JP2014149093A - Water heater - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a water heater capable of improving energy saving performance by encouraging a user to proactively select economical operation.SOLUTION: A water heater: records actual performance information on the basis of operation control of a water heater in a normal mode on a previous day; calculates an energy consumption amount on the previous day from the actual performance information; calculates an energy saving amount by subtracting an estimated energy consumption amount on the basis of execution of the operation control in an economical mode from the calculated energy consumption amount; and displays information on the energy saving amount, for example a monetary benefit calculated by multiplying the energy saving amount by a unit energy price, on a display section 82 of a remote controller at the beginning of water heater operation on the next day. In displaying the monetary benefit to be gained on the day by turning on an economical mode switch, the water heater displays concrete amounts of money saved by reduced energy use in supplying hot-water, taking a bath and heating.

Description

  The present invention relates to a hot water supply apparatus capable of switching control to an eco mode according to a user's selection.

  Patent Document 1 proposes a technique for facilitating a user's adjustment operation of the hot water flow rate by notifying the usage status of a hot water supply device. Here, based on the detection value from the flow sensor at the time of hot water, if the detected flow value is within the target range of the hot water flow, the eco lamp of the remote control is turned on, and if it exceeds the target range, the eco lamp is turned off. If it is lower than the target range, the eco lamp is flashed to inform the user of the current usage status, thereby making it easy to adjust the hot water supply curan to an appropriate opening degree by the user's own operation. Has been.

JP 2010-276243 A

  By the way, if an eco switch is provided on the remote control and the user turns on the eco switch, energy savings can be achieved by switching to a control such that the hot water temperature is slightly lower than the set temperature within a range that does not impair usability and comfort. It is done to increase. However, it is unclear to the user how much energy savings can actually be achieved even when the eco-switch is turned on and running ecologically, and the effect of turning on the eco-switch cannot be felt. This is the current situation. For this reason, the motivation to turn on the eco switch to switch to eco driving cannot be obtained, and although there is an eco switch, it is considered that the hot water supply device is used without being actively used.

  The present invention has been made in view of such circumstances, and an object of the present invention is to provide a hot water supply device capable of improving energy saving by allowing the user to actively select eco-driving. It is to provide.

  In order to achieve the above object, in the present invention, in addition to the operation control based on the normal mode, the eco-mode that executes the operation control by reducing the set operation capacity in the normal mode operation control by a predetermined amount by the user's selection operation. The following specific items were provided for a hot water supply device with operation control based on the following. That is, the information processing apparatus includes an informing means and an eco mode promotion processing means for informing the informing means for promoting the user's eco mode selection. As the eco mode processing means, the operation control based on the normal mode is performed. An energy reduction amount obtained by subtracting the energy consumption amount when the operation control based on the eco mode is executed is calculated from the energy consumption amount when executed, and information relating to the energy reduction amount is notified by the notification means. It was set as the structure (Claim 1).

  In the case of the present invention, the information related to the energy reduction amount calculated by the eco-mode processing means is notified by the notification means, and therefore, how much energy is saved if the user selects the operation control based on the eco-mode. It is possible to give information. As a result, if the operation control based on the eco mode is selected this time, it is possible to strongly give the user a motivation to select the operation control based on the eco mode next time. In addition, when the operation control based on the eco mode is not selected this time, it is possible to have a strong motivation to always select the operation control based on the eco mode next time. As described above, the user can be realistically and specifically promoted to select the operation control based on the eco mode, and the energy saving performance of the hot water supply apparatus can be effectively improved.

  In the hot water supply apparatus of the present invention, as eco-mode processing means, performance information related to the driving situation when operation control based on the normal mode is executed is recorded every predetermined period, and the energy reduction amount is recorded based on the recorded performance information. It is possible to calculate at every predetermined period, and to notify the information related to the calculated energy reduction amount at the end timing of the predetermined period or the start timing of the next predetermined period (Claim 2). By doing in this way, if operation control based on the eco mode is selected at the end of use of the hot water supply device for every predetermined period, for example, every day, in the use of the hot water supply device for the day, or the eco mode The operation control based on the eco mode has been selected because of the amount of energy reduction due to the operation control based on or the use of the water heater on the previous day at the start timing of the water heater use every day If so, or because the operation control based on the eco mode has been selected, it is possible to specifically notify the user of information on how much energy has been reduced.

