JP2004347196A - Hot water supply system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a hot water supply system capable of operating according to the needs of a user. <P>SOLUTION: A hot water connection unit 20 generates hot water with a fixed temperature at a set temperature or below the set temperature by mixing low temperature water if necessary with preheated hot water generated by a solar heat using water heater 10, and the generated hot water is introduced into a direct-heating storage type bath water heater 30. The bath water heater 30 can switch to a normal operation mode controlling combustion of a burner 32 to make the tank temperature of a hot water tank 31a to be a can body set temperature, an energy saving operation mode forcedly stopping combustion of the burner 32 during delivery of hot water with the set temperature from the hot water connection unit 20, and halfly energy saving operation mode burning the burner 32 till when the tank temperature reaches the can body set temperature even if, just after starting of operation, hot water with the set temperature is delivered from the hot water connection unit 20. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention provides a hot water supply system in which a hot water storage type water heater that heats a heat medium stored in a heat exchanger by burning a burner uses preheated hot water generated by an auxiliary heat source such as solar heat. About.
[0002]
[Prior art]
As a hot water supply system using an auxiliary heat source, for example, there is a combination of a solar heat water heater having a heat storage tank for storing preheated hot water generated by using solar heat and a hot water storage type water heater. In such a hot water supply system, the preheated hot water stored in the heat storage tank of the solar water heater can be heated while being heated by the water heater as needed, so that the hot water can be discharged from the solar water heater. Is connected via a hot water supply connection unit.
[0003]
The hot water supply connection unit does not simply send the preheated hot water stored in the heat storage tank to the water heater, but also adds low-temperature water (normal water temperature tap water or preheated hot water) to the preheated hot water sent from the heat storage tank as necessary. The hot water connection unit sends the preheated hot water sent from the heat storage tank when fully open to the hot water heater, and sends it to the low temperature water when fully closed so that mixed water (lower temperature water) can be sent to the water heater. The mixing control valve which sends out to a water heater is mounted.
[0004]
Therefore, when preheated hot water that is higher than the hot water set temperature (bath set temperature) set for the water heater is stored in the heat storage tank, the mixing control valve of the hot water supply connection unit operates the hot water supply setting sent out from the heat storage tank. Set temperature control for generating hot water at a target hot water supply temperature (bath set temperature), which is a target temperature, by appropriately mixing preheated hot water at a temperature (bath set temperature) or higher and low-temperature water, is performed by a hot water supply connection unit. The hot water having the set temperature is introduced into the water heater.
[0005]
On the other hand, if hot water at or above the hot water supply temperature (bath set temperature) is not stored in the heat storage tank, the mixing control valve of the hot water supply connection unit will cause the preheating to drop below the hot water supply set temperature (bath set temperature) sent from the heat storage tank. By appropriately mixing the hot water and the low-temperature water, fixed temperature control for generating hot water having a predetermined fixed temperature lower than the set temperature is performed, and the fixed temperature hot water generated by the hot water supply connection unit is introduced into the water heater. Then, the hot water is discharged while being heated to the set temperature by being heated by the water heater.
[0006]
[Patent Document 1]
JP 2001-108302 A
[0007]
[Problems to be solved by the invention]
By the way, the hot water storage type water heater of the direct heating system discharges all or a part of the introduced hot water through a hot water storage tank constituting a heat exchanger, and burns a burner to burn hot water. By heating the water, the hot water stored in the hot water tank is maintained at a predetermined can body setting temperature, while the hot water of the can body setting temperature sent from the hot water tank and the can body setting that bypasses the hot water tank are set. Hot water at the set temperature is generated by appropriately mixing hot water with a temperature lower than the temperature, so that in the hot water supply system as described above, the preheated hot water at or above the set temperature is stored in the heat storage tank of the solar water heater. Is stored, if the hot water supply connection unit can send out hot water at the set temperature to the water heater, the hot water at the set temperature introduced into the water heater is not heated by the heat exchanger, In other words, the hot water is directly discharged without passing through the heat exchanger (hot water storage tank), but even in such a case, if the temperature of the hot water stored in the hot water storage tank decreases due to natural heat radiation, The burner will start burning to raise the temperature to the can body set temperature.
[0008]
Therefore, users of such a hot water supply system are not fully satisfied with a situation in which fuel such as gas or oil is used to burn a burner despite hot water being supplied using solar heat. There is a possibility that the user may be suspicious that a significant energy saving effect is not exhibited.
[0009]
In addition, such a hot water supply system is generally adopted with an expectation of an energy saving effect. However, a user who wants to give priority to usability that hot water at a set temperature can be used at any time over the energy saving effect. There is a need to adapt to the needs of each user.
[0010]
Therefore, an object of the present invention is to provide a hot water supply system that can perform an operation according to a user's needs.
