JP4747928B2 - Hot water storage water heater - Google Patents

Description

  The present invention includes a hot water storage tank for storing hot water for hot water supply heated by a heating device, a hot water supply path for supplying hot water by mixing hot water supplied from the hot water storage tank and cold water supplied from a water supply path, The present invention relates to a hot water storage type hot water supply apparatus provided with a hot water supply path for mist branched from a hot water supply path, a mist generating means provided at the end of the mist hot water supply path and spraying hot water, and a control means for controlling these operations. .

Conventionally, as disclosed in Patent Documents 1 and 2 below, a mist generator is known in which a nozzle is provided at the downstream end of a hot water pipe, and hot water is sprayed into the bathroom or the like by this nozzle to generate mist.
Japanese Patent Laid-Open No. 10-185223 Japanese Patent Laying-Open No. 2005-265311

  By the way, the mist nozzle used for the said conventional apparatus has the characteristic that it cannot be made mist unless hot water is supplied above a predetermined pressure (for example, 120 kPa or more). For this reason, the mist generator described in Patent Documents 1 and 2 is applied to, for example, a hot water supply terminal such as a shower or a faucet as shown in FIG. When applying to a hot water supply device for discharging hot water from the hot water storage tank 11 for storing hot water heated by the heat pump unit 10a through the hot water discharge path 21, depending on the construction state of the piping and the usage state of each hot water terminal, There is a possibility that the pressure is lowered, and that a sufficient pressure cannot be obtained to make the bath water mist at the mist nozzle 64.

  For example, as the pipe diameter of the hot water supply pipe to the kitchen, bath, lavatory, etc. is larger and the pipe length is shorter, the flow rate passing through the bath water pipe increases, so the pressure drop increases. Moreover, if the use of a shower and the hot water supply to a bathtub are performed simultaneously based on the request | requirement from a user, it has the problem that the hot water supply side pressure will fall. When the hot water supply side pressure is lowered, bath water cannot be misted, hot water is dripped from the mist nozzle, and not only the mist function cannot be performed, but also the user feels uncomfortable on feeling.

  The present invention has been made paying attention to such problems existing in the prior art, and the purpose thereof is a hot water storage type in which the hot water supply pressure to the mist nozzle does not fall below a predetermined pressure at which mist can be generated. The object is to provide a water heater.

In order to achieve the above object, the present invention employs technical means described in claims 1 to 2 . That is, in the first aspect of the invention, the hot water storage tank (11) for storing hot water for hot water supply heated by the heating device (10a) is connected to the upper part of the hot water storage tank (11), and the hot water for hot water supply is taken out. Connected to the lower part of the high temperature take-out pipe (14) and the hot water storage tank (11), branches from the water supply pipe (19) for supplying cold water and the water supply pipe (19), bypasses the hot water storage tank (11), and takes out the high temperature Hot water is supplied by mixing the water supply pipes (19a, 19b) connected to the pipe (14), the hot water supplied from the high temperature take-out pipe (14) and the cold water supplied from the water supply pipes (19a, 19b). A hot water supply path (21, 24), a hot water supply terminal connected to the hot water supply path (21, 24) and discharging hot water passing through the hot water supply path (21, 24), and a hot water supply path for mist branched from the hot water supply path (21) (6 ), A mist generating means (64) provided at the end of the mist hot water supply path (61) for spraying hot water, and a flow rate of hot water passing through the hot water supply paths (21, 24) and the mist hot water supply path (61). Flow rate detection means (22, 32) for detecting the total value, and flow rate adjustment means (65-67) for adjusting the flow rate of hot water detected by the flow rate detection means (22, 32) to be a predetermined amount or less. Yes, and
The flow rate adjusting means (65) is provided on the upstream side of the upstream end of the mist hot water supply path (61) in the hot water supply path (21), and the hot water supply paths (21, 24) are connected to the hot water supply terminal, It has a hot water supply pipe (21) to which a mist hot water supply path (61) is connected and a hot water supply pipe (24) for a bath connected to the bath (100), and as a flow rate adjusting means, a hot water supply pipe (21). The first flow rate adjusting means (65) for adjusting the flow rate of hot water passing through the hot water supply pipe (21) and the hot water supply pipe for bath (24) and passing through the hot water supply pipe for bath (24) Second flow rate adjusting means (66) for adjusting the flow rate of the hot water, and the second flow rate adjusting means so that the flow rate of the hot water detected by the flow rate detecting means (22, 32) is not more than a predetermined amount. (66) is preferentially adjusted .

  This is because, for example, when the pressure in the hot water storage tank (11) decreases due to simultaneous use of a plurality of hot water supply paths (21, 24) such as use of a shower and filling of a bathtub, a hot water supply path for mist (61). The flow rate of hot water flowing through the water also decreases proportionally. When the flow rate of the mist generating means (64) is lower than a predetermined value, mist generation cannot be sufficiently achieved.

Therefore, according to the first aspect of the present invention, the total flow rate is detected from the flow rate detection means (22, 32), and each flow rate adjustment means (65-67) is driven so as not to exceed a predetermined value. The flow rate is adjusted. Accordingly, the hot water supply pressure (flow rate) on the mist hot water supply path (61) side can be maintained at a predetermined value or more, and the mist function is not adversely affected. Further, by adjusting the second flow rate adjusting means (66) preferentially so that the flow rate of the hot water detected by the flow rate detecting means (22, 32) is below a predetermined amount, the user can leave the terminal. It is possible to preferentially reduce the hot water supply flow rate to the bath where it is difficult to feel a decrease in the amount of hot water, thereby reducing discomfort to the user due to the flow rate decrease.

