JP5707927B2 - Electric kettle - Google Patents

Description

  The present invention relates to a configuration of an electric kettle having a detection function such as a lid mounting state.

  Recently, instead of an electric pot that needs to be energized at all times, there is an electric kettle that can easily and quickly boil by energizing heating means only when hot water is required. It is useful as a water heater with high energy saving performance.

  This electric kettle is composed of a container body provided with a liquid container for containing a liquid, a detachable lid that covers the opening of the container body, and a heating means such as a heater for heating the liquid container. (See the configuration of Patent Documents 1 and 2).

JP 2009-285170 A JP 2008-212316 A

  By the way, in the electric kettle as described above, since the lid body is detachable from the opening of the container body as described above, it is also possible to perform boiling without attaching the lid body securely. If boiling water is used in such a state, there is a problem that spilling occurs when boiling.

  From the viewpoint of preventing such spilling, the electric kettle is generally provided with a mechanical hot water lock mechanism that closes the hot water pouring passage for hot water supply when boiling water. When the lock switch is in the hot water supply unlock state, hot water may be spilled through the hot water outlet as described above.

The present invention has been made to solve such a problem, in an electric kettle as described above, electrically detecting the lid attached state with respect to the opening portion of the container body, a hot water lock state of the hot water supply locking mechanism It is an object of the present invention to provide an electric kettle that can perform a safe boiling without spillage by providing a detection means.

  In order to achieve the same object, each invention of the present application includes the following problem solving means.

(1) Invention of Claim 1 The electric kettle of this invention is a container main body provided with the liquid container which puts a liquid, the detachable cover body which covers the opening part of this container main body, and the heating means which heats the said liquid container. And a hot water supply lock means for closing the hot water pouring passage, characterized in that a hot water supply lock state detection means for electrically detecting the hot water supply lock state of the hot water supply lock means is provided.

  According to such a configuration, it is possible to automatically detect the hot water supply lock state of the hot water supply lock means as well as whether or not the lid is attached, and when the hot water supply lock state of the hot water supply lock means is released at the time of boiling water. In such a case, an alarm means such as a buzzer can be operated to notify the user or to prevent power supply to a heating means such as a water heater.

  As a result, in the open state of the hot water pouring passage where the locked state of the hot water supply locking means is released, the occurrence of an event such as hot water boiling and spilling of hot water is reliably avoided.

(2) Invention of Claim 2 The electric kettle according to the present invention comprises a container body provided with a liquid container for containing a liquid, a detachable lid for covering the opening of the container body, and a heating means for heating the liquid container. A hot water supply locking means for closing the hot water pouring passage, a lid mounting state detecting means for electrically detecting a mounting state of the lid body with respect to the opening of the container body, and a hot water supply locking state of the hot water supply locking means. An electric kettle comprising a hot water supply lock state detection means for detecting, wherein the two detection means of the lid mounting state detection means and the hot water supply lock state detection means are constituted by a single detection means. .

According to such a configuration, since the two detection means of the lid attachment state detection means and the hot water supply lock state detection means are provided, the suitability of the attachment state as well as the presence / absence of attachment of the lid body, the hot water supply lock of the hot water supply lock means The state can be automatically detected, and the two detection means of the lid mounting state detection means and the hot water supply lock state detection means can be easily configured with a single detection means, which is realized at lower cost. Will be able to.

  As a result of the above, according to the present invention, it is possible to automatically detect the hot water supply lock state as well as the presence / absence of the lid attachment and the suitability of the attachment state. The alarm means can be operated to notify the user or to prevent the power supply to the heating means such as a water heater.

  As a result, in a state where there is a risk of spilling, excessive boiling of water is performed, and occurrence of an event such as spilling of hot water is reliably avoided.

It is sectional drawing which shows the structure of the electric kettle main body which concerns on the reference example of this invention. It is an expanded sectional view of the principal part side of the electric kettle. It is a rear view of the principal part side part of the electric kettle. It is explanatory drawing which shows the effect | action in the inclination state of the left-right direction of the cover body side principal part of the same electric kettle. It is explanatory drawing which shows the effect | action in the fall state of the cover body side principal part of the same electric kettle. It is a block diagram of the control system of the same electric kettle. It is a sectional view showing the configuration of a main part of an electric kettle according to the shape condition of the embodiment of the present invention. It is a block diagram of the control system of the same electric kettle.