[0011]
Means for Solving the Problems and Their Effects
In order to solve the above-mentioned problem, the invention according to claim 1 is a direct-heating type or indirect-heating type hot-water supply type water heater in which hot water or a heat medium stored in a heat exchanger is heated by burning a burner. And a hot water supply connection unit that sends out the preheated hot water generated by the auxiliary heat source while mixing low-temperature water as needed, and when the preheated hot water is at or above the set temperature, the hot water supply connection unit sets the hot water at the set temperature. While performing the set temperature control to generate the hot water of the generated set temperature, without being introduced into the heat exchanger of the water heater, the hot water is directly discharged, the pre-heated hot water to the set temperature If the temperature is lower, hot water lower than a set temperature is introduced into the heat exchanger of the water heater, and the hot water heated to the set temperature by being heated by the water heater discharges hot water. In the hot water supply system, the hot water supply includes a normal operation mode in which combustion control of the burner is performed so that hot water or a heat medium stored in the heat exchanger reaches a can body set temperature, and basically includes the normal operation mode. The same operation as in the mode is performed, but while the hot water at the set temperature is being sent from the hot water supply connection unit, an energy saving operation mode in which the combustion of the burner is forcibly stopped is provided. It is intended to provide a hot water supply system characterized in that it can be switched as required.
[0012]
As described above, in this hot water supply system, it is possible to switch between the normal operation mode emphasizing ease of use and the energy saving operation mode emphasizing energy saving effects as necessary. By appropriately switching to a normal operation mode for a user who wants to place importance on the energy saving operation mode and to an energy saving operation mode for a user who wants to place importance on the energy saving effect, it is possible to perform an operation that meets user needs.
[0013]
Further, as in the hot water supply system of the invention according to claim 2, the water heater is configured such that the hot water or the heat medium stored in the heat exchanger has a predetermined first can body set temperature. The normal operation mode in which combustion control of the burner is performed, and basically the same operation as the normal operation mode is performed, but the combustion of the burner is forcibly performed while hot water having a set temperature is sent from the hot water supply connection unit. In addition to the first energy-saving operation mode in which the operation is stopped, basically the same operation as in the first energy-saving operation mode is performed, but while the tapping is stopped, the hot water or the heat medium stored in the heat exchanger is stopped. Is provided with a second energy-saving operation mode for performing combustion control of the burner so that the second set body temperature is lower than the first set body temperature, and these operation modes are changed as necessary. Can be switched By doing so, the user can improve the energy saving effect as compared with the first energy saving operation mode, that is, the second energy saving operation in which the burner combustion time is shorter than in the first energy saving operation mode. Since the mode can be selected, it is possible to perform an operation more suitable for the needs of the user.
[0014]
However, as in the above-described second energy saving operation mode, the hot water or the heat medium stored in the heat exchanger becomes the second can body setting temperature lower than the first can body setting temperature during the stop of hot water supply. Thus, when the combustion control of the burner is performed, when the hot water supply connection unit switches from the set temperature control to the fixed temperature control, the hot water or the heat medium stored in the heat exchanger is raised to the first can set temperature. Since a certain amount of time is required for heating, the first energy saving operation mode is basically replaced with the second energy saving operation mode as in the hot water supply system according to the third aspect of the present invention. The same operation is performed, but immediately after the start of the operation, even if hot water at a set temperature is sent out from the hot water supply connection unit, the hot water or the heat medium stored in the heat exchanger is discharged to the first can body. Burner until set temperature While the hot water is stopped, the combustion control of the burner is performed so that the hot water or the heat medium stored in the heat exchanger has a second can body set temperature lower than the first can body set temperature. If the second energy-saving operation mode to be performed is provided, at least at the start of operation, the hot water or the heat medium stored in the heat exchanger is once heated to the first can body set temperature. Even if the temperature of the hot water or heat medium stored in the exchanger does not drop extremely and the hot water supply connection unit switches from the set temperature control to the fixed temperature control, the temperature can quickly reach the first can set temperature. The temperature can be raised.
[0015]
Further, when a direct-heating or indirect-heating hot water storage type water heater having a reheating function or a heating function is used, if the operation is performed in the above-described energy-saving operation mode, hot water or heat Since the additional heating function and the heating function may not be sufficiently exhibited with the decrease in the temperature of the medium, the above-described normal operation mode and energy-saving operation mode are provided as in the hot water supply system according to the fourth aspect of the present invention. In addition to the above, basically the same operation as the energy-saving operation mode is performed, but immediately after the start of the operation, even if hot water at a set temperature is sent from the hot water supply connection unit, the heat exchanger is A semi-energy-saving operation mode for burning the burner until the stored hot water or heat medium reaches the can body set temperature is provided, and these operation modes can be switched as necessary. It is preferable that the operation mode is switched to the semi-energy-saving operation mode. At least at the start of operation, the hot water or the heat medium stored in the heat exchanger is once heated to the can body set temperature. Therefore, the temperature of the hot or cold water or the heat medium stored in the heat exchanger does not extremely decrease, and even when the reheating operation or the heating operation is performed, the functional deterioration can be minimized.
[0016]
If a direct or indirect hot water storage type water heater with an automatic hot water filling function and a reheating function for the bathtub is used, reheating with the automatic hot water mode set It is assumed that the operation is performed in a state in which the bather is immersed in the bathtub. In such a situation, the drop in the reheating function due to the drop in the temperature of the hot water or heat medium in the heat exchanger has a large effect. As in the hot water supply system of the present invention, in addition to the above-described normal operation mode and energy saving operation mode, basically the same operation as the energy saving operation mode is performed, but when the automatic hot water filling mode is set. Even when hot water at a set temperature is being sent from the hot water supply connection unit, the burner of the burner is set so that hot water or a heat medium stored in the heat exchanger has a can body set temperature. It is desirable to provide a semi-energy saving operation mode for performing burning control, and to be able to switch between these operation modes as necessary. If the operation mode is switched to the semi-energy saving operation mode, at least automatic hot water Since the hot water or heat medium stored in the heat exchanger is maintained at the can body set temperature while the tension mode is set, if the bather performs the reheating operation while immersed in the bathtub In addition, the reheating function can be surely exhibited.