Moreover, in invention of Claim 2 , it is a hot water storage type hot-water supply apparatus which supplies warm water to the mist generation | occurrence | production unit (10c) which sprays mist of warm water in a bathroom, and heats internal water with a heating apparatus (10a) The tank unit (10b) stored together, the water supply pipe (19) for supplying hot water to the tank unit (10b), and the pressure of the hot water supplied to the water supply pipe (19) are set to a desired pressure. A first pressure reducing means (12), a high temperature side supply path (25) extending from a return pipe (13b) returning from the heating device (10a) to the tank unit (10b), and a water supply pipe (19) The low pressure side supply path (26) branched and extended from the upstream side of the first pressure reducing means (12), and the pressure of hot water supplied by being provided in the low temperature side supply path (26) are set to a desired pressure. Second to Hot water supplied to the mist generating unit (10c) by mixing the pressure means (68), the high temperature water supplied from the high temperature side supply path (25) and the hot water supply water supplied via the second pressure reducing means (68). In the hot water storage type hot water supply device provided with the hot water mixing means (69) for mist for adjusting the temperature of
The pressure set by the second pressure reducing means (68) is set smaller than the pressure set by the first pressure reducing means (12).

In the first aspect of the present invention, the mist hot water supply path (61) is branched from the hot water supply path (21). However, in the present invention, the hot water mixing unit (10d) dedicated to the mist is provided. It is provided. According to the second aspect of the present invention, the high temperature water supplied from the high temperature side supply path (25) extended from the upper part of the tank unit (10b) and the low temperature side extended from the water supply pipe (19). The hot water supply water supplied from the supply path (26) is mixed by the hot water mixing means (69) for mist, adjusted to an appropriate temperature, and the mist generating unit (10c).
To supply.

  Here, when mixing by the hot water mixing means (69) for mist, if there is a pressure difference between the high temperature water side and the hot water supply water side, stable mixing cannot be performed, but in order to minimize the pressure difference, The decompression means (68) is installed on the low temperature side supply path (26) side. And by setting the pressure set by the second pressure reducing means (68) to be smaller than the pressure set by the first pressure reducing means (12), the hot water in the hot water storage tank (11) is used by hot water supply or hot water filling. The influence of the pressure drop at the time can be minimized.

As with the hot water mixing valve (20), the mist hot water mixing means (69) is provided with a thermistor (57) as temperature detecting means after mixing to detect the temperature and electrically adjust the valve opening. Then, the hot water supply temperature may be adjusted, or a fixed temperature fixing type such as a thermo wax may be used. Moreover, you may use in combination with the flow volume adjustment in the flow volume adjustment means ( 65,66 ) of the invention described in claim 1 . In addition, the code | symbol in the bracket | parenthesis of each said means is an example which shows a corresponding relationship with the specific means as described in embodiment mentioned later.

(First embodiment)
Hereinafter, a first embodiment of the present invention will be described in detail with reference to FIG. FIG. 1 is a schematic diagram showing an overall configuration of a hot water storage type hot water supply apparatus according to a first embodiment of the present invention. The hot water storage type hot water supply apparatus of the present embodiment is used for general households, and uses hot water stored in the hot water storage tank 11 for hot water supply to the kitchen, bathroom, washroom, etc. In addition, a function of supplying hot water to a mist generating unit 10c for spraying mist of hot water installed in a bathroom (not shown) is provided.

  As shown in FIG. 1, the hot water storage type hot water supply apparatus is roughly composed of a heat pump unit 10a as a heating apparatus including a heat pump cycle and a tank unit 10b. The tank unit 10 b includes a hot water storage tank 11, a hot water supply pipe 21 as a hot water supply path for supplying hot water in the hot water storage tank 11 to a kitchen, a washroom, and the like, and hot water in the hot water storage tank 11 to the bath 100. It is comprised from the hot water supply piping 24 for baths as another hot water supply path | route which supplies hot water.

  First, as a hot water supply function, hot water sucked from the lower part of the hot water storage tank 11 among the paths of the hot water storage tank 11, the heat pump unit 10a, and the tank unit 10b is circulated to the heat pump unit 10a and sent to the upper part of the hot water storage tank 11. A forward pipe 13a, a return pipe 13b, which are fluid heating channels forming a water circuit, a water supply pipe 19 as a water supply path for supplying tap water into the tank unit 10b, and a hot water supply path for discharging hot water in the hot water storage tank 11. The high temperature take-out pipe 14, the intermediate temperature take-out pipe 16, the hot water supply pipe 21 which is a hot water supply path, and the hot water supply pipe 24 for bath.

  The hot water storage tank 11 is a metal tank excellent in corrosion resistance such as stainless steel, for example, and a heat insulating material (not shown) is arranged on the outer peripheral portion, and can keep hot hot water for a long time. Further, the hot water storage tank 11 has a vertically long shape, and an introduction port 11a is provided on the bottom surface thereof, and one end of a water supply pipe 19 is connected to the introduction port 11a.

  The water supply pipe 19 is provided with a branch even after branching to connect to the introduction port 11a. The branched water supply pipe 19 includes a hot water mixing valve 20 and a bath mixing valve 23, which will be described later. It is connected to one entrance side. Further, a pressure reducing valve (pressure reducing means) 12 for setting the pressure of supplied hot water to a desired pressure is provided upstream of these branches.

  Further, a water supply thermistor 51 is provided in the water supply pipe 19, and temperature information in the water supply pipe 19 is output to the hot water supply control unit 42. On the other hand, a lead-out port 11d is provided at the uppermost part of the hot water storage tank 11, and a high-temperature take-out pipe 14 is provided in the lead-out port 11d for leading out hot water supply water out of hot water stored in the hot water storage tank 11. It is connected.