<Reference example>
Hereinafter, a configuration of a reference example of an electric kettle according to the present invention will be described in detail with reference to the accompanying drawings.

First, FIG. 1 shows an overall configuration of an electric kettle body according to a reference example which is a premise of an embodiment of the present invention described later , and FIG. 2 shows a configuration of a lid mounting state detection unit of the electric kettle. 3 shows the configuration of the lid-side magnet installation portion of the electric kettle, FIGS. 4 and 5 show the operation of the magnet installation portion, and FIG. 6 shows the control portion of the electric kettle. Each configuration is shown.

(Configuration of electric kettle body)
First, as shown in FIG. 1, an electric kettle 1 of this reference example includes a container body 1A for hot water storage, a lid body 2 that opens and closes an upper opening of the container body 1A, and a liquid container 3 of the container body 1A. From the upper end side with respect to the back part of the container main body 1A, the heater 4 for boiling water which is a heating means for heating the portion when boiling the water, the hot water outlet 5 for supplying the hot water in the liquid container 3 to the outside, A substrate installation portion 11C and a handle portion 11e attached in a state extending to the lower end side are provided.

In the case of this reference example , the container main body 1A is a bottomed cylindrical body that forms an inner container portion of the liquid container 3, and a first cylindrical body 3a made of stainless steel having an upper opening, and the first A first vacuum heat insulating space 3c having a predetermined width is formed between the outer periphery of the cylindrical body 3a and the outer peripheral surface of the first cylindrical body 3a. To cover the entire circumference of the opening of the liquid container 3 and the stainless steel second cylinder 3b forming the vacuum double-walled liquid container 3 together with the first cylinder 3a. The shoulder member 11 is made of synthetic resin and has a sleeve structure, and the bottom member 1B has a tray structure that covers the entire bottom portion including the heater 4 of the liquid container 3.

  The bottom portion 31 of the first cylindrical body 3a is flat and the side portion 32 is formed in a cylindrical body having a substantially equal diameter in the vertical direction, while the upper end opening edge 33 portion is radially outward as it goes upward. It is formed in a flare shape whose diameter gradually increases in the direction.

  In the second cylinder 3b, the side portion 35 has a substantially equal diameter from the upper end to the lower end, and the straight opening edge 34 on the uppermost end side is the uppermost end side of the upper end side opening edge 33 of the first cylinder 3a. Are joined to a straight edge (an edge part extending straight from the upper end side of the flare part to a predetermined width straight), and the lower end 35a side is a predetermined dimension lower than the outer peripheral surface of the bottom 31 of the first cylindrical body 3a. The second vacuum that extends long to the position on the side, is located below the outer peripheral surface of the bottom 31 of the first cylindrical body 3a, has a predetermined width in the radial direction, and a predetermined depth in the vertical direction. In order to form the heat insulation space 3d, it is bent in a U shape inward in the radial direction, joined to the inside of the outer peripheral surface of the bottom 31 of the first cylinder 3a, and the bottom 31 of the first cylinder 3a. Between the outer peripheral surface, the side-side first vacuum heat insulating space 3c is formed so as to surround the heater 4. It forms the bottom side of the successive predetermined descending heights second vacuum insulation space 3d.

  The second cylindrical body 3b has a bead portion 36 having a semicircular cross section over the entire circumference in a shape that protrudes toward the outer peripheral surface at the upper end thereof, whereby the second and first parts are formed. The rigidity of the cylinders 3b, 3a is increased, and the contraction deformation after evacuation of the liquid container 3 is avoided.

  The liquid container 3 of the container main body 1A thus formed has a plane C-shape extending in the circumferential direction on the lower surface side of the bottom 31 of the first cylindrical body 3a forming the inner container portion. The bottom heater 1B made of synthetic resin having a tray structure is integrally fitted so as to cover the entire lower part of the second cylindrical body 3b.