[0017]
Further, as in the hot water supply system of the invention according to claim 6, in addition to the above-described normal operation mode and energy saving operation mode, basically the same operation as the energy saving operation mode is performed. Even when hot water at a set temperature is sent from the hot water supply connection unit, a first semi-inverting method for burning a burner until the hot water or heat medium stored in the heat exchanger reaches the can body set temperature. The energy operation mode and basically the same operation as the energy saving operation mode are performed. However, when the automatic hot water filling mode is set, the hot water at the set temperature is sent from the hot water supply connection unit. Also, a second semi-energy-saving operation mode for controlling the combustion of the burner so that the hot water or the heat medium stored in the heat exchanger becomes the can body set temperature is provided. The rolling mode, if necessary, it is also possible to keep the can be switched.
[0018]
Further, like the hot water supply system of the invention according to claim 7, it is also possible to automatically switch the operation mode according to the season. Specifically, as in the hot water supply system of the invention according to claim 8, If the water heater has a normal operation mode and an energy saving operation mode, the normal operation mode is switched to the normal operation mode in winter and the energy saving operation mode is automatically switched in summer and the middle period. When the water heater has a normal operation mode, a first energy-saving operation mode, and a second energy-saving operation mode, the normal operation mode in winter, the second energy-saving operation mode in summer, and the intermediate operation in The water heater can be automatically switched to the first energy saving operation mode, or the water heater can be switched to the normal operation mode and the energy saving operation mode as in the hot water supply system of the invention according to claim 10. If having a mode and half energy saving operation mode, in winter the normal operation mode, summer energy-saving operation mode, half may be to automatically switch to the half energy saving operation mode.
[0019]
In addition, when the operation mode is automatically switched according to the season, the season is determined based on the outside air temperature as in the hot water supply system according to the eleventh aspect of the present invention, or the hot water supply system according to the twelfth aspect of the present invention is provided. If the low-temperature water supplied to the hot-water supply connection unit is tap water, as in a system, the season can be determined based on the low-temperature water supply temperature.
[0020]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments will be described with reference to the drawings. FIG. 1 shows a schematic configuration of a hot water supply system 1 using solar heat as an auxiliary heat source. As shown in FIG. 1, the hot water supply system 1 includes a solar water heater 10 and a water heater with a bath reheating function (hereinafter, referred to as a bath water heater) 30 having an automatic hot water filling function for a bathtub in addition to a hot water supply function. Are connected via the hot water supply connection unit 20, and the preheated hot water generated by the solar water heater 10 is sent to the bath water heater 30 via the hot water supply connection unit 20.
[0021]
The solar water heater 10 includes a solar heat collector 11 and a closed heat storage tank 14. The lower end of the heat storage tank 14 is connected to a water supply pipe 15 for supplying low-temperature water. A preheating hot water supply pipe 16 for sending the stored preheating hot water to the hot water supply connection unit 20 is connected to the upper end.
[0022]
In the solar heat collector 11, a circulation path of a heat medium is formed by a solar pipe 12 connecting an inlet side and an outlet side, and the solar pipe 12 is partially introduced into the heat storage tank 14. It has a heat exchange section 13. Therefore, the heat medium heated by the solar heat collector 11 is guided into the heat storage tank 14 through the solar pipe 12, and exchanges heat with the water in the heat storage tank 14 by the heat exchange unit 13, so that the heat storage tank 14 is heated. Preheated hot water is generated inside.
[0023]
As shown in the figure, the hot water supply connection unit 20 converts low-temperature water supplied through a water supply pipe 22 and preheated hot water supplied from a heat storage tank 14 through a preheated hot water supply pipe 16 as necessary. The preheated hot water sent from the heat storage tank 14 is supplied through a hot water pipe 23 connected to the outlet side of the mixing control valve 21 as it is or appropriately mixed with low-temperature water. The hot water is introduced into the bath water heater 30, and the hot water is supplied through the bath water heater 30. In the fully opened state, the mixing control valve 21 sends out only the preheated hot water supplied from the heat storage tank 14 via the preheated hot water supply pipe 16 to the bath water heater 30, and conversely, in the fully closed state, the water supply pipe 22 Only low-temperature water supplied through the water heater 30 is sent to the bath water heater 30.
[0024]
In the hot water supply connection unit 20, a water supply pipe 22 branched from the water supply pipe 15 and connected to the low temperature water inlet side of the mixing control valve 21 and a hot water pipe 23 connected to the outlet side of the mixing control valve 21 are connected to each other. Is provided with a diaphragm-type solenoid valve 25 that shuts off the flow path of the bypass pipe 24 in an energized state.
[0025]
Further, the temperature of the preheated hot water introduced into the hot water supply connection unit 20 from the heat storage tank 14 (hereinafter referred to as the preheated hot water temperature) is provided in the preheated hot water supply pipe 16, the water supply pipe 22, and the hot water pipe 23 connected to the mixing control valve 21. ) Preheating hot water temperature sensor 26 for detecting Ts, low temperature water temperature sensor 27 for detecting the temperature of low temperature water introduced into hot water connection unit 20 (hereinafter referred to as low temperature water) Tw, and hot water connection unit 20 A mixed hot water temperature sensor 28 for detecting the temperature (hereinafter, referred to as the mixed hot water temperature) To of the hot water sent from the apparatus is provided.
