M4Q6414 ' 修正版修正日期:2011/3/25 '五、新型說明: 【新型所屬之技術領域】 本創作係關於一種炊具領域,尤其係關於一種能源再 • 生蒸櫃。 【先前技術】 目前,現有蒸櫃存在以下問題:1、蒸氣發生器產生的 蒸氣通過蒸氣管進入各個蒸室,每個蒸氣管上有一個獨立 操作的蒸氣閥,蒸氣閥的結構複雜,每當打開蒸室門時, 必須先關閉蒸氣閥,由於操作步驟繁多且操作不便,容易 發生蒸氣閥未關閉就打開蒸室門而造成安全事故;2、當關 閉某一蒸室或全部蒸室的蒸氣閥時,蒸氣則集中在製氣水 箱和蒸氣管道内,氣壓會不斷升高,只有當氣壓高於設置 在蒸氣管道上的限壓安全閥時,蒸氣才會從限壓安全口排 入大氣,集中於製氣水箱和蒸氣管道内的蒸氣壓力在未達 到限壓安全閥的排洩壓力或限壓安全閥失靈時,危險性增 大,存在嚴重的安全隱憂;3、不同蒸室處於同一工作狀態 下,打開某一蒸室門時會影響其他蒸室的溫度、氣壓,其 原因是:蒸室的排氣口與排氣管道相通,若打開某一蒸室 門,其他蒸室排入排氣管道的蒸氣反向進入打開蒸室門的 蒸室而釋放到空氣中造成浪費,不利於對蒸氣的二次回收 利用;4、蒸室之間便於清洗蒸製物品時產生的廢水、廢渣, 在上下蒸室間設有排洩口直通,此排洩口無其他輔助設 施,在方便排洩的同時,又造成蒸室之間相互混溫、混壓, 5 修正版修正日期:2011/3/25 所蒸製的不同物品混味,當開啟某間蒸室門時,同樣影響 其他蒸室的溫度、氣壓;5、製氣水箱的水量補給是影響蒸 櫃均衡製氣的主要原因,如一次性補給過多水量,在加熱 器件輸出功率不變的情況下,製氣水箱裡製氣量在一定時 間内會降低,進入蒸室的蒸氣量隨之下降,在一段時間内 補給水量小於蒸發量時,又易造成製氣水箱缺水,有燒乾 銷的可能。 【新型内容】 本創作的目的是解決現有技術中的問題,提供一種結 構簡單,操作方便,且安全可靠的智慧能源再生蒸櫃。 本創作的技術手段是:一種能源再生蒸櫃,包括夾層 保溫櫃體和蒸氣發生器,該櫃體被分隔成上下承接的彼此 獨立之蒸室,該蒸氣發生器安裝於櫃體的底部;該蒸氣發 生器通過一蒸氣管與各個蒸室連通,該櫃體内設有一排氣 管,該蒸室均設有與排氣管相通的排氣口,該排氣管的出 口與櫃體外界相通;每個蒸室内均安裝有一洩氣尾管,該 洩氣尾管均與排氣管相通; 每個蒸室内均設有一蒸氣閥和一單向排氣閥,該蒸氣 閥包括一中空的閥體,該閥體的前埠與其相對應的蒸室相 通,該閥體的後埠與其相對應的洩氣尾管相通,其内設有 一可作往復運動的活塞式閥芯,在閥芯運動區域内的閥體 側壁上設有一與蒸氣管相連通的進氣口,該閥芯通過連桿 與蒸室門連接,當蒸室門開啟時,閥芯處於連通蒸氣管和 Μ4Θ6414 修正版修正曰期:20U/3/25 洩氣尾管的位置,當蒸室門關閉時,閥芯處於連通蒸氣管 ' 與蒸室的位置’各έ亥排氣口均通過該导向排氣閥與排氣管 相通。 較佳是,該櫃體上安裝有控制面板,在控制面板上有 微控制器;該蒸氣發生器包括製氣水箱、加熱裝置、水位 • 監測裝置和進水裝置;該加熱裝置和水位監測裝置均安裝 在製氣水箱中’該水位監測裝置具有安裝在預設高位處的 高水位探頭和安裝在預設低位處的低水位探頭;該進水襄 • 置的進水管接入製氣水箱内部;該蒸氣管的入口端伸入製 J 氣水箱中;M4Q6414 'Revised revision date: 2011/3/25 'V. New description: [New technical field] This creation is about a field of cookware, especially about an energy re-steamer. [Prior Art] At present, the existing steam cabinet has the following problems: 1. The steam generated by the steam generator enters each steam chamber through the steam tube, and each steam tube has an independently operated steam valve, and the structure of the steam valve is complicated. When opening the steaming chamber door, the steam valve must be closed first. Due to the numerous operation steps and inconvenient operation, it is easy to open the steaming chamber door when the steam valve is not closed, causing a safety accident; 2. When closing the steam in a steaming chamber or all the steaming chambers When the valve is used, the vapor is concentrated in the gas tank and the steam pipe, and the air pressure will continuously increase. Only when the air pressure is higher than the pressure limiting safety valve disposed on the steam pipe, the steam will be discharged into the atmosphere from the pressure limiting safety port. When the vapor pressure concentrated in the gas tank and the steam pipeline fails to reach the discharge pressure of the pressure limiting safety valve or the pressure limiting safety valve fails, the danger increases, and there are serious safety concerns; 3. Different steam chambers are in the same working state. Under the opening of a steaming chamber door, it will affect the temperature and pressure of other steaming chambers. The reason is that the exhaust port of the steaming chamber communicates with the exhaust pipe. The steam in the chamber door and other steam chambers discharged into the exhaust pipe reversely enters the steam chamber that opens the steam chamber door and is released into the air to cause waste, which is not conducive to the secondary recycling of the steam; 4. The steaming chamber is easy to clean and steam. Waste water and waste slag generated during the article, there is a discharge port between the upper and lower steaming chambers. There is no other auxiliary facilities in the draining port, which facilitates the excretion and causes the steaming chamber to mix and mix with each other. 5 Correction correction Date: 2011/3/25 The different contents of steamed products are mixed. When opening a steaming room door, it also affects the temperature and pressure of other steaming chambers. 