JP2014155031A - Remote controller of heat source apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To promote visualized energy saving and resource saving by displaying data on the used amount of hot water, fuel, or electric power of a heat source apparatus.SOLUTION: Provided is a remote controller 38 capable of displaying a used-amount graph representing the used amount of hot water, fuel, or electric power of a heat source apparatus, and displaying a standby screen 50 for displaying a set temperature during a standby state in which no operation is performed, and displaying a used-amount display screen 51 including the used-amount graph when a used-amount data display key 45 is operated on, wherein used-amount target value setting means 55, 57 for setting a target value for a used amount are provided, so that when a target value for a used amount is set by the used-amount target value setting means 55, 57, an index 58 for the target value is displayed on used-amount graphs 52, 53, 54 of the used-amount display screen 51, and also a used-amount graph 59 and an index 60 for the target value are displayed on the standby screen 50.

Description

  The present invention relates to a remote controller that promotes energy saving and resource saving by displaying usage data of either hot water, fuel or electric power of heat source equipment.

  Conventionally, in a remote controller that stores the amount of hot water, fuel, or electric power used in this type of heat source device and displays the stored amount of use data, a use amount data display key is provided as in Patent Document 1. If the usage amount data display key is operated, the usage amount display screen is displayed in the form of a bar graph, and if the usage amount target value is set, the usage amount display screen The target value index was also displayed on the bar graph of the usage amount.

JP 2011-196642 A

  However, in this conventional device, if the usage amount display screen is not displayed by the user's operation, it cannot be compared with the set target value, and it is difficult to suppress the consumption behavior on the day.

  In order to solve the above-mentioned problems, the present invention can display a usage graph of the usage amount of hot water, fuel, or electric power of the heat source device, and displays a standby screen that displays a set temperature in a standby state where no operation is performed. A remote controller that displays a usage amount display screen including the usage amount graph when the usage amount data display key is operated. The usage amount target value setting means for setting the target value of the usage amount is provided, and when the target value of the usage amount is set by the usage amount target value setting means, the usage amount graph on the usage amount display screen is displayed. The target value index is displayed, and the usage graph and the target value index are displayed on the standby screen.

  Further, the usage amount display screen displays the usage graph of the previous day and the usage graph up to the current time of the previous day and the current day side by side on the same scale, and the index of the target value is displayed on these graphs. The usage graph displayed on the standby screen is a usage monitor graph up to the current time of the day, and a line serving as an index of the target value is opposite to the origin of the graph. It is displayed in a superimposed manner so that the usage amount value of the day is displayed on the origin side and the target value value is displayed on the opposite side of the origin.

  According to the present invention, once the target value for the usage amount is set, the target value indicator is displayed on the usage amount graph on the usage amount display screen, and the usage amount graph and the target value indicator are also displayed on the standby screen. As a result, it becomes possible to constantly compare with the target value that has been set for the usage amount, and it is possible to promote the suppression of the usage amount on the day without displaying the usage amount display screen. Resource saving can be promoted.

Schematic configuration diagram of one embodiment of the present invention Diagram showing screen transition of the same embodiment

Next, a heat pump hot water storage type water heater and a remote controller thereof as a heat source device according to an embodiment of the present invention will be described with reference to the drawings.
1 is a stainless steel hot water storage tank for storing hot water, 2 is a water supply pipe for supplying city water to the bottom of the hot water storage tank 1, 3 is a hot water discharge pipe for discharging hot water from the upper part of the hot water storage tank 1, and 4 is a water supply bypass branched from the water supply pipe 2 A hot water mixing valve for mixing hot water from the hot water discharge pipe 3 and water from the water supply bypass pipe 4 so as to reach a hot water supply set temperature, 6 is a hot water supply pipe through which hot water mixed by the hot water mixing valve 5 flows,
7 is a hot water tap for supplying hot water from the hot water supply pipe 6, 8 is a bath mixing valve for mixing hot water from the hot water outlet pipe 3 and water from the water supply bypass pipe 4 so as to reach a preset temperature, and 9 is a bath mixing valve. 8 is a hot water pipe through which hot water mixed in 8 circulates.

  10 is a hot water supply temperature sensor that is provided in the middle of the hot water supply pipe 6 to detect the hot water supply temperature, 11 is a hot water supply flow rate sensor that is provided in the middle of the hot water supply pipe 6 to detect the flow rate of hot water supply, and 12 is provided in the middle of the hot water supply pipe 9. A hot water temperature sensor to detect, 13 is a hot water flow sensor for detecting the hot water flow rate provided in the middle of the hot water pipe 9, and 14 is a pressure reducing valve for reducing the water supply pressure of city water to a constant pressure provided in the water supply pipe 2. , 15 are overpressure relief valves for releasing the overpressure in the hot water storage tank 1.