  In the hot water supply apparatus of the present invention, when the operation control based on the normal mode is executed as the eco-mode processing means, the record information related to the driving situation from the execution start to the execution end is recorded each time, and the recorded record information is Based on this, the energy reduction amount is calculated each time, and the information related to the calculated energy reduction amount can be notified each time at the execution end timing. By doing so, every time the hot water supply device is used, if the operation control based on the eco mode is selected at the end timing of use, or the operation control based on the eco mode is selected, how much energy is reduced. It is possible to specifically notify the user of whether the amount has been reached.

  Further, the amount of energy reduction in the hot water supply apparatus of the present invention can be a water reduction amount and / or a fuel reduction amount (claim 4). By doing in this way, it becomes possible to specifically notify the user of, for example, a reduction amount of water usage or a reduction amount of fuel consumption such as gas.

  Furthermore, the information related to the energy reduction amount in the hot water supply apparatus of the present invention can be information obtained by multiplying the energy reduction amount by a preset energy unit price and converting it to an amount of money (Claim 5). In this way, it is possible to report specifically the amount of money that will be obtained when driving control based on eco mode, which is the greatest concern for the user, is selected, and driving control based on eco mode is selected. It is possible to give the strongest motivation to do. The energy unit price may be input and set in advance by the user or the manufacturer, or information acquired from outside (for example, information automatically acquired via a network such as the Internet) is set in advance. Including.

  As described above, according to the hot water supply apparatus of the present invention, the information related to the energy reduction amount calculated by the eco mode processing unit can be notified by the notification unit, so that the operation control based on the eco mode is performed to the user. By selecting, it is possible to give specific information on how much energy is saved. As a result, if the operation control based on the eco mode is selected this time, the user can be strongly motivated to select the operation control based on the eco mode next time. In addition, when the operation control based on the eco mode is not selected this time, it is possible to have a strong motivation to always select the operation control based on the eco mode next time. As described above, the user can be realistically and specifically promoted to select operation control based on the eco mode, and the energy saving performance of the hot water supply apparatus can be effectively improved.

  In particular, according to the hot water supply apparatus of claim 2, as the eco-mode processing means, performance information related to the driving situation when the operation control based on the normal mode is executed is recorded every predetermined period, and based on the recorded performance information By calculating the energy reduction amount for each predetermined period and notifying the information related to the calculated energy reduction amount at the end timing of the predetermined period or the start timing of the next predetermined period, In addition, for example, if operation control based on the eco mode is selected in the use of the hot water supply device for the day at the end of use of the hot water supply device every day, or because the operation control based on the eco mode is selected, how much It is possible to specifically notify the user of information on whether or not the amount of energy reduction has been reached. Or, if the operation control based on the eco mode is selected in the use of the hot water supply device on the previous day, or the operation control based on the eco mode is selected for use start timing of the water heater every day, It is possible to specifically notify the user of information about whether or not the amount of energy reduction has been reached.

  According to the hot water supply apparatus of claim 3, when the operation control based on the normal mode is executed as the eco-mode processing means, the record information on the driving situation from the execution start to the execution end is recorded and recorded each time. By calculating the energy reduction amount each time based on the result information and notifying the information related to the calculated energy reduction amount at the execution end timing each time, the use end timing every time the hot water supply device is used. If the operation control based on the eco mode is selected or the operation control based on the eco mode is selected, information on how much energy has been reduced can be specifically notified to the user.

  Further, according to the hot water supply apparatus of claim 4, by setting the water reduction amount and / or the fuel reduction amount as the energy reduction amount, for example, a reduction amount of water consumption or a reduction amount of fuel consumption such as gas is concretely specified. Can be notified to the user.

  Furthermore, according to the hot water supply apparatus of claim 5, the information concerned with the energy reduction amount is obtained by multiplying the energy reduction amount by a preset energy unit price and converting it into an amount of money, so that the greatest interest for the user. That is, the amount of money obtained when the operation control based on the eco mode is selected can be specifically notified, and the strongest motivation for selecting the operation control based on the eco mode can be given.

