JP2004332985A - Hot water ready system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a hot water immediate supply system, obtaining the optimum hot water tapping characteristic and reducing the running cost. <P>SOLUTION: This hot water immediate supply system 1 includes a hot water storing tank 2 for storing hot water in the interior thereof and keeping warmth of the hot water, and the system is provided in the midway of hot water supply pipes 10, 10a. The system is provided with a detecting part 30 for detecting the outside air temperature and the temperature of cooling water in the hot water supply pipe 10 or the water supply pipe 11, whereby the warmth keeping temperature of the hot water storing tank 2 is controlled according to the detected temperature detected by the detecting part 30. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a hot water system.
[0002]
[Prior art]
As shown in FIG. 5, when the water temperature in the hot water supply pipe is 5 ° C. in winter, when the faucet fitting installed in the bathroom or the like is opened, the water in the 5 ° C. pipe first becomes the faucet fitting. After that, the hot water boiled by the water heater gradually flows through the hot water supply pipe, reaches the faucet fittings, and then the hot water is discharged from the faucet fittings, but the hot water is discharged from the faucet fittings. It took a long time for hot water to be discharged, and cold water was discharged in the early days when the faucet was opened in winter or the like.
However, by providing the hot water system in the hot water supply pipe, hot water is stored in the hot water system and kept warm, so when the faucet is opened, the hot water in this hot water system is removed from the faucet metal. The water is discharged and the hot water can be used from the initial stage of opening the faucet fitting.
[0003]
BACKGROUND ART Conventionally, there is a system in which a hot water system is provided in the middle of a hot water supply pipe from a water heater to a water faucet so that warm water is discharged from an initial stage when the water faucet is opened (for example, see Patent Document 1). .).
Conventionally, two types of temperature control functions are provided so that the hot water in the hot water system can be kept at about 70 ° C in summer and the hot water in the hot water system can be kept at about 80 ° C in winter. The heat retention temperature is configured to be switched by a user using a switch provided in a dressing room or the like.
[0004]
[Patent Document 1]
JP-A-61-128036
[Problems to be solved by the invention]
In a conventional structure, optimal tapping characteristics cannot be obtained unless the user switches the switch, and the running cost is increased by maintaining the temperature at a high temperature in a winter setting, such as in the summer. There was a problem.
[0006]
[Means for Solving the Problems]
The present invention has been devised in view of the above-mentioned conventional problems, and automatically switches the warming temperature of the instant hot water system in accordance with the outside air temperature or the temperature of hot water supply, to achieve optimal hot water discharge characteristics and running cost reduction. The first gist of the present invention is to provide a hot water system capable of storing hot water therein and having a hot water storage tank capable of storing and maintaining hot water, and a hot water system provided in the middle of a hot water supply pipe. And a detecting portion capable of detecting the temperature around the hot water storage tank and the temperature of the hot water storage tank are controlled in accordance with the detected temperature detected by the detecting portion.
[0007]
Further, a second gist is that in a hot water system provided with a hot water storage tank capable of storing hot water therein and keeping heat therein, a detection unit capable of detecting a temperature of cold water in a hot water supply pipe or a water supply pipe is provided. The hot water storage tank is controlled in accordance with the detected cold water temperature.
[0008]
Also, a third gist is that in a hot water system provided with a hot water storage tank capable of storing hot water therein and keeping heat therein and provided in the middle of a hot water supply pipe from a water heater to a faucet fitting, an outside air temperature, a hot water supply pipe or a water supply pipe is provided. A detecting unit capable of detecting the temperature of the cold water inside is provided, and a flow from the water heater to the hot water storage tank and a flow from the water heater to the faucet fitting are automatically switched according to the detected temperature detected by the detecting unit. It is configured as follows.
[0009]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is an installation state diagram of the hot water system, and FIG. 2 is an enlarged cross-sectional configuration diagram around a hot water storage tank of the quick water system.
In the figure, a hot water system 1 is composed of a hot water storage tank 2 capable of storing hot water and keeping the temperature inside, and pipes provided around the hot water storage tank 2. The hot water flows into the hot water storage tank 2 through the lower pipe 4, and the hot water flowing through the upper pipe 5 flows out of the outlet pipe section 6. It is configured to: Further, on the upper surface of the hot water storage tank 2, a connection fitting 7 connected to the outlet pipe portion 6 is provided.
