JP2880690B2 - Hot water supply system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hot water supply system for supplying hot water and supplying water at the same time, and more particularly to a hot water supply system used in the beauty and beauty industry.

[0002]

2. Description of the Related Art When only an instantaneous water heater is used to obtain hot water, a large amount of hot water at an appropriate temperature cannot be obtained because the capacity is reduced and the temperature of the hot water is raised. Further, in the hot water storage type water heater, when hot water corresponding to the amount of hot water is almost used, it takes time to decrease the temperature of the hot water and increase the temperature by heating, so that hot water cannot be continuously obtained at any time. That is, since the size of the hot water tank is determined, the amount of hot water is limited. To solve these problems,
A hot water supply system including a water supply device, a hot water supply device, and a heating device has been developed. FIG. 11 is a schematic diagram showing a conventional hot water supply system.

In the conventional hot water supply system shown in FIG. 11, water 406 contained in a water receiving tank 402 is pressurized by a water supply pump 410 and sent through a water supply pipe 414. The water supply pipe 414 is connected to the water supply outgoing pipe 41 at a branch point 416.
4a and a header-side water supply pipe 414b, and water is sent to a terminal faucet 482 of the hair washer 480 via a water supply outgoing pipe 414a. On the other hand, the header-side water supply pipe 414b is connected to the check valve 41.
6 to the header 460. A pipe 454 from the lower part of the hot water storage tank 450 is connected to a header 460, and water or hot water is sent from the header 460 to a heater 500 such as a boiler via a circulation pump 430.
Hot water generated by heater 500 is returned to the lower part of hot water storage tank 450. The hot water stored in hot water storage tank 450 in this way is sent to terminal faucet 482 of hair washer 480 via hot water supply pipe 452. The hot water sent through the hot water supply pipe 452 is supplied to the header 460 via the hot water return pipe 446 and the check valve 448.
Is returned to. In such a hot water supply system, hot water supply, heating circulation and water supply are performed using two pumps.

[0004]

In such a conventional system, if any one of the pumps fails,
Either water supply or hot water supply becomes difficult, and a situation arises in which a hairdressing salon using a hot water supply system cannot provide services such as hair washing. It has been desired to provide a user of the hot water supply system with a more thorough system.

[0005] When a plurality of hair washer is connected in parallel to the hot water supply system, as the number of hair washer increases,
There is a problem that the flow rate that can be used in each hair washer decreases. It has been desired to minimize the flow rate decrease when using a plurality of hair washer at the same time.

An object of the present invention is to solve these problems. Even if one of the pumps fails, water and hot water can be supplied at the same time. An object of the present invention is to provide a hot water supply system in which the rate of decrease in the used flow rate is small.

[0007]

SUMMARY OF THE INVENTION The present invention relates to a hot water supply system for simultaneously supplying water and hot water, and a hot water supply pressurizing device for simultaneously supplying water and hot water, and a piping system connected to the hot water supply pressurizing device. And a heating device for heating water or hot water from the hot water supply / pressurizing device into hot water. The hot-water supply pressurizing device includes a water receiving tank, a first pump for sending out water stored in the water receiving tank, a branched water supply pipe for conducting water from the first pump, and a flow of water in the water supply pipe. A flow switch for detecting, a second pump connected to one branch of the branched water supply pipe, a piping system for supplying water by conducting water sent from the second pump through the first pressure reducing valve, A pressure switch provided at a water outlet of the second pump, a hot water tank, and a piping system having a cock connected at one end to a lower part of the hot water tank and opening and closing conduction.
A third pump for sending water or hot water to the heating device through the piping system; and a third pump for sending water or hot water to the heating device and the other end of the piping system having the other branch of the branched water supply pipe and the cock. A header for connecting the piping system, a temperature sensor for detecting the temperature of water or hot water from the lower part of the hot water tank,
A piping system for sending hot water from the heating device to an upper portion of the hot water tank, a hot water supply pipe for sending hot water from an upper end of the hot water storage tank, a fourth pump connected to the hot water supply pipe, and a fourth pump And a piping system connected to the piping system for supplying hot water and returning the hot water sent from the fourth pump to the header through the second pressure reducing valve. . The heating device is capable of adjusting the temperature of the hot water sent to the hot water storage tank. In this hot water supply system, the second pump is activated by a flow switch detecting the flow of water, the third pump is activated when the temperature sensor detects a temperature lower than the first temperature, and the temperature is detected. The pump is controlled to stop when the chamber detects a temperature equal to or higher than a second temperature higher than the first temperature, and the fourth pump is stopped when the pressure switch detects a pressure equal to or lower than a predetermined pressure.