It is a schematic diagram of the hot water supply apparatus which concerns on embodiment of this invention. It is a control block diagram of the part which concerns on especially eco mode process of the hot-water supply apparatus of FIG. It is front explanatory drawing which shows the example of the remote control of the hot water supply apparatus of FIG. An example of display on the display unit of the remote controller is shown, FIG. 4A is a display example of the amount of money for the use of all the water heaters for the previous day, and FIG. FIG. 4 (c) is a display example of the value for the current hot water heater use. It is a related figure showing the hot water supply flow rate for every unit time for explaining the example of calculation of the amount of money about use of hot water supply.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is a schematic diagram of a hot water supply apparatus according to an embodiment of the present invention. This hot water supply device is configured as a composite type having both a hot water supply function, a hot water circulation type hot water heating function, a flow replenishment function, and a pouring function, and in addition to sensible heat, combustion exhaust gas In this example, a latent heat recovery type that achieves higher efficiency by recovering latent heat is illustrated. The hot water supply apparatus configured in a composite type includes a hot water supply circuit 2, an additional circulation circuit 3, a pouring circuit 4, and a hot water heating circulation circuit 5. Note that the present invention is not limited to a composite type and may be a single hot water supply type or a high efficiency type with a latent heat recovery function added, and the effects of the present invention can be obtained. it can. Further, in the following description, the recirculation circuit 3 is used to reheat the hot water in the bathtub B by the flow heat exchanger 31 configured in a liquid-liquid heat exchange system, and the hot water supply circuit 2 is used as the pouring circuit 4. As the heating circulation circuit 5, low-temperature water and high-temperature water are added to a plurality of types of heating terminals for low temperature and high temperature as the hot water circulation circuit 5 is supplied to the return flow path 32 a of the recirculation circuit 3. However, as long as each function such as a hot water supply function can be achieved, a structure other than these may be provided, and the application of the present invention is limited. Is not to be done.

  The hot water supply circuit 2 includes a hot water supply heat source device 21, a water inlet 22 through which water supply such as tap water is introduced into the hot water supply heat source device 21, and a hot water discharged from the hot water heat-exchanged and heated by the hot water supply heat source device 21. Road 23 is provided. The hot water supply heat source unit 21 includes a primary heat exchanger 25 that mainly heats by sensible heat accompanying combustion of the combustion burner 24, and a secondary heat exchanger 26 that recovers latent heat from the combustion exhaust gas and preheats it. It preheats through the secondary heat exchanger 26 and then passes through the primary heat exchanger 25. A mixed water bypass passage 27 branched from the incoming water passage 22 is joined in the middle of the outgoing water passage 23, and from the incoming water passage 22 by adjusting the opening of the mixed water valve 27a with respect to the outgoing hot water from the primary heat exchanger 25. A predetermined amount of water is mixed to adjust the temperature to the set hot water supply temperature, and then hot water is supplied to the hot water tap 28 and the like. The water inlet 22 is provided with an incoming water flow sensor 22a for detecting the incoming water flow rate and an incoming water temperature sensor 22b for detecting the incoming water temperature. The hot water tap 28 is provided in the outlet hot water 23 at a position downstream of the junction of the bypass 27. A flow rate adjustment valve 23a for adjusting the hot water supply flow rate and a hot water temperature sensor 23b for detecting the hot water temperature are provided. Then, the upstream end of the pouring path 41 of the pouring circuit 4 is branched from the pouring path 23 and the downstream end is connected to the return flow path 32a of the remedy circulation circuit 3 at the junction M. However, the hot water can be poured into the bathtub B through the pouring channel 41 and the return channel 32a.

  The remedy circulation circuit 3 includes a liquid-liquid type flow heat exchanger 31 interposed in a remedy circulation path 32, and the remedy circulation path 32 is constituted by a return flow path 32a and a forward flow path 32b. It is a thing. Then, the bath water taken out from the bathtub B through the bath return flow path 32 a by the operation of the circulation pump 33 for remedy flows into the flow heat exchanger 31, and in this flow heat exchanger 31, the liquid-liquid with the heat source It is heated by the heat exchange so that the bath water after the heating is sent to the bathtub B through the forward flow path 32b. In addition to the circulation pump 33, the return flow path 32 a includes a pressure-type water level detection sensor 30 that detects the water level in the bathtub B, a water flow switch 34 that detects the flow of water and outputs an ON signal, and the temperature of the bath water And a return temperature sensor 35 for detecting the temperature of the bath water after the memorial heating at the downstream side position of the flow heat exchanger 31. A heat source circulation path 37 for circulating and supplying a heat source is connected to the flow heat exchanger 31, and the heat source is switched by opening / closing a flow heat valve 38 for remedy provided in the heat source circulation path 37. By switching between circulating supply and stopping the circulation supply, ON / OFF switching of the memorial heating is performed. The heat source circulation path 37 and the flow heat valve 38 constitute a part of a hot water circulation path 55 of the heating circulation circuit 5 described later.

  The pouring circuit 4 includes the pouring passage 41 and the pouring valve 42 interposed in the pouring passage 41. In addition to the pouring valve 42, a pouring amount sensor 43 that detects the pouring flow rate, a pair of check valves 44, and the like are interposed in the pouring passage 41.

