JP3196846U - Water heater - Google Patents

Abstract

There is provided a hot water supply apparatus that can shorten the hot water waiting time at the start of hot water supply, has a very simple apparatus configuration, is inexpensive to manufacture, and can be configured using an existing hot water heater. A hot water supply apparatus includes a water heater 10 and a hot water inlet 15a piped to a hot water outlet 10b of the water heater. A double-structured warmer 15. At the start of hot water supply, the hot water stored in the warmer is not supplied from the hot water heater, so that the hot water waiting time is greatly shortened. Moreover, it is only possible to connect a heat insulator between the hot water heater and the hot water tap, and it can be configured using an existing hot water heater. [Selection] Figure 1

Description

  The present invention relates to a hot water supply apparatus using an existing or new hot water heater, and more particularly to a hot water supply apparatus capable of shortening the supply time of cold water at the start of hot water supply.

  As a technique for shortening the supply time of cold water at the start of hot water supply, that is, the hot water waiting time at the start of hot water supply, Patent Document 1 discloses a hot water storage tank, an immediate hot water tank installed near the hot water tap and storing tap water, There is described a hot water system provided with exhaust heat recovery means for recovering exhaust heat from a heat generation source as hot water in a hot water storage tank, and a hot water circulation circuit for exchanging heat between the hot water in the hot water storage tank and the stored water in the hot water tank. Yes. When the hot water storage temperature in the immediate hot water tank falls below a certain temperature, the immediate hot water tank is heated via the heat exchanger, so hot water at the set temperature is supplied immediately at the start of hot water supply, and the hot water waiting time is shortened.

  Patent Document 2 discloses that hot water that has flowed out of the hot water storage tank at the start of hot water supply reaches the connecting portion with the mixing path based on the piping capacity of the tank hot water supply path and the flow rate of hot water flowing through the tank hot water supply path. A hot water supply system is described in which the timing is specified and the mixer is adjusted so that the temperature of the hot water supplied to the hot water use location becomes the set temperature. Thereby, it becomes possible to supply hot water having a set temperature in a short time from the start of hot water supply.

JP 2007-303699 A JP 2009-222326 A

  However, according to the system described in Patent Document 1, it is necessary to measure the hot water temperature in the hot water tank or the hot water storage tank, and to perform control such as heating the hot water tank when it is determined that the temperature is lower than a certain temperature. The apparatus configuration becomes very complicated, and the installation cost of the hot water supply apparatus becomes expensive. In addition, this technology cannot be applied by using an existing general water heater as it is.

  On the other hand, according to the system described in Patent Document 2, it is necessary to specify the hot water arrival timing on the basis of the pipe capacity and the hot water flow rate, and to adjust the mixer. Cost becomes expensive. In addition, this technology cannot be applied by using an existing general water heater as it is.

  Accordingly, the present invention solves the above-mentioned problems of the prior art, and is a hot water supply device capable of reducing the hot water waiting time at the start of hot water supply, having a very simple device configuration and low manufacturing cost. An object is to provide a hot water heater.

  Another object of the present invention is to provide a hot water supply device that can shorten the hot water waiting time at the start of hot water supply and can be configured using an existing general hot water heater.

  According to the present invention, a hot water heater and a vacuum double structure in which a hot water inlet connected to a hot water outlet of the hot water heater is provided in the lower part and a hot water outlet is provided in the upper part and has only a heat retaining function. There is provided a hot water supply apparatus including the first warmer.

  Hot water from the water heater is introduced into the first warmer having a vacuum double structure having only a heat retaining function and high heat retaining effect, and is led from the first warmer to a hot water tap or the like. At the start of hot water supply, hot water stored in the first incubator, not from the water heater, is supplied to the hot water tap or the like, so that the hot water waiting time is greatly shortened. In particular, it is a hot water supply apparatus that can shorten the hot water waiting time at the start of hot water supply because only the first double heat insulator having a vacuum double structure having only a heat retaining function is connected between the hot water heater and the hot water tap. Nevertheless, not only is the apparatus configuration very simple and the manufacturing cost is low, but the apparatus can be configured using an existing general water heater. The term “hot water tap” used in this specification includes not only a single water tap that supplies only hot water, but also a mixing tap that supplies hot water and water.