5. The water supply of the gas-making water tank affects the equalizing gas production of the steaming cabinet. The main reason is that if the output of the heating device is constant, the gas production in the gas tank will decrease for a certain period of time, and the amount of steam entering the steam chamber will decrease, and the amount of water will be replenished for a period of time. When it is less than the evaporation amount, it is easy to cause the water in the gas tank to be dehydrated, and there is a possibility of burning the dry pin. [New content] The purpose of this creation is to solve the problems in the prior art, and to provide a smart energy regenerative steamer with simple structure, convenient operation, and safety and reliability. The technical means of the creation is: an energy regeneration steaming cabinet, comprising a sandwich heat preservation cabinet body and a steam generator, the cabinet body being divided into mutually independent steam chambers, which are installed at the bottom of the cabinet; The steam generator is connected to each of the steam chambers through a steam tube. The cabinet body is provided with an exhaust pipe, and the steam chamber is provided with an exhaust port communicating with the exhaust pipe, and the outlet of the exhaust pipe is connected to the outside of the cabinet. Each steaming chamber is provided with a venting tail pipe, and the venting tail pipe is connected with the exhaust pipe; each steaming chamber is provided with a steam valve and a one-way exhaust valve, and the steam valve comprises a hollow valve body. The front cymbal of the valve body communicates with the corresponding steam chamber, and the rear cymbal of the valve body communicates with the corresponding deflation tail pipe, and a reciprocating piston valve core is arranged therein, in the movement area of the valve core An air inlet communicating with the steam pipe is arranged on the side wall of the valve body, and the valve core is connected to the steaming chamber door through a connecting rod. When the steaming chamber door is opened, the valve core is connected to the steam pipe and the Μ4Θ6414. Correction period: 20U /3/25 The position of the deflated tail pipe 'Position of the steam chamber', when the door is closed steam chamber, the valve body is in communication with the vapor outlet tube are each έ Hai exhaust valve of the exhaust guide and the exhaust pipe through the communicating. Preferably, the cabinet is provided with a control panel, and the control panel has a microcontroller; the steam generator comprises a gas tank, a heating device, a water level, a monitoring device and a water inlet device; the heating device and the water level monitoring device Both are installed in the gas tank. The water level monitoring device has a high water level probe installed at a preset high position and a low water level probe installed at a preset low position; the water inlet of the water inlet is connected to the inside of the gas tank The inlet end of the steam tube extends into the J gas water tank;
該微控制器的按鍵信號輸入端與安裝在操作面板上的 按鍵電連接,微控制器的加熱信號輸出端與加熱控制模組 的輸入端電連接,該加熱控制模組的輪出端與加熱装置控 制連接;微控制器的水位信號輸人端與水位監測模組的輸 t電連接,水位監聰組的高水位輪人端和低水位輸入 水位探頭和低水位探頭的輪出端電連接,微控 進水” 輸出料進水控龍_以端電連接, =㈣模組的輸出端與安裝在進水管上㈣磁闕電連 平父佳是 板過分層板分隔出各蒸室,每個分層 有用於清洗蒸室的排洩口,每個蒸室均右一 活裝置,該排茂控制裝置包括安裝在排=口處的 手=氣:=咖打開或者關軸口的控制 目女装有氣水隔離箱,該氣水隔離箱上 7 ^ 修正版修正日期:2011/3/25 女裝有與其相通的蒸室排⑦管,該蒸室㈣管的入口端伸 入位於最下層的蒸室中’該氣水隔離箱與安裝在製氣水箱 内的排污管相通,該排污管的排污口從櫃體底部向外伸出。 幸又佳疋,該排洩控制裝置包括縱向安裝在該分層板底 上的導向套离,該分層板在導向套筒的兩側均設有該排 洩口,遠控制手柄安裝在導向套筒中,並從導向套筒的前 埠向外伸出,該控制手柄通過連桿機構同時控制兩個活動 擋片。 較佳疋,該分層板在橫向中間位置向上凸起呈“人” 子型,該導向套筒安裝在分層板的凸起部位的下方。 ^較佳是,該控制手柄在活動擋片處於關閉排洩口的狀 態下,該控制手柄的前端與蒸室門的内壁相抵。 板佳疋,該蒸氣發生器還包括安裝在該製氣水箱内的 水粕排污管’該水箱排污管與排污口位於櫃體外的排污管 連通,該水箱排$管上安裝有排污閥,該排污閥受控於排 污閥控制器,該排污閥控制器的排污狀態輸出端與微控制 器的排污狀態輸入端電連接,該排污閥控制器的排污控制 端與微控制器的排污信號輸出端電連接。 幸乂佳疋,該排氣管通過一根冷凝管與排污管連通。 本創作的功效是:首先,蒸氣閥與蒸室門聯動,操作 簡便,安全可靠,不會發生誤操作;其次,蒸室内的蒸氣 只能通過單向排氣閥排入排氣管内,再通過排氣管排至大 氣中,因此,排氣管内的廢蒸氣不會進入蒸室中;再者, 如果關P錢㈣麟Π ’則各蒸室之料會混溫和混壓, M406414 修正版修正曰期:2011/3/25 · ··也可以確保各蒸室内蒸製的物品之間不會混味;最後,菜 ::權内產生的所有廢蒸氣都集★於排氣f排出,便於蒸氣^ 回收再利用。 