JPS6238120A - Boiling type pot - Google Patents
Boiling type potInfo
- Publication number
- JPS6238120A JPS6238120A JP17871985A JP17871985A JPS6238120A JP S6238120 A JPS6238120 A JP S6238120A JP 17871985 A JP17871985 A JP 17871985A JP 17871985 A JP17871985 A JP 17871985A JP S6238120 A JPS6238120 A JP S6238120A
- Authority
- JP
- Japan
- Prior art keywords
- steam
- tank
- water
- boiling
- top cover
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Landscapes
- Thermally Insulated Containers For Foods (AREA)
- Cookers (AREA)
Abstract
(57)【要約】本公報は電子出願前の出願データであるた
め要約のデータは記録されません。(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.
Description
【発明の詳細な説明】
〔発明の技術分野〕
この発明はタンク内に収容した水を沸騰状態にまで加熱
して保温する沸騰式湯沸しポットに関する。DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to a boiling water pot that heats water contained in a tank to a boiling state and keeps it warm.
沸騰式湯沸しポットは沸騰状態にまで加熱した高温の湯
を適宜注出することができるようにしたもので、有底筒
状のタンクに沸騰用ヒータを取付け、このタンクをケー
スに収納シ、タンクの上端の開口部に中栓を装着してタ
ンクを密封し、この中GK通気孔を形成し、またケース
の上端部に上蓋を回動自在に設け、この上蓋内にエアー
Iンプ機構を組込んでなる。そしてタンク内に水を収容
し、これを沸騰用ヒータで沸騰状態にまで加熱して高温
の湯に沸し上げ、この状態でエアーポンプ機構を操作し
、その動作で圧縮空気を中栓の通気孔を通してタンク内
に圧送し、湯の液面を加圧してその湯を注出するもので
ある。A boiling water kettle is a pot that can be heated to a boiling point and poured out as needed.A boiling heater is attached to a cylindrical tank with a bottom, and the tank is housed in a case. An inner plug is attached to the opening at the upper end to seal the tank, forming an inner GK ventilation hole, and a rotatable upper lid is provided at the upper end of the case, and an air pump mechanism is assembled inside this upper lid. It gets crowded. Then, water is stored in the tank and heated to a boiling point with a boiling heater to bring it to a high temperature. In this state, the air pump mechanism is operated and compressed air is passed through the inner stopper. The hot water is forced into the tank through the pores, pressurizes the surface of the hot water, and pours out the hot water.
タンク内は湯の沸騰による蒸気で高圧化し。The pressure inside the tank becomes high with steam from boiling water.
このため上蓋に蒸気逃し路を設け、タンク内の蒸気を中
栓の通気孔からこの蒸気逃し路を通して僅かずつ外部に
流出させ、これによシタンク内の異常高圧化を防止して
いる。For this reason, a steam escape path is provided in the top lid, and the steam inside the tank is allowed to flow out little by little from the vent hole in the inner stopper to the outside through this steam escape path, thereby preventing abnormally high pressure inside the tank.
ところが、タンク内に水を補給する際などに、上蓋を回
動して起立させると、これに伴って蒸が蒸気逃し路を伝
って上蓋の外部に流出し、床面などに滴下してその床面
などを濡らしてしまうという問題があった。However, when the top cover is rotated to stand up when refilling water in the tank, steam flows out of the top cover through the steam escape path, drips onto the floor, etc. There was a problem that the floor surface etc. got wet.
この発明はこのような点に着目してなされたもので、そ
の目的とするところは、蒸気逃し路から蒸気の凝縮水が
不用意に流出して滴下することがないようにした湯沸し
ポットを提供することにある。This invention was made with attention to these points, and its purpose is to provide a water boiling pot that prevents steam condensed water from accidentally flowing out and dripping from the steam escape path. It's about doing.
