JP2005061640A - Hot water control device with solar water heater and method for adding solar water heater - Google Patents

Abstract

A hot water control device with a solar hot water supply device that can be easily filled with a solar hot water supply device is provided.
A hot water supply path for supplying hot water heated by a gas heater to a bathtub in an automatic hot water filling device, and a recirculation circulation for returning hot water heated by a gas heater in a reheating device to the bathtub. The portion connected to the bathtub 24 is common to the passage 52, and the hot water pouring device 76 of the solar hot water supply device 12 pours hot water into the hot water pouring portion 38 provided in the common portion. The hot water pouring device 76 mixes the hot water in the hot water storage tank 104 with water in the mixing valve 104, supplies the hot water to the bathtub 24 at an appropriate temperature, and pours hot water at a constant flow rate through the constant flow valve 162. When the electromagnetic on-off valve 160 is opened for a set time based on the operation of the timer 166, a set amount of hot water is automatically poured into the pouring unit 38.
[Selection] Figure 1

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a hot water control device for controlling hot water filling of a bathtub, and more particularly, to hot water filling using a solar hot water supply device.
[0002]
[Prior art]
An automatic hot water filling device for automatically filling hot water in a bathtub is already known as described in Patent Document 1, for example. The automatic hot water filling device is equipped with a heater and control device that uses fuel such as electricity or gas, kerosene as an energy source, water is heated by the heater, and hot water at a set temperature is automatically supplied in a specified amount. It is comprised so that it may be supplied to.
[0003]
[Patent Document 1]
JP-A-10-73312
[0004]
[Problems to be solved by the invention, means for solving problems and effects]
Thus, in an automatic hot water filling device, water is heated by a heater. This heater is an artificial heater that heats water by artificial energy such as gas, and hot water is water produced by an artificial heater. In addition to this heating, for example, it can be obtained by a solar water heater. A solar water heater is a device that heats water by solar heat, which is natural energy, and supplies the hot water to facilities where hot water is used, such as washrooms and kitchens. Supply the hot water obtained by a solar water heater to a bathtub. Thus, artificial energy for heating water can be saved.
[0005]
The present invention has been made with the background of the above circumstances as an object to provide a hot water control device with a solar water heater and a method for adding a solar water heater that is easy to fill with a hot water heater. The hot water control device with a solar hot water supply device and the solar hot water supply device addition method of the following embodiments are obtained. As with the claims, each aspect is divided into sections, each section is numbered, and is described in a form that cites the numbers of other sections as necessary. This is for the purpose of facilitating understanding of the present invention, and should not be construed as limiting the technical features described in the present specification and the combinations thereof to those described in the following sections. . In addition, when a plurality of items are described in one section, it is not always necessary to employ the plurality of items together. It is also possible to select and employ only some items.
[0006]
In each of the following paragraphs, (1) corresponds to claim 1, (4) and (5) are combined in claim 2, (6) and (7) are combined. (9) corresponds to claim 4, (10) corresponds to claim 5, (11) corresponds to claim 6, and (13) corresponds to claim 7. .
[0007]
(1) (a) An automatic hot water filling device that automatically supplies a specified amount of hot water at a first hot water supply set temperature to the bathtub, and (b) a temperature raising device that raises the temperature of the hot water. A hot water control device comprising at least one of a reheating device for increasing the temperature of hot water in the bathtub by circulating hot water between the device and the bathtub;
(C) a solar heater that heats water by solar heat to make hot water; and (d) hot water that is heated by the solar heater is part of a pipe connected to the bathtub of the hot water control device. A solar water heater having a hot water pouring device for pouring water
Hot water control device with solar water heater including.
Since the chasing device is often used while a person is bathing, the chasing device may be one that stops chasing when the hot water temperature reaches a desired height. However, if a specified amount of rebirth is performed, a rebirth device that is automatically stopped is more convenient. In this case, the specified amount of reheating may be an amount that increases to the reheating set temperature, an amount that increases by the set temperature, or a set time. In short, it is sufficient if the amount of time at which the chasing should be automatically stopped is determined uniquely. When the automatic hot water filling device and the reheating device are provided and the reheating amount is specified by the temperature, the first hot water supply set temperature and the reheating set temperature may be the same or different.
If the hot water control device includes an automatic hot water filling device, the automatic hot water filling device and the solar hot water supply device can be selectively used to fill the bathtub with hot water.
If the hot water control device does not have an automatic hot water filling device but a reheating device, hot water is stored in the bathtub by pouring with a solar hot water supply device. Raised.
If the hot water control device includes an automatic hot water filling device and a reheating device, the automatic hot water filling device or the solar hot water supply device can be used to fill hot water in the bathtub and perform reheating.
A solar hot water supply apparatus is an apparatus that heats and supplies water using solar heat, which is natural energy, and can be referred to as a natural hot water supply apparatus. On the other hand, an apparatus that heats and supplies water using artificially created artificial energy such as electricity and fuel can be referred to as an artificial hot water supply apparatus.
In the hot water control device with a solar hot water supply device of the present invention, hot water obtained by the solar hot water supply device is supplied to the bathtub from the pouring part of the hot water control device. The solar hot water supply device can supply hot water to the bathtub using a connection passage to at least one of the automatic hot water filling device and the reheating device, and the hot water obtained by the solar hot water supply device can be easily obtained. Can be supplied to the bathtub.
The hot water control device with a solar water heater of the present invention may be a device in which a solar water heater is newly added to an existing hot water controller, or may be a device in which a hot water controller is newly added to an existing solar water heater, An apparatus in which an existing hot water control apparatus and a solar hot water supply apparatus are combined may be used, or an apparatus including a new hot water control apparatus and a solar hot water supply apparatus may be used.
[0008]
(2) The solar heater is
A solar collector that collects solar heat;
A solar heat utilization device having a heat exchanger, circulating a heat medium in a solar circuit passing through the heat exchanger and the solar heat collector, and heating water in the heat exchanger to make hot water;
The hot water control device with a solar hot water supply device according to (1), wherein the hot water pouring device pours hot water from the heat exchanger into the pouring portion.
The heat exchanger includes a tank that stores water and a heat exchanger that is disposed in the tank and that transfers heat of the heat medium to the water in the tank, or a heat medium passage through which the heat medium flows, A water passage formed outside or inside the heat medium passage, and water flowing through the water passage can be heated by heat of the heat medium flowing through the heat medium passage.
