JP3894158B2 - Water heater - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a hot water supply device, and more particularly to a display device that displays information to a user in the hot water supply device.
[0002]
[Prior art]
In a hot water storage type hot water supply device, conventionally, information such as the hot water temperature set by the user, the amount of hot water stored in the hot water storage tank, the operation mode, and the current time is displayed on the display unit of the remote control provided in the bathroom or kitchen. (For example, refer to Patent Document 1).
[0003]
As shown in FIG. 29, the display unit is provided with a set temperature display region, a hot water storage amount display region, an operation mode display region, a time display region, an operation state display region, and the like. Information is displayed.
[0004]
[Patent Document 1]
JP 2000-274809 A
[0005]
[Problems to be solved by the invention]
However, in the display section as described above, since a dedicated display area for displaying a large amount of information is provided in a narrow display section, each information item is displayed in a small size, and each display area is Since it is fixed at a predetermined position on the display unit, information is always displayed in a predetermined layout, and it has not been possible to provide only information required by the user in a layout that is easy to read.
[0006]
This invention is made in view of the said point, and aims at displaying the information which a user requires in a water heater easy to read.
[0007]
[Means for Solving the Problems]
  In order to solve the above-mentioned problem, the hot water supply device according to claim 1 has a dot matrix region as at least a part thereof, and display means for displaying information including at least one item selected from a plurality of predetermined items; Display setting means for a user to select and set a display pattern for specifying an item displayed in the dot matrix area and its layout from a display pattern group consisting of a plurality of predetermined display patterns, and the user using the display setting means Display control means for displaying information on the display means according to the set display pattern,The display pattern is a highlight display pattern in which only one item selected from a plurality of predetermined items is arranged over the entire dot matrix area, and the display setting means is selected from the display pattern group 1 Transition from a continuous display mode in which information (47 to 51) is continuously displayed by the display means (46) according to one display pattern to a display setting mode in which the user can select a display pattern from the display pattern group. The setting instruction means (42) for the user to instruct, and the display means (46) in the display setting mode, the user instructs to display the information (47 to 51) by switching between each of a plurality of predetermined display patterns. Switching means (53), and the display control means (620) selects the first display pattern selected from the display pattern group when the user instructs the setting start means (42) to shift to the display setting mode. Information (47-51) is displayed on the display means (46) according to the first display pattern. When switching is instructed by (53), information (47 to 51) is displayed on the display means (46) according to the second display pattern selected from the display pattern group, and then the switching means (53 by the user within a predetermined time). ) Is repeated, each time a display pattern is switched and information (47 to 51) is displayed on the display means (46), thereby switching between each of a plurality of predetermined display patterns. (47 to 51) are displayed on the display means (46), and the display setting means (42, 53, 460) is not instructed to switch the display pattern by the switching means (53) by the user in the display setting mode. When the predetermined time is exceeded, the display pattern used for displaying information by the display means (46) at that time is changed to the continuous display mode. It is characterized by setting as the display pattern used for the display of information (47-51) by the display means (46) at.
[0008]
As described above, when the user can select one display pattern from the display pattern group and display the information on the display unit according to the selected display pattern, the information is displayed with the display pattern adapted to the user's request. Can be provided.
[0009]
  Also, display patternBut,Only one item is displayed in the entire dot matrix area by user selectionHighlight patternIf it is, even if the user is an elderly person or a weak-sighted person, the information required by the user can be displayed in an easy-to-read manner.
[0013]
  Also,When the user wants to select and set a display pattern from the display pattern group, the setting start means shifts to a display setting mode in which the display pattern can be selected, and in this display setting mode, the display is displayed by the switching means. Information can be displayed by switching between the display patterns of the pattern group, and one display pattern can be selected from them.
[0014]
Also,The user displays information in each display pattern of the display pattern group by the switching unit, and when the information is displayed by the display pattern to be selected, by leaving it for a predetermined time without switching the display pattern by the switching unit, A display pattern can be easily selected and set.
[0015]
  Claim 1In the hot water supply apparatus described, the display control means isClaim 2As described, in the display setting mode, the display pattern is switched by the switching unit by blinking at least part of the information displayed by the display unit for a predetermined time during which the display pattern can be switched by the user. It is good to be configured to display to the user that this is possible. Thus, when the fact that the display pattern can be switched by the user is displayed by blinking, the user can identify whether the current display setting mode or the continuous display mode.
[0016]
  Alternatively, the display control meansClaim 3As described, in the display setting mode, during a predetermined time during which the display pattern can be switched by the user, in addition to information, a predetermined symbol blinks and is displayed by the display unit, thereby displaying the display pattern by the switching unit. It may be configured to display to the user that it can be switched. In this manner, when the fact that the display pattern can be switched by the user is displayed by blinking the symbol, the user can identify whether the current display setting mode or the continuous display mode.
[0017]
  The predetermined plurality of items that can be displayed by the display means includeClaim 4As described, it is preferable that an item having information on predetermined items set by the user and used for hot water supply control is included. Thus, if it is configured to be able to display information such as the hot water supply set temperature set by the user, the user can display and confirm the contents of the setting made by himself.
[0018]
  In addition, the water heaterClaim 5As described, when a hot water storage tank for storing hot water used for hot water supply is provided, the predetermined plurality of items that can be displayed by the display means relate to the hot water supply capacity using the hot water in the hot water storage tank. An item having information may be included. In this way, when it is possible to display information related to the hot water supply capacity using hot water in the hot water storage tank, the user can determine whether or not the hot water in the hot water storage tank needs to be increased. It is possible to make a judgment, and it is possible to avoid a situation in which hot water supply is not possible due to an insufficient amount of hot water in the hot water storage tank.
[0019]
  Furthermore, as an item that can be displayed by the display means,Claim 6As described, when an item having information generated based on data stored in relation to the usage status of hot water by the user is included, this allows the user to use his / her past usage status of hot water. You can get information about.
[0020]
  Also,Claim 7As described, while the predetermined work is being performed by the hot water supply device until the predetermined target is reached, the remaining time required until the predetermined target is reached may be displayed by the display means. . Especially in this case,Claim 8As described, it is good if it is the remaining time required to complete the work started by the instruction from the user.Claim 9As described, hot water filling in the bathtub is conceivable. According to such a configuration, the user can know when the work started by his / her instruction is completed, especially when he / she instructs hot water filling, and knows how many minutes can be taken after a bath. Can do.
[0021]
  Furthermore, as an item that can be displayed by the display means,Claim 10As mentioned, it is good to include items that have advice information for the user.Claim 11As described, it may be advice relating to a predetermined item set by the user and used for hot water supply control. In this way, for example, when it is configured to be able to display advice information related to the setting of the operation mode, when the user sets the operation mode, such advice information is displayed and referred to this. Settings can be made.
[0022]
DETAILED DESCRIPTION OF THE INVENTION
(First embodiment)
FIG. 1 shows a schematic configuration of a hot water supply apparatus according to the first embodiment of the present invention. The hot water supply apparatus includes a bathtub 1 disposed in the bathroom and a main unit 100 disposed in a suitable outdoor location near the bathroom. The main unit 100 has a vertically long hot water storage tank 30 therein, and an introduction pipe 31 for supplying tap water is connected to the bottom surface of the hot water storage tank 30. Tap water is supplied into the hot water storage tank 30 from an introduction pipe 31. This water is boiled to a predetermined high temperature by circulating it through a heat pump unit (not shown) disposed outside the hot water storage tank 30 and stored as hot water supply water.
[0023]
The hot water storage tank 30 is made of a metal having excellent corrosion resistance (for example, stainless steel), and a heat insulating material (not shown) is disposed on the outer peripheral portion, thereby keeping hot water for hot water for a long time. Can be done. A plurality of hot water temperature sensors (not shown) are arranged in the vertical direction on the outer wall surface of the hot water storage tank 30, and output temperature information to the control device 200 described later.
[0024]
The introduction pipe 31 is provided with a pressure reducing valve 35 that adjusts the water pressure of the introduced tap water to a predetermined pressure. In this embodiment, a pressure reducing valve 35 that adjusts the water pressure to 150 kPa is adopted. Yes. A tap water introduction pipe 33 branches off from the introduction pipe 31 on the downstream side of the pressure reducing valve 35.
[0025]
Connected to the uppermost part of the hot water storage tank 30 is an outlet pipe 32 for extracting hot hot water from the hot water storage tank 30. A tap water introduction pipe 33 joins the outlet pipe 32, and a temperature control valve 34 is arranged at the junction. By adjusting the opening area ratio of the temperature control valve 34, the mixing ratio of hot water and tap water can be adjusted.
[0026]
Further, a hot water supply pipe 62 is branched from the outlet pipe 32 of the hot water storage tank 30, and this hot water supply pipe 62 merges with a water supply pipe 63 branched from the tap water introduction pipe 33 at its downstream end. A temperature control valve 64 is disposed at the junction, and the temperature control valve 64 can adjust the mixing ratio of hot water and tap water by adjusting the opening area ratio. Connected to the outlet side of the temperature control valve 64 is a hot water supply pipe 60 for guiding hot water to a currant or shower (not shown). A water temperature sensor 25 and a flow rate counter 26 are provided on the hot water supply pipe 60, and these output temperature information and flow rate information of hot water passing through the pipe 60 to the control device 200 described later.
[0027]
On the other hand, in the vicinity of the lower end of the inner wall surface of the bathtub 1, a suction port 2 for sucking the bath water in the bathtub 1 toward the main unit 100 and a discharge port for discharging hot water from the main unit 100 into the bathtub 1 3 is provided. The main unit 100 has a circulation circuit 10 that connects between the suction port 2 and the discharge port 3 of the bathtub 1, whereby the bath water in the bathtub 1 can be circulated in the main unit 100.
[0028]
The circulation circuit 10 is composed of an outgoing pipe 10 a located downstream from a connection point 21 with a pipe 20 described later, and a return pipe 10 b located upstream from the connection point 21. The return pipe 10b is provided with a circulation pump 11 for circulating the bath water in the bathtub 1 in the circulation circuit 10. In this embodiment, an electric pump of a type that pumps bath water by rotating an impeller in a housing is adopted as the circulation pump 11.
[0029]
On the upstream side of the circulation pump 11 of the return pipe 10b, a motor-operated valve 12 for communicating or blocking the path of the return pipe 10b is provided. The motor-operated valve 12 is a motor-operated valve that gently opens and closes the path by a servo motor or the like, and can reduce the operating noise transmitted to the bathroom in which the bathtub 1 is disposed, rather than an electromagnetic valve that instantaneously opens and closes the path by a solenoid or the like. . A water level sensor 13 is disposed on the upstream side of the return pipe 10b from the position where the electric valve 12 is provided, and pressure information in the return pipe 10b is output to a control device 200 described later as water level information in the bathtub 1. It is supposed to be.