すなわちこの発明は、湯沸し用のタンクを収納したケー
スの上端部に上蓋を回動自在に枢着し、この上蓋に上記
タンク内の蒸気を外部に流出させる蒸気逃し路を設けて
なるものにおいて、上記蒸気逃し路の先端部を上記上蓋
の枢着部の近傍に臨ませるとともに、この先端部に、上
蓋がほぼ起立する状態に回動して蒸気逃し路内の蒸気の
凝縮水が上蓋の枢着部側に流動した際に。That is, the present invention has a top lid rotatably attached to the upper end of a case housing a water boiling tank, and a steam escape path is provided in the top lid to allow steam in the tank to flow out to the outside. The tip of the steam relief passage is placed near the pivot of the top cover, and the top cover is rotated so that it almost stands up, so that the condensed water of the steam in the steam relief passage is exposed to the pivot of the top cover. When it flows to the wearing side.
その凝縮水を受入れて貯留する受部を設けるようにした
ものである。A receiving portion is provided to receive and store the condensed water.
以下、この発明の一実施例について図面を参照して説明
する。An embodiment of the present invention will be described below with reference to the drawings.
図中1はケースで、このケース1内に有底筒状のタンク
2が収納され、このタンク2の下端側外周に沸騰用ヒー
タ3および保温用ヒータ4が巻き付けられている。タン
ク2の下端面からは注出路5が導出し、この注出路5が
ケース1の外部に配置する注出口6に連通している。In the figure, reference numeral 1 denotes a case, and a bottomed cylindrical tank 2 is housed in the case 1, and a boiling heater 3 and a heat-retaining heater 4 are wound around the outer periphery of the lower end of the tank 2. A spouting passage 5 leads out from the lower end surface of the tank 2, and this spouting passage 5 communicates with a spout 6 disposed outside the case 1.
ケース1の上端部にはヒンソビン7を介して上蓋8が回
動かつ着脱自在に枢着され、この上蓋8は合成樹脂によ
りほぼ逆椀形状に形成され、その上端部に凹部9を、下
端部に基板10を一体的に有している。そしてこの上蓋
8の下端面に基板10と対向して中栓11がねじ12゜
12によシ一体的に取付けられ、この中栓11が/4’
ツキング13を介してタンク2の上端の開口部に気密的
に嵌合し、この嵌合にようその開口部が密封されている
。中栓1ノの上面中央部には、中空円盤状の中継体14
亦取付けられ、この中継体14の周面の一部から接続口
15が一体に突出し、またこの中継体14の内部は中本
全11に形成された通気孔16を通してタンク2内に連
通している。なお、17は転倒時の湯漏出防止用の逆止
弁である。An upper lid 8 is rotatably and removably attached to the upper end of the case 1 via a pin 7. The upper lid 8 is formed of synthetic resin into a substantially inverted bowl shape, and has a recess 9 at its upper end and a recess 9 at its lower end. It has a substrate 10 integrally therein. Then, an inner plug 11 is integrally attached to the lower end surface of the upper lid 8, facing the base plate 10, with screws 12°12, and this inner plug 11 has a diameter of /4'.
It is hermetically fitted into the opening at the upper end of the tank 2 via the fitting 13, and the opening of the holder is sealed by this fitting. At the center of the upper surface of the inner plug 1, a hollow disc-shaped relay body 14 is provided.
A connection port 15 integrally protrudes from a part of the circumferential surface of this relay body 14, and the inside of this relay body 14 communicates with the tank 2 through a ventilation hole 16 formed in the entire booklet 11. There is. In addition, 17 is a check valve for preventing hot water from leaking in the event of a fall.
上蓋8の内部には周知のエアーポンプ機構としてベロー
ズ20が組込まれ、とのベローズ20は下端中央部に吐
出021を有し、この吐出口21が基板10および中継
体14を貫通してその中継体14の内部に突出している
。ベローズ20の上端には可動板22が設けられ、この
可動板22の中央部に吸気孔23が形成され、この吸気
孔23を遊挿してベローズ20の内部中心にシャフト2
4が挿入されている。上蓋8の凹部9には操作体25が
上下動自在に設けられ、この操作体25がスプリング2
6を介して上記シャフト24の上端に連結し、また操作
体25の下端の中央部に、この操作体25の下降に応じ
て上記吸気孔23を気密的に封止する封止鍔27が設け
られている。A bellows 20 is incorporated inside the upper lid 8 as a well-known air pump mechanism, and the bellows 20 has a discharge port 021 at the center of the lower end, and this discharge port 21 penetrates the substrate 10 and the relay body 14 and is connected to the relay body 14. It protrudes into the interior of the body 14. A movable plate 22 is provided at the upper end of the bellows 20 , and an intake hole 23 is formed in the center of the movable plate 22 .