(3) The solar heater is
A solar collector that collects solar heat;
A hot water storage tank,
A circulation device that circulates water in a solar circulation path that connects the solar collector and hot water storage tank in series, and heats the solar heat collected by the solar collector to make hot water;
The hot water control device with a solar hot water supply device according to item (1), wherein the hot water pouring device pours hot water from the hot water storage tank into the pouring portion.
According to the hot water control device with a solar hot water supply device of this section, the water supplied from the hot water storage tank to the bathtub is directly heated by solar heat to be hot water.
[0009]
(4) The hot water control device with a solar hot water supply device according to any one of (1) to (3), wherein the hot water control device includes the automatic hot water filling device.
(5) The automatic hot water filling device is
An artificial water heater for heating water with at least one of electricity and fuel and supplying hot water at the first hot water set temperature;
A hot water supply path for guiding hot water supplied from the artificial water heater to the bathtub;
If at least one of the condition that the level of hot water in the bathtub reaches the set level and the amount of hot water supplied to the bathtub reaches the set amount is satisfied, the hot water is supplied as the specified hot water amount is supplied. Hot water supply stop device to stop
The hot water control device with a solar hot water supply device according to item (4), wherein a part of the hot water supply passage is the pouring portion.
The hot water supply amount is specified by at least one of the hot water level and the supply amount.
The hot water supply stop device can also select either hot water level of the bathtub reaching the set level or hot water supply amount to the bathtub reaching the set amount as the hot water stop condition. Specifically, for example, a selection member that is manually operated, a remaining hot water amount detection device that detects the amount of remaining hot water remaining in the bathtub, and an air temperature detection device that detects the atmospheric temperature are provided. One of them can be automatically selected based on the detection result. Further, when it is assumed that there is no remaining hot water in the bathtub at the start of hot water supply, both of the above conditions are satisfied at the same time. It is desirable that the hot water supply stop device includes a shut-off device that shuts off the hot water supply passage and an energy supply stop device that stops the supply of electricity or gas, kerosene or other fuel to the artificial hot water supply device.
According to the hot water control device with a solar hot water supply device of this section, hot water is automatically supplied to the bathtub, and when the specified hot water supply amount is reached, the hot water supply is automatically stopped.
[0010]
(6) The hot water control device according to any one of (1) to (5), wherein the hot water control device includes the reheating device.
(7) The chasing device is
A recirculation circuit formed through the temperature raising device and the bathtub for raising the temperature of hot water by at least one of electricity and fuel;
A circulation generator that causes hot water circulation in the recirculation circuit,
The hot water control device with a solar hot water supply device according to item (6), wherein a part of the recirculation circuit is the hot water pouring unit.
[0011]
(8) The hot water control device includes both the automatic hot water filling device and the reheating device,
The automatic hot water filling device is
An artificial water heater for heating water with at least one of electricity and fuel and supplying hot water at the first hot water set temperature;
A hot water supply path for guiding hot water supplied from the artificial water heater to the bathtub;
If at least one of the condition that the level of hot water in the bathtub reaches the set level and the amount of hot water supplied to the bathtub reaches the set amount is satisfied, the hot water is supplied as the specified hot water amount is supplied. Hot water supply stop device to stop
And the chasing device has
A recirculation circuit formed through the temperature raising device and the bathtub for raising the temperature of hot water by at least one of electricity and fuel;
A circulation generator that causes hot water circulation in the recirculation circuit,
And the hot water supply passage and the recirculation circuit have a common portion, and a part of the common portion is the pouring portion. (1) to (3) The hot water control apparatus with a solar water heater as described.
According to the invention of this section, a hot water control device with a solar hot water supply device including both an automatic hot water filling device and a reheating device can be easily configured.
[0012]
(9) When the temperature of the hot water of the solar heater is higher than the second hot water supply set temperature, the water pouring device mixes the hot water with the hot water to obtain hot water at the second hot water supply set temperature. The hot water control device with a solar hot water supply device according to any one of (1) to (8).
A solar heater is a device that heats water with solar heat to produce hot water, so the temperature of the hot water may be too high to be supplied to the bathtub depending on the season, weather, etc., but the hot water with solar water heater in this section According to the control device, even if the temperature of the hot water of the solar heater is too high, the temperature can be lowered to an appropriate temperature and supplied to the bathtub.
[0013]
(10) The pouring device has a pouring stop device that stops pouring when the amount of pouring by the pouring device reaches a specified pouring amount. (1) to (9) Hot water control device with solar water heater.
According to the hot water control device with a solar hot water supply device of this section, pouring by the solar hot water supply device is automatically stopped. If the amount of pouring is specified, the specified amount of hot water is automatically poured into the bathtub, and a hot water control device with a solar hot water supply device that is easy to use can be obtained.
The pouring stop device is, for example, a device including a flow rate control device and a timer like the hot water control device described in the section (11). The timer may be set by a human operation, or may be a timer provided in the controller and set by inputting time to the controller. In the latter case, the time may be set by a person directly entering the controller, or the person may set the time by sending an electrical signal to the controller using a remote control. The pouring may be started upon completion of the time input, or the start of pouring may be instructed separately.
Alternatively, the pouring stop device may be a device including a pouring amount detection device and a pouring amount designation device. The pouring amount detection device includes, for example, an integrating flow meter that detects the total pouring flow rate. The pouring amount detection device also has a function of a pouring amount specifying device and a pouring shut-off function, and may be a device that shuts off pouring and stops when the detected total pouring amount reaches the designated pouring amount, or The pouring stop device further includes a pouring stop control device (controller), the accumulated pouring amount and the specified pouring amount are input to the pouring stop control device, and the pouring stop control device compares these pouring amounts, and integrates them. When the pouring amount reaches the specified pouring amount, the pouring may be stopped. The pouring may be started upon completion of inputting the designated pouring amount, or the start of pouring may be instructed separately. The pouring amount designating device may be provided in the controller or may be constituted by a remote controller. In the former case, the designated pouring amount is directly input by the person to the pouring stop control device, and in the latter case, the person sends an electric signal indicating the designated pouring amount to the pouring stop control device using the remote control. Become. The same applies to the start of pouring.
If the remote control is used to set the pouring time, specify the pouring amount, and instruct the start of pouring, for example, perform setting or designation while in the bathroom at the desired location. The apparatus can be made to pour a desired amount of hot water at a desired temperature into the bathtub. The specified pouring amount can be reset or changed at a desired location.