[0026]
The bath water heater 30 is a direct heating type hot water storage type hot water supply device, and includes a heat exchanger 31 in which a reheating coil 31b is disposed in a hot water storage tank 31a, a burner 32 for heating the hot water storage tank 31a, and a hot water supply. Hot water supplied from the connection unit 20 is supplied to the hot water supply main pipe 33a through the hot water storage tank 31a, hot water supply bypass pipe 33b connected to the hot water supply main pipe 33a so as to bypass the hot water storage tank 31a, and stored in the bathtub. A reheating pipe 34 for circulating hot water through a reheating coil 31b of the heat exchanger 31 by a circulation pump (not shown) is provided.
[0027]
In the hot water supply main pipe 33a, a mixing control valve 35 is installed at a junction with the hot water supply bypass pipe 33b, and at the upstream side of the branch of the hot water supply bypass pipe 33b, an incoming water temperature and an incoming flow rate (outflow flow rate) are detected. The incoming water temperature sensor 36 and the flow rate sensor 37 are provided with a heat exchanger temperature sensor 38 for detecting the heat exchanger temperature and a hot water temperature sensor 39 for detecting the hot water temperature on the upstream and downstream sides of the junction of the hot water supply bypass pipe 33b. The heat exchanger 31 is provided with an in-bath temperature sensor 31c for detecting the temperature of hot water in the hot water storage tank 31a. When the mixing control valve 35 is fully opened, all of the hot water introduced from the hot water supply connection unit 20 into the bath water heater 30 is discharged through the heat exchanger 31. When the mixing control valve 35 is fully closed, the hot water connection is not performed. All of the hot water introduced from the unit 20 into the bath water heater 30 is discharged through the hot water supply bypass pipe 33b without passing through the heat exchanger 31.
[0028]
The hot water supply connection unit 20 and the bath water heater 30 are equipped with controllers 20a and 30a that can communicate with each other via a serial interface, and the operation remote controller 40 of the bath water heater 30 is provided with a serial interface. A controller 40a that can mutually communicate with the controller 30a of the bath water heater 30 is mounted, and the controllers 20a, 30a, and 40a comprehensively control the operation of the hot water supply system 1 while cooperating with each other. ing.
[0029]
The controller 30a of the bath water heater 30 includes a hot water set temperature Te, a bath set temperature Tb and an operation switch signal set by the operation remote controller 40, an operation switch signal, an incoming water temperature sensor 36, a heat exchanger temperature sensor 38, a hot water temperature sensor 39, The temperature detection signal from the temperature sensor 31c and the flow rate detection signal from the flow rate sensor 37 are input, and the temperature in the tank detected by the temperature sensor 31c in the tank is set to the can body set temperature (for example, 80 ° C.). ), While controlling the combustion of the burner 32 and taking into account the incoming water temperature detected by the incoming water temperature sensor 36 and the heat exchanger temperature detected by the heat exchanger temperature sensor 38, Open / close control of the mixing control valve 35 so that the detected hot water temperature becomes the hot water supply set temperature Te or the bath set temperature Tb. It is made as to do. In addition, the combustion control of the burner 32 will be described in more detail. When there is a tap water with a minimum operating flow rate or more, the combustion is started at a temperature of 81 ° C. or less in the tank, and stopped when the temperature in the tank is 85 ° C. or more. However, when the hot water is not discharged or the hot water volume is lower than the minimum operation flow rate, the combustion starts at a temperature of 75 ° C or less in the tank, and stops the combustion at a temperature of 85 ° C or more in the tank. I have.
[0030]
Further, the controller 20a of the hot water supply connection unit 20 receives temperature detection signals from the preheating hot water temperature sensor 26, the low temperature water temperature sensor 27, and the mixed hot water temperature sensor 28, and also sets the hot water setting temperature Te and the bath setting temperature Tb. An operation switch signal, a burner combustion signal, a water flow signal that is turned on when the flow rate detected by the flow rate sensor 37 is equal to or higher than the minimum operating flow rate, and the like are transmitted from the controller 30a of the bath water heater 30. The controller 20a of the hot water supply connection unit 20 controls the opening and closing of the mixing control valve 21 based on the detection signal, the water flow signal, the temperature detection signal, the hot water set temperature Te and the bath set temperature Tb.
[0031]
First, when the temperature of the preheated hot water sent from the heat storage tank 14, that is, the preheated hot water temperature Ts detected by the preheated hot water temperature sensor 26 is higher than the hot water supply set temperature Te or the bath set temperature Tb, low-temperature water is appropriately mixed. As a result, hot water at the hot water supply set temperature Te or the bath set temperature Tb can be supplied, so the controller 20a of the hot water supply connection unit 20 uses the temperature of the hot water sent from the hot water supply connection unit 20, that is, the mixed hot water temperature sensor 28. The hot water supply set temperature control for controlling the mixing control valve 21 is performed so that the detected mixed hot water temperature To becomes the hot water supply set temperature Te or the bath set temperature Tb.