  The water heater 4 is formed, for example, by forming a flat C-shaped heater embedding convex portion 4b having a predetermined height on the lower side of the inverted trapezoidal cross section on the outer periphery of a flat heater plate 4a having good heat conductivity. It is installed in a plane C shape so as to be embedded in the convex portion 4b. Power supply lead terminals for connecting power supply lead wires, which are power supply wirings, are provided on both end sides so as to protrude from both ends of the heater embedding convex portion 4b (not shown).

  On the other hand, on the lower surface side of the heater plate 4a, for example, located on the inner peripheral side of the heater-embedded convex portion 4b, a safety bimetal for detecting emptying, a bar electrode 8 for power reception, and a sleeve electrode 9. A cylindrical power receiving coupler 10 including a sleeve-shaped insertion / removal guide cylinder is provided.

  The bottom member 1B covers and integrates them from the lower side, and is fitted and integrated with the outer periphery of the lower end of the second cylinder 3b as described above. A circular opening 17 for inserting the power supply base 20 side power supply plug 20c corresponding to the coupler 10 is provided.

  On the other hand, a sleeve-like shoulder member 11 made of the above-mentioned synthetic resin is provided at the upper end opening edge of the liquid container 3 (joint portion between the first and second cylinders 3a, 3b upper end opening edges 33, 34). Is fitted and fixed.

  The shoulder member 11 includes a lower mouth portion (lower half portion of the hot water pouring outlet 5) 11a protruding to the front end side, a frame portion 11b for sleeve-like lid fitting over the entire circumferential direction, and a rear end side of the frame portion 11b. A synthetic resin substrate installation portion 11C that protrudes from the handle base portion 11d into a U-shaped section having a predetermined width and extends straight to the rear outer peripheral edge of the lower bottom member 1B, the upper end side of the substrate installation portion 11C, and the frame A synthetic resin handle base portion 11d extending rearward by a predetermined dimension from a portion where the rear end portions of the portion 11b intersect, and a synthetic resin bent substantially perpendicularly downward from a rear end portion of the handle base portion 11d extending rearward. And a hook-shaped handle portion 11e.

  The sleeve-shaped frame portion 11b has an insertion groove having a predetermined depth into which the upper end side joining edge portion of the first and second cylindrical bodies 3a and 3b is fitted in an intermediate portion of the lower end side end portion 12a extending in the circumferential direction. A skirt-like cover wall 12c is provided on the outer peripheral portion side so as to extend longer than the end 12a surface having the fitting groove 12b by a predetermined dimension.

  The frame portion 11b is provided with a magnetic sensor RS including a reed switch located at a lower portion of the handle base portion 11d on the rear end side. The sensing portion of the magnetic sensor RS closes a lid body 2 which will be described later. In this state, it is made to correspond coaxially to the central portion (black circle portion in FIG. 4) of the magnet installation portion 50 as shown in FIG. 3 provided at the rear end portion of the lower plate 2b of the lid 2. Yes.

  In addition, the magnet installation part 50 exists in the plate | board thickness enlarged part of the cylindrical wall rear-end part of the lower board 2b of the cover body 2 so that it may mention later, and as a whole, it extends in the circumferential direction right and left as shown in FIG. A magnet MG having a spherical structure is housed in an arc-shaped magnet rolling chamber, and the magnet rolling chamber has a bottom portion 50a having an arc surface having a uniform curvature in the left-right direction and a predetermined width or more, and a front and rear It is formed with a depth dimension of a predetermined value or more in the direction.

  The handle base portion 11d and the handle portion 11e extending in a bowl shape downward from the handle base portion 11d are formed as a hollow cylindrical body as a whole, and are supported on the upper end side of the bent portion toward the lower side. An operation switch (power switch) 7 pivotally supported by a shaft 7a is provided.