[0014]
(11) The pouring stop device is
A flow rate control device for controlling the pouring flow rate by the pouring device to a constant flow rate;
A timer capable of setting a pouring time by the pouring device;
The hot water control device with a solar hot water supply device according to item (10).
Since the pouring flow rate is controlled to a constant flow rate by the flow control device, the pouring time set by the timer and the amount of hot water poured into the bathtub correspond one-to-one, and the pouring time is set by the timer. You can specify the amount of hot water. The timer constitutes a pouring amount specifying device.
The timer is set for the pouring time, but the scale of the timer indicates the level of hot water in the bathtub, whether it indicates the pouring time itself or the amount of pouring. It may be assumed. This is because when it is assumed that there is no remaining hot water in the bathtub, the hot water level (water level) has a one-to-one correspondence with the pouring amount.
(12) The hot water control device with a solar hot water supply device according to (11), wherein the flow rate control device includes a constant flow valve that controls a flow rate constant regardless of a change in pressure of hot water poured by the hot water pouring device. .
[0015]
(13) (a) An automatic hot water filling device that automatically supplies a specified amount of hot water at the first hot water supply set temperature to the bathtub; (b) a temperature raising device that raises the temperature of the hot water; By circulating hot water between the apparatus and the bathtub, the existing hot water control apparatus provided with at least one of the reheating apparatus that raises the temperature of the hot water in the bathtub is heated by solar heat to make hot water. A method for adding a solar water heater equipped with a solar heater,
A solar hot water supply apparatus adding method in which a hot water supply unit is provided in a part of a pipe connected to the bathtub of the hot water control device, and a solar hot water supply path that guides hot water heated by the solar heater is connected to the hot water supply unit.
According to the method for adding a solar water heater in this section, the hot water obtained by the solar water heater can be added to the bathtub just by providing a pouring part in a part of the piping of the existing hot water controller and connecting the solar hot water passage there. Can be supplied. The solar hot water supply device connected to the pouring section is preferably the one described in the above items (2), (3), (9) to (12), and the hot water control device is the above (4). It is desirable that it is as described in the item (8).
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
FIG. 1 shows a hot water control apparatus with a solar hot water supply apparatus according to an embodiment of the present invention. The hot water control device with a solar hot water supply device of this embodiment includes a hot water control device 10 and a solar hot water supply device 12.
[0017]
The hot water control device 10 will be described.
The hot water control device 10 includes an automatic hot water filling device 20 and a reheating device 22 in the present embodiment. The automatic hot water filling device 20 includes an artificial hot water supply device 26, and automatically supplies a specified amount of hot water at a set temperature to the tub 24, and also uses equipment other than the tub 24 to use hot water, such as a washroom and a kitchen. Supply hot water to the hot water outlet. The artificial water heater 26 includes a gas heater 32 as an artificial heater provided in the middle of a passage 30 that connects a water pipe 28 and a hot water using device such as a bathtub 24, and gas as a kind of fuel is used as an energy source. As described above, the water in the passage 30 is heated and hot water having a set temperature is supplied. The passage 30 is constituted by, for example, a pipe, and is branched from the portion where the gas heater 32 is provided on the hot water using device side to provide hot water supply passages 34 and 36, and hot water supplied from the artificial hot water supply device 26. To the equipment using hot water. A hot water pouring part 38 is provided in a portion of the piping constituting the hot water supply passage 34 connected to the bathtub 24.
[0018]
A hot water temperature sensor 40 is provided in a portion between the branch portion of the passage 30 and the portion where the gas heater 32 is provided, and the temperature of the hot water heated by the gas heater 32 and supplied to the hot water using device is detected. Has been to be.
[0019]
The reheating device 22 includes a passage 44 having one end connected to the bathtub 24 separately from the hot water supply passage 34 and the other end connected to the hot water supply passage 34. The passage 44 is constituted by, for example, a pipe, and a gas heater 46 that heats hot water using gas as an energy source is provided in the middle of the passage 44 to constitute a temperature raising device. Hereinafter, the gas heater 32 is referred to as a hot water supply gas heater 32, and the gas heater 46 is referred to as a reheating gas heater 46.
[0020]
A circulation pump 48 is provided in a portion of the passage 44 between the reheating gas heater 46 and the bathtub 24. The circulation pump 48 is driven by a pump motor 50 as an electric motor, which is a kind of drive source, and the hot water pumped out of the bathtub 24 by the pump 48 is heated by a reheating gas heater 46 to raise the temperature. It is caused to flow into the hot water supply passage 34 and returned to the bathtub 24. A part of the hot water supply passage 34, a portion closer to the bathtub 24 than a portion where the passage 44 is connected, together with the passage 44, a recirculation circuit 52 formed through the reheating gas heater 46 and the bathtub 24. The circulation generation device is configured such that the circulation pump 48 causes circulation of hot water in the recirculation circuit 52. The hot water supply path 34 and the reheating circulation path 52 have a common part, and the pouring part 38 is provided in the common part, and a part of the common part is the pouring part 38. Both ends of the passage 44 are connected to the bathtub 24 to form a reheating circulation path, and one of the branch passages of the passage 30 is connected to the reheating circulation path to form a hot water supply path together with a part of the reheating circulation path. Of the pipes constituting the passage 44, the hot water whose temperature has been raised is led to the bathtub 24, and a hot water pouring part is provided in the part closer to the bathtub 24 than the part to which the branch passage is connected. It can also be considered that a pouring part is provided in a part of the common part with the recirculation circuit.
[0021]
The passage 44 is also provided with a hot water temperature sensor 56 so that the temperature of the hot water pumped out from the bathtub 24 by the circulation pump 48 is detected. The passage 44 is further provided with a water pressure sensor 58 so that the pressure of hot water accumulated in the bathtub 24 is detected. The water pressure in the bathtub 24 has a one-to-one correspondence with the level (high water level) and volume (the amount of hot water) of hot water stored in the bathtub 24, and is stored in the bathtub 24 by detecting the water pressure. The level and amount of hot water is obtained.
[0022]
An electromagnetic opening / closing valve 60 is provided in a portion closer to the gas heater 32 than a portion where the passage 44 of the hot water supply passage 34 is connected. The electromagnetic on-off valve 60 is a normally closed electromagnetic valve in the present embodiment, and is opened when hot water is poured into the bathtub 24 by the automatic hot water filling device 20, and is closed when reheating. The electromagnetic on-off valve 60 is a device that allows and shuts off hot water supply, and is a shut-off device that shuts off the hot water supply passage 34, and that hot water pumped out of the bathtub 24 during reheating flows out to the hot water storage tank side described later. The hot water outflow prevention device is configured to prevent and keep the hot water circulating in the reheating circulation path 52.