  It is preferable that the amount of water held by the first incubator is 8 to 12 liters. The amount of cold water that flows wastefully at the start of hot water supply is known to be approximately 8 to 12 liters, depending on the size of the hot water heater, and the amount of retained water that can be stored in the first incubator is By setting it as a range, hot water can be supplied quickly at the start of hot water supply with a heat insulator of the minimum necessary size. As a result, the manufacturing cost of the hot water supply device is reduced, and the size of the first warmer is reduced, so that the installation is facilitated.

  A first time switch means for outputting a first switching signal having a predetermined time width at at least one predetermined time and a pipe connected to a hot water outlet of the first warmer, and a first time switch means from the first time switch means. It is also preferable to further include a first electromagnetic three-way valve configured to perform a switching operation in response to a switching signal of 1 to drain water from the first incubator. By draining the cold water in the first incubator that has cooled down over time, new hot water is automatically supplied from the water heater to the first incubator. Hot water can be immediately supplied to the water tap. For example, when the time for using hot water is determined, the hot water can be used without waiting for hot water by operating the first electromagnetic three-way valve and draining immediately before that.

  It is also preferable to further include a first check valve inserted and connected to a pipe between the hot water inlet of the hot water heater and the hot water inlet of the first warmer.

  In the vicinity of the hot water tap, a hot water inlet connected to the hot water outlet of the first incubator is provided in the lower part and the hot water outlet is provided in the upper part, and the vacuum double structure having only a heat retaining function is provided. It is also preferable to further include two warmers. By providing the second warmer in the vicinity of the hot water tap, the piping distance from the second warmer to the hot water tap is shortened, and the hot water waiting time can be made almost zero.

  It is also preferable that the amount of water held by the second incubator is 8 to 12 liters. The amount of cold water that flows wastefully at the start of hot water supply is known to be approximately 8 to 12 liters, although it depends on the size of the water heater, and the amount of retained water that can be stored in the second incubator is By setting it as a range, hot water can be supplied quickly at the start of hot water supply with a heat insulator of the minimum necessary size. As a result, the manufacturing cost of the hot water supply device is reduced, and the size of the second warmer is reduced, so that the installation is facilitated.

  Second time switch means for outputting a second switching signal having a predetermined time width at at least one predetermined time, and a pipe connected to the hot water outlet of the second warmer, the second time switch means from the second time switch means It is also preferable to further include a second electromagnetic three-way valve configured to perform a switching operation in response to the switching signal 2 and drain water from the second warmer. By draining the cold water in the second warmer that has cooled down over time, new hot water automatically enters the second warmer from the first warmer and the hot water heater. Since it is supplied, this hot water can be immediately supplied to the hot water tap. For example, when the time to use hot water is fixed, the hot water can be used without waiting for hot water by operating the second electromagnetic three-way valve and draining immediately before that.

  It is also preferable to further include a second check valve inserted and connected to a pipe between the hot water outlet of the first warmer and the hot water inlet of the second warmer.

  According to the hot water supply apparatus of the present invention, at the start of hot water supply, the hot water stored in the first warmer, not from the hot water heater, is supplied to the hot water tap, so that the hot water waiting time is greatly shortened. In particular, it is a hot water supply apparatus that can shorten the hot water waiting time at the start of hot water supply because only the first double heat insulator having a vacuum double structure having only a heat retaining function is connected between the hot water heater and the hot water tap. Nevertheless, not only is the apparatus configuration very simple and the manufacturing cost is low, but the apparatus can be configured using an existing general water heater.

It is a block diagram showing roughly the whole composition of one embodiment of the hot-water supply device of the present invention. It is a fragmentary sectional view which shows the structure of the 1st warmer in the hot water supply apparatus of FIG. It is a block diagram which shows roughly the whole structure of other embodiment of the hot-water supply apparatus of this invention.