  In addition, the above-described substrate installation portion 11C extending downward from the rear end of the frame portion 11b and the handle base portion 11d is, for example, on both sides of the box portion 14a whose horizontal cross-sectional shape is a U-shape. A synthetic resin back cover (not shown) having a predetermined width extending in an arc shape along the outer peripheral surface of the second cylindrical body 3b is provided. The box portion 14a and the back cover are connected and integrated with each other by connecting the shoulder member 11 and the bottom member 1B to each other by engaging the lower end side with the inside of the outer peripheral edge of the bottom member 1B. The container main body 1A capable of a stable pouring operation with the handle portion 11e is formed in such a manner that the liquid container 3 having the vacuum double wall structure is held between them.

  In the box portion 14a, a power board unit 15a having a predetermined width and a predetermined length is installed via studs 15b and 15b and screws 15c and 15c so as to extend in the vertical direction.

  The power supply board unit 15a includes a microcomputer control unit MC having a predetermined capability as shown in FIG. 6, for example, and includes a control input / output circuit and an operation power supply circuit (5V). For example, when the thermistor 13a provided at the opening edge of the liquid container detects the boiling state of the hot water in the first cylindrical body 3a as the inner container, the power circuit of the bottom member 1B side power supply board is turned off. The power supply to the water heater 4 is stopped.

  The microcomputer control unit MC determines that the lid 2 is not properly closed when the output signal of the magnetic sensor RS composed of the reed switch is OFF, and activates the alarm means 56 of FIG. Then, an alarm indicating that the lid 2 is not properly closed is given to the user.

  At the same time, the supply of power to the water heater 4 is prohibited (the power is not turned on even when the operation switch 7 is pressed).

(Structure of the lid)
Next, the lid body 2 includes an upper plate 2a made of synthetic resin, a lower plate 2b made of synthetic resin having a cylindrical wall on the outer periphery of which the outer peripheral edge is coupled to the upper plate 2a, and an inner cover 2c below the synthetic resin. And is detachably fitted to the opening of the frame portion 11b of the shoulder member 11 in the vertical direction.

  The space between the upper plate 2a and the lower plate 2b is formed in a heat insulating structure filled with a heat insulating material as needed, and a portion of the lower plate 2b has steam recessed downward from above. A pipe storage is provided. The steam pipes stored and installed in the storage section have steam discharge passages 21b to 21c that communicate with each other in a zigzag structure from the steam inlet port 21a of the lower inner cover 2c toward the upper steam outlet port 21d. Is formed. And the fall stop water valve 22 is installed in the steam inlet 21a below the steam discharge passages 21b to 21c.

  Then, as described above, the magnet installation portion 50 that houses the magnet MG is provided at the rear end portion of the cylindrical wall on the outer periphery of the lower plate 2b (the portion expanded to the necessary thickness).

  As described above, the magnet installation portion 50 is located within the thickness of the rear end portion of the cylindrical wall of the lower plate 2b of the lid 2, and as a whole, as shown in FIG. A spherical magnet MG is housed in an arc-shaped magnet rolling chamber, and the rolling chamber has a bottom portion 50a having an arc surface with a uniform curvature in the left-right direction and a predetermined width or more, as described above. It is formed with a depth dimension of a predetermined value or more in the front-rear direction. Therefore, for example, when the lid 2 is closed in a state of being tilted in either the left or right direction as shown in FIG. 4, the magnet MG rolls in the tilted direction, and includes the above-described reed switch on the shoulder member 11 side. The reed switch RS is turned off because it does not correspond to the sensing unit of the magnetic sensor RS on the same axis.

  The OFF signal is input to the microcomputer control unit MC on the power supply board 15a through the lead wire L as shown in the configuration of FIG.

  As a result, the microcomputer control unit MC determines that the lid body 2 is not properly closed based on the OFF signal, and activates the alarm means 56 to give an alarm to the user. Even if ON is turned on, the heater 4 is prevented from being turned on.

  This is the same when the lid 2 is tilted in the front-rear direction, and when the rear part is high and the front part is low (when tilting forward) due to the depth dimension and depth of the rolling chamber. Since the magnet MG rolls forward, the distance from the sensing part of the magnetic sensor (reed switch) RS is increased, and the magnetic sensor (reed switch) RS is turned off. Further, when the front part is high and the rear part is low (when it is inclined rearward), the rolling chamber itself is lowered downward from the original position and separated to the front side by a predetermined distance. Accordingly, the reed switch RS is also turned off.