  A discharge pipe provided with a relief valve 15 is connected in the middle of the path of the high temperature take-out pipe 14, and when the pressure in the hot water storage tank 11 rises above a predetermined pressure, Hot water is discharged outside so that the hot water storage tank 11 and the like are not damaged.

  Reference numeral 16 shown in the figure denotes an intermediate temperature take-out pipe for taking out hot hot water stored in the hot water storage tank 11 and having an intermediate temperature lower than that of the hot hot water. Middle temperature hot water is taken out from the outlet 11e formed in the approximate center of the direction.

  Further, a high / medium temperature mixing valve 17 that is a flow rate adjusting valve is provided at a downstream side joining portion of the high temperature extraction pipe 14 and the intermediate temperature extraction pipe 16. This high / medium temperature mixing valve 17 is a temperature adjusting valve that adjusts the temperature of hot water supplied to the mixing valve 20 for hot water supply and the mixing valve 23 for bath provided on the downstream side thereof. By adjusting, the mixing ratio of the high temperature hot water taken out from the high temperature take-out pipe 14 and the medium temperature hot water taken out from the intermediate temperature take-out pipe 16 is adjusted.

  The high / medium temperature mixing valve 17 is electrically connected to the hot water supply control unit 42 and controlled based on temperature information detected by the hot water storage thermistors 55a and 55c and the hot water temperature thermistor 52 described later. Incidentally, the temperature is adjusted to a predetermined temperature by actively mixing hot water taken out from the intermediate temperature take-out pipe 16 so that the temperature information detected by the hot water temperature thermistor 52 becomes a predetermined temperature higher than the set temperature. I am doing so.

  The hot water temperature thermistor 52 is provided on the outlet side of the high / medium temperature mixing valve 17 and detects the hot water temperature of hot water mixed by the high / medium temperature mixing valve 17. Further, on the downstream side of the hot water temperature thermistor 52, a hot water supply pipe 21 which is a hot water supply path and a hot water supply pipe 24 for a bath which is another hot water supply path are branched.

  The hot water supply pipe 21 is a hot water supply pipe for introducing hot water for hot water adjusted to a set temperature to a hot water tap or a shower tap (not shown) at the downstream end, and is a hot water mixing valve in the middle of the flow path. A hot water supply mixing valve 20, a hot water supply thermistor 53, and a flow rate counter 22 as a flow rate detecting means are provided. A flow rate adjusting valve 65 (first flow rate adjusting means in claims) is provided downstream of the flow rate counter 22 and upstream of a portion to which an upstream end of a mist hot water supply pipe 61 to be described later is connected. Is provided.

  The hot water supply mixing valve 20 is a temperature adjustment valve that adjusts the hot water temperature of hot water discharged from the end of the hot water supply pipe 21, and has an opening area ratio (opening of the hot water supply side adjusted in temperature by the high / medium temperature mixing valve 17). And the ratio of the opening degree on the water side communicating with the water supply pipe 19) is adjusted to the set temperature.

  The hot water supply mixing valve 20 is electrically connected to the hot water supply control unit 42 and controlled based on temperature information detected by the hot water supply thermistor 51, the hot water temperature thermistor 52, and the hot water supply thermistor 53. The hot water supply thermistor 53 outputs temperature information in the hot water supply pipe 21, and the flow rate counter 22 outputs flow rate information in the hot water supply pipe 21 to the hot water supply control unit 42.

  The high / medium temperature mixing valve 17 and the hot water mixing valve 20 perform feedback control based on the hot water temperature detected by the hot water thermistor 52 and hot water thermistor 53 provided on the outlet side. Yes. When the flow counter 22 detects the flow of water in the hot water supply pipe 21, the hot water tap or shower tap at the end of the hot water supply pipe 21 is opened and hot water is discharged.

  The hot water supply pipe 24 for hot water is a hot water supply pipe for introducing hot water for hot water whose temperature is adjusted to a set temperature to a bath (tub) 100 at the downstream end, and is a hot water / water mixing valve in the middle of the flow path. A mixing valve 23, a bath thermistor 54, a hot water on / off valve 31, a hot water flow rate counter 32 as a flow rate detecting means, and a check valve 33 are provided. A flow rate adjusting valve 66 (second flow rate adjusting means in the claims) is provided downstream of the hot water filling flow rate counter 32 and the check valve 33.

  The bath mixing valve 23 is a temperature adjustment valve that adjusts the temperature of hot water to be discharged at the end of the hot water supply pipe 24 for bath, and the ratio of the respective opening areas (the side of the hot water that has been adjusted by the high / medium temperature mixing valve 17) The ratio of the opening degree of the water and the opening degree of the water side communicating with the water supply pipe 19) is adjusted to adjust the hot water temperature to be discharged to the set temperature.

  The bath mixing valve 23 is electrically connected to the hot water supply control unit 42 and controlled based on temperature information detected by the water supply thermistor 51, the hot water temperature thermistor 52, and the bath thermistor 54. The bath thermistor 54 outputs temperature information in the hot water supply pipe 24 for bath to the hot water supply control unit 42.

  The hot water on / off valve 31 is an electromagnetic valve that is controlled by the hot water supply control unit 42 and opens and closes the mixed hot water flowing through the hot water supply pipe 24 for bath. The hot water flow rate counter 32 detects the flow rate of the mixed hot water flowing in the hot water supply pipe 24 for bath, and outputs the flow rate information detected by the flow rate counter 32 to the hot water supply control unit 42. The check valve 33 is a valve for preventing the bath water from flowing back into the hot water supply pipe 24 for bath. In addition, the description about hot water filling control is abbreviate | omitted.