  The heating heat source unit 51 of the heating circulation circuit 5 is preheated by recovering latent heat from the combustion exhaust gas, and a primary heat exchanger 53 that mainly heats by sensible heat accompanying the combustion of the combustion burner 52, similarly to the hot water source heat source unit 21. The secondary heat exchanger 54 is provided. The heating circulation circuit 5 includes a hot water circulation path 55 and a heating circulation pump 56, and circulates two types of hot water, low temperature water and high temperature water, to a plurality of types of low temperature and high temperature heating terminals. It comes to supply.

  That is, the hot water circulation path 55 sends the low temperature water returned to the expansion tank 57 and stored to the primary heat exchanger 53 by the operation of the heating circulation pump 56, where it is heated by the combustion burner 52. Water is supplied as a heat source to the flow heat exchanger 31 through the heat source circulation path 38, or supplied to a high temperature heating terminal 61 such as a bathroom dryer via the high temperature water supply path 59 and the high temperature forward header 60. It has become. Also, by the operation of the circulation pump 56, the low-temperature water in the expansion tank 57 is supplied to the low-temperature heating terminal 63 such as a floor heater via the low-temperature forward header 62, and the low-temperature water is radiated from all the heating terminals 61 and 63 by heat radiation. The low-temperature water thus obtained is circulated through the return header 64 and the low-temperature water supply passage 65 through the secondary heat exchanger 54 for recovering latent heat, preheated and then returned to the expansion tank 57. Yes. The above operation control is executed by heating operation control of the heating control unit 73 described later, for example, by turning on a heating switch of a heating remote controller.

  In addition, although illustration is abbreviate | omitted, in the secondary heat exchangers 26 and 54, the drain water produced | generated when the combustion exhaust gas was cooled and condensed by heat exchange for latent heat recovery is derived, and the derived drain water is neutralized A drain water treatment circuit is also provided for drainage after treatment.

  In the hot water supply apparatus described above, various operation controls such as hot water supply operation, pouring operation, reheating operation, and heating operation are performed by the controller 7 (see FIG. 2) based on the output from the remote controller 8 and the output from the various sensors described above. In addition, an eco-mode promoting process is performed to allow the user to actively select driving in the eco-mode, which is particularly characteristic in the present embodiment. The controller 7 is mainly configured by a microcomputer having a CPU and a rewritable memory, and performs the above-described various operation control and eco-mode promotion control based on programs and various data stored in the memory.

  The controller 7 includes a hot water supply control unit 71 that performs a hot water supply operation, a flow control unit 72 that performs operation control including a pouring operation and a chasing operation, and a heating control unit 73 that performs a heating operation. Various operation controls in the normal mode when 81 is in the OFF state are executed. In addition, various conventionally well-known things other than what is illustrated below can be employ | adopted for various operation control content, such as a hot water supply driving | operation. In the present embodiment, in particular, the remote controller 8 includes an eco switch 81. In addition to switching the various operation controls in the normal mode to the eco mode by the user turning on the eco switch 81, the eco switch Regardless of whether the 81 is turned ON or not, the controller 7 includes an eco mode processing unit 74 for performing eco mode promotion processing. The eco-mode processing unit 74 displays the results information storage unit 741 for storing past information (such as the amount of hot water used in the past (previous day / today)) and the display unit 82 of the remote controller 8 for the eco-mode promotion processing. Display data that gives the user the motivation to turn on the eco switch 81 (gas reduction amount / water reduction amount described later or a profit obtained by converting these into monetary amounts, etc.) And a display data calculation unit 742 for calculating based on the record information of the unit 741, and the obtained display data is displayed on the display unit 82 of the remote controller 8 in a predetermined display format as will be described later. ing.

  As shown in the example of the kitchen remote controller or bathroom remote controller in FIG. 3, the remote controller 8 includes an eco-switch 81 and a display unit 82, an operation switch 83 that switches power ON / OFF, a bath automatic switch 84, and a follow-up switch. 85, in order to change and set the set temperature (set hot water temperature or set hot water temperature) of hot water supplied to the hot-water tap 28 and bathtub B by user operation when the lid 86 is opened to the front. The button is provided. Although only one remote controller 8 is illustrated in FIG. 1, there is a heating remote controller in addition to a kitchen remote controller or a bathroom remote controller, and it is possible to provide not only one but also two or more remote controllers.

