JP7189437B2 - electric water heater - Google Patents

Description

The present invention relates to electric water heaters such as electric kettles and electric pots.

In the past, "liquid heating having a container body, an outlet, 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 outlet In the container, the lid has a separate steam recovery unit for recovering steam generated within the container body, and the steam recovery unit includes a steam inlet for introducing steam and a drain for condensed water. A liquid heating container has been proposed, which has a drain hole, a bypass passage, and an exhaust port for introducing air, wherein the exhaust port is provided on the handle side and above the drain hole. (See, for example, Japanese Unexamined Patent Application Publication No. 2016-165494).

JP 2016-165494 A

By the way, among such liquid heating containers, there is one in which a power button, a switch mechanism, etc. are arranged in a cylindrical handle. In such a liquid heating container, the power button is provided so as to protrude from an opening on the upper side of the handle. Here, a gap is provided between the wall edge forming the opening and the power button so that the power button can operate. If a liquid such as water enters this gap, the liquid may reach the heating means along an electric wire extending from the switch mechanism toward the heating means. If the liquid reaches the heating means in this manner, various problems may occur.

An object of the present invention is to prevent the liquid from reaching the heating means through an electric wire extending from the switch device toward the heating means (heating source) in the liquid heating container (electric water heater) as described above. It is to reduce.

The electric water heater according to the present invention is
a container body having a heating source;
a cylindrical handle attached to the container body and having an opening formed on the upper side;
a switch mechanism provided in the handle;
a switch button attached to the upper side of the switch mechanism so as to protrude from the opening of the handle;
an electric wire extending from the switch mechanism toward the heat source,
further comprising a pair of opposing walls extending upward from the inner bottom surface of the handle and extending along the depth direction of the handle;
The facing wall passes under the switch mechanism,
The electric wire is passed between the opposing walls.

According to the above configuration, when liquid such as water enters through the gap between the switch button and the wall edge forming the opening, the liquid moves the switch button and the side wall of the switch mechanism away from the container body. After flowing along the side, it flows down to the outside of the opposing wall. On the other hand, the electric wire is located between the opposing walls as described above. Therefore, in this electric water heater, it is possible to reduce the risk that the liquid that has entered through the gap will come into contact with the electric wire. Therefore, in this electric water heater, it is possible to reduce the risk that the liquid will travel along the electric wire and reach the heat source in the case described above.

In the present invention,
A first inclined rib projecting inward from the inner surface of the handle and inclined downward from the container body side of the handle toward the opposite side thereof, and projecting outward from the outer surface of the switch mechanism. It is preferable that at least one of the second inclined ribs, which is inclined downward from the container body side of the handle toward the opposite side thereof, is further provided.

According to the above configuration, at least one of the first inclined rib and the second inclined rib can guide the liquid entering through the gap away from the container body. Therefore, in this electric water heater, it is possible to further reduce the risk of the liquid reaching the heating source.

In the present invention,
a first longitudinal rib extending upward from a portion of the first inclined rib located closer to the container body than the container body side end of the opening; and a container body greater than the container body side end of the opening. It is preferable that at least one longitudinal rib of the second longitudinal ribs extending upward from the portion of the second inclined rib located on the side is further provided.

According to the above configuration, at least one of the first vertical rib and the second vertical rib can reduce the risk that the liquid that has entered through the gap will flow toward the container body. Therefore, in this electric water heater, it is possible to further reduce the risk of the liquid reaching the heating source.

In the present invention,
The container body side of the outer passage formed on the outside of the opposing wall is closed,
It is preferable that the side of the outer passage opposite to the container body side is open.

According to the above configuration, the liquid that has flowed into the outer passage can be prevented from flowing down toward the container body.

In the present invention,
It is preferable that the inner and lower surfaces of the handle slope downward from the container body side toward the opposite side.

According to the above configuration, the liquid that has flowed into the outer passage can be actively moved away from the container body.

