EP4269904A1 - Wärmepumpenwassererhitzer, wärmepumpenvorrichtung mit dem wärmepumpenwassererhitzer und verfahren zur montage des wärmepumpenwassererhitzers - Google Patents

Wärmepumpenwassererhitzer, wärmepumpenvorrichtung mit dem wärmepumpenwassererhitzer und verfahren zur montage des wärmepumpenwassererhitzers Download PDF

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Publication number
EP4269904A1
EP4269904A1 EP20967022.3A EP20967022A EP4269904A1 EP 4269904 A1 EP4269904 A1 EP 4269904A1 EP 20967022 A EP20967022 A EP 20967022A EP 4269904 A1 EP4269904 A1 EP 4269904A1
Authority
EP
European Patent Office
Prior art keywords
water
circuit unit
temperature
sheet metal
heat
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
EP20967022.3A
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English (en)
French (fr)
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EP4269904A4 (de
Inventor
Seiichiro IWAMOTO
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Mitsubishi Electric Corp
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Mitsubishi Electric Corp
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Filing date
Publication date
Application filed by Mitsubishi Electric Corp filed Critical Mitsubishi Electric Corp
Publication of EP4269904A1 publication Critical patent/EP4269904A1/de
Publication of EP4269904A4 publication Critical patent/EP4269904A4/de
Pending legal-status Critical Current

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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24HFLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
    • F24H4/00Fluid heaters characterised by the use of heat pumps
    • F24H4/02Water heaters
    • F24H4/04Storage heaters
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24HFLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
    • F24H9/00Details
    • F24H9/02Casings; Cover lids; Ornamental panels
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24HFLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
    • F24H9/00Details
    • F24H9/06Arrangement of mountings or supports for heaters, e.g. boilers, other than space heating radiators
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24HFLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
    • F24H9/00Details
    • F24H9/16Arrangements for water drainage 

Definitions

  • the present disclosure relates to a heat pump water heater that supplies hot water, a heat pump apparatus, and an assembly method of the heat pump water heater.
  • a heat pump water heater described in Patent Literature 1 includes a circuit which produces a target device with hot water to be supplied to a target device (which will be hereinafter referred to a high-temperature water producing and supplying circuit) and a circuit which produces warm water to be supplied to the heater (which will be hereinafter referred to as a low-temperature water producing and supplying circuit).
  • the high-temperature water producing and supplying circuit of Patent Literature 1 includes a hot-water storage tank, a plurality of pipes, etc.
  • the low-temperature water producing and supplying circuit of Patent Literature 1 includes an upper hot-water supply pipe, an intermediate hot-water supply pipe, a return pipe, a mixing valve, a heating outward pipe which causes the mixing valve and an inlet of the heat to communicate with each other, a heating circulation pump, and a bypass pipe which connects an intermediate part of the return pipe and the mixing valve.
  • Patent Literature 1 mixes high-temperature water in an uppermost part of the hot-water storage tank that is taken out from the upper hot-water supply water pipe with medium-temperature water in an intermediate part of the hot-water storage tank that is taken out from the intermediate hot-water supply pipe, thereby obtaining mixed water, further mixes the mixed water with low-temperature water that passes through a heating appliance, thereby obtaining further mixed water, adjusts the temperature of the further mixed water to cause it to reach to a predetermined temperature, and then causes the adjusted hot water to the heating appliance.
  • Patent Literature 1 Japanese Unexamined Patent Application Publication No. 2010-84974
  • a heat pump water heater that includes a high-temperature water producing and supplying circuit and a low-temperature water producing and supplying circuit as in Patent Literature 1
  • components in the low-temperature water producing and supplying circuit are not united to each other, and when the low-temperature water producing and supplying circuit is incorporated into a unit provided with the high-temperature water producing and supplying circuit, it is necessary to incorporate each of the components of the low-temperature water producing and supplying circuit into the unit provided with the high-temperature water producing and supplying circuit.
  