  The outline of the hot water supply operation control by the hot water supply control unit 71 will be described. The incoming water flow rate that the incoming water flow rate into the incoming water channel 22 has exceeded the minimum operating flow rate (MOQ) due to the hot water supply request (for example, the opening operation of the hot water tap 28 by the user). If detected by the sensor 22a, the combustion system such as the combustion burner 24 is controlled to burn the combustion burner 24 at a predetermined combustion amount so that the temperature of the hot water discharged into the hot water outlet 23 becomes a predetermined temperature. It has become. Then, the temperature of the hot water supplied to the hot-water tap 28 and the like is controlled by mixing and adjusting the temperature of the hot water discharged from the hot water outlet 23 and the water branched into the hot water outlet 23 through the bypass 27. The operation is controlled so as to reach the set hot water supply temperature (set pouring temperature).

  When the automatic flow switch 84 of the remote control 8 is turned ON, the pouring operation control by the flow control unit 72 and the chasing operation control after pouring are executed by automatic processing, or the pouring switch of the remote control 8 is turned on. When the ON operation is performed, the pouring operation control is executed. In the pouring operation control, if the thermal valve 38 is closed before that, the hot valve 52 is opened, and if the thermal valve 52 is open, the thermal valve 38 is closed and then the hot valve 42 is opened. To start. If the inlet water flow pressure sensor 22a detects that the water supply pressure from the outside of the machine is received by this opening operation and water enters the water inlet 22 and the water flow into the water inlet 22 exceeds the minimum operating flow rate (MOQ). After the combustion burner 24 is combusted and hot water having a set pouring temperature is supplied from the hot water supply passage 23 to the pouring passage 41, it is supplied to the junction M of the return flow passage 32a. Then, a predetermined amount of hot water is poured into the bathtub B through the return flow path 32a from the junction M, and the bathtub B is filled.

  Next, a process for switching to the eco mode when the eco switch 81 of the remote controller 8 is turned on by the user during various operation controls in the normal mode such as the hot water operation control described above will be described. First, when the eco switch 81 is turned on during hot water use (opening operation of the hot water tap 28), the set hot water temperature in the eco mode (subtracted 1 ° C. from the set hot water temperature in the normal mode set at that time) The eco mode setting hot water supply temperature = normal mode setting hot water supply temperature-1 ° C.) and the upper limit of the hot water supply flow rate is limited to a predetermined flow rate value (for example, 8 L / min, 10 L / min, or 12 L / min). To do. Then, hot water supply operation control is performed using the set hot water temperature in the eco mode as a target temperature, and at that time, the upper limit of the amount of hot water passing through the flow rate adjusting valve 23a is limited to the flow rate value. At this time, the value of the set hot water temperature in the normal mode is displayed on the display unit 82 of the remote controller 8, but this display is not switched and the value of the set hot water temperature in the normal mode is displayed as it is. Let it continue.

  When the eco switch 81 is turned on together with the flow automatic switch 84 being turned on, in the pouring operation control by the flow control unit 72, the eco mode is reduced by 1 ° C. from the set pouring temperature of the normal mode set at that time. Switched to the set pouring temperature (eco mode set pouring temperature = normal mode set pouring temperature-1 ° C.), and at the time of eco mode, 1 cm less than the normal mode set hot water level set at that time Switch to the set hot water level (eco mode set hot water level = normal mode set hot water level-1 cm). Then, hot water whose temperature is adjusted with the set pouring temperature in the switched eco mode as the target temperature is poured into the bathtub B through the pouring channel 41 and the like, and the detected water level of the bathtub B detected by the water level detection sensor 30 When the water reaches the set hot water level in the eco mode, the pouring is stopped. Although the value of the set hot water temperature in the normal mode is displayed on the display unit 82 of the remote controller 8, the display of the set hot water temperature value in the normal mode is continued without being switched. The display portion 82 of the remote controller 8 displays the value of the set hot water temperature in the normal mode. In this case as well, this display is not switched and the value of the set hot water temperature in the normal mode is used as it is. Continue to display. In the case of a model that does not include the water level detection sensor 30, the set pouring amount for hot water filling is reduced by, for example, 10L.

  When the eco switch 81 is turned on together with the turning on of the heating switch (not shown), in the heating operation control by the heating control unit 73, the hot water temperature to be circulated is reduced by 5 ° C. from the set hot water temperature of the normal mode set at that time. The temperature is switched to the set warm water temperature in the eco mode (the set warm water temperature in the eco mode = the set warm water temperature in the normal mode−5 ° C.). For example, the temperature 80 ° C. of the high temperature water supplied to the high temperature heating terminal 61 is reduced by 5 ° C. to 75 ° C., and the temperature 60 ° C. of the low temperature water supplied to the low temperature heating terminal 63 is reduced by 5 ° C. Set to 55 ° C.