  Accordingly, in these cases, the microcomputer control unit MC can be used to issue an alarm and prevent the power from being turned on, just as in the case of the horizontal inclination.

  Furthermore, in the same configuration, for example, as shown in FIG. 5, even when the container body 1A itself falls, the magnetic sensor (reed switch) RS is turned off, so that even at this time, an alarm can be issued until the backup power source is exhausted. .

  Reference numeral 18 denotes a mechanical hot water lock switch that locks (prohibits) the hot water pouring state. When the hot water lock switch 18 is pushed down against the repulsive force of the urging spring 18b. The valve body member 18a is pushed downward by a predetermined stroke to open the hot water pouring passage 5a between the lid body 2 side and the hot water pouring outlet 5 side of the container body 1A, and the first cylindrical body 3a which is an inner container. The inside hot water can be poured out.

(Configuration of power supply stand)
On the other hand, reference numeral 20 denotes a table-type power supply base, and a power supply coupler 30 of the same sleeve structure that is fitted into the power receiving coupler 10 of the sleeve structure on the container body 1A side protrudes to a predetermined height at the center. On the other hand, a storage portion 20a for an AC power cord 20b is provided on the back side.

  The power feeding coupler 30 corresponds to the sleeve-shaped guide cylinder of the power receiving coupler 10, and is provided on the inner peripheral side of the guide cylinder 30a. A sleeve-like electrode 30b that fits and contacts the inner side of the electrode 9 via a brush-structure electrode, and a shaft-tube-like shape that is inside the sleeve-like electrode 30b and into which the rod-like electrode 8 on the power receiving coupler 10 side is inserted. When the AC power cord 20b of the power cord storage section 20a is connected to an AC power source, the AC power source is supplied to the container body 1A side power receiving coupler 10 via the power base 20 side power feeding coupler 30. Is further supplied to the power supply circuit of the power supply substrate for the heater for the bottom member 1B side through the power receiving coupler 10.

  As a result, the operation switch 7, the power supply circuit of the power supply board unit 15a in the board installation section 11C, the microcomputer control unit MC, the alarm means 56, the boiling detection sensor 13a, the magnetic sensor RS, and the water heater are further connected via the power supply circuit. The power is supplied to the heater drive circuit 57, the heater 4 for heating, the safety bimetal for detecting emptying, and the like.

As described above, in the configuration of this reference example, heating a container main body 1A having a liquid container 3 to put the liquid, a lid 2 detachably covering the opening portion of the container main body 1A, the liquid container 3 An electric kettle comprising a heating means such as a water heater 4 that performs the lid mounting state detection means (50, MG) for electrically detecting the mounting state of the lid 2 with respect to the opening of the container body 1A. , and it is configured by providing RS, the MC).

  According to such a configuration, it is possible to automatically detect whether or not the lid 2 is mounted, as well as whether or not the lid 2 is properly mounted. When the lid 2 is not properly mounted, for example, an alarm such as a buzzer The means 56 can be actuated to notify the user or prevent power supply to the heating means such as the water heater 4.

  As a result, in the state where the lid 2 is not provided, but in a state where the lid 2 is not properly closed, the occurrence of an event such as hot water boiling accidentally and hot water spilling is reliably avoided.

  The lid mounting state detection means is composed of a magnet MG that changes its position arbitrarily according to the mounting state of the lid 2 and a magnetic sensor RS such as a reed switch that detects the magnetism of the magnet MG.

  Therefore, the structure is very simple, and it is not necessary to change the structure of the container main body 1A side and the lid body 2 side, and can be realized at low cost.

  In addition, operation reliability is high.

<Embodiment>
Next, with reference to FIGS. 7 and 8 of the accompanying, a structure of the form status of implementation of the electric kettle of the present invention will be described in detail.

First, FIG. 7 shows a configuration of a hot water supply locking portion of the electric kettle body according to the shape condition of the embodiment of the present invention, also in FIG. 8, the configuration of a hot water supply lock state detection control unit of the electric kettle, is shown respectively Yes.