4 has been inserted. An operating body 25 is provided in the recess 9 of the upper lid 8 so as to be movable up and down.
A sealing flange 27 is connected to the upper end of the shaft 24 via the shaft 24 and at the center of the lower end of the operating body 25, and is provided with a sealing collar 27 that airtightly seals the intake hole 23 as the operating body 25 is lowered. It is being
中継体14の内部には、第3図に詳示すように、下面が
開放するキャップ状の遮断弁3oが通気孔16と対向し
て設けられ、この遮断弁30の上面側に、間隔子31に
より常に通気可能な隙間があくように封止弁32が設け
られている。この封止弁32は筒部33と鍔部34とか
らなり、筒部33がベローズ2oの吐出口21内に遊挿
し、鍔部34が吐出口21の周縁に当接するように配置
している。遮断弁3oの土壁中央部には開閉孔35が形
成され、そして遮蔽弁30の内側からねじ36が、開閉
孔35を遊挿し、さらに封止弁32を貫通して上記シャ
フト24の下端面に螺挿され、このねじ36を介して遮
断弁30および封止弁32がシャフト24に対して連結
し、またこのねじ36の頭部の内側に開閉孔35を開閉
する開閉弁37が一体的に固着して設けられている。さ
らに、遮断弁30の上端周縁からは薄肉蛇腹状の伸縮自
在な筒壁38が一体に延出し、この筒壁38が吐出口2
1の周囲を覆うように配置して吐出口21の外周に連結
されている。なお、39はベローズ20の内部に設けら
れた復帰用のスプリングである。Inside the relay body 14, as shown in detail in FIG. A sealing valve 32 is provided so that there is always a gap for ventilation. This sealing valve 32 consists of a cylindrical part 33 and a flange part 34, and is arranged so that the cylindrical part 33 is inserted loosely into the discharge port 21 of the bellows 2o, and the flange part 34 comes into contact with the periphery of the discharge port 21. . An opening/closing hole 35 is formed in the center of the earthen wall of the shutoff valve 3o, and a screw 36 is loosely inserted into the opening/closing hole 35 from the inside of the shutoff valve 30, passes through the sealing valve 32, and connects to the lower end surface of the shaft 24. The shutoff valve 30 and the sealing valve 32 are connected to the shaft 24 through this screw 36, and an on-off valve 37 for opening and closing the on-off hole 35 is integrated inside the head of this screw 36. It is fixedly attached to the Furthermore, a thin bellows-like telescopic cylindrical wall 38 extends integrally from the upper end periphery of the shutoff valve 30, and this cylindrical wall 38 connects to the discharge port 2.
1 and connected to the outer periphery of the discharge port 21. Note that 39 is a return spring provided inside the bellows 20.
しかして、操作体25を抑圧操作して下降させると、封
止鍔27によりベローズ20の吸気孔23が気密的に封
止されるとともに、ベローズ20が圧縮される。また、
シャフト24が下降し、これに応じて封止弁33および
遮断弁30も一体的に下降し、吐出口21が開放される
。そして遮断弁30が通気孔16の周辺の面上に当接し
1通気孔16がこの遮断弁30により気密的に覆われる
。遮断弁30が通気孔16の周辺の面上に描接してこれ
が停止したのちにも、シャフト24が僅かに下降し、こ
れにより開閉弁37が開閉孔35の周縁から離間し、開
閉孔35が開放される。そして、ベローズ20内の圧縮
空気が吐出口21.封止弁32と間隔子31との間の隙
間、開閉孔35および通気孔16を通ってタンク2内に
流入する。操作体25の押圧操作を解除すると、スプリ
ング26.39の弾性力により操作体25が上昇し、ベ
ローズ20が伸長状態に復元し、吸気孔23からベロー
ズ20内に新たに空気が流入し、また吐出口21が封止
弁32により封止され、さらに開閉孔35が開閉弁37
により封止される。このような動作の反復により、タン
ク2内に順次圧縮空゛気を圧送することができるもので
ある。When the operating body 25 is depressed and lowered, the intake hole 23 of the bellows 20 is hermetically sealed by the sealing collar 27, and the bellows 20 is compressed. Also,
The shaft 24 descends, and accordingly, the sealing valve 33 and the cutoff valve 30 also descend together, and the discharge port 21 is opened. Then, the cutoff valve 30 comes into contact with the surface around the vent hole 16, and the first vent hole 16 is covered airtightly by the cutoff valve 30. Even after the shutoff valve 30 comes into contact with the surface around the ventilation hole 16 and stops, the shaft 24 descends slightly, thereby separating the on-off valve 37 from the periphery of the on-off hole 35, so that the on-off hole 35 closes. It will be released. Then, the compressed air inside the bellows 20 is discharged from the discharge port 21. It flows into the tank 2 through the gap between the sealing valve 32 and the spacer 31, the opening/closing hole 35, and the ventilation hole 16. When the pressing operation of the operating body 25 is released, the operating body 25 is raised by the elastic force of the spring 26.39, the bellows 20 is restored to its extended state, new air flows into the bellows 20 from the intake hole 23, and The discharge port 21 is sealed by a sealing valve 32, and the opening/closing hole 35 is sealed by an opening/closing valve 37.