【實施方式】 • 下面結合附圖對本創作進一步說明。 h第1 1和第2 ®所示’本創作所述的能源再生蒸櫃 包括夾層保溫櫃體1和蒸氣發生器,該櫃體1被分隔成上 鲁了承接的彼此獨立的蒸室2卜該蒸氣發生器安裝在櫃體1 ^ 的底部1&内。該蒸氣發生器通過一蒸氣管20與各蒸室21 連通,該櫃體1内設有一排氣管18,該蒸室21均設有與排 氣管18相通的排氣口,該排氣管18的出口與櫃體外界相 通;每個蒸室21㈣安裝有—聽尾管19,該減尾管 19均與排氣管18相通。 如第2圖所示,每個蒸室21内均設有一蒸氣閥23和 • 一單向排氣閥17 ’如第33和3b圖所示,該蒸氣閥23包括 一中空的閥體232,該閥體232的前埠與其相對應的蒸室 21相通,該閥體232的後埠與其相對應的洩氣尾管19相 通,該閥體232内設有一可作往復運動的活塞式閥芯231, 在閥芯運動區域内的閥體側壁上設有一與蒸氣管2〇相連通 的進氣口 233’該閥芯231通過連桿24與蒸室門25連接, 當蒸室門25開啟時,該蒸室門25通過連桿24帶動閥芯231 向前運動,使閥芯231處於連通蒸氣管20和洩氣尾管19 的位置上’當蒸室門25關閉時,該蒸室門25通過連桿24 9 M406414 wfc Ba , 修正版修正曰斯:2011/3/25 讀闕心向後運動,使閥芯'處於連通蒸氣管2G與基室21 的位置使蒸氣發生器、產生的蒸氣通過蒸氣管20進入相 對應的洛至21内。該蒸室21的排氣口均通過該單向排氣 閥^與排氣管18相通,通過單向排氣閥控制各蒸室内 ,蒸氣是否通過排氣管18直接向外界排出。此設計的優點 2 : 一方面’當打開蒸室Π 25時,即關閉某一間或全部茱 室的蒸氣閥23時,蒸氣閥23的閥芯231處於間接連通 蒸氣管20和排氣管18的位置上,職氣管2〇内的基氣不 會集令在蒸氣發生器和蒸氣管内造成蒸櫃的局部高溫和高 壓,從而無需在蒸播内設置限壓安全閥;另一方面,蒸氣 閥23與蒸室門25同步聯動’操作簡便,安全 合 發生誤操作。 不^ 該單向排氣㈤17的工作原理如帛5圖所示,該單向排 氣閥Π包括-個閥體,該閥體内設有一中空的限位件 ^,該限位件171在與排氣管18相對的一側上可轉動地 t裝一開關擋片172’因此’該開關擔片172只有在蒸室 21内的氣麗高於純管18内的氣壓時才會向排氣管以側 開啟’使得蒸t 21内的蒸氣向排氣管Μ流動,直到蒸室 21内的氣壓與排氣管18内的氣壓平衡為止,當排氣管18 内的氣歷大於等於蒸室21内的氣壓時,該開關擋片m受 到壓力的作用將封閉限位件的中空部位,進而對蒸室21進 行密封。 … π 如第2 _示’該櫃體i上還可以安裝控制面板4,在 控制面板上有微控制器;該蒸氣發生器包括製氣水箱2、加 熱裝置3、水位監測裝置5和進水裝置; :2❶U/3/25 位監測裝置5均安裝在製氣水箱;中=水 具有安裝在預設高减的高核探 ^5 =頭™置的進水營二::: ::蒸氣官2〇的入口端伸入製氣水箱2中,以便將製 乱水相2所產生的蒸氣直接導人蒸氣管2〇中。 該微控制ϋ的按鍵信號輪人端與安裝在進行人機交互 的操作面板26上的按鍵電連接’微控制器的加埶信號 =力ΤΓ組的輸入端電連接,該力姻模崎 ^與加熱裝置3控制連接;微控制器的水位信號輸入端 二水位監測模組的輸出端電連接’水位監測模組的高水位 =端和财位輸人端分別與高水崎頭和低水位探頭的 輸出端電連接’難制器的進水信號輸出端與進水控制模The button signal input end of the microcontroller is electrically connected to a button mounted on the operation panel, and the heating signal output end of the microcontroller is electrically connected to the input end of the heating control module, and the wheel end of the heating control module is heated The device controls the connection; the water level signal input end of the microcontroller is connected to the water level monitoring module, and the high water level wheel end of the water level monitoring group and the low water level input water level probe and the low water level probe are electrically connected. , Micro-control water inlet _ output material into the water control dragon _ to the end of the electrical connection, = (four) module output end and installed on the inlet pipe (four) magnetic 阙 连 父 父 父 父 是 是 是 是 是 是 是 是 是 是 是 是 是 是 是 是Each layer has a drain port for cleaning the steam chamber, and each steam chamber has a right living device, and the row control device includes a hand installed at the row = mouth: gas: = coffee open or close the control of the shaft Female equipped with gas water isolation box, the gas water isolation box on the 7 ^ revised version of the revised date: 2011/3/25 female equipped with a steaming chamber row of 7 tubes connected to it, the inlet end of the steaming chamber (four) tube extends into the lowest layer In the steaming chamber, the gas water isolation box is installed in the gas water The sewage pipe in the box communicates, and the sewage outlet of the sewage pipe protrudes outward from the bottom of the cabinet. Fortunately, the drainage control device comprises a guiding sleeve longitudinally mounted on the bottom of the layered plate, the layered plate The drain port is disposed on both sides of the guiding sleeve, and the far control handle is installed in the guiding sleeve and protrudes outward from the front cymbal of the guiding sleeve, and the control handle simultaneously controls two movable blocks through the link mechanism Preferably, the layered plate is convex upwardly in a laterally intermediate position as a "human" sub-type, the guiding sleeve being mounted below the raised portion of the layered plate. ^ Preferably, the control handle is active The front end of the control handle is in contact with the inner wall of the steaming chamber door in a state in which the blocking piece is closed. The steam generator