[0032]
On the other hand, if the preheated hot water temperature Ts is lower than the hot water set temperature Te or the bath set temperature Tb, hot water at the hot water set temperature Te or the bath set temperature Tb cannot be supplied unless heated by the bath water heater 30. When the bath water heater 30 is heated, the hot water set temperature Te or the bath set temperature Tb is not less than 60 ° C. and less than 60 ° C. 35 so that the hot water set temperature Te or the bath set temperature Tb can be reliably generated. The temperature is divided into cases of not less than ℃ and less than 35 ° C. Hot water of a fixed temperature Tf of 45 ° C for 60 ° C or more, 30 ° C for less than 60 ° C and 35 ° C or more, and 25 ° C for less than 35 ° C is sent out, respectively. As described above, the fixed temperature control for mixing the low-temperature water by adjusting the opening of the mixing control valve 21 is performed.
[0033]
Therefore, when preheated hot water having a temperature equal to or higher than the set hot water temperature Te or the set bath temperature Tb is stored in the heat storage tank 14, the hot water having the set hot water temperature Te or the set bath temperature Tb sent from the hot water connection unit 20 is used as the bath water heater. The hot water having the hot water set temperature Te or the hot bath set temperature Tb introduced into the bath water heater 30 and introduced into the bath water heater 30 flows out through the hot water supply bypass pipe 33b without passing through the heat exchanger 31.
[0034]
In addition, the hot water supply system 1 has three operation modes such as a normal operation mode emphasizing usability, an energy saving operation mode emphasizing energy saving effects, and a semi-energy saving operation mode emphasizing both usability and energy saving effects. Thus, the user can appropriately switch between the three operation modes using the operation remote controller 40.
[0035]
In each of the three operation modes described above, the combustion control of the burner 32 in the bath water heater 30 is only partially different, and the opening and closing control of the mixing control valve 35 and the opening and closing of the mixing control valve 21 in the hot water supply connection unit 20 are all different. Since there is no difference in the control, the combustion control of the burner 32 in each operation mode will be described below.
[0036]
(Normal operation mode)
In this operation mode, as described above, irrespective of whether or not hot water of the hot water set temperature Te or the bath set temperature Tb is sent from the hot water supply connection unit 20, that is, whether the water needs to be heated by the bath water heater 30. Irrespective of whether or not it is, the combustion control of the burner 32 is performed such that the temperature in the hot water storage tank 31a detected by the in-bath temperature sensor 31c becomes the can body set temperature (for example, 80 ° C.). Therefore, if the normal operation mode is set, the tank temperature is always maintained at the can body set temperature, and the predetermined reheating capacity is ensured even when the reheating operation is performed. When the hot water supply unit 20 is switched from the set temperature control to the fixed temperature control, hot water at the hot water supply set temperature Te or the bath set temperature Tb can be reliably generated, and the usability is good.
[0037]
[Energy saving operation mode]
In this operation mode, basically, similarly to the normal operation mode described above, the combustion control of the burner 32 is performed so that the temperature in the hot water storage tank 31a becomes the can body set temperature. As described above, while hot water at the hot water set temperature Te or the bath set temperature Tb is being sent from the hot water connection unit 20, that is, while the bath water heater 30 is flowing out through the hot water supply bypass pipe 33b without heating. Is forcibly stopping the combustion of the burner 32. Therefore, while hot water is supplied using solar heat, the burner 32 of the bath water heater 30 does not burn, and a sufficient energy saving effect can be obtained for the hot water supply system 1 using such an auxiliary heat source. It is possible to give the user a sense of security that the user is exerted. On the other hand, if the operation mode is set to the energy saving operation mode, the temperature in the tank may decrease due to natural heat radiation during tapping. In this case, the burner 32 may start burning immediately after stopping tapping. As described above, in the state where the tapping is stopped, the burner 32 does not start burning unless the temperature in the tank is reduced to 75 ° C. or less. It does not happen.
[0038]
[Semi-energy saving operation mode]
In the above-described energy-saving operation mode, the temperature in the tank may decrease due to natural heat dissipation during tapping, and in such a state, when the additional heating operation is performed, the additional heating capability can be sufficiently exhibited. In this operation mode, the amount of hot water is basically equal to or more than the minimum operation flow rate, and the hot water at the hot water supply set temperature Te or the bath set temperature Tb is supplied from the hot water supply connection unit 20 in basically the same manner as in the energy saving operation mode described above. While the hot water is being supplied, that is, while the bath water heater 30 is tapping out of the hot water supply pipe 33b without heating, the combustion of the burner 32 is forcibly stopped. Even when the hot water set temperature Te or the bath set temperature Tb is sent from the unit 20, the burner 32 is burned until the tank temperature reaches the can set temperature. It has become to so that. Therefore, if the operation mode is set to the semi-energy-saving operation mode, at least at the start of operation, the temperature of the hot water in the hot water storage tank 31a is once increased to the can body set temperature, so that the temperature in the tank is extremely lowered. Therefore, even when the reheating operation is performed, the reduction of the reheating capability can be minimized.
[0039]
In the above-described embodiment, three operation modes of the normal operation mode, the energy-saving operation mode, and the semi-energy-saving operation mode are provided, and the user can appropriately switch these operation modes. However, the present invention is not limited to this. For example, two operation modes of a normal operation mode and an energy saving operation mode may be switched, and two energy saving operation modes having different energy saving effects may be provided. It is possible.