  FIG. 1 schematically shows an overall configuration of an embodiment of a hot water supply apparatus of the present invention, and FIG. 2 shows a partial cross-sectional view of the configuration of a warmer in the hot water supply apparatus.

  As shown in FIG. 1, the water supply port 10 a of the water heater 10 is connected to a water supply pipe (not shown) through a water supply pipe 11 and a manual on-off valve 12 inserted in the middle thereof. The port 10b is connected to a first warmer (hereinafter referred to as a check valve in this embodiment) via a hot water supply pipe 13 and a first check valve (hereinafter simply referred to as a check valve) 14 inserted in the middle of the hot water supply pipe 13. Is simply referred to as a warmer).

  The hot water outlet 15b of the warmer 15 is connected to a bathroom via a hot water supply pipe 16, a first electromagnetic three-way valve (hereinafter simply referred to as an electromagnetic three-way valve) 17 provided in the middle of the hot water pipe 16, and a hot water supply pipe 18. Are connected to a hot-water tap 19, a wash-basin hot-water tap 20, a wash-basin hot-water tap 21, and a kitchen hot-water tap 22. The electromagnetic three-way valve 17 is further configured to drain the water in the warmer 15 through the drain pipe 23. The electromagnetic three-way valve 17 is controlled to be switched by a switching signal from a first time switch (corresponding to the first time switch means of the present invention, hereinafter simply referred to as a time switch in this embodiment) 24. It is configured. In the present embodiment, a three-way valve (EAL100TNE) is used as the electromagnetic three-way valve 17, and a time switch (TB261101K) is used as the time switch 24.

  The water heater 10 is, for example, a gas type, an electric type, a petroleum type, or a solar heat type water heater, and may be an instantaneous type, a hot water storage type, or another type. The water heater 10 automatically operates according to the hot water pressure in the hot water supply pipe 13 connected through the hot water supply port 10b, and operates when the hot water pressure in the hot water supply pipe 13 falls below a threshold value to supply hot water. When the hot water pressure in the hot water supply pipe 13 exceeds a threshold value, the hot water supply is stopped.

  The warmer 15 is a container made of stainless steel (SUS304, thickness 1.0 mm), which is formed in a cylindrical shape as a whole. As shown in FIG. 2, a high degree of vacuum is formed between the outer wall 15c and the inner wall 15d. It has a vacuum double structure having only a heat retaining function provided with a space 15e kept in a state. The space 15e is evacuated through a vacuum suction port 15f with a check valve. This warmer 15 has an effect like a so-called thermos that keeps hot water stored inside for a long time. A hot water inlet 15 a connected to the hot water heater 10 is provided in the lower part of the warmer 15, and a hot water outlet 15 b connected to the electromagnetic three-way valve 17 is provided in the upper part of the warmer 15. The external dimensions of the incubator 15 are merely examples, but the height is 485 mm and the diameter is 200 mm. The internal dimensions are merely examples, and the height is 450 mm and the diameter is 175 mm. Further, the retained water amount that can be stored by the incubator 15 is 8 to 12 liters, and preferably about 10 liters. Hereinafter, description will be given of setting the amount of water retained by the incubator 15 to 8 to 12 liters.

  The amount of hot water discharged per unit time from a general water heater used at home is approximately 16 to 20 liters / minute, depending on the size of the water heater. Since the household average data until the cold water from the hot water tap becomes hot water is 20 to 30 seconds, the amount of cold water that flows unnecessarily at the start of hot water supply is at most about 8 to 12 liters. By setting the amount of water retained by the heat retainer 15 within this range, hot water can be supplied quickly at the start of hot water supply with the heat retainer 15 having the minimum necessary capacity. As a result, the manufacturing cost of the hot water supply device is reduced, and the installation of the hot water heater is facilitated because the size of the warmer is reduced.

In addition, according to the hot water supply apparatus of the present embodiment, since 8 to 12 liters (one person per day) of wasted water can be saved, for example, in the case of a family of five, 8 to 12 liters x 5 = 40 to 60 liters, waste water per month is 40 to 60 liters x 30 = 1200 to 1800 liters, waste water per year is 1200 to 1800 liters x 12 = 14400 Savings of ~ 21600 liters (14.4 to 21.61 m ³ ) are possible. Since the water charge is about 1 m ³ = 1000 yen, it is possible to save a water charge of 14400 to 21600 yen per year. Furthermore, the gas fee can be saved around 500 yen per month and around 6000 yen per year.