1 is an external perspective view of a kettle body of an electric kettle according to an embodiment of the present invention; FIG. It is a front view of the kettle body of the electric kettle according to the embodiment of the present invention. FIG. 3 is a sectional view taken along the line II of FIG. 2; 4 is an enlarged view of part A of FIG. 3; FIG. Fig. 2 is a front side perspective view showing a state in which a power button and a housing member are attached to a body member of a handle that constitutes the kettle body of the electric kettle according to the embodiment of the present invention; Fig. 2 is a front side perspective view showing a body member of a handle that constitutes the kettle body of the electric kettle according to the embodiment of the present invention; FIG. 4 is a front view of a body member of a handle that constitutes the kettle body of the electric kettle according to the embodiment of the present invention; Fig. 2 is a front view of a state in which a power button and a housing member are attached to a body member of a handle that constitutes the kettle body of the electric kettle according to the embodiment of the present invention; FIG. 9 is a cross-sectional view taken along the line II-II of FIG. 8; It is a longitudinal cross-sectional view of a state in which a power button and a housing member are attached to a body member of a handle that constitutes the kettle body of the electric kettle according to Modification (A). Fig. 10 is a vertical cross-sectional view showing a state in which a power button and a housing member are attached to a body member of a handle that constitutes the kettle body of the electric kettle according to Modification (B).

<Structure of Electric Kettle According to Embodiment of the Present Invention>
An electric kettle 100 according to an embodiment of the present invention is mainly composed of a kettle body 200 (see FIGS. 1 and 2) and a power base (not shown). The kettle body 200 is detachably mounted on the power base. A user of the electric kettle 100 can place the kettle body 200 on the power base when he wants to boil water, and remove the kettle body 200 from the power base when using hot water. The kettle body 200 is mainly composed of a body unit 300 and a lid unit 250, as shown in FIGS. 1-3. Note that the lid unit 250 is detachably attached to the main 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 unit 300 . The unit 250 is removed and the lid unit 250 is attached to the main unit 300 before boiling water. Below, the main unit 300, the lid unit 250 and the power base will be described in detail.

1. Main Unit Main unit 300 is mainly composed of container main body 310 and handle 400, as shown in FIGS. The container body 310 and the handle 400 will be described in detail below.

(1) Container Main Body The container main body 310 is mainly composed of a container unit 320, an exterior body 330, an electrical unit 340, and an overheat protection device 350, as shown in FIG. These constituent elements are described in detail below.

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

The liquid container 321, as shown in FIG. 3, 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 321B is a disc portion of stainless steel. The flange 321C is an annular body 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 fluorine resin.

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 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 that it can be seen. The heating wire is printed on the insulating 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. This heating wire is covered with an insulating coating layer except for a terminal connection portion (not shown), and a connection terminal (not shown) of the electrical unit 340 is in contact with the terminal connection portion.

The support fitting is for attaching the electrical unit 340 and the overheat protection device 350 to the bottom wall portion 321B of the liquid container 321, and for fixing the liquid container 321 to the bottom wall member 333 (described later) of the exterior body 330. and extends downward from a plurality of locations on 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 unit 300 . A notch (not shown) for receiving the handle 400 is formed in the upper end side of the side wall member 331 .

The bottom wall member 333 is a substantially circular bowl-shaped resin member, and covers the bottom side of the container body 310 as shown in FIGS.

3 and 4, the shoulder member 335 is a substantially cylindrical resin member positioned above the liquid container 321 and connected via the flange portion 321C of the liquid container 321. Mainly, as shown in FIG. 4, a main body portion 335A, an injection port portion 335B, a flange portion (not shown), a flange receiving portion 335D, an eaves portion 335E, a first upper screw receiving portion 335F, and a first lower side It is formed of a screw receiving portion 335G and a block portion 335H. The body portion 335A is a cylindrical resin molding. The body portion 335A is formed with a pawl housing space capable of housing a pawl portion (not shown) of a lock lever 255A of a lock lever mechanism 255 (see FIG. 1), which will be described later. When the lid unit 250 is attached to the main body unit 300, the claw portion is accommodated in the claw accommodation space. The liquid injection port 335B is a part 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. As shown in FIG. The flange portion extends outward from the upper end of the body portion 335A and then extends downward. The flange receiving portion 335D is an annular portion extending inwardly from the lower end of the main body portion 335A as shown in FIG. 4, and as shown in FIG. 321C has been received. The eaves portion 335E is formed on the back side of the shoulder member 335, that is, on the side opposite to the injection port portion 335B, as shown in FIG. The eaves portion is a curved wall that bulges upward, is positioned above the flange portion, and extends outward. The side wall portions extend downward from both ends of the eaves portion and extend 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. The first screw hole is a hole for passing a screw BS (see FIG. 4) and extends along the depth direction (front-rear direction). A pair of first lower screw receiving portions 335G are formed on the lower side of the rear surface of the main body portion 335A. As shown in FIG. 4, a second screw hole is formed in the first lower screw receiving portion 335G. This second screw hole is a through hole for passing a screw BS (see FIG. 4), and extends along the width direction (horizontal direction). The block portion 335H is a substantially square plate-shaped portion, and has a pair of right and left through holes formed along the front-rear direction. Slide rail portions are formed on both side surfaces of the block portion 335H.