[0023]
The solar water heater 12 will be described.
The solar hot water supply device 12 includes a solar heater 68 and a hot water pouring device 76. The solar heater 68 includes a solar heat collector 70 and a solar heat utilization device 78 having a heat exchanger 72 and a heat medium liquid circulation device 74. The solar heat collector 70 includes a heat medium liquid holding unit (not shown) that holds a heat medium liquid as a heat medium. For example, the solar heat collector 70 is provided on the roof of a building and filled in the heat medium liquid holding unit. The heat transfer fluid is warmed by solar heat and solar heat is collected.
[0024]
The heat exchanger 72 is provided below the solar heat collector 70, and includes a hot water storage tank 82 for storing water, and a heat exchanger 83 disposed therein. The heat transfer unit 83 is, for example, one in which a metal tube is wound many times in a spiral shape, and both ends thereof are connected to the heat transfer liquid holding unit of the solar heat collector 70 by passages 84 and 86, respectively. The passages 84 and 86 are configured by pipes, for example, and a solar circulation path 88 is configured including the passages 84 and 86.
[0025]
The heat medium liquid circulation device 74 includes a heat medium liquid circulation pump 90 provided in the passage 84. If the temperature of the heat medium liquid detected by the heat medium liquid temperature sensor 92 is a temperature suitable for heating hot water or water in the hot water storage tank 82 detected by the hot water temperature sensor 94, the heat medium liquid circulation pump 90 is used. When activated, the heat transfer fluid is circulated in the solar circulation path 88, and heat exchange in the heat transfer device 83 transfers the heat of the heat transfer medium to the water in the hot water storage tank 82, and the hot water or water in the hot water storage tank 82 is transferred. Heat to hot water.
[0026]
The hot water storage tank 82 is provided in the middle of the passage 30, and is connected to the water pipe 28 at the lower portion thereof, and the upper portion thereof is connected to hot water using equipment such as the bathtub 24. The water supplied from the water pipe 28 is adjusted to an appropriate pressure by the pressure adjusting valve 96 and supplied to the hot water storage tank 82. If hot water is supplied from the hot water storage tank 82 to the hot water use device and the amount of hot water in the hot water storage tank 82 decreases, water flows from the water pipe 28 into the hot water storage tank 82. The temperature of hot water in the hot water storage tank 82 is different between the upper part and the lower part of the hot water storage tank 82, and the hot water temperature sensor 94 is provided to detect the hot water temperature in the lower part of the hot water storage tank 82 near the water pipe 28, The hot water storage tank 82 is further provided with a hot water temperature sensor 98 for detecting the hot water temperature in the upper portion thereof. Although not shown, the solar water heater 12 includes a controller, and controls the heat medium liquid circulation pump 90 based on detection signals from the heat medium liquid temperature sensor 92 and the hot water temperature sensor 94. Various temperatures detected by the heat medium liquid temperature sensor 92 and the like are displayed on a display unit, for example, a display provided in the controller.
[0027]
The pouring device 76 includes a water mixing device 100 and a pouring stop device 102 in this embodiment. The water mixing device 100 has a mixing valve 104. The mixing valve 104 will be described with reference to FIG. The mixing valve 104 is a commercially available mixing valve called MT303 manufactured by NTC Corporation, and will be described briefly.
[0028]
In the housing 120 of the mixing valve 104, a valve hole 122, a hot water storage tank side port 124, a water pipe side port 126, and a bathtub side port 128 are provided. As shown in FIG. 1, the hot water tank side port 124 is connected to the hot water storage tank 82 by a passage 130, the water pipe side port 126 is connected to the water pipe 28 by a passage 132, and the bathtub side port 128 is connected by the passage 134. It is connected to the hot water section 38. In the mixing valve 104, the bathtub side port 128 communicates with the hot water tank side port 124 and the water pipe side port 126 communicates with the operation of the valve element 140 and the drive member 142 accommodated in the valve hole 122. And a state of communicating with both ports 134 and 136 is obtained.
[0029]
The valve element 140 has a cylindrical shape and is biased in a direction away from the valve seat 146 by a compression coil spring 144 which is a kind of elastic member. The movement limit of the valve element 140 due to the bias of the spring 144 is defined by the valve element 140 coming into contact with another valve seat 148 provided in the housing 120.
[0030]
The drive member 142 has an axial shape, and one end portion in the axial direction is provided by a valve element 140 and the other end portion is provided by a dial 150 serving as a hot water temperature setting member or a hot water temperature adjusting member screwed into the housing 120. Is supported so as to be relatively movable. The dial 150 has a bottomed cylindrical shape, and a holding member 152 accommodated therein so as to be movable in the axial direction holds the driving member 142. The holding member 152 is urged by the compression coil spring 154 so as to protrude from the dial 150, and the drive member 142 is movable in the axial direction with respect to the dial 150. The movement limit of the holding member 152 or the driving member 142 due to the bias of the spring 154 is defined by a stopper portion 156 provided on the dial 150.
[0031]
In this embodiment, the driving member 142 is a temperature-sensitive driving member, and expands when the hot water temperature supplied from the hot water storage tank 82 to the mixing valve 104 is higher than the set temperature, and attaches the valve element 140 to the spring 144. It moves toward the valve seat 146 against the force. Therefore, as shown in FIG. 2, the valve element 140 is always in contact with the valve seat 148, and the water pipe side port 126 that is the low temperature side port is closed, while the hot water storage tank side port 124 that is the high temperature side port is opened. However, if hot water having a temperature higher than the set temperature is supplied from the hot water storage tank 82, the drive member 142 extends and the valve element 140 resists the urging force of the spring 144. The valve seat 146 is moved in the direction of seating. Thereby, the water pipe side port 126 is opened and communicated with the hot water storage tank side port 124 together with the bathtub side port 128, the hot water is mixed with water, the temperature is lowered, and the hot water is poured from the passage 134 to the pouring part 38. , Supplied to the bathtub 24. When the temperature of the hot water supplied from the hot water storage tank 82 is low and the drive member 142 contracts, the valve element 140 is moved away from the valve seat 146 by the bias of the spring 144 and flows into the water pipe side port 126. As a result, the amount of water mixed with the hot water is reduced, and the amount of hot water flowing from the hot water storage tank side port 124 is increased, so that the temperature of the hot water supplied to the bathtub 24 is raised. If the temperature of the hot water flowing in from the hot water storage tank side port 124 becomes lower than the set temperature, the valve element 140 is kept seated on the valve seat 148, and mixing of water from the water pipe side port 126 is prevented. Only hot water from 82 is supplied to the bathtub 24.