sealed by. By repeating such operations, compressed air can be successively pumped into the tank 2.
上蓋8には蒸気パイプ40が設けられ、この蒸気パイプ
40は第4図に示すように金属材料、例えばステンレス
材により、それぞれ断面が円弧状で全体が槍形状をなし
、かつ側縁に鍔41゜41を一体に有する一対の分割品
42.42を形成し、これら分割品42.42の各鍔4
ノ。The upper lid 8 is provided with a steam pipe 40, and as shown in FIG. 4, the steam pipe 40 is made of a metal material, such as stainless steel, and has an arcuate cross section and a spear shape as a whole, and has a collar 41 on the side edge. A pair of divided parts 42.42 integrally having ゜41 are formed, and each flange 4 of these divided parts 42.42 is
of.
41同士を互いに突合すことによシ構成されている。こ
の蒸気・ぐイブ40の上部側には上蓋8の基板10が配
置し、また下部側には上蓋8に取付けられた固定板44
が配置し、これら基板10および固定板44には蒸気パ
イプ40の外周曲面形状に対応する断面円弧状の凹部4
5および鍔41.41の突合わせ部分の形状に対応する
溝46が形成されている。そして基板IOの凹部45が
蒸気・辛イブ40の上周面に密着するように嵌合すると
ともに、その部分の鍔41゜41が溝46に緊密に嵌合
し、同じく固定板44の凹部45が蒸気ノイズ40の下
周面に密着するように嵌合するとともK、その部分の鍔
41゜41が溝46に緊密に嵌合し、これによυ分割品
42,4;jの両者が強固に結合し、一体的な蒸気パイ
プ40として組立もれている。そしてこの蒸気パイf4
oは基端部が流入口47として中継体14の接続口15
に接続し、先端部が流出口48として上蓋8の枢着部の
近傍に臨み、この流出口48に例えばシリコンゴム或い
はグラスチックなどで成形された筒状の水受部材49が
接続し、この水受部材49を介して流出口48が上蓋8
の壁面の蒸気口50に接続し、これにより通気孔16を
上蓋8の外部に連通させる蒸気逃し路51が構成されて
いる。そして上記水受部材49の周壁の一部に袋状の受
部52が一体に形成されている。また、蒸気パイf4o
の途中に分岐路53が形成され、この分岐路53の端面
に沸騰制御用サーモセンサー54が設けられている。41 are butted against each other. The base plate 10 of the upper lid 8 is placed on the upper side of the steam guide 40, and the fixing plate 44 attached to the upper lid 8 is placed on the lower side.
The substrate 10 and the fixing plate 44 are provided with a recess 4 having an arcuate cross section corresponding to the outer circumferential curved shape of the steam pipe 40.