[0030]
The forward pipe 10a includes, as a part thereof, a heating unit 10c disposed in the hot water storage tank 30, and the heating unit 10c is configured by a spiral serpentine tube. A flow switch 15 is provided on the upstream side of the heating portion 10c of the forward pipe 10a, and this outputs whether or not there is a flow of bath water in the forward pipe 10a to the control device 200 described later. A bypass pipe 17 is provided on the downstream side of the flow switch 15 of the forward pipe 10a so as to bypass the heating unit 10c. A three-way valve 18 is provided at the upstream connection point between the forward pipe 10a and the bypass pipe 17, and when this is opened, the flow path is switched to the heating unit 10c side, and when closed, the flow path is switched to the bypass pipe 17 side. It is done. Further, by adjusting the opening degree of the three-way valve 18, it is possible to control the bath water or hot water from the upstream side to flow separately at an appropriate ratio on the heating unit 10 c side and the bypass pipe 17 side.
[0031]
The outlet side of the temperature control valve 34 provided at the junction of the tap water introduction pipe 33 and the outlet pipe 32 is connected to the circulation circuit 10 by a pipe 20 that is a hot water supply passage. The pipe 20 is provided with an electromagnetic valve 22 for communicating or blocking this path. A flow rate counter 23 is disposed between the solenoid valve 22 and the temperature control valve 34 of the pipe 20 so as to output flow rate information of hot water flowing through the pipe 20 to the control device 200 described later. A check valve 24 is provided between the connection point 21 between the circulation circuit 10 and the pipe 20 and the solenoid valve 22, and the pressure of hot water in the pipe 20 circulates in the circulation circuit 10. When the pressure of the bath water is lower, the bath water does not flow back through the pipe 20.
[0032]
A water temperature sensor 16 is provided at a connection point 21 between the circulation circuit 10 and the pipe 20, which is temperature information of the connection point 21, that is, bath water in the circulation circuit 10 or from the pipe 20 to the forward pipe 10 a. The temperature information of the flowing hot water is output to the control device 200 described later.
[0033]
The main unit 100 further includes a control device 200, which includes a bathroom operation panel (not shown) attached in the bathroom and switches of the kitchen operation panel 40 attached to the kitchen or the like. Receive a switch signal. The operation panel for the bathroom has a bath temperature setting switch for setting a hot water supply temperature to the bathtub 1, a hot water temperature setting switch for setting a hot water temperature from a currant or a shower, an automatic instructing automatic hot water filling and heat insulation to the bathtub 1. A switch, a reheating switch for instructing replenishment of bath water, an additional hot water switch for instructing additional hot water to the bathtub 1, a water supply switch for instructing water to be poured into the bathtub 1, and a cleaning switch for instructing cleaning of the circulation circuit 10 , A hot water amount setting switch for setting the water level of the bath water, a heat retention time setting switch for setting the heat retention time after filling the bathtub 1, and a display unit (none of which are shown). Information such as time, bath set temperature, set water level, and actual water level is displayed on the display unit.
[0034]
As shown in FIG. 2, the kitchen operation panel 40 includes an automatic switch 41 that is used when a user instructs automatic hot water filling and heat insulation to the bathtub 1, a navigation switch 42 that is used when a change in display mode is instructed, An operation mode switching switch 43 used when instructing switching of the operation mode, a forced boiling increase switch 44 used when instructing forced boiling of hot water in the hot water storage tank 30, a time setting switch 45 used when setting the time, A temperature lowering switch 53 that is used when the user instructs the hot water temperature from the curan or shower to be lower than the current set temperature, a temperature raising switch 54 that is used when an instruction is given to raise the hot water temperature from the current set temperature, and the user A display unit 46 for displaying various information is provided.
[0035]
The display unit 46 is composed of a dot matrix area as a whole, and indicates that information 47 relating to the amount of hot water stored in the hot water storage tank 30, time 48, hot water set temperature 49, operation mode 50, and heating is being performed. Information 51 and the like are displayed.
[0036]
The user can set the current time on the clock held in the control device 200 by the time setting switch 45. Specifically, when the time setting switch 45 is pressed, the time can be set. In this state, the temperature can be set by repeatedly pressing the temperature lowering switch 53 or the temperature raising switch 54 within a predetermined time (for example, 3 seconds). Can be changed. If neither the temperature lowering switch 53 nor the temperature raising switch 54 is pressed for more than 3 seconds, the time set at that time is determined as the current time. Alternatively, when the time setting switch 45 is pressed again in a state in which the time can be set, the time set at that time is determined as the current time.
[0037]
Further, the user can set the operation mode of the hot water storage type hot water supply apparatus to any one of the three modes of “full tank”, “Random”, and “midnight only” by the operation mode changeover switch 43. Specifically, when the operation mode switch 43 is pressed once, the operation mode can be switched, and then the current mode is set every time the operation mode switch 43 is pressed within a predetermined time (for example, 3 seconds). The operation mode is switched in a predetermined order (for example, the “full tank” mode → the “automatic” mode → the “late night” mode). If the operation mode changeover switch 43 is not pressed for more than 3 seconds, the operation mode selected at that time is determined.
[0038]
When the “full tank” mode is set, the hot water in the hot water storage tank 30 is controlled to be automatically filled at all times. Thus, the hot water storage tank 30 is controlled to maintain an appropriate hot water storage amount. When the “late night only” mode is set, the hot water in the hot water storage tank 30 is automatically boiled only during the midnight time period, and the automatic boiling is not performed during other time periods.
[0039]
Further, the user can set the temperature of hot water supplied from the shower or currant using the temperature lowering switch 53 and the temperature raising switch 54. Specifically, when the temperature lowering switch 53 or the temperature raising switch 54 is pressed once, the hot water supply temperature can be set, and thereafter, the temperature lowering switch 53 or the temperature raising switch is repeatedly within a predetermined time (for example, 3 seconds). When 54 is pressed, the hot water supply temperature setting is changed. If neither the temperature lowering switch 53 nor the temperature raising switch 54 is pressed for more than 3 seconds, the hot water supply temperature set at that time is determined.
[0040]
In addition, when the user thinks that the hot water storage is insufficient based on the hot water storage amount display 47 on the kitchen operation panel 40, the user can forcibly execute the boiling increase by the heat pump unit by the forced boiling increase switch 44. it can.
[0041]
The user operates the navigation switch 42 to change the display mode of the display unit 46 from “continuous display mode” in which information is continuously displayed to “temporary display mode in which information is temporarily displayed. Or the display format in the continuous display mode can be set to a highlighted display format in which only one information item is enlarged and displayed in the entire display area. In the temporary display mode, information that is not displayed in the display in the normal format is temporarily displayed on the display unit 46. Also, when the highlight format (highlight display mode) is set by the user, in the continuous display mode, only one item selected by the user from the displayable information items is enlarged and displayed on the entire display unit 46 ( This display is continued until the user switches to the display in the normal format or the display is switched to the display in the highlight display format that enlarges and displays other items.
[0042]
Specifically, for example, when the navigation switch 42 is pressed once by the user in a state where information is continuously displayed in the normal display format (continuous display mode) as shown in FIG. As shown in (B), the available hot water amount is temporarily displayed on the entire display unit 46. Thereafter, when the navigation switch 42 is pressed once again within a predetermined time (for example, 3 seconds), the past hot water amount is temporarily displayed on the entire display unit 46 as shown in FIG. Specifically, the amount of hot water used for the past one week (7 days) is shown in a graph. Thereafter, when the navigation switch 42 is pressed once again within 3 seconds, “highlight display mode” is displayed on the entire display unit 46 as shown in FIG. (Display setting mode). In the state shown in FIGS. 3B and 3C, if the navigation switch 42 is not pressed within 3 seconds, the display returns to the continuous display state shown in FIG.
[0043]
As shown in FIG. 3D, even when the navigation switch 42 is pressed within a predetermined time (for example, 3 seconds) in the state where “highlight display mode” is displayed, the display returns to the continuous display state. When the temperature reduction switch 53 is pressed within 3 seconds in the state where “highlight display mode” is displayed, the display shifts to a display for setting the highlight display mode, and first, as shown in FIG. In addition, the available hot water amount is displayed on the entire display unit 46. When the temperature lowering switch 53 is pressed within 3 seconds in this display state, the past hot water amount is displayed on the entire display unit 46 as shown in FIG. Thereafter, each time the temperature lowering switch 53 is pressed within 3 seconds, the display is switched to the time, hot water supply set temperature, and hot water storage amount emphasis display as shown in FIGS. If the temperature lowering switch 53 is pushed within, the display circulates and switches as shown in FIGS.
[0044]
In each of the display states shown in FIGS. 4A to 4E, when the temperature lowering switch 53 is not pressed within 3 seconds, the highlighted display mode in that display state is determined. The display in the determined highlighted display format (highlighted display mode) is continued until switching to the continuous display mode or switching to the highlighted display mode for displaying other items is performed thereafter. In this way, any of the items of usable hot water volume, past hot water volume, time, hot water supply set temperature, and hot water storage volume can be expanded and displayed continuously.
[0045]
When switching from the highlight display format to the normal display format, when the navigation switch 42 is pressed in the display state in the highlight display format, the display is first switched to the display shown in FIG. 3B, and the navigation switch is switched within 3 seconds in this state. When 42 is continuously pressed twice, the “highlight display mode” shown in FIG. 3D is displayed. If the navigation switch 42 is pressed within 3 seconds in this state, the display is switched to the normal display format as shown in FIG.
[0046]
When switching from the highlighted display format in which a certain item is displayed (for example, the highlighted display state of the available hot water amount as shown in FIG. 4A) to the highlighted display format in which another item is displayed, As in the case of switching to the display format, the display state is switched to the display state shown in FIG. 3D, and the temperature lowering switch 53 is repeatedly pressed within 3 seconds from this state to show the display state shown in FIGS. If the display state is switched and the item to be displayed is displayed and 3 seconds have passed without the temperature lowering switch 53 being pressed, the highlighted state is determined when 3 seconds are exceeded. The
[0047]
3B and 3C, if the navigation switch 42 is not pressed within 3 seconds, the display before the navigation switch 42 is first pressed after 3 seconds. Return to state. Therefore, if the display state is in the normal display format shown in FIG. 3A before the navigation switch 42 is pressed, the display returns to the normal display format. For example, when the hot water amount is highlighted, The display returns to the highlighted hot water display.
[0048]
In addition, in the display state of the “highlight display mode” shown in FIG. 3D, the navigation switch 42 is first pressed even when neither the navigation switch 42 nor the temperature lowering switch 53 is pressed within 3 seconds. Return to the previous display state.
