JP3543780B2 - Electric hot water storage container - Google Patents

Description

[0002]
TECHNICAL FIELD OF THE INVENTION
[0003]
TECHNICAL FIELD The present invention relates to an electric hot water storage container used as an electric pot or the like, and more particularly to an electric hot water storage container configured to be able to supply a constant amount of hot water.
[Prior art]
[0004]
The hot water stored in the electric hot water storage container is often used when making hot water of alcohol such as shochu, dissolving instant coffee or the like, or extracting coffee, black tea, green tea or the like. In this case, the required amount of hot water is substantially determined according to the amount of alcohols or instant coffee, or the number of persons to be extracted. However, in the conventional electric hot water storage container, hot water is supplied continuously while the hot water supply switch is pressed.
[0005]
Therefore, an electric hot water storage container capable of supplying a fixed amount of hot water, which is configured so that the required amount of hot water can be supplied by setting the drive time of the electric pump to match the required amount of hot water supply, has been proposed. (See, for example, Japanese Utility Model Laid-Open No. 3-103029).
[Problems to be solved by the invention]
[0006]
By the way, in the case of the electric hot water storage container of the above-mentioned known example, since it is configured to return to the normal hot water supply mode after the fixed hot water supply is completed, when the constant hot water supply is repeatedly performed, the mode shifts from the normal hot water supply mode to the fixed hot water supply mode. There was a problem that the operation had to be repeated and the usability was not good.
[0007]
In addition, when the fixed-quantity hot water supply can be performed repeatedly, if the control for confirming the end of the fixed-quantity hot water supply is not taken when one fixed-quantity hot water supply is completed, there is a possibility that the hot water may be left out, and there is a problem in safety. Occurs.
[0008]
The present invention has been made in view of the above points, and has as its object to make it possible to repeatedly perform fixed-quantity hot water supply and to ensure safety after completion of fixed-quantity hot water supply.
[Means for Solving the Problems]
[0009]
In the invention of claim 1, as means for solving the above-mentioned problems, an inner vessel for water heater, a heating means for heating the inner vessel, and an electric pump for supplying hot water in the inner vessel via a hot water supply passage. A hot water supply switch for controlling the start and stop of the electric pump, a fixed quantity hot water supply setting means for setting the quantity of hot water supplied by the electric pump to a predetermined quantity, and hot water supply by the set quantity of hot water set by the fixed quantity hot water supply setting means. In the electric hot water storage container provided with a fixed-quantity hot water supply control means for controlling the drive of the electric pump, if the hot water supply switch is turned off after the fixed-quantity hot water supply control means terminates the hot water supply switch, the first setting is thereafter performed. If the hot water supply switch is turned ON after a lapse of time, the operation of the electric pump is restarted.QuantitativeHot water supply is startedIf the second set time has elapsed after the elapse of the first set time, the fixed-quantity hot water supply mode is released, and the mode automatically shifts to the hot water supply lock mode to enter the initial state.It is configured so that:
[0010]
With the above-described configuration, when the hot water supply switch is turned off after the end of the fixed amount of hot water supply, after the first set time has elapsed, the electric water pump can be driven by turning on the hot water supply switch. By reQuantitativeHot water supply will be started. Therefore, after the completion of the fixed-quantity hot-water supply, once the hot-water supply switch is turned off and then the elapse of the first set time is confirmed, then the hot-water supply switch is repeatedly turned on by the ON operation.QuantitativeHot water can be supplied, and convenience is improved.Moreover, after the elapse of the first set time and after the elapse of the second set time, the fixed-quantity hot water supply mode is released and the mode automatically shifts to the hot water supply lock mode to be in the initial state. Inadvertent hot water supply can be prevented, and safety is enhanced.
[0011]
The invention of claim 2Then, as means for solving the above problems, an inner vessel for water heater, a heating means for heating the inner vessel, an electric pump for supplying hot water in the inner vessel through a hot water supply passage, and the electric pump A hot water supply switch for controlling the start and stop of the pump, fixed water supply setting means for setting the amount of hot water supplied by the electric pump to a predetermined amount, and the electric pump so as to supply hot water only by the set water supply amount set by the fixed water supply setting means. In the electric hot water storage container provided with a fixed-quantity hot-water supply control means for performing drive control, when the hot-water supply switch is turned off after the fixed-quantity hot-water supply control means ends, after the first set time has elapsed, If the hot water supply switch is turned ON before the second set time has elapsed, the fixed-quantity hot water supply mode is released and normal hot water supply by driving the electric pump is started, and Is configured such that the initial state automatically shifts to the hot water lock mode when the second set time has elapsed.
