JP2020130459A - Liquid heating container - Google Patents

Abstract

To hardly cause steam accumulation in a steam collection unit when a liquid heating container with a handle where the steam collection unit is incorporated tips over, and to utilize a steam passage inside the steam collection unit (a steam processing container) as a liquid accumulation space without waste.SOLUTION: A liquid heating container 200 related to the invention includes: a container body 310 having a spout part 335B provided on a front side and a heating source 322; a lid body 250 detachably attached to the container body; a handle 400 attached on a rear side of the container body; and a steam processing container 254 which has a first opening BP communicating an inner space of the container body, a second opening Am, As formed in a position different from the first opening, and a passage Pm extending from the first opening to the second opening and is provided inside the lid body. The passage is formed in each of regions on both right and left sides of the steam processing container.SELECTED DRAWING: Figure 16

Description

The present invention relates to, for example, a liquid heating container such as an electric kettle or an electric kettle.

In the past, "liquid heating having a container body, a spout, a heating means for heating the liquid in the container body, a lid provided above the container body, and a handle provided on the opposite side of the spout. The lid of the container has a steam recovery unit that recovers steam generated in the container body, and the steam recovery unit has a steam introduction port on the handle side and a drain hole on the spout side. (For example, Japanese Patent Application Laid-Open No. 2014) has been proposed, which comprises a liquid heating container having a plurality of detour passage walls inside, and the detour passage wall is inclined toward the spout side. −000228, etc.).

Japanese Unexamined Patent Publication No. 2014-000228

By the way, since the liquid heating container as described above has a center of gravity on the handle side, when such a liquid heating container falls over, the liquid heating container has a handle when viewed from the top surface side as shown in FIG. Is often located diagonally to the lower right side or diagonally to the lower left side. If a relatively large amount of the heated liquid has entered the steam recovery unit in such a state, the vapor generated from the heated liquid may not be able to escape from the outlet hole and may form a vapor pool to increase the pressure. Further, in the liquid heating container as described above, as shown in FIG. 17, there is a passage that cannot be used as a liquid storage space when the liquid heating container is in a fallen state. This also occurs when the handle is located diagonally to the lower left side.

An object of the present invention is that when the above-mentioned liquid heating container falls down, it is possible to make it difficult for steam to accumulate in the steam recovery unit (steam processing container), and the steam passage in the steam recovery unit is a liquid storage space. It is to be able to fully utilize it.

The liquid heating container according to the present invention
A container body having a spout portion provided on the front side and a heating source,
A lid that can be attached to and detached from the container body,
A handle attached to the rear side of the container body and
It has a first opening communicating with the internal space of the container body, a second opening formed at a position different from the first opening, and a passage extending from the first opening to the second opening, and the lid body. Equipped with a steam processing container installed in the
The passage is formed in each of the left and right side regions of the steam processing container.

According to the above configuration, in the steam processing container, passages extending from the first opening to the second opening are formed in each of the left and right side regions. Therefore, when the liquid heating container falls over and the heated liquid in the liquid container infiltrates into the steam processing container, for example, when the liquid level does not reach the second opening, either the left or right passage is opened. Since it leads to the second opening (that is, when the handle of the liquid heating container is located diagonally to the lower right side when viewed from the top surface side, the passage on the right side leads to the second opening, and the handle (The passage on the left side leads to the second opening when it is located diagonally to the lower left side), steam can escape from the second opening from the heated liquid. Therefore, even when the liquid heating container falls and becomes any of the above-mentioned states, it is possible to prevent a pressure-increasing region from being generated in the steam processing container. Further, when the liquid heating container falls over and the heated liquid in the liquid container infiltrates into the vapor treatment container, the left and right passages can be used as the liquid storage space. Therefore, in this heated liquid container, the vapor passage in the vapor treatment container can be sufficiently utilized as a liquid storage space.

As described above, this heated liquid container can make it difficult for vapor to accumulate in the vapor treatment container when it falls over, and the vapor passage in the vapor treatment container can be sufficiently utilized as a liquid storage space. Can be done.

In the present invention
The steam processing container has a bottom wall portion and an outer wall portion extending upward from the edge of the bottom wall portion.
It is preferable that each of the passages includes an outer passage portion passing through a region in the vicinity of the outer wall portion.

According to the above configuration, when the liquid heating container falls over and the heated liquid in the liquid container infiltrates into the vapor treatment container, the passage located under the vapor treatment container can be easily used as the liquid storage space. be able to. Therefore, it is possible to stabilize the posture when the heated liquid container falls.

In the present invention
It is preferable that each of the passages includes an inner passage portion passing through the central region of the steam treatment vessel.

According to the above configuration, when the passage in the steam processing container is branched, the heated liquid in the liquid heating container falls and the heated liquid in the liquid container infiltrates into the steam processing container. It can be stored in multiple areas in stages. Therefore, in this heated liquid container, the passage in the vapor treatment container can be easily effectively used as a liquid storage space.

It is external perspective view of the kettle body of the electric kettle which concerns on embodiment of this invention. It is a front view of the kettle main body of the electric kettle which concerns on embodiment of this invention. FIG. 2 is a cross-sectional view taken along the line II of FIG. It is an enlarged view of the part A of FIG. It is a top view of the main body member which comprises the steam processing unit which comprises the electric kettle which concerns on embodiment of this invention. The upper end surface of the lower steam passage forming rib shown in this figure, which is painted in black, is the surface that abuts on the lower end surface of the upper steam passage forming rib formed on the cover member. Further, in this figure, the upper side corresponds to the right side of the steam treatment unit, the lower side corresponds to the left side of the steam treatment unit, the left side corresponds to the front side of the steam treatment unit, and the right side corresponds to the rear side of the steam treatment unit. .. It is a back view of the cover member which comprises the steam processing unit which comprises the electric kettle which concerns on embodiment of this invention. Of the lower end surfaces of the upper steam passage forming ribs shown in this figure, the surfaces painted in black are surfaces that come into contact with the upper end surfaces of the lower steam passage forming ribs formed on the main body member. Further, in this figure, the upper side corresponds to the left side of the steam treatment unit, the lower side corresponds to the right side of the steam treatment unit, the left side corresponds to the front side of the steam treatment unit, and the right side corresponds to the rear side of the steam treatment unit. .. It is a bottom view of the main body member of the steam processing unit which constitutes the electric kettle which concerns on embodiment of this invention. It is a side view of the steam processing unit which comprises the electric kettle which concerns on embodiment of this invention. FIG. 7 is a cross-sectional view taken along the line II of FIG. FIG. 8 is a sectional view taken along line II-II of FIG. FIG. 8 is a sectional view taken along line II-II of FIG. 8 showing a steam flow. In this figure, normal arrows indicate the flow of steam through the steam passage, white arrows indicate the flow of steam through the lower opening of the steam passage forming rib, and black-filled arrows indicate the steam passage forming rib. It shows the flow of steam through the upper opening of. It is sectional drawing when the steam processing unit which concerns on embodiment of this invention is cut by the line III-III shown in FIG. It is sectional drawing when the steam processing unit which concerns on embodiment of this invention is cut by the IV-IV line shown in FIG. It is sectional drawing when the steam processing unit which concerns on embodiment of this invention is cut by the VV line shown in FIG. It is sectional drawing when the steam processing unit which concerns on embodiment of this invention is cut by the VI-VI line shown in FIG. The liquid level in the steam treatment unit when the kettle body of the electric kettle according to the embodiment of the present invention has fallen and the liquid in the liquid container has entered the steam treatment unit (indicated by a broken line in this figure). It is a figure which shows (.). The figure which shows the liquid level (indicated by a broken line in this figure) in a vapor processing unit when the kettle body of the conventional electric kettle has fallen and the liquid in a liquid container has infiltrated into the vapor processing unit. is there.

<Structure of an electric kettle according to an embodiment of the present invention>
The electric kettle 100 according to the embodiment of the present invention is mainly composed of a kettle main body 200 (see FIGS. 1 and 2) and a power supply stand (not shown). The kettle body 200 is detachably mounted on the power supply stand. The user of the electric kettle 100 can place the kettle main body 200 on the power supply stand when he / she wants to boil hot water, and can remove the kettle main body 200 from the power supply stand when using hot water. As shown in FIGS. 1 to 3, the kettle main body 200 is mainly composed of a main body unit 300 and a lid unit 250. The lid unit 250 is detachably attached to the main body unit 300. When the user of the electric kettle 100 wants to put water or the like for boiling water into the liquid container 321 (see FIG. 3) in the electric kettle, the lock lever mechanism 255 (described later) is released and the lid is removed from the main body unit 300. The unit 250 is removed, and the lid unit 250 is attached to the main body unit 300 before boiling water. Hereinafter, the main body unit 300, the lid unit 250, and the power supply stand will be described in detail.

1. 1. Main body unit As shown in FIGS. 1 to 3, the main body unit 300 is mainly composed of a container main body 310 and a handle 400. Hereinafter, the container body 310 and the handle 400 will be described in detail.

(1) Container main body As shown in FIG. 3, the container main body 310 is mainly composed of a container unit 320, an exterior body 330, an electrical equipment unit 340, and an overtemperature prevention device 350. Hereinafter, these components will be described in detail.

(1-1) Container Unit As shown in FIG. 3, the container unit 320 is mainly composed of a liquid container 321, a print heater 322, and a support metal fitting (not shown).

As shown in FIG. 3, the liquid container 321 is formed of a side wall portion 321A, a bottom wall portion 321B, and a flange portion 321C. The side wall portion 321A is a cylindrical portion made of stainless steel. The bottom wall portion 321B is a stainless steel disk portion. The flange portion 321C is a torus and extends outward from the upper end of the side wall portion 321A as shown in FIG. Further, the inner peripheral surface of the liquid container 321 is coated with a corrosion-resistant resin (not shown) such as a fluororesin.

The print heater 322 is mainly composed of a heating wire (not shown) and an insulating coating layer (not shown), and is in contact with the lower side surface of the bottom wall portion 321B of the liquid container 321 as shown in FIG. It is fixed to the bottom wall portion 321B so as to be used. The heating wire is printed on the insulator layer provided on the lower surface side of the bottom wall portion 321B of the liquid container 321 so as to avoid the support metal fittings. The heating wire is covered with an insulating coating layer except for the terminal connection portion (not shown), and the connection terminal (not shown) of the electrical unit 340 is in contact with the terminal connection portion.

