JP3661618B2 - an electronic pot - Google Patents

Description

[0002]
BACKGROUND OF THE INVENTION
[0003]
The present invention relates to an electric kettle that has a hot water temperature display function and displays the hot water temperature during heat insulation.
[Prior art]
[0004]
Some recent electric pots have a hot water temperature display function, and in particular, display the hot water temperature during the heat retention on the hot water temperature display section.
[0005]
The electric pot having such a configuration was set by the user by controlling the heat retaining heater after that, for example, after boiling the water and performing the “boiling notification” by the buzzer, turning off the water heater and moving to the heat retaining state. It is maintained at a predetermined set temperature (for example, a high temperature retention temperature of 98 ° C. for cup noodles, a low temperature retention temperature of 90 ° C. for coffee, tea, etc., a low temperature retention temperature of 60 ° C. for green tea, etc.).
[0006]
And in the detection of the hot water temperature, a bottom sensor (thermistor) generally provided on the bottom back side of the inner container of the electric pot body is used, and the temperature of the inner container bottom surface is indirectly detected as the hot water temperature. It has become.
[Problems to be solved by the invention]
[0007]
However, in the case of the same configuration, there are the following structural circumstances, and the temperature value lower than the actual hot water temperature in the inner container that gradually decreases after boiling is completed is earlier than the actual temperature decrease. There is a problem of being displayed at the timing. For this reason, it causes a sense of incongruity to the user, and causes a question of energy saving performance in the case of a thermos bottle type in which the inner container has a vacuum double wall structure, for example.
[0008]
That is, the temperature distribution of the hot water in the inner container when the heat retaining heater is not controlled ON / OFF is high on the upper side and low on the bottom side due to convection, and a considerable temperature difference is generated between them (for example, FIG. 1). When the hot water temperature T _{2 at the} uppermost full water level WL ₂ is 90 ° C., the hot water temperature T _{1 at} the middle WL ₁ portion is 90 ° C. and the hot water temperature T _{0 at the} bottom is 85 ° C.).
[0009]
In the case of the thermos type, the bottom surface of the inner container is a heating surface and thus does not have a double wall structure. For this reason, the temperature of the same part tends to decrease excessively.
[0010]
Despite these circumstances, the bottom sensor detects the temperature of the low temperature portion as the hot water temperature in the inner container.
[0011]
The present invention has been made to solve the above-described problems, and can display an appropriate hot water temperature at an appropriate timing regardless of the hot water temperature detection error of the hot water temperature detecting means as described above. The object is to provide an electric kettle.
[Means for Solving the Problems]
[0012]
In order to achieve the above object, the present invention is configured with the following problem solving means.
[0013]
(1) Invention of Claim 1 The electric pot of the present invention comprises an inner container for boiling and keeping warm, a warming temperature setting means for setting the hot water temperature in the inner container to a predetermined target warming temperature, Insulation heating means for heating the inner container, hot water temperature detection means for detecting the hot water temperature in the inner container through the bottom of the inner container, and the inner container detected by the hot water temperature detection means during the heat insulation The hot water temperature display means for displaying the hot water temperature, and the warming and heating means so that the hot water temperature in the inner container detected by the hot water temperature detection means becomes the warming temperature set by the warming temperature setting means. An electric pot provided with a heat insulation heating control means for ON / OFF control, in response to the start of heating output control corresponding to the set heat insulation temperature of the heat insulation heating control means immediately after completion of boiling, After a predetermined time has elapsed since the start While the hot water temperature display means displays the set heat retention temperature, when the ON / OFF control of the heat insulation heating means by the heat insulation heating means starts, the lower set reference temperature width is returned to the original set reference temperature width. It is characterized by that.
As described above, the detection value of the hot water temperature detecting means for detecting the hot water temperature in the inner container through the bottom of the inner container is lower than the actual hot water temperature. Therefore, the ON / OFF control of the heat insulation heating means by the heat insulation heating control means after the completion of boiling also starts at a predetermined time earlier than the actual hot water temperature corresponding to the set heat insulation temperature becomes the temperature requiring heat insulation heating, and at least Continue until the set temperature is reached.
[0014]
Therefore, in response to the start of the heating output control corresponding to the set warming temperature of the warming and heating control means immediately after the completion of boiling, after a predetermined time from the start of the heating output control to the set warming temperature has elapsed, If the hot water temperature display means displays the set warm temperature, the hot water temperature can be displayed at an appropriate time according to the set warm temperature and the actual hot water temperature change in the inner container. It is possible to eliminate the sense of incongruity given to the heat resistance and to ensure the reliability of the heat retaining performance.