further includes a water drain pipe installed in the gas tank, the water tank drain pipe The sewage tank is connected to the sewage pipe outside the cabinet, and the sewage tank is installed with a sewage valve, and the sewage valve is controlled by the sewage valve controller, and the sewage state output end of the sewage valve controller and the sewage discharge state of the microcontroller Input electrical connection The sewage control end of the sewage valve controller is electrically connected to the sewage signal output end of the microcontroller. Fortunately, the exhaust pipe is connected to the sewage pipe through a condensation pipe. The effect of the creation is: first, the steam valve Linked with the steaming chamber door, the operation is simple, safe and reliable, and no misoperation occurs. Secondly, the steam in the steaming chamber can only be discharged into the exhaust pipe through the one-way exhaust valve, and then discharged to the atmosphere through the exhaust pipe, so The waste steam in the trachea will not enter the steaming chamber; in addition, if the P money (4) Lin Yu ', then the steaming room will mix and mix, M406414 revised version of the revised period: 2011/3/25 · ·· It is also possible to ensure that there is no miscibility between the items steamed in each steaming room; finally, all the waste steam generated in the dish:: is collected in the exhaust gas f to facilitate the recycling and reuse of the vapor. [Embodiment] This creation is further explained in conjunction with the drawings. h The energy regenerative steam cabinets described in the above 1st and 2nd 'the present invention include a sandwich heat preservation cabinet 1 and a steam generator, and the cabinet 1 is divided into mutually independent steam chambers 2 The steam generator is mounted in the bottom 1& of the cabinet 1^. The steam generator is connected to each of the steam chambers 21 through a vapor tube 20. The cabinet body 1 is provided with an exhaust pipe 18, and each of the steam chambers 21 is provided with an exhaust port communicating with the exhaust pipe 18, and the exhaust pipe is provided. The outlet of 18 is in communication with the outside of the cabinet; each of the steaming chambers 21 (4) is equipped with a tail pipe 19, which is in communication with the exhaust pipe 18. As shown in Fig. 2, each of the vapor chambers 21 is provided with a vapor valve 23 and a one-way exhaust valve 17' as shown in Figs. 33 and 3b. The vapor valve 23 includes a hollow valve body 232. The front sill of the valve body 232 communicates with the corresponding steam chamber 21, and the rear sill of the valve body 232 communicates with the corresponding deflated tail pipe 19, and the valve body 232 is provided with a reciprocating piston valve body 231. An air inlet 233 ′ communicating with the steam tube 2 设有 is disposed on the side wall of the valve body in the movement area of the spool; the valve core 231 is connected to the steam chamber door 25 through the connecting rod 24 , when the steam chamber door 25 is opened, The steaming chamber door 25 drives the valve core 231 to move forward through the connecting rod 24, so that the valve core 231 is in a position connecting the steam tube 20 and the deflation tail pipe 19. When the steaming chamber door 25 is closed, the steaming chamber door 25 passes through the connection. Rod 24 9 M406414 wfc Ba , Modified version Corrected Muse: 20111/3/25 Read the heart backward movement, so that the valve core 'is in the position connecting the steam tube 2G and the base chamber 21 so that the steam generator and the generated vapor pass through the steam tube 20 enter the corresponding Luo to 21. The exhaust ports of the steam chamber 21 are communicated with the exhaust pipe 18 through the one-way exhaust valve, and the steam chambers are controlled by the one-way exhaust valves, and whether the steam is directly