  16 is a bathtub, 17 is a bath heat exchanger provided in the upper part of the hot water storage tank 1 for heating the bath water with the heat of the hot water in the hot water storage tank 1, and 18 is a bath water that connects the bathtub 16 and the bath heat exchanger 17. The bath circulation circuit 19 is connected in a circulating manner, 19 is a bath circulation pump provided in the middle of the bath circulation circuit 18 for circulating bath water, and 20 is provided in the middle of the hot water pipe 9 connected to the bath circulation circuit 18. A hot water valve that opens and closes 9, 21 is a bath bypass pipe that bypasses the bath heat exchanger 17 and connects the bath circulation circuit 18, and 22 is provided at the connection point between the bath bypass pipe 21 and the bath circulation circuit 18. A bath three-way valve 23 for switching whether water is circulated to the bath heat exchanger 17 side or the bath bypass pipe 21 side is provided in the bath circulation circuit 18 and flows into the bath heat exchanger 17 from the bath 16. of Bath temperature sensor for detecting the degree, 24 is a bath water level sensor for detecting a water level in the bathtub 16 provided in the bath circulation circuit 18 halfway. Here, the bath heat exchanger 22 has a configuration in which a stainless steel tube is spirally wound.

  25 is a heat pump forward pipe for leading hot water in the lower part of the hot water storage tank 1 to the external heat pump type heating means 29, 26 is a heat pump return pipe for introducing the hot water passed through the heat pump type heating means 29 into the upper part of the hot water storage tank 1, and 27 is a hot water storage tank. A plurality of hot water storage temperature sensors 28 provided in the vertical direction on the side surface of 1 are hot water storage tank units that house these components.

  29 is a heat pump type heating means for heating the hot water in the hot water storage tank 1, a refrigerant 30 for compressing the refrigerant, and a heat pump forward pipe 25 and a heat pump return pipe 26 connected to the water side to exchange heat between the refrigerant and water. A water heat exchanger 31, a decompressor 32 for reducing the pressure of the refrigerant, an evaporator 33 for evaporating the liquid refrigerant, a blowing means 34 for supplying outside air as a heat source to the evaporator 33, and the refrigerant water heat exchanger 31 The water is heated by a heating circulation pump 35 that supplies hot water from the heat-pump forward pipe 25 to the water side, an incoming water temperature sensor 36 that detects the temperature of water flowing into the refrigerant water heat exchanger 31, and the refrigerant water heat exchanger 31. A boiling temperature sensor 37 that detects the temperature of hot water is provided, and the refrigerant that has absorbed heat by the evaporator 31 is compressed by the compressor 28 to heat the water through the refrigerant water heat exchanger 29. The heat pump type heating means 29 uses carbon dioxide refrigerant as the refrigerant, and can heat water to a high temperature of 90 ° C. by setting the high pressure side to a supercritical state.

  Reference numeral 38 denotes a remote controller provided in the vicinity of the kitchen, etc., which is a dot matrix liquid crystal display that displays various information related to the hot water supply device (hot water set temperature, bath set temperature, amount of remaining hot water in the tank, operating state of the water heater, date and time). 39, the cross key 40 for setting the hot water temperature, the bath temperature, and the operation mode, the enter key 41 for determining and inputting the item selected by the cross key 40, and the previous screen. There were a return key 42, a bath automatic key 43 for performing bath automatic operation, a tracking key 44 for performing chasing operation, and operation keys such as a usage data display key 45 for displaying usage data. An operation unit, and a remote control unit 46 for controlling the display unit 39 to display the operating state of the water heater and to display information corresponding to the operation of the operation unit on the display unit 39. Eteiru.

  47, hot water supply temperature sensor 10, hot water flow rate sensor 11, hot water temperature sensor 12, hot water flow rate sensor 13, bath temperature sensor 23, bath water level sensor 24, and hot water storage temperature sensor 27 are input, and hot water mixing valve 5 The hot water side control means is connected to the remote controller 38 and the heat pump heating means 29 so as to be communicable with each other, while controlling the operation of the warm mixing valve 8, the warm circulation pump 19, the hot water on / off valve 20, and the warm three-way valve 22. . The hot water storage side control means 47 stores a program for controlling the operation of the hot water heater in advance, and has a calculation, comparison, storage function, and calendar clock function.