[0040]
When two energy-saving operation modes having different energy-saving effects are provided, for example, the above-described energy-saving operation mode is set as a first energy-saving operation mode. It is conceivable to provide a high second energy-saving operating mode. For example, as the second energy-saving operation mode, basically the same operation as the first energy-saving operation mode is performed. However, during the stop of hot water supply, the temperature in the bath is reduced to the normal operation mode or the first energy-saving operation mode. When the combustion control of the burner 32 is performed so that the second can body setting temperature (for example, 60 ° C.) is lower than the first can body setting temperature (80 ° C.), the first energy saving is achieved. Since the burning time of the burner 32 is shorter than in the operation mode, the energy saving effect can be enhanced.
[0041]
However, as in the second energy saving operation mode, when the combustion control of the burner 32 is performed so that the temperature in the tank becomes the second set body temperature (60 ° C.) during the stop of hot water supply. When the hot water supply connection unit 20 switches from the set temperature control to the fixed temperature control, it takes some time to raise the temperature in the bath to the first can body set temperature (80 ° C.). Although the same operation as the second energy-saving operation mode is performed, immediately after the start of the operation, even if hot water of the hot water set temperature Te or the bath set temperature Tb is sent from the hot water connection unit 20, If the burner 32 is ignited until the internal temperature reaches the first canister set temperature (80 ° C.), at least at the start of operation, the internal temperature of the tank once becomes the first canister set temperature (80 ° C.). ℃) Even when the temperature in the tank does not drop extremely and the hot water supply connection unit 20 switches from the set temperature control to the fixed temperature control, the temperature in the tank is quickly reduced to the first can set temperature (80 ° C.). The temperature can be raised.
[0042]
In addition, it is assumed that the reheating operation in the state where the automatic hot water filling mode is set is often performed in a state where the bather is immersed in the bathtub, and in such a situation, the temperature in the hot water storage tank 31a decreases. If the additional heating capacity is reduced as a result, the bath temperature may not be able to be raised while the bather is immersed in the bathtub. Therefore, instead of the above semi-energy saving operation mode, for example, When the water heater 30 is set to the automatic hot water filling mode, even if hot water at the hot water set temperature Te or the bath set temperature Tb is sent from the hot water supply connection unit 20, the temperature in the bath is the can set temperature. It is also possible to adopt a semi-energy-saving operation mode for controlling the combustion of the burner 32 so that the normal operation mode and the energy-saving operation mode are described above. It is also possible to have to be able to switch the two four operating modes plus half energy saving operation mode as appropriate.
[0043]
In the above-described embodiment, the operation mode is switched by the user operating the operation remote controller 40. However, the present invention is not limited to this. For example, the controller 30a of the bath water heater 30 or the hot water supply It is also possible to mount a DIP switch or a non-volatile memory on the board of the controller 20a of the connection unit 20 so that the installer or maintenance man can switch the operation mode according to the user's intention.
[0044]
In the above-described embodiment, the user manually switches the operation mode.For example, the normal operation mode in winter, the energy-saving operation mode in summer, the semi-energy-saving operation mode in the intermediate period, and so on. In addition, when there are only two operation modes, a normal operation mode and an energy-saving operation mode, the energy-saving effect is provided in the normal operation mode in winter, the energy-saving operation mode in summer and the intermediate period, and in addition to the normal operation mode. The first and second energy saving operation modes different from each other, the normal operation mode in winter, the second energy saving operation mode with high energy saving effect in summer, and the second energy saving operation mode with low energy saving effect in the middle period. The operation mode may be automatically switched according to the season, such as the energy saving operation mode of 1. In that case, an outside air temperature sensor that detects the outside air temperature is installed in the bath water heater 30 so that the season can be determined based on the outside air temperature detected by the outside air temperature sensor, or the low temperature supplied to the hot water connection unit 20. When the water is tap water, the season can be determined based on the low-temperature water temperature Tw detected by the low-temperature water temperature sensor 27.
[0045]
Further, in the above-described embodiment, the case where the bath water heater 30 having the hot water supply function (automatic hot water filling function) and the additional heating function is used has been described. However, the present invention is not limited to this, and has only the hot water supply function. It is also possible to use a water heater, a water heater with a hot water supply function and a heating function, and a bath water heater with a hot water supply function, a reheating function and a heating function, and the heating method of the hot water supply system is limited to the direct heating method. Instead, an indirect heating method may be used. In particular, in the case of an indirect heating type water heater having a hot water supply function and a heating function, instead of the hot water storage tank 31a, a heat exchanger including a storage tank for storing a heat medium such as antifreeze circulated and supplied in a heating system is used. Adopted.
[0046]
Further, in the above-described embodiment, when the preheating hot water temperature Ts is lower than the hot water set temperature Te or the bath set temperature Tb, the hot water connection unit 20 appropriately mixes low-temperature water to generate hot water having a fixed temperature lower than the set temperature. However, the present invention is not limited to this. If the preheated hot water temperature Ts is lower than the hot water supply set temperature Te or the bath set temperature Tb, the preheating is performed without mixing low-temperature water. Hot water may be directly introduced into the bath water heater 30, which is more advantageous in terms of energy saving.
[0047]
However, in order to suppress the heat radiation from the hot water storage tank 31a, when the temperature inside the hot water storage tank 31a is reduced to near the hot water supply set temperature Te or the bath set temperature Tb, the above-described fixed temperature control is employed. In other words, if hot water having a fixed temperature somewhat lower than the set temperature is sent to the bath water heater 30, the burning time of the burner 32 becomes longer, but the on / off cycle of combustion becomes longer, so that it is frequently performed. It is possible to obtain an effect that the odor and sound at the time of ignition are slightly reduced without burning on / off.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram showing one embodiment of a hot water supply system according to the present invention.