discharged to the outside through the exhaust pipe 18. Advantage 2 of this design: On the one hand, when the steam chamber 23 is opened, that is, the steam valve 23 of one or all of the chambers is closed, the valve body 231 of the steam valve 23 is indirectly connected to the steam tube 20 and the exhaust pipe 18 In the position, the base gas in the 2 gas cylinders does not cause local high temperature and high pressure in the steam generator and the steam tube, so that there is no need to set a pressure limiting safety valve in the steaming; on the other hand, the steam valve 23 Synchronous linkage with the steaming chamber door 25 'Easy operation, safe operation and misoperation. The working principle of the one-way exhaust (five) 17 is as shown in FIG. 5, the one-way exhaust valve includes a valve body, and the valve body is provided with a hollow limiting member ^, and the limiting member 171 is A switch block 172' is rotatably mounted on the side opposite to the exhaust pipe 18 so that the switch plate 172 is only aligned when the air volume in the steam chamber 21 is higher than the air pressure in the pure pipe 18. The gas pipe is opened to the side so that the vapor in the steam t 21 flows toward the exhaust pipe until the gas pressure in the steam chamber 21 is balanced with the gas pressure in the exhaust pipe 18, and the gas in the exhaust pipe 18 is equal to or higher than the steam. When the air pressure in the chamber 21 is applied to the air in the chamber 21, the hollow portion of the stopper is closed by the action of the pressure, and the steam chamber 21 is sealed. ... π as in the second _ shows 'the cabinet i can also be installed on the control panel 4, there is a microcontroller on the control panel; the steam generator includes a gas tank, heating device 3, water level monitoring device 5 and water Installation; : 2❶U/3/25-position monitoring device 5 are installed in the gas-making water tank; medium=water has a high-nuclear probe installed at a preset high-reduction height = 5 = head TM placed in the water camp 2::::vapor The inlet end of the official 2〇 is inserted into the gas tank 2 to directly direct the vapor generated by the disordered water phase 2 into the steam tube 2〇. The button of the micro-control button is electrically connected with the button mounted on the operation panel 26 for human-computer interaction. The twisting signal of the microcontroller is electrically connected to the input end of the force group. The control device is connected with the heating device 3; the water level signal input end of the micro-controller is electrically connected to the output end of the two water level monitoring module. The high water level=end and the financial input end of the water level monitoring module are respectively combined with the high water head and the low water level probe. The output terminal is electrically connected to the inlet signal output end of the difficult device and the water inlet control mode
的輸入:^電連接’進水控制模組的輸出 管9上的電磁閥10電連接。 女装在進R 〜如第2圖所示’該櫃體!可以通過分層板^分隔出各 4室21二每個分層板14上設置有用於清洗蒸室21的排线 口 16’每個蒸室21均設置有一套排洩控制裝置,該排洩控 =裝置包括安裝在㈣p 16處的活動擋片和用於控制活動 播^打開或者關閉㈣口 16的控制手柄22。該製氣水箱2 中女裝有氣水隔離箱12,該氣水隔離箱12上安裝有與其相 通的蒸室排茂管13,該蒸室排茂管13的入π端伸入位於最 下f的蒸室21的底板中,並與該蒸室21相通;該氣水隔 離知12與安裝在製氣水箱2内的排污管8相通該排污管 8的:污口從櫃體丨的底部1&向外伸出。一,一 在該圖所示’該排茂控制裝置包括縱向安裝 筒的兩側均·面上的導向套筒,該分層板14在導向套 筒中;咖16。該控制手柄22安裳在導向套 通過連桿^ 33前埠向外伸111,該控制手柄22可以 中_= 33同時控制兩個活動擒片,其中,第仆圖 動擋^2個排汽口 16的連桿機構和活動擒片。該活 機構的末端 =固定安裝在連桿機構33的末端上,該連桿 位置上。β轉動地安裝在分層板Η的臨近排洩口 16的 16棑 ▲;各蒸室21内的廢水和廢渣通過各自的排洩口 型,^该分層板14在橫向中間位置向上凸起呈‘‘人,,字 板的12板14具有排水坡度’而該導向套筒安裝在分層 田蒸櫃工作完畢後,各蒸室21在清洗廢水和廢渣時, 如第4b圖所+ . ^ $、q 听不’向前拉動控制手柄22’控制手柄22將通 杯機構帶動活動檔片32向下打開,使排洩口 16露出, 則蒸* f 5 1 & Λ… 円的廢水和廢渣將通過排洩口流至下一層蒸室 21中,备欽 ' 取、、、;’所有蒸室21内的廢水和廢渣將通過與位於最 中日的蒸室21相通的蒸室排洩管13流入氣水隔離箱12 、、#通過排污管8從櫃體1中排出。