  As described above, the high / medium temperature mixing valve 17, the hot water mixing valve 20, and the bath mixing valve 23 are the hot water temperature thermistor 52, hot water supply thermistor 53, and hot water supply water detected by the bath thermistor 54. Feedback control is performed based on the hot water temperature. When the flow counters 22 and 32 detect the flow of water in the hot water supply pipe 21 or the hot water supply pipe 24, the hot water taps, shower taps and hot water on / off valves 31 at the respective ends are opened. The hot water supply water is being discharged.

  On the outer wall surface of the hot water storage tank 11, a plurality (five in this example) of hot water storage thermistors 55a to 55e for detecting the amount of hot water storage and the temperature of the hot water storage are approximately equal in the vertical direction (the height direction of the hot water storage tank 11). The hot water filled in the hot water storage tank 11 or temperature information at each water level is output to the hot water supply control unit 42 at intervals.

  That is, the hot water supply control unit 42 is based on the temperature information from the hot water storage thermistors 55a to 55e, and the boundary position between the hot water heated up in the hot water storage tank 11 and the water before the hot water stored in the lower part of the hot water storage tank 11 is heated. This makes it possible to detect the amount of stored hot water.

  Of these thermistors 55 a to 55 e, the hot water storage thermistor 55 a is provided on the uppermost outer wall surface of the hot water storage tank 11, and is located at the uppermost part in the hot water storage tank 11 that is the temperature of the hot water sucked into the high temperature take-out pipe 14. It also has a function of a hot water thermistor that detects the hot water temperature. Further, the hot water storage thermistor 55c is disposed at substantially the same height as the above-described intermediate temperature take-out pipe 16. Thereby, it has the function of the hot water thermistor which detects the hot water temperature derived | led-out from the intermediate temperature taking-out pipe | tube 16. FIG.

  A suction port 11 b for sucking water in the lower part of the hot water storage tank 11 is provided at the lower part of the hot water storage tank 11. A discharge port 11 c for discharging hot water to the upper part of the hot water storage tank 11 is provided above the hot water storage tank 11. Is provided. The suction port 11b and the discharge port 11c are connected to a forward pipe 13a and a return pipe 13b, which are fluid heating paths, and the middle of the forward pipe 13a and the return pipe 13b, that is, a part of the fluid heating path is formed. It arrange | positions in the heat pump unit 10a.

  A circulation pump and a water refrigerant heat exchanger (not shown) are provided in the fluid heating path. The circulation pump generates a water flow so that water is sucked from a suction port 11 b provided at the lower part of the hot water storage tank 11, passed through a water refrigerant heat exchanger, and returned to the discharge port 11 c provided at the upper part of the hot water storage tank 11. It is a pump to make it.

  The circulation pump can adjust the flow rate according to the number of rotations of the built-in motor, and is controlled by the heat source control unit 41. One water-refrigerant heat exchanger heats the water in the hot water storage tank 11 sucked from the suction port 11b by heat exchange with the high-temperature refrigerant, and returns the water into the hot water storage tank 11 from the discharge port 11c. Water can be boiled into hot water.

  The heat pump cycle includes a refrigerant compressor, a water refrigerant heat exchanger, a decompression means, a refrigerant evaporator, etc. (not shown), and generates hot water at a high temperature (about 85 to 90 ° C. in this embodiment) with the water refrigerant heat exchanger. It is a supercritical heat pump cycle. This supercritical heat pump cycle refers to a heat pump cycle in which the refrigerant pressure on the high-pressure side is equal to or higher than the critical pressure of the refrigerant. For example, the heat pump cycle uses carbon dioxide, ethylene, ethane, nitrogen oxide, or the like as the refrigerant. The heat pump unit 10 a is operated by a control signal from the heat source control unit 41 and outputs an operating state to the heat source control unit 41.

  Next, a mist hot water supply pipe 61 serving as a mist hot water supply path for supplying hot water to the mist nozzle 64 according to the present invention will be described. The hot water supply pipe 61 for mist is branched from the hot water supply pipe 21 at the point where the aforementioned hot water supply pipe 21 comes out of the tank unit 10b. The mist hot water supply pipe 61 is provided with a hot water on / off valve 62 for mist serving as hot water intermittent means and a mist nozzle 64 for jetting hot water mist at the tip of the mist hot water supply pipe 61. . The mist hot water supply opening / closing valve 62 is an electromagnetic valve that is controlled by a mist control unit 43 as control means and opens / closes the mixed hot water flowing through the mist hot water supply pipe 61.

  The heat pump unit 10a and the tank unit 10b are disposed outside the bathroom, and the hot water supply pipe 61 for mist is branched from the hot water supply pipe 21 drawn into the bathroom and connected to the mist nozzle 64 to adjust the temperature. Is supplied to the mist nozzle 64. And the mist control part 43 controls the actuator of the hot water supply on-off valve 62 for mist with the operation information from the mist sauna operation panel which is not shown in figure.

  The heat source control unit 41 and the hot water supply control unit 42 are mainly composed of a microcomputer, and a preset control program is provided in a built-in ROM (not shown), from a hot water supply and bath operation panel (not shown). Operation information, temperature information from various sensors, flow rate information, pressure information, a signal from the heat pump unit 10a, and the like.