  48 is provided in the hot water storage side control means 47, and stores the hot water supply amount and the amount of heat used by converting the hot water supply amount and the amount of heat used into the amount of hot water used at a constant temperature from the operation time of the hot water supply flow rate sensor 11, hot water flow rate sensor 13, and bath circulation pump 19. Usage amount storage means.

  49, the detection values of the incoming water temperature sensor 36 and the boiling temperature sensor 37 are input to control the operation of the compressor 30, the decompressor 32, the blowing means 34, and the heating circulation pump 35, and communicate with the hot water storage side control means 47. It is the heating side control means connected so as to be possible. The heating-side control means 47 stores a program for controlling the operation of the heat pump heating means 29 in advance.

<Boiling operation>
At the start time of a predetermined time zone (midnight time zone) at which the power unit price is cheap, the hot water storage side control means 47 instructs the heating side control means 49 to start boiling the hot water amount corresponding to the hot water supply load amount so far. A boiling target temperature corresponding to the hot water supply load and an instruction to start boiling are transmitted, and the heating side control means 49 starts driving the compressor 30, the decompressor 32, the air blowing means 34, and the heating circulation pump 35, and the hot water storage tank 1 The hot water taken out from the lower part is heated to the boiling target temperature by the refrigerant water heat exchanger 31 and returned to the upper part of the hot water storage tank 1, hot water at the set temperature is heated from the upper part of the hot water storage tank 1 in a laminated form, and hot water side control means 47, when the lowest hot water storage temperature sensor 28 detects a predetermined boiling end determination temperature or reaches the end time of a predetermined time zone, the heating side control means 49 is instructed to stop the boiling, and the heating side control means 49 ends the pressure reducer 32 and the blowing means 34 and the heating circulation pump 35 boiling to drive shut down and the compressor 30.

<Hot water supply>
When the hot-water tap 7 is opened, city water flows into the bottom of the hot water storage tank 1 from the water supply pipe 2 and hot water is discharged from the top of the hot water storage tank 1 through the hot water discharge pipe 3. It is mixed with water from the pipe 4 and passes through the hot water supply pipe 6. When the hot water supply flow rate sensor 11 detects a minimum working water amount or more, the hot water storage side control means 47 feedback-controls the valve opening of the hot water supply mixing valve 5 so that the temperature detected by the hot water supply temperature sensor 10 matches the hot water supply set temperature. Then, hot water supply at the hot water supply set temperature is performed. When the hot water supply flow sensor 11 detects less than the minimum operating water amount by closing the hot water tap 7 or the like, the hot water storage side control means 47 stops the feedback control of the valve opening degree of the hot water mixing valve 5 and stops hot water supply. I have to.

  At this time, the usage amount storage means 48 of the hot water storage side control means 47 converts the hot water supply amount detected by the hot water supply flow rate sensor 11 into the usage amount of hot water at a constant temperature every predetermined time and stores it together with time data.

  Also, the use amount storage means 48 of the hot water storage side control means 47 monitors the continuous hot water supply amount and its duration, converts it into hot water use at a constant temperature, and continuously uses it during the maximum continuous use of the day. The quantity, its duration and its time of occurrence are stored. When the maximum continuous usage within a day is updated, the data up to that time is erased and the updated data is stored.

<Increased operation>
Next, when the hot water storage side control means 47 detects that the amount of hot water stored in the hot water storage tank 1 has decreased based on the temperature detected by the hot water storage temperature sensor 27, such as when a large amount of hot water is supplied in a time zone other than the midnight time zone. The hot water storage side control means 47 transmits to the heating side control means 49 a boiling target temperature and an instruction to start boiling, and the heating side control means 49 includes the compressor 30, the decompressor 32, the blower means 34, and the heating circulation. The pump 35 is started to drive, the hot water taken out from the lower part of the hot water storage tank 1 is heated up to the target temperature by the refrigerant water heat exchanger 31 and returned to the upper part of the hot water storage tank 1 and boiled at the upper part of the hot water stored until then. The hot water of the target temperature to be raised is stored in a stack, and when the hot water storage side control means 47 has passed a certain period of time from the start of boiling, the heating side control means 49 instructs the heating side control means 49 to stop boiling, and the heating side control means 49 compresses. Machine 0 and pressure reducer 32 and the blowing unit 34 to end the heating circulation pump 35 to increase the boiling to drive shut down.

<Automatic bathing>
Next, automatic bathing operation will be described. When the automatic bath key 43 of the remote controller 38 is operated, the hot water storage-side control means 47 opens the hot water on / off valve 20 so that the temperature detected by the hot water temperature sensor 12 matches the bath set temperature. The valve opening degree of the mixing valve 8 is feedback-controlled, and hot water filling at the set temperature is started.