[0049]
In the present embodiment, the “usable hot water amount” temporary display shown in FIG. 3B and the “usable hot water amount” highlighted display shown in FIG. 4A are in exactly the same display format, and FIG. The “previously used hot water amount” temporary display shown in FIG. 4B and the “past hot water amount” highlighted display shown in FIG. 4B have the same display format, but they may be different.
[0050]
Furthermore, the hot water supply apparatus of this embodiment can instruct a drain operation for discharging water in the circulation circuit 10 by simultaneously operating a plurality of predetermined switches of the bathroom operation panel or the kitchen operation panel 40. Such a drainage operation can be performed, for example, according to instructions from an inspector at the time of shipping inspection of a hot water supply device. Further, by operating a plurality of predetermined switches on the bathroom operation panel or the kitchen operation panel 40 at the same time, it is possible to instruct an air bleeding operation for bleeding air in the pipe between the hot water storage tank 30 and the heat pump unit. Such air venting operation can be performed, for example, by an instruction from a construction worker during installation work.
[0051]
Next, a control process executed by the control device 200 will be described. The control device 200 starts to operate when the hot water storage type hot water supply device is turned on, pressure information from the water level sensor 13, information on the presence or absence of the flow of bath water from the flow switch 15, and temperature from the water temperature sensor 16. Information, flow information from the flow counters 23 and 26, temperature information from the hot water temperature sensor (not shown), switch signals from the switches 41 to 45 of the operation panel for bathroom and kitchen operation panel 40, etc. Thereby, the circulation pump 11, the electric valve 12, the electromagnetic valve 22, the temperature control valves 34 and 64, the heat pump unit, the display panel 46 of the operation panel for bathroom, the operation panel 40 for kitchen, and the like are controlled.
[0052]
FIG. 5 shows a procedure of control processing executed by the control device 200. First, in step 300, various settings are initialized. At this time, the time setting flag CF, the operation mode switching flag MF, the boiling increase flag HF, the hot water supply temperature setting flag TF, the temporary display flag TMP, and the display flag DPF used in subsequent steps are initialized to 0, respectively. The initial values are set to the operation mode MODE, the current time SCLOCK, and the hot water supply set temperature TSET. Further, the hot water amount CPV and the past hot water amounts PV1 to PV7 are initialized to zero.
[0053]
In step 310, the hot water storage amount TV in the hot water storage tank 30 is calculated based on a sensor signal from a hot water temperature sensor (not shown), the switch signal from the forced boiling increase switch 44, the time SCLOCK, the calculated hot water storage amount TV, etc. On the basis of the above, it is determined whether or not boiling of hot water in the hot water storage tank 30 is necessary or not, and if it is determined that it is necessary, boiling or additional heating is executed by controlling the heat pump unit. Further, when boiling is started automatically or when boiling is started, the boiling increasing flag HF is set to 1, and when boiling is started when the forced boiling increase switch 44 is operated by the user, boiling is increased. When the middle flag HF is set to 2 and the boiling or boiling is finished, the boiling additional flag HF is set to 0.
[0054]
In step 315, the circulation pump 11, the motor operated valve 12, the electromagnetic valve 22, the temperature control valve 34, the heat pump unit, and the like are controlled based on switch signals from the switches of the kitchen operation panel 40 and the cleaning switch of the bathroom operation panel. By controlling, the circulation circuit 10 is washed, the air is released, and the drainage operation is performed.
[0055]
In step 320, based on the switch signals from the switches of the bathroom operation panel and the automatic switch 41 of the kitchen operation panel 40, and the sensor signals from the sensors 13, 15, 16, 23, the circulation pump 11, the motor operated valve 12, the three-way valve 18, the electromagnetic valve 22, the temperature control valve 34, and the like control the hot water in the bathtub 1 using the hot water in the hot water storage tank 30, add hot water, and bath water in the bathtub 1. The hot water is heated and recirculated by circulating the water, the water is fed by supplying tap water to the bathtub 1, and the amount of hot water used by the user based on the flow rate information from the flow rate counter 23 is used. Accumulate as
[0056]
In step 330, when hot water from the currant or shower is detected from the flow rate information from the flow counter 26, the curan or shower is controlled by controlling the temperature control valve 64 based on the hot water set temperature TSET and the temperature information from the water temperature sensor 25. The hot water supply at the set temperature TSET is executed, and the amount of hot water used by the user based on the flow rate information from the flow rate counter 26 is integrated as the used hot water amount CPV. As for the amount of hot water used CPV, the accumulated result for each day is stored as the amount of hot water used in the past, and the amount of hot water used PV1 to PV7 for the past week (7 days) is stored in the control device 200.
[0057]
In step 335, as will be described in detail later, various setting switches such as a navigation switch 42, an operation mode changeover switch 43, a time setting switch 45, a temperature raising switch 53, and a temperature lowering switch 54 that are used when the setting is changed by the user. On the basis of the switch signal from, the setting change process is executed, and various settings held in the control device 200 are thereby changed.
[0058]
In step 340, although details will be described later, the display unit 46 of the bathroom operation panel 40 and the kitchen operation panel 40 is controlled to display various information. After the execution of step 340 is completed, the process returns to step 310 and the execution of steps 310 to 340 is repeated at a predetermined cycle.
[0059]
FIG. 6 shows the procedure of the setting change process executed in step 335 shown in FIG. First, in step 400, as will be described in detail later, based on a switch signal from the time setting switch 45 or the like, the current time SCLOCK indicated by the timepiece held in the control device 200 is changed. In step 410, although the details will be described later, the setting of the operation mode MODE is changed based on the switch signal from the operation mode changeover switch 43.
[0060]
In step 420, the hot water supply temperature setting is changed based on the switch signal from the bath temperature setting switch of the bathroom operation panel. In step 430, the water level setting is changed based on the switch signal from the hot water amount setting switch. In step 440, the setting of the heat retention time is changed based on the switch signal from the heat retention time setting switch.
[0061]
In step 450, as will be described in detail later, based on the switch signals from the temperature lowering switch 53 and the temperature raising switch 54, the setting of the hot water supply temperature TSET from currant or shower is changed. In step 460, as will be described in detail later, based on a switch signal from the navigation switch 42 or the like, the setting of the display mode for specifying the information item and layout displayed on the display unit 46 of the kitchen operation panel 40 is changed. .
[0062]
FIG. 7 shows the procedure of the time setting change process executed in step 400. First, in step 800, it is determined whether or not the time setting flag CF indicating whether or not the time can be set is 1, and whether the elapsed time indicated by the timer ETS exceeds 3 seconds. The time setting flag CF is initially set to 0 in step 300 shown in FIG. 5, and then set to 1 when the time setting switch 45 is entered by the user pressing the time setting switch 45, and the time can be set. Set to 0 when the state ends. The timer ETS indicates the elapsed time since the transition to the time settable state, or the elapsed time since the user pressed the temperature lowering switch 53 or the temperature raising switch 54 for setting the time thereafter. Yes.
[0063]
If YES in step 800, that is, if the time setting switch 45, the temperature lowering switch 53, and the temperature raising switch 54 are not pressed for more than 3 seconds when the time can be set, Assuming that the settable state has ended, the time setting flag CF is set to 0 in step 830, the execution of the time setting change process is terminated, and the process returns to the setting change process routine.
[0064]
On the other hand, if NO is determined in step 800, it is determined in step 805 whether or not the time setting switch 45 has been pressed. If YES is determined in step 805, it is determined in step 810 whether the time setting flag CF is 1 or not. If YES is determined in step 810, that is, if the time setting switch 45 is pressed in a state where the time can be set, it is determined that the user has instructed to end the state where the time can be set, and step 830 is performed. The time setting flag CF is set to 0, the execution of the time setting change process is terminated, and the process returns to the setting change process routine.
[0065]
If it is determined NO in step 810, that is, if the time setting flag CF is 0, in step 815, three conditions "operation mode switching flag MF is 1", "hot water supply temperature setting flag TF" Is “1” or “temporary display flag TMP is greater than 0”.
[0066]
The operation mode switching flag MF is initially set to 0 in step 300 shown in FIG. 5, and then is set to 1 when the operation mode switching switch 43 is pushed by the user so that the operation mode can be switched. When the state in which the operation mode can be switched is completed, 0 is set. The hot water supply temperature setting flag TF is initially set to 0 in step 300 shown in FIG. 5, and thereafter, when the temperature lowering switch 53 or the temperature raising switch 54 is pressed by the user to shift to a state where the hot water supply temperature can be set, 1 When the state where the hot water supply temperature can be set ends, it is set to 0.
[0067]
The temporary display flag TMP indicates whether the display mode on the display unit 46 of the kitchen operation panel 40 is the continuous display mode or the temporary display mode. In the case of the continuous display mode, the temporary display flag TMP is set to 0. In the case of the temporary display mode, the temporary display flag TMP is set to any one of 1 to 4 according to the displayed information. Has been.
[0068]
If YES is determined in step 815, that is, if the operation mode is being switched, the hot water supply temperature is being set, or is being temporarily displayed, the display unit 46 may be switched to a time setting display. Since it is impossible, the execution of the time setting change process is terminated without returning to the time setting possible state (the time setting flag CF remains 0), and the process returns to the setting change processing routine.
[0069]
If NO is determined in step 815, the time setting flag CF is set to 1 in step 820 to shift to a time setting enable state, and in step 825, the timer ETS is started. Thereafter, the execution of the time setting change process is terminated, and the process returns to the setting change process routine.
[0070]
On the other hand, if NO is determined in step 805, it is determined in step 835 whether either the temperature lowering switch 53 or the temperature increasing switch 54 has been pressed. If YES is determined, the timer ETS is reset in step 840, and in step 845, the setting of the current time SCLOCK is changed based on which one of the temperature lowering switch 53 and the temperature increasing switch 54 is pressed. Thereafter, the execution of the time setting change process is terminated, and the process returns to the setting change process routine.
[0071]
If it is determined NO in step 835, the execution of the time setting change process is terminated without changing both the time setting flag CF and the current time SCLOCK, and the process returns to the setting change process routine.
[0072]
FIG. 8 shows the procedure of the operation mode change process executed in step 410 shown in FIG. First, in step 850, it is determined whether or not the operation mode switching flag MF is 1 and the elapsed time indicated by the timer ETS exceeds 3 seconds. The timer ETS indicates an elapsed time after shifting to a state where the operation mode can be switched, or an elapsed time after the operation mode switch 43 is pressed by the user for switching the operation mode.
[0073]
If it is determined as YES in step 850, that is, if the operation mode switch 43 is not pressed for more than 3 seconds in the operation mode switchable state, the operation mode switchable state is ended. In step 880, the operation mode switching flag MF is set to 0, the execution of the operation mode change process is terminated, and the process returns to the setting change process routine.