[0010]
Such a hot water system 1 is installed in a waterproof pan 9 on the back side of a bathtub 8 of a unit bath so as to be inserted downward, and hot water boiled by a water heater (not shown) is supplied to the waterproof pan 9. A hot water supply pipe 10 and a water supply pipe 11 to which water is supplied are provided. The hot water supply pipe 10 is provided with a strainer 12 with a water stopcock. From the strainer 12, a connection pipe 13 composed of a flexible pipe is provided. It is connected to the inlet 3 of the hot water supply system 1.
[0011]
A flexible pipe 15 is connected to the water supply pipe 11, and the other end of the flexible pipe 15 is connected to a water supply pipe 11 a connected to a faucet fitting of a unit bath washing place. Further, a flexible pipe 14 is connected between the hot water supply pipe 10a connected to the faucet fitting of the washing place and the outlet 6 of the hot water system 1.
[0012]
As shown in FIG. 2, a rotatable rotary pipe 16 provided with a drain plug 17 is provided between the inlet pipe section 3 provided on the outer periphery of the hot water storage tank 2 and the lower pipe 4. The upper pipe 5 is provided with a relief valve 18.
In the drawing, reference numeral 19 denotes a relief valve, and reference numeral 20 denotes a heater provided in the hot water storage tank 2. Reference numeral 21 denotes a power cable, and reference numeral 22 denotes a lower cover that protects the lower periphery of the hot water storage tank 2.
[0013]
In such a configuration, when the faucet (not shown) of the washing area is opened, the hot water kept in the hot water storage tank 2 passes through the flexible pipe 14 from the outlet pipe section 6, passes through the hot water supply pipe 10 a, and becomes a faucet. Hot water supplied to the metal fittings can be used from the initial stage of opening the faucet fittings, and then hot water boiled by a water heater (not shown) passes from the hot water supply pipe 10 through the flexible pipe 13 and from the inlet pipe section 3. It flows into the hot water storage tank 2 through the lower pipe 4.
[0014]
FIG. 3 shows an electric wiring diagram. The operation switch 34 provided in the undressing room is for turning the hot water system 1 on and off. When the operation switch 34 is turned off, the heater 20 is energized. Will not be.
Wirings 25 and 26 are provided in parallel with the operation switch 34. A 70 ° C. bimetal 28 is provided in the wiring 25, and an 80 ° C. bimetal 29 is provided in one wiring 26. ing.
[0015]
A wiring 33 is drawn out from the wiring 26, and a detection unit 30 is provided at a tip of the wiring 33. The detection unit 30 is made of a 15 ° C. bimetal in this example.
As shown in FIG. 1, the detection unit 30 is attached to, for example, the outer periphery of the lower cover 22 and can detect the outside air temperature and the temperature around the hot water storage tank 2.
In FIG. 3, a 90 ° C. bimetal 31 and a temperature fuse 32 cut at 129 ° C. are provided in a wiring 27 where the wirings 25 and 26 are gathered. , Provided to prevent over-elevation. The heater 22 is connected downstream of the thermal fuse 32.
[0016]
In such a wiring structure, the detecting unit 30 provided on the lower cover 22 detects the outside air temperature and the temperature around the hot water storage tank 2, and the outside air temperature is 15 ° C. or less in winter or the like. When the temperature is lower than 0 ° C., the 15 ° C. bimetal constituting the detection unit 30 is in the ON state. In this state, the wiring 25 and the wiring 26 are energized, and the temperature in the 70 ° C. bimetal 28 is 70 ° C. When this happens, the wiring 25 is cut off, but the bimetal 29 energizes the wiring 26 until the temperature of the hot water in the hot water storage tank 2 reaches 80 ° C., and energizes the heater 22 until the temperature in the hot water storage tank 2 reaches 80 ° C. To keep the hot water in the hot water storage tank 2 at 80 ° C.
On the other hand, when the outside air temperature becomes 15 ° C. or more in summer or the like, the 15 ° C. bimetal constituting the detection unit 30 cuts off the wiring 26, and in this state, electricity is supplied to the wiring 25 side having the 70 ° C. bimetal 28. Thus, the temperature of the hot water in the hot water storage tank 2 is maintained at 70 ° C.
[0017]
As described above, in the wiring structure as shown in FIG. 3, the detecting unit 30 made of 15 ° C. bimetal detects the outside air temperature and the temperature around the hot water storage tank, and automatically responds to the temperature change in winter and summer. The temperature of the hot water stored in the hot water storage tank 2 can be controlled in a short time, so that optimum hot water supply characteristics corresponding to winter and summer can be obtained. It can be reduced.