The support metal fittings are for attaching the electrical unit 340 and the overheat prevention device 350 to the bottom wall portion 321B of the liquid container 321 and fixing the liquid container 321 to the bottom wall member 333 (described later) of the exterior body 330. It extends downward from a plurality of locations of the bottom wall portion 321B of the liquid container 321.

(1-2) Exterior body The exterior body 330 is composed of a side wall member 331, a bottom wall member 333, and a shoulder member 335, as shown in FIG.

The side wall member 331 is a cylindrical metal member and serves as a part of the exterior body of the main body unit 300. A notch (not shown) for receiving the handle 400 is formed on the upper end side of the side wall member 331.

The bottom wall member 333 is a resin member having a substantially circular bowl shape, and covers the bottom side of the container body 310 as shown in FIGS. 1 to 3.

As shown in FIGS. 3 and 4, the shoulder member 335 is a substantially cylindrical resin member located above the liquid container 321 and connected via the flange portion 321C of the liquid container 321. As shown in FIG. 4, mainly the main body portion 335A, the liquid injection port portion 335B, the flange portion (not shown), the flange receiving portion 335D, the eaves portion 335E, the first upper screw receiving portion 335F, and the first lower side. It is formed from a screw receiving portion 335G and a block portion 335H. The main body portion 335A is a resin molded body having a cylindrical shape. The main body 335A is formed with a claw accommodating space capable of accommodating the claw portion (not shown) of the lock lever 255A of the lock lever mechanism 255 (see FIG. 1) described later. Then, in a state where the lid unit 250 is attached to the main body unit 300, the claw portion is accommodated in this claw accommodating space. The liquid injection port portion 335B is a portion for flowing the liquid flowing from the liquid container 321 in one direction, and is arranged on the front side of the shoulder member 335. The flange portion extends outward from the upper end of the main body portion 335A and then extends downward. The flange receiving portion 335D is an annular portion extending inward from the lower end of the main body portion 335A as shown in FIG. 4, and is a flange portion of the liquid container 321 via the annular packing PK as shown in FIG. Received 321C. As shown in FIG. 4, the eaves portion 335E is a portion formed on the back side of the shoulder member 335, that is, on the opposite side of the liquid injection port portion 335B, and is mainly formed from the eaves portion and the side wall portion. The eaves portion is a curved wall that bulges upward, is located above the flange portion, and extends outward. The side wall portion extends downward from both ends of the eaves portion and extends outward from the rear end of the flange portion. A pair of first upper screw receiving portions 335F are formed inside the eaves portion 335E. A first screw hole is formed in the first upper screw receiving portion 335F. This first screw hole is a hole for passing a screw BS (see FIG. 4) and extends along the depth direction (front-back direction). A pair of first lower screw receiving portions 335G are formed on the lower back side of the main body portion 335A. Then, as shown in FIG. 4, a second screw hole is formed in the first lower screw receiving portion 335G. The second screw hole is a through hole for passing the screw BS (see FIG. 4) and extends along the width direction (left-right direction). The block portion 335H is a substantially square plate-shaped portion, and a pair of left and right through holes are formed along the front-rear direction. Further, slide rail portions are formed on both side surfaces of the block portion 335H.

(1-3) Electrical unit As shown in FIG. 3, the electrical unit 340 mainly includes a support base (not shown), a metal plate for forming an electric circuit (not shown), and a connection terminal portion for connecting a power supply stand. It is composed of (not shown), a pair of bimetal type thermostats (not shown), and a power supply stand connection boss ME.

The electrical unit 340 is fixed to the support base via the support metal fittings. An electric circuit is formed on the support base by a metal plate for forming an electric circuit. In this electric circuit, a terminal portion for connecting a power supply stand and a bimetal type thermostat portion are incorporated. That is, when the kettle main body 200 is removed from the power supply stand or the bimetal type thermostat portion is opened, this electric circuit is opened.

The bimetal type thermostat portion is for preventing empty heating, and is mainly composed of a contact (not shown), a contact opening mechanism (not shown), and a bimetal (not shown). Both of the bimetal type thermostat portions are arranged near the outer periphery of the substantially central portion. Both of the bimetals are arranged via an insulating coating layer on a heating wire near the outer periphery of a substantially central portion. Further, the bimetal is arranged so as to be in contact with the print heater 322 at room temperature. The contact opening mechanism is a lever mechanism. In this contact opening mechanism, the tip of the lever (not shown) is usually located directly under the contact holding member (not shown), and when the bimetal is heated to a temperature higher than the specified temperature, the bimetal is deformed. As a result, the tip portion of the lever is pushed downward, and as a result, the contact holding member is pushed downward by the tip portion of the lever to open the contact.

The power supply stand connection boss ME is detachably fitted into the boss receiving portion of the power supply stand. When the power supply stand connection boss ME is fitted into the boss receiving portion of the power supply stand, it is arranged in the two power supply stand connection connection terminals arranged in the power supply stand connection boss ME and the boss receiving portion of the power supply stand. The two connection terminals are connected to each other, and as a result, a power supply circuit is formed. That is, in such a case, if the power supply stand is connected to an external power source, the electric circuit inside the kettle main body 200 can be energized, that is, the print heater 322 can be heated.

(1-4) Overheat Prevention Device The overtemperature prevention device 350 is mainly composed of a main body member (not shown), a one-shot thermostat (not shown), and a coil spring (not shown). There is.

The main body member is a resin molded product, and houses the one-shot type thermostat and the coil spring so that the one-shot type thermostat is urged upward by the coil spring. Further, a heat-sensitive portion (not shown) is fixed to the central portion of the upper surface of the one-shot type thermostat in the longitudinal direction so as to project upward. That is, this heat-sensitive portion is pressed against the heating wire of the print heater by the urging force of the coil spring via the insulating coating layer. Therefore, even if the bottom wall portion 321B of the liquid container 321 is deformed by the heating of the print heater, the heat-sensitive portion can always come into contact with the insulating coating layer on the heating wire of the print heater 322.

(2) Handle The handle 400 is gripped by the user when the user carries the kettle main body 200, and is arranged behind the main body unit 300 as shown in FIGS. 1 and 3. There is. As shown in FIG. 3, the handle 400 is mainly composed of an exterior body 410, a power switch mechanism 420, and an intermediate steam passage PVM.

As shown in FIG. 3, the exterior body 410 is a substantially hook-shaped (inverted L-shaped) tubular body in a side view, and is composed of a main body member 411 and a cover member 412. The lower end of the hanging portion of the exterior body 410 is a free end, and the end portion opposite to the hanging portion of the beam portion (that is, the end on the root side) is the side wall member 331 and the shoulder of the container body 310. It is connected on the back side of the member 335. As shown in FIG. 3, the beam portion of the exterior body 410 faces the lid unit 250 in a state where the lid unit 250 is mounted on the main body unit 300. A power switch mechanism 420 is disposed inside the beam portion of the exterior body 410, and an intermediate steam passage PVM is formed. Further, as shown in FIG. 3, an opening AP (see FIG. 4) for exposing the power button 421 is formed on the upper side of the beam portion of the exterior body 410.

As shown in FIG. 4, the power switch mechanism 420 mainly includes a power button 421, a lever-type lift mechanism 422, a leaf spring portion (not shown), a movable contact (not shown), and a fixed contact (not shown). ), Push rod (not shown), bimetal 424, accommodating member 425, compartment packing 427 and neon lamp 426. The power switch mechanism 420 is connected to the electrical unit 340 and the print heater 322 of the main unit 300 via an electric wire, and constitutes one electric circuit. The power button 421 is a transparent cylindrical body that is pivotally supported at the upper end of the accommodating member 425 so as to be able to swing in the front-rear direction, and protrudes from the opening AP of the exterior body 410 as shown in FIG. There is. Further, as shown in FIG. 4, the power button 421 is pivotally supported at the upper end of the accommodating member 425 so that the front end thereof is located directly above the accommodating member 425 and the rear end is located behind the accommodating member 425. ing. The power button 421 is tilted toward the tip end side (opposite side of the container body side) of the handle 400 regardless of whether the lever type lift mechanism 422 is in the on state or the off state. Then, the power button 421 is engaged with the arm portion 422a of the lever type lift mechanism 422 as shown in FIG. In the lever type lift mechanism 422, when the arm portion 422a is moved forward, the tip portion of the lever body (not shown) rotates downward about the fulcrum (not shown), and the arm portion 422a moves backward. When it is made to move, the tip of the lever body rotates upward around the fulcrum. The leaf spring portion is connected to the tip end portion of the lever body. The movable contact is connected to the lever body via a leaf spring portion. The fixed contact is fixedly arranged at a position facing the movable contact. The push rod is inserted into a through hole formed in the bottom plate of the lever type lift mechanism 422. The through hole is formed directly below the lever body. Also, the length of this through hole is shorter than that of the push rod. The bimetal 424 is arranged so as to face the push rod on the opposite side of the bottom plate (not shown) of the lever type lift mechanism 422 on the side where the lever body is arranged. Then, when the bimetal 424 reaches a predetermined temperature, the bimetal 424 is deformed so as to warp upward. In the embodiment of the present invention, the specified temperature of this bimetal is about 100 ° C. The accommodating member 425 accommodates a lever-type lift mechanism 422, a fixed contact, a movable contact, a leaf spring portion, a push rod, a bimetal, and a partition packing 427. The accommodating member 425 is partitioned into an exposed space and a mechanism accommodating space by a partition packing 427. The exposed space communicates with the intermediate steam passage PVM, and the mechanism accommodation space is isolated from the intermediate steam passage PVM. In the present embodiment, the bimetal 424 is arranged in the exposed space, and the lever type lift mechanism 422, the fixed contact, the movable contact, and the leaf spring portion are arranged in the contact forming space. That is, when the water vapor passes through the intermediate steam passage PVM, the bimetal 424 is exposed to the water vapor, but the lever type lift mechanism 422, the fixed contact, the movable contact and the leaf spring portion are not exposed to the water vapor.

That is, when the power button 421 is pushed backward by the user, the arm portion 422a of the lever type lift mechanism 422 is pushed forward in conjunction with it, and as a result, the tip end portion of the lever body rotates downward. As a result, the movable contact connected to the lever body moves downward and comes into contact with the fixed contact, the contact is closed, and the push rod is pushed out to the bimetal side by the lever body. On the other hand, when the bimetal 424 is exposed to water vapor and reaches a specified temperature while the push rod is pushed toward the bimetal side, the bimetal 424 pushes the push rod toward the lever body side. As a result, the lever body rotates upward to separate the movable contact from the fixed contact, the arm portion 422a is moved rearward, and the power button 421 is pushed back forward.