[0015]
(2) Invention of Claim 2 In the electric pot of this invention, the temperature of the hot water in the said inner container is the said heating in the structure of the invention of the said Claim 1 for the predetermined time after the said heating output control was started. The time is measured and stored in advance from the start of output control until the set temperature is reached.
[0016]
Therefore, if the hot water temperature corresponding to the set heat retention temperature is displayed when the same time has elapsed, it will inevitably correspond to the actual hot water temperature, and an appropriate hot water temperature will be displayed at an appropriate timing. can do.
[0017]
(3) Invention of Claim 3 The electric pot of the present invention comprises an inner container for boiling and keeping warm, a warming temperature setting means for setting the hot water temperature in the inner container to a predetermined target warming temperature, Insulation heating means for heating the inner container, hot water temperature detection means for detecting the hot water temperature in the inner container through the bottom of the inner container, and the inner container detected by the hot water temperature detection means during the heat insulation The hot water temperature display means for displaying the hot water temperature, and the warming and heating means so that the hot water temperature in the inner container detected by the hot water temperature detection means becomes the warming temperature set by the warming temperature setting means. An electric pot provided with a heat insulation heating control means for ON / OFF control, and when the heating output control corresponding to the set heat insulation temperature of the heat insulation heating control means immediately after completion of boiling is started, the heating output control is performed. The above warming and heating hands after starting ON count of upon reaching a predetermined number of times, the water temperature display means is characterized in that it is adapted for displaying the setting retained temperature.
[0018]
As described above, the detection value of the hot water temperature detecting means for detecting the hot water temperature in the inner container through the bottom of the inner container is lower than the actual hot water temperature. Therefore, the ON / OFF control of the heat insulation heating means by the heat insulation heating control means after the completion of boiling starts earlier than the actual hot water temperature reaches the temperature requiring heat insulation corresponding to the set heat insulation temperature, and at least the heat insulation setting temperature is maintained. Continue until temperature is reached.
[0019]
Therefore, in response to the start of the heating output control corresponding to the set heat retention temperature of the heat insulation heating control means immediately after the completion of boiling, the number of times of the heat insulation heating means ON after the start of the heat output control reaches a predetermined number. If the hot water temperature display means displays the set warm temperature, the appropriate hot water temperature corresponding to the set warm temperature and the actual hot water temperature change in the inner container can be displayed at an appropriate timing. As a result, it is possible to eliminate the uncomfortable feeling given to the user, and to ensure the reliability of the heat retaining performance.
[0020]
(4) Invention of Claim 4 In the electric pot of the present invention, in the configuration of the invention of Claim 3, the temperature of the hot water in the inner container is controlled by the heating output control for the predetermined number of ON times of the heat retaining heating means. It is characterized in that the number of ON times is measured and stored in advance from the start until reaching the set heat retention temperature.
[0021]
Therefore, if the hot water temperature corresponding to the set heat retention temperature is displayed when the same time has elapsed, it will inevitably correspond to the actual hot water temperature, and an appropriate hot water temperature will be displayed at an appropriate timing. can do.
[0022]
(5) Invention of Claim 5 The electric pot of the present invention comprises an inner container for boiling and keeping warm, a warming temperature setting means for setting the hot water temperature in the inner container to a predetermined target warming temperature, Insulation heating means for heating the inner container, hot water temperature detection means for detecting the hot water temperature in the inner container through the bottom of the inner container, and the inner container detected by the hot water temperature detection means during the heat insulation The hot water temperature display means for displaying the hot water temperature, and the warming and heating means so that the hot water temperature in the inner container detected by the hot water temperature detection means becomes the warming temperature set by the warming temperature setting means. An electric pot provided with a heat retaining heating control means for ON / OFF control, until the heating output control corresponding to the set heat retaining temperature of the heat retaining heating control means is started after boiling is completed. The hot water temperature display means displays the hot water temperature. While the order of the set reference temperature range by changing the predetermined value lower Show water temperature, ON warmth heating means using the heat insulating heating control means, when the OFF control is started, setting the original set reference temperature width set the lower It is characterized by returning to the reference temperature range .
[0023]
As described above, the detection value of the hot water temperature detecting means for detecting the hot water temperature in the inner container through the bottom of the inner container is lower than the actual hot water temperature. Therefore, for example, when displaying the hot water temperature corresponding to the predetermined set temperature, the reference temperature range is reached quickly, and in fact, it has been reached even though the set temperature has not yet been reached. The hot water temperature is displayed.
[0024]
On the other hand, the ON / OFF control of the heat insulation heating means by the heat insulation heating control means immediately after the completion of the boiling starts earlier than the actual hot water temperature reaches the temperature requiring heat insulation corresponding to the set heat insulation temperature. When the control is started, the hot water in the inner container is agitated to make the hot water temperature uniform, and the hot water temperature detected by the hot water temperature detecting means becomes appropriate.