  Based on these signals, the heat source control unit 41 controls the actuators in the heat pump unit 10a, and the hot water supply control unit 42 controls the actuators of the mixing valves 17, 20, 23, and the on-off valve 31. Has been. In addition, the heat source control part 41 and the hot water supply control part 42 may be comprised integrally. Hot water supply and bath operation panels are installed on the walls of the kitchen or bathroom where hot water is used. The mist sauna operation panel is installed on the wall surface of the bathroom or dressing room. Alternatively, it may be configured integrally with a hot water supply and bath operation panel.

  Next, a characteristic configuration in the present embodiment according to the present invention will be described. In the present embodiment, a hot water supply side flow rate adjustment valve 22 and a bath side flow rate adjustment valve 32 are provided as flow rate detection means in the middle of the hot water supply pipe 21 and the bath hot water supply pipe 24 that are hot water supply paths. This is because the hot water supply control unit 42 calculates the total flow rate from the detected values of the flow rate counter 22 of the hot water supply pipe 21 and the hot water flow rate counter 32 of the bath hot water supply pipe 24 and does not exceed a predetermined value (for example, 15 L / min). As described above, the flow rate adjustment valves 65 and 66 are driven to adjust the flow rate.

  The general operation of the hot water storage type hot water supply apparatus having the above configuration will be described. First, in the case of supplying hot water for hot water stored in the hot water storage tank 11, when a hot water tap (not shown) provided at the end of the hot water supply pipe 21 is opened, the hot water stored in the hot water storage tank 11 is high or low. The temperature is adjusted to a desired set temperature via the warm mixing valve 17 and the hot water supply mixing valve 20, and hot water is supplied from the hot water tap.

  In addition, when an instruction to fill the bath 100 is given from the hot water supply / bath operation panel, the hot water on / off valve 31 provided in the middle of the bath hot water supply pipe 24 is opened, and the hot water supply water stored in the hot water storage tank 11 is opened. The temperature is adjusted to a desired set temperature via the high / medium temperature mixing valve 17 and the bath mixing valve 23, and the bath 100 is filled with hot water.

  At these times, the tap water is supplied from below the hot water storage tank 11 and the boundary position between the tap water and the hot water supply water moves upward. Then, when the amount of hot water stored in the hot water storage tank 11 falls below a predetermined amount based on the detection signals of the hot water storage thermistors 55a to 55e, a heating operation is performed in which the heat pump unit 10a is activated to boil the water in the hot water storage tank 11. Is called.

  When hot water mist is generated in the bathroom by an operation signal from a mist sauna operation panel (not shown), the mist hot water on / off valve 62 is opened by the mist control unit 43. As a result, the temperature-adjusted hot water flows downstream of the mist hot water supply opening / closing valve 62, the temperature-adjusted hot water is supplied to the mist nozzle 64, and the mist of hot water is ejected from the mist nozzle 64 into the bathroom.

  During the hot water supply, the hot water supply control unit 42 calculates the total flow rate from the detected values of the flow rate counter 22 of the hot water supply pipe 21 and the hot water flow rate counter 32 of the bath hot water supply pipe 24, and the total flow rate is predetermined. When the value is likely to be exceeded, the flow rate adjustment valves 65 and 66 are driven to adjust the flow rate so that the total flow rate does not exceed a predetermined value.

  At this time, the flow rate adjustment of the hot water is performed by a flow rate adjustment valve provided in a pipe connected to a hot water terminal where hot water is discharged, out of the two flow rate adjustment valves 65 and 66. In addition, when the hot water filling to the bath 100 and the hot water supply from the hot water supply terminal connected to the hot water supply pipe 21 are performed simultaneously, the flow rate adjusting valve 66 is preferentially operated to pass through the hot water supply pipe 21 and the bath hot water supply pipe 24. Reduce the total hot water flow.

  If the hot water supply pressure (flow rate) on the mist hot water supply path 61 side cannot be made higher than the pressure at which the mist can be generated only by the operation of the flow rate adjustment valve 66, the flow rate adjustment valve 65 is operated to supply the hot water supply pipe 21. Further, the total flow rate of hot water passing through the hot water supply pipe 24 is further reduced.

  Next, features and effects of this embodiment will be described. In the present embodiment, a hot water storage tank 11 that stores hot water for hot water supply heated by the heat pump unit 10 a, a high temperature take-out pipe 14 that is connected to the upper part of the hot water storage tank 11 and takes out hot water for hot water supply, and a lower part of the hot water storage tank 11 Hot water supplied from the hot water supply pipe 19a and 19b connected to the hot water supply pipe 19 connected to the hot water supply pipe 19 which is connected and branched from the water supply pipe 19, bypasses the hot water storage tank 11, and is connected to the high temperature discharge pipe 14 And hot water supply paths 21 and 24 for supplying hot water by mixing cold water supplied from the water supply pipes 19a and 19b.

  The hot water supply terminal is connected to the hot water supply paths 21, 24 and discharges hot water passing through the hot water supply paths 21, 24, the hot water supply pipe 61 for mist branched from the hot water supply pipe 21, and the terminal of the hot water supply pipe 61 for mist. A mist nozzle 64 for spraying hot water, flow rate counters 22 and 32 for detecting the total value of the flow rates of hot water passing through the hot water supply paths 21 and 24 and the hot water supply pipe 61 for mist, and hot water detected by the flow rate counters 22 and 32 The flow rate adjusting valves 65 to 67 are adjusted so that the flow rate is less than or equal to a predetermined amount.

  This is because, for example, when the pressure in the hot water storage tank 11 decreases due to simultaneous use of a plurality of hot water supply paths 21 and 24 such as use of a shower and filling of a bathtub, the flow rate of hot water flowing through the mist hot water supply pipe 61 is also reduced. Decreases proportionally. When the flow rate of the mist nozzle 64 is lower than a predetermined value, the mist nozzle 64 cannot be sufficiently misted.