The neon lamp 426 is arranged in the vicinity of the power button 421 as shown in FIGS. 3 and 4. Then, the neon lamp 426 lights up in a state where the contacts of the power switch mechanism 420 and the bimetal type thermostat are closed, the contacts of the power switch mechanism 420 and the bimetal thermostat are opened, and the overtemperature prevention device 350. Turns off when is activated. As described above, since the power button 421 is transparent, the neon lamp 426 is turned on and off visually by the user.

As shown in FIG. 4, the intermediate steam passage PVM is formed on the base end side of the upper end portion of the handle 400. The intermediate steam passage PVM communicates with the first steam passage PV1 and the second steam passage PV2 (see FIG. 4) of the lid unit 250 in a state where the lid unit 250 is attached to the main body unit 300. That is, when the liquid inside is heated by the print heater 322 while the lid unit 250 is attached to the main body unit 300, the liquid boils and becomes steam, and the first steam passage PV1 and the intermediate steam passage PVM And it is discharged to the external space through the second vapor passage PV2 or returned to the liquid container 321. Further, as described above, the bimetal 424 is exposed in the intermediate steam passage PVM. That is, when the steam reaches the intermediate steam passage PVM, the bimetal 424 is heated by the heat of the steam, and when the temperature of the bimetal 424 reaches the specified temperature, the movable contact is separated from the fixed contact and the print heater 322 is separated as described above. The power to the power is cut off. The bimetal 424 self-recovers when cooled to a certain temperature.

2. 2. Lid unit The lid unit 250 is a detachable substantially cylindrical lid that covers the upper part of the main body unit 300, and as shown in FIGS. 1 to 3, mainly the exterior body 251 and the liquid injection passage opening / closing mechanism. It is composed of 253, a steam processing unit 254, and a lock lever mechanism 255. Hereinafter, these components will be described in detail.

(1) Exterior body The exterior body 251 is mainly composed of an upper panel 251A and a lower panel 251B as shown in FIG. As shown in FIGS. 1 to 3, the upper panel 251A is formed with an opening for exposing the lock lever 255A and the open / close button 253A to the outside. An opening is formed in the lower panel 251B. Further, in the space between the upper panel 251A and the lower panel 251B, a liquid injection passage opening / closing mechanism 253 and a vapor treatment unit 254 are arranged, and a liquid injection passage PL is formed.

(2) Liquid injection passage opening / closing mechanism The liquid injection passage opening / closing mechanism 253 is a mechanism for opening / closing the liquid injection passage PL, and as shown in FIG. 3, mainly opens / close button 253A, coil spring 253B, and opens / closes. It consists of a valve 253C and a locking mechanism (not shown). The liquid injection passage PL is formed on the spout side of the lower panel 251B, and the liquid injection passage opening / closing mechanism 253 is mainly located on the spout side of the space between the upper panel 251A and the lower panel 251B. It is arranged. The open / close button 253A is a substantially columnar member operated by the user of the electric kettle 100, and is exposed on the upper panel 251A of the exterior body 251 as described above. Further, the on-off button 253A is connected to the on-off valve 253C as shown in FIG. Further, the open / close button 253A is urged upward by the coil spring 253B. Then, when the opening / closing button 253A is pressed downward against the urging force of the coil spring 253B by the user of the electric kettle 100, the opening / closing valve 253C is pushed down in conjunction with the pressing operation to inject liquid. The passage PL is opened. At this time, the on-off valve 253C is maintained in the open state by the locking mechanism. Then, the user tilts the kettle body 200 toward the spout side with the liquid injection passage PL open in this way, so that the liquid inside the liquid container 321 is put into another container such as a teacup or a teacup. Can be poured. After that, when the open / close button 253A is pressed again by the user, the on-off valve 253C is released from the locking mechanism, and the on-off valve 253C and the on-off button 253A are pushed back upward by the urging force of the coil spring 253B. The on-off valve 253C closes the liquid injection passage PL. At this time, even if the user tilts the kettle body 200 toward the spout side, the liquid inside the liquid container 321 is blocked by the on-off valve 253C.

(3) Steam processing unit The steam processing unit 254 is composed of a main body member 254A shown in FIG. 5 and a cover member 254B shown in FIG. Specifically, the cover member 254B is attached to the main body member 254A so that the lower steam passage forming ribs Ru1 to 18 (described later) and the upper steam passage forming ribs Ro1 to 18 (described later) are butted against each other. The steam processing unit 254 is completed. Hereinafter, the main body member 254A and the cover member 254B will be described in detail.

(3-1) Main body member As shown in FIG. 5, the main body member 254A includes a lower container portion 254a, a lower enclosure wall portion 254b, a lower large cylindrical wall portion 254c, and a pair of lower small cylindrical wall portions. It is formed from 254d, a first steam duct portion 254e, a second steam duct portion 254f, and a plurality of lower steam passage forming ribs Ru1 to 18. Further, the main body member 254A is formed with a main opening Am and a sub-opening As as steam outlets.

As shown in FIG. 5, the lower container portion 254a is a bowl-shaped portion having a substantially elliptical shape in a plan view, and constitutes a bottom wall of the steam treatment unit 254 and a bottom portion of the side wall. Then, when the steam treatment unit 254 is assembled, the upper end surface of the side wall portion of the lower container portion 254a comes into contact with the lower end surface of the side wall portion of the upper main body portion 254n of the cover member 254B.

As shown in FIG. 5, the lower enclosure wall portion 254b is a tubular portion having a substantially rhombic shape in a plan view, and extends upward from the inner bottom surface of the lower container portion 254a. Then, as shown in FIG. 5, in a plan view, a lower large cylindrical wall portion 254c and a pair of lower small cylindrical wall portions 254d are arranged inside the lower large cylindrical wall portion 254c. Then, when the steam processing unit 254 is assembled, the upper end surface of the lower enclosure wall portion 254b comes into contact with the lower end surface of the upper enclosure wall portion 254o of the cover member 254B.

As shown in FIG. 5, the lower large cylindrical wall portion 254c is arranged substantially in the center inside the lower surrounding wall portion 254b in a plan view (see FIG. 5). The lower large cylindrical wall portion 254c is arranged so as to penetrate the lower container portion 254a. That is, the internal space of the lower large cylindrical wall portion 254c communicates with the lower external space of the lower container portion 254a. Then, when the steam treatment unit 254 is assembled, the upper end surface of the lower large cylindrical wall portion 254c comes into contact with the lower end surface of the upper large cylindrical wall portion 254p of the cover member 254B. The punch portion of the on-off valve 253C is inserted into the internal space of the lower large cylindrical wall portion 254c.

As shown in FIG. 5, the lower small cylindrical wall portion 254d is a cylindrical wall portion having a diameter smaller than that of the lower large cylindrical wall portion 254c, and the lower large cylindrical wall portion 254c is inside the lower surrounding wall portion 254b. It is installed next to both sides of. The lower small cylindrical wall portion 254d is arranged so as to penetrate the lower container portion 254a. That is, the internal space of the lower small cylindrical wall portion 254d communicates with the lower external space of the lower container portion 254a. Then, when the steam processing unit 254 is assembled, the upper small cylindrical wall portion 254q of the cover member 254B is fitted into the lower small cylindrical wall portion 254d.

The first steam duct portion 254e is a portion for forming the first steam passage PV1 and handles the vapor generated from the liquid in the liquid container 321 when the lid unit 250 is attached to the main body unit 300. It plays a role of leading to 400 intermediate steam passages PVM. That is, the first vapor passage PV1 communicates with the internal space of the liquid container 321 and the intermediate vapor passage PVM of the handle 400. As shown in FIG. 5, the first steam duct portion 254e is mainly formed of a front wall portion Wf, a right side wall portion Wr, a left side wall portion Wl, and a top wall portion Wc. The front wall portion Wf, the right side wall portion Wr, and the left side wall portion Wl extend upward from the inner bottom surface of the lower container portion 254a as shown in FIG. Further, the right side wall portion Wr extends from the right end of the front wall portion Wf to the rear side wall portion of the lower container portion 254a as shown in FIG. Further, the left side wall portion Wl extends from the left end of the front wall portion Wf to the rear side wall portion of the lower container portion 254a as shown in FIG. Then, as shown in FIG. 7, through holes Pt are formed in the bottom wall portion of the lower container portion 254a surrounded by the front wall portion Wf, the right wall portion Wr, the left wall portion Wl, and the lower container portion 254a. Is formed. On the other hand, the upper side of the space surrounded by the front wall portion Wf, the right side wall portion Wr, the left side wall portion Wl, and the lower side wall portion 254a is covered with the top wall portion Wc. Further, through holes (not shown) are formed in the rear side wall portion of the lower container portion 254a surrounded by the right side wall portion Wr, the left side wall portion Wl, the top wall portion Wc, and the rear side wall portion of the lower container portion 254a. There is. That is, the vapor generated from the liquid in the liquid container 321 passes through the through hole Bb, the first vapor passage PV1 of the first steam duct portion 254e, and the through hole in the rear side wall portion of the lower container portion 254a. It flows into the intermediate steam passage PVM of the handle 400.

The second steam duct portion 254f is a portion for forming a part of the second steam passage PV2, and the steam returning from the intermediate steam passage PVM in a state where the lid unit 250 is attached to the main body unit 300. Is responsible for leading to the internal space of the steam processing unit 254. That is, the intermediate steam passage PVM communicates with the second steam passage PV2. The second steam duct portion 254f is a round pipe body, and is provided adjacent to the right side of the first steam duct portion 254e as shown in FIG. The second steam duct portion 254f is fixed so as to penetrate the rear side wall portion of the lower container portion 254a as shown in FIG. That is, the steam returning from the intermediate steam passage PVM passes through the inside of the second steam duct portion 254f and is discharged from the steam supply port BP into the inside of the steam processing unit 254.

As shown in FIG. 5, the lower steam passage forming ribs Ru1 to 18 are vertical plate portions arranged in the space between the side wall portion of the lower container portion 254a and the lower surrounding wall portion 254b. , Extends upward from the inner bottom surface of the lower container portion 254a. The lower steam passage forming ribs Ru1 to 16 exist from the first lower steam passage forming rib Ru1 to the 18th lower steam passage forming rib Ru18. Hereinafter, these lower steam passage forming ribs Ru1 to 18 will be described in detail.