[Explanation of symbols]
1 Hot water supply system
10 Solar water heater
14 Thermal storage tank
15 Water pipe
20 Hot water supply connection unit
20a controller
21 Mixing control valve
22 Water pipe
23 Hot water piping
24 Bypass pipe
25 Solenoid valve
26 Preheating hot water temperature sensor
27 Low temperature water temperature sensor
28 Mixed hot water temperature sensor
30 bath water heater
30a controller
31 heat exchanger
31a Hot water storage tank (storage tank)
31b Reheating coil
31c Temperature sensor in bath
32 burners
33a Hot water supply main piping
33b Hot water supply bypass pipe
34 Additional firing piping
35 Mixing control valve
36 Input water temperature sensor
37 Flow sensor
38 Heat exchanger temperature sensor
39 Hot water temperature sensor
40 Remote control
40a controller

Claims (12)

A hot water storage device of a direct heating type or an indirect heating type, in which hot water or a heat medium stored in the heat exchanger is heated by burning a burner,
A hot water supply connection unit that sends out premixed hot water generated by the auxiliary heat source while mixing low-temperature water as necessary,
When the preheated hot water is equal to or higher than the set temperature, the generated hot water of the set temperature is introduced into the heat exchanger of the water heater while the hot water supply connection unit performs set temperature control for generating hot water of the set temperature. Without having to take a bath directly.
When the preheated hot water is lower than the set temperature, hot water having a temperature lower than the set temperature is introduced into the heat exchanger of the water heater, and the hot water heated to the set temperature by being heated by the water heater discharges hot water. Hot water supply system,
The water heater,
A normal operation mode for performing combustion control of the burner so that hot water or a heat medium stored in the heat exchanger has a predetermined can body set temperature,
It basically performs the same operation as the normal operation mode, but has an energy saving operation mode in which the combustion of the burner is forcibly stopped while hot water of a set temperature is being sent from the hot water supply connection unit. ,
A hot water supply system characterized in that these operation modes can be switched as required. A hot water storage device of a direct heating type or an indirect heating type, in which hot water or a heat medium stored in the heat exchanger is heated by burning a burner,
A hot water supply connection unit that sends out premixed hot water generated by the auxiliary heat source while mixing low-temperature water as necessary,
When the preheated hot water is equal to or higher than the set temperature, the generated hot water of the set temperature is introduced into the heat exchanger of the water heater while the hot water supply connection unit performs set temperature control for generating hot water of the set temperature. Without having to take a bath directly.
When the preheated hot water is lower than the set temperature, hot water having a temperature lower than the set temperature is introduced into the heat exchanger of the water heater, and the hot water heated to the set temperature by being heated by the water heater discharges hot water. Hot water supply system,
The water heater,
A normal operation mode for controlling the combustion of the burner so that the hot water or the heat medium stored in the heat exchanger has a predetermined first can body set temperature;
Basically, the same operation as the normal operation mode is performed, but a first energy-saving operation mode in which combustion of the burner is forcibly stopped while hot water of a set temperature is being sent from the hot water supply connection unit. ,
Basically, the same operation as in the first energy-saving operation mode is performed, but while the tapping is stopped, the hot water or the heat medium stored in the heat exchanger is lower than the first can set temperature in the second can. A second energy-saving operation mode for performing combustion control of the burner so as to reach a body set temperature,
A hot water supply system characterized in that these operation modes can be switched as required. A hot water storage device of a direct heating type or an indirect heating type, in which hot water or a heat medium stored in the heat exchanger is heated by burning a burner,
A hot water supply connection unit that sends out premixed hot water generated by the auxiliary heat source while mixing low-temperature water as necessary,
When the preheated hot water is equal to or higher than the set temperature, the generated hot water of the set temperature is introduced into the heat exchanger of the water heater while the hot water supply connection unit performs set temperature control for generating hot water of the set temperature. Without having to take a bath directly.
When the preheated hot water is lower than the set temperature, hot water having a temperature lower than the set temperature is introduced into the heat exchanger of the water heater, and the hot water heated to the set temperature by being heated by the water heater discharges hot water. Hot water supply system,
The water heater,
A normal operation mode for controlling the combustion of the burner so that the hot water or the heat medium stored in the heat exchanger has a predetermined first can body set temperature;
Basically, the same operation as the normal operation mode is performed, but a first energy-saving operation mode in which combustion of the burner is forcibly stopped while hot water of a set temperature is being sent from the hot water supply connection unit. ,
Basically, the same operation as in the first energy saving operation mode is performed, but immediately after the start of the operation, even if hot water at a set temperature is sent from the hot water supply connection unit, the hot water is stored in the heat exchanger. The burner is burned until the supplied hot water or heat medium reaches the first can body set temperature, and while hot water is stopped, the hot water or heat medium stored in the heat exchanger becomes lower than the first can body set temperature. A second energy-saving operation mode for performing combustion control of the burner so as to have a low second can body set temperature,
A hot water supply system characterized in that these operation modes can be switched as required. With a reheating function or a heating function, hot water or a heat medium stored in a heat exchanger, a direct heating type or indirect heating type hot water storage type water heater that heats by burning a burner,
A hot water supply connection unit that sends out premixed hot water generated by the auxiliary heat source while mixing low-temperature water as necessary,
When the preheated hot water is equal to or higher than the set temperature, the generated hot water of the set temperature is introduced into the heat exchanger of the water heater while the hot water supply connection unit performs set temperature control for generating hot water of the set temperature. Without having to take a bath directly.