[0074]
On the other hand, if NO is determined in step 850, it is determined in step 855 whether or not the operation mode changeover switch 43 has been pressed. If YES is determined in step 855, it is determined in step 860 whether or not the operation mode switching flag MF is 1. If YES is determined in step 860, that is, if the operation mode switch 43 is pressed in a state where the operation mode can be switched, the timer ETS is reset in step 885, and the operation mode MODE is changed to the current mode in step 890. From the mode, for example, “full tank” mode → “auto” mode → “late night” mode is changed in one step. Thereafter, the execution of the operation mode change process is terminated and the process returns to the setting change process routine.
[0075]
If NO is determined in step 860, that is, if the operation mode switching flag MF is 0, in step 865, three conditions “time setting flag CF is 1”, “hot water supply temperature setting flag TF” Is “1” or “temporary display flag TMP is greater than 0”.
[0076]
If it is determined as YES in step 865, it is impossible to shift to the operation mode switchable state, so the operation mode switching flag MF remains 0 without shifting to the operation mode switchable state. The execution of the operation mode change process is terminated, and the process returns to the setting change process routine.
[0077]
If it is determined as NO in step 865, the operation mode switching flag MF is set to 1 in step 870 to shift to an operation mode switchable state, and in step 875, the timer ETS is started (reset). . Thereafter, the execution of the operation mode change process is terminated, and the process returns to the setting change process routine.
[0078]
On the other hand, if it is determined NO in step 855, the execution of the operation mode change process is terminated without changing both the operation mode switching flag MF and the operation mode MODE, and the process returns to the setting change process routine.
[0079]
FIG. 9 shows the procedure of the hot water supply temperature setting change process executed in step 450 shown in FIG. First, in step 900, it is determined whether or not the hot water supply temperature setting flag TF is 1 and the elapsed time indicated by the timer ETS exceeds 3 seconds. The timer ETS indicates an elapsed time after transition to a state where the hot water supply temperature can be set, or an elapsed time after the temperature lowering switch 53 or the temperature raising switch 54 is pressed by the user to change the hot water supply temperature. Yes.
[0080]
If YES is determined in step 900, that is, if the state where the temperature lowering switch 53 or the temperature raising switch 54 is not pressed for more than 3 seconds in a state where the hot water supply temperature can be set, the hot water supply temperature can be set. In step 930, the hot water supply temperature setting flag TF is set to 0, the hot water supply temperature setting change process is terminated, and the process returns to the setting change process routine.
[0081]
On the other hand, if NO is determined in step 900, it is determined in step 905 whether or not the temperature lowering switch 53 or the temperature increasing switch 54 is pressed. If YES is determined in step 905, it is determined in step 910 whether the hot water supply temperature setting flag TF is “1”. If YES in step 910, that is, if the temperature lowering switch 53 or the temperature raising switch 54 is pressed in a state where the hot water supply temperature can be set, the timer ETS is reset in step 940, and the temperature is lowered in step 945. The hot water supply set temperature TSET is changed based on which of the switch 53 and the temperature raising switch 54 is pressed. Thereafter, the execution of the hot water supply temperature setting change process is terminated, and the process returns to the setting change process routine.
[0082]
If NO is determined in step 910, that is, if the hot water supply temperature setting flag TF is 0, in step 915, three conditions “time setting flag CF is 1” and “operation mode switching flag MF is It is determined whether or not “Is 1” or “Temporary display flag TMP is greater than 0” is satisfied.
[0083]
If it is determined as YES in step 915, it is impossible to shift to a state where the hot water supply temperature can be set, and therefore the hot water temperature setting flag TF remains 0 without shifting to the hot water temperature setting possible state. The execution of the hot water supply temperature setting change process is terminated, and the process returns to the setting change process routine.
[0084]
If NO is determined in step 915, the hot water supply temperature setting flag TF is set to 1 in step 920 to shift to a hot water supply temperature settable state, and in step 925, the timer ETS is started (reset). Thereafter, the execution of the hot water supply temperature setting change process is terminated, and the process returns to the setting change process routine.
[0085]
On the other hand, if NO is determined in step 905, the hot water supply temperature setting change process is terminated without changing both the hot water supply temperature setting flag TF and the hot water supply set temperature TSET, and the process returns to the setting change process routine.
[0086]
In the display mode change process executed in step 460 shown in FIG. 6 and the display control process executed in step 340 shown in FIG. 5, is the display mode on the display unit 46 of the kitchen operation panel 40 a continuous display mode? Using the temporary display flag TMP indicating whether the display mode is the temporary display mode and the display flag DPF indicating the display format displayed on the display unit 46 in the continuous display mode, display mode setting and display control are executed.
[0087]
The temporary display flag TMP and the display flag DPF are set as follows. When the navigation switch 42 is pressed to shift from the continuous display mode to the temporary display mode, the temporary display flag TMP is set to 1, and can be used for the display unit 46 as shown in FIG. The amount of hot water is displayed. Thereafter, when the navigation switch 42 is pressed again within 3 seconds, the temporary display flag TMP is incremented to 2, and the past hot water amount is displayed on the display unit 46 as shown in FIG. If the navigation switch 42 is pressed again within 3 seconds, the temporary display flag TMP is incremented to 3, and “highlight display mode” is displayed on the display unit 46 as shown in FIG. Thereafter, when the navigation switch 42 is pressed within 3 seconds, the temporary display flag TMP is set to 0, thereby returning to the continuous display mode.
[0088]
On the other hand, when the temperature lowering switch 54 is pressed within 3 seconds in the display state shown in FIG. 3D, the temporary display flag TMP is incremented to 4, and the state shifts to a state in which the highlight display mode can be set. In this state, each time the temperature lowering switch 54 is pressed within 3 seconds, the display flag DPF is cyclically switched from 1 → 2 → 3 → 4 → 5 → 1 starting from the currently set value. When the display flag DPF is set to 0, as shown in FIG. 3A, display in a normal display format in which a plurality of information items are displayed on the display unit 46 is performed. When the display flag DPF is set to 1 to 5, display is performed in the highlight display format (highlight display mode).
[0089]
Specifically, when the display flag DPF is set to 1, the available hot water amount is highlighted as shown in FIG. 4 (A), and when it is set to 2, it is shown in FIG. 4 (B). Thus, when the past hot water volume is highlighted and set to 3, the time is highlighted as shown in FIG. When it is set to 4, the hot water supply set temperature is highlighted as shown in FIG. 4 (D), and when it is set to 5, the hot water storage amount is highlighted as shown in FIG. 4 (E). When the display flag DPF is set to 0 at the time when the highlight mode is shifted to a state where the highlight mode can be set, the display flag DPF is first set to 1 and then the temperature lowering switch 54 is pressed within 3 seconds. Each time, the display flag DPF is cyclically switched in the order of 1 → 2 → 3 → 4 → 5 → 1 starting from 1. When the display flag DPF is set to a value other than 0 when the highlight mode is settable, the display flag DPF is set every time the temperature lowering switch 54 is pressed within 3 seconds. Starting from the set value, the cycle is switched in the order of 1 → 2 → 3 → 4 → 5 → 1.
[0090]
10 and 11 show the specific procedure of the display mode change process. First, at step 500, one of the three conditions “time setting flag CF is 1”, “operation mode switching flag MF is 1”, or “hot water supply temperature setting flag TF is 1” is selected. Determine if you are satisfied. If YES is determined, the display mode change process is terminated without changing the display mode, and the process returns to the setting change process routine.
[0091]
If NO is determined in step 500, it is determined in step 503 whether the temporary display flag TMP is 0 and the navigation switch 42 is pressed. If YES is determined, the temporary display flag TMP is incremented to 1 in step 520, and the timer ET is started in step 525. Thereafter, the execution of the display mode change process is terminated, and the process returns to the setting change process routine.
[0092]
If NO is determined in step 503, it is determined in step 505 whether the temporary display flag TMP is 1 or more and 4 or less and the elapsed time indicated by the timer ET is 3 seconds or less. The timer ET indicates an elapsed time since the temporary display flag TMP is updated to any one of 1, 2, 3, and 4.
[0093]
If it is determined NO in step 505, whether the user has not performed an operation for switching over 3 seconds in the temporary display mode, or whether the navigation switch 42 has not been operated in the continuous display mode. In step 585, the temporary display flag TMP is set to 0, thereby setting the display mode to the continuous display mode. Thereafter, the execution of the display mode change process is terminated, and the process returns to the setting change process routine.
[0094]
If YES is determined in step 505, it is determined in step 510 whether or not the temporary display flag TMP is 1 or 2. If YES is determined, it is determined in step 515 whether or not the navigation switch 42 has been pressed. If it is determined YES, that is, if the navigation switch 42 is pressed within 3 seconds in the state where the temporary display flag TMP is 1 or 2, the temporary display flag TMP is incremented by 1 in step 520. In step 525, the timer ET is reset. Thereafter, the execution of the display mode change process is terminated, and the process returns to the setting change process routine. If it is determined NO in step 515, the execution of the display mode change process is terminated and the process returns to the setting change process routine.
[0095]
If NO is determined in step 510, that is, if the temporary display flag TMP is 3 or 4, it is determined in step 530 whether the temporary display flag TMP is 3 and the navigation switch 42 is pressed. If it is determined YES, that is, if the navigation switch 42 is pressed within 3 seconds in the state where the display shown in FIG. 3D is performed on the display unit 46, in step 535, the temporary display flag TMP is displayed. By setting 0 to 0, the display mode is changed from the temporary display mode to the continuous display mode, and by setting 0 to the display flag DPF, the display format is set to the normal display format. Thereafter, the execution of the display mode change process is terminated, and the process returns to the setting change process routine.
[0096]
If NO is determined in step 530, it is determined in step 540 whether or not the temperature lowering switch 53 has been pressed. When it determines with NO, execution of a display mode change process is complete | finished and it returns to a setting change process routine. If YES is determined in step 540, that is, if the temperature lowering switch 53 is pressed within 3 seconds in a state where TMP is set to 3 or 4, the timer ET is reset in step 545. Further, in step 550, it is determined whether or not the temporary display flag TMP is 3.
[0097]
If YES in step 550, that is, if the temporary display flag TMP is 3, 4 is set in the temporary display flag TMP in step 555. Further, in step 560, it is determined whether or not the display flag DPF is 0. If YES is determined, the display flag DPF is set to 1 in step 565, and then the execution of the display mode changing process is terminated. Return to the setting change processing routine. If NO is determined in step 560, that is, if the display flag DPF is set to any value of 1 to 5, the display mode change process is executed without changing the setting of the display flag DPF. End and return to the setting change processing routine.
[0098]
If NO is determined in step 550, that is, if the temporary display flag TMP is 4, it is determined in step 570 whether the display flag DPF is 1 or more and 4 or less. If it is determined YES, in step 575, the display flag DPF is incremented by 1, and then the execution of the display mode change process is terminated and the process returns to the setting change process routine. If it is determined NO in step 570, that is, if the display flag DPF is 5, the display flag DPF is set to 1 in step 580, and then the execution of the display mode change process is terminated to change the setting. Return to the processing routine.