[0032]
By operating the dial 150 and adjusting the screwing amount with respect to the housing 120, the position of the driving member 142 is adjusted, and the temperature of hot water when the valve element 140 is seated on the valve seats 146, 148 is adjusted. The temperature of hot water poured into the hot water part 38 is adjusted. The drive member 142 is moved to the valve element 140 side as the screwing amount of the dial 150 to the housing 120 is increased. Accordingly, the drive member 142 causes the valve element 140 to be seated on the valve seat 146 with a small expansion amount. If the temperature of the hot water supplied from the hot water storage tank 82 is the same and the expansion amount is the same, The opening area of the pipe-side port 126 is increased, the amount of water flowing in from the water pipe 28 is increased, and the temperature of hot water obtained by mixing with water is lowered. Conversely, the smaller the screwing amount of the dial 150 with respect to the housing 120, the larger the amount of expansion required for the drive member 142 to seat the valve element 140 on the valve seat 146, and the hot water supplied from the hot water storage tank 82. If the temperature is the same, the amount of water mixed with hot water is small, and the temperature of hot water obtained by mixing with water is increased. When the expansion amount of the drive member 142 is large and the valve element 140 is further extended from the state where the valve member 140 is seated on the valve seat 146, the holding member 152 is retracted against the urging force of the spring 154, and the drive member 142. Is allowed to extend. If the valve element 140 is seated on the valve seat 146, hot water is not supplied from the hot water storage tank 82 to the bathtub 24, but the drive member 142 contracts due to a decrease in temperature, and the valve element 140 is separated from the valve seat 146 so that the bathtub is removed. When the side port 128 is brought into communication with the hot water storage tank side port 124, hot water is supplied from the hot water storage tank 82 to the bathtub 24.
[0033]
As shown in FIG. 1, an electromagnetic on-off valve 160, a constant flow valve 162 as a flow control device, and a check valve 164 are provided in the passage 134 that connects the bathtub-side port 128 of the mixing valve 104 and the pouring portion 38. It is provided in series. The electromagnetic on-off valve 160 is a normally closed electromagnetic on-off valve in the present embodiment, and is opened when hot water from the hot water storage tank 82 is supplied to the bathtub 24.
[0034]
In this embodiment, the electromagnetic on-off valve 160 is configured such that a current is supplied to the solenoid based on the operation of the timer 166 by a person, and the hot water in the hot water storage tank 82 is poured into the pouring unit 38 by being opened. ing. The constant flow valve 162 is provided on the side of the pouring part 38 from the electromagnetic on-off valve 160, and controls the pouring flow rate of hot water poured from the hot water storage tank 82 to the pouring part 38 via the mixing valve 104. The flow rate is controlled to be constant regardless of changes in hot water pressure. Therefore, the pouring time and the pouring amount correspond one-to-one, and the pouring amount is designated by the setting of the pouring time by the timer 166. Further, the check valve 164 is provided on the side of the pouring part 38 from the constant flow valve 162 so as to allow the inflow of hot water from the constant flow valve 162 side to the pouring part 38 but prevent the reverse flow. Has been.
[0035]
As shown in FIG. 1, the hot water control device with a solar hot water supply device includes a controller 200. The controller 200 receives detection signals from various sensors such as the hot water temperature sensor 40. Further, the hot water supply gas heater 32, the reheating gas heater 46, the pump motor 50, and the electromagnetic on-off valve 60 are controlled via a drive circuit (not shown). Furthermore, a remote controller 202 is connected to the controller 200. In the present embodiment, the remote controller 202 designates the amount of hot water supply for automatic hot water filling, sets the temperature, instructs to start automatic hot water filling, sets the amount of reheating, and instructs to start reheating. In the present embodiment, the amount of hot water supply is specified by setting the level (water level) of hot water stored in the bathtub 24 or the amount of hot water supplied. In the present embodiment, the amount of chasing is set by the temperature. The remote controller 202 is a hot water supply amount designation device, and as a hot water supply stop condition, either the hot water level of the bathtub 24 reaches a set level or the hot water supply amount (supplied hot water amount) to the bathtub 24 reaches a set amount. In addition to a selection member for selecting the above, an automatic filling temperature setting device and a reheating amount setting device are configured.
[0036]
Next, the operation will be described.
In this hot water control device with a solar hot water supply device, hot water can be poured into the bathtub 24 in two modes: an artificial hot water supply mode and a solar pouring mode. The artificial hot water supply mode is a mode in which water supplied from the water pipe 28 is heated by the hot water supply gas heater 32 and poured into the bathtub 24. The solar pouring mode is a mode in which hot water supplied from the hot water storage tank 82 is poured into the pouring unit 38 and supplied to the bathtub 24. In this embodiment, the person determines which hot water filling is performed based on, for example, the temperature of hot water in the hot water storage tank 82 detected by the hot water temperature sensor 98.
[0037]
The artificial hot water supply mode will be described.
For example, when the temperature of the hot water in the hot water storage tank 82 is low and not suitable for supplying to the bathtub 24, the artificial hot water supply mode is executed, and the hot water in the hot water storage tank 82 is heated by the hot water supply gas heater 32. It is supplied to the bathtub 24. The temperature of the hot water in the hot water storage tank 82 is, for example, low if heating by solar heat is insufficient depending on the season, weather, etc., or the heating does not catch up with the amount of hot water used, and is supplied from the water pipe 28. It becomes low in a state where water only passes through the hot water storage tank 82 as a passage.
[0038]
Therefore, the person operates the remote controller 202 to set the hot water temperature, specify the amount of hot water supply, and instruct the start of automatic hot water filling. This set hot water temperature is the first hot water supply set temperature. In response to an instruction to start automatic hot water filling, the electromagnetic on-off valve 60 is opened and hot water is supplied from the hot water storage tank 82 through the hot water supply passage 34 to the bathtub 24, and the temperature of hot water detected by the hot water temperature sensor 40 is first controlled by the remote controller. If the temperature is lower than the first hot water supply set temperature set using 202, gas is supplied to the hot water supply gas heater 32, and hot water passing through the passage 30 is heated and supplied to the bathtub 24.