  If the eco switch 81 is turned off, the above-described switching process to the eco mode is restored to return to the operation control in the normal mode. In addition, the temperature value which lowers the above-mentioned set hot-water supply temperature, set hot-water supply temperature or set hot water temperature, the numerical value which reduces a water level, etc. are illustrations, and numerical values other than these can also be employ | adopted.

  Next, the eco mode promotion process, which is a characteristic part of the present embodiment, will be described. This eco-mode promotion process displays a specific numerical value on the display unit 82 of the remote controller 8 to save energy compared to the normal mode when the mode is switched to the normal mode. Is provided with a motivation to turn on the eco switch 81. As specific numerical values to be displayed, if the eco mode is selected (the eco switch 81 is turned on), or the selected fuel amount (gas amount) or water amount is saved, the amount of water may be displayed. You may display the amount of money (profit amount) obtained by multiplying by the unit price, but it is preferable to display the more direct amount as a motivation for the user. The contents of the display are as follows: if the user does not turn on the eco switch 81, the amount of money obtained by turning on the eco switch 81, or the eco switch 81 if the eco switch 81 is turned on. Each of the profits obtained because of turning on is obtained by calculation and displayed on the display unit 82. In addition, the display timing may be continuously displayed as long as the remote control 8 is turned on, or the user's intention to use the water heater such as the timing when the user turns on the automatic bath switch 84. By displaying at the timing, it is possible to create an opportunity to prompt the ON operation of the eco switch 81. In addition, when the user turns on the operation switch 83 or the like at the timing when the user is surely present in front of the remote controller 81 and is looking at the remote controller 8, the next time the hot water heater is used or this time However, in the next use of the water heater, the intention to turn on the eco switch 81 can be planted.

  As for the contents and timing displayed on the display unit 82, if you use all the water heaters in the normal mode of the previous day (hot water operation + bath operation + heating operation) to use the water heater in the eco mode, you can get some value It can be displayed after the power supply of today's remote control 8 is turned on (especially at the start of use). For example, as shown in the display example in FIG. 4 (a), "If you turn on the eco switch, you will get the following price when using the water heater yesterday." XXX circle for use (when flow rate is 8 L / min) (XXX is a specific number), YYY circle for bath use (YYY is a specific number), ZZZ circle for heating use (ZZZ is a specific number) Display the value for each of hot water supply, flow, and heating. In addition, today's use of hot water heaters shows how much it would have been if the use of all hot water heaters in today's normal mode (hot water operation + bath operation + heating operation) was changed to the use of water heaters in eco mode. It can be displayed at the expected timing. For example, as shown in the display example in FIG. 4 (b), “If you turn on the eco switch, you will get the following price when using a water heater today.” XXX circle (when the flow rate is 8 L / min), “YYY circle when using a bath”, and “ZZZ circle when using a heating”. The timing when the use of the water heater is expected to end is, for example, the end timing of the automatic flow operation by the automatic flow switch 84, the general time when the flow use is expected to end (for example, 21:00), or these. What is necessary is just to set the timing etc. which combined. Alternatively, if the eco switch 81 is not turned on at the timing when the user's use of each water heater is finished, if the eco switch 81 is turned on, the amount of money obtained is displayed. If the eco switch 81 is ON, it is possible to display how much money has been obtained by turning the eco switch 81 ON. For example, as shown in FIG. 4C, when the hot water supply is used with the eco switch 81 turned ON, the timing of the end of the hot water use is displayed as follows: “In the current hot water use, the eco switch is turned on. "VVV circle when using hot water supply (select flow rate 12L / min)" (VVV is a specific value), such as when you limit the upper flow rate to 12L / min. Display the amount. At the same time, if 10 L / min is selected as the upper limit flow rate, or if 8 L / min is selected, the profit amount can also be shown.