In the configuration of the above-described reference example , the outer cylinder side second cylinder 3b itself of the liquid container 3 having a vacuum double wall structure including the inner and outer first and second cylinders 3a and 3b is also used as an outer case. The container main body 1A is configured, and the outer case itself made of a synthetic resin integral with the shoulder member 11 is unnecessary.

  However, when the liquid container 3 having the vacuum double wall structure including the first and second cylindrical bodies 3a and 3b is adopted, a structure having an outer case 16 made of synthetic resin as shown in FIG. 7 is adopted. It goes without saying that it is also good.

And in that case, it formed in the upper part of the outer cylinder side 2nd cylinder 3b mentioned above with respect to the skirt-like rib wall 38 part for the liquid container 3 latching inside the frame part 11b of the shoulder member 11 When the bead portions 36 having a semicircular cross section are brought into contact with each other, in addition to the effect of increasing the strength of the liquid container 3 itself due to the formation of the bead portions 36, the heat insulating seal space 37a (seal portion) exactly the same as in the above-described reference example 37b) can be formed, and it becomes possible to improve the heat insulation and heat retention in the vicinity of the opening of the liquid container 3.

And in this case, the electric kettle 1 according to this embodiment has, as shown in FIG. 7, for example, in addition to the configuration of the lid mounting state detection means in the configuration of the above-described reference example , The hot water supply lock switch 18 detects that the hot water supply lock switch 18 is in an unlocked state, and the second magnetic sensor RS2 including a reed switch that inputs to the microcomputer control unit MC on the power supply board unit 15a described above, and the A second magnet MG2 is provided to turn on the second magnetic sensor RS2.

In this case, the first and second designations refer to the first magnet MG1 as the magnet corresponding to the configuration of the above-described reference example, and the first magnetic sensor RS as the magnetic sensor RS corresponding to the first magnet MG1. It is called as RS1.

  That is, reference numeral 18 in FIG. 7 is a mechanical hot water supply lock switch that locks the hot water pouring state. When the hot water supply lock switch 18 is pushed down against the repulsive force of the biasing spring 18b. The valve body member 18a is pushed downward by a predetermined stroke, the hot water pouring passage 5a between the lid body 2 side and the hot water pouring outlet 5 side of the container main body 1A is opened, and the first cylindrical body 3a which is an inner container. The inside hot water can be poured out.

  On the other hand, when the pressing state is released (re-pushing) from the pressing state in which the same hot water supply is possible, the hot water supply lock switch 18 is returned to the original state before pressing (not shown) by the repulsive force of the biasing spring 18b. It returns and the said valve body member 18a closes the hot water extraction channel | path 5a.

At this time, a second magnet MG2 is provided on the back side of the pressing button of the hot water supply lock switch 18, and a second magnetic sensor RS2 comprising a reed switch is provided on the upper surface portion of the lower plate 2b in the axial direction facing the magnet MG2. cage, a second magnetic sensor RS2, as in the case via a lead wire (not shown) of the above reference example, and is connected to the microcomputer control unit MC on the power supply board unit 15a as shown in FIG.

  Accordingly, in the illustrated hot water supply lock state in which the hot water supply lock switch 18 is not pressed, the distance between the second magnetic sensor RS2 and the second magnet MG2 is large, and the second magnetic sensor RS2 does not operate, but the hot water supply is not performed. When the lock switch 18 is pushed in, the second magnet MG2 approaches the second magnetic sensor RS2, so that the second magnetic sensor RS2 is turned on.

  The ON signal is input to the microcomputer control unit MC shown in FIG.

Thereby, the microcomputer control unit MC determines that the hot water supply lock switch 18 is turned ON and the hot water supply lock state is released (or that the lid 2 is removed), and is the same as in the above-described reference example. The alarm means 56 such as a buzzer is operated to warn the user to return the hot water supply lock switch 18 or to attach the lid 2 appropriately.

  At the same time, if necessary, the energization of the water heater 4 is disabled, or the energization is enabled to allow the water to be heated up to the stage before the generation of steam.