[0012]
With the above-described configuration, when the hot water supply switch is turned off after the fixed amount of hot water supply is completed, after the first set time has elapsed and before the second set time has elapsed, the hot water supply switch is turned off. When the switch is turned on, the fixed-quantity hot water supply mode is released, and normal hot water supply by driving the electric pump is started. Therefore, after the confirmation operation of waiting for the elapse of the first set time after the hot water supply switch is once turned off after the fixed-quantity hot water supply is completed, normal hot water can be supplied by turning on the hot water supply switch, and the usability is improved. Moreover, after the first set time has elapsed and after the second set time has elapsed, the hot water supply lock mode is automatically shifted to the initial state, so that careless hot water supply is prevented. Can be performed, and safety is enhanced.
BEST MODE FOR CARRYING OUT THE INVENTION
[0013]
Hereinafter, some preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.
[0014]
First embodiment
1 to 6 show an electric hot water storage container according to a first embodiment of the present invention.
[0015]
As shown in FIGS. 1 and 2, this electric hot water storage container has a container body 1 provided with an inner container 3 for storing hot water, a lid 2 for opening and closing the container body 1, and a heating device for heating the inner container 3. It comprises an electric heater 4 as a means, a hot water supply passage 5 for supplying the hot water in the inner container 3 to the outside, and an electric pump 6 for sending out the hot water through the hot water supply passage 5.
[0016]
The container body 1 includes an outer case 7 made of a synthetic resin that forms an outer surface, the inner container 3 that forms an inner peripheral surface, and a ring made of a synthetic resin that connects the outer case 7 and the inner container 3. It comprises a shoulder member 8 and a bottom plate 9 made of synthetic resin, which constitutes a bottom surface.
[0017]
The inner container 3 is formed of a vacuum double structure having a vacuum space between a stainless steel bottomed cylindrical inner cylinder 10 and a stainless steel outer cylinder 11, and the bottom has an outer peripheral portion. Except for this, a single plate portion 3a constituted by only the bottom portion of the inner cylinder 10 is formed. The electric heater 4 (for example, a mica heater formed by holding a heating element on a mica plate) is attached to the lower surface of the single plate portion 3a. At the upper end of the inner container 3, a small-diameter water supply port 3b formed by drawing the upper end of the inner cylinder 10 is formed. Reference numeral 12 denotes a temperature sensor that functions as hot water temperature detecting means for detecting the temperature of the inner container 3 (in other words, hot water temperature), and 13 denotes a full water level display unit that displays the full water level of the inner container 3.
[0018]
The lid 2 includes an upper plate 14 made of a synthetic resin and a lower plate 15 made of a synthetic resin having an outer peripheral edge joined to the upper plate 14, and is provided at a rear portion of the shoulder member 8. It is supported on a hinge receiver 16 via a hinge pin 17 so as to be openable and closable and detachable.
[0019]
The lid 2 is provided with an air pump 18 that is driven by manual operation so that hot water can be supplied through the hot water supply passage 5 even when the power is not connected. The air pump 18 is of a bellows type disposed in a cylindrical concave portion 19 formed substantially at the center of the lid 2, and is pressurized by a pressing operation via a pressing plate 20. Air is blown into the inner container 3, and hot water in the inner container 3 is pushed out to the outside through the hot water supply passage 5 by the pressure of the pressurized air. Reference numeral 21 denotes a steam discharge passage, and reference numeral 22 denotes a falling water stop valve provided in the middle of the steam discharge passage 21.
[0020]
A metal cover member 23 is fixed to the lower plate 15 of the lid 2, and the outer peripheral edge of the cover member 23 is connected to the water supply port 3 b of the inner container 3 when the lid 2 is closed. A seal packing 24 to be pressed is provided.
[0021]
The electric pump 6 is disposed at a position below the inner container 3 in the middle of the hot water supply passage 5, and a straight pipe portion below the full water level display unit 13 of the inner container 3 in the hot water supply passage 5. 5 a is provided with a flow rate sensor 25 which functions as a flow rate measuring means for measuring the flow rate of hot water passing through the hot water supply passage 5.