The following is an example of a method for calculating the amount of value when using each hot water heater (hot water supply operation, bath operation, heating operation). The calculation of the amount of money when using hot water is as follows. First, the performance information storage unit 741 stores and updates actual information on the use of hot water for a predetermined number of days (for example, the day before, the day before, and the day before). For example, as illustrated in FIG. 5, the actual hot water flow rate (detected flow rate of the flow rate adjusting valve 23a) in the normal mode for each unit time for one day is stored / accumulated, and the total hot water amount is obtained by accumulating these information. Ask. Next, the reduced hot water amount Ea is obtained by integrating the portions of the hot water supply flow rate that exceed the upper limit flow rate Qv (for example, 8 L / min) selected in the eco mode. This reduced hot water amount Ea corresponds to the amount of hot water reduced when the eco mode is switched (the amount of water reduced). The amount of energy reduction (the amount of fuel gas to be reduced) may be obtained according to the following policy. In other words, the hot water supply amount Eb in the eco mode obtained by subtracting the reduced hot water amount Ea from the total hot water amount is not heated up to the set hot water supply temperature in the normal mode with respect to the gas reduction amount due to not having to be heated by 1 ° C. The total gas reduction amount is represented by the sum of the gas reduction amount due to the completion of the process. For example, the calculation can be performed based on a calculation index of [total gas reduction amount = {(total hot water amount−reduced hot water amount Ea) × 1 ° C. + reduced hot water amount Ea × (set hot water supply temperature−incoming water temperature)} / gas heat generation amount]. The gas heating value is a heating value obtained by gas combustion per unit volume. Then, multiplying the total gas reduction amount by the unit price of the fuel gas (for example, 100 yen / m ³ for city gas), a profit for the fuel gas can be obtained. Further, if the above-mentioned reduced hot water amount Ea (corresponding to the water reduction amount) is multiplied by the unit price of water (for example, the unit price of water supply is 200 yen / m ³ ), the value for water can be obtained. If these are added up, the amount of money for hot water use can be obtained. This discount indicates how much you would have saved if you turned on the eco switch 81, based on the previous day's or normal mode usage results for the day when the eco switch 81 was not turned on. (For example, refer to “XXX circle” in FIGS. 4A and 4B). The numerical value of the unit price may be set by the user by operating the remote controller 8, or information automatically acquired from the outside at the time of installation or the like (for example, via a network such as the Internet). May be input based on information automatically acquired).

  On the other hand, when using the hot water supply on the previous day or today, if the eco switch 81 is turned on, the hot water flow rate is limited by the upper limit flow rate, and therefore the data when the hot water flow rate is not limited is insufficient. become. However, even in this case, it is possible to calculate the amount of gas reduction due to the set hot water supply temperature being lowered by -1 ° C. The amount of hot water (the amount of hot water corresponding to Eb in FIG. 5) is obtained, and the amount of gas reduction due to the fact that this total hot water amount is not heated by 1 ° C. can be obtained by the following formula. For example, the calculation can be performed based on a calculation index of [gas reduction amount = (Eb × 1 ° C.) / Gas heat generation amount]. Then, this gas reduction amount is multiplied by the fuel gas unit price to obtain a profit amount. This profit amount indicates the amount of money that was saved because the eco switch 81 was turned on when hot water was used (see, for example, FIG. 4C).

  In addition, the calculation of the profit amount when using the floor may be performed as follows. First, if the eco mode is selected, the set hot water level is reduced by, for example, 1 cm, so the amount of pouring reduction (corresponding to the amount of water reduction) is the bottom area (or average cross-sectional area) of bathtub B. The total gas reduction amount can be obtained by multiplying by 0.01 m, and the total gas reduction amount can be calculated by reducing the total amount of pouring water for the set hot water level in the eco mode by 1 ° C. The total amount of gas reduction is represented by the sum of the amount of gas reduction and the amount of gas reduction caused by not heating to the set pouring temperature in the normal mode. For example, the calculation can be performed based on a calculation index of [total gas reduction amount = {total pouring amount × 1 ° C. + pouring pouring amount × (setting pouring temperature−incoming water temperature)} / gas heat generation amount]. In the same manner as described above, the amount of fuel gas obtained by multiplying the total gas reduction amount by the unit price of fuel gas, and the amount of water obtained by multiplying the amount of pouring reduction by the unit price of water. If you sum the amount of money, you will get the amount of money you use when you use Flo. In addition, the bottom area (or average cross-sectional area) of the bathtub B can be input and set in advance as a numerical value of the bottom area (or average cross-sectional area) of the bathtub B used for calculation (for example, at the time of installation). In the water injection test at the time of installation, it can be set by automatic calculation from the relationship between the water injection amount and the water level detection (for example, water level detection by the water level detection sensor 30).