  Therefore, according to this, the total flow rate is detected from the flow rate counters 22 and 32, and the flow rate adjustment valves 65 to 67 are driven to adjust the flow rate so as not to exceed a predetermined value. Thereby, the hot water supply pressure (flow rate) on the mist hot water supply pipe 61 side can be maintained at a predetermined value or more, and the mist function is not adversely affected.

  In particular, in the case of a hot water supply device that discharges hot water stored in the hot water storage tank 11 from each hot water outlet terminal and the hot water supply path 61 for mist, the water supply pipe 19 is provided with a predetermined pressure (120 kPa) required for mist formation by the pressure reducing valve 12. Since the pressure is reduced to a pressure close to (170 kPa), it is greatly affected by the usage status and construction conditions of the hot water terminal. However, by applying the above-described embodiment, even a hot water supply device that is discharged to each hot water terminal via the hot water storage tank 11 has a sufficient mist function regardless of the usage status and construction conditions of the hot water terminal. be able to.

  The flow rate adjusting valve 65 is provided on the upstream side of the upstream end of the mist hot water supply pipe 61 in the hot water supply pipe 21. In the above-described invention, the flow rate adjusting valves 65 to 67 are provided. According to this, the flow rate adjustment is performed on the upstream side of the upstream end of the mist hot water supply pipe 61 in the hot water supply pipe 21. A valve 65 is installed.

  In this configuration, the total flow rate is detected from the flow rate counters 22 and 32, and the flow rate adjustment valves 65 and 66 are driven to adjust the flow rate so as not to exceed a predetermined value. Also by this, the hot water supply pressure (flow rate) on the mist hot water supply pipe 61 side can be maintained at a predetermined value or more, and the mist function is not adversely affected.

  The hot water supply paths 21, 24 are connected to a hot water supply terminal, have a hot water supply pipe 21 to which the mist hot water supply path 61 is connected, and a hot water supply pipe 24 for a bath connected to the bathtub 100. Includes a first flow rate adjustment valve 65 for adjusting the flow rate of hot water passing through the hot water supply pipe 21, and the hot water supply pipe 24 for bath adjusts the flow rate of hot water passing through the hot water supply pipe 24 for bath. The second flow rate adjustment valve 66 is provided, and the second flow rate adjustment 66 is preferentially adjusted so that the flow rate of the hot water detected by the flow rate counters 22 and 32 becomes a predetermined amount or less.

  According to this, it is possible to reduce unpleasant feelings to the user due to a decrease in the flow rate by preferentially reducing the hot water supply flow rate to the bath where it is difficult for the user to feel a decrease in the amount of hot water from the terminal.

  In addition, when hot water filling to the bath 100 and hot water discharge from the hot water supply terminal connected to the hot water supply pipe 21 are performed at the same time, the flow rate adjusting valve 66 is preferentially operated, so that the user recognizes a decrease in the hot water flow rate. The mist function can be maintained without reducing the amount of hot water discharged from the hot water supply terminal.

(Second Embodiment)
FIG. 2 is a schematic diagram showing an overall configuration of a hot water storage type hot water supply apparatus according to a second embodiment of the present invention. In the first embodiment described above, the embodiment in which the flow rate adjusting valves 65 and 66 are respectively installed in the hot water supply paths 21 and 24 has been described. However, according to the present embodiment, the water supply pipe 19 is provided upstream of the pressure reducing valve 12. Only one water supply side flow rate adjustment valve 67 is installed. In addition, the same code | symbol is attached | subjected about the member same as 1st Embodiment in a figure, and detailed description is abbreviate | omitted.

In the present embodiment, the flow rate adjusting valve 67 is provided in a portion of the water supply pipe 19 that is upstream of the upstream ends of the water supply pipes 19a and 19b. In the above invention has been characterized as having a flow control valve 65 to 67, the flow control valve 67 one at a site on the upstream side than the upstream end of the feed water pipe 19a, 19b of the feed water pipe 19 Only installed.

  In this configuration, the total flow rate is detected from the flow rate detection means 22, 32, and the flow rate adjustment valve 67 is driven to adjust the flow rate so as not to exceed a predetermined value. Also by this, the hot water supply pressure (flow rate) on the mist hot water supply pipe 61 side can be maintained at a predetermined value or more, and the mist function is not adversely affected. Further, even if there are a plurality of hot water supply paths 21 and 24, the cost can be reduced because only one flow rate adjusting means (67) is required.

(Third embodiment)
FIG. 3 is a schematic diagram showing an overall configuration of a hot water storage type hot water supply apparatus according to a third embodiment of the present invention. In the above-described embodiment, the form in which the pressure drop of the hot water is detected based on the detection values of the flow counters 22 and 32 has been described. However, as shown in FIG. 3, a hot water storage tank for storing hot water for hot water heated by the heat pump unit 10a. 11, connected to the upper part of the hot water storage tank 11, a hot discharge pipe 14 for taking out hot water for hot water supply, connected to the lower part of the hot water storage tank 11, a water supply pipe 19 for supplying cold water, and branched from the water supply pipe 19, By bypassing the tank 11, hot water is supplied by mixing the water supply pipes 19 a and 19 b connected to the high temperature take-out pipe 14, the hot water supplied from the high temperature take-out pipe 14 and the cold water supplied from the water supply pipes 19 a and 19 b. It has hot water supply paths 21 and 24.