(1-3) Electrical Unit The electrical unit 340, as shown in FIG. (not shown), a pair of bimetal type thermostat parts (not shown) and a power base connection boss ME.

The electrical unit 340 is fixed to the support base via a support bracket. An electric circuit is formed on the support base by means of a metal plate for forming an electric circuit. This electric circuit incorporates a power supply base connection terminal and a bimetal type thermostat. That is, when the kettle body 200 is removed from the power base or the bimetal type thermostat section is opened, this electric circuit is opened.

The bimetal type thermostat section is for preventing dry heating, and is mainly composed of a contact (not shown), a contact opening mechanism (not shown) and a bimetal (not shown). Both of the two bimetal type thermostat portions are arranged near the outer periphery of the substantially central portion. Both of the bimetals are arranged on the heating wire near the outer circumference of the substantially central portion via an insulating coating layer. Also, this 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 normally positioned directly below the contact holding member (not shown). As a result, the contact holding member is pushed downward by the tip portion of the lever to open the contacts.

The power base connection boss ME is detachably fitted into the boss receiving portion of the power base. When the power board connection boss ME is fitted into the boss receiving part of the power board, the two power board connecting terminal parts arranged on the power board connection boss ME and the two power board connecting terminal parts arranged on the boss receiving part of the power board are connected. are connected to each other, thereby forming a power supply circuit. That is, in such a case, if the power base is connected to an external power supply, the electric circuit inside the kettle body 200 can be energized, that is, the print heater 322 can be heated.

(1-4) Excess Temperature Rise Prevention Device The overheat prevention device 350 is mainly composed of a body member (not shown), a one-shot type thermostat (not shown) and a coil spring (not shown). there is

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

(2) Handle The handle 400 is held by the user when the user carries the kettle body 200, and is arranged behind the body unit 300 as shown in FIGS. there is As shown in FIG. 3, this 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. The lower end of the hanging portion of the exterior body 410 is a free end, and the end opposite to the hanging portion of the beam portion (that is, the end on the base side) is the side wall member 331 of the container body 310 and the shoulder. It is joined on the back side of the member 335 . The beam portion of the exterior body 410 faces the lid unit 250 when the lid unit 250 is attached to the main unit 300, as shown in FIG. Inside the beam portion of the exterior body 410, a power switch mechanism 420 is arranged 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.