  Then, when the integrated value of the bath flow rate detected by the hot water flow rate sensor 13 reaches the set hot water amount, the hot water storage side control means 47 closes the hot water on / off valve 20 to stop the hot water and performs the warming operation of the bath. Do.

  At this time, the usage amount storage means 48 of the hot water storage side control means 47 converts the hot water amount detected by the hot water flow rate sensor 13 into the usage amount of hot water at a constant temperature every predetermined time and stores it together with time data.

  In the bath warming operation, the bath circulating pump 19 is driven while the bath three-way valve 22 is set to the bypass side every predetermined time, and the bath temperature sensor 23 checks the temperature of the bath water, which is lower than the bath set temperature. When this is detected, the bath three-way valve 22 is switched to the bath heat exchanger 17 side and the bath water is heated by the bath heat exchanger 17. When the bath temperature sensor 23 confirms that the bath water temperature has risen above the bath set temperature, the bath three-way valve 22 is returned to the bypass side and the bath circulating pump 19 is stopped.

  At this time, the use amount storage means 48 of the hot water storage side control means 47 measures the time when the bath water is heated by the bath heat exchanger 17 and multiplies this time by a predetermined amount of heat, which is then set at a constant temperature. It is converted into hot water consumption and stored with time data.

  Moreover, the hot water storage side control means 47 memorize | stores the water level in the bathtub 16 at the time of a hot water stop based on the detected value of the bath water level sensor 24, and if the water level in the bathtub 16 falls from the memorize | stored water level, it will return to the original water level. The bath water replenishment operation is carried out until it becomes.

  At this time, the usage amount storage means 48 of the hot water storage side control means 47 converts the hot water amount detected by the hot water flow rate sensor 13 into the usage amount of hot water at a constant temperature every predetermined time and stores it together with time data.

  And when the bath automatic heat retention time preset from the start of hot water elapses, the bath heat retaining operation and the bath water refill operation are also stopped.

<Chase>
Next, the bathing operation will be described. When the follow-up key 44 of the remote controller 38 is operated, the hot water storage side control means 47 drives the bath circulation pump 19 with the bath three-way valve 22 on the bypass side, and the bath water temperature is detected by the bath temperature sensor 23. When it is detected that the temperature is lower than the bath set temperature + α, the bath three-way valve 22 is switched to the bath heat exchanger 17 side and the bath water is heated by the bath heat exchanger 17. When the bath temperature sensor 23 confirms that the temperature of the bath water has risen above the bath set temperature + α, the bath three-way valve 22 is returned to the bypass side, and the bath circulating pump 19 is stopped to perform the bath chasing operation. finish.

  At this time, the use amount storage means 48 of the hot water storage side control means 47 measures the time when the bath water is heated by the bath heat exchanger 17 and multiplies this time by a predetermined amount of heat, which is then set at a constant temperature. It is converted into hot water consumption and stored with time data.

<Use amount data display>
Here, the usage amount storage means 48 uses the usage amount data stored for each time, from the stored usage amount data, hourly usage amount transition data, weekly usage amount transition data, one month usage amount integration data. Is calculated, the data necessary for display is stored, the unnecessary data is deleted, and the storage capacity of the usage amount storage means 48 is reduced.

  When the use amount data display key 45 is operated in a state where the standby screen 50 for displaying the hot water supply temperature or the like is displayed on the display 39 of the remote controller 38, the remote control control unit 46 causes the hot water storage side control means 47 to operate. A display request for the usage amount display screen 51 is transmitted.

  When the hot water storage side control means 47 receives the display request, it reads out the accumulated usage amount up to the current time of the day, the accumulated usage amount up to the same time of the previous day, and the accumulated usage amount of the previous day from the usage amount storage means 48. The remote controller control unit 46 displays a usage amount display screen 51 that displays the usage amount in a bar graph instead of the standby screen 50 on the display 39.

  This usage amount display screen 51 has a white bar graph 52 showing the accumulated usage amount up to the current time of the day and a solid bar graph 53 showing the accumulated usage amount up to the same time of the previous day surrounded by one frame. The target setting option as a usage target value setting means for displaying and displaying all the filled bar graphs 54 indicating the accumulated usage of the previous day in a separate frame on the same scale and setting the target value of the usage 55 is displayed.