  The electromagnetic three-way valve 17 normally supplies hot water from the warmer 15 to the hot water taps 19 to 22 by connecting the hot water supply pipe 16 to the hot water supply pipe 18, but at a predetermined time, a predetermined time width from the time switch 24 is supplied. When the switching signal is applied, the water in the warmer 15 is drained by connecting the hot water supply pipe 16 to the drain pipe 23 for a predetermined time width of the switching signal. As described above, since the cold water in the warmer 15 that has been cooled over a long period of time is drained at a predetermined time, new hot water is automatically supplied from the water heater 10 to the warmer 15. Hot water can be immediately supplied to the hot-water taps 19-22. For example, when the time to use hot water is determined, the electromagnetic three-way valve 17 is operated immediately before that to drain the cold water in the incubator 15 and store new hot water in the incubator 15. Hot water can be used without waiting time. For example, if you want to use hot water at 7 am, apply a switching signal with a time width of 30-60 seconds at 6:59 just before that, Since the cold water is discharged and new hot water is supplied from the water heater 10 and stored in the warmer 15, the hot water can be used immediately in a short time of 1 to 2 seconds from the start of the hot water supply. Furthermore, if a time switch 24 that can be reserved multiple times a day (for example, 7 times) is used, the same switching control can be performed at multiple times, and multiple people can use hot water comfortably. be able to.

  Next, operation | movement of the hot water supply apparatus of this embodiment is demonstrated.

  As an initial state, when the hot water heater 10 is operated in a state where hot water is not stored in the warmer 15, hot water is supplied from the hot water heater 10, and hot water is filled in the warmer 15 and all the hot water supply pipes 13, 16 and 18. It is. As a result, the pressure of the hot water in the hot water supply pipe 13 is increased, and the hot water supply from the water heater 10 is stopped.

  When any of the hot water taps 19 to 22 is opened in this state, hot water in the hot water supply pipes 16 and 18 and the warmer 15 is supplied to the hot water tap. Since the warmer 15 keeps the hot water in the interior for a long time by the vacuum double structure, the uncooled hot water stored in the warmer 15 is immediately supplied to the hot water tap in a short time. . When the hot water in the warmer 15 is released, the hot water pressure in the hot water supply pipe 13 is lowered, so that new hot water is supplied from the water heater 10. Thus, at the start of hot water supply, the hot water stored in the warmer 15 rather than from the hot water heater 10 is first supplied to the hot water tap, so that the hot water waiting time is greatly shortened. In addition, a switching signal is applied from the time switch 24 to the electromagnetic three-way valve 17 about once a day, for example, just before the time when hot water is used. Drained. As described above, by draining the cold water in the warmer 15 that has been cooled over a long period of time at a predetermined time, new hot water is automatically supplied from the hot water heater 10 into the warmer 15. Hot water is supplied to the hot-water taps 19-22.

  As described above in detail, according to the present embodiment, at the start of hot water supply, hot water stored in the warmer 15 rather than from the hot water heater 10 is supplied to the hot water taps 19 to 22. Time is greatly reduced. In particular, since the vacuum double-structured warmer 15 having only the heat retaining function is simply connected between the hot water heater 10 and the hot water tap, the hot water supply apparatus can shorten the hot water waiting time at the start of hot water supply. Nevertheless, not only is the apparatus configuration very simple and the manufacturing cost is low, but the apparatus can be configured using an existing general water heater. Furthermore, since the amount of water held by the warmer 15 is 8 to 12 liters, preferably about 10 liters, which corresponds to the amount of cold water that is wasted when starting hot water supply, it is preferably about 10 liters. Hot water can be supplied quickly. From this point of view, the manufacturing cost of the hot water supply apparatus is reduced, and the size of the warmer 15 is reduced, so that the installation thereof is facilitated. Furthermore, the electromagnetic three-way valve 17 is operated at a predetermined time to drain the cold water in the warmer 15 that has cooled down over time, and new hot water is automatically supplied from the hot water heater 10 to the warmer 15. Since it is supplied, this hot water can be immediately supplied to the hot water taps 19 to 22.