  The hot water supply terminal is connected to the hot water supply paths 21, 24 and discharges hot water passing through the hot water supply paths 21, 24, the hot water supply pipe 61 for mist branched from the hot water supply pipe 21, and the terminal of the hot water supply pipe 61 for mist. A mist nozzle 64 that sprays hot water, a pressure sensor 56 that is provided in the hot water storage tank 11 and detects the pressure of hot water in the hot water storage tank, and a pressure detected by the pressure sensor 56 does not fall below a predetermined value. The flow rate adjusting valves 65 to 67 for adjusting the flow rate of the hot water are provided.

  In the first and second embodiments, it is configured to monitor the excessive flow rate (= pressure drop) based on the detection values of the flow rate counters 22 and 32, but according to this, the pressure sensor 56 is connected to the hot water storage tank 11. And the flow rate adjusting valves 65 to 67 are adjusted so that the pressure does not fall below a predetermined value. Also with this configuration, the hot water supply pressure (flow rate) on the mist hot water supply pipe 61 side can be maintained at a predetermined value or more, and the mist function is not adversely affected. In addition, the same code | symbol is attached | subjected about the member same as embodiment mentioned above, and detailed description is abbreviate | omitted.

  Below the hot water storage tank 11, a pressure sensor 56 that detects the pressure of the bath water in the hot water storage tank 11 is provided. The hot water supply control unit 42 adjusts the flow rate with the flow rate adjustment valves 65 and 66 (the flow rate adjustment valve 67 in the second embodiment) so that the pressure detected by the pressure sensor 56 does not fall below a predetermined value. The hot water supply pressure (flow rate) on the mist hot water supply pipe 61 side can be maintained at a predetermined value or more, and the mist function is not adversely affected.

(Fourth embodiment)
FIG. 4 is a schematic diagram showing an overall configuration of a hot water storage type hot water supply apparatus in a fourth embodiment of the present invention. In addition, the same code | symbol is attached | subjected about the member same as embodiment mentioned above, and detailed description is abbreviate | omitted. This embodiment is a hot water storage type hot water supply apparatus that supplies hot water to a mist generating unit 10c that sprays a mist of hot water in the bathroom as in the above-described embodiments, but is provided with a hot water mixing unit 10d dedicated to mist. is there.

  The tank unit 10b that heats and stores the internal water by the heat pump unit 10a, the water supply pipe 19 that supplies hot water to the tank unit 10b, and the pressure of the hot water supplied by the water supply pipe 19 are supplied. The portion having the pressure reducing valve (first pressure reducing means, first pressure reducing valve) 12 for setting the pressure is the same, but a high temperature branched from the return pipe 13b extending from the heat pump unit 10a to the tank unit 10b. A side supply pipe (high temperature side supply path) 25 and a low temperature side supply pipe (low temperature side supply path) 26 branched from the upstream side of the first pressure reducing valve 12 of the water supply pipe 19 and extending are provided.

  A second pressure reducing valve (second pressure reducing means) 68 that sets the pressure of hot water supplied to the low temperature side supply pipe 26 to be supplied to a desired pressure, high temperature water supplied from the high temperature side supply pipe 25, A hot water mixing valve (mist hot water mixing means) 69 for adjusting the temperature of hot water supplied to the mist generating unit 10c by mixing with hot water supplied through the pressure reducing valve 68 is provided. The pressure set by the second pressure reducing valve 68 is set smaller than the pressure set by the first pressure reducing valve 12.

  A mist temperature thermistor 57 is provided on the outlet side of the mist hot water mixing valve 69 so that the hot water temperature mixed by the mist hot water mixing valve 69 is detected and input to the mist control unit 43. It has become. The hot water mixing valve 69 for mist performs feedback control based on the hot water temperature detected by a mist temperature thermistor 57 provided on the outlet side thereof.

  The mist control unit 43 controls the actuator of the mist hot water supply opening / closing valve 62 according to operation information from a mist sauna operation panel (not shown) to open and close the mixed hot water flowing through the mist nozzle 64. The mist generating unit 10c, the hot / cold water mixing unit 10d, and the mist control unit 43 may be configured integrally with each combination.

  According to this embodiment, the high temperature water supplied from the high temperature side supply pipe 25 extended from the upper part of the tank unit 10b and the hot water supply water supplied from the low temperature side supply pipe 26 extended from the water supply pipe 19 are supplied. It mixes with the hot water mixing valve 69 for mist, adjusts it to moderate temperature, and supplies it to the mist generating unit 10c.

  Here, when mixing by the hot water mixing valve 69 for mist, if there is a pressure difference between the high temperature water side and the hot water supply water side, stable mixing cannot be performed, but in order to minimize the pressure difference, the second pressure reducing valve 68 is installed on the low temperature side supply pipe 26 side. And by setting the pressure set by the second pressure reducing valve 68 to be smaller (for example, 150 kPa) than the pressure set by the first pressure reducing valve 12 (for example, 150 kPa), The effect of pressure drop when hot water is used can be minimized.

  As with the hot water mixing valve 20, the mist hot water mixing valve 69 is provided with a thermistor 57 as temperature detecting means after mixing to detect the temperature and electrically adjust the valve opening to adjust the hot water temperature. Alternatively, a fixed temperature setting type such as a thermo wax may be used. Moreover, you may use in combination with the flow volume adjustment in the flow volume adjustment valves 65-67 of 1st-3rd embodiment.

(Other embodiments)
The flow rate adjustment for securing the predetermined pressure described in the above-described embodiment may be performed only when mist spraying is performed. Further, in the above-described embodiment, the heat pump unit 10a is configured by a supercritical heat pump cycle in which the refrigerant pressure on the high temperature side is equal to or higher than the critical pressure of the refrigerant. However, the present invention is not limited to this. A heat pump cycle may be used. In the above-described embodiment, the flow rate adjustment valve 66 is provided on the hot water supply pipe 24 side for bath. Instead of providing this flow rate adjustment valve 66, the hot water on / off valve 31 is temporarily closed. Also good.