[0022]
As shown in FIGS. 3 and 4, the flow rate sensor 25 is provided with a transparent glass tube 26 provided in a straight pipe portion 5 a in the middle of the hot water supply passage 5, and is rotatably supported in the glass tube 26. A rotating body 27 and an optical sensor 28 for detecting the number of rotations of the rotating body 27.
[0023]
The rotating body 27 is rotated by loosely fitting a boss 27a to a rotating shaft 30 which is rotatably supported by bearings 29, 29 provided vertically above and below the glass tube 26 in the hot water supply passage straight pipe portion 5a. As shown in FIG. 5, three driving blades 31, 31, 31, which receive the pressure of the hot water passing through the hot water supply passage 5, and are located above the driving blades 31, 31, 31, as shown in FIG. The light sensor 28 includes a pair of light-shielding blades 32, 32 for blocking irradiation of light from the light-emitting element 28a of the optical sensor 28 to the light-receiving element 28b. The light-shielding blades 32, 32 are square blades that are erected at right angles to the outer periphery of the boss 27a.
[0024]
The light sensor 28 is configured to irradiate light from the light emitting element 28a to the light receiving element 28b at a position outside the glass tube 26 and at a position avoiding the boss 27a in the rotating body 27. The number of rotations of the rotating body 27 can be measured by measuring the number of times that the light irradiation from the light emitting element 28a to the light receiving element 28b is blocked by the light shielding blades 32, 32 in. The light emitting element 28a and the light receiving element 28b are attached to the outer periphery of the glass tube 26, and are held in a box-shaped sensor holder 33 closed by a detachable sensor cover 34. In the present embodiment, the light shielding blades 32, 32 of the rotating body 27 are always positioned between the light emitting element 28a and the light receiving element 28b of the optical sensor 28.
[0025]
In FIG. 1, reference numeral 35 denotes an operation panel unit having various switches described later, 36 denotes a switch board, and 37 denotes a power supply board provided with a drive power supply circuit for driving the electric pump 6.
[0026]
As shown in FIG. 2, the operation panel section 35 has a hot water supply switch 38, an unlock switch 39, a boiling / descaling / good night timer switch 40, a heat retention selection switch 41, a fixed hot water supply / kitchen timer switch 42, and a set amount change. Switches 43 and 44, a hot water supply indicator 45, a boiling indicator 46, a warm indicator 47, and a liquid crystal display 48 are provided.
[0027]
The set amount change switches 43 and 44 are operated when changing the time setting at the time of time adjustment, and act as fixed hot water supply setting means for setting the amount of hot water supplied by the electric pump 6 to a predetermined amount. It is also operated when changing the setting of.
[0028]
At the time of normal hot water supply and fixed hot water supply, the various switches and various indicator lamps are operated and displayed as follows.
[0029]
(1) Normal hot water supply
When the lock release switch 39 is pressed, the hot water supply indicator light 45 is turned on, and when the hot water supply switch 38 is pressed, normal electric hot water supply is enabled.
[0030]
(2) Fixed quantity hot water supply
When the fixed hot water supply / kitchen timer switch 42 is pressed once, the set amount change switches 43 and 44 light up. When the hot water amount is set by the set amount change switches 43 and 44, the lock release switch 39 lights up and the lock is released. When the switch 39 is pressed, the hot water supply switch 38 is illuminated, and when the hot water supply switch 38 is pressed, the fixed quantity hot water supply amount display displayed on the time / quantity display section 47a on the liquid crystal display section 47 is automatically subtracted together with the hot water supply to 0 ml. Then, the hot water supply is automatically stopped. During this time, the hot water supply switch 39 is kept pressed. In this way, the switch operation at the time of fixed-quantity hot water supply is performed in one direction, in which the fixed-rate hot water supply / kitchen timer switch 42 → set amount change switches 43 and 44 → lock release switch 39 → hot water supply switch 38 are navigated in this order. Can be reduced.
[0031]
FIG. 6 is a block diagram showing a configuration of a control system in the electric hot water storage container according to the present embodiment. A microcomputer unit (hereinafter, referred to as a microcomputer) 49 includes the various switches 38 to 44, the temperature sensor 12 and A signal from the flow sensor 25 is input, various arithmetic processes are performed, and the results are output to the electric heater 4, the electric pump 6, the liquid crystal display device 48, and the buzzer 50 as control signals.