A groove 46 is formed corresponding to the shape of the abutting portion of the collar 5 and the collar 41.41. Then, the recess 45 of the board IO is tightly fitted to the upper circumferential surface of the steam/hard tube 40, and the collar 41° 41 of that part is tightly fitted to the groove 46, and the recess 45 of the fixed plate 44 is also fitted tightly. When K is fitted tightly to the lower peripheral surface of the steam noise 40, the collar 41° 41 of that part is tightly fitted into the groove 46, and thereby both the υ divided parts 42, 4; It is firmly connected and assembled as an integral steam pipe 40. And this steam pie f4
o, the base end serves as the inlet 47 and the connection port 15 of the relay body 14
The distal end faces the vicinity of the pivot point of the upper lid 8 as an outlet 48, and a cylindrical water receiving member 49 formed of, for example, silicone rubber or plastic is connected to this outlet 48. The outflow port 48 is connected to the upper lid 8 via the water receiving member 49.
A steam escape path 51 is connected to the steam port 50 on the wall surface of the top lid 8, thereby communicating the ventilation hole 16 with the outside of the top cover 8. A bag-shaped receiving portion 52 is integrally formed in a part of the peripheral wall of the water receiving member 49. Also, steam pie f4o
A branch path 53 is formed in the middle, and a boiling control thermosensor 54 is provided on the end face of this branch path 53.
一方、タンク2の外周中間部には湯温感知用サーモセン
サー55および異常温度感知用IJ ミツター56が、
さらにタンク2の外底部には保温制御用サーモセンサー
57がそれぞれ設けられている。なお、58は上蓋8を
ケースIに対して掛止したロック機構、59がその解除
用の操作ブタン、また6Qはプラグ受である。On the other hand, in the middle of the outer circumference of the tank 2, a thermosensor 55 for sensing hot water temperature and an IJ meter 56 for sensing abnormal temperature are installed.
Further, thermosensors 57 for heat retention control are provided at the outer bottom of the tank 2, respectively. Note that 58 is a locking mechanism for locking the top cover 8 to the case I, 59 is an operation button for releasing the locking mechanism, and 6Q is a plug receiver.
しかして、ロック機構58を外し、上蓋8をヒンジピン
7を支点に上方に回動すると、上蓋8と一体的な中栓1
1がタンク2の上端の開口部から離脱し、その開口部が
開放されるからこの状態でタンク2内に水を収容し、こ
ののち上蓋8を再び閉じ、図示しない沸騰ボタンを操作
する。これに応じ沸騰用ヒータ3および保温用ヒータ4
が通電され、タンク2内の水が加熱され、この水が沸騰
状態の湯に沸き上る。そしてこの湯の蒸気が通気孔16
から蒸気逃し路51を通電、蒸気口50から僅かずつ外
部に流出し、したがってタンク2内の異常高圧化が防止
され、またその蒸気の一部が分岐路53に順次流入し、
これに基づいて沸騰制御用サーモセンサー54がタンク
2内の湯の沸騰状態を感知し、この感知に応じて沸騰用
ヒータ3の通電が切れ、保温用ヒータ4のみの通電に切
換わシ、以後保温制御用サーモセンサー57によシ保温
ヒータ4の通電が制御され、タンク2内の湯が沸騰状態
に近い高温度に保温される。When the locking mechanism 58 is removed and the upper lid 8 is rotated upward about the hinge pin 7, the inner plug 1 integrated with the upper lid 8
1 is removed from the opening at the upper end of the tank 2, and the opening is opened, so water is stored in the tank 2 in this state, and then the top lid 8 is closed again and a boiling button (not shown) is operated. Accordingly, boiling heater 3 and heat retention heater 4
is energized, the water in the tank 2 is heated, and the water is brought to a boiling point. The steam from this hot water flows through the vent hole 16.
The steam is energized through the steam escape path 51, and the steam flows out from the steam port 50 little by little, thereby preventing abnormally high pressure in the tank 2, and a portion of the steam sequentially flows into the branch path 53.
Based on this, the boiling control thermosensor 54 detects the boiling state of the water in the tank 2, and in response to this detection, the boiling heater 3 is de-energized, and only the heat-retaining heater 4 is energized. The heat retention control thermosensor 57 controls the energization of the heat retention heater 4, and the hot water in the tank 2 is kept at a high temperature close to a boiling state.