The first lower steam passage forming rib Ru1 is a vertical plate portion extending in the front-rear direction as shown in FIG. 5, and is adjacent to the right side of the second steam duct portion 254f in a plan view. As shown in FIG. 5, the first lower steam passage forming rib Ru1 slightly protrudes forward from the front end of the second steam duct portion 254f in a plan view, and the second lower side is at the position of the front end. It intersects the steam passage forming rib Ru2. As shown in FIG. 5, the rear end of the first lower steam passage forming rib Ru1 faces the rear side wall portion of the lower container portion 254a through a gap in a plan view. As shown in FIG. 5, the first lower steam passage forming rib Ru1 extends toward the lower surrounding wall portion 254b in a plan view.

As shown in FIG. 5, the second lower steam passage forming rib Ru2 is a vertical plate portion that is inclined forward from the right side to the left side in a plan view, and is behind the third lower steam passage forming rib Ru3. It is located on the side, in front of the first steam duct portion 254e and the second steam duct portion 254f. Then, as shown in FIG. 5, the second lower steam passage forming rib Ru2 intersects the front end of the first lower steam passage forming rib Ru1 at a position closer to the center right in the plan view. Then, in a plan view, the right end (rear end) of the second lower steam passage forming rib Ru2 faces the right wall portion of the lower container portion 254a through a gap, and the left end (front end) passes through the gap. It faces the fifth lower steam passage forming rib Ru5.

As shown in FIG. 5, the third lower steam passage forming rib Ru3 is a vertical plate portion extending from the right side wall portion to the left side wall portion of the lower container portion 254a and exhibiting a zigzag shape in a plan view, and is a lower side. It is located on the rear side of the enclosure wall portion 254b and on the front side of the second lower steam passage forming rib Ru2. Then, as shown in FIG. 5, the third lower steam passage forming rib Ru3 has a fourth lower steam passage forming rib Ru4, a fifth lower steam passage forming rib Ru5, and a sixth lower steam passage forming rib Ru3. Ribs Ru6 intersect.

As shown in FIG. 5, the fourth lower steam passage forming rib Ru4 is a vertical plate portion that is inclined forward from the right side to the left side in a plan view, and is a front side of the second lower steam passage forming rib Ru2. , 8th lower steam passage forming rib Ru8 is located behind. Then, as shown in FIG. 5, the fourth lower steam passage forming rib Ru4 and the third lower steam passage forming rib Ru3 are located at a position closer to the right center of the third lower steam passage forming rib Ru3 in a plan view. It intersects. Further, in a plan view, the right end (rear end) of the fourth lower steam passage forming rib Ru4 faces the right wall portion of the lower container portion 254a through a gap, and the left end (front end) passes through the gap. It faces the lower enclosure wall portion 254b. The fourth lower steam passage forming rib Ru4 extends toward the lower enclosure wall portion 254b as shown in FIG.

As shown in FIG. 5, the fifth lower steam passage forming rib Ru5 is a vertical plate portion that inclines rearward from the right side to the left side in a plan view, and is a front side of the first steam duct portion 254e and a third lower portion. It is located behind the side steam passage forming rib Ru3. The front end (right end) of the fifth lower steam passage forming rib Ru5 intersects the third lower steam passage forming rib Ru3 at a position closer to the center left of the third lower steam passage forming rib Ru3. As shown in FIG. 5, the fifth lower steam passage forming rib Ru5 extends toward the lower surrounding wall portion 254b, and the front end (right end) thereof is the third lower steam passage forming rib Ru3. It faces the lower enclosure wall portion 254b with a gap in between.

As shown in FIG. 5, the sixth lower steam passage forming rib Ru6 is a vertical plate portion that inclines rearward from the right side to the left side in a plan view, and is a front side of the first steam duct portion 254e and a third lower side. It is located behind the side steam passage forming rib Ru3. The front end (right end) of the sixth lower steam passage forming rib Ru6 intersects the third lower steam passage forming rib Ru3 at a position closer to the left center of the third lower steam passage forming rib Ru3. As shown in FIG. 5, the sixth lower steam passage forming rib Ru6 extends toward the lower surrounding wall portion 254b, and its front end (right end) is the third lower steam passage forming rib Ru3. It faces the lower enclosure wall portion 254b with a gap in between.

As shown in FIG. 5, the seventh lower steam passage forming rib Ru7 is a vertical plate portion that inclines rearward from the right side to the left side in a plan view, and is a front side of the third lower steam passage forming rib Ru3. It is located behind the ninth lower steam passage forming rib Ru9. The right end (front end) of the seventh lower steam passage forming rib Ru7 faces the lower enclosure wall portion 254b via a gap, and the left end (rear end) of the lower container portion 254a passes through the gap. It faces the left side wall. The seventh lower steam passage forming rib Ru7 extends toward the lower enclosure wall portion 254b as shown in FIG.

As shown in FIG. 5, the eighth lower steam passage forming rib Ru8 is a vertical plate portion that inclines rearward from the left side to the right side in a plan view, and is a front side of the third lower steam passage forming rib Ru3. It is located behind the tenth lower steam passage forming rib Ru10. The left end (front end) of the eighth lower steam passage forming rib Ru8 faces the lower enclosure wall portion 254b via a gap, and the right end (rear end) of the lower container portion 254a passes through the gap. It faces the right side wall. The eighth lower steam passage forming rib Ru8 extends toward the lower enclosure wall portion 254b as shown in FIG.

As shown in FIG. 5, the ninth lower steam passage forming rib Ru9 is a vertical plate portion extending diagonally forward to the left from the left wall portion of the lower enclosure wall portion 254b in a plan view, and is a seventh lower side. It is located on the front side of the steam passage forming rib Ru7 and on the rear side of the eleventh lower steam passage forming rib Ru11. The left end (front end) of the ninth lower steam passage forming rib Ru9 faces the eleventh lower steam passage forming rib Ru11 via a gap.

As shown in FIG. 5, the tenth lower steam passage forming rib Ru10 is a vertical plate portion extending diagonally forward to the right from the right wall portion of the lower enclosure wall portion 254b in a plan view, and is the eighth lower side. It is located on the front side of the steam passage forming rib Ru8 and on the rear side of the 12th lower steam passage forming rib Ru12. The right end (front end) of the 10th lower steam passage forming rib Ru10 faces the 12th lower steam passage forming rib Ru12 through a gap.

As shown in FIG. 5, the eleventh lower steam passage forming rib Ru11 is a vertical plate portion that inclines rearward from the right side to the left side in a plan view, and is the front side of the lower enclosure wall portion 254b, the thirteenth lower portion. It is located behind the side steam passage forming rib Ru13 and the 15th lower steam passage forming rib Ru15. The right end (front end) of the 11th lower steam passage forming rib Ru11 intersects the 13th lower steam passage forming rib Ru13 at the rear end of the 13th lower steam passage forming rib Ru13. Further, the left end (rear end) of the eleventh lower steam passage forming rib Ru11 faces the left wall portion of the lower container portion 254a via a gap.

As shown in FIG. 5, the twelfth lower steam passage forming rib Ru12 is a vertical plate portion that inclines rearward from the left side to the right side in a plan view, and is a front side of the lower enclosure wall portion 254b, 14th lower portion. It is located behind the side steam passage forming rib Ru14 and the 16th lower steam passage forming rib Ru16. The left end (front end) of the 12th lower steam passage forming rib Ru12 intersects the 14th lower steam passage forming rib Ru14 at the rear end of the 14th lower steam passage forming rib Ru14. Further, the right end (rear end) of the 12th lower steam passage forming rib Ru12 faces the right side wall portion of the lower container portion 254a through a gap.

As shown in FIG. 5, the thirteenth lower steam passage forming rib Ru13 is a vertical plate portion extending in the front-rear direction, and is a front side of the eleventh lower steam passage forming rib Ru11 in a plan view, the 17th lower part. It is located behind the side steam passage forming rib Ru17. The front end of the 13th lower steam passage forming rib Ru13 intersects with the 17th lower steam passage forming rib Ru17 at a position closer to the center right of the 17th lower steam passage forming rib Ru17, and the rear end is the eleventh. The right end (front end) of the lower steam passage forming rib Ru11 intersects with the eleventh lower steam passage forming rib Ru11. Further, the thirteenth lower steam passage forming rib Ru13 extends toward the lower enclosure wall portion 254b as shown in FIG.

As shown in FIG. 5, the 14th lower steam passage forming rib Ru14 is a vertical plate portion extending in the front-rear direction, and is a front side of the 12th lower steam passage forming rib Ru12 in a plan view, 18th lower. It is located behind the side steam passage forming rib Ru18. The front end of the 14th lower steam passage forming rib Ru14 intersects with the 18th lower steam passage forming rib Ru18 at a position to the left of the center of the 18th lower steam passage forming rib Ru18, and the rear end is the twelfth. The left end (front end) of the lower steam passage forming rib Ru12 intersects with the twelfth lower steam passage forming rib Ru12. Further, the 14th lower steam passage forming rib Ru14 extends toward the lower surrounding wall portion 254b as shown in FIG.

As shown in FIG. 5, the fifteenth lower steam passage forming rib Ru15 is a vertical plate portion extending in the front-rear direction, and is a front side and a lower container of the eleventh lower steam passage forming rib Ru11 in a plan view. It is located on the rear side of the front side wall portion of the portion 254a. The front end of the 15th lower steam passage forming rib Ru15 faces the front side wall portion of the lower container portion 254a through the gap, and the rear end faces the front side wall portion of the lower container portion 254a through the gap, and the rear end of the 11th lower steam passage forming rib Ru11 Facing.

As shown in FIG. 5, the 16th lower steam passage forming rib Ru16 is a vertical plate portion extending in the front-rear direction, and is a front side and a lower container of the 12th lower steam passage forming rib Ru12 in a plan view. It is located on the rear side of the front side wall portion of the portion 254a. The front end of the 16th lower steam passage forming rib Ru16 faces the front side wall portion of the lower container portion 254a via a gap, and the rear end faces the front side wall portion of the lower container portion 254a through the gap, and the rear end of the 12th lower steam passage forming rib Ru12 Facing.

As shown in FIG. 5, the 17th lower steam passage forming rib Ru17 is a vertical plate portion that is inclined forward from the right side to the left side in a plan view, and is a vertical plate portion of the 13th lower steam passage forming rib Ru13. It is located on the front side and behind the front side wall portion of the lower container portion 254a. Then, as shown in FIG. 5, the 17th lower steam passage forming rib Ru17 intersects the front end of the 13th lower steam passage forming rib Ru13 at a position closer to the right of the center. Further, the right end (rear end) of the 17th lower steam passage forming rib Ru17 faces the 14th lower steam passage forming rib Ru14 through a gap, and the left end (front end) is the lower container through the gap. It faces the front side wall portion of the portion 254a.