In the hot water supply system of the present invention, the supply water and the flow rate of the supply of hot water can be changed by changing the set pressure in the first and second pressure reducing valves.

The hot water supply system of the present invention may further include a heating device, a fifth pump for sending hot water or water to the heating device, and a water supply to the heating device via the fifth pump. Alternatively, a piping system for sending hot water and a piping system for sending hot water from the heating device to the hot water storage tank can be provided.

[0010]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below in more detail with reference to specific examples.

According to the present invention, for example, a hot water supply system as shown in FIG. 1 can be provided. The hot water supply system of the present invention includes a hot water supply pressurizing device 100 and an instantaneous water heater 200 as a heating device. The hot water supply pressurizing device and the instantaneous water heater are provided to the user, and these can be connected together with the hair washer 80 by a piping system as shown in the drawing according to the user's use environment.

A water receiving tank 2 is provided above the hot water supply pressurizing device 100. Water 6 is stored in the water receiving tank 2 via the ball tap 4. Although not shown, the water receiving tank 2 is preferably provided with an overflow switch, a low water level switch, and the like, as needed, to control water reception. Water from the lower part of the receiving tank is sent to the water supply pump 10 through the pipe,
It is pressurized by the water supply pump 10 and sent out to the piping system of the system. Flow switch 8 is located downstream of the feedwater pump.
Is provided to detect the flow of water. The water pressurized by the water supply pump 10 is sent out to the system via a water supply pipe 14. The water supply pipe 14 includes a booster pump-side water supply pipe 14 a and a header-side water supply pipe 14 at a branch point 16.
b. The booster pump side water supply pipe 14 a is connected to the water side booster pump 20. A portion of the water from the water supply pipe 14 is pressurized by the water-side booster pump 20 and sent to the terminal faucet 82 of the hair washer 80 via the water supply outflow pressure reducing check valve 22 and the water supply outflow pipe 24. On the other hand, the remaining water divided at the branch point 16 passes through the header-side water supply pipe 14 b and is sent to the header 60 via the water supply check valve 16. A return hose 12 for bleeding air is provided downstream of the water supply pump 10.

A hot water storage tank 50 is provided from the center to the lower part of the hot water supply pressurizing apparatus 100. A hot water tank water supply pipe 54 reaching the header 60 is connected to a lower portion of the hot water tank 50. The hot water supply pipe 54 is provided with a maintenance cock 56 for opening and closing the conduction. The lower part of the hot water tank 50 includes a hot water tank water supply pipe 54, a header 60, and a pipe 64 connected thereto.
Through the circulation pump 30. Therefore, water or hot water from the lower part of the hot water storage tank 50 is sent to the circulation pump 30 via these systems. The circulation pump 30 sends out water or hot water to the instantaneous water heater 200 via the instantaneous water heater supply pipe 202. Hot water generated by heating in the instantaneous water heater 200 is sent to the upper portion of the hot water storage tank 50 via the instantaneous water heater hot water supply pipe 204. The instantaneous water heater may be any type of heat source such as gas-fired, kerosene-fired, etc., but it is preferable that the heat supply can be adjusted and the flow rate of water or hot water can be adjusted, whereby the temperature of hot water can be adjusted. . By such adjustment, hot water at a predetermined set temperature can be supplied to the hot water storage tank even if the temperature of the supplied water or hot water is different. For example, assuming that the total amount of hot water from the terminal faucet 82 until the set value of the hot and cold water mixing temperature of 40 ° C. drops to 38 ° C. is the effective hot water output, the temperature control function keeps the temperature constant even if the temperature of the supplied water or hot water changes. The use of an instantaneous water heater capable of delivering hot water at a temperature enables the system of the present invention to obtain an effective hot water output of about 1.2 times that of the conventional system.