  Stopping energization of the water heater 4 until the stage before the generation of steam is performed immediately before the detection temperature of the boiling detection sensor (thermistor) 13a provided at the opening edge of the liquid container 3 described above is detected. This is performed by setting the temperature when the temperature approaches a predetermined value level (setting of the heater OFF reference temperature).

  In this case, even when heating to the water heater 4 is once stopped as described above, the hot water supply lock switch 18 is thereafter returned to the hot water supply lock state, and the second magnetic sensor RS2 is turned OFF. When this happens, the heater 4 can be energized and normal water heating is performed.

According to such a configuration, detection / determination of the hot water supply lock state of the hot water supply lock switch 18 in addition to detection / determination of the cover mounting state by the first magnetic sensor RS1 on the rear end side of the lid body 2 as in the case of the above reference example. Therefore, it is possible to provide an electric kettle that is much safer and free from spillage compared to the above-described reference example .

(Modification 1)
In the case of this embodiment, simultaneously with detection / determination of the hot water supply lock state, it is possible to detect / determine whether or not the lid 2 is attached and the attachment state.

Therefore, it is not always necessary to combine with the lid mounting state detection device having the configuration of the above reference example , and substantially the same operation can be realized only by the hot water supply lock state detection function of this embodiment alone.

(Modification 2)
As a configuration that enables detection of the mounting state of the lid 2 and the hot water supply lock state with a single detection system as in Modification 1, for example , a portion corresponding to the magnetic sensor RS of the reference example described above is shown in FIG. the hot water supply lock switch 18 provided in the form of implementation on purpose similar magnet MG during its descent, can be a system that is oN operated in response to the magnetic sensor RS.

  In this case, the hot water pouring passage 5a for hot water supply may be extended as close as possible to the rear end side of the lid 2, or the hot water pouring passage 5a is left as it is, or the valve body member 18a is lowered by the link rod. You may make it raise.

<Other embodiments>
In the form of the above implementation, the detection of such a lid mounted state, but using a magnetic sensor, which may be used a limit switch for ON operating in conjunction with the proper mounting of the lid or the like (For example, a configuration in which a convex portion provided on the side of the lower plate 2b presses the limit switch when the lid 2 is mounted).

Further, in the embodiment above implementation, even in either the, the liquid container 3 first, second cylindrical body 3a, although the vacuum double container made of 3b, which is a typical single-wall structure Needless to say, it may be a thing.

  1 is an electric kettle, 1A is a container body, 1B is a bottom member, 2 is a lid, 3 is a liquid container, 3a is a first cylinder, 3b is a second cylinder, and 3c is a side-side first vacuum. Heat-insulating space, 3d is a bottom-side second vacuum heat-insulating space, 4 is a heater for boiling water, 5 is a hot water outlet, 10 is a power receiving coupler, 11 is a shoulder member, 11a is a lower opening portion, 11b is a frame portion, and 11c is a substrate Installation part, 11d is a handle base, 14a is a box part, 15a is a power supply board unit, 20 is a power supply stand, 56 is an alarm means, MC is a microcomputer control unit, MG is a magnet, RS is a magnetic sensor, and RS1 is a first magnet. The sensor, RS2, is a second magnetic sensor.

Claims (2)

  A container main body provided with a liquid container for containing a liquid; a detachable lid for covering the opening of the container main body; a heating means for heating the liquid container; and a hot water supply locking means for closing the hot water discharge passage. An electric kettle comprising hot water supply lock state detection means for electrically detecting a hot water supply lock state of the hot water supply lock means.   A container main body provided with a liquid container for containing a liquid, a detachable lid for covering the opening of the container main body, a heating means for heating the liquid container, a hot water supply locking means for closing a hot water pouring passage, and the container An electric kettle comprising lid mounting state detection means for electrically detecting the mounting state of the lid with respect to the opening of the main body, and hot water supply lock detection means for electrically detecting the hot water lock state of the hot water supply locking means. An electric kettle characterized in that the two detection means of the lid mounting state detection means and the hot water supply lock state detection means are constituted by a single detection means.

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