[0032]
The microcomputer 49 has, in addition to the various control functions described above, a function as fixed-rate hot water supply setting means for setting the hot water supply amount by the electric pump 6 to a predetermined amount, and supplies hot water by the set hot water supply amount set by the fixed hot water supply setting means. When the hot water supply switch 38 is turned off after the fixed hot water supply by the fixed hot water supply control means is completed, the first setting is performed thereafter. Time ts₁If the hot water supply switch 38 is turned on after a lapse of one second (for example, one second), the electric pump 6 is driven again.QuantitativeA function for starting hot water supply, a function for prohibiting the driving of the electric pump 6 even if the hot water supply switch 38 is continuously turned on after completion of the quantitative hot water supply control means, and a function for the quantitative hot water supply control means. If the hot water supply switch 38 is turned off after the end of the fixed quantity hot water supply, the first set time ts₁The function of prohibiting the driving of the electric pump 6 even if the hot water supply switch 38 is turned on before the elapse of (for example, one second).A function of releasing the fixed-quantity hot water supply mode and automatically shifting to the hot water supply lock mode to be in an initial state after the first set time has elapsed and the second set time has elapsed;have.
[0033]
Next, with reference to the flowchart shown in FIG. 7, the control after the end of the fixed-quantity hot water supply in the electric hot water container having the above configuration will be described.
[0034]
In step S1, the fixed-quantity hot water supply / kitchen timer switch 42 is turned on, the set hot water supply amount A set by the set amount change switches 43 and 44 is read into the microcomputer 49, and the set hot water supply amount is displayed on the liquid crystal display device 48. When the hot water supply switch 38 is turned on in step S2, the drive of the electric pump 6 is started in step S3, and the fixed quantity hot water supply operation is started.
[0035]
Then, the fixed-quantity hot water supply via the hot water supply passage 5 is started, and the hot water flows out of the hot water supply passage 5, so that the light sensor 28 by the light shielding blades 32 provided on the rotating body 27 of the flow rate sensor 25. The number of rotations of the rotating body 27 is measured from the number of times of light shielding. The rotation speed is converted into a flow rate of hot water flowing through hot water supply passage 5 in microcomputer 49. In the process of the fixed quantity hot water supply, the hot water supply amount is subtracted from the set hot water supply amount displayed on the liquid crystal display device 48.
[0036]
In step S4, it is determined whether or not the fixed-rate hot water supply has ended (in other words, the hot-water supply amount has reached the set hot-water supply amount), and the fixed-rate hot water supply operation is continued until an affirmative determination is made here. If an affirmative determination is made in step S5, the buzzer 50 is sounded at an interval of 500 ms × 1 in step S5, the hot water supply is disabled in step S6 (that is, the driving of the electric pump 6 is prohibited), and the liquid crystal is turned on in step S7. The hot water supply amount display on the display device 48 flashes. In other words, the hot water supply disabled state and the hot water supply disabled state are notified to the user by the buzzer 50 and the hot water supply amount blinking display.
[0037]
Then, it is determined in step S8 whether or not the hot water supply switch 38 has been turned off. If the determination is affirmative, the first set time ts is determined in step S9.₁A one-second timer built in the microcomputer 49 is started to set the buzzer 50. If it is determined in step S10 that one second has elapsed, the buzzer 50 is sounded at an interval of 100 ms × 1 in step S11. In step S13, the hot-water supply impossible state is released (that is, the drive prohibition state of the electric pump 6 is released), and in step S13, the hot-water supply amount display on the liquid crystal display device 48 is changed to a lighting display. That is, while the hot-water supply impossible state is released, the user is notified of the release of the hot-water supply impossible state by the buzzer 50 and the hot water supply amount lighting display.
[0038]
Next, in step S14, the second set time ts_TwoA 20-second timer built in the microcomputer 49 is started to set the time, and before the determination is made that 20 seconds have elapsed in step S17, or in step S18, the lock release switch 39 is turned on (that is, the lock operation). When it is determined that the hot water supply switch 38 has been turned ON in step S15 when it is determined that the hot water supply switch 38 has not been turned on, the hot water supply amount display is changed from "0" to "0" in step S16, and the process returns to step S3 to repeat the subsequent control.