ここで、操作体25を抑圧操作すると、前述したように
、遮断弁30が通気孔16の周辺の面上に当接し、した
がって通気孔16と蒸気逃し路51との連通状態が遮断
され、この状態でベローズ20内の圧縮突気が夕/り2
内に送シ込まれ、湯の液面が加圧され、これに伴いその
湯が注出路5を通して注出口6から注出される。Here, when the operating body 25 is operated to suppress, the cutoff valve 30 comes into contact with the surface around the vent hole 16, thus cutting off the communication state between the vent hole 16 and the steam release path 51, and this In this state, the compressed gust inside the bellows 20 is
The liquid level of the hot water is pressurized, and accordingly, the hot water is poured out from the spout 6 through the spout passage 5.
このようにしてタンク2内の高温の湯を適宜適量ずつ取
出すことができる。In this way, the high temperature hot water in the tank 2 can be taken out in appropriate amounts at a time.
また、上述の沸騰?タンを再び操作すると、上述の通電
沸騰制御用サーモセンサー54を介して再び沸騰用ヒー
タ3が通電され、タンク2内の湯が一時的に沸騰状態に
移行するから、この状態のもとて操作体25を操作すれ
ば、その沸騰状態の湯を取出すことができる。Also, the boil mentioned above? When the tank is operated again, the boiling heater 3 is energized again via the above-mentioned energization boiling control thermosensor 54, and the hot water in the tank 2 is temporarily brought to a boiling state. By operating the body 25, the boiling water can be taken out.
このような状態のもとで、タンク2内への水の補給など
のために、第2図中に鎖線で示すように、上蓋8をヒン
ノピン7を支点に上方に回動してほぼ起立させると、こ
れに伴い蒸気逃し端部には袋状の受部52が設けられて
お)、このためその凝縮水はこの受部52内に流入して
貯留され、したがって蒸気逃し路51から凝縮水が滴下
して床面などを濡すような不都合を招くことがない。Under such conditions, in order to replenish water into the tank 2, etc., the top cover 8 is rotated upward about the hinge pin 7 to almost stand up as shown by the chain line in FIG. Accordingly, a bag-shaped receiving part 52 is provided at the steam escaping end), so that the condensed water flows into this receiving part 52 and is stored. This prevents the inconvenience of dripping and getting the floor wet.
彦お、上記実施例においては、蒸気パイプ40に水受部
材49を接続し、この水受部材400周壁の一部に凝縮
水の収容が可能な受部を一体的に形成するようにしても
何ら差し支えなく、要は上蓋の枢着部の近傍に臨む蒸気
逃し路の先端部に、上蓋がほぼ起立する状態に回動した
際K、蒸気逃し路内の凝縮水を受入れて貯留することが
可能な受部を設けるようにすればよいものである。Hiko, in the above embodiment, the water receiving member 49 is connected to the steam pipe 40, and a receiving portion capable of storing condensed water is integrally formed in a part of the circumferential wall of this water receiving member 400. There is no problem; the point is that when the top cover is rotated to a state where it is almost upright, the condensed water in the steam relief path can be received and stored at the tip of the steam relief path facing near the pivot point of the top cover. What is necessary is to provide a possible receiving portion.
以上説明したようにこの発明によれば、蒸気逃し路の先
端部Kllll縮収容が可能な受部を設けたから、上蓋
を回動してほぼ起立させた際に、蒸気逃し路内に残留し
ている凝縮水をその受部に流入させて貯留することがで
き、したがって蒸気逃し路から凝縮水が滴下して床面な
どを濡らすような不都合がなく、使い勝手が向上すると
いう効果を奏する。As explained above, according to the present invention, since the receiving part is provided that can compress and accommodate the tip of the steam escape passage, when the top cover is rotated to almost stand up, no residue remains in the steam escape passage. The condensed water can flow into the receiving part and be stored, so there is no inconvenience such as the condensed water dripping from the steam escape passage and wetting the floor surface, etc., and the usability is improved.
第1図はこの発明の一実施例を示す全体の断面図、第2
図は同じく要部の拡大断面図、第3図は同じくベローズ
の吐出口部分の拡大断面図、第4図は同じく蒸気逃し路
の拡大断面図である。
1・・・ケース、2・・・タンク、8・・・上蓋、51
・・・蒸気逃し路、52・・・受部。
出願人代理人 弁理士 鈴 江 武 彦2/−m−
第2図
第 3iIl
第4図FIG. 1 is an overall sectional view showing one embodiment of the present invention, and FIG.