By the way, this exterior body 410 is mainly composed of a body member 411 and a cover member 412, as shown in FIG. As shown in FIG. 6, the main body member 411 mainly includes a main body portion 411A, a second upper screw receiving portion 411B, a second lower screw receiving portion 411C, a slide mounting structure portion 411D, a guide wall portion 411E and a portal. It is composed of a wall portion 411F. The body portion 411A, as shown in FIG. 6, is mainly formed of a beam portion 411a and a hanging portion 411b. The beam portion 411a is a concave portion extending substantially horizontally as shown in FIG. A power switch mechanism 420 is accommodated in the beam portion 411a. By the way, a notch Rp is formed in the bottom portion of the base end side of the beam portion 411a. An electric wire (not shown) extending from the power switch mechanism 420 toward the electrical unit 340 and the print heater 322 is inserted through the notch Rp. The drooping portion 411b is a concave portion that extends downward as the distance from the tip of the beam portion 411a increases, as shown in FIG. As shown in FIG. 9, a vent hole HL is formed at the lower end of the hanging portion 411b. In addition, when a liquid such as water enters from the gap between the "power button 421" and the "edge of the cover member 412 forming the opening AP", the drain hole HL serves to discharge the liquid to the outside. is responsible for As shown in FIG. 6, the second upper screw receiving portion 411B is a plate-like portion that extends upward from the upper end near the base end of the beam portion 411a of the main body portion 411A. As shown in FIG. 6, a third screw hole Hc is formed in the second upper screw receiving portion 411B. This third screw hole Hc is a hole for passing a screw BS (see FIG. 4), and extends along the depth direction (front-rear direction). In this state, it matches the first screw hole of the first upper screw receiving portion 335F of the shoulder member 335. As shown in FIG. That is, when the handle 400 is completely fitted into the shoulder member 335, the first screw hole and the third screw hole Hc form a pair of communicating holes. The handle 400 is firmly fastened to the shoulder member 335 by passing a screw through the communication hole. As shown in FIG. 6, the second lower screw receiving portion 411C extends downward from the left and right lower ends of the proximal portion of the beam portion 411a. As shown in FIG. 6, a fourth screw hole Hd is formed in the second lower screw receiving portion 411C. The fourth screw hole Hd is a through hole for passing a screw BS (see FIG. 4), and extends in the width direction (horizontal direction) as shown in FIG. 335, it is located outside the second screw hole of the first lower screw receiving portion 335G of the shoulder member 335 and coincides with the second screw hole. That is, when the handle 400 is completely fitted into the shoulder member 335, the second screw hole and the fourth screw hole Hd form a pair of communicating holes. The handle 400 is firmly fastened to the shoulder member 335 by passing a screw BS (see FIG. 4) through the communication hole. The slide mounting structure portion 411D is formed at the proximal end portion of the beam portion 411a as shown in FIG. As shown in FIG. 6, a pair of semi-U-shaped outer rail grooves Go are formed on the outer side of the slide mounting structure 411D, and a pair of inner rail grooves Gi are formed on the inner side. there is An edge portion of the side wall member 331 located outside the notch of the side wall member 331 of the exterior body 330 is slidably fitted into the outer rail groove Go. In other words, after the upper side of the inner rail groove Gi of the handle 400 is aligned with the lower side of the slide rail portion Ps of the shoulder member 335, the handle 400 is slid from the bottom to the shoulder member 335 so that the shoulder member 335 is moved. It can also be said that the handle 400 is slidably fitted. After completion of the sliding fitting described above, the upper end surface of the proximal end portion of the main body member 411 of the handle 400 contacts the lower end surface of the side wall portion EP of the eaves portion 335E of the shoulder member 335 . In this state, screws BS (see FIG. 4) are screwed into the communication hole consisting of the first screw hole and the third screw hole Hc and the communication hole consisting of the second screw hole and the fourth screw hole Hd. Fastening of handle 400 to member 335 is completed. A slide rail portion of the shoulder member 335 is slidably fitted into the inner rail groove Gi from top to bottom. As shown in FIG. 6, the guide wall portion 411E is a pair of left and right wall portions extending along the depth direction of the beam portion 411a in the vicinity of both side walls of the beam portion 411a. extending towards. The guide wall portion 411E passes under the housing member 425 of the power switch mechanism 420 when the electric kettle 100 is completed (see FIGS. 4, 5, 8 and 9, etc.). As shown in FIG. 6, an inner passage Ai is formed between these guide wall portions 411E, and an outer passage Ao is formed between the "guide wall portion 411E" and the "side wall portion Ws of the beam portion 411a". It has become. A notch Rp is positioned on the base end side of the inner passage Ai. An electric wire extending from the power switch mechanism 420 is inserted through the inner passage Ai. Then, this electric wire is led to the container main body 310 through the notch Rp. Further, as shown in FIG. 4, the proximal end side of the outer passage Ao is blocked by the block portion 335H of the shoulder member 335. As shown in FIG. Further, as shown in FIG. 7, an opening As is formed on the distal end side of the outer passage Ao, and the outer passage Ao communicates with the hanging portion 411b through the opening As. That is, when the liquid flows into the outer passage Ao, the liquid flows toward the tip side of the outer passage Ao, and then falls to the hanging portion 411b through the opening As. The gate-shaped wall portion 411F is a gate-shaped wall portion formed on the tip side of the beam portion 411a as shown in FIGS. there is An opening OP is formed below the center of the gate-shaped wall portion 411F. This opening OP serves to flow the liquid to the hanging portion 411b in the event that the liquid flowing into the outer passage Ao exceeds the guide wall portion 411E and enters the inner passage Ai. Further, the gate-shaped wall portion 411F is positioned directly below the housing member 425 of the power switch mechanism 420 when the electric kettle 100 is completed (see FIGS. 4, 5, 8 and 9, etc.).