[0039]
On the other hand, if an affirmative determination is made in step S17 or step S18, the hot water supply is locked in step S19 (that is, the electric pump 6 is not driven even when the hot water supply switch 38 is turned on), and in step S20 the fixed amount hot water supply is performed. The mode is canceled and the mode is shifted to the normal hot water supply mode, and thereafter, the process returns to step S1.
[0040]
As described above, in the present embodiment, if the hot water supply switch 38 is turned off after the end of the fixed amount of hot water supply, then the first set time ts₁After elapse of one second (for example, one second), if the hot water supply switch 38 is turned ON, re-water supply by driving the electric pump 6 is to be started. First set time ts₁After the confirmation operation of waiting for the elapse of (for example, one second), the hot water supply switch 38 can be repeatedly turned on by turning on the hot water supply switch 38, thereby improving usability.
[0041]
The first set time ts after the OFF operation of the hot water supply switch 38₁(For example, 1 second) and the second set time ts_Two(E.g., 20 seconds) has elapsed, or when the lock release switch 39 is turned on (ie, when the lock operation is performed), the mode shifts to the hot water supply lock mode, so the second set time ts_TwoAfter elapse of (for example, 20 seconds) or when the lock release switch 39 is turned on (that is, at the time of the lock operation), careless hot water supply can be prevented, and safety is enhanced.
[0042]
In addition, since the display of the amount of hot water is returned to the initial state at the start of re-hot water supply after the end of fixed-rate hot water supply, the amount of hot water supply can be displayed from the start of re-hot water supply, and the display of the amount of hot water supply is clear. It becomes.
[0043]
In addition, since the setting of the fixed-quantity hot water supply amount at the time of re-hot water supply after the end of the fixed-quantity hot water supply is made to be the same as the previous setting, it is possible to repeatedly perform the same amount of fixed-quantity hot water supply, and the hot water supply is sequentially arranged for hot water supply. This is extremely convenient when the user needs the same amount of hot water.
[0044]
Also, the second set time ts_Two(E.g., 20 seconds), the fixed-quantity hot water supply mode is canceled, so the second set time ts_TwoAfter the elapse of (for example, 20 seconds), a hot water supply method according to the user's request can be selected, and the usability is improved.
[0045]
Further, even if the hot water supply switch 38 is continuously turned ON after the fixed-quantity hot water supply is completed, the drive of the electric pump 6 is prohibited and the hot-water supply is disabled, so that the consciousness of repeatedly performing the fixed-quantity hot water supply is raised. Even if the user does not have to release his finger from the hot water supply switch 38, the hot water is not inadvertently supplied and the safety is improved.
[0046]
If the hot water supply switch 38 is turned off after the fixed-quantity hot water supply is completed, the first set time ts₁Even if the hot water supply switch 38 is continuously turned ON before the elapse of (for example, one second), the driving of the electric pump 6 is prohibited and the hot water supply is disabled, so that the constant quantity hot water supply is repeated. Is performed, the first set time ts after the OFF operation of the hot water supply switch 38₁It is confirmed that the fixed-quantity hot water supply is completed until the elapse of (for example, one second) elapses, so that careless hot water supply is prevented and safety is improved.
[0047]
In addition, since the drive prohibition state or the drive prohibition release state of the electric pump 6 is notified to the user by the buzzer 50 and the blinking or lighting display of the hot water supply amount, the drive prohibition state or the drive prohibition release state of the electric pump 6 is provided. Can be easily confirmed by the user, and the user is not mistaken for a failure.
[0048]
In the above-described embodiment, the amount of hot water at the end of the fixed-quantity hot water supply may be stored in the microcomputer 49, and the hot water supply amount may be read out from the microcomputer 49 at the next fixed-quantity hot water supply. In this way, when the amount of hot water to be used is constant, it is not necessary to reset the fixed amount of hot water supply one by one, which is convenient.
[0049]
Second embodiment
FIG. 8 is a flowchart showing the content of control after the end of fixed-quantity hot water supply in the electric hot water storage container according to the second embodiment of the present invention.