As shown in FIG. 5, the 18th lower steam passage forming rib Ru18 is a vertical plate portion that is inclined forward from the left side to the right side in a plan view, and is a vertical plate portion of the 14th lower steam passage forming rib Ru14. It is located on the front side and behind the front side wall portion of the lower container portion 254a. Then, as shown in FIG. 5, the 18th lower steam passage forming rib Ru18 intersects the front end of the 14th lower steam passage forming rib Ru14 at a position to the left of the center. Further, the left end (rear end) of the 18th lower steam passage forming rib Ru18 faces the 13th lower steam passage forming rib Ru13 through a gap, and the right end (front end) is the lower container through the gap. It faces the front side wall portion of the portion 254a.

Of the above-mentioned lower steam passage forming ribs Ru1 to 18, the seventh lower steam passage forming rib Ru7 and the eighth lower steam passage forming rib Ru8, the ninth lower steam passage forming rib Ru9 and the tenth lower side Steam passage forming rib Ru10, 11th lower steam passage forming rib Ru11 and 12th lower steam passage forming rib Ru12, 13th lower steam passage forming rib Ru13 and 14th lower steam passage forming rib Ru14, 15th lower side The steam passage forming rib Ru15 and the 16th lower steam passage forming rib Ru16, and the 17th lower steam passage forming rib Ru17 and the 18th lower steam passage forming rib Ru18 are in a symmetrical relationship with each other.

As shown in FIG. 5, the main opening Am is the front side of the lower enclosure wall portion 254b in a plan view, the front side wall portion of the lower enclosure wall portion 254b, the 13th lower steam passage forming rib Ru13, and the 14th. It is formed in a region surrounded by the lower steam passage forming rib Ru14, the 17th lower steam passage forming rib Ru17, and the 18th lower steam passage forming rib Ru18. The main opening Am penetrates the bottom wall portion of the lower container portion 254a in the same region.

As shown in FIG. 5, the sub-opening As is a region between the rear side wall portion of the lower enclosure wall portion 254b and the third lower steam passage forming rib Ru3 in a plan view, and is a region of the lower enclosure wall portion 254b. It is formed near the right rear side wall. The sub-opening As penetrates the bottom wall portion of the lower container portion 254a in the same region as the main opening Am.

(3-2) Cover member As shown in FIG. 6, the cover member 254B includes an upper main body portion 254n, an upper enclosure wall portion 254o, an upper large cylindrical wall portion 254p, a pair of upper small cylindrical wall portions 254q, and an upper steam. Passage forming ribs Ro1 to 19 are formed.

As shown in FIG. 6, the upper main body portion 254n is a bowl-shaped portion having a substantially elliptical shape when viewed from the back surface, and constitutes a top wall of the steam treatment unit 254 and an upper portion of the side wall. Then, when the steam treatment unit 254 is assembled, the lower end surface of the side wall portion of the upper main body portion 254n comes into contact with the upper end surface of the side wall portion of the lower container portion 254a of the main body member 254A.

As shown in FIG. 6, the upper enclosure wall portion 254o is a tubular portion having a substantially rhombic shape in the back view, and extends downward from the inner top surface of the upper main body portion 254n. Then, as shown in FIG. 6, in the back view, the upper large cylindrical wall portion 254p and the pair of upper small cylindrical wall portions 254q are arranged inside the upper surrounding wall portion 254o. Then, when the steam processing unit 254 is assembled, the lower end surface of the upper enclosure wall portion 254o comes into contact with the upper end surface of the lower enclosure wall portion 254b of the main body member 254A.

As shown in FIG. 6, the upper large cylindrical wall portion 254p is arranged substantially in the center inside the upper enclosure wall portion 254o in the rear view (see FIG. 6). The upper large cylindrical wall portion 254p is arranged so as to penetrate the upper main body portion 254n. That is, the internal space of the upper large cylindrical wall portion 254p communicates with the upper external space of the upper main body portion 254n. Then, when the steam treatment unit 254 is assembled, the lower end surface of the upper large cylindrical wall portion 254p comes into contact with the upper end surface of the lower large cylindrical wall portion 254c of the main body member 254A. The punch portion of the on-off valve 253C is inserted into the internal space of the upper large cylindrical wall portion 254p.

As shown in FIG. 6, the upper small cylindrical wall portion 254q is a cylindrical wall portion having a diameter smaller than that of the upper large cylindrical wall portion 254p, and is located on both sides of the upper large cylindrical wall portion 254p inside the upper enclosure wall portion 254o. It is located next to it. The upper small cylindrical wall portion 254q is arranged so as to penetrate the upper main body portion 254n. That is, the internal space of the upper small cylindrical wall portion 254q communicates with the lower external space of the upper main body portion 254n. Then, when the steam processing unit 254 is assembled, the lower small cylindrical wall portion 254d of the main body member 254A is fitted into the upper small cylindrical wall portion 254q.

As shown in FIG. 6, the upper steam passage forming ribs Ro1 to 19 are vertical plate portions arranged in the space between the side wall portion of the upper main body portion 254n and the upper surrounding wall portion 254o, and are the upper main body. It extends downward from the inner surface of the portion 254n. The upper steam passage forming ribs Ro1 to 19 exist from the first upper steam passage forming rib Ro1 to the 19th upper steam passage forming rib Ro19. Hereinafter, these upper steam passage forming ribs Ro1 to 19 will be described in detail.

The first upper steam passage forming rib Ro1 is a vertical plate portion extending in the front-rear direction as shown in FIG. 6, and is located at a position on the left side of the rear side wall portion of the upper main body portion 254n in the back view. .. Then, the first upper steam passage forming rib Ro1 intersects with the second upper steam passage forming rib Ro2 at the position of the front end thereof as shown in FIG. As shown in FIG. 6, the rear end of the first upper steam passage forming rib Ro1 is adjacent to the rear side wall portion of the upper main body portion 254n. Further, as shown in FIG. 6, the first upper steam passage forming rib Ro1 extends toward the upper enclosure wall portion 254o. By the way, of the lower end surface of the first upper steam passage forming rib Ro1, the surface painted in black in FIG. 6 is the upper end surface of the first lower steam passage forming rib Ru1 when the steam processing unit 254 is completed. In FIG. 5, it abuts on the surface painted in black.

As shown in FIG. 6, the second upper steam passage forming rib Ro2 is a vertical plate portion that is inclined forward from the left side to the right side in the back view, and is a rear side of the fourth upper steam passage forming rib Ro4. It is located on the front side of the first upper steam passage forming rib Ro1. Then, as shown in FIG. 6, the second upper steam passage forming rib Ro2 intersects the front end of the first upper steam passage forming rib Ro1 at a position closer to the center right in the back view. Then, in plane perspective (the left and right sides are reversed from the back view), the right end (rear end) of the second upper steam passage forming rib Ro2 is adjacent to the right wall portion of the upper main body portion 254n, and the left end (front end). Is opposed to the fifth upper steam passage forming rib Ro5 through a gap. By the way, of the lower end surface of the second upper steam passage forming rib Ro2, the surface painted in black in FIG. 6 is the upper end surface of the second lower steam passage forming rib Ru2 when the steam processing unit 254 is completed. In FIG. 5, it comes into contact with the surface painted in black.

As shown in FIG. 6, the third a upper steam passage forming rib Ro3a is a vertical plate portion that inclines forward from the left side to the right side in the back view, and is the front side of the sixth upper steam passage forming rib Ro6, the seventh. It is located behind the upper steam passage forming rib Ro7. The left side (front end) of the thirda upper steam passage forming rib Ro3a is adjacent to the left side wall portion of the upper main body portion 254n, and the right end (rear end) in the plan perspective (the left and right sides are reversed from the back view). Is opposed to the sixth upper steam passage forming rib Ro6 through a gap. By the way, of the lower end surface of the third a upper steam passage forming rib Ro3a, the surface painted in black in FIG. 6 is the upper end surface of the third lower steam passage forming rib Ru3 when the steam processing unit 254 is completed. In FIG. 5, it abuts on the left surface painted in black.

As shown in FIG. 6, the third b upper steam passage forming rib Ro3b is a vertical plate portion that inclines forward from the right side to the left side in the back view, and is the front side of the fourth upper steam passage forming rib Ro4, the eighth. It is located behind the upper steam passage forming rib Ro8. Then, in plane perspective (the left and right sides are reversed from the back view), the right side (front end) of the third b upper steam passage forming rib Ro3b is adjacent to the right side wall portion of the upper body portion 254n, and the left end (rear end). ) Is opposed to the fourth upper steam passage forming rib Ro4 through a gap. By the way, of the lower end surface of the third b upper steam passage forming rib Ro3b, the surface painted in black in FIG. 6 is the upper end surface of the third lower steam passage forming rib Ru3 when the steam processing unit 254 is completed. It abuts on the right surface painted in black in FIG.

As shown in FIG. 6, the fourth upper steam passage forming rib Ro4 is a vertical plate portion that is inclined forward from the left side to the right side in the back view, and is a front side, the second upper steam passage forming rib Ro2 of the second upper steam passage forming rib Ro2. It is located behind the 3b upper steam passage forming rib Ro3b. Then, in plane perspective (the left and right sides are reversed from the back view), the right end (rear end) of the fourth upper steam passage forming rib Ro4 is adjacent to the right wall portion of the upper main body portion 254n, and the left end (front end). Faces the upper enclosure wall portion 254o through a gap. The fourth upper steam passage forming rib Ro4 extends toward the upper enclosure wall portion 254o as shown in FIG. By the way, of the lower end surface of the fourth upper steam passage forming rib Ro4, the surface painted in black in FIG. 6 is the upper end surface of the fourth lower steam passage forming rib Ru4 when the steam processing unit 254 is completed. In FIG. 5, it abuts on the surface painted in black.

As shown in FIG. 6, the fifth upper steam passage forming rib Ro5 is a vertical plate portion that is inclined forward from the right side to the left side in the back view, and is a right side surface of the first upper steam passage forming rib Ro1. 6 It is located on the left side of the upper steam passage forming rib Ro6. The rear end (left end) of the fifth upper steam passage forming rib Ro5 is adjacent to the rear side of the left wall portion of the upper main body portion 254n in the plan perspective (the left and right sides are reversed from the back view), and the front end. (Right end) faces the upper enclosure wall portion 254o through a gap. The fifth upper steam passage forming rib Ro5 extends toward the upper enclosure wall portion 254o as shown in FIG. By the way, of the lower end surface of the fifth upper steam passage forming rib Ro5, the surface painted in black in FIG. 6 is the upper end surface of the fifth lower steam passage forming rib Ru5 when the steam processing unit 254 is completed. In FIG. 5, it abuts on the surface painted in black.