3 is an enlarged sectional view of the discharge port portion of the bellows, and FIG. 4 is an enlarged sectional view of the steam escape passage. 1...Case, 2...Tank, 8...Top lid, 51
...Steam escape path, 52...Receiving section. Applicant's agent Patent attorney Takehiko Suzue 2/-m- Figure 2 Figure 3iIl Figure 4
Claims (1)
動自在に枢着し、この上蓋に上記タンク内の蒸気を外部
に流出させる蒸気逃し路を設けてなるものにおいて、上
記蒸気逃し路の先端部を上記上蓋の枢着部の近傍に臨ま
せるとともに、この先端部に、上蓋がほぼ起立する状態
に回動して蒸気逃し路内の蒸気の凝縮水が上蓋の枢着部
側に流動した際に、その凝縮水を受入れて貯留する受部
を設けたことを特徴とする沸騰式湯沸しポット。A top lid is rotatably attached to the upper end of a case housing a water boiling tank, and the top lid is provided with a steam escape passage for allowing steam in the tank to flow out to the outside. The tip is placed near the pivot joint of the top cover, and the top cover is rotated to a state where it almost stands up, allowing the condensed water of the steam in the steam release passage to flow toward the pivot of the top cover. A boiling water pot characterized by having a receiving part that receives and stores the condensed water when the water is boiled.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP17871985A JPS6238120A (en) | 1985-08-14 | 1985-08-14 | Boiling type pot |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP17871985A JPS6238120A (en) | 1985-08-14 | 1985-08-14 | Boiling type pot |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS6238120A true JPS6238120A (en) | 1987-02-19 |
| JPH0455046B2 JPH0455046B2 (en) | 1992-09-02 |
Family
ID=16053367
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP17871985A Granted JPS6238120A (en) | 1985-08-14 | 1985-08-14 | Boiling type pot |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS6238120A (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2007275165A (en) * | 2006-04-04 | 2007-10-25 | Tiger Vacuum Bottle Co Ltd | Heat insulation structure of lid of electric hot water storage container |
Citations (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS60119336U (en) * | 1984-01-19 | 1985-08-12 | タイガー魔法瓶株式会社 | Pump type liquid container |
| JPS6123952U (en) * | 1984-07-18 | 1986-02-13 | 東芝熱器具株式会社 | electric pot |
| JPS6192638A (en) * | 1985-10-26 | 1986-05-10 | 東芝熱器具株式会社 | Pot |
| JPS61174534U (en) * | 1985-04-20 | 1986-10-30 | ||
| JPS61180625U (en) * | 1985-04-30 | 1986-11-11 | ||
| JPS62342U (en) * | 1985-06-17 | 1987-01-06 |
Family Cites Families (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CA1097449A (en) * | 1975-08-01 | 1981-03-10 | Karl F. Schimmel | Pigment grinding vehicle |
| JPS5898631A (en) * | 1981-12-08 | 1983-06-11 | Mazda Motor Corp | Fuel controlling device of engine |
-
1985
- 1985-08-14 JP JP17871985A patent/JPS6238120A/en active Granted
Patent Citations (6)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS60119336U (en) * | 1984-01-19 | 1985-08-12 | タイガー魔法瓶株式会社 | Pump type liquid container |
| JPS6123952U (en) * | 1984-07-18 | 1986-02-13 | 東芝熱器具株式会社 | electric pot |
| JPS61174534U (en) * | 1985-04-20 | 1986-10-30 | ||
| JPS61180625U (en) * | 1985-04-30 | 1986-11-11 | ||
| JPS62342U (en) * | 1985-06-17 | 1987-01-06 | ||
| JPS6192638A (en) * | 1985-10-26 | 1986-05-10 | 東芝熱器具株式会社 | Pot |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JP2007275165A (en) * | 2006-04-04 | 2007-10-25 | Tiger Vacuum Bottle Co Ltd | Heat insulation structure of lid of electric hot water storage container |
Also Published As
| Publication number | Publication date |
|---|---|
| JPH0455046B2 (en) | 1992-09-02 |
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