[0050]
In this case, after the fixed-quantity hot water supply is completed, the hot water supply switch 38 is once turned off, and then the first set time ts₁After a lapse of one second (for example, one second), the fixed-quantity hot water supply mode is released and the mode is shifted to the normal hot water supply mode, so that normal hot water supply can be performed thereafter.
[0051]
Next, with reference to the flowchart shown in FIG. 8, the control after the end of the hot water supply interruption in the electric hot water storage container having the above configuration will be described.
[0052]
The control from step S1 to step S12 is the same as that in the flowchart of the first embodiment, and a description thereof will be omitted.
[0053]
At the same time as the hot water supply impossible state is released in step S12 (that is, the drive prohibition state of the electric pump 6 is released), the fixed water supply mode is released in step S13 to shift to the normal hot water supply mode. The hot water supply amount display at 48 changes to a lighted display. That is, at the same time the hot water supply impossible state is released, the fixed hot water supply mode is shifted to the normal hot water supply mode. It is to be notified to the user.
[0054]
Next, in step S15, the second set time ts_TwoA 20-second timer for setting is started, and before it is determined in step S19 that 20 seconds have elapsed, or when it is determined in step S20 that the lock release switch 39 has not been turned on (that is, locked), If it is determined in step S16 that the hot water supply switch 38 has been turned ON, the hot water supply amount display is changed from "0" to "0" in step S17, and then a normal hot water supply operation is performed in step S18, and thereafter, the process returns to step S1.
[0055]
On the other hand, if an affirmative determination is made in step S19 or step S20, the hot water supply is locked (that is, the electric pump 6 is not driven even when the hot water supply switch 38 is turned on) in step S21, and then the process returns to step S1. I do.
[0056]
As described above, in the present embodiment, after the fixed-quantity hot water supply is completed, the first set time ts is set after the hot water supply switch 38 is once turned off.₁After a lapse of one second (for example, one second), the fixed-rate hot water supply mode is released and shifted to the normal hot-water supply mode, so that the normal hot-water supply can be performed thereafter. It is possible to correspond, and usability is improved.
[0057]
The other configuration and operation and effect are the same as those in the first embodiment, and thus the description is omitted.
[0058]
By the way, in the above-mentioned embodiment, the flow sensor of the light sensor type is adopted as the flow rate measuring means, but a propeller type, an electric pump interlocking type, a magnetic sensor type or the like may be adopted.
【The invention's effect】
[0059]
According to the invention of claim 1, an inner vessel for water heater, a heating means for heating the inner vessel, an electric pump for supplying hot water in the inner vessel through a hot water supply passage, and start / stop of the electric pump A hot water supply switch for controlling the amount of hot water supplied by the electric pump, a fixed amount hot water supply setting means for setting the amount of hot water supplied by the electric pump to a predetermined amount, and a drive control of the electric pump so as to supply hot water only by the set amount of hot water supply set by the fixed amount hot water supply setting means. When the hot water supply switch is turned off after the fixed-quantity hot water supply is completed by the fixed-quantity hot water supply control means in the electric hot water storage container provided with the constant-quantity hot water supply control means, the hot water supply is performed after a first set time has elapsed thereafter. When the switch is turned on, the electric pump is driven again.QuantitativeSince the hot water supply is started, after the fixed hot water supply is completed, once the hot water supply switch is turned off and then after the confirmation work of waiting for the first set time to elapse, the fixed hot water supply switch can be repeatedly turned on by the hot water supply switch. This has the effect of improving usability.Moreover, when the second set time has elapsed after the elapse of the first set time, the fixed-quantity hot water supply mode is released, and the system automatically shifts to the hot water supply lock mode to be in the initial state. Therefore, careless hot water supply can be prevented after the second set time has elapsed, and there is also an effect that safety is enhanced..