  FIG. 3 schematically shows the overall configuration of another embodiment of the hot water supply apparatus of the present invention. In the present embodiment, the same reference numerals are used for the same components as in the embodiment of FIG.

  As shown in FIG. 3, the water supply port 10a of the water heater 10 is connected to a water supply pipe through a water supply pipe 11 and a manual opening / closing valve 12 inserted in the middle thereof, and the water supply port 10b of the water heater 10 is connected to a hot water supply. The pipe 13 and the first check valve 14 inserted in the middle thereof are connected to the hot water inlet 15a of the first warmer 15.

  The hot water outlet 15b of the first warmer 15 is connected to a hot water supply pipe 16 and a hot water supply tap 19 of a bathroom sink, a hot water supply tap 20 of a wash basin via a first electromagnetic three-way valve 17 and a hot water supply pipe 18 provided in the middle of the hot water supply pipe 16. It is connected to the hot water tap 21 of the wash basin and is connected to the hot water inlet 27a of the second warmer 27 through the hot water supply pipe 25 and the second check valve 26 inserted in the middle thereof. The first electromagnetic three-way valve 17 is further configured to drain cold water through a drain pipe 23. The first electromagnetic three-way valve 17 is configured to be switched by a switching signal from a first time switch (corresponding to the first time switch means of the present invention) 24.

  The hot water outlet 27b of the second warmer 27 is connected to the hot water tap 22 of the kitchen through a hot water supply pipe 28, a second electromagnetic three-way valve 29 and a hot water supply pipe 30 provided in the middle thereof. The second electromagnetic three-way valve 29 is further configured to drain cold water through a drain pipe 31. The second electromagnetic three-way valve 29 is configured to be switched by a switching signal from a second time switch 32 (corresponding to the second time switch means of the present invention) 32. In the present embodiment, three-way valves (EAL100TNE) are used as the first and second electromagnetic three-way valves 17 and 29, and time switches (TB261101K) are used as the first and second time switches 24 and 32. ing.

  The water heater 10 is, for example, a gas type, an electric type, a petroleum type, or a solar heat type water heater, and may be an instantaneous type, a hot water storage type, or another type. The water heater 10 automatically operates according to the hot water pressure in the hot water supply pipe 13 connected through the hot water supply port 10b, and operates when the hot water pressure in the hot water supply pipe 13 falls below a threshold value to supply hot water. When the hot water pressure in the hot water supply pipe 13 exceeds a threshold value, the hot water supply is stopped.

  The first warmer 15 is a container made of stainless steel (SUS304, thickness 1.0 mm) which is formed in a cylindrical shape as a whole, and as shown in FIG. 2, between the outer wall 15c and the inner wall 15d. It has a vacuum double structure in which a space 15e kept in a high vacuum state is provided. The space 15e is evacuated through a vacuum suction port 15f with a check valve. The first warmer 15 has an effect like a so-called thermos that keeps hot water stored therein for a long time. A hot water inlet 15 a connected to the hot water heater 10 via the first check valve 14 and the hot water supply pipe 13 is provided in the lower part of the first warmer 15 and is connected to the first electromagnetic three-way valve 17. The hot water outlet 15 b is provided in the upper part of the first warmer 15.

  The second warmer 27 also has a configuration similar to that of the first warmer 15. However, the second warmer 27 is installed in the vicinity of the hot water tap 22 in the kitchen. The hot water inlet 27a of the second warmer 27 is provided at the lower part of the second warmer 27, and is connected to the first electromagnetic three-way valve 17 via the second check valve 26 and the hot water supply pipes 25 and 18. It is connected. The outlet port 27 b of the second warmer 27 is provided on the upper side of the second warmer 27 and is connected to the second electromagnetic three-way valve 28.