As shown in FIG. 4, the power switch mechanism 420 mainly includes a power button 421, a lever-type lift mechanism 422, a plate spring (not shown), a movable contact (not shown), a fixed contact (not shown), and a ), a push rod (not shown), a bimetal 424 , a housing member 425 , a compartment packing 427 and a neon lamp 426 . The power switch mechanism 420 is connected to the electrical unit 340 of the main unit 300 and the print heater 322 via electric wires to form one electric circuit. The power button 421 is a transparent cylindrical body, pivotally supported on the upper end of the housing 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 Also, as shown in FIG. 4, the power button 421 is pivotally supported on the upper end of the housing member 425 so that its front end is positioned directly above the housing member 425 and its rear end is positioned behind the housing member 425 . ing. The power button 421 is inclined toward the tip side of the handle 400 (opposite side of the container body) regardless of whether the lever-type lift mechanism 422 is in the ON state or the OFF state. The power button 421 is engaged with an arm portion 422a of a 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 around the fulcrum (not shown), and the arm portion 422a moves backward. When pushed, the tip of the lever body rotates upward about the fulcrum. The leaf spring portion is connected to the tip portion of the lever body. The movable contact is connected to the lever body via the leaf spring portion. The fixed contact is fixedly arranged at a position facing the movable contact. The push rod is inserted through a through hole formed in the bottom plate of the lever-type lift mechanism 422 . This 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 to face the push rod on the opposite side of the bottom plate (not shown) of the lever type lift mechanism 422 from the side where the lever body is arranged. Then, when the bimetal 424 reaches a specified temperature, it deforms so as to warp upward. In addition, in the embodiment of the present invention, the specified temperature of this bimetal is approximately 100.degree. The accommodating member 425 accommodates the lever-type lift mechanism 422 , fixed contact, movable contact, leaf spring portion, push rod, bimetal and partition packing 427 . The accommodation member 425 is partitioned into an exposure space and a mechanism accommodation space by a partition packing 427 . The exposed space communicates with the intermediate steampath PVM and the mechanism housing space is isolated from the intermediate steampath PVM. In the present embodiment, a bimetal 424 is arranged in the exposed space, and a lever-type lift mechanism 422, a fixed contact, a movable contact and a plate spring are arranged in the contact forming space. That is, when water vapor passes through the intermediate vapor passage PVM, the bimetal 424 is exposed to water vapor, but the lever-type lift mechanism 422, the fixed contact, the movable contact, and the leaf spring portion are not exposed to 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 accordingly, and as a result, the tip 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 closes, 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 steam and reaches a specified temperature while the push rod is pushed out to the bimetal side, the bimetal 424 pushes the push rod out to the lever body side. As a result, the lever body rotates upward, the movable contact is separated from the fixed contact, the arm portion 422a is moved rearward, and the power button 421 is pushed back forward.

Neon lamp 426 is located near power button 421, as shown in FIGS. The neon lamp 426 is lit when the contacts of the power switch mechanism 420 and the bimetal thermostat section are closed, and the contacts of the power switch mechanism 420 and the bimetal thermostat section are opened, and the overheat prevention device 350 is turned on. turns off when the is activated. As described above, since the power button 421 is transparent, the user can visually recognize whether the neon lamp 426 is on or off.

An intermediate vapor passage PVM is formed proximally of the upper end portion of handle 400, as shown in FIG. 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 when the lid unit 250 is attached to the main unit 300. As shown in FIG. That is, when the liquid in the liquid container 321 is heated by the print heater 322 in a state where the cover unit 250 is attached to the main body unit 300, the liquid boils and becomes vapor. It is discharged to the outside space through the steam passage PVM and the second steam passage PV2. Also, as mentioned above, the bimetal 424 is exposed in this intermediate vaporpath PVM. That is, when the steam reaches the intermediate steam passage PVM, the bimetal 424 is heated by the heat of the steam. is cut off. It should be noted that the bimetal 424 will self-reset when cooled to a certain temperature.

2. Lid Unit The lid unit 250 is a detachable substantially cylindrical lid covering the upper part of the main unit 300. As shown in FIGS. It is composed of a liquid injection passage opening/closing mechanism 253 , a first steam passage PV<b>1 , a second steam passage PV<b>2 and a lock lever mechanism 255 .