[0025]
Therefore, until the control of the heating output corresponding to the set warming temperature of the warming and heating control means is started, the hot water temperature corresponding to the set warming temperature is displayed by the hot water temperature display means as described above. Therefore, the hot water temperature is displayed as close as possible to the actual hot water temperature as much as possible regardless of the detected hot water temperature value.
[0026]
On the other hand, when the ON / OFF control of the heat insulation heating means by the heat insulation heating control means starts, the hot water in the inner container is agitated to make the hot water temperature uniform, and the detected hot water temperature of the hot water temperature detection means becomes appropriate.
[0027]
Therefore, when ON / OFF control of the warming and heating means corresponding to the set warming temperature of the warming and heating control means starts, a set reference temperature range for displaying the hot water temperature corresponding to the set warming temperature changed to the predetermined value lower Is displayed and based on the detected hot water temperature value, the hot water temperature is displayed as close to the actual hot water temperature as possible.
【The invention's effect】
[0028]
As a result of the above, according to the electric pot of the present invention, it becomes possible to display the appropriate hot water temperature corresponding to the set warming temperature and the actual hot water temperature change in the inner container at an appropriate timing, giving the user a sense of incongruity Can be eliminated, and the reliability of the heat insulation performance can be secured.
DETAILED DESCRIPTION OF THE INVENTION
[0029]
Hereinafter, with reference to the attached drawings, the configuration and operation of an electric pot main body and a control device common to each embodiment described after the electric pot of the present invention will be described first.
[0030]
(Configuration of the electric pot body)
1 to 3 show the configuration of the main body and the main part of an electric pot common to each embodiment of the present invention to be described later.
[0031]
First, as shown in FIGS. 1 and 2, the electric pot includes a container body 1 having an inner container 3 for storing hot water, a lid body 2 for opening and closing an upper opening of the container body 1, and the inner container. 4A, a water heater 4A that is a heating means that heats the inner container 3 when it is heated, a heat retaining heater 4B that is a heating means that heats the inner container 3, and a hot water supply that supplies the hot water in the inner container 3 to the outside The hot water in the inner vessel 3 is externally passed through the hot water supply passage 5 in a state where the passage 5, the flow rate sensor 80 for measuring the actual flow rate provided in the middle of the hot water supply passage 5, and the AC power source are connected. An electric hot water supply pump 6 for sending out and an air-type manual hot water supply pump 18 for sending out the hot water in the inner container 3 to the outside through the hot water supply passage 5 in a state where an AC power source is not connected.
[0032]
The said container main body 1 couple | bonds integrally the cylindrical outer case 7 made from a synthetic resin which comprises an outer side surface part, the said inner container 3 which comprises an inner side part, and the said outer case 7 and the inner container 3 on the upper side. It consists of an annular shoulder member 8 made of synthetic resin to be fixed and a dish-shaped bottom member 9 made of synthetic resin that constitutes the bottom surface portion.
[0033]
The inner container 3 is composed of a vacuum double structure with high heat retention performance in which a vacuum heat insulating space is provided between a stainless steel bottomed cylindrical inner cylinder 10 and a stainless steel cylindrical outer cylinder 11. In addition, a single plate portion 3a composed only of the bottom surface portion of the inner cylinder 10 except for the outer peripheral portion is formed at the bottom portion. The single plate portion 3a is formed so as to protrude slightly upward. On the lower surface side thereof, the water heater 4A and the heat retaining heater 4B (for example, two sets of heating elements having different wattages are held on the mica plate). A mica heater is attached.
[0034]
A small-diameter water supply port 3b having a heat keeping structure is formed at the upper end portion of the inner container 3 by drawing the upper end portion on the inner cylinder 10 side toward the central axis direction. Reference numeral 12 denotes a bottom sensor (hot water temperature sensor) that functions as a hot water temperature detecting means for detecting the temperature of the inner container 3 (in other words, the temperature of hot water in the inner container 3), and includes a thermistor. . Further, reference numeral 13 denotes a convex full water level display section that displays the full water level WL ₂ of the inner container 3. WL ₁ indicates a low water level (1/2 water level).
[0035]
The lid 2 includes a synthetic resin upper plate 14 and a synthetic resin lower plate 15 having an outer peripheral edge coupled to the upper plate 14, and is provided at the rear portion of the shoulder member 8. The hinge receiver 16 is supported by a hinge pin 17 so that it can be opened and closed in a vertical direction and is detachable.