  The outer dimensions of each of the first warmer 15 and the second warmer 27 are merely examples, but the height is 485 mm, the diameter is 200 mm, and the inner dimensions are just examples. The height is 450 mm and the diameter is 175 mm. In addition, the amount of retained water, which is the amount that can be stored in each of the first warmer 15 and the second warmer 27, is 8 to 12 liters, preferably about 10 liters. The amount of water retained in each of the first warmer 15 and the second warmer 27 is 8 to 12 liters as described above.

In addition, according to the hot water supply apparatus of the present embodiment, since 8 to 12 liters (one person per day) of wasted water can be saved, for example, in the case of a family of five, 8 to 12 liters x 5 = 40 to 60 liters, waste water per month is 40 to 60 liters x 30 = 1200 to 1800 liters, waste water per year is 1200 to 1800 liters x 12 = 14400 Savings of ~ 21600 liters (14.4 to 21.61 m ³ ) are possible. Since the water charge is about 1 m ³ = 1000 yen, it is possible to save a water charge of 14400 to 21600 yen per year. Furthermore, the gas fee can be saved around 500 yen per month and around 6000 yen per year.

  The first electromagnetic three-way valve 17 normally supplies hot water from the first warmer 15 to the hot water taps 19 to 21 and the second warmer 27 by connecting the hot water supply pipe 16 to the hot water supply pipe 18. When a switching signal having a predetermined time width is applied from the first time switch 24 at a predetermined time, the first heat retaining pipe 16 is communicated with the drainage pipe 23 during the predetermined time width of the switching signal. The water in the vessel 15 is drained. As described above, by draining the cold water in the first incubator 15 that has been cooled over a long period of time at a predetermined time, new hot water automatically enters the first incubator 15 from the water heater 10. Since the hot water is supplied, the hot water can be immediately supplied to the hot water taps 19 to 21 and the second warmer 27. For example, when the time to use hot water is determined, the first electromagnetic three-way valve 17 is operated immediately before that to drain the cooled water in the first incubator 15 and new hot water is supplied to the first hot water. By storing in the warmer 15, hot water can be used without a hot water waiting time. For example, if you want to use hot water at 7 am, apply a switching signal with a time width of 30-60 seconds at 6:59 just before that, Since the cold water is discharged and new hot water is supplied from the hot water heater 10 and stored in the first incubator 15, the hot water can be used immediately in a short time of 1 to 2 seconds from the start of hot water supply. Furthermore, if a switch that can be reserved multiple times a day (for example, 7 times) is used as the first time switch 24, the same switching control can be performed at a plurality of times, so that a plurality of people can comfortably enjoy hot water. Can be used.

  The second electromagnetic three-way valve 29 normally supplies hot water from the second warmer 27 to the hot water tap 22 by connecting the hot water supply pipe 28 to the hot water supply pipe 30, but the second time switch at a predetermined time. When a switching signal having a predetermined time width from 32 is applied, the water in the second warmer 27 is drained by connecting the hot water supply pipe 28 to the drain pipe 31 during the predetermined time width of the switching signal. As described above, by draining the cold water in the second incubator 27 that has been cooled over a long period of time at a predetermined time, new hot water is supplied to the first incubator 15 and the second incubator 27. Since the hot water is automatically supplied from the water heater 10, the hot water can be immediately supplied to the hot water tap 22 in a shorter time. For example, when the time to use hot water is fixed, the second electromagnetic three-way valve 29 is operated immediately before that to drain the cooled water in the second incubator 27, and new hot water is supplied to the second hot water. By storing in the warmer 27, hot water can be used without a hot water waiting time. For example, if you want to use hot water at 7 am, apply a switching signal with a time width of 30-60 seconds at 6:59 just before that, Since the cold water is discharged and new hot water is supplied from the first warmer 15 and the hot water heater 10 and stored in the second warmer 27, the hot water is immediately supplied in a short time of 1 to 2 seconds from the start of hot water supply. Can be used. Further, if a second time switch 32 that can be reserved a plurality of times (for example, seven times a day) is used, the same switching control can be performed at a plurality of times, so that a plurality of people can comfortably enjoy hot water. Can be used.