[0099]
Next, the procedure of the display control process executed in step 340 shown in FIG. 5 will be described based on FIG. In step 600, the available hot water amount VA is calculated as follows. The hot water temperature detected by a plurality of hot water temperature sensors (not shown) disposed in the hot water storage tank 30 is Ti (i = 1,..., N), and the capacity of the hot water storage tank 30 is V, of which each hot water temperature sensor When the volume of the part corresponding to is Vi (i = 1,..., N), when the hot water in the hot water storage tank 30 is mixed with tap water having a water temperature T0 and hot water is supplied at the hot water supply set temperature TEST, As shown in the formula, the heat quantity of hot water and water before mixing is equal to the heat quantity of hot water after mixing.
[0100]
[Expression 1]
ΣTiVi + T0Vx = TSET (Vx + V)
Vx represents the amount of water to be mixed. The mixed water amount Vx is calculated from this equation, and the usable hot water amount VA can be obtained by the following equation using the mixed water amount Vx.
[0101]
[Expression 2]
VA = Vx + V
In step 610, display on the display unit of the bathroom operation panel is executed. Specifically, the current time, bath set temperature, set water level, current actual bath water level, and the like are displayed in each display area provided in the display unit in order to display these pieces of information.
[0102]
In step 620, the current time, hot water supply temperature, hot water storage amount, operation mode, and the like are displayed on the display unit 46 of the kitchen operation panel 40 in the procedure shown in FIG. First, in step 700, it is determined whether or not the temporary display flag TMP is 4. When it determines with YES, in step 740, the value of the display flag DPF is set to the display pattern flag DPN.
[0103]
FIG. 14 shows the correspondence between the value of the display pattern flag DPN and the display pattern used for display on the display unit 46. When the temporary display flag TMP is 4, the highlight mode can be set, and the display flag DPF is cyclically switched between 1 and 5. Therefore, in step 740, when the value of the display flag DPF is set in the display pattern flag DPN, the “usable hot water amount” highlighted display as shown in FIGS. It is possible to realize switching between “past hot water usage” highlighted display, “time” highlighted display, “hot water set temperature” highlighted display, and “hot water storage amount” highlighted display.
[0104]
If NO in step 700, it is determined in step 705 whether or not the temporary display flag TMP is zero. If it is determined YES, if it is determined that the time setting flag CF is 1 in step 710, the display pattern flag is set to 7 in step 715, and it is determined that the operation mode switching flag MF is 1 in step 720. Then, in step 725, the display pattern flag is set to 8, and in step 730, when it is determined that the hot water supply temperature setting flag TF is 1, the display pattern flag is set to 9 in step 735. If none of the time setting flag CF, the operation mode switching flag MF, and the hot water supply temperature setting flag TF is set to 1, in step 740, the value of the display flag DPF is set in the display pattern flag DPN.
[0105]
When the temporary display flag TMP is set to 0, the display in the continuous display mode is performed when the time is not being set, the operation mode is being switched, or the hot water supply temperature is being set, so that the display flag DPN is set. When the display pattern flag DPN is set to a value of 0 to 5, the display in the normal display format shown in FIG. 3A and the highlighted display format shown in FIGS. It can be displayed in either of the displays. On the other hand, when the time is being set, the operation mode is being switched, and the hot water supply temperature is being set, the time setting display pattern, the operation mode switching display pattern, and the hot water temperature setting display pattern corresponding to the display pattern flags DPN7 to 8 respectively. (Neither is shown).
[0106]
If it is determined as NO in step 705, it is determined in step 745 whether the temporary display flag TMP is 1 or 2. If YES is determined, the value of the temporary display flag TMP is set in the display pattern flag DPN in step 750. By setting in this way, the “usable hot water volume” temporary display when the temporary display flag TMP is set to 1 and the “past hot water volume” temporary display when the temporary display flag TMP is set to 2 are displayed. Can be realized.
[0107]
If NO is determined in step 745, that is, if the temporary display flag TMP is 3, 6 is set in the display pattern flag DPN. As a result, when the temporary display flag TMP is set to 3, the display unit 46 can display “highlight display mode”.
[0108]
In this way, the display pattern flag DPN is set in steps 700 to 755, and an image to be displayed on the display unit 46 is generated in step 760 with a display pattern corresponding to the value set in the display pattern flag PDN. To do. At this time, values such as operation mode MODE, reheating flag HF, usable hot water volume VA calculated in step 600, past hot water volumes PV1 to PV7, current time SCLOCK, hot water supply set temperature TSET, hot water storage volume TV calculated in step 310, etc. Is used to generate an image. In step 765, an image is displayed on the display unit 46 of the kitchen operation panel 40.
[0109]
In the hot water supply apparatus of the present embodiment, since the user can switch the display of the display unit 46 to highlighted display and display only one item on the entire display unit 46, each display area is fixed as conventionally. Compared to the case where information is displayed, only the information required by the user can be displayed in an easy-to-read manner. Thereby, even when the user is an elderly person or a low vision person, information can be read.
[0110]
In the present embodiment, the display unit 46 of the kitchen operation panel 40 corresponds to display means, the navigation switch 42 corresponds to setting start means of display setting means, and the temperature lowering switch 53 corresponds to hot water supply setting means and display setting. This corresponds to the switching means. The operation mode changeover switch 43, the time setting switch 45, and the temperature raising switch 54 correspond to the hot water supply setting means of the present invention. The flow counters 23 and 26 and the control device 200 correspond to usage status acquisition means.
[0111]
Further, step 460 in the present embodiment corresponds to the display setting means of the present invention, and step 620 corresponds to the display control means of the present invention. The operation mode MODE, the hot water supply set temperature TEST, and the current time SCLOCK correspond to the predetermined items used for the hot water supply control of the present invention, and the past hot water usage PV1 to PV7 is a predetermined item related to the hot water usage by the user. Corresponding to data, the available hot water volume VA and the hot water storage volume TV correspond to information related to the hot water supply capacity.
[0112]
(Second Embodiment)
In the first embodiment, when displaying in the highlighted form (highlighted display mode) on the display unit 46 of the kitchen operation panel 40, only one item is displayed on the entire display unit 46. On the other hand, in the second embodiment, as shown in FIGS. 15A to 15E, not only one item but also some other items are displayed. However, one highlighted item is displayed larger than the other items. FIG. 15A shows an example of highlighting “Available hot water volume”, and FIG. 15B shows an example of highlighting “Past hot water volume”. FIG. 15C shows a highlighted display example of “time”, and FIG. 15D shows a highlighted display example of “hot water storage amount”. FIG. 15E shows a highlighted display example of “hot water supply set temperature”.
[0113]
In this embodiment, in step 760 shown in FIG. 13, image display is performed by associating display patterns shown in FIGS. 15A to 15E with display patterns flag DPN 1 to 5 respectively. Do. The structure of other parts is the same as that of the first embodiment.
[0114]
According to the configuration of the present embodiment, since the items that the user needs most are expanded and displayed, this information can be easily read even when the user is an elderly person or a low vision person. In addition, since some other items are also displayed together, a user who can read these items can obtain these information without having to bother switching and expanding these items. .
[0115]
(Third embodiment)
In the first embodiment, when the user can switch the highlighting by the temperature lowering switch 53, that is, during the setting of the highlighting mode, the highlighting is displayed on the display unit 46 of the kitchen operation panel 40. The display was exactly the same as the continuous display. On the other hand, in the third embodiment, in a state that can be switched by pressing the temperature lowering switch 53, a symbol 59 is displayed as shown in FIGS. Flash 3 times per second. In the display state of FIG. 16B, if the temperature lowering switch 53 is not pressed for more than 3 seconds, the symbol 59 disappears as shown in FIG. Migrate to
[0116]
In the present embodiment, the above-described blinking of the symbol 59 can be realized by correcting and executing the kitchen operation panel display process shown in FIG. 13 as shown in FIG. After setting a value for the display pattern flag DPN in Steps 700 to 755, in Step 757, when the temporary display flag TMP is 3 or 4, the condition “0 <ET ≦ 0.5 s or 1 <ET ≦ When “1.5 s or 2 <ET ≦ 2.5 s” is satisfied, the display pattern flag DPN is corrected to a value incremented by 9. Thereafter, in step 760, an image is generated by associating the display pattern with the display pattern flag DPN as shown in FIG.
[0117]
When the display pattern flag DPN is 10 to 15, the display pattern for displaying the symbol 59 corresponds to the lower right of each highlighted display. Therefore, when steps 757 and 758 are executed as described above, the timer ET When the condition “0 <ET ≦ 0.5 s or 1 <ET ≦ 1.5 s or 2 <ET ≦ 2.5 s” is satisfied, the symbol 59 is displayed on the lower right of the display unit 46. In this way, the symbol 59 can be blinked and displayed three times for 3 seconds. The structure of other parts is the same as that of the first embodiment.
[0118]
According to the present embodiment, the user can recognize that the highlighting is currently switchable by the blinking of the symbol 59, and the switchable state is terminated by the disappearance of the symbol 59. You can know that the display has been confirmed.
[0119]
(Fourth embodiment)
In the said 1st Embodiment, although the display part 46 whole of the kitchen operating panel 40 was comprised by the dot matrix area | region, as shown to FIG. 19 (A) in 4th Embodiment, on the other hand, An operation mode display area and a heating-in-progress display area are provided as a fixed display area 56 on the display unit 46, and only the other part is a dot matrix area. Characters to be displayed are printed in advance in the fixed display area 56, and display is performed by lighting a portion to be displayed among these characters.
[0120]
In the present embodiment, the characters “highlight display mode” and “usable hot water volume”, “past hot water volume”, “time”, “hot water supply set temperature” displayed when the highlight mode is shifted to a settable state. Each highlighted display of “hot water storage amount” is displayed on the entire dot matrix area 57 as shown in FIGS. 19B and 19C.
In the present embodiment, the kitchen operation panel display process shown in FIG. 13 is corrected and executed as shown in FIG. In step 760, an image is generated using the available hot water volume VA, the past hot water volumes PV1 to PV7, the current time SCLOCK, the hot water supply set temperature TSET, the hot water storage volume TV, and the generated image is stored in the dot matrix area 57 in step 770. In step 775, the operation mode is displayed by lighting an appropriate portion of the operation mode display area based on the set operation mode MODE. Further, in step 780, based on the value set in the in-boiling flag HF, if necessary, an appropriate portion of the in-boiling display area is turned on to display the in-boiling display.
[0121]
In this way, even when the entire display unit 46 is not configured with a dot matrix region, if the dot matrix region having a certain size is provided as a part of the display unit 46, the dot matrix region is used. It is possible to perform highlighting (extended display).