As shown in FIG. 6, the sixth upper steam passage forming rib Ro6 is a vertical plate portion that inclines rearward from the left side to the right side in the back view, and is an obliquely right front side of the fifth upper steam passage forming rib Ro5. , 3a is located behind the upper steam passage forming rib Ro3a. Then, in plane perspective (the left and right sides are reversed from the back view), the left end (rear end) of the sixth upper steam passage forming rib Ro6 is adjacent to the left wall portion of the upper main body portion 254n, and the right end (front end). Faces the upper enclosure wall portion 254o through a gap. The sixth upper steam passage forming rib Ro6 extends toward the upper enclosure wall portion 254o as shown in FIG. By the way, of the lower end surface of the sixth upper steam passage forming rib Ro6, the surface painted in black in FIG. 6 is the upper end surface of the sixth lower steam passage forming rib Ru6 when the steam processing unit 254 is completed. In FIG. 5, it abuts on the surface painted in black.

As shown in FIG. 6, the seventh upper steam passage forming rib Ro7 is a vertical plate portion that inclines rearward from the left side to the right side in the back view, and is the front side of the thirda upper steam passage forming rib Ro3a, the ninth. It is located behind the upper steam passage forming rib Ro9. Then, in plane perspective (the left and right sides are reversed from the back view), the right end (front end) of the seventh upper steam passage forming rib Ro7 faces the upper enclosure wall portion 254o through a gap, and the left end (rear end). ) Is opposed to the left wall portion of the upper main body portion 254n through a gap. The seventh upper steam passage forming rib Ro7 extends toward the upper enclosure wall portion 254o as shown in FIG. By the way, of the lower end surface of the seventh upper steam passage forming rib Ro7, the surface painted in black in FIG. 6 is the upper end surface of the seventh lower steam passage forming rib Ru7 when the steam treatment unit 254 is completed. In FIG. 5, it abuts on the surface painted in black.

As shown in FIG. 6, the eighth upper steam passage forming rib Ro8 is a vertical plate portion that inclines rearward from the right side to the left side in the back view, and is the front side of the thirdb upper steam passage forming rib Ro3b, the tenth. It is located behind the upper steam passage forming rib Ro10. Then, in plane perspective (the left and right sides are reversed from the back view), the left end (front end) of the eighth upper steam passage forming rib Ro8 faces the upper enclosure wall portion 254o through a gap, and the right end (rear end). ) Faces the right wall portion of the upper main body portion 254n through a gap. The eighth upper steam passage forming rib Ro8 extends toward the upper enclosure wall portion 254o as shown in FIG. By the way, of the lower end surface of the eighth upper steam passage forming rib Ro8, the surface painted in black in FIG. 6 is the upper end surface of the eighth lower steam passage forming rib Ru8 when the steam processing unit 254 is completed. In FIG. 5, it abuts on the surface painted in black.

As shown in FIG. 6, the ninth upper steam passage forming rib Ro9 is a vertical plate portion that inclines forward from the left side to the right side in the back view, and is the front side of the seventh upper steam passage forming rib Ro7, the eleventh. It is located behind the upper steam passage forming rib Ro11. Then, in plane perspective (the left and right sides are reversed from the back view), the left end (front end) of the ninth upper steam passage forming rib Ro9 faces the eleventh upper steam passage forming rib Ro11 through a gap, and the right end. (Rear end) faces the upper enclosure wall portion 254o via a gap. The ninth upper steam passage forming rib Ro9 extends toward the upper enclosure wall portion 254o as shown in FIG. By the way, of the lower end surface of the ninth upper steam passage forming rib Ro9, the surface painted in black in FIG. 6 is the upper end surface of the ninth lower steam passage forming rib Ru9 when the steam processing unit 254 is completed. In FIG. 5, it abuts on the surface painted in black.

As shown in FIG. 6, the tenth upper steam passage forming rib Ro10 is a vertical plate portion that inclines forward from the right side to the left side in the back view, and is the front side of the eighth upper steam passage forming rib Ro8, the twelfth. It is located behind the upper steam passage forming rib Ro12. Then, in plane perspective (the left and right sides are reversed from the back view), the right end (front end) of the 10th upper steam passage forming rib Ro10 faces the 12th upper steam passage forming rib Ro12 through a gap, and the left end. (Rear end) faces the upper enclosure wall portion 254o via a gap. The tenth upper steam passage forming rib Ro10 extends toward the upper enclosure wall portion 254o as shown in FIG. By the way, of the lower end surface of the 10th upper steam passage forming rib Ro10, the surface painted in black in FIG. 6 is the upper end surface of the 10th lower steam passage forming rib Ru10 when the steam processing unit 254 is completed. In FIG. 5, it abuts on the surface painted in black.

As shown in FIG. 6, the eleventh upper steam passage forming rib Ro11 is a vertical plate portion that inclines rearward from the left side to the right side in the back view, and is the front side of the upper enclosure wall portion 254o and the thirteenth upper steam passage. It is located behind the forming rib Ro13 and the fifteenth upper steam passage forming rib Ro15. Then, in the plan perspective (the left and right sides are reversed from the back view), the right end (front end) of the 11th upper steam passage forming rib Ro11 is the rear end of the 13th upper steam passage forming rib Ro13 and the 13th upper steam passage. It intersects the forming rib Ro13. Further, in plan perspective (the left and right sides are reversed from the back view), the left end (rear end) of the eleventh lower steam passage forming rib Ru11 is adjacent to the left wall portion of the upper main body portion 254n. By the way, of the lower end surface of the eleventh upper steam passage forming rib Ro11, the surface painted in black in FIG. 6 is the upper end surface of the eleventh lower steam passage forming rib Ru11 when the steam treatment unit 254 is completed. It comes into contact with the surface painted in black in FIG.

As shown in FIG. 6, the twelfth upper steam passage forming rib Ro12 is a vertical plate portion that inclines rearward from the right side to the left side in the back view, and is a front side of the upper enclosure wall portion 254o, and the 14th upper steam passage. It is located behind the forming rib Ro14 and the 16th upper steam passage forming rib Ro16. Then, in plane perspective (the left and right sides are reversed from the back view), the left end (front end) of the twelfth upper steam passage forming rib Ro12 forms the 14th upper steam passage at the rear end of the 14th upper steam passage forming rib Ro14. It intersects the rib Ro14. Further, in plan perspective (the left and right sides are reversed from the back view), the right end (rear end) of the twelfth upper steam passage forming rib Ro12 faces the right wall portion of the upper main body portion 254n. By the way, of the lower end surface of the 12th upper steam passage forming rib Ro12, the surface painted in black in FIG. 6 is the upper end surface of the 12th lower steam passage forming rib Ru12 when the steam processing unit 254 is completed. In FIG. 5, it abuts on the surface painted in black.

The thirteenth upper steam passage forming rib Ro13 is a vertical plate portion extending in the front-rear direction as shown in FIG. 6, and is a front side of the eleventh upper steam passage forming rib Ro11 and the seventeenth upper steam passage forming in the back view. It is located behind the rib Ro17. Then, in plan perspective (the left and right sides are reversed from the back view), the front end of the 13th upper steam passage forming rib Ro13 is located at a position closer to the center right of the 17th upper steam passage forming rib Ro17, and the 17th upper steam passage forming rib Ro17 The rear end intersects with the eleventh upper steam passage forming rib Ro11 at the right end (front end) of the eleventh upper steam passage forming rib Ro11. Further, the thirteenth upper steam passage forming rib Ro13 extends toward the upper enclosure wall portion 254o as shown in FIG. By the way, of the lower end surface of the 13th upper steam passage forming rib Ro13, the surface painted in black in FIG. 6 is the upper end surface of the 13th lower steam passage forming rib Ru13 when the steam processing unit 254 is completed. In FIG. 5, it abuts on the surface painted in black.

As shown in FIG. 6, the 14th upper steam passage forming rib Ro14 is a vertical plate portion extending in the front-rear direction, and the front side of the 12th upper steam passage forming rib Ro12 and the 18th upper steam passage forming in the back view. It is located behind the rib Ro18. Then, in the plan perspective (the left and right sides are reversed from the back view), the front end of the 14th upper steam passage forming rib Ro14 is located on the center left side of the 18th upper steam passage forming rib Ro18, and the 18th upper steam passage forming rib Ro18. The rear end intersects with the twelfth upper steam passage forming rib Ro12 at the left end (front end) of the twelfth upper steam passage forming rib Ro12. Further, the 14th upper steam passage forming rib Ro14 extends toward the upper enclosure wall portion 254o as shown in FIG. By the way, of the lower end surface of the 14th upper steam passage forming rib Ro14, the surface painted in black in FIG. 6 is the upper end surface of the 14th lower steam passage forming rib Ru14 when the steam processing unit 254 is completed. It comes into contact with the surface painted in black in FIG.

The 15th upper steam passage forming rib Ro15 is a vertical plate portion extending in the front-rear direction as shown in FIG. 6, and is a front side of the 11th upper steam passage forming rib Ro11 and a front of the upper main body portion 254n in the back view. It is located behind the side wall. Then, in plane perspective (the left and right sides are reversed from the back view), the front end of the 15th upper steam passage forming rib Ro15 faces the front side wall portion of the upper main body portion 254n via a gap, and the rear end faces the gap. It faces the eleventh upper steam passage forming rib Ro11 via. By the way, of the lower end surface of the 15th upper steam passage forming rib Ro15, the surface painted in black in FIG. 6 is the upper end surface of the 15th lower steam passage forming rib Ru15 when the steam processing unit 254 is completed. In FIG. 5, it abuts on the surface painted in black.

The 16th upper steam passage forming rib Ro16 is a vertical plate portion extending in the front-rear direction as shown in FIG. 6, and is a front side of the 12th upper steam passage forming rib Ro12 and a front of the upper main body portion 254n in the back view. It is located behind the side wall. Then, in plane perspective (the left and right sides are reversed from the back view), the front end of the 16th upper steam passage forming rib Ro16 faces the front side wall portion of the upper main body portion 254n through a gap, and the rear end is a gap. It faces the twelfth upper steam passage forming rib Ro12 via. By the way, of the lower end surface of the 16th upper steam passage forming rib Ro16, the surface painted in black in FIG. 6 is the upper end surface of the 16th lower steam passage forming rib Ru16 when the steam processing unit 254 is completed. In FIG. 5, it abuts on the surface painted in black.

