is a view corresponding to Fig. 4. Fig. 8 is a view corresponding to Fig. 4. Fig. 8 is a view corresponding to Fig. 4. The figure corresponding to Fig. 1 of the third embodiment. [Description of main component symbols] 1. 51: Steamer 2: showcase (food storage room) 3: shelf 3a, 9a: holes 4, 43, 52: steam generation Device 5, 55: frame 5a, 6a: recess 5b, 53a: inclined surface 6, 41, 53: steam generating container 6b: flange portion 7: gasket 8: electromagnetic induction heating device (heating mechanism) 9: protective cover 1 Bu 56 : Storage tank (water storage part) 12 : Water receiving part (water storage part) 13 : Water supply port part 13 a : Water supply port 14 : Water supply port receiving part 14a : Opening part 15 : Valve device 15a : Valve body 201002252 31438pif. Doc 15b: coil spring 15c: valve actuating projection 16, 57: water level sensor 17: water supply valve (water supply mechanism) 18, 5 8 : Water supply piping (water supply mechanism) 1 8a, 58a, 60a: Front end 21: Wide temperature sensor inside the container -% 22 : Temperature sensor (remaining water condition detecting mechanism, air burning sensor, dirt feeling) Detector) 23: Thermal fuse 24: Operation panel 25: Power switch 26: Operation lamp 27: Internal temperature display unit 28: Water supply lamp 29: Cleaning lamp U 30: Control device (control mechanism) 31: Buzzer 42: Auxiliary heater (auxiliary heating mechanism) 44: Temperature sensor (remaining water condition detecting mechanism, dirt sensor) 53b: Flat portion 54: Main heater (heating mechanism) 59: Pump (water supply mechanism) 60: Water replenishment With piping 201002252 31438pif.doc 61 : η 62 : window a, b, c, d: water level F: food 34

Claims (1)

201002252 31438pif.doc 七、申叫專利範圍： 1，一種蒸箱，其特徵在於包括： =品收容室，收容食品； 瘵；α發生容器’設置於該食品收容室的下方； 加熱機構，斜該蒸汽發生容器進行加熱而產生落汽. ^水部’以相對於上述蒸汽發生容器為非連通的狀態 又置； 發生構，將該貯水部中所貯存的水供給至上述蒸汽 態進==機構，對上述蒸汽發生容器内的餘水狀 制上==構根據雜雜驗顯躺㈣資訊來控 2.如申請專利範圍第1項所述之蒸箱，其中 >皿度進行檢測的方式岐置的溫度感測生⑽的 ^如申請專利範圍第2項所述之蒸箱，其中 4溫度感測器設置於上述蒸 兼作對上述蒸汽發生容H的空燒進行的底部，且 4.如申請專利範圍第2項所述之^箱，、=感測器。 上述溫度感測器兼作對上述蒸J容 仃檢測的污垢感測器。 ^生夺裔的污垢進 5·如申請專利範圍第2項所述之蒸箱，t 於上述蒸汽發生容器的上部 ^ 考對δ亥务汽發生容 201002252 31438pif.doc 器進行加熱的輔助加熱機構； 於上述輔助加熱機構的附近設置著上述溫度感測器。 6.如申請專利範圍第1項所述之蒸箱，其中 上述蒸汽發生容器是可裝卸地安裝的構成。 36201002252 31438pif.doc VII, the scope of the patent application: 1, a steamer, characterized by: = product containment room, contain food; 瘵; α generating container 'located under the food containment room; heating mechanism, oblique The steam generating container is heated to generate a falling steam. The water portion 'is re-connected with respect to the steam generating container; the structure is generated, and the water stored in the water storage portion is supplied to the steam state. The method of controlling the residual water in the steam generating container is controlled according to the information of the miscellaneous test (4). 2. The steamer according to the first item of the patent application, wherein the method of detecting the degree is The temperature sensing of the device (10) is as described in claim 2, wherein the temperature sensor is disposed at the bottom of the steaming as the air-burning of the steam generating capacity H, and 4. As described in the second paragraph of the patent application, the box, = sensor. The above temperature sensor also serves as a dirt sensor for detecting the above-mentioned steam. ^The dirt of the living creatures is entered into the steamer as described in item 2 of the patent application scope, t is the auxiliary heating mechanism for heating the δHai steam generating capacity 201002252 31438pif.doc in the upper part of the above steam generating container. The temperature sensor is disposed in the vicinity of the auxiliary heating mechanism. 6. The steamer according to claim 1, wherein the steam generating container is detachably mounted. 36