[0036]
The lid 2 is provided with an air-type manual hot water supply pump 18 that is compressed by a manual pressing operation so that hot water can be supplied to the outside through the hot water supply passage 5 even when an AC power source is not connected. It is installed. The manual hot water supply pump 18 is of a bellows type disposed in a cylindrical portion 19 formed at a substantially central portion of the lid 2, and has a bellows structure via a pressing cover 20A and a pressing plate 20B. By pressing the bellows 20C downward, the pressurized air 20D in the bellows 20C is blown into the inner container 3 through the air blowing port, and the hot water in the inner container 3 is supplied with hot water by the pressure of the pressurized air. It is pushed out through the passage 5. 20E is a restoring spring upward of the bellows 20C, and 15A is a bellows support plate on the lower plate 15 side. Reference numerals 21a to 21d are steam discharge passages of the lid body 2 that are in communication with each other from the lower side to the upper side. Reference numeral 22 is a tipping water that is provided in the middle of the steam discharge passages 21a to 21d on the steam outlet 21a side. It is a valve.
[0037]
A metal inner cover member 23 is fixed to the lower surface of the lower plate 15 in the lid 2, and the inner container 3 is attached to the outer peripheral edge of the inner cover member 23 when the lid 2 is closed. A heat-resistant rubber seal packing 24 is provided in pressure contact with the upper surface of the water supply port 3b.
[0038]
At the lower position of the inner container 3 on the upstream end side of the hot water supply passage 5, a DC type electric hot water pump 6 is disposed through an inner container 3 side hot water introduction cylinder 6a and a hot water supply pump side hot water inlet 6b. In this hot water supply passage 5, hot water sucked from the hot water inlet 6 b through the hot water inlet cylinder 6 a is discharged from the discharge port 6 c by the pumping action of the electric hot water supply pump 6, After passing through the straight pipe portion 5b, it passes through the flow rate detection passage in the flow rate sensor 80 and is led to the hot water pouring outlet 5d from the overturn stop water valve side connecting pipe 5c.
[0039]
Further, reference numeral 35 denotes an operation panel unit having an operation surface of various switches and a display surface of a liquid crystal display unit, which will be described later, and 51a, a microcomputer control unit 60, various switches 38 to 41, 42, 43, a liquid crystal display device. The microcomputer board provided with (driving part) etc., 51 is a support member of the liquid crystal display part 47, 50 is a driving circuit of the electric hot water supply pump 6, the heating heater 4A, the heating control circuit of the heat retaining heater 4B, and the stabilized DC power supply. It is a power supply board provided with a circuit etc.
[0040]
The operation panel 35 includes a hot water switch 38, a hot water lock release switch 39, a reboil / warm selection switch 40, a good night timer switch 41, up and down switches 42 and 43 for setting the hot water amount when the fixed amount hot water mode is selected, and reboil. A display LED 44, a heat retaining operation display LED 45, a hot water supply unlock display LED 46, a liquid crystal display unit 47, and the like are provided.
[0041]
The liquid crystal display unit 47 is provided with, for example, a time / time / hot water / operating state combined display unit 47a, a heat retention set temperature display unit 47b, a magic bottle heat retention display unit 47c, and various convenient information displays. Has been made.
[0042]
This electric hot water supply type electric pot has a continuous hot water supply mode in which the electric hot water supply pump 6 can be continuously driven to pour out hot water as long as the hot water supply switch 38 is continuously pressed, and even if the hot water supply switch 38 is continuously pressed, When a predetermined amount of hot water set by the up / down switches 42 and 43 is poured, the electric hot water supply pump 6 stops and the two hot water supply modes are provided.
[0043]
And the flow sensor 80 used for it loosely fits the spiral rotating screw blade | wing 82 via the cylindrical hub on the outer periphery of the rotating support shaft 81, for example, and they are the upper ends of the straight pipe part 5b of the hot water supply channel | path 5 Are fitted and fixed via a fitting cylinder 83.
[0044]
(Configuration of control circuit)
Next, FIG. 3 is a block diagram showing the configuration of the control circuit unit in the electric pot body configured as described above.
[0045]
In FIG. 3, reference numeral 57 is composed of, for example, a smoothing capacitor and a power supply IC, and includes a direct current power supply for supplying direct current power to the microcomputer control unit 60, the heating control unit 54, the pump power supply unit 59, and the like. Heating control unit for ON / OFF control of the heat retaining heater 4B, 4A and 4B are heating means comprising the above-described hot water heater 4A and the heat retaining heater 4B, 59 is a pump power supply unit of the electric hot water supply pump 6, and 38 is the above described hot water supply switch , 58 is a pulse driving unit for driving the motor unit of the electric hot water supply pump 6 by supplying a driving pulse voltage, and 6 is the above-described DC type electric hot water supply pump.