As shown in FIG. 6, the 17th upper steam passage forming rib Ro17 is a vertical plate portion that is inclined forward from the left side to the right side in the back view, and is a front side and an upper side of the 13th upper steam passage forming rib Ro13. It is located on the rear side of the front side wall portion of the main body portion 254n. Then, in plan perspective (the left and right sides are reversed from the back view), the 17th upper steam passage forming rib Ro17 intersects the front end of the 13th upper steam passage forming rib Ro13 at a position closer to the center right. Further, in plan perspective (the left and right sides are reversed from the back view), the right end (rear end) of the 17th upper steam passage forming rib Ro17 faces the 14th upper steam passage forming rib Ro14 through a gap. The left end (front end) faces the front side wall portion of the upper main body portion 254n via a gap. By the way, of the lower end surface of the 17th upper steam passage forming rib Ro17, the surface painted in black in FIG. 6 is the upper end surface of the 17th lower steam passage forming rib Ru17 when the steam treatment unit 254 is completed. In FIG. 5, it abuts on the surface painted in black.

As shown in FIG. 6, the 18th upper steam passage forming rib Ro18 is a vertical plate portion that is inclined forward from the right side to the left side in the back view, and is a front side and an upper side of the 14th upper steam passage forming rib Ro14. It is located on the rear side of the front side wall portion of the main body portion 254n. Then, in plan perspective (the left and right sides are reversed from the back view), the 18th upper steam passage forming rib Ro18 intersects the front end of the 14th upper steam passage forming rib Ro14 at a position closer to the center left. Further, in plan perspective (the left and right sides are reversed from the back view), the left end (rear end) of the 18th upper steam passage forming rib Ro18 faces the 13th upper steam passage forming rib Ro13 through a gap. The right end (front end) faces the front side wall portion of the upper main body portion 254n via a gap. By the way, of the lower end surface of the 18th upper steam passage forming rib Ro18, the surface painted in black in FIG. 6 is the upper end surface of the 18th lower steam passage forming rib Ru18 when the steam processing unit 254 is completed. It comes into contact with the surface painted in black in FIG.

The 19th upper steam passage forming rib Ro19 is a vertical plate portion extending in the front-rear direction as shown in FIG. 6, and is a front side of the second upper steam passage forming rib Ro2 and an upper enclosure wall portion 254o in the back view. It is located on the rear side. Then, in plan perspective (the left and right sides are reversed from the back view), the front end of the 19th upper steam passage forming rib Ro19 faces the upper enclosure wall portion 254o through a gap, and the rear end passes through the gap. It faces the second upper steam passage forming rib Ro2. The 19th upper steam passage forming rib Ro19 does not come into contact with any part of the main body member 254A.

Of the above-mentioned upper steam passage forming ribs Ro1 to 19, the thirda upper steam passage forming rib Ro3a and the third b upper steam passage forming rib Ro3b, the fourth upper steam passage forming rib Ro4 and the sixth upper steam passage forming rib Ro6. , 7th upper steam passage forming rib Ro7 and 8th upper steam passage forming rib Ro8, 9th upper steam passage forming rib Ro9 and 10th upper steam passage forming rib Ro10, 11th upper steam passage forming rib Ro11 and 12th upper steam Passage forming rib Ro12, 13th upper steam passage forming rib Ro13 and 14th upper steam passage forming rib Ro14, 15th upper steam passage forming rib Ro15 and 16th upper steam passage forming rib Ro16, 17th upper steam passage forming rib Ro17 The 18th upper steam passage forming rib Ro18 has a symmetrical relationship with each other.

(4) Lock Lever Mechanism The lock lever mechanism 255 is a mechanism for locking the lid unit 250 to the main body unit 300, and as shown in FIGS. 1 and 2, mainly a pair of lock levers 255A and It consists of a coil spring (not shown). As shown in FIGS. 1 and 2, the lock lever 255A is housed in the upper panel 251A so as to be able to appear and disappear in the left-right direction. The lock lever 255A is arranged on the upper panel 251A so as to face each other with the coil spring in between. That is, the pair of lock levers 255A are urged outward to the left and right by the coil spring. Therefore, in the state where the lid unit 250 is attached to the main body unit 300, the locking claw (not shown) of the lock lever 255A is accommodated in the space formed in the main body portion 335A of the shoulder member 335, and as a result, , The lid unit 250 is locked to the main body unit 300. Then, when the user wants to remove the lid unit 250 from the main body unit 300, the user sandwiches the lock levers 255A on both sides so as to be centered against the urging force of the coil spring, and the main body portion 335A of the shoulder member 335 The locking claw is pulled out from the space formed in the lid unit 250, and the lid unit 250 is pulled up as it is. As a result, the lid unit 250 is removed from the main body unit 300.

3. 3. Power supply base The power supply base is mainly a pedestal (not shown), a boss receiving part (not shown), a connection terminal part (not shown), a lower cover (not shown), and a power cord (not shown). It consists of a power plug (not shown) and a power plug (not shown).

The pedestal is a substantially disk-shaped member and is arranged above the power supply pedestal.

The boss receiving portion is a cylindrical body and protrudes upward from the central portion of the pedestal. As described above, the power supply stand connection boss ME provided in the main body unit 300 can be detachably received in the boss receiving portion.

The connection terminal portion is arranged on the boss receiving portion, and as described above, in the state where the kettle main body 200 is mounted on the power supply stand, the two power supply stand connection connections arranged on the power supply stand connection boss ME. It is connected to the terminal part. A power cord is connected to this connection terminal. In addition, a power plug for connecting an external power supply is attached to the tip of the power cord.

The lower cover is a substantially disk-shaped member and covers the lower side of the power supply stand.

<Steam passage and steam flow in the steam processing unit>
Hereinafter, the steam passage Pm (see FIGS. 10 and 11) and the steam flow in the steam processing unit 254 will be described with reference to FIGS. 7 to 15. By the way, FIG. 7 shows a bottom view of the steam treatment unit 254, FIG. 8 shows a side view of the steam treatment unit 254, and FIG. 9 shows a sectional view taken along line II of FIG. FIG. 10 shows a sectional view of II-II of FIG. 8, and FIG. 11 shows a sectional view of II-II of FIG. 8 showing a steam flow. 12 shows a cross-sectional view of the steam treatment unit 254 cut along line III-III shown in FIG. 10, and FIG. 13 shows the steam treatment unit 254 taken along line IV-IV shown in FIG. A cross-sectional view is shown when the steam processing unit 254 is cut along the VV line shown in FIG. 10, and FIG. 15 shows a cross-sectional view when the steam processing unit 254 is cut along the VV line shown in FIG. A cross-sectional view of the processing unit 254 cut along the VI-VI line shown in FIG. 10 is shown. The reference numerals of the respective parts of FIGS. 10 and 11 are omitted except for the main ones because they are easily derived from the drawings shown in FIGS. 5, 6 and 8 and the reference numerals shown therein.

The steam passage Pm in the steam processing unit 254 is a maze type as shown in FIG. Further, all the steam passages in the steam processing unit 254 have a passage area through which a sufficient amount of steam passes, and function as a main passage. A passage having a passage area that does not allow steam to pass through is defined as a sub-passage, but the steam passage in the steam processing unit 254 does not have a sub-passage.

As shown in FIG. 12, the steam passage forming wall composed of the eleventh lower steam passage forming rib Ru11 and the eleventh upper steam passage forming rib Ro11 is formed with openings AP11 in the left lateral and lower left corners. , The steam passage forming wall composed of the twelfth lower steam passage forming rib Ru12 and the twelfth upper steam passage forming rib Ro12 is formed with openings AP12 in the right lateral and lower right corners.

As shown in FIG. 13, the steam passage forming wall composed of the sixth lower steam passage forming rib Ru6 and the sixth upper steam passage forming rib Ro6 has an opening AP6 formed in the lower left corner, and the fourth An opening AP4 is formed in the lower right corner of the steam passage forming wall composed of the lower steam passage forming rib Ru4 and the fourth upper steam passage forming rib Ro4.

As shown in FIG. 14, the steam passage forming wall composed of the sixth lower steam passage forming rib Ru6 and the sixth upper steam passage forming rib Ro6 has an opening AP6 formed in the lower left corner, and the second An opening AP2 is formed in the lower right corner of the steam passage forming wall composed of the lower steam passage forming rib Ru2 and the second upper steam passage forming rib Ro2.

As shown in FIG. 15, the fifth upper steam passage forming rib Ro5 has an opening AP5 formed in the lower left corner, and is composed of the second lower steam passage forming rib Ru2 and the second upper steam passage forming rib Ro2. An opening AP2 is formed in the lower right corner of the steam passage forming wall.

The flow of steam in the steam passage Pm of the steam processing unit 254 is as shown in FIG. In FIG. 11, normal arrows indicate the flow of steam through the steam passage Pm, and white arrows indicate lower steam passage forming ribs Ru1, Ru2, Ru4, Ru5, Ru6, Ru11, Ru12 and upper steam passage forming ribs. The black-filled arrows indicate the flow of steam through the lower openings AP1, AP2, AP4, AP5, AP6, AP11, AP12 of the steam passage forming ribs consisting of Ro1, Ro2, Ro4, Ro5, Ro6, Ro11, Ro12. , The flow of steam passing through the upper opening AP3 of the third lower steam passage forming rib Ru3 is shown. That is, this steam passage Pm is three-dimensionally configured. Further, as shown in FIG. 11, there are a plurality of branch points (see the “○” mark in FIG. 11) and a plurality of confluence points (see the “●” mark in FIG. 11) in this steam passage. There is. Then, the steam supplied from the second steam duct portion 254f flows through the steam passage Pm to the main opening Am and the sub-opening As, which are outlets, and is returned to the internal space of the liquid container 321. The condensate generated in the middle of the vapor passage Pm also flows to the main opening Am and the sub-opening As, which are outlets, and is returned to the internal space of the liquid container 321.

By the way, as shown in FIG. 11, the steam passage forming ribs Ru1 to 18 and Ro1 to 19 are not arranged at all in the peripheral space of the main opening Am. Therefore, the space around the main opening Am is a continuous space. This is to promptly return the liquid to the liquid container 321 when the condensate is generated or when the liquid in the liquid container 321 flows in when the kettle main body 200 falls.