清洗完畢後,可以 通過直接向内推動控制手柄 22的方式關閉各蒸室21的排 浪口 16 °為了便於自動控制該活動擋片,該控制手柄可以 在活動擋片處於關閉排洩口 16的狀態下,其前端與蒸室門 M406414Input: ^ Electrical connection The solenoid valve 10 on the output tube 9 of the water inlet control module is electrically connected. Women's clothing is in R ~ as shown in Figure 2 'The cabinet! Each of the four chambers 21 can be separated by a layered plate ^. Each of the layered sheets 14 is provided with a discharge port 16 for cleaning the steam chamber 21. Each of the steam chambers 21 is provided with a set of drain control means, and the drain control = The device includes an active flap mounted at (iv) p16 and a control handle 22 for controlling the active opening or closing (four) port 16. The gas-making water tank 2 has a gas-water isolation box 12, and the gas-water isolation box 12 is provided with a steam chamber discharge tube 13 connected thereto, and the π-end end of the steam chamber discharge tube 13 is located at the lowest position. The bottom plate of the steaming chamber 21 of f is in communication with the steaming chamber 21; the gas-water isolation 12 communicates with the sewage pipe 8 installed in the gas-making water tank 2: the sewage is from the bottom of the cabinet 1& extends outward. One, one shown in the figure, the ejector control device includes guide sleeves on both sides of the longitudinal mounting cylinder, the layered panel 14 being in the guide sleeve; The control handle 22 is mounted on the guide sleeve and extends outwardly through the connecting rod ^33. The control handle 22 can simultaneously control two movable cymbals in the middle _=33, wherein the servant diagram moves the two vents The link mechanism of the port 16 and the movable cymbal. The end of the mechanism is fixedly mounted on the end of the link mechanism 33 at the link position. The θ is rotationally installed at 16 棑 ▲ adjacent to the drain port 16 of the layered slab; the waste water and the slag in each of the steam chambers 21 pass through respective drain ports, and the layered plate 14 is convex upward in the lateral middle position. 'Human, the 12-plate 14 of the word plate has a drainage gradient' and the guide sleeve is installed after the stratified field steamer is completed, and each steaming chamber 21 is cleaned of waste water and waste residue, as shown in Fig. 4b. , q can not listen to 'forward pull control handle 22' control handle 22 will open the cup mechanism to open the active flap 32, so that the drain 16 is exposed, then steam * f 5 1 & Λ ... 円 waste water and waste will Flowing through the drain to the lower steam chamber 21, the waste water and waste in all the steam chambers 21 will flow into the gas through the steam chamber drain pipe 13 communicating with the steam chamber 21 located in the middlemost day. The water isolating tanks 12, # are discharged from the cabinet 1 through the drain pipe 8. After the cleaning is completed, the venting port 16 of each steaming chamber 21 can be closed by directly pushing the control handle 22 inwardly. In order to facilitate automatic control of the movable flap, the control handle can be in the state in which the movable flap is closed at the draining port 16. Next, its front end and steaming chamber door M406414
25的内壁相抵,如此 制手柄22帶動連桿機 修正版修正日期:2011/3/25 ’可以通過關閉蒸室門25自動推動控 構關閉排洩口 16。 、-其該减發生器還包括安裝在該製氣水箱2内的水箱排 5 亥水相排巧管與排$口位於櫃體外的排污管8連通, ~欠:排污g上安裝有排污閥6,該排污間6受控於排污間 =制咨7’該排〉頂控制器7的排污狀態輸出端與微控制器 ’排污狀輸人端電連接,賴;獨㈣器7的排污控制The inner wall of 25 is offset, and the handle 22 is driven to drive the link machine. Correction date: 2011/3/25 ' can be automatically pushed by closing the steaming chamber door 25 to close the drain 16 . The reducer further includes a water tank row installed in the gas tank 2, and the drain pipe is connected to the drain pipe 8 located outside the cabinet, and the drain valve is installed on the drain g. 6, the sewage compartment 6 is controlled by the sewage compartment = system consultation 7 'the row of the top controller 7 of the sewage state output end and the microcontroller 'sewage input terminal electrical connection, Lai; alone (four) 7 sewage control