[0018]
Next, the wiring diagram of FIG. 4 shows another example. In FIG. 4, a control unit 35 is provided, and the control unit 35 is provided with a CPU and a relay 36 that is turned on and off by the CPU. The detection unit 30 is attached to the lower cover 22 of the hot water system 1, and the wiring 33 from the detection unit 30 is connected to the control unit 35.
The detection unit 30 in FIG. 4 is configured by a thermistor. The thermistor detects the outside air temperature and the temperature of the outer periphery of the hot water storage tank 2, and the detected temperature is input to the control unit 35. In the control unit 35, the outside temperature detected by the detection unit 30 is recognized, and when the temperature is high in summer or the like, the relay 36 is turned off to shorten the energizing time to the heater 20, and the hot water storage tank In the case where the outside temperature is low in winter or the like, the relay 36 is turned on, the time for energizing the heater 20 is extended, and the heat retention temperature in the hot water storage tank 2 is increased. Can be controlled to be high.
[0019]
In addition, a signal from the tank temperature detecting unit 37 that can detect the temperature of the hot water storage tank 2 is input to the control unit 35, and compared with the actual temperature of the hot water storage tank 2 sent from the tank temperature detecting unit 37, The control unit 35 can perform control corresponding to the outside air temperature and the like, and automatically controls the heat retention temperature in the hot water storage tank 2 so that the optimum hot water supply characteristics can be obtained even in the middle season of spring and autumn. You can do it.
[0020]
In addition, as shown in FIG. 1, the detection unit 30 may be attached to the hot water supply pipe 10 or the water supply pipe 11 so that the temperature of the cold water in the hot water supply pipe 10 or the water supply pipe 11 can be detected.
In this case, if the detecting unit 30 is configured by a thermistor and has a wiring structure as shown in FIG. 4, in the winter season or the like, the inside of the hot water supply pipe 10 or the water supply pipe 11 becomes cold water having a low temperature. Is detected by the thermistor of the detection unit 30, and the control unit 35 turns on the relay 36 to energize the heater 20 for a long time to control the heat retention temperature in the hot water storage tank 2 high. In summer or the like, since the temperature of the water in the hot water supply pipe 10 or the water supply pipe 11 is high, this temperature is detected, the relay is turned off, and the temperature maintained in the hot water storage tank 2 can be controlled to be low.
In particular, if the detection unit 30 is attached to the water supply pipe 11 side, the temperature of the water in the water supply pipe 11 is detected, and the temperature in the hot water storage tank 2 is kept at an optimal temperature in winter, summer and the like. Optimum tapping characteristics can be obtained and running costs can be reduced.
[0021]
Further, a detection unit 30 composed of a thermistor is attached to the outer periphery of the lower cover 22, the hot water supply pipe 10 or the water supply pipe 11, and a wiring structure including a control unit 35 as shown in FIG. With the signal from the control unit 35, the switching valve 40 or the water stopcock 41, 41 is adjusted by motor driving to flow the water from the water heater into the hot water storage tank 2 and the flow from the water heater directly into the faucet fitting. , The optimum tapping characteristics can be obtained.
[0022]
That is, as shown in FIG. 2, when a switching valve 40 that can be adjusted by driving a motor is provided in the inlet pipe section 3 which is a branch point between the upper pipe 5 and the lower pipe 4, the switching valve 40 is connected to the lower pipe 4 side. By driving the hot water flow path in the opening direction, a large amount of hot water from the hot water supply pipe 10 can be put into the hot water storage tank 2 through the lower pipe 4, and the hot water kept in the hot water storage tank 2 is A large amount of hot water in the hot water storage tank 2 is discharged from the outlet pipe section 6 to the faucet side through the connecting fitting 7 and discharged in a large amount from the initial stage when the faucet fitting is opened in winter or the like. You can do it.
[0023]
On the other hand, when the switching valve 40 is driven in the direction in which the hot water flows toward the upper pipe 5 in summer or the like, the water in the hot water supply pipe 10 mostly flows through the upper pipe 5 and the faucet from the outlet 6 It will be flushed to the fitting side.
As described above, the switching unit 40 is controlled by the control unit 35 according to the detected temperature detected by the detection unit 30 so that the flow rate from the water heater into the hot water storage tank 2 and the water flow from the water heater through the upper pipe 5 directly By automatically switching the flow rate flowing to the plug fitting side and switching the flow rate, it is possible to obtain the optimum hot water tapping characteristic from the faucet fitting.