[0039]
The pressure of the hot water stored in the bathtub 24 is detected by the water pressure sensor 58, and thereby the level of the hot water stored in the bathtub 24 or the amount of hot water supplied is obtained. If hot water remains in the bathtub 24 when the hot water supply amount is set, the remaining hot water amount is obtained based on the detection value of the water pressure sensor 58, and is supplied based on the detection value of the water pressure sensor 58 obtained during hot water supply and the remaining hot water amount. The amount of hot water that is the amount of hot water is obtained. The water pressure sensor 58 and the controller 200 constitute a remaining hot water amount detection device at the start of hot water supply. The water pressure sensor 58 also constitutes a hot water pool amount detection device, a hot water level detection device, and a hot water supply amount detection device that are stored in the bathtub 24 alone or together with the controller 200.
[0040]
When the set level of hot water is accumulated or a set amount of hot water is supplied, the hot water supply is stopped. The electromagnetic on-off valve 60 is closed to stop the hot water supply to the bathtub 24 and the supply of gas to the hot water supply gas heater 32 is stopped. In the present embodiment, when the specified amount of hot water is supplied based on the detection value of the water pressure sensor 58, the portion for specifying the hot water supply amount of the remote controller 202, the electromagnetic on-off valve 60, and the water pressure sensor 58 of the controller 200, A part for closing the on-off valve 60, a part for stopping the supply of gas to the hot water supply gas heater 32, and the like constitute a hot water supply stop device.
[0041]
The solar pouring mode will be described.
If the temperature of the hot water detected by the hot water temperature sensor 98 is high and sufficient to be supplied to the bathtub 24 without being heated by the hot water supply gas heater 32, the hot water is applied to the bathtub 24 by the solar pouring mode. The person operates the timer 166 to set the pouring time and specify the pouring amount. When the timer 166 is operated, a current is supplied to the solenoid of the electromagnetic on-off valve 160, the electromagnetic on-off valve 160 is opened, and the mixing valve 104 is communicated with the bathtub 24. In addition to the setting of the pouring time by the timer 166, the solenoid on-off valve 160 may be opened based on a pouring start instruction to start solar pouring.
[0042]
If the electromagnetic open / close valve 160 is opened, the hot water in the hot water storage tank 82 passes through the passage 130, the hot water storage tank side port 124, the bathtub side port 128, the electromagnetic open / close valve 160, the constant flow valve 162, and the check valve 164. The hot water is poured into the hot water pouring unit 38 and supplied to the bathtub 24. The temperature of hot water poured into the bathtub 24 by the hot water pouring device 76 is adjusted and set by a person operating the dial 150 of the mixing valve 104. The temperature setting operation may be performed before the start of solar hot water supply or may be performed during solar hot water supply. The temperature is set according to the temperature of hot water in the hot water storage tank 82 detected by the hot water temperature sensor 98, for example. This set temperature is the second hot water supply set temperature, and is a temperature different from the set temperature, which is a boundary that causes the drive member 142 of the mixing valve 104 to expand. When the temperature of the hot water in the hot water storage tank 82 is higher than the second hot water supply set temperature, the hot water is mixed with the hot water at the mixing valve 104 to be hot water at the second hot water supply set temperature and poured into the bathtub 24. The valve element 140 is moved by the thermal expansion of the drive member 142 to open the water pipe side port 126, water is mixed with hot water, the hot water temperature is lowered, and the hot water temperature is supplied to the bathtub 24. When the time set by the timer 166 elapses and the amount of pouring by the pouring device 76 reaches the set amount, the current supply to the solenoid of the electromagnetic on-off valve 160 is cut off and the electromagnetic on-off valve 160 is closed. The hot water is automatically stopped. The electromagnetic on-off valve 160 is a device that allows or shuts off the pouring of water into the bathtub 24, and constitutes a shut-off device that shuts off the pouring path constituted by the passage 134. In the present embodiment, the constant flow valve 162 and the timer 166 constitute the pouring stop device 102, and the solar hot water supply device 12 is an automatic solar hot water supply device. It may be considered that the electromagnetic on-off valve 160 also constitutes the pouring stop device 102.
[0043]
Regardless of whether the hot water filling is performed in the artificial hot water supply mode or the solar water pouring mode, if the temperature of the hot water in the bathtub 24 is low, the reheating device 22 performs the reheating. Is called. By operating the remote controller 202, the hot water temperature obtained by reheating (reheating set temperature) is set, and the start of reheating is instructed. Thereby, the circulation pump 48 is operated by the pump motor 50, hot water is pumped out from the bathtub 24, gas is supplied to the reheating gas heater 46, warms the hot water, raises the temperature, and returns to the bathtub 24. . If the temperature of the hot water in the bathtub 24 detected by the hot water temperature sensor 56 reaches the set temperature, the circulation pump 48 is stopped, the supply of gas to the reheating gas heater 46 is stopped, and reheating is stopped. Is done. The chasing device is automatically stopped. In the present embodiment, the chasing device 22 is an automatic chasing device.
[0044]
When the reheating is performed, the electromagnetic on-off valve 60 is closed, and the hot water pumped out from the bathtub 24 does not flow out to the hot water storage tank 82 side. The electromagnetic on-off valve 60 constitutes a hot water outflow prevention device when reheating. Also, normally, the water pressure on the solar water heater 12 side is high and hot water does not flow back from the bathtub 24 side to the solar water heater 12 side, but in the unlikely event the water pressure on the solar water heater 12 side may be low. However, the check valve 164 prevents hot water from flowing back. The check valve 164 constitutes a backflow prevention device. The check valve 164 may be omitted.