端,、微控制器的排污信號輸出端電連接,因此,通過該微 控制器可以控制排污閥控制器7,而排污間控制器7也可將 排5間6的狀態回饋給微控制器,以便微控制器啟動相應 的部件。 由於排氣管内的蒸氣遇冷後可能會形成冷凝水,為了 使冷凝水能夠有效排除,該排氣管18可以通過-根冷凝管 3〇與排污管8連通。 本創作所述能源再生蒸櫃的工作原理如下: 接通電源,櫃體I上的控制面板4開始工作,當排污 閥6處於關閉狀態時,排污閥控制器7將關閉信號回饋至 :控制器,同時,水位監測裝置5將反應製氣水箱2中水 、情況的信號發送至微控制器,當製氣水箱2中的水量小 ;叹疋值時,微控制器將打開進水管9上的電磁閥丨〇,供 水裝置將通過進水管9向製氣水箱2内注水,當製氣水箱2 中的水量達到最低水位設定值時,微控制器將通過加熱控 :模組啟動加熱裝置3 ’加熱裝置3進入加熱工作狀態,對 製氣水箱2巾的水加熱製氣。當製氣水箱2⑽水量達到 13 修正版修正日期:2011/3/25 南位設定值後’微控制器將關閉進水管9上的電磁閥1〇, 停止對製II水箱2供水。水位監測裝置5即時檢測製氣水 箱2内的水量,並通過微控制器指令電磁閥1〇進行即時供 水’不斷補償製氣水箱2内蒸發掉的水量 ,如此迴圈往返, 使製ίΐτΜ目2内的水量長期保持在設定量上。當製氣水箱2 内的水里低於最低設定值,微控制器同時會通過加熱控制 模組關閉加熱裝置3’使加熱裝置3停止對蒸氣水箱2内的 水進行加熱製氣。 —在蒸櫃運作時’如製氣水箱2内的排污閥6開啟排污, 排污閥控制ϋ 7會將開啟信號回饋至微控制器,微控制器 同樣會通過加熱㈣模㈣請加齡置3。當⑽排除後, 排>可閥6會重新處於關閉狀態,蒸櫃自動恢復正常工作狀 L加熱裝置3的輸出功率值由操作面板^上的按鍵控制。 „ % ^開蒸至門25 ’將所需蒸製的物品放入蒸室21中,關 閉痛室門25時,蒸氣關n 士 的«,_^==連通/室21與蒸氣管20 丄, 礼聲问於排氣管18内的氣壓時,單 :2:閥Π將開啟使蒸室21向排氣管18内排放蒸氣, 贺、至内〜成相對穩定的溫度和氣壓,利於對物品進行蒸 =品隸完畢打開蒸室門25時,蒸氣闊_閉進入 :尸-ΐΓ蒸t仁刀配到此間蒸室21内的蒸氣將通過洩 排入排氣管18内。在打開蒸室門25的同時,蒸 排氣-I:溫度和氣壓隨蒸室門25的開啟而外浪,此時, 關Γ排,高於該蒸室21,單向排氣閥"將自動 關閉,排崎18㈣錢不會逆返回蒸室心進行㈣。 修正版修正日斯·· 20丨丨/3/25 ,製氣水箱2所產生的蒸氣,無論是否通過蒸氣管2〇進入 乘至21,都將通過洩氣尾管19集令於排氣管“排出進行 回收再生。 如第2圖所示,在櫃體丨内的製氣水箱2和蒸室2丨外 的位置處’及瘵室門25内均可以填充保溫層15進行保溫。 综上所述僅為本創作較佳的實施例,並非用來限定本 創作的實絲®。即凡依本!彳料料利範_内容所作 的等效變化及修飾,皆應屬於本創作的技術範疇。 【圖式簡單說明】 第1圖為本創作的結構示意圖; 第2圖為本創作的局部剖視圖; 第3a圖顯示蒸氣閥的連接結構; 第3b圖為蒸氣閥的局部透視圖; 第4a圖為分層板的結構示意圖; 第4b圖顯示排洩控制裝置的動作原理,其中,實線部 分顯示排洩控制裝置關閉排洩口的狀態,虛線部分示出了° 排沒控制装置打開排洩口的狀態; 第5圖顯示單向排氣閥的工作原理。 【主要元件符號說明】 1 櫃體 2 製氣水箱 3 加熱裝置 M406414 修正版修正日期:2011/3/25 4 控制面板 5 水位監測裝置 6 排污閥 7 排污閥控制器 8 排污管 9 進水管 10 電磁閥 12 氣水隔離箱The discharge signal output end of the microcontroller is electrically connected. Therefore, the blowout valve controller 7 can be controlled by the microcontroller, and the drain controller 7 can also feed back the status of the row 6 to the microcontroller. So that the microcontroller starts the corresponding part. Since the condensed water may form after the steam in the exhaust pipe is cooled, the exhaust pipe 18 may communicate with the drain pipe 8 through the -condensing pipe 3 为了 in order to effectively remove the condensed water. The working principle of the energy regenerative steamer of the present invention is as follows: When the power is turned on, the control panel 4 on the cabinet I starts to work, and when the blowdown valve 6 is in the closed state, the blowdown valve controller 7 feeds back the signal to the controller: At the same time, the water level monitoring device 5 sends a signal of the water and the situation in the reaction gas tank 2 to the microcontroller, when the amount of water in the gas tank 2 is small; when the value is sighed, the microcontroller will open the inlet pipe 9. The solenoid valve 丨〇, the water supply device will inject water into the gas tank 2 through the inlet pipe 9, when the water volume in the gas tank 2 reaches the minimum water level setting value, the microcontroller will pass the heating control: the module starts the heating device 3 ' The heating device 3 enters a heating state, and heats the water of the air tank of the gas-making water tank. When the water volume of the gas tank 2 (10) reaches 13 Correction date: 2011/3/25 After the south set value, the microcontroller will close the solenoid valve 1〇 on the inlet pipe 9 to stop supplying water to the II tank 2. The water level monitoring device 5 immediately detects the amount of water in the gas-making water tank 2, and instantaneously supplies water through the solenoid valve commanded by the microcontroller to constantly compensate for the amount of water evaporated in the gas-making water tank 2, so that the loop is reciprocated, so that the system 2 The amount of water inside is kept at a set amount for a long time. When the water in the gas tank 2 is lower than the minimum set value, the microcontroller simultaneously turns off the heating device 3' by the heating control