[0024]
As shown in FIG. 2, a water stopcock 41 that can be adjusted by driving a motor is provided in the upper pipe 5 instead of the switching valve 40, and a water stopcock 42 is also provided on one of the lower pipes 4. By doing so, the opening degree of the water stopcock 41 on the upper pipe 5 side and the water stopcock 42 on the lower pipe 4 side is appropriately adjusted by a drive signal from the control unit 35 to flow from the water heater to the lower pipe 4 side. The flow rate flowing into the hot water storage tank 2 and the flow rate flowing directly from the water heater through the upper pipe 5 to the faucet fitting can be automatically switched, so that the outside air temperature, the hot water supply pipe 10 or the water supply pipe 11 can be automatically switched. In response to the cold water temperature, the tapping temperature discharged from the faucet can be controlled to an optimal temperature, so that optimal tapping characteristics can be obtained and running costs can be reduced.
[0025]
【The invention's effect】
The present invention includes a hot water storage tank that can store and keep hot water therein, and in a hot water system provided in the middle of a hot water supply pipe, a detection unit that can detect an outside air temperature and a temperature around the hot water storage tank is provided. The hot water storage tank temperature is controlled according to the detected temperature, so that the hot water storage tank temperature can be controlled to an appropriate temperature according to the outside air temperature, etc. In addition, running costs can be reduced.
[0026]
Further, in an instant hot water system provided with a hot water storage tank capable of storing hot water therein and keeping the temperature, a detection unit capable of detecting a cold water temperature in a hot water supply pipe or a water supply pipe is provided, and according to the cold water temperature detected by the detection unit, By controlling the temperature of the hot water storage tank, the temperature of the hot water storage tank can be controlled appropriately according to the temperature of the cold water in the piping, resulting in optimal hot water discharge characteristics and reduced running costs. You can do it.
[0027]
In addition, a hot water storage tank that can store and keep hot water inside and has a hot water system installed in the middle of the hot water supply pipe from the hot water supply device to the faucet fittings allows the outside air temperature and the cold water temperature in the hot water supply pipe or the water supply pipe to be measured. By providing a detection unit that can detect, and by automatically switching the flow rate from the water heater to the hot water storage tank and the flow rate flowing directly from the water heater to the faucet fitting according to the detected temperature detected by the detection unit, By switching the flow rate from the water heater to the hot water storage tank and the flow rate flowing directly from the water heater to the faucet fitting in accordance with the temperature and the like, it is possible to obtain the optimal tapping characteristics by adjusting the flow rate.
[Brief description of the drawings]
FIG. 1 is an installation state diagram of a hot water system.
FIG. 2 is an enlarged cross-sectional configuration diagram around a hot water storage tank of the hot water system.
FIG. 3 is a wiring diagram illustrating an example of a control circuit.
FIG. 4 is a wiring diagram showing another example of the control circuit.
FIG. 5 is a diagram showing the relationship between the time until the hot water boiled by the water heater reaches the faucet and the water temperature.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Hot water system 2 Hot water storage tank 3 Inlet part 4 Lower pipe 5 Upper pipe 6 Outlet part 7 Fitting 9 Waterproof pan 10, 10a Hot water supply pipe 11, 11a Water supply pipe 20 Heater 22 Lower cover 30 Detector 34 Operation switch 35 Controller 36 relay

Claims (3)

A hot water storage tank that can store and keep hot water is provided inside, and in a hot water system provided in the middle of hot water supply piping, a detection unit that can detect the outside air temperature and the temperature around the hot water storage tank is provided. An instant hot water system, wherein the hot water storage temperature of the hot water storage tank is controlled according to the detected temperature. In an instant hot water system having a hot water storage tank capable of storing hot water therein and keeping the temperature, a detection unit capable of detecting a cold water temperature in a hot water supply pipe or a water supply pipe is provided, and according to the cold water temperature detected by the detection unit, An instant hot water system characterized by controlling the heat retention temperature of a hot water storage tank. Equipped with a hot water storage tank that can store and keep hot water inside, and in a hot water system installed in the middle of a hot water supply pipe from a water heater to a faucet fitting, it can detect the outside air temperature and the temperature of cold water in the hot water supply pipe or the water supply pipe. A detection unit is provided, wherein a flow from the water heater to the hot water storage tank and a flow from the water heater to the faucet fitting are automatically switched in accordance with the detected temperature detected by the detection unit. Instant hot water system.

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