[0122]
(Fifth embodiment)
In the first embodiment, in the kitchen operation panel 40, when the user operates the navigation switch 42, the continuous display mode is switched to the temporary display mode or the highlight display format can be set. In contrast, in the fifth embodiment, highlighting as in the first embodiment is not performed, but in the temporary display mode, the amount of hot water that can be used and the amount of hot water that has been used in the past are used. In addition, it is possible to display advice information to the user, and during execution of hot water filling, it is possible to set the countdown mode to display the remaining time required until hot water filling is completed.
[0123]
FIGS. 21A to 21I show display switching on the display unit 46 when the navigation switch 42 is operated by the user. When the navigation switch 42 is pressed once by the user in a state where information is continuously displayed in the normal display format as shown in FIG. 21A (continuous display mode), as shown in FIG. In addition, when the amount of hot water available is displayed on the entire display unit 46, and the navigation switch 42 is pressed once more within a predetermined time (for example, 3 seconds) in this state, the display as shown in FIG. “Past amount of hot water used” is displayed on the entire section 46. Thereafter, when the navigation switch 42 is pressed once again within 3 seconds, “recommended mode guide” is displayed on the entire display unit 46 as shown in FIG. Thereafter, when the navigation switch 42 is further pressed within 3 seconds, “countdown mode” is displayed on the entire display unit 46 as shown in FIG. 21E. In this state, the navigation switch 42 is switched within 3 seconds. When pressed, the display returns to the continuous display state in the normal display format shown in FIG.
[0124]
When the navigation switch 42 is not pressed within 3 seconds in the display state shown in FIG. 21 (B), it is determined that the temporary display of “Available hot water” has been selected by the user, and FIG. As shown, the available hot water amount is displayed numerically on the entire display unit 46. This display state continues for 30 seconds, and then returns to the continuous display state in the normal display format shown in FIG. Alternatively, if the navigation switch 42 is pressed within 30 seconds, the display returns to the continuous display state in the normal display format at that time.
[0125]
When the navigation switch 42 is not pressed within 3 seconds in the display state shown in FIG. 21C, it is determined that the user has temporarily selected the “past amount of hot water used”, and the display shown in FIG. As shown, the amount of hot water used for the past week (7 days) is displayed in a graph on the entire display unit 46. This display state continues for 30 seconds, and then returns to the continuous display state in the normal display format. Alternatively, if the navigation switch 42 is pressed within 30 seconds, the display returns to the continuous display state in the normal display format at that time.
[0126]
When the navigation switch 42 is not pressed within 3 seconds in the display state shown in FIG. 21D, it is determined that the user has temporarily selected the “recommended mode guide”, and FIG. As shown, the recommended operation mode is displayed on the entire display unit 46. The recommended operation mode is selected as the optimum operation mode by the control device 200 based on the past hot water usage state by the user from among the three operation modes “full tank”, “automatic”, and “late night only”. Provided as advice information to the user. The display of the recommended operation mode continues for 30 seconds, and then returns to the continuous display state in the normal display format. Alternatively, if the navigation switch 42 is pressed within 30 seconds, the display returns to the continuous display state in the normal display format at that time.
[0127]
When the navigation switch 42 is not pressed within 3 seconds in the display state shown in FIG. 21E, it is determined that the “countdown mode” has been selected by the user, and for example, hot water filling is currently being executed. In this case, as shown in FIG. 21 (I), the remaining time required for completion of filling is displayed on the entire display unit 46. The remaining required time is counted down as the hot water filling progresses, and when the remaining required time is less than 1 minute, the display is switched to seconds. In addition, when the bath setting temperature or the set water level is changed by the user on the bathroom operation panel during the hot water filling, the remaining required time is switched to the one calculated based on the new setting. Such display in the countdown mode continues until the filling is completed, and when the filling is completed, the display returns to the continuous display state in the normal display format. Alternatively, when the navigation switch 42 is pressed during hot water filling, the display returns to the continuous display state in the normal display format at that time.
[0128]
Further, when the circulation circuit 10 is being cleaned, if the countdown mode is selected by the user on the kitchen operation panel 40, the remaining time required until the cleaning is completed is displayed.
[0129]
FIG. 22A shows a display state similar to FIG. 21E. When the navigation switch 42 is not pressed within 3 seconds in this display state during the execution of cleaning, FIG. 22B As shown in FIG. 5, the remaining time required until the cleaning is completed is displayed. The remaining required time is counted down until the cleaning is completed, and when the cleaning is completed, the continuous display state in the normal display format is restored. Alternatively, when the navigation switch 42 is pressed during cleaning, the display returns to the continuous display state in the normal display format at that time.
[0130]
FIG. 23 shows a display example when the countdown mode is selected when neither hot water filling nor cleaning is executed. FIG. 23A shows a display state similar to FIG. 21E. When neither hot water filling nor cleaning is executed, the navigation switch 42 is not pressed within 3 seconds in this display state. As shown in FIG. 23B, “there is no item in operation” is displayed on the entire display unit 46. This display continues for 3 seconds, and then returns to the continuous display state in the normal display format. Alternatively, if the navigation switch 42 is pressed within 3 seconds, the display returns to the continuous display state in the normal display format at that time.
[0131]
In the hot water supply apparatus according to the present embodiment, the control device 200 performs substantially the same control process as in the first embodiment, but the display mode changing process executed in step 460 shown in FIG. 6 and shown in FIG. The procedure of the display control process executed in step 340 is different from that in the first embodiment. Details of these processes will be described later.
[0132]
In the control process in the present embodiment, a working flag WF indicating that hot water filling or cleaning is being performed is used. The in-work flag WF is initially set to 0 in step 300 shown in FIG. 5, and then set to 2 when the cleaning of the circulation circuit 10 is started in step 315, and is set to 0 when the cleaning is completed. In step 320, it is set to 1 when hot water filling is started, and is set to 0 when hot water filling is finished.
[0133]
In the display mode change process and the display control process, the temporary display flag TMP and the display flag DPF are set and used as follows. During continuous display in the normal display format, the temporary display flag TMP is set to 0. When the navigation switch 42 is pressed once from this state, the temporary display flag TMP is set to 1, and then the navigation switch 42 is turned on. Each time the key is repeatedly pressed within 3 seconds, the temporary display flag TMP is switched in a cycle of 1 → 2 → 3 → 4 → 0. Accordingly, in the display states shown in FIGS. 21A to 21D, the temporary display flags TMP are set to 0 to 3, respectively, and FIGS. 21E, 22A, and 23A. The temporary display flag TMP is set to 4 in the display state shown in FIG.
[0134]
In a state where the temporary display flag TMP is set to any one of 1, 2, and 3, when 3 seconds elapse without the navigation switch 42 being pressed, the temporary display flag TMP is set to 6. At this time, when the temporary display flag TMP is 1, the display flag DPF is set to 1. When the temporary display flag TMP is 2, the display flag DPF is set to 2. When the temporary display flag TMP is 3, 3 is set in the display flag DPF. Accordingly, in the display states shown in FIGS. 21F to 21H, the temporary display flag TMP is set to 6, and the display flag DPF is set to 1, 2, and 3, respectively.
[0135]
In a state where the temporary display flag TMP is set to 4, when 3 seconds elapses without the navigation switch 42 being pressed, if the working flag WF is set to 1 indicating that the hot water is being filled, the temporary display flag TMP Is set to 7, and the temporary display flag TMP is set to 8 when the working flag WF is set to 2 indicating cleaning, and the temporary display is set when the working flag WF is set to 0. The flag TMP is set to 5. Therefore, in the display state shown in FIG. 21 (I), the temporary display flag TMP is set to 7, and in the display state shown in FIG. 22 (B), the temporary display flag TMP is set to 8. In the display state shown in FIG. 23B, the temporary display flag TMP is set to 5.
[0136]
In the state where the temporary display flag TMP is set to 6, the temporary display flag TMP is set to 0 when 30 seconds have elapsed or when the navigation switch 42 is pressed. In a state where the temporary display flag TMP is set to 5, the temporary display flag TMP is set to 0 when 3 seconds have elapsed or when the navigation switch 42 is pressed. When the navigation switch 42 is pressed in the state where the temporary display flag TMP is set to 7 or 8, or when the working flag WF is set to 0 (when the hot water filling or the cleaning is completed), The display flag TMP is set to 0.
[0137]
24 and 25 show the procedure of the display mode change process. First, in step 500, it is determined whether or not any of the time setting flag CF, the operation mode switching flag MF, and the hot water supply temperature setting flag TF is set to 1. When it determines with YES, it returns to a setting change process routine as it is.
[0138]
If YES is determined in step 500, it is determined in step 506 whether or not the temporary display flag TMP is zero. When it determines with YES, it progresses to step 516. If it is determined NO, in step 507, it is determined whether or not the temporary display flag TMP is 1 or more and 5 or less and the elapsed time indicated by the timer ET is 3 seconds or less. When it determines with YES, it progresses to step 516.
[0139]
If NO is determined in step 507, it is determined in step 512 whether or not the temporary display flag TMP is 6 and the elapsed time indicated by the timer ET is 30 seconds or less. When it determines with YES, it progresses to step 516.
[0140]
If NO is determined in step 512, it is determined in step 513 whether or not the temporary display flag TMP is 1 or more and 3 or less. If NO is determined, the process proceeds to step 542. If YES is determined in step 513, that is, if the temporary display flag TMP is set to any one of 1, 2, and 3 and the elapsed time indicated by the timer ET exceeds 3 seconds, in step 523 The value of the temporary display flag TMP is set in the display flag DPF, the temporary display flag TMP is set to 6 in step 524, the timer ET is reset in step 532, and the process returns to the setting change processing routine.
[0141]
In step 516, it is determined whether or not the navigation switch 42 has been pressed. If NO is determined, the process returns to the setting change processing routine. If YES is determined, in step 518, it is determined whether or not the temporary display flag TMP is 4 or more and 6 or less. If YES is determined, that is, the navigation switch 42 is pressed within 3 seconds in the state where the temporary display flag TMP is set to 4 or 5, or in the state where the temporary display flag TMP is set to 6. If the navigation switch 42 is pressed within 30 seconds, the temporary display flag TMP is set to 0 in step 528, thereby returning to the continuous display in the normal display format and returning to the setting change processing routine.
[0142]
If NO is determined in step 518, that is, the navigation switch 42 is pressed in a state where the temporary display flag TMP is 0, or the temporary display flag TMP is set to any one of 1, 2, and 3. If the navigation switch 42 is pressed within 3 seconds, the temporary display flag TMP is incremented by 1 in step 531, the timer ET is reset in step 532, and the process returns to the setting change processing routine.