[0045]
In this way, the pouring part 38 is provided in the common part of the hot water supply path 34 of the automatic hot water filling device 20 and the reheating circuit 52 of the reheating apparatus 22, and the solar hot water supply apparatus 12 is connected to the pouring part 38. If hot water heated by the solar heater is poured into the common portion, hot water obtained by solar heating can be easily supplied to the bathtub 24. For example, when the solar hot water supply device 12 is added to an existing hot water control device including the automatic hot water filling device 20 and the reheating device 22, water supplied through the pressure adjustment valve 96 is used as the hot water supply gas heater 32. 1 is cut at positions A and B in FIG. 1, a solar hot water supply device 12 enclosed by a two-dot chain line is attached to a portion between them, and supplied from a water pipe 28 through a hot water storage tank 82. The hot water or the low-temperature hot water can be heated by the hot water supply gas heater 32 in the same manner as in the case where the solar water heater 12 is not provided, and a part of the common pipe is cut off and replaced. If a T (T-shaped pipe joint) is connected to the pipe, the pipe constituting the passage 134 of the solar water heater 12 can be connected to the T, and it can be easily changed to a hot water controller with a solar water heater. That. T constitutes the pouring part 38. On the contrary, the solar hot water supply device 12 that is easy to add is easy to remove. For example, when the solar hot water supply device 12 becomes unnecessary, it is removed and only the automatic hot water filling device 20 and the reheating device 22 are used as before. Can be used in Further, when one of the automatic hot water filling device 20, the reheating device 22 and the solar hot water supply device 12 breaks down, it can be repaired without causing any trouble.
[0046]
In the above-described embodiment, the hot water in the hot water storage tank 82 is heated and supplied to the hot water use equipment other than the bathtub 24 by the hot water supply gas heater 32, but the hot water supply gas heater is used. 32 may be supplied without being heated. For example, as in the hot water control device with a solar hot water supply device shown in FIG. 3, the passage 30 is provided with a passage 220 that bypasses the gas heater 32 and directly connects the hot water storage tank 82 and hot water using equipment other than the bathtub 24. A manual three-way valve 222, which is a kind of switching device, is provided at the connecting portion of the passage 220 on the hot water storage tank 82 side.
[0047]
The manual three-way valve 222 is operated by a person to directly connect the hot water storage tank 82 to the portion of the passage 30 provided with the hot water supply gas heater 32 and the hot water storage tank 82 directly to hot water use equipment other than the bathtub 24. Switching to the non-heated position. Then, for example, if the temperature of the hot water in the hot water storage tank 82 obtained by the hot water temperature sensor is high and heating is not required to supply to the hot water using equipment, the person switches the manual three-way valve 222 to the non-heating position, Thus, hot water is directly supplied from the hot water storage tank 82 to the hot water using equipment. If it is determined that the temperature of the hot water in the hot water storage tank 82 is low and heating is necessary, the person switches the manual three-way valve 222 to the heating position, and the hot water heated by the hot water supply gas heater 32 is used by the hot water. To be supplied. In the absence of the passage 220 and the manual three-way valve 222, when the use of hot water is started in hot water using equipment other than the bathtub 24, even if the temperature of the hot water in the hot water storage tank 82 is sufficiently high, the gas heater is initially used. Since the low-temperature hot water staying in the passage 30 flows through 32, the gas heater 32 is always ignited and wasted. If the passage 220 and the manual three-way valve 222 are provided, this waste can be avoided.
[0048]
It should be noted that the automatic switching device may automatically switch the communication of the hot water storage tank 82 to the hot water supply gas heater 32 side and the communication to the hot water using equipment side. For example, instead of the manual three-way valve 222, a three-port two-position electromagnetic direction switching valve, which is a kind of electromagnetic control valve device, is provided, and the temperature of hot water in the hot water storage tank 82 detected by the hot water temperature sensor 98, Based on the type of hot water equipment used (whether hot water is supplied to the bathtub 24 or supplied to other hot water equipment, which is detected by a detection device based on hot water use operation, etc.), The switching is performed automatically.
[0049]
Further, the mixing valve 104 is driven by the valve element 140 using the expansion of the temperature-sensitive driving member 142, and water is mixed with the hot water supplied from the hot water storage tank 82, and the position of the driving member 142 is adjusted. The temperature of the hot water supplied from the mixing valve 104 to the bathtub 24 is adjusted, but the valve element is moved by a drive device using an electric motor as a drive source, and the bathtub side port and the hot water tank side port A motor valve that can switch the communication state with the water pipe side port may be used. As the electric motor, for example, a servo motor capable of accurately controlling the rotation angle is used. The servo motor is a controller different from the controller 200 that controls the automatic hot water filling device 20, and is controlled by the controller of the solar hot water supply device 12. Further, a hot water temperature sensor for detecting the temperature of hot water supplied from the motor valve to the bathtub 24 is provided, and the detection signal is supplied to the controller.
[0050]
The valve element of the motor valve is always located at a position where the bathtub side port communicates with the hot water tank side port. At the time of pouring, the controller compares the second hot water supply set temperature with the detected hot water temperature. If the detected hot water temperature is higher than the second hot water supply set temperature, the motor is started and the valve is moved. Thereby, the bathtub side port is connected to the hot water tank side port and the water pipe side port, water is mixed with the hot water, the temperature is lowered, and the hot water is poured into the bathtub. The servo motor is controlled to move the valve so that the detected hot water temperature becomes the second hot water supply set temperature, and hot water at the set temperature is poured into the bathtub. The second hot water supply set temperature may be directly input by a person to the controller or may be set using a remote controller. This remote controller is provided separately from the remote controller 202 of the automatic hot water filling device 20. If the remote controller is used to input the second hot water supply set temperature to the controller by an electric signal, for example, the second hot water supply set temperature can be set in a desired place, for example, in the bathroom.
[0051]
Further, the pouring stop device may include an integrating flow meter, a remote controller, and a controller as described above. In that case, an integrated flow meter is provided instead of the constant flow valve 162, the timer 166 is omitted, and a remote controller and a controller are provided. These remote controller and controller constitute the solar hot water supply device 12 and are provided separately from the controller 200 and the remote control 202 of the automatic hot water filling device 20. The integrated pouring amount detected by the integrating flow meter is input to the controller, the pouring amount is designated by the remote controller, and an electrical signal is sent to the controller. The pouring start is instructed by, for example, a remote controller, and the controller supplies current to the solenoid of the electromagnetic on-off valve 160 based on the pouring start instruction, and the electromagnetic on-off valve 160 is opened to start pouring. The controller compares the accumulated pouring amount detected by the integrating flow meter with the specified pouring amount input by the remote controller, and if the accumulated pouring amount reaches the designated pouring amount, the current supply to the solenoid of the electromagnetic on-off valve 160 is cut off. Then, the electromagnetic on-off valve 160 is closed and the pouring is stopped.
In this case, if the above-described valve motor is used as the mixing valve, the specification of the pouring amount, the start of pouring, and the designation of the second hot water supply set temperature can all be performed at a desired place, for example, in the bathroom. Stopping pouring, changing the pouring amount, etc. can also be performed at a desired location.