module to stop the heating device 3 from heating and heating the water in the steam tank 2. - When the steamer is in operation, 'If the blowdown valve 6 in the gas tank 2 opens the blowdown, the blowdown valve control ϋ 7 will feed back the signal to the microcontroller, and the microcontroller will also pass the heating (four) die (4). . When (10) is excluded, the row > valve 6 will be in the closed state again, and the steamer automatically returns to the normal operation. The output power value of the heating device 3 is controlled by the button on the operation panel. „ % ^Open steam to door 25' Put the desired steamed items into the steaming chamber 21, and when the pain chamber door 25 is closed, the steam shuts down the «, _^== connected/chamber 21 and the steam tube 20 丄, When the air pressure is applied to the air pressure in the exhaust pipe 18, the single: 2: the valve will open to cause the steam chamber 21 to discharge the vapor into the exhaust pipe 18, and the inside and the inside are relatively stable temperature and air pressure, which is beneficial to the article. When steaming is completed, when the steaming chamber door 25 is opened, the steam is wide-closed: the vapor in the steaming chamber 21 is discharged into the exhaust pipe 18 through the venting. At the same time as the door 25, the steam-exhaust-I: temperature and air pressure are caused by the opening of the steaming chamber door 25, and at this time, the shut-off row is higher than the steaming chamber 21, and the one-way exhaust valve " will automatically close. The Esaki 18 (four) money will not be reversed to the steam chamber heart (4). The revised version of the correction of the day · 20 丨丨 / 3 / 25, the gas generated by the gas tank 2, whether or not through the steam tube 2 〇 into 21, All will be discharged through the deflated tail pipe 19 to the exhaust pipe for recycling. As shown in Fig. 2, the heat insulating layer 15 can be filled in the gas-storage tank 2 in the cabinet 和 and the position outside the steam chamber 2 and the chamber door 25 for heat preservation. In summary, this is only a preferred embodiment of the present invention and is not intended to limit the present invention. That is, according to this! The equivalent changes and modifications made by the _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic structural view of the creation; Fig. 2 is a partial cross-sectional view of the creation; Fig. 3a is a view showing a connection structure of a steam valve; Fig. 3b is a partial perspective view of a steam valve; FIG. 4b is a schematic view showing the operation principle of the drain control device, wherein the solid line portion shows the state in which the drain control device closes the drain port, and the broken line portion shows the state in which the drain control device opens the drain port; Figure 5 shows the working principle of the one-way exhaust valve. [Main component symbol description] 1 Cabinet 2 Gas tank 3 Heating device M406414 Revision revision date: 2011/3/25 4 Control panel 5 Water level monitoring device 6 Drain valve 7 Drain valve controller 8 Drain pipe 9 Inlet pipe 10 Electromagnetic Valve 12 gas water isolation box
13 蒸室排洩管 14 分層板 15 保溫層 16 排洩口 17 單向排氣閥 18 排氣管 19 洩氣尾管 20 蒸氣管13 Steam chamber drain pipe 14 Layered plate 15 Insulation layer 16 Drainage port 17 One-way exhaust valve 18 Exhaust pipe 19 Bleed tail pipe 20 Steam pipe
21 蒸室 22 控制手柄 23 蒸氣閥 24 連桿 25 蒸室門 26 操作面板 30 冷凝管 32 活動擋片 16 M406414 ' 修正版修正日期:2011/3/25 33 連桿機構 171 限位件 172 開關擋片 231 閥芯 232 閥體 233 進氣口 la 底部21 Steaming chamber 22 Control handle 23 Steam valve 24 Connecting rod 25 Steaming chamber door 26 Operation panel 30 Condenser tube 32 Active stop 16 M406414 ' Revised revision date: 2011/3/25 33 Linkage mechanism 171 Limiter 172 Switch block Piece 231 spool 232 valve body 233 air inlet la bottom
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