[0143]
In step 542, it is determined whether or not the temporary display flag TMP is 5. If YES is determined, that is, if 3 seconds have passed without the navigation switch 42 being pressed in a state where the temporary display flag TMP is set to 5, in step 586, the temporary display flag TMP is set to 0. Thus, the display is returned to the continuous display in the normal display format, and the process returns to the setting change processing routine.
[0144]
On the other hand, if NO is determined in step 542, it is determined in step 548 whether or not the temporary display flag TMP is 7 or 8. If it is determined as YES, it is determined in step 552 whether or not any of the conditions such as “the navigation switch 42 is pressed” or “the working flag WF is set to 0” is satisfied. To do. If YES is determined, that is, if the navigation switch 42 is pressed in the display state in the countdown mode, or if hot water filling or cleaning is completed, the temporary display flag TMP is set to 0 in step 586. To return to the continuous display in the normal display format from the countdown mode and return to the setting change processing routine.
[0145]
If NO is determined in step 552, that is, if the navigation switch 42 is not pressed and the hot water filling or cleaning is not completed in the display state in the countdown mode, the temporary display flag TMP is set. Without changing, the process returns to the setting change processing routine.
[0146]
If NO is determined in step 548, it is determined in step 558 whether or not the temporary display flag TMP is 4. If NO is determined, that is, if 30 seconds have elapsed without the navigation switch 42 being pressed in a state where the temporary display flag TMP is set to 6, the temporary display flag TMP is set to 0 in step 559. Thus, the display is returned from the temporary display mode to the continuous display in the normal display format, and the process returns to the setting change processing routine.
[0147]
If YES is determined in step 558, that is, if 3 seconds have passed without the navigation switch 42 being pressed in a state where the temporary display flag TMP is set to 4, in step 563, the work flag WF is set. It is determined whether the value is set to 0, 1, or 2.
[0148]
If the work flag WF is set to 1, that is, if hot water is being filled, 7 is set to the temporary display flag TMP in step 567. If the work flag WF is set to 2, that is, if cleaning is being executed, 8 is set to the temporary display flag TMP in step 572. If the work flag WF is set to 0, that is, if neither hot water filling nor cleaning is being executed, the temporary display flag TMP is set to 5 in step 568.
[0149]
After the temporary display flag TMP is set to any one of 5, 7, and 8 in any of steps 567, 568, and 572, the timer ET is reset in step 588, and the process returns to the setting change processing routine.
[0150]
FIG. 26 shows the procedure of the display control process. In step 600, the available hot water amount VA is calculated in the same manner as in the first embodiment. However, the available hot water amount VA is calculated only when the temporary display flag TMP is set to 6 and the display flag DPF is set to 1, that is, when the available hot water amount VA is actually used for display. You may make it perform only.
[0151]
Next, in step 602, it is determined whether the value of the working flag WF is set to 0, 1, or 2. If the working flag WF is 0, the process proceeds to step 608.
[0152]
If the work-in-progress flag WF is set to 1, in step 604, the remaining hot water filling time STIME, which is the time required until hot water filling is completed, is calculated. Specifically, the remaining hot water filling time STIME is calculated based on the bath set temperature, the set water level, the current actual bath water level, and the like. However, the remaining hot water filling time STIME may be calculated only when the temporary display flag TMP is set to 7, that is, only when the remaining hot water filling time STIME is actually used for display. After execution of step 604, the process proceeds to step 608.
[0153]
If the working flag WF is set to 2, in step 606, a remaining cleaning time CTIME, which is a required time until the cleaning is completed, is calculated. Specifically, the remaining cleaning time CTIME is calculated by subtracting the time elapsed since the start of cleaning from the predetermined time for cleaning. However, the remaining cleaning time CTIME may be calculated only when the temporary display flag TMP is set to 8, that is, only when the remaining cleaning time CTIME is actually used for display. After execution of step 606, the process proceeds to step 608.
[0154]
In step 608, based on the past hot water usage by the user, the recommended operation mode RMODE is determined to be “full”, “automatic”, or “late night only”. In step 610, the display on the display unit of the bathroom operation panel is executed in the same manner as in the first embodiment.
[0155]
In step 625, display on the display unit 46 of the kitchen operation panel 40 is executed according to the procedure shown in FIG. First, in step 702, it is determined whether or not the temporary display flag TMP is 1 or more and 4 or less. If YES is determined, in step 742, the value of the temporary display flag TMP is set in the display pattern flag DPN.
[0156]
FIG. 28 shows the correspondence between the value of the display pattern flag DPN and the display pattern used for display on the display unit 46. When the temporary display flag TMP is set to 1, 2, 3, 4 and the value of the temporary display flag TMP is set to the display pattern flag DPN, as shown in FIGS. 21B to 21E, respectively. Title display can be realized.
[0157]
On the other hand, if NO is determined in step 702, it is determined in step 705 whether or not the temporary display flag TMP is zero. If YES is determined, steps 710 to 735 are executed in the same manner as in the first embodiment, whereby the time setting flag CF, the operation mode switching flag MF, and the hot water supply temperature setting flag TF are set to 1. When set, the display pattern flag DPN is set to 11, 12, and 13, respectively. Thereby, display during time setting, display during operation mode switching, and display during hot water supply temperature setting can be realized.
[0158]
If NO is determined in step 730, that is, if the temporary display flag TMP is set to 0 while the time is not being set, the operation mode is being switched, or the hot water supply temperature is being set, the display pattern is displayed in step 742. A value of the temporary display flag TMP is set to 0 in the flag DPN. Thereby, the display in a normal display format is realizable.
[0159]
If NO is determined in step 705, it is determined in step 743 whether or not the temporary display flag TMP is set to 6. If YES is determined, in step 744, a value obtained by adding 4 to the display flag DPF is set in the display pattern flag DPN. Thus, when the temporary display flag TMP is set to 6, as shown in FIGS. 21F to 21H, depending on the display flag DPF set to any one of 1, 2, and 3, respectively. Display can be realized.
[0160]
If NO is determined in step 743, it is determined in step 748 whether or not the temporary display flag TMP is set to 7 or 8. If it is determined YES, in step 752, a value obtained by adding 1 to the temporary display flag TMP is set in the display pattern flag DPN. Thereby, the remaining time display as shown in FIG. 21 (I) and FIG. 22 (B) can be realized.
[0161]
If NO is determined in step 748, that is, if the temporary display flag TMP is set to 5, in step 753, 10 is set to the display pattern flag DPN. Thereby, a display as shown in FIG. 23B can be realized.
[0162]
In this manner, the display pattern flag DPN is set in steps 702 to 753, and an image to be displayed on the display unit 46 is displayed in step 763 with a display pattern corresponding to the value set in the display pattern flag PDN. Generate. At this time, the operation mode MODE, the reheating flag HF, the available hot water amount VA, the past hot water amount PV1 to PV7, the current time SCLOCK, the hot water supply set temperature TSET, the hot water storage amount TV, the remaining hot water time STIME, the remaining cleaning time CTIME, An image is generated using a value such as the recommended operation mode RMODE. In step 768, an image is displayed on the display unit 46 of the kitchen operation panel 40.
[0163]
In the hot water supply apparatus of the present embodiment, the recommended mode can be displayed as advice information on the display unit 46 by the user's operation. Therefore, when the user sets the operation mode, the recommended mode is first displayed. The operation mode can be determined with reference to this. In addition, the remaining time required can be displayed on the display unit 46 during hot water filling and cleaning, so that how many minutes can be input especially during hot water filling. I can know.
[0164]
The circulation pump 11, the motor operated valve 12, the three-way valve 18, the electromagnetic valve 22, and the temperature control valve 34 in the present embodiment correspond to the work execution means and bath hot water supply means of the present invention, The automatic switch 41 of the kitchen operation panel 40 corresponds to the work instruction means of the present invention.
[0165]
Steps 315 and 320 in the present embodiment correspond to work execution control means of the present invention, and steps 310 and 600 correspond to hot water supply capacity information generation means. Further, Step 604 and Step 606 in the present embodiment correspond to the remaining time calculating means of the present invention, and Step 608 corresponds to the advice information generating means.
[0166]
(Other embodiments)
The present invention is not limited to the above-described embodiment, and various modifications are possible within the scope of the invention described in the claims as follows.
[0167]
In the above embodiment, “total amount of hot water used on the previous day”, “cumulative hot water usage for the previous month”, “power consumption for the past week” by using the hot water supply device, “electricity for the previous day”, “electricity for the previous month” , Etc., and these information items may be added as information items that can be temporarily displayed by operating the navigation switch 42 or information items that can be highlighted.
[0168]
In the first to fourth embodiments, the time for which information is temporarily displayed in the temporary display mode as shown in FIGS. 3B and 3C is not limited to 3 seconds, but is about 3 to 10 seconds. It may be set to an appropriate length within the range, or it may be set and selectable by the user between 3 seconds and 10 seconds. Furthermore, as shown in FIGS. 4 (A) to (E) and FIGS. 15 (A) to (E), the time during which highlighting can be switched by the temperature lowering switch 53 is not limited to 3 seconds, but is 3 to 10 seconds. It is good to set to an appropriate length within the range.
[0169]
Also in the fifth embodiment, the time that can be switched to the display state shown in FIGS. 21A to 21E by the navigation switch 42 is not limited to 3 seconds, but is appropriate in the range of 3 seconds to 10 seconds. Furthermore, the duration of the temporary display as shown in FIGS. 21 (F) to (H) is not limited to 30 seconds, but an appropriate length in the range of 10 to 30 seconds. You may set it.
[0170]
In the first to fourth embodiments, when the user presses the temperature lowering switch 53 within 3 seconds, as shown in FIGS. 4 (A) to (E) and FIGS. 15 (A) to (E), Although the highlight display is configured to be switched in a circulating manner, it may be configured to be switched in a reverse direction by pressing the temperature raising switch 54 within 3 seconds. The order of switching may be different from that in the above embodiment.
[0171]
In the second embodiment, the items displayed in combination with the items to be expanded and displayed in each highlighted display are not limited to the combinations shown in FIGS. Any item selected from may be combined. Further, the number of items smaller than that in the second embodiment may be displayed. Alternatively, a display pattern for enlarging and displaying only one item similar to that in the first embodiment may be added as a highlighting pattern.
[0172]
In the third embodiment, the symbol 59 is blinked three times in 3 seconds. However, the blinking speed may be increased. Further, instead of displaying the symbol 59, the whole or a part of the information displayed on the display unit 46 may be blinked instead.
[0173]
In the fourth embodiment, the operation mode display area and the in-heating display area are provided as the fixed display area 56 on the display unit 46 of the kitchen operation panel 40. In addition to this, for example, a fixed time display area May be provided. However, it is desirable to provide the fixed display area within a range in which a dot matrix area 57 having a size necessary for extended display can be secured.