  Next, operation | movement of the hot water supply apparatus of this embodiment is demonstrated.

  As an initial state, when the hot water heater 10 is operated in a state where hot water is not stored in the first warmer 15 and the second warmer 27, hot water is supplied from the hot water heater 10, and the first warmer 15, The second incubator 27 and all the hot water supply pipes 13, 16, 18, 25, 28, and 30 are filled with hot water. As a result, the pressure of the hot water in the hot water supply pipe 13 is increased, and the hot water supply from the water heater 10 is stopped.

  When any of the hot water taps 19 to 21 is opened in this state, the hot water in the hot water supply pipes 16 and 18 and the first warmer 15 is supplied to the hot water tap. Since the first warmer 15 keeps the internal hot water for a long time due to its vacuum double structure, the uncooled hot water stored in the first warmer 15 immediately enters the hot water tap. It is supplied in a short time. When the hot water in the first warmer 15 is released, the hot water pressure in the hot water supply pipe 13 is lowered, so that new hot water is supplied from the water heater 10. Thus, at the start of hot water supply, the hot water stored in the first warmer 15 instead of from the hot water heater 10 is first supplied to the hot water tap, so that the hot water waiting time is greatly shortened. Also, a switching signal is applied from the first time switch 24 to the first electromagnetic three-way valve 17 about once a day, for example, immediately before the time when hot water is used, and the first electromagnetic three-way valve 17 is activated. Then, the water in the first incubator 15 is drained. As described above, by draining the cold water in the first incubator 15 that has been cooled over a long period of time at a predetermined time, new hot water automatically enters the first incubator 15 from the water heater 10. This new hot water is supplied to the hot water taps 19 to 21.

  On the other hand, when the hot water tap 22 of the kitchen is opened in this state, hot water in the hot water supply pipes 28 and 30 and the second warmer 27 is supplied to the hot water tap 22 and hot water is supplied to the second warmer 27. Hot water in the pipes 25, 18, and 16 and the first warmer 15 is supplied. Since the second warmer 27 keeps the hot water in the interior for a long time due to the vacuum double structure, the uncooled hot water stored in the second warmer 27 immediately enters the hot water tap 22. It is supplied in a short time. Moreover, since the second warmer 27 is installed in the vicinity of the hot water tap 22, hot water is supplied in a shorter time. When hot water in the second warmer 27 is released, hot water in the first warmer 15 is also supplied, so that the hot water pressure in the hot water supply pipe 13 is lowered, and new hot water is supplied from the hot water heater 10. Done. Thus, at the start of hot water supply, the hot water stored in the second warmer 27 instead of from the hot water heater 10 is first supplied to the hot water tap, so that the hot water waiting time is greatly shortened. Also, a switching signal is applied from the second time switch 32 to the second electromagnetic three-way valve 29 about once a day, for example, immediately before the time when hot water is used, and the second electromagnetic three-way valve 29 is activated. As a result, the water in the second incubator 27 is drained. As described above, by draining the cold water in the second incubator 27 that has been cooled over a long period of time at a predetermined time, new hot water is supplied to the first incubator 15 and the second incubator 27. The hot water is automatically supplied from the water heater 10, and this new hot water is supplied to the hot water tap 22.