When the preheated hot water is lower than the set temperature, hot water having a temperature lower than the set temperature is introduced into the heat exchanger of the water heater, and the hot water heated to the set temperature by being heated by the water heater discharges hot water. Hot water supply system,
The water heater,
A normal operation mode for performing combustion control of the burner so that hot water or a heat medium stored in the heat exchanger has a predetermined can body set temperature,
Basically, the same operation as the normal operation mode is performed, but an energy saving operation mode in which combustion of the burner is forcibly stopped while hot water having a set temperature is being sent from the hot water supply connection unit,
Basically, the same operation as in the energy saving operation mode is performed, but immediately after the start of the operation, even if hot water of a set temperature is sent from the hot water supply connection unit, the hot water stored in the heat exchanger is Or a semi-energy saving operation mode in which the burner burns until the heating medium reaches the can body set temperature,
A hot water supply system characterized in that these operation modes can be switched as required. A hot water storage device of a direct heating system or an indirect heating system for heating hot water or a heating medium stored in a heat exchanger by burning a burner, which has an automatic hot water filling function and a reheating function for a bathtub,
A hot water supply connection unit that sends out premixed hot water generated by the auxiliary heat source while mixing low-temperature water as necessary,
When the preheated hot water is equal to or higher than the set temperature, the generated hot water of the set temperature is introduced into the heat exchanger of the water heater while the hot water supply connection unit performs set temperature control for generating hot water of the set temperature. Without having to take a bath directly.
When the preheated hot water is lower than the set temperature, hot water having a temperature lower than the set temperature is introduced into the heat exchanger of the water heater, and the hot water heated to the set temperature by being heated by the water heater discharges hot water. Hot water supply system,
The water heater,
A normal operation mode for performing combustion control of the burner so that hot water or a heat medium stored in the heat exchanger has a predetermined can body set temperature,
Basically, the same operation as the normal operation mode is performed, but an energy saving operation mode in which combustion of the burner is forcibly stopped while hot water having a set temperature is being sent from the hot water supply connection unit,
Basically, the same operation as the energy-saving operation mode is performed. However, when the automatic hot water filling mode is set, even when hot water at a set temperature is sent from the hot water supply connection unit, A semi-energy-saving operation mode for performing combustion control of the burner so that hot water or a heat medium stored in the exchanger has a can body set temperature,
A hot water supply system characterized in that these operation modes can be switched as required. A hot water storage device of a direct heating system or an indirect heating system for heating hot water or a heating medium stored in a heat exchanger by burning a burner, which has an automatic hot water filling function and a reheating function for a bathtub,
A hot water supply connection unit that sends out premixed hot water generated by the auxiliary heat source while mixing low-temperature water as necessary,
When the preheated hot water is equal to or higher than the set temperature, the generated hot water of the set temperature is introduced into the heat exchanger of the water heater while the hot water supply connection unit performs set temperature control for generating hot water of the set temperature. Without having to take a bath directly.
When the preheated hot water is lower than the set temperature, hot water having a temperature lower than the set temperature is introduced into the heat exchanger of the water heater, and the hot water heated to the set temperature by being heated by the water heater discharges hot water. Hot water supply system,
The water heater,
A normal operation mode for performing combustion control of the burner so that hot water or a heat medium stored in the heat exchanger has a predetermined can body set temperature,
Basically, the same operation as the normal operation mode is performed, but an energy saving operation mode in which combustion of the burner is forcibly stopped while hot water having a set temperature is being sent from the hot water supply connection unit,
Basically, the same operation as in the energy saving operation mode is performed, but immediately after the start of the operation, even if hot water of a set temperature is sent from the hot water supply connection unit, the hot water stored in the heat exchanger is Or a first semi-energy-saving operation mode in which the burner is burned until the heat medium reaches the can body set temperature;
Basically, the same operation as the energy-saving operation mode is performed. However, when the automatic hot water filling mode is set, even when hot water at a set temperature is sent from the hot water supply connection unit, A second semi-energy-saving operation mode for performing combustion control of the burner so that hot water or a heat medium stored in the exchanger has a can body set temperature,
A hot water supply system characterized in that these operation modes can be switched as required. The hot water supply system according to claim 1, 2, 3, 4, 5, or 6, wherein the operation mode is automatically switched according to a season. 2. The hot water supply system according to claim 1, wherein the hot water supply system is automatically switched to a normal operation mode in winter and to an energy saving operation mode in summer and intermediate periods. 4. The hot water supply system according to claim 2, wherein a normal operation mode is set in winter, a second energy-saving operation mode is set in summer, and a first energy-saving operation mode is set in an intermediate period. The hot water supply system according to claim 4 or 5, wherein the hot water supply system is automatically switched to a normal operation mode in winter, an energy-saving operation mode in summer, and a semi-energy-saving operation mode in an intermediate period. 11. The hot water supply system according to claim 7, wherein the season is determined based on the outside air temperature. 11. The hot water supply system according to claim 7, wherein when the low-temperature water supplied to the hot-water supply connection unit is tap water, the season is determined based on the low-temperature water supply temperature. 12.

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