[0046]
For example, when the heater control signal is output from the microcomputer control unit 60 to the heating control unit 54, the water heater 4A operates a power relay via a transistor (not shown), for example, and a power switch is correspondingly operated. Driven by turning on.
[0047]
Further, when the warming heater ON signal is output from the microcomputer control unit 60 to the heating control unit 54, the warming heater 4B is driven by driving a triac, for example, by turning on a transistor (not shown). .
[0048]
The microcomputer control unit 60 further includes various LED display units such as a liquid crystal display unit 47, a reboil display LED 44, a heat retention operation display LED 45, a hot water supply unlock display LED 46, a hot water switch 38, and a reboil / warm selection. Various operation units such as a switch 40, a hot water supply unlocking switch 39, a nighttime timer switch 41, various hot water temperature detection means 12 including a bottom sensor (thermistor), and various sensor units such as a flow rate detection means 80 including a flow rate sensor are illustrated. Not connected via I / O port.
[0049]
In the above-described electric pot, when the water heater is used, the water heater 4A is used to quickly heat it to a boiling state with a high heating output, and then a boiling notification by buzzer sound (water heating completion notification) is performed to make the water heater 4A. Is turned OFF, and then the process proceeds to a heat retaining process.
[0050]
In the heat retaining step, when the actual hot water temperature reaches a temperature corresponding to the first or second set heat retaining temperature 98 ° C. or 90 ° C. set by the heat retaining temperature setting means centering on the microcomputer controller 60, Although the hot water temperature corresponding to the hot water temperature display part of the liquid crystal display part 47 is displayed, in the case of the present embodiment, as described above, the inner container 3 is a vacuum double-structure thermos bottle type having high heat retention performance. For example, when the low temperature side second set temperature 90 ° C. is selected, it takes a considerable time to lower the hot water temperature from the temperature 100 ° C. at the completion of boiling to the set temperature 90 ° C. (for example, 2 hours) degree).
[0051]
Therefore, if the hot water temperature cannot be displayed until then, the user becomes anxious.
[0052]
On the other hand, if the hot water temperature display based on the detected value of the hot water temperature detecting means 12 is performed as it is after the completion of boiling, the hot water temperature T ₀ detected by the bottom sensor constituting the hot water temperature detecting means 12 is As is clear from FIG. 1, for example, 90 ° C. is displayed in 40 to 50 minutes due to the fact that it is lower than the actual hot water temperatures T ₁ and T ₂ by a predetermined temperature ΔT. On the other hand, it gives a sense of incongruity and raises doubts about the heat insulation performance.
[0053]
Accordingly, in the present application, appropriate measures as shown in the following embodiments are taken.
[0054]
The hot water temperature display of the set heat retention temperature of 90 ° C. is displayed with a predetermined reference temperature range. For example, the reference temperature range is an upper limit temperature of 92.5 ° C. to a lower limit temperature of 87. Set to 5 ° C. Accordingly, when the detected temperature of the hot water temperature detecting means 12 falls within this range, all are displayed as 90 ° C.
[0055]
(Temperature display control during warming according to Embodiment 1)
First, FIG. 4 is a flowchart showing the contents of hot water temperature display control during the heat insulation of the electric pot according to Embodiment 1 of the present invention applied to the electric pot body configured as described above, and FIG. 5 is the same flow. The time chart corresponding to each is shown.
[0056]
Now, when dealing with the above-mentioned problem, first, the actual change in the hot water temperature T in the inner container 3 (decrease to 100 ° C. to 90 ° C.) and the ON / OFF control (heating output control) of the heat retaining heater 4B. The relationship is as shown in FIG. 5, for example.
[0057]
That is, the heat retaining heater 4B starts the ON / OFF control (heating control) a predetermined time tn before the hot water temperature T in the inner container 3 actually becomes T (T ₁ , T ₂ ) = 90 ° C. It has become. The reason is based on the fact that the hot water temperature detecting means 12 comprising the bottom sensor detects the temperature T ₀ lower than the actual hot water temperature T (T ₁ , T ₂ ) as the hot water temperature T as already described. .
[0058]
Therefore, when this relationship is used, the point in time when the actual hot water temperature T reaches 90 ° C. can be predicted in advance based on the predetermined time tn, and 90 ° C. may be displayed at that point (tn elapsed time). It will be.
[0059]
The hot water temperature display control of the present embodiment shown in FIG. 4 is configured from such a viewpoint.
[0060]
That is, first kettle according kettle heater 4A as described above is performed and eventually become boiling state (Step S _1), "boiling notification" is performed as described above.
[0061]
Therefore, it is next determined whether or not the notification of boiling is performed (step S ₂ ).