A hot water supply pipe 52 is connected to an upper end of the hot water storage tank 50, and the hot water supply pipe 52 is connected to the hot water side booster pump 40. The hot water side booster pump 40 includes a hot water supply pressure reducing check valve 42.
Faucet 8 of hair washer 80 via hot water supply pipe 44 having
2 is connected. Hot water stored in the hot water storage tank 50 from the instantaneous water heater 200 is sent by the hot water side booster pump 40 to the terminal faucet 82 of the hair washer 80 via the hot water supply pipe 52, the pressure reducing check valve 42 and the hot water supply pipe 44. Can be The end of the hot water supply pipe 44 is connected to a hot water return pipe 46, and the hot water return pipe 46 is connected to a hot water tank water supply pipe 54 via a hot water return check valve 48 and a maintenance cock 58. The connection is between the maintenance cock 56 and the hot water tank 50 in the hot water tank water supply pipe 54.

In this system, various control mechanisms described below are provided. A flow switch 8 that detects the flow of water in the water supply pipe 14 is provided downstream of the water supply pump 10. Water side booster pump 2
A pressure switch 26 is provided at the water outlet 0 to detect the pressure on the water outlet side. In the header 60,
A thermistor 62, which is a temperature sensor, is attached to detect the temperature of water or hot water from the lower part of the hot water tank 50. Information (signal) from these detecting means is sent to the control box 106, and the control circuit in the control box 106 performs the following control. That is, when the flow switch 8 detects the flow of water in the water supply pipe 14 by opening the terminal faucet 82, the water-side booster pump 20 is controlled to operate. Further, the thermistor 62 has a predetermined temperature, for example, 45 ° C.
When the following temperature is detected, the circulation pump 30 operates,
Water or hot water is heated by the instantaneous water heater 200,
A predetermined temperature, for example, a temperature of 49 ° C. or higher
Is controlled so that the circulation pump 30 is stopped. Further, when the pressure switch 26 provided at the water outlet of the water side booster pump 20 detects a pressure lower than a predetermined pressure, the hot water side booster pump 40 is controlled to be stopped. This is because when the supply of water to the terminal faucet 82 is reduced or stopped, the supply of hot water to the terminal faucet 82 is also stopped to prevent hot water from being discharged. The instant water heater 200 is also provided with a control box 206, and the control circuit in the control box 206 adjusts the amount of heat supplied, the flow rate, and the like, so that the outlet temperature can be adjusted. The control box 206 is connected to a remote control switch 208, and the switch 208 enables control such as temperature setting of the instantaneous water heater 200. Control box 206 and control box 1
Reference numeral 06 is connected so that the hot water supply pressurizing device 100 and the instantaneous water heater 200 are controlled in conjunction with each other. The hot water supply pressurizing device 100 and the instantaneous water heater 200 can have separate power cords.

In the system described above, it is preferable to use a general-purpose vortex pump as the water supply pump 10, the water side booster pump 20, the circulation pump 30, and the hot water side booster pump 40. The pressure reducing check valves 22 and 42 preferably have the functions of the pressure reducing valve and the check valve in an integrated structure. However, the pressure reducing check valve can be replaced with an independent check valve connected to a pressure reducing valve.
The instantaneous water heater 200 is temperature-controllable, and can be controlled by a general-purpose instantaneous water heater, for example, a microcomputer, which can supply hot water at a set temperature almost constantly according to the temperature of supplied water or hot water. Instantaneous water heater can be used. The hot water storage tank 50 is made of, for example, stainless steel, and the pipes are made of, for example, a copper pipe, a heat-resistant resin for a hot water side pump, and a resin for water or a hot water side pump, so that preferable corrosion protection can be provided. The check valve used in the above-described system serves to prevent an abnormal drop in tap water pressure or a backflow due to a negative pressure effect that occurs when water is cut off. Various types of check valves, such as a type that operates only by its own weight at the time of opening and closing and a type that incorporates a spring, can be used.