The exterior body 251, as shown in FIG. 3, is mainly composed of an upper panel 251A and a lower panel 251B. As shown in FIGS. 1 to 3, the upper panel 251A is formed with openings for exposing the lock lever 255A and the open/close button 253A to the outside. A liquid injection passage PL and a first vapor passage PV1 are formed in the lower panel 251B. A second steam passage PV2 is formed in the space between the upper panel 251A and the lower panel 251B. The liquid injection passage PL is opened and closed by the liquid injection passage opening/closing mechanism 253 .

The liquid injection passage opening/closing mechanism 253 is a mechanism for opening and closing the liquid injection passage PL, and as shown in FIG. 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. are arranged. The open/close button 253A is a substantially cylindrical 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. 3, the open/close button 253A is connected to an open/close valve 253C. The open/close button 253A is biased upward by a coil spring 253B. When the user of the electric kettle 100 presses the opening/closing button 253A downward against the biasing force of the coil spring 253B, the opening/closing valve 253C is pushed downward in conjunction with the pressing operation, and the liquid is injected. Passage PL is opened. At this time, the open state of the on-off valve 253C is maintained by the locking mechanism. By tilting the kettle body 200 toward the spout side with the liquid filling passage PL opened as described above, the user can pour the liquid inside the liquid container 321 into another container such as a tea cup or a teacup. can be poured. Thereafter, when the user presses the open/close button 253A again, the lock of the open/close valve 253C by the lock mechanism is released, and the open/close valve 253C and the open/close button 253A are pushed back upward by the biasing force of the coil spring 253B. The liquid injection passage PL is closed by the open/close valve 253C. At this time, even if the user tilts the kettle body 200 toward the spout, the liquid inside the liquid container 321 is dammed up by the on-off valve 253C.

The first vapor passage PV1 is a passage that communicates the internal space of the liquid container 321 with the intermediate vapor passage PVM provided in the handle 400, and is arranged on the handle side of the lower panel 251B. The first steam passage PV1 is a passage independent of the liquid injection passage PL. On the other hand, the second steam passage PV2 is a passage that communicates between the intermediate steam passage PVM and the external space, and extends from the handle side to the spout side in the space between the upper panel 251A and the lower panel 251B. formed. It should be noted that this second steam passage PV2 is also a passage independent from the injection passage PL, like the first steam passage PV1. That is, the vapor generated by heating the liquid inside the liquid container 321 passes through the first vapor passage PV1, the intermediate vapor passage PVM, and the second vapor passage PV2 in order, and is discharged from the inlet portion 335B to the external space. will be

The lock lever mechanism 255 is a mechanism for locking the lid unit 250 to the main unit 300, and as shown in FIGS. 1 and 2, mainly includes a pair of lock levers 255A and 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 retract in the horizontal direction. The lock levers 255A are arranged on the upper panel 251A so as to face each other with the coil spring therebetween. That is, the pair of lock levers 255A are urged left and right outward by the coil springs. Therefore, when 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. , the lid unit 250 is locked to the main unit 300 . When the user wants to remove the lid unit 250 from the body unit 300, the user holds the lock levers 255A on both sides toward the center against the urging force of the coil spring, and the body portion 335A of the shoulder member 335 is removed. The locking claw is pulled out from the space formed in , and the lid unit 250 is pulled up in this state. As a result, lid unit 250 is removed from main unit 300 .

3. Power supply stand and a power plug (not shown).

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

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

The connection terminal portion is disposed on the boss receiving portion, and as described above, in the state where the kettle body 200 is placed on the power supply base, the two power supply base connection connections provided on the power supply base connection boss ME are connected. Connected to the terminal. A power cord is connected to the connection terminal portion. A power plug for connecting an external power source is attached to the tip of the power cord.

The lower cover is a substantially disc-shaped member that covers the lower side of the power base.

<Characteristics of the electric kettle according to the embodiment of the present invention>
(1)
In the electric kettle 100 according to the embodiment of the present invention, when liquid such as water enters from the gap between the "power button 421" and the "edge of the cover member 412 forming the opening AP", the liquid , along the wall surface of the power button 421 and the outer wall surface of the housing member 425 of the power switch mechanism 420 toward the side away from the container body 310, and then flow down to the outer passage Ao. On the other hand, the electric wire is passed through the inner passage Ai as described above. Therefore, in this electric kettle 100, it is possible to reduce the possibility that the liquid that has entered through the above-described gap will come into contact with the electric wire. Therefore, in this electric kettle 100, it is possible to reduce the risk of the liquid reaching the print heater 322 along the electric wire in the case described above.