[0062]
As a result, when the result is YES, firstly the kettle heater 4A above in the OFF shifts to incubating process (Step S _3). Subsequently, it is determined whether or not the currently set target heat retention temperature is a low temperature 90 ° C. that is 10 ° C. lower than the boiling temperature 100 ° C. (step S ₄ ).
[0063]
As a result, when the temperature is NO (at the high temperature side of 98 ° C.), normal heat retention temperature display control is performed. It is determined whether or not the temperature has fallen to a lower limit threshold temperature Ta ° C. (for example, Ta = 89.5 ° C.) or less (step S ₅ ).
[0064]
As a result, when the NO is continued thermos insulation while continuing the determination condition, at the other YES, first the aforementioned ON warmth heater 4B, starts the OFF control corresponding to (step S ₆₎ Then simultaneously the 90 ° C. It starts the timer operation of the required time period tn counting timer t that (step S _7).
[0065]
Thereafter, it is determined whether or not the time tn has elapsed and the timer operation of the timer t has expired (step S ₈ ). As a result, when it becomes YES, as is apparent from FIG. 5, it indicates that the actual hot water temperature T has reached 90 ° C., so that 90 ° C. is finally displayed on the heat insulation temperature display portion of the liquid crystal display portion 47. To finish the control.
[0066]
As described above, in the configuration of the present embodiment, the hot water temperature T ₀ detected by the bottom sensor that constitutes the hot water temperature detecting means 12 when the hot water temperature is maintained by maintaining the hot water temperature at 90 ° C. after completion of boiling. Pays attention to the problem caused by the fact that it is lower than the actual hot water temperature T by the predetermined temperature ΔT, and correspondingly, the ON / OFF control of the heat retaining heater 4B is started from a time higher than the actual 90 ° C. Then, the required time tn from the start of ON / OFF control of the heat retaining heater 4B until the actual hot water temperature T decreases to 90 ° C. is measured and stored in advance, and the heat retaining is performed at the time when the same time tn has passed. The display at a temperature of 90 ° C. is performed.
[0067]
Accordingly, an appropriate hot water temperature corresponding to the actual hot water temperature can be displayed at an appropriate timing, and the user can be discomforted.
[0068]
(Temperature display control during warming according to Embodiment 2)
Next, FIG. 6 is a flowchart of hot water temperature display control during the heat insulation of the electric pot according to the second embodiment of the present invention applied to the electric pot body configured as described above, and FIG. 7 is the hot water temperature display. The time chart corresponding to the flow of control is shown, respectively.
[0069]
Now, when dealing with the above-mentioned problem as in the case of the first embodiment, first, the actual hot water temperature T in the inner container 3 changes (decrease to 100 ° C. to 90 ° C.) and the heat retaining heater 4B. The relationship with the ON / OFF control is as shown in FIG. 7, for example.
[0070]
That is, the heat retaining heater 4B starts ON / OFF control (heating control) a predetermined time tn before the hot water temperature T in the inner container 3 actually becomes T = 90 ° C. The reason is based on the fact that the hot water temperature detecting means 12 comprising the bottom sensor detects a temperature lower than the actual hot water temperature as the hot water temperature, as already described.
[0071]
Therefore, when this relationship is used, the time point when the actual hot water temperature T reaches 90 ° C. can be predicted by counting the number N of ON times of the heat retaining heater 4B in advance, and as shown in FIG. It is sufficient to display 90 ° C. at the time of counting Ns times.
[0072]
The hot water temperature display control during heat insulation according to the present embodiment shown in FIG. 6 is configured from such a viewpoint.
[0073]
That is, first kettle according kettle heater 4A as described above is performed and eventually become boiling state (Step S _1), boiling notification is performed as described above.
[0074]
Therefore, it is next determined whether or not the notification of boiling is performed (step S ₂ ).
[0075]
As a result, when the result is YES, firstly the kettle heater 4A above in the OFF shifts to incubating process (Step S _3). Subsequently, it is determined whether or not the target set heat retention temperature is the low temperature 90 ° C. (step S ₄ ).
[0076]
As a result, when it is NO (when the temperature is 98 ° C. for high temperature), normal heat retention temperature display control is performed, but when it is YES, the current hot water temperature T is further ON-controlled in the heat retention heater 4B in 90 ° C. determines whether decreased to the above lower limit threshold temperature Ta ° C. required (e.g. Ta = 89.5 ° C.) or less (step S _5).
[0077]
As a result, when the result is NO, it is further determined whether or not the upper limit side threshold temperature Tb ° C. (for example, Tb = 90.5 ° C.) is exceeded (step S ₆ ). in the OFF reduce the hot water T (step S _7). In this way, the thermos is kept warm while continuing the same determination state of the lower limit / upper limit. Becomes the other YES at lower side threshold determination in step S _5, ON warmth heater 4B described above, starts the OFF control (step S ₈₎ Then simultaneously, the actual water temperature T from the time point is 90 ° C. to start the count operation of the ON times of the insulation heater 4B up (step S _9).