  Furthermore, what is necessary is just to perform the calculation of the amount of money in the case of heating use as follows. First, if the eco mode is selected, the temperature of both the low-temperature water and the high-temperature water is decreased by, for example, 5 ° C., and thus the energy reduction amount (gas reduction amount) is obtained. For this reason, the amount of hot water passing through the heating heat source unit 51 (the amount of hot water per predetermined time) when the flow rate of hot water flowing through the hot water circulation path 55 is circulated for a predetermined time (for example, 1 hour) with the discharge flow rate of the circulation pump 56 is The gas reduction amount (gas reduction amount per predetermined time) due to the heating water amount not being heated by 5 ° C. is obtained. For example, the calculation can be performed based on a calculation index of [gas reduction amount / 1 hour = {(warm water amount / 1 hour) × 5 ° C.) / Gas calorific value]. If this gas reduction amount / 1 hour is multiplied by the movable time of the heating operation of the day, the total gas reduction amount of the day can be obtained. And if this total gas reduction amount is multiplied by the unit price of the fuel gas, a profit for the fuel gas can be obtained.

  Since the amount of money obtained by the above calculation processing by the display data calculation unit 742 is displayed on the display unit 82 of the remote controller 8 at the predetermined timing as described above, how much profit can be obtained if the eco switch 81 is turned on for the user. Can give specific information on what will be. As a result, if the eco switch 81 is turned on this time, the motivation to turn on the eco switch 81 can be strongly given in the next use of the water heater, and the eco switch 81 can be turned on this time. If not, it is possible to have a strong motivation to be sure to turn on the eco switch 81 when the water heater is used next time. Thereby, promotion of eco-mode selection can be achieved realistically and specifically.

  In addition, this invention is not limited to the said embodiment, The other various embodiment is included. That is, the calculation method of the energy reduction amount in the above embodiment is an exemplification, and can be changed according to the specific contents of various operation controls. In addition, in FIG. 4 (a) and FIG. 4 (b), the amount of energy reduction before being converted into the amount of money or the amount of money for all use of the water heater (hot water supply operation + flow operation + heating operation) is displayed. However, the present invention is not limited to this, and a profit amount or the like can be displayed for each use of an individual water heater. Moreover, although the said hot-water supply apparatus showed what provided each function of hot-water supply, flow, and heating, in the hot-water supply apparatus of hot-water supply single function, only a flow function (flooding pot), only a heating function, or these arbitrary combinations Also, the present invention can be applied. Further, the notification by the remote controller 8 as the notification means is not only the display of the text data on the display unit 82, but also in addition to or instead of the voice notification using the speaker 87 (see FIG. 3), for example. Can be adopted. Further, the eco mode processing unit 74 can be provided in the remote controller 8 instead of being provided in the controller 7, or can be provided separately in the controller 7 and the remote controller 8.

7 Controller 8 Remote control (notification means)
74 Eco-mode processing unit (eco-mode processing means)
741 Result information storage unit 742 Display data calculation unit

Claims (5)

In addition to the operation control based on the normal mode, in the hot water supply apparatus equipped with the operation control based on the eco mode for performing the operation control by reducing the set operation capacity in the normal mode operation control by a predetermined amount by the user's selection operation,
An informing means, and an eco mode processing means for informing the informing means for promoting the user's eco mode selection,
The eco mode processing means calculates an energy reduction amount obtained by subtracting the energy consumption amount when the operation control based on the eco mode is performed from the energy consumption amount when the operation control based on the normal mode is performed, The information relating to the energy reduction amount is configured to be notified by the notification means.
A water heater characterized by that. The hot water supply device according to claim 1,
The eco-mode processing means records performance information related to the driving situation when the driving control based on the normal mode is executed for each predetermined period, and calculates the energy reduction amount for each predetermined period based on the recorded performance information. And the hot water supply apparatus comprised so that the information which concerns on the calculated energy reduction amount may be alert | reported at the end timing of the said predetermined period, or the start timing of the following predetermined period. The hot water supply device according to claim 1,
When the operation control based on the normal mode is executed, the eco-mode processing means records performance information related to the driving situation from the start of execution to the end of execution each time, and the energy reduction amount is recorded based on the recorded performance information. A hot water supply device configured to calculate each time and notify the calculated energy reduction amount at the execution end timing each time. The hot water supply device according to any one of claims 1 to 3,
The hot water supply apparatus, wherein the energy reduction amount is a water reduction amount and / or a fuel reduction amount. The hot water supply device according to any one of claims 1 to 4,
The information related to the energy reduction amount is a hot water supply apparatus that is information obtained by multiplying the energy reduction amount by an energy unit price set in advance and converted into an amount.

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