(2)
In the electric kettle 100 according to the embodiment of the present invention, the proximal side of the outer passage Ao is closed and the distal side is open. Therefore, in this electric kettle 100, it is possible to prevent the liquid that has flowed into the outer passage Ao from flowing down to the container body side.

<Modification>
(A)
Although not specifically mentioned in the previous embodiment, a slanted rib R1 as shown in FIG. However, it may be formed on the outer surface of the side wall of the housing member 425 of the power switch mechanism 420, or may be formed on the two surfaces. Note that, as shown in FIG. 10 , the inclined rib R1 is inclined downward from the proximal side of the handle 400 toward the distal side. By providing the inclined rib R1 in this way, when liquid such as water enters from the gap between the "power button 421" and the "edge of the cover member 412 forming the opening AP", the liquid is prevented from entering the container body. 310 can be guided further away. Therefore, the electric kettle 100 can further reduce the risk of the liquid reaching the print heater 322 .

(B)
Although not specifically mentioned in the previous embodiment, inclined ribs R1 and vertical ribs R2 as shown in FIG. may be formed on the outer surface of the side wall of the housing member 425 of the power switch mechanism 420, or may be formed on the two surfaces. Note that, as shown in FIG. 11, the inclined rib R1 is inclined downward from the proximal side of the handle 400 toward the distal side, and the vertical rib R2 extends vertically from the end of the inclined rib R1 on the proximal side. extending towards. By providing the inclined rib R1 and the vertical rib R2 in this way, when liquid such as water enters from the gap between the "power button 421" and the "edge of the cover member 412 forming the opening AP", the The liquid can be guided further away from the container body 310, and the risk of the liquid flowing toward the container body can be reduced. Therefore, the electric kettle 100 can further reduce the risk of the liquid reaching the print heater 322 .

(C)
Although not particularly mentioned in the previous embodiment, the inner surface of the bottom wall of the beam portion 411a of the main body member 411 of the exterior body 410 of the handle 400 is inclined downward from the proximal side toward the distal side of the handle 400. The shape of the beam portion 411a may be designed so as to do so.

(D)
Although the electric kettle 100 according to the previous embodiment employs the print heater 322 as a heat source, other heaters such as a sheathed heater may be employed as the heat source.

(E)
Although the present invention was applied to the electric kettle 100 in the previous embodiment, the present invention may be applied to other electric water heaters such as electric kettles.

(remarks)
The above modifications (A) to (E) may be applied individually, may be applied in combination of two examples, may be applied in combination of three examples, and may be applied in four examples. may be applied in combination, or all five examples may be applied in combination.

100: electric kettle (electric water heater)
310: container body 322: print heater (heating source)
400: Handle 411E: Guide wall (opposing wall)
420: Power switch mechanism (switch mechanism)
421 : Power button (switch button)
Ao: Outer passage R1: Inclined rib (first inclined rib)
R2: Vertical rib (first vertical rib)
AP: Aperture (aperture)

Claims (5)

a container body having a heating source;
a cylindrical handle attached to the container body and having an opening formed on the upper side;
a switch mechanism provided in the handle;
a switch button attached to the upper side of the switch mechanism so as to protrude from the opening of the handle;
an electric wire extending from the switch mechanism toward the heat source,
further comprising a pair of opposing walls extending upward from the inner bottom surface of the handle and extending along the depth direction of the handle;
The facing wall passes under the switch mechanism,
The electric water heater, wherein the electric wire is passed between the opposing walls. A first inclined rib projecting inward from the inner surface of the handle and inclined downward from the container body side of the handle toward the opposite side thereof, and projecting outward from the outer surface of the switch mechanism. 2. The electric water heater according to claim 1, further comprising at least one inclined rib of the second inclined ribs which is inclined downward from the container body side of the handle toward the opposite side thereof. a first longitudinal rib extending upward from a portion of the first inclined rib located closer to the container body than the container body side end of the opening; and a container body greater than the container body side end of the opening. 3. The electric water heater according to claim 2, further comprising at least one longitudinal rib of second longitudinal ribs extending upwardly from a portion of said second slanted rib located laterally. The container body side of the outer passage formed on the outside of the opposing wall is closed,
The electric water heater according to any one of claims 1 to 3, wherein the side of the outer passage opposite to the container body side is open. The electric water heater according to any one of claims 1 to 4, wherein the inner and lower surfaces of the handle are inclined downward from the container body side toward the opposite side.

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