[0052]
Further, in the above embodiment, the chasing device is an automatic chasing device, and chasing is automatically stopped. However, chasing may be manually stopped. The stop may be selectively performed.
[0053]
Moreover, although the solar hot water supply device 12 is the automatic solar hot water supply device 12 in which the solar hot water supply is automatically stopped, the solar hot water supply device 12 may be manually stopped. For example, a manual on-off valve is provided in place of the electromagnetic on-off valve and timer, and solar hot water supply is started by opening the manual on-off valve, and is ended by closing.
[0054]
Further, in each of the above embodiments, the solar hot water supply apparatus is an apparatus that heats the heat medium by solar heat and heats the water by heat exchange between the heat medium and water, but the apparatus that heats the water directly by solar heat. It is good. This type of solar water heater is equipped with a solar heat collector that collects solar heat, a hot water storage tank, and a solar circuit that connects the solar heat collector and the hot water storage tank in series. And a circulating device that heats the solar heat to make hot water, and the pouring device pours the hot water from the hot water storage tank into the pouring part. For example, the hot water storage tank is installed above the solar heat collector, and the water in the hot water tank or hot water at low temperature flows into the solar heat collector by natural circulation, and the water warmed in the solar heat collector is returned to the hot water storage tank. To be done. The configuration in which the hot water storage tank is provided above the solar heat collector and the solar circulation path constitute a natural circulation device as a circulation device. A water pipe is connected to the lower part of the hot water storage tank to supply water, hot water is discharged from a supply port provided at the upper part of the hot water storage tank, and hot water is supplied to hot water using equipment. Alternatively, the hot water storage tank is provided below the solar heat collector, and the circulation device is a forced circulation device including a circulation pump, and water or hot water in the hot water storage tank is forcibly circulated and heated in the solar heat collector.
[0055]
Further, in each of the above embodiments, the artificial heater of the automatic hot water filling device and the temperature raising device of the reheating device are separately provided, but may be shared.
[0056]
Further, the artificial heater and the temperature raising device may be a device that heats water by electricity, or may be a device that selectively performs heating by fuel such as gas and heating by electricity.
[0057]
As mentioned above, although some embodiment of this invention was described in detail, these are only illustrations and this invention was described in the above-mentioned section of [the subject which invention intends to solve, a problem-solving means, and an effect]. The present invention can be implemented in various forms including various modifications and improvements based on the knowledge of those skilled in the art.
[Brief description of the drawings]
FIG. 1 is a circuit diagram of a hot water control apparatus with a solar hot water supply apparatus according to an embodiment of the present invention.
FIG. 2 is a front view (partially cross-sectional view) showing a mixing valve of the hot water control device with solar water heater.
FIG. 3 is a circuit diagram showing a main part of a hot water control device with a solar hot water supply device according to another embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10: Hot water control apparatus 12: Solar hot water supply apparatus 20: Automatic hot water filling apparatus 222: Reheating apparatus 24: Bathtub 26: Artificial hot water supply apparatus 32: Gas heater for hot water supply 34: Hot water supply path 38: Hot water supply part 46: For reheating Gas heater 48: Circulation pump 52: Reheating circuit 68: Solar heater 70: Solar heat collector 72: Heat exchanger 74: Heat medium liquid circulation device 76: Hot water pouring device 78: Solar heat utilization device 82: Hot water storage tank 83 : Heat transfer device 90: Heat transfer medium circulating pump 100: Water mixing device 102: Hot water stopping device 104: Mixing valve 162: Constant flow valve 166: Timer 200: Controller

Claims (7)

(A) an automatic hot water filling device that automatically supplies hot water at a first hot water supply set temperature to a bathtub in a specified amount of hot water supply; (b) a temperature raising device that raises the temperature of the hot water; A hot water control device provided with at least one of a reheating device that raises the temperature of hot water in the bathtub by circulating hot water between the bath and the bath;
(C) a solar heater that heats water by solar heat to make hot water; and (d) hot water that is heated by the solar heater is part of a pipe connected to the bathtub of the hot water control device. A hot water control device with a solar hot water supply device, comprising a solar hot water supply device provided with a hot water pouring device for pouring water into a section. The hot water control device includes the automatic hot water filling device, and the automatic hot water filling device includes:
An artificial water heater that heats water with at least one of electricity and fuel and supplies hot water at a first hot water set temperature;
A hot water supply path for guiding hot water supplied from the artificial water heater to the bathtub;
If at least one of the condition that the level of hot water in the bathtub reaches the set level and the amount of hot water supplied to the bathtub reaches the set amount is satisfied, the hot water is supplied as the specified hot water amount is supplied. The hot water control device with a solar hot water supply device according to claim 1, further comprising: a hot water supply stop device for stopping the hot water supply, wherein a part of the hot water supply passage is the pouring portion. The hot water control device includes the reheating apparatus, and the reheating apparatus includes:
A recirculation circuit formed through the temperature raising device and the bathtub for raising the temperature of hot water by at least one of electricity and fuel;
The hot water control with a solar hot water supply device according to claim 1, further comprising: a circulation generation device that causes hot water circulation in the recirculation circuit, wherein a part of the recirculation circuit is the pouring unit. apparatus. The hot water pouring device includes a water mixing device that mixes water with the hot water when the temperature of the hot water of the solar heater is higher than a second hot water supply set temperature, thereby obtaining hot water with a second hot water supply set temperature. Item 4. A hot water control device with a solar water heater according to any one of Items 1 to 3. The hot water control with a solar hot water supply device according to any one of claims 1 to 4, wherein the pouring device has a pouring stop device that stops pouring when the pouring amount by the pouring device reaches a specified pouring amount. apparatus. The pouring stop device is
A flow rate control device for controlling the pouring flow rate by the pouring device to a constant flow rate;
The hot water control device with a solar hot water supply device according to claim 5, further comprising a timer capable of setting a pouring time by the hot water pouring device. (A) an automatic hot water filling device that automatically supplies hot water at a first hot water supply set temperature to a bathtub in a specified amount of hot water supply; (b) a temperature raising device that raises the temperature of the hot water; A solar heater that heats water by solar heat and turns it into an existing hot water control device that has at least one of a reheating device that raises the temperature of the hot water in the bath by circulating hot water between the bath and the bath A method of adding a solar water heater with
A solar water supply section is provided in a part of the pipe connected to the bathtub of the hot water control device, and a solar hot water supply path for introducing hot water heated by the solar heater is connected to the hot water supply section. Hot water supply device addition method.

Images