  Then, when the determination key 41 is operated after operating the left and right of the cross key 40 so that the cursor 56 is aligned with the target setting option 55, the remote controller control unit 46 displays the target hot water amount setting screen 57 for setting the target value of the usage amount. In addition to the display, the average use amount per day until now (for example, the latest seven days) transferred from the use amount storage means 48 of the hot water storage side control means 47 is displayed as a numerical value.

  When the user sets the target hot water volume by the up / down operation of the cross key 40 and the enter key 41 is operated, the remote controller 46 displays the bar graph 52 up to the current time of the day represented on the same scale of the usage amount display screen 51. The target hot water indicator line 58 is superimposed on the bar graph 53 up to the same time the previous day and the bar graph 54 of the accumulated usage of the previous day, and the target hot water amount is displayed numerically.

  In this way, since the usage amount of the previous day and the usage amount up to the current time of the previous day and the current time of the day are displayed in a form that can be listed together with the target hot water amount, From the relationship between the accumulated usage of the previous day and the target hot water volume, and the relationship up to the current time of the day, you can easily check the progress of the usage volume for the target hot water volume for the current day and the usage status of the previous day, and consider the amount you plan to use in the future. This makes it easy to make comparative studies and encourages the use of the day to be reduced, and promotes energy and resource savings through visualization.

  Further, when the return key 42 is operated from the state in which the usage amount display screen 51 in which the target hot water amount is set is displayed, the screen returns to the standby screen 50 that displays the hot water supply set temperature and the like. The usage monitor graph 59 up to the current time of the day is always displayed.

  This usage amount monitor graph 59 displays a target hot water volume index 60, an index 61 less than the target hot water volume (for example, 50%), and an index 62 exceeding the target hot water volume (for example, 120%), assuming that the target hot water volume is 100%. At the same time, the usage amount value of the day is displayed on the origin side of the usage amount monitor graph 59 and the target hot water amount value is displayed on the opposite side of the origin.

  Thus, once the target hot water volume is set, the target hot water volume index line 58 is reflected on the usage volume display screen 51, and the usage volume monitor graph 59 and the target hot water volume index 60 are displayed on the standby screen 50. Therefore, it is possible to constantly compare with the target hot water volume for which the usage amount has been set, and to suppress the usage amount on the day without displaying the usage amount display screen 51. Resources can be promoted.

  The present invention is not limited to the above-described embodiment, and can be modified without changing the gist of the invention. The heat source hot water storage type heater is exemplified and described as the heat source device. It is not limited, and may be a heat source device such as a gas water heater, a heat pump type or a combustion type hot water heater.

  Moreover, although the structure which displays the usage-amount data of hot water was demonstrated, it is not restricted to this, The usage-amount data of either fuel or electric power may be sufficient, and the structure which measures the usage-amount of these fuel or electric power is well-known. This technique can be used.

  In addition, the configuration has been described in which the user inputs an arbitrary value as the target value of usage, but the present invention is not limited to this. For example, the usage on the same day of the previous week or the average usage over the last seven days is used. The target value may be set as a target value.

  The specific screen configuration may be variously modified within the range intended by the present invention, and the operation unit may be a touch panel type.

38 Remote controller 40 Four-way controller (operation keys)
41 Enter key 45 Usage data display key 50 Standby screen 51 Usage amount display screen 52 Bar graph up to the current time of the day 53 Bar graph up to the same time of the previous day 54 Bar graph of the day of the previous day 55 Target setting option (usage target value setting means)
57 Target hot water setting screen (Use amount target value setting means)
58 Target hot water indicator line 59 Usage monitor graph 60 Target hot water indicator

Claims (2)

  A usage graph of the usage amount of hot water, fuel, or electric power of the heat source device can be displayed, and in a standby state where no operation is performed, a display that displays a standby screen that displays the set temperature, an operation key, and a usage amount A remote controller for displaying a usage amount display screen including the usage amount graph on the display unit when the usage amount data display key is operated. An amount target value setting unit is provided, and when the target value of the usage amount is set by the usage amount target value setting unit, an indicator of the target value is displayed on the usage amount graph of the usage amount display screen, and A remote controller of a heat source device, wherein the usage graph and the target value index are displayed on a standby screen.   The usage amount display screen displays the usage graph of the previous day and the usage graph up to the current time of the previous day and the current date side by side on the same scale, and a line serving as an index of the target value for these graphs The usage graph displayed on the standby screen is a usage monitor graph up to the current time of the day, and a line serving as an index of the target value is superimposed on the opposite side of the origin of the graph. 2. A remote controller for a heat source device according to claim 1, wherein the remote controller is configured to display a numerical value of the amount used on the current day on the origin side and the target value numerical value on the opposite side of the origin.

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