  As described above in detail, according to the present embodiment, the hot-water taps 19 to 21 are supplied with hot water stored in the first warmer 15 instead of from the hot water heater 10 at the start of hot water supply. The hot water waiting time is greatly reduced. Further, with respect to the hot-water tap 22, since hot water stored in the second warmer 27 is supplied from the hot water heater 10 instead of from the hot water heater 10, the hot water waiting time is further greatly shortened. In particular, since only the first double warmer 15 and the second warmer 27 having a vacuum double structure having only a warming function are connected between the hot water heater 10 and the hot water tap, the hot water waiting at the start of hot water supply is performed. Despite being a hot water supply device capable of shortening the time, not only the device configuration is very simple and the manufacturing cost is low, but also an existing general hot water supply device can be used. In particular, in this embodiment, since the second warmer 27 is installed in the vicinity of the hot water tap 22, hot water is supplied in a shorter time. Further, since the amount of water retained in each of the first warmer 15 and the second warmer 27 is 8 to 12 liters, preferably about 10 liters, corresponding to the amount of cold water that flows wastefully at the start of hot water supply, the necessary minimum amount Hot water can be supplied quickly at the start of hot water supply by the first heat insulator 15 and the second heat insulator 27 of the limited size. From this point of view, the manufacturing cost of the hot water supply apparatus is reduced, and the dimensions of the first and second warmers 15 and 27 are reduced, so that the installation thereof is facilitated. Furthermore, the first electromagnetic three-way valve 17 or the second electromagnetic three-way valve 29 is actuated at a predetermined time, and the cold water in the first warmer 15 or the second warmer 27 that has cooled down over time. Since the hot water is automatically supplied from the water heater 10 into the first warmer 15 or the second warmer 27, the hot water is immediately supplied to the hot water taps 19-22. Can do.

  In the embodiment of FIG. 3, the second warmer 27 is installed in the vicinity of the hot-water tap 22 in the kitchen and is configured to supply hot water to the hot-water tap 22, but the other hot-water taps 19 to 21. It is obvious that it may be configured to be installed in the vicinity of the hot water supply and to supply water to any one of the hot water taps. Of course, three or more warmers may be installed.

  The above-described embodiments are all illustrative of the present invention and are not limited, and the present invention can be implemented in various other modifications and changes. Therefore, the scope of the present invention is defined only by the scope of the utility model registration request and its equivalent scope.

DESCRIPTION OF SYMBOLS 10 Water heater 10a Water supply port 10b Hot water supply port 11, 13, 16, 18, 25, 28, 30 Water supply piping 12 Manual on-off valve 14 1st check valve 15 1st heat insulator 15a, 27a Hot water inlet 15b, 27b Out Pouring port 15c Outer wall 15d Inner wall 15e Space 15f Vacuum suction port 17 First electromagnetic three-way valve 19, 20, 21, 22 Hot water tap 23, 31 Drain pipe 24 First time switch 26 Second check valve 27 Second heat insulation 29 Second electromagnetic three-way valve 32 Second time switch

Claims (8)

  A first water heater having a vacuum double structure in which a hot water heater and a hot water inlet connected to a hot water outlet of the hot water heater are provided at a lower portion and a hot water outlet is provided at an upper portion and has only a heat retaining function And a hot water supply device.   The hot water supply apparatus according to claim 1, wherein the amount of water held by the first incubator is 8 to 12 liters.   First time switch means for outputting a first switching signal having a predetermined time width at at least one predetermined time, and pipe connected to the hot water outlet of the first warmer, the first time switch means And a first electromagnetic three-way valve configured to perform a switching operation in response to the first switching signal from the first incubator to drain water from the first incubator. The hot-water supply apparatus of Claim 1 or 2.   The first check valve inserted and connected to a pipe between the hot water inlet of the water heater and the hot water inlet of the first warmer is further provided. The hot-water supply apparatus of any one of Claims.   In the vicinity of the hot water tap, a vacuum double pipe having a hot water inlet connected to the hot water outlet of the first warmer at the lower portion and a hot water outlet at the upper portion and having only a heat retaining function. The hot water supply apparatus according to any one of claims 1 to 4, further comprising a second warmer having a structure.   The hot water supply apparatus according to claim 5, wherein the amount of water held by the second incubator is 8 to 12 liters.   Second time switch means for outputting a second switching signal having a predetermined time width at at least one predetermined time, and pipe connected to the hot water outlet of the second warmer, the second time switch means And a second electromagnetic three-way valve configured to perform a switching operation in response to the second switching signal from the second heat insulator and drain the water from the second warmer. Item 7. A hot water supply apparatus according to item 5 or 6.   6. A second check valve inserted and connected to a pipe between the hot water outlet of the first warmer and the hot water inlet of the second warmer. The hot water supply apparatus of any one of 7 to 7.

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