[0078]
Thereafter, it is determined whether or not the number of set times Ns necessary for the ON count of the heat retaining heater to reach 90 ° C. has been reached (step S ₁₀ ). As a result, when it becomes YES, as is apparent from FIG. 7, it indicates that the actual hot water temperature T has reached 90 ° C. Therefore, at this timing, the temperature maintaining temperature display portion of the liquid crystal display portion 47 is finally set to 90 ° C. Display the ° C and finish the control.
[0079]
As described above, in the configuration of the present embodiment, the hot water temperature T ₀ detected by the bottom sensor that constitutes the hot water temperature detecting means 12 when the hot water temperature is maintained by maintaining the hot water temperature at 90 ° C. after completion of boiling. Corresponds to the problem caused by the fact that it is lower than the actual hot water temperature T by the predetermined temperature ΔT, and correspondingly, the ON / OFF control of the heat retaining heater 4B is actually started from a point higher than 90 ° C. Paying attention, count the number of ON (or OFF) of the warming heater 4B required from the start of ON / OFF control of the warming heater 4B until the actual hot water temperature T decreases to 90 ° C, and the count value is measured and stored in advance. When the Ns times in FIG. 7 is reached, a display of the heat retention temperature of 90 ° C. is performed.
[0080]
Accordingly, an appropriate hot water temperature corresponding to the actual hot water temperature can be displayed at an appropriate timing, and the user can be discomforted.
[0081]
In particular, the number Ns of ON times of the heat retaining heater 4B naturally corresponds to the amount of hot water at that time, and therefore, in the case of the same configuration, the determination of the amount of hot water is not separately required and is more optimal.
[0082]
(Embodiment 3)
As described above, the hot water temperature detection means 12 including the bottom sensor detects the temperature T ₀ lower than the actual hot water temperature T (T ₁ , T ₂ ) as the hot water temperature.
[0083]
Therefore, in the present embodiment, for example, the reference temperature range (upper limit side and lower limit side threshold values) 92.5 ° C. to 87.5 ° C. for displaying the above-described hot water temperature is set to the heat retaining heater 4B. Until the ON / OFF control is started, the temperature is changed to as low as 90 ° C. to 85 ° C.
[0084]
With such a configuration, the display is extended until it approaches the actual hot water temperature, and it is possible to display an appropriate heat retention temperature at a substantially similar appropriate timing with a simple configuration.
[0085]
In this case, the reference temperature range (upper / lower limit side threshold) once the appropriate display of 90 ° C. is performed is restored.
[0086]
The reference temperature range (upper / lower limit side threshold value) may be changed according to the amount of hot water determined by the hot water amount determining means.
[0087]
Furthermore, the hot water amount determination means can easily determine the amount of hot water by using the rate of temperature increase at the start of boiling, + ΔT%, the rate of temperature decrease after transition to the heat retaining process, −ΔT%, and the like.
[0088]
(Embodiment 4)
As described above, the relationship between the change in the actual hot water temperature T in the inner container 3 (decrease to 100 ° C. to 90 ° C.) and the ON / OFF control of the heat retaining heater 4B is, for example, FIG. 5 and FIG. It is like this.
[0089]
That is, the heat retaining heater 4B starts ON / OFF control (heating control) a predetermined time tn before the hot water temperature T in the inner container 3 actually becomes T = 90 ° C. The reason is based on the fact that the hot water temperature detecting means 12 comprising the bottom sensor detects the temperature T ₀ lower than the actual hot water temperature TT (T ₁ , T ₂ ) as the hot water temperature as already described.
[0090]
Therefore, in the present embodiment, unlike the above-described embodiments, for example, an error correction value that is measured and stored in advance for each hot water amount and each temperature width is added to the detection value of the hot water temperature detection means 12 described above. Correct to an appropriate detection value.
[0091]
With such a configuration, it is possible to display a more appropriate warming temperature at a more appropriate timing with a simple configuration.
[0092]
(Other embodiments)
In each of the above configurations, in order to eliminate the difference between the actual hot water temperature and the detected hot water temperature, the following configuration is also adopted as necessary.
[0093]
(1) A room temperature sensor is provided and correction is performed based on the outside temperature.
[0094]
(2) When the temperature of the hot water is lowered during the transition to the heat retaining process after boiling, the water heater 4A or the heat retaining heater 4B is turned on for a short time and the inner container 3 is heated to cause convection in the hot water in the inner container 3. 3 Uniform hot water temperature in the vertical direction.