[0060]
In the invention of claim 2,According to the present invention, an inner container for water heater, a heating means for heating the inner container, an electric pump for supplying hot water in the inner container via a hot water supply passage, and a hot water supply switch for controlling start / stop of the electric pump are provided. Fixed water supply setting means for setting the amount of hot water supplied by the electric pump to a predetermined amount; fixed water supply control means for controlling the operation of the electric pump so as to supply hot water only by the amount of hot water set by the fixed water supply setting means; In the electric hot water storage container provided with the above, if the hot water supply switch is turned off after the fixed-quantity hot water supply control means ends the second hot water supply switch, the second set time elapses after the first set time elapses thereafter. Previously, when the hot water supply switch was turned ON, the fixed-quantity hot water supply mode was released and normal hot water supply by driving the electric pump was started. When the switch is turned OFF, after the first set time has elapsed and before the second set time has elapsed, the fixed water supply mode is released by turning on the hot water supply switch, and the electric pump is turned off. The normal hot water supply is started by the drive of, and after the completion of the fixed-quantity hot water supply, once the hot water supply switch is turned off and then the elapse of the first set time is confirmed, the normal hot water supply is turned on by the ON operation of the hot water supply switch. This has the effect of improving usability. In addition, when the second set time elapses, the apparatus automatically shifts to the hot water supply lock mode and is set to the initial state. After the set time has elapsed, the hot water supply lock mode is automatically shifted to the initial state, so that careless hot water supply can be prevented, and there is also an effect that safety is enhanced.
[Brief description of the drawings]
[0061]
FIG. 1 is a longitudinal sectional view of an electric hot water storage container according to a first embodiment of the present invention.
FIG. 2 is a plan view of an operation panel unit in the electric hot water storage container according to the first embodiment of the present invention.
FIG. 3 is an enlarged vertical sectional side view of a flow rate sensor in the electric hot water storage container according to the first embodiment of the present invention.
FIG. 4 is an enlarged cross-sectional plan view of a flow rate sensor in the electric hot water storage container according to the first embodiment of the present invention.
5A and 5B show a rotating body which is a component of the flow rate sensor in the electric hot water storage container according to the first embodiment of the present invention, wherein FIG. 5A is a side view and FIG. 5B is a plan view.
FIG. 6 is a block diagram of a control system in the electric hot water storage container according to the first embodiment of the present invention.
FIG. 7 is a flowchart showing the content of control after the end of fixed-quantity hot water supply in the electric hot water storage container according to the first embodiment of the present invention.
FIG. 82It is a flowchart which shows the content of the control after fixed-quantity hot-water supply in the electric hot water storage container concerning embodiment.
[Explanation of symbols]
[0062]
1 is a container body, 2 is a lid, 3 is an inner container, 4 is a heating means (electric heater), 5 is a hot water supply passage, 6 is an electric pump, 25 is a flow rate measuring means (flow rate sensor), 38 is a hot water supply switch, 39 Is a lock release switch, 42 is a fixed quantity hot water supply switch (fixed quantity hot water supply / kitchen timer switch), 43 and 44 are fixed quantity hot water supply setting means (set amount change switch), 48 is a liquid crystal display device, 49 is a microcomputer, and 50 is a buzzer.

Claims (2)

A water heater for heating the inner container, a heating means for heating the inner container, an electric pump for supplying hot water in the inner container via a hot water supply passage, a hot water supply switch for controlling start / stop of the electric pump, Fixed water supply setting means for setting the amount of hot water supplied by the pump to a predetermined amount; and fixed water supply control means for controlling the operation of the electric pump so as to supply hot water by the set amount of hot water set by the fixed water supply setting means. If the hot water supply switch is turned off after the fixed hot water supply by the fixed hot water supply control means is completed, the hot water supply switch is turned on after a first set time has elapsed. re quantified hot water supply starts by the drive of the electric pump, together with quantitatively hot water mode is canceled if the second set time even after the lapse of the first predetermined time has elapsed Electric hot water storage vessel, wherein automatically be migrated configured to so that such an initial state in hot water lock mode. A water heater for heating the inner container, a heating means for heating the inner container, an electric pump for supplying hot water in the inner container via a hot water supply passage, a hot water supply switch for controlling start / stop of the electric pump, Fixed water supply setting means for setting the amount of hot water supplied by the pump to a predetermined amount; and fixed water supply control means for controlling the operation of the electric pump so as to supply hot water by the set amount of hot water set by the fixed water supply setting means. When the hot water supply switch is turned off after the fixed-quantity hot-water supply is completed by the fixed-quantity hot-water supply control unit, the first hot-water supply switch is operated after the first set time has elapsed and before the second set time has elapsed. When the hot water supply switch is turned ON, the fixed-quantity hot water supply mode is released and normal hot water supply is started by driving the electric pump. You wherein electric hot water storage vessel to be constructed so that the initial state automatically shifts to over de.

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