<Liquid leakage suppression function when falling>
The kettle body 200 of the electric kettle 100 according to the embodiment of the present invention has a function of guiding the liquid in the liquid container 321 to the steam treatment unit 254 at the time of tipping over and suppressing the liquid from leaking to the outside. This function will be described below.

When the kettle body 200 of the electric kettle 100 according to the embodiment of the present invention is overturned, the kettle body 200 is in a state where the handle is diagonally located on the lower right side when viewed from the top surface side, as shown in FIG. Or, it is often located diagonally to the lower left. In such a case, the liquid in the liquid container 321 flows into the first vapor duct portion 254e through the through hole Pt of the vapor treatment unit 254. Then, the liquid flows into the inside of the steam treatment unit 254 through the intermediate steam passage PVM of the handle 400 and the second steam duct portion 254f of the steam treatment unit 254. At this time, the liquid level of the liquid is, for example, as shown in FIG. 16 (the position of the liquid level naturally depends on the amount of the liquid in the liquid container). That is, in this steam processing unit 254, the liquid is evenly distributed in the passage on one side of the steam passage Pm. Further, the steam passage forming ribs Ro1 to Ro9 and the steam passage forming ribs Ru1 to Ru18 are adapted to allow the passage of steam at appropriate places as described above. Therefore, even if the liquid boiled at the time of overturning flows into the vapor treatment unit 254, each part of the water surface is easily spatially communicated with the vapor holes such as the main opening Am and the sub-opening As. , It is prevented that the pressure due to steam is locally increased, and it becomes difficult for hot water to be blown out from the injection port portion 335B. This also applies when the kettle main body 200 is tilted to the opposite side to the side shown in FIG.

<Characteristics of the electric kettle according to the embodiment of the present invention>
(1)
In the steam processing unit 254 of the electric kettle 100 according to the embodiment of the present invention, as shown in FIG. 11, steam having branch points and confluence points in both the outer region and the inner region in the left and right side regions. A passage Pm is formed. Therefore, when the kettle body 200 of the electric kettle 100 falls over and the heated liquid in the liquid container 321 infiltrates into the steam treatment unit 254, for example, when the liquid level does not reach the main opening Am, the above Since either the left or right steam passage Pm leads to the main opening Am (that is, when the kettle body 200 is viewed from the top side, the handle 400 of the kettle body 200 is located diagonally to the lower right side. The steam passage Pm on the right side leads to the main opening Am, and when the handle 400 is located diagonally to the lower left side, the steam passage Pm on the left side leads to the main opening Am), steam escapes from the main opening Am from the heated liquid. be able to. Therefore, even when the kettle main body 200 falls and is in any of the above-mentioned states, it is possible to prevent a boosted region from being generated in the steam processing unit 254. Further, when the kettle main body 200 falls over and the heated liquid in the liquid container 321 infiltrates into the steam processing container, the entire vapor passage Pm can be used as the liquid storage space. Therefore, in the kettle main body 200, the steam passage Pm in the steam processing unit 254 can be sufficiently used as a liquid storage space.

(2)
In the steam processing unit 254 of the electric kettle 100 according to the embodiment of the present invention, as shown in FIG. 11, the lower steam passage forming ribs Ru1 and Ru2 arranged relatively close to the second steam duct portion 254f. , Ru5, Ru4, Ru6 and the upper steam passage forming ribs Ro1, Ro2, Ro5, Ro4, Ro6 have openings AP1, AP2, AP4, AP5, AP6 for guiding steam to the outside. Therefore, when the kettle main body 200 falls and the liquid in the liquid container 321 infiltrates into the steam processing container, the liquid is rapidly guided downward in a region relatively close to the second steam duct portion 254f. be able to. Therefore, the posture when the kettle main body 200 falls down can be stabilized, and the steam passage Pm in the steam processing unit 254 can be effectively used as a liquid storage space.

(3)
In the steam processing unit 254 of the electric kettle 100 according to the embodiment of the present invention, as shown in FIG. 11, the third lower steam passage forming rib Ru3, the thirda upper steam passage forming rib Ro3a, and the third b upper steam passage forming rib Ro3a. A steam blocking wall is formed on the left and right outer sides by the forming rib Ro3b, and an opening AP3 as a steam passage is formed in the center. That is, in this steam passage forming rib, the steam is blocked from flowing outward and guided to pass through the center. Therefore, when the kettle body 200 falls over and the liquid in the liquid container 321 infiltrates into the steam processing container, the liquid accumulates in the steam passage on the second steam duct portion 254f arrangement side and then the liquid is on the opposite side. Will flow into the steam passage of. Therefore, in the steam processing unit 254, when the kettle main body 200 falls, the liquid can be stored in stages by dividing it into two regions. Therefore, in the kettle main body 200, the steam passage Pm in the steam processing unit 254 can be easily effectively used as a liquid storage space.

(4)
In the steam processing unit 254 of the electric kettle 100 according to the embodiment of the present invention, the steam passage forming ribs Ru1 to 18 and Ro1 to 19 are not arranged at all in the peripheral space of the main opening Am which is the steam outlet. Therefore, in this steam processing unit 254, when a condensed liquid is generated in the steam passage Pm or when the liquid in the liquid container 321 flows into the inside of the steam passage Pm when the kettle main body 200 falls down, the liquid is promptly used. The liquid can be returned to the liquid container 321.

(5)
In the steam processing unit 254 of the electric kettle 100 according to the embodiment of the present invention, a steam passage Pm including a plurality of branch points and confluence points is formed. Therefore, in the steam processing unit 254, the steam from the second steam duct portion 254f toward the main opening Am and the sub-opening As is diffused in a plurality of directions at the branch point and mixed at the confluence point. Further, in the steam processing unit 254, not only the steam passage Pm is provided with a branch point, but also the steam passage Pm is three-dimensionally configured. Therefore, in this steam processing unit 254, the steam passage length can be increased. Therefore, in this steam treatment unit 254, as compared with the conventional steam treatment unit (steam recovery unit) having a flat steam passage without branching portions and merging portions, up to the main opening Am and the sub-opening As as outlets. The steam can be slowed down.

(6)
In the steam processing unit 254 of the electric kettle 100 according to the embodiment of the present invention, the lower steam passage forming ribs Ru1 to 18 are formed around the lower fence portion 254b and the upper fence portion 254o. And the steam passage Pm is formed by arranging a plurality of steam passage forming ribs composed of the upper steam passage forming ribs Ro1 to 19. Therefore, in the steam passage from the second steam duct portion 254f to the main opening Am, steam wraps around the surrounding wall portion. Therefore, in this steam processing unit 254, the steam passage length can be increased. Therefore, in this steam treatment unit 254, the momentum of steam can be reduced up to the main opening Am as an outlet, as compared with the conventional steam treatment unit (steam recovery unit) having no surrounding wall portion in the center.

(7)
In the steam processing unit 254 of the electric kettle 100 according to the embodiment of the present invention, a fourth steam passage forming rib composed of a fourth lower steam passage forming rib Ru4 and a fourth upper steam passage forming rib Ro4, a fifth lower A fifth steam passage forming rib composed of a side steam passage forming rib Ru5 and a fifth upper steam passage forming rib Ro5, a sixth composed of a sixth lower steam passage forming rib Ru6 and a sixth upper steam passage forming rib Ro6. Steam passage forming rib, 7th lower steam passage forming rib Ru7 and 7th upper steam passage forming rib Ro7, 7th steam passage forming rib, 8th lower steam passage forming rib Ru8 and 8th upper steam passage forming 8th steam passage forming rib composed of rib Ro8, 13th lower steam passage forming rib Ru13 and 13th upper steam passage forming rib Ro13 composed of 13th steam passage forming rib, 14th lower steam passage forming rib The 14th steam passage forming rib composed of Ru14 and the 14th upper steam passage forming rib Ro14 faces the enclosure wall portion composed of the lower enclosure wall portion 254b and the upper enclosure wall portion 254o through a gap. There is. Therefore, in the steam processing unit 254, steam can be efficiently diffused by utilizing the surrounding wall portion located substantially in the center.

(8)
In the steam processing unit 254 of the electric kettle 100 according to the embodiment of the present invention, the second steam duct portion 254f and the main opening Am as an outlet are composed of a lower enclosure wall portion 254b and an upper enclosure wall portion 254o. They face each other across the wall. Therefore, in this steam processing unit 254, the steam flow on the left and right sides of the surrounding wall portion can be made uniform. Therefore, the balance of the internal pressure of the steam treatment unit 254 can be improved.

<Modification example>
(A)
In the steam processing unit 254 according to the previous embodiment, the opening areas of the openings AP1, AP2, AP3, AP4, AP5, AP6, AP11, and AP12 were set to be large enough to allow steam to pass through. The sub-passage may be formed by making the size so small that the steam does not pass through. Even when such a change is made, there are a confluence point and a branch point in the steam passage Pm.

(B)
Although the sub-opening As was formed in the steam treatment unit 254 according to the previous embodiment, the sub-opening As may not be formed.

(C)
Although not specifically mentioned in the previous embodiment, it may be avoided to dispose the steam passage forming rib around the sub-opening As.

(Remarks)
The above-mentioned modified examples (A) to (C) may be applied individually to each example, or may be applied in combination of the two modified examples (A) and (B), or the modified examples (A) may be applied. And (C) may be applied in combination.

200: Kettle body (liquid heating container)
250: Lid unit (lid body)
254: Steam processing unit (steam processing container)
310: Container body 322: Print heater (heating source)
335B: Liquid injection port (spout part)
400: Handle Am: Main opening (second opening)
As: Sub-opening (second opening)
BP: Steam supply port (first opening)
Pm: Steam passage (passage)

Claims (3)

A container body having a spout portion provided on the front side and a heating source,
A lid that can be attached to and detached from the container body,
A handle attached to the rear side of the container body and
It has a first opening communicating with the internal space of the container body, a second opening formed at a position different from the first opening, and a passage extending from the first opening to the second opening, and the lid body. Equipped with a steam treatment container installed in the
The passage is a liquid heating container formed in each of the left and right side regions of the steam processing container. The steam processing container has a bottom wall portion and an outer wall portion extending upward from the edge of the bottom wall portion.
The liquid heating container according to claim 1, wherein each of the passages includes an outer passage portion passing through a region in the vicinity of the outer wall portion. The liquid heating container according to claim 1 or 2, wherein each of the passages includes an inner passage portion passing through a central region of the steam processing container.

Images