It is a schematic diagram which shows the whole structure of the hot water storage type hot water supply apparatus in 1st Embodiment of this invention. It is a schematic diagram which shows the whole structure of the hot water storage type hot water supply apparatus in 2nd Embodiment of this invention. It is a schematic diagram which shows the whole structure of the hot water storage type hot water supply apparatus in 3rd Embodiment of this invention. It is a schematic diagram which shows the whole structure of the hot water storage type hot water supply apparatus in 4th Embodiment of this invention. It is a schematic diagram which shows the whole structure of the conventional hot water storage type hot-water supply apparatus.

Explanation of symbols

10a ... Heat pump unit (heating device)
DESCRIPTION OF SYMBOLS 10b ... Tank unit 10c ... Mist generating unit 11 ... Hot water storage tank 12 ... Pressure reducing valve, 1st pressure reducing valve (1st pressure reducing means)
13b ... Return pipe 14 ... High temperature extraction pipe 19 ... Water supply pipe 19a ... Water supply pipe 19b ... Water supply pipe 21 ... Hot water supply pipe (hot water supply path)
22 ... Flow rate counter (flow rate detection means)
24 ... Hot water supply pipe for bath (hot water supply route)
25 ... High temperature side supply piping (High temperature side supply route)
26 ... Low temperature side supply piping (low temperature side supply route)
32 ... Flow rate counter for hot water filling (flow rate detection means)
56 ... Pressure sensor (pressure detection means)
61 ... Hot water supply pipe for mist (hot water supply path for mist)
64: Mist nozzle (mist generating means)
65 ... Hot water supply side flow rate adjustment valve (flow rate adjustment means, first flow rate adjustment means)
66 ... Bath side flow rate adjustment valve (flow rate adjustment means, second flow rate adjustment means)
67 ... Water supply side flow rate adjustment valve (flow rate adjustment means)
68. Second pressure reducing valve (second pressure reducing means)
69 ... Hot water mixing valve for mist (hot water mixing means for mist)
100 ... Bath

Claims (2)

A hot water storage tank (11) for storing hot water for hot water supply heated by the heating device (10a);
A hot discharge pipe (14) connected to the upper part of the hot water storage tank (11) and for taking out hot water for hot water supply;
A water supply pipe (19) connected to the lower part of the hot water storage tank (11) for supplying cold water;
Water supply pipes (19a, 19b) branched from the water supply pipe (19), bypassing the hot water storage tank (11) and connected to the high temperature take-out pipe (14);
Hot water supply passages (21, 24) for supplying hot water by mixing hot water supplied from the high temperature take-out pipe (14) and cold water supplied from the water supply pipes (19a, 19b);
A hot water outlet terminal connected to the hot water supply path (21, 24) and for discharging hot water passing through the hot water supply path (21, 24);
A mist hot water supply path (61) branched from the hot water supply path (21);
Mist generating means (64) provided at the end of the mist hot water supply path (61) for spraying hot water;
Flow rate detection means (22, 32) for detecting a total value of flow rates of hot water passing through the hot water supply path (21, 24) and the hot water supply path for mist (61);
The flow of hot water flow rate detected by the detecting means (22, 32) is closed and the flow rate adjustment means for adjusting so that the predetermined amount or less (65 to 67),
The flow rate adjusting means (65) is provided on the upstream side of the upstream end of the hot water supply path for mist (61) in the hot water supply path (21).
The hot water supply path (21, 24) is connected to a hot water supply terminal, the hot water supply pipe (21) to which the mist hot water supply path (61) is connected, and the hot water supply pipe for bath (24) connected to the bath (100). And
As the flow rate adjusting means, a first flow rate adjusting means (65) for adjusting a flow rate of hot water provided in the hot water supply pipe (21) and passing through the hot water supply pipe (21), and the hot water supply pipe for bath (24). And a second flow rate adjusting means (66) for adjusting the flow rate of the hot water passing through the bath hot water supply pipe (24),
The hot water storage type hot water supply apparatus , wherein the second flow rate adjusting means (66) is preferentially adjusted so that the flow rate of the hot water detected by the flow rate detecting means (22, 32) is not more than a predetermined amount . A hot water storage type hot water supply device for supplying hot water to a mist generating unit (10c) for spraying mist of hot water in the bathroom,
A tank unit (10b) for heating and storing water inside the heating device (10a);
A water supply pipe (19) for supplying hot water supply water into the tank unit (10b);
First depressurization means (12) for setting the pressure of hot water supplied to the water supply pipe (19) to be supplied to a desired pressure;
A high temperature side supply path (25) branched and extended from a return pipe (13b) returning from the heating device (10a) to the tank unit (10b);
A low temperature side supply path (26) branched and extended from the upstream side of the first pressure reducing means (12) of the water supply pipe (19);
Second decompression means (68) for setting the pressure of hot water supplied to be supplied to the low temperature side supply path (26) to a desired pressure;
Temperature adjustment of hot water supplied to the mist generating unit (10c) by mixing hot water supplied from the high temperature side supply path (25) and hot water supplied through the second pressure reducing means (68). In the hot water storage type hot water supply apparatus provided with hot water mixing means (69) for mist to perform,
The hot water storage type hot water supply apparatus characterized in that the pressure set by the second pressure reducing means (68) is made smaller than the pressure set by the first pressure reducing means (12).

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