Hereinafter, the operation and operation of the above-described system will be described. When the remote control switch 208 of the instantaneous water heater 200 is turned on, the water supply pump 10 is operated, and the entire system including the hot water tank, the instantaneous water heater, and the hair washer is filled with water or hot water. Primary water is automatically supplied by the ball tap 4 in the water receiving tank 2. The feed pressure on the water side is 1 from the feed pump 10 to the booster pumps 20 and 40.
It is desirable to be not more than kg / cm ² . Instant water heater 2
When the remote control switch 208 attached to the water supply pump 00 is turned on, the water supply pump 10 operates, and thereafter,
When the thermistor 62 detects a temperature of, for example, 45 ° C. or less, the circulating pump 30 is operated, and when the thermistor 62 detects a temperature of, for example, 49 ° C. or more, the circulating pump 30 is stopped. The water or hot water sent to the instantaneous water heater 200 by the circulation pump 30 becomes hot water and is stored from the upper part of the hot water storage tank 50. When the layer of hot water reaches the lower part of the hot water storage tank, the thermistor 62 senses and the circulation pump 30 Will stop. Thereby, hot water tank 50, hot water tank water supply pipe 54, header 60, pipe 64, circulation pump 30, water supply pipe 202, instantaneous water heater 2
00, circulation through hot water supply pipe 204 is performed. It is desirable that instantaneous water heater 200 has a built-in thermistor for controlling the temperature of hot water. On the other hand, the remote control switch 20 attached to the instant water heater 200
8 is turned on, the hot water side booster pump 40 operates in conjunction therewith, and the pipes after this pump are connected to, for example, 2.5 kg / c.
m ² and the hot water supply pipe 4
Circulation from 4 to the hot water supply pressurizing device 100 via the hot water supply return pipe 46 is performed to keep the pipe warm. By this circulation,
Hot water that can be used immediately without waste water
0 is supplied to the terminal faucet 82. It is desirable that instantaneous water heater 200 feeds hot water of, for example, 75 ° C. in winter, and 60 ° C. in summer and spring, for example, to upper portion of hot water storage tank 50.

Referring to FIG. 2, terminal faucet 8 of hair washer 80
2. For example, when the mixing valve is opened, the flow switch 8 operates to operate the water-side booster pump 20. By controlling the water-side booster pump 20 to operate only after opening the terminal faucet 82 in this way, energy saving can be achieved without constantly operating the water-side booster pump. Water supply and hot water supply are simultaneously performed by the water supply pump 10, the water-side booster pump 20, and the hot-water-side booster pump 40 via the pressure-reducing check valves 22 and 42, respectively. Released from The outlet of the water-side booster pump 20 is provided with the pressure switch 26 as described above, and stops the hot-water-side booster pump 40 when the pressure during tapping decreases. Thereby, when a problem occurs in the water supply, the hot water supply is stopped, and the hot water is prevented from being discharged from the hair washer 80. The set pressure of the pressure switch is, for example, 1.2
kg / cm ² .

In the system described above, by storing hot water from the upper part of the hot water storage tank 50, normal temperature water is sent to the instantaneous water heater 200 as a heating device until immediately before boiling.
Boiling is quick and the amount of circulation can be reduced. Further, by incorporating booster pumps 20 and 40, water and hot water can be supplied to hair washer 80 at a pressure of 1 kg / cm ² or more. Further, the system of the present invention can supply water and hot water even if any of the pumps fails as described below.

Referring to FIG. 3, an operation method when the feedwater pump 10 fails will be described below. In the figure,
For the sake of simplicity, the failed water supply pump 10 is blacked out. At this time, since the supply water pressurization is hindered, the amount of hot water extremely decreases. However, in the control box 106, the water-side booster pump 20 normally operated by turning on the flow switch 8 is switched to the continuous operation mode by, for example, a changeover switch, so that the water-side booster pump 20 and the hot-water-side booster pump 40 supply water. Hot water can be supplied at the same time. Even if such a failure occurs, it is possible to secure the use of at least one hair washer.

Referring to FIG. 4, a case where the water-side booster pump 20 has failed will be described below. If the booster pump 20 fails during tapping, the temperature change (gets hot) and the tapping amount decreases. However, at this time, the operation of the pressure switch 26 also stops the hot water supply booster pump 40. To indicate this state, the water-side booster pump 20 is painted black, and half of the hot-water booster pump 40 is painted black. In this case, the feed water pressurization is
Hot water supply and heating circulation can be performed by the circulation pump 30. Also in this case, water supply and hot water supply can be performed simultaneously by the remaining pumps 10 and 30. At this time, although the amount of hot water decreases, use of at least one hair washer can be ensured.

Referring to FIG. 5, a case where the circulation pump 30 has failed will be described below. In the figure, the failed pump is blacked out. In this case, the phenomenon that hot water stops flowing out occurs. This is because water or hot water is not supplied to the instantaneous water heater 200 due to the failure of the circulation pump 30, and therefore, no hot water is supplied. In response to this phenomenon, the user closes the maintenance cock 56 and closes the conduction of the hot water tank water supply pipe 54 to the header 60. Thereby, the water pressurized by the water supply pump 10 is sent to the water-side booster pump 20, and
The water is supplied to the instantaneous water heater 200 through the circulation pump 30 via the header-side water supply pipe 14b, the header 60, and the pipe 64. Instantaneous water heater 200 is ignited by the supply of water,
Hot water is sent to the upper part of hot water storage tank 50. Then, the hot water in the upper part of the hot water storage tank is directly sent to the terminal faucet 82 of the hair washer 80 by the hot water side booster pump 40. In this case, the supply of water to instantaneous water heater 200 is performed by water supply pump 10, and water supply and hot water supply can be performed simultaneously by booster pumps 20 and 40. Although the amount of hot water decreases due to the failure of the circulation pump 30, the use of at least one hair washer can be ensured.

Referring to FIG. 6, a case where hot water side booster pump 40 has failed will be described below. In the figure, the failed booster pump 40 is blacked out. If the pump breaks down during tapping, a phenomenon occurs in which the tapping amount drastically decreases with temperature change (wet). In this case, the water side booster pump 20 is in an operating state, and the
It is necessary to adjust the temperature of the hot water. However, hot water supply and heating circulation can be performed by the circulation pump 30, and water supply can be performed via the water supply pump 10 and the water-side booster pump 20, so that also in this case, water supply and hot water supply can be performed simultaneously. Although the flow rate at the terminal faucet 82 decreases due to the pump failure, at least one hair washer can be used.

As described above, one of the major features of the present invention is that water supply and hot water supply can be performed simultaneously even if one of the four pumps fails. Further, if a circulation pump and an instantaneous water heater are added as shown in FIG. 7, even if one of the instantaneous water heaters fails, water supply and hot water supply can be continued. FIG. 7 is a schematic diagram showing a part of the system in which an instantaneous water heater and a circulation pump are added. In the system shown in the figure, a pipe 64 'is further connected to the header 60, and a circulation pump 30' is further provided. The water or hot water sent from the circulation pump 30 'is sent to the instantaneous water heater 200' via the instantaneous water heater supply pipe 202 ', and the hot water obtained as a result of heating is supplied via the instantaneous water heater supply pipe 204'. Sent to the top of the hot water tank. Other parts of the hot water supply system can be the same as those shown in FIG. By providing a plurality of circulation pumps and instantaneous water heaters in this manner, the heating device can be backed up, and a more thorough system can be provided.

Another major feature of the present invention is that water and hot water are supplied via a booster pump and a pressure reducing valve, respectively. Water side booster pump 20 shown in the figure
By increasing the pressure of water supply and hot water supply via the hot water side booster pump 40 and supplying water and hot water to the terminal faucet 82 via a pressure reducing valve provided on each line, the hair washer can be used as described later. Even if a plurality of units are connected in one water supply system and they are used at the same time, it is possible to suppress a decrease in the flow rate of hot water that can be used in each hair washer.

FIG. 8 schematically shows the mechanism of the pressure reducing valve. The pressure adjusting mechanism of the pressure reducing valve 300 shown in FIG.
It is composed of a diaphragm 304 and a valve body 306, and maintains a stable set pressure. A downward force W (a force in a direction in which the valve is opened) by the adjustment spring 302 and an upward force P (a direction in which the valve is closed) generated by the secondary pressure P ₂ acting on the diaphragm 304 act on the valve body 306. When the secondary pressure P ₂ is lower than the set pressure, the valve body 306 is positioned below by the downward force of the adjusting spring 302 and maintains a constant opening. Next, when the secondary pressure P ₂ approaches the set pressure rises, the secondary pressure P ₂ upward force due to the spring force W
And the valve body 306 moves upward. At this time, the opening degree of the valve is reduced, and the fluid passage area decreases. At the same time, the fluid resistance increases and a decompression action starts. When the secondary pressure P ₂ has reached the set pressure the valve is closed and the secondary pressure P ₂ is maintained within the set pressure. The pressure reducing valve is a pressure balance mechanism.
Receiving area of A ₁ parts of A ₂ parts of the valve body in figure equal,
The valve body is balanced even if the primary pressure fluctuates. Therefore stable secondary pressure P ₂ regardless of the level of P ₁ of the primary side is maintained. With such a mechanism, even if the flow rate and the pressure increase due to the parallel use of a plurality of hair washer, a stable secondary pressure is maintained and an extreme change (decrease) in the flow rate can be suppressed.

As shown in FIG. 9, an adjusting screw 314 and an adjusting bolt 312 screwed into the adjusting screw 314 are attached to the pressure reducing valve 300, and a mechanism for screwing the adjusting bolt 312 by the handle 310 is provided to change the pressure set by the adjusting spring 302. Becomes possible. By turning the handle 310 and screwing in the adjustment bolt, the adjustment spring is pushed by the adjustment bolt 312 to a predetermined position. By pressing the adjusting spring 302 with the adjusting bolt 312 in this manner, the set pressure can be increased. on the other hand,
If the adjusting bolt 312 to be screwed in is returned, the set pressure is reduced. By setting the set pressure in two or more stages in this way, it is possible to adjust the required tapping flow rate. If many hair washers are used in parallel and it is desired to increase the flow rate of hot water, the adjustment pressure 312 may be screwed in to increase the set pressure. On the other hand, when a not so high tapping flow rate is required, the adjusting bolt 312 may be returned to lower the set pressure. The pressure reducing check valve in the above-described system of the present invention is such that a check valve mechanism is integrally provided on the primary pressure side of such a pressure reducing valve.

FIG. 10 shows a piping system for connecting a plurality of hair washer. As shown in the figure, hair washers 80 and 80 'are provided in parallel, and the hot water supply pipe 4 of the hot water supply system is provided.
Terminal faucets 82 and 8 are connected to 4 and the water supply outgoing pipe 24, respectively.
2 'is connected. The hot water that has passed through the hot water supply pipe 44 is returned by the hot water return pipe 46 as described above. With such pipe connections, two or more shampooers can be connected to one
Can be used in two hot water systems. The following describes the capabilities of the system of the present invention when multiple hair washers are used simultaneously.

In the above-described system of the present invention, the primary cutoff pressure before the pressure-reducing check valve is 2.5 kg / cm ² ,
The set pressure is set in two stages by a mechanism as shown in FIG. 9, for example, 1.65 kgf / cm ² (high-performance specification) and 1.15 k
gf / cm ² (standard specification). Table 1 shows the change in the tapping flow rate when the number of used hair washer was increased under these conditions.

(Table 1) 1 hot spring 2 hot springs 3 hot springs 4 hot springs High capacity specification 18L / min 16.5L / min 15L / min 13.2L / min Standard specification 15L / min 14.2L / min 12.8L / min 11.8 L / min. On the other hand, in the conventional system as shown in FIG. 11, a change in the tap water flow rate when the number of used hair washer is increased is shown in Table 2.

(Table 2) 1 tapping hot water 2 tapping hot taps 3 tapping hot taps 4 tapping hot tap Conventional type 14.3 L / min 13.4 L / min 12.5 L / min 11.3 L / min For example, it is possible to suppress the flow rate reduction rate when a plurality of hair washer is used in parallel. According to the system of the present invention, if the power of the booster pump that supplies water and hot water is increased, the flow rate of tap water can be increased, and the primary pressure can be increased by the above-described characteristics of the pressure reducing valve. Since the change in the secondary pressure with respect to the flow rate decreases as the temperature rises, even if the number of hair washer is increased, the decrease in the amount of hot water per machine can be suppressed low. This phenomenon is more remarkably obtained as the power of the booster pump is increased. However, if the amount of hot water per unit is excessively increased in hair washing at a hairdressing salon, there is a risk that hot water may jump or jump out of the shampoo ball of the hair washer. I liked the best of the minute. In a conventional system as shown in FIG. 11, a pump or the like that can change the rotation speed by electric control can be used as a method of preventing a decrease in the flow rate of hot water when a plurality of hair washer is used. The cost of the system jumps greatly if you use
It is no longer practical. In the system of the present invention, the cost of the system itself is kept low by the combination of the general-purpose pump and the pressure reducing valve, and a decrease in the amount of hot water is prevented as much as possible. Further, the mechanism for changing the set pressure as shown in FIG. 9 allows the user to easily change the setting of the tapping flow rate. Further, in the system of the present invention, the tap water flow rate can be increased by the combination of the booster pump and the pressure reducing valve, so that the sizes of the hot water storage tank and the water receiving tank can be reduced, and a more compact system can be provided. Become. Further, in the system of the present invention,
Since the booster pump can supply water and hot water at a higher pressure, the use of the difference in the level of the hair washer, that is, the use of the washer with a single hot water supply system not only on the first floor but also on the second floor and higher floors. Becomes possible.

[0032]

As described above, the hot water supply system of the present invention can supply water and hot water at the same time even if one of the pumps breaks down. Has become. In addition, the system of the present invention improves the capacity of hot water supply than before, and in particular, when a plurality of hair washers are connected and used at the same time, a drop in hot water supply can be significantly suppressed. Further, the system of the present invention can provide a system in which the user can easily adjust the flow rate according to the use environment.

[Brief description of the drawings]

FIG. 1 is a schematic view showing a specific example of a hot water supply system according to the present invention.

FIG. 2 is a schematic diagram showing a state where a terminal faucet is opened and hot water is being supplied in the hot water supply system shown in FIG. 1;

FIG. 3 is a schematic diagram showing that a hair washer can be used even if a water supply pump fails in the hot water supply system shown in FIG. 1;

FIG. 4 is a schematic diagram showing that the hair washer can be used even if the water-side booster pump fails in the hot water supply system shown in FIG. 1;

FIG. 5 is a schematic diagram showing that the hair washer can be used even if the circulation pump fails in the hot water supply system shown in FIG. 1;

FIG. 6 is a schematic diagram showing that the hair washer can be used even if the hot water side booster pump fails in the hot water supply system shown in FIG. 1;

FIG. 7 is a schematic diagram showing a part for further connecting a circulation pump and an instantaneous water heater to the hot water supply system shown in FIG. 1;

FIG. 8 is a schematic diagram showing a specific example of a pressure reducing valve used in the present invention.

FIG. 9 is a partial sectional view showing a specific example of a mechanism for adjusting a set pressure of a pressure reducing valve used in the present invention.

FIG. 10 is a schematic diagram showing a piping system for connecting a plurality of hair washer to the hot water supply system shown in FIG. 1;

FIG. 11 is a schematic diagram showing a conventional hot water supply system.

[Explanation of symbols]

 2 water receiving tank 8 flow switch 10 water supply pump 14 water supply pipe 16 branch point 20 water side booster pump 22 water supply outgoing pressure reducing check valve 24 water supply outgoing pipe 26 pressure switch 30 circulation pump 40 hot water side booster pump 42 hot water supply outgoing pressure reducing check valve 44 Hot water supply pipe 46 Hot water return pipe 50 Hot water storage tank 52 Hot water supply pipe 54 Hot water storage tank water supply pipe 56 Maintenance cock 60 Header 62 Thermistor 80 Hair washer 82 Terminal faucet 100 Hot water pressurizing device 200 Instantaneous water heater 300 Pressure reducing valve 310 Handle 312 Adjusting bolt

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-4-306423 (JP, A) JP-A-7-77356 (JP, A) JP-A 4-70912 (JP, U) JP-A 62-77 17719 (JP, U) Open to the public Showa 62-25715 (JP, U) (58) Field surveyed (Int. Cl. ⁶ , DB name) F24D 17/00 F24D 3/00-3/10

Claims (3)

(57) [Claims] 1. A hot water supply system for simultaneously supplying water and hot water, comprising a hot water supply pressurizing device for simultaneously supplying the water and the hot water, and a piping system connected to the hot water supply pressurizing device,
A heating device for heating water or hot water from the hot water supply / pressurizing device into hot water, the hot water supply / pressurizing device comprising: a water receiving tank; and a first water supply tank for sending out water contained in the water receiving tank. A water supply pipe for conducting water from the first pump, a flow switch for detecting a flow of water in the water supply pipe, and a second water supply pipe connected to one branch of the water supply pipe. A pump system for supplying water by conducting water supplied from the second pump through a first pressure reducing valve, a pressure switch provided at a water outlet of the second pump, and a hot water storage tank. A piping system having one end connected to a lower portion of the hot water storage tank and having a cock for opening and closing conduction; a third pump for sending water or hot water to the heating device via the piping system; With the other branch of the water pipe A header connecting the other end of the piping system having the cock, a piping system for sending water or hot water to the heating device, and a temperature sensor for detecting the temperature of water or hot water from the lower part of the hot water storage tank A hot water supply pipe for sending hot water from an upper end of the hot water storage tank; a fourth pump connected to the hot water supply pipe; Hot water sent from the fourth pump is conducted through a second pressure reducing valve, and the hot water supplied from the fourth pump is connected to a piping system for supplying the hot water and a piping system for supplying the hot water. And a piping system for returning the hot water to the header. The heating device is capable of adjusting the temperature of hot water to be sent to the hot water storage tank, and the second pump is configured such that the flow switch is configured to supply water. By detecting the flow Dynamic and, the third
Pump operates when the temperature sensor detects a temperature less than or equal to a first temperature and a second temperature that is higher than the first temperature.
A hot water supply system, which stops when a temperature equal to or higher than a predetermined temperature is detected, and wherein the fourth pump is controlled to stop when the pressure switch detects a pressure equal to or lower than a predetermined pressure. 2. In the first and second pressure reducing valves,
The hot water supply system according to claim 1, wherein the supply water and the flow rate of the hot water can be changed by changing a set pressure. 3. A heating device, a fifth pump for sending water or hot water to the heating device, a piping system for sending water or hot water to the heating device via the fifth pump, and the heating device. The hot water supply system according to claim 1 or 2, further comprising a piping system for sending hot water to the hot water storage tank.