[0095]
(3) The electric hot water supply pump 6 is driven while the hot water temperature is lowered, and the hot water temperature in the inner container 3 in the vertical direction is made uniform.
[Brief description of the drawings]
[0096]
FIG. 1 is a central longitudinal cross-sectional view seen from the right side showing the configuration of an electric pot body portion common to each embodiment of the present invention.
FIG. 2 is a plan view of the electric pot main body.
FIG. 3 is a control block circuit diagram of the electric pot main body.
FIG. 4 is a flowchart showing the contents of hot water temperature display control during heat retention according to Embodiment 1 of the present invention.
FIG. 5 is a time chart showing the contents of the hot water temperature display control.
FIG. 6 is a flowchart showing the content of hot water temperature display control during heat retention according to Embodiment 2 of the present invention.
FIG. 7 is a time chart showing the contents of the hot water temperature display control.
[Explanation of symbols]
[0097]
DESCRIPTION OF SYMBOLS 1 is a container main body, 2 is a cover body, 3 is an inner container, 4A is a hot water heater, 4B is a heat insulation heater, 5 is a hot water supply passage, 6 is an electric hot water supply pump, 7 is an outer case, 10 inner cylinders, 11 is an outer cylinder, Reference numeral 12 is a bottom sensor, 18 is a manual hot water supply pump, 47 is a liquid crystal display, 47b is a heat retention set temperature display, 60 is a microcomputer controller, and 80 is a flow sensor.

Claims (5)

  An inner container for boiling and keeping warm, a heat retaining temperature setting means for setting the hot water temperature in the inner container to a predetermined target heat retaining temperature, a heat retaining heating means for heating the inner container during the heat retaining, and a bottom portion of the inner container A hot water temperature detecting means for detecting the hot water temperature in the inner container through the hot water, a hot water temperature display means for displaying the hot water temperature in the inner container detected by the hot water temperature detecting means at the time of heat retention, and the hot water temperature detecting means And an insulation heating control means for controlling ON / OFF of the insulation heating means so that the hot water temperature detected by the means becomes the insulation temperature set by the insulation temperature setting means. The hot water temperature display means is a pot after a predetermined time has elapsed from the start of the heating output control in response to the start of the heating output control corresponding to the set temperature keeping temperature of the heat keeping heating control means immediately after the completion of boiling. Displays the above set temperature An electric kettle, characterized in that it has become way.   The predetermined time from the start of the heating output control is a time that is measured and stored in advance from the start of the heating output control until the hot water temperature in the inner container reaches the set heat retention temperature. The electric kettle according to claim 1, wherein   An inner container for boiling and keeping warm, a heat retaining temperature setting means for setting the hot water temperature in the inner container to a predetermined target heat retaining temperature, a heat retaining heating means for heating the inner container during the heat retaining, and a bottom portion of the inner container A hot water temperature detecting means for detecting the hot water temperature in the inner container through the hot water, a hot water temperature display means for displaying the hot water temperature in the inner container detected by the hot water temperature detecting means at the time of heat retention, and the hot water temperature detecting means And an insulation heating control means for controlling ON / OFF of the insulation heating means so that the hot water temperature detected by the means becomes the insulation temperature set by the insulation temperature setting means. In response to the start of the heating output control corresponding to the set heat retention temperature of the heat retention heating control means immediately after the completion of boiling, the number of ON times of the heat insulation heating means after the start of the heat output control is predetermined. When the number of times is reached, An electric kettle, characterized in that the display means are adapted for displaying the setting retained temperature.   The predetermined number of ON times of the heat retaining heating means is the number of ON times measured and stored in advance from the start of the heating output control until the temperature of the hot water in the inner container reaches the set heat retaining temperature. The electric pot according to claim 3. An inner container for boiling and keeping warm, a heat retaining temperature setting means for setting the hot water temperature in the inner container to a predetermined target heat retaining temperature, a heat retaining heating means for heating the inner container during the heat retaining, and a bottom portion of the inner container A hot water temperature detecting means for detecting the hot water temperature in the inner container via the hot water, a hot water temperature display means for displaying the hot water temperature in the inner container detected by the hot water temperature detecting means at the time of heat retention, and the hot water temperature detection And an insulation heating control means for controlling ON / OFF of the insulation heating means so that the hot water temperature detected by the means becomes the insulation temperature set by the insulation temperature setting means. The set reference temperature for displaying the hot water temperature by the hot water temperature display means until the control of the heating output corresponding to the set warming temperature of the warming and heating control means is started after boiling is completed. Change the width to a lower value to reduce the hot water temperature Shimesuru Meanwhile, the heat insulating heating control means ON warmth heating means, when the OFF control is started, an electric kettle, characterized in that it has to return the set reference temperature width set the lower to the original set reference temperature range.

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