[0174]
In the third and fourth embodiments, as an example of highlighting, only one item is enlarged and displayed as in the first embodiment. However, as in the second embodiment, highlighting is performed. At this time, in addition to the items to be enlarged and displayed, other items may be displayed in combination.
[0175]
In the said 1st-4th embodiment, although it was comprised so that emphasis display (extended display) could be set only in the display part 46 of the operation panel 40 for kitchens, on the display part (not shown) of the operation panel for bathrooms. Alternatively, a dot matrix region may be provided so that highlighting can be performed by setting by the user.
[0176]
In the fifth embodiment, when the countdown mode is selected by the user, the remaining time required for hot water filling and the remaining required time for cleaning can be displayed. The remaining required time may be displayed.
[0177]
In the fifth embodiment, the “recommended mode” is displayed as the advice information for the user. However, the advice information for the user is not limited to this, and for example, advice regarding the setting of the hot water supply temperature can be provided. It may be configured.
[0178]
In the above embodiment, the cleaning is started by the user operating the cleaning switch on the operation panel for the bathroom. However, the control device 200 periodically or in a predetermined situation that requires cleaning. It may be configured to detect and automatically perform cleaning.
[0179]
In the said embodiment, although this invention was applied to the single can type hot water supply apparatus provided with the one hot water storage tank 30, this invention can also be applied to the multiple can type hot water supply apparatus provided with the several hot water storage tank. Moreover, the structure which heats up the water in the hot water storage tank 30 with the electric heater provided in the hot water storage tank 30 instead of a heat pump unit (not shown) may be sufficient. Furthermore, the present invention can be applied to a hot water supply apparatus that does not include a hot water storage tank, such as a gas hot water supply apparatus.
[Brief description of the drawings]
FIG. 1 is a schematic diagram showing an overall configuration of a hot water supply apparatus according to a first embodiment of the present invention.
FIG. 2 is a diagram showing an appearance of a kitchen operation panel of a hot water supply apparatus.
FIG. 3 is a diagram showing display switching when a navigation switch is operated by a user on the kitchen operation panel.
FIG. 4 is a diagram showing display switching when a temperature lowering switch is operated by a user while the highlight mode is set on the kitchen operation panel.
FIG. 5 is a flowchart of a control processing main routine that is executed by the controller of the hot water supply apparatus.
6 is a flowchart of a setting change process executed in step 335 shown in FIG.
FIG. 7 is a flowchart of a time setting change process executed in step 400 shown in FIG.
FIG. 8 is a flowchart of an operation mode change process executed in step 410 shown in FIG.
9 is a flowchart of hot water supply temperature setting change processing executed in step 450 shown in FIG.
FIG. 10 is a flowchart of the first half of the display mode change process executed in step 460 shown in FIG. 6;
FIG. 11 is a flowchart of the latter half of the display mode change process executed in step 460 shown in FIG. 6;
12 is a flowchart of display control processing executed in step 340 shown in FIG.
13 is a flowchart of kitchen operation panel display processing executed in step 620 shown in FIG.
14 is a diagram showing a correspondence between a display pattern flag PDN used in step 760 shown in FIG. 13 and a display pattern.
FIG. 15 is a diagram showing display switching when the temperature lowering switch of the kitchen operation panel is operated while the highlight mode is set by the user in the hot water supply apparatus according to the second embodiment of the present invention.
FIG. 16 is a diagram showing a state in which symbols are displayed on the display unit of the kitchen operation panel when the highlight mode can be set by the user in the hot water supply apparatus according to the third embodiment of the present invention.
FIG. 17 is a flowchart of kitchen operation panel display processing executed in the third embodiment.
18 is a diagram showing a correspondence between display pattern flags PDN and display patterns used in the kitchen operation panel display process shown in FIG.
FIG. 19 is a diagram illustrating a configuration of a display unit of a kitchen operation panel in a hot water supply apparatus according to a fourth embodiment of the present invention and a state in which information is highlighted on the display unit.
FIG. 20 is a flowchart of kitchen operation panel display processing executed in the fourth embodiment.
FIG. 21 is a diagram showing display switching when the user operates the navigation switch on the kitchen operation panel in the hot water supply apparatus according to the fifth embodiment of the present invention.
FIG. 22 is a diagram showing a display example when a countdown mode is selected during cleaning execution in the fifth embodiment.
FIG. 23 is a diagram showing a display example when the countdown mode is selected when neither hot water filling nor cleaning is executed in the fifth embodiment.
FIG. 24 is a flowchart of the first half of a display mode changing process executed in the fifth embodiment.
FIG. 25 is a flowchart of the latter half of the display mode change process executed in the fifth embodiment.
FIG. 26 is a flowchart of display control processing executed in the fifth embodiment.
FIG. 27 is a flowchart of kitchen operation panel display processing executed in the fifth embodiment.
28 is a diagram showing a correspondence between display pattern flags PDN and display patterns used in the kitchen operation panel display process shown in FIG. 27. FIG.
FIG. 29 is a diagram illustrating a configuration of a display unit and a display example in an operation panel of a conventional hot water supply apparatus.
[Explanation of symbols]
1 Bathtub
11 Circulation pump (Work execution means, bath hot water supply means)
12 Motorized valve (work execution means, bath hot water supply means)
18 Three-way valve (work execution means, bath hot water supply means)
22 Solenoid valve (work execution means, bath hot water supply means)
34 Temperature control valve (work execution means, bath hot water supply means)
30 Hot water storage tank
23, 26 Flow counter (Usage status acquisition means)
41 Automatic switch (work instruction means)
42 navigation switch (display setting means, setting start means)
43 Operation mode switch (hot water supply setting means)
45 Time setting switch (hot water supply setting means)
46 Display part of kitchen operation panel (Display means)
47-51 Information displayed on the display
53 Temperature lowering switch (hot water supply setting means, display setting means, switching means)
54 Temperature rise switch (hot water supply setting means)
57 dot matrix area
200 Controller (Usage status acquisition means)

Claims (11)

Display means (46) having at least a part of a dot matrix region (57) and displaying information (47 to 51) including at least one item selected from a plurality of predetermined items;
Display setting means (42, 53) for the user to select and set items displayed in the dot matrix area (57) and a display pattern for specifying the layout from a display pattern group consisting of a plurality of predetermined display patterns. 460),
Display control means (620) for causing the display means (46) to display the information (47 to 51) according to the display pattern set by the user using the display setting means (42, 53, 460),
The display pattern is a highlighting pattern in which only one item selected from the predetermined plurality of items is arranged over the entire dot matrix region,
Wherein the display setting means, from continuing display mode by the information (47-51) is continuously displayed by the display means in accordance with one display pattern selected from the display pattern group (46), the display by the user A setting start means (42) for a user to instruct a transition to a display setting mode in which a display pattern can be selected from a pattern group, and the predetermined plurality of displays by the display means (46) in the display setting mode. Switching means (53) for the user to instruct to display the information (47 to 51) by switching in each of the patterns,
When the user instructs the display setting mode to be shifted to the display setting mode by the setting start means (42), the display control means (620) displays the information (47 to 51) according to the first display pattern selected from the display pattern group. When the user instructs switching by the switching means (53) within a predetermined time after the display according to the first display pattern is displayed on the display means (46), the second selected from the display pattern group When the information (47 to 51) is displayed on the display means (46) according to the two display patterns, and thereafter the switching instruction by the switching means (53) is repeated by the user within the predetermined time, each time By switching the display pattern to display the information (47 to 51) on the display means (46), the predetermined plurality of display patterns are displayed. The information is switched at each emission (47-51) is displayed the display unit (46),
The display setting means (42, 53, 460), in the display setting mode, when the predetermined time is exceeded without the switching means (53) being instructed by the switching means (53), at that time. The display pattern used for displaying the information by the display means (46) is set as a display pattern used for displaying the information (47 to 51) by the display means (46) in the continuous display mode. A hot water supply device. The display control means (620) blinks at least a part of the information (47 to 51) displayed by the display means (46) during the predetermined time, thereby switching the switching means (53 The hot water supply apparatus according to claim 1, wherein the display pattern switching by () is displayed to the user. The display control means (620) causes the display means (46) to blink and display a predetermined symbol (59) in addition to the information (47 to 51) during the predetermined time. The hot water supply apparatus according to claim 1 or 2 , wherein a display is made to the user that the display pattern can be switched by the switching means (53). Hot water supply setting means (43, 45, 53, 54) for a user to set predetermined items used for hot water control is provided,
Wherein the predetermined plurality of items, the hot water supply setting means (43,45,53,54) of claim 1, wherein it contains the items having information set the predetermined items by The hot-water supply apparatus of any one of Claims. A hot water storage tank (30) for storing hot water used for hot water supply;
Hot water supply capacity information generating means (600, 310) for generating information related to hot water supply capacity using hot water in the hot water storage tank (30),
The hot water supply apparatus according to any one of claims 1 to 4 , wherein the predetermined plurality of items include an item having information related to the hot water supply capacity. It includes usage status acquisition means (23, 26, 200) for acquiring and storing data on predetermined items related to the usage status of hot water by the user,
Wherein the predetermined plurality of items, according to claim 1 to 5, characterized in that it contains the items having information based on the data stored by said use status acquisition means (23,26,200) The hot water supply apparatus of any one of Claims. Work execution means (11, 12, 18, 22, 34) used to execute a predetermined work;
Work execution control means (315, 320) for controlling the work execution means (11, 12, 18, 22, 34) so that the predetermined work is executed until a predetermined target is reached;
Remaining time calculation means (604, 606) for calculating the remaining time required to reach the predetermined target when the predetermined work is being executed under the control of the work execution control means (315, 320). Prepared,
The hot water supply apparatus according to any one of claims 1 to 6 , wherein the predetermined plurality of items includes an item having information on the remaining required time. A work instruction means (41) for a user to instruct the start of execution of the predetermined work;
The work execution control means (315, 320) is responsive to an instruction from the user by the work instruction means (41) to start the predetermined work (11, 12, 18, 22). , hot water supply device according to claim 7, characterized in that to control the 34). The work execution means includes bath hot water supply means (11, 12, 18, 22, 34) for executing hot water supply to a predetermined bathtub (1) as the predetermined work,
The work execution control means (320) uses the bath hot water supply means (11, 12, 18) with the predetermined target being a state in which bath water of a predetermined temperature is stored in the predetermined bath (1) to a predetermined water level. , hot water supply device according to claim 8, wherein the controlling the 22, 34). Provided with advice information generation means (608) for generating advice information for the user,
The hot water supply apparatus according to any one of claims 1 to 9 , wherein the predetermined plurality of items includes an item having the advice information. The advice information generating unit (608), as the advice information, according to claim 10, wherein the generating advice the predetermined items which the set by the hot water supply setting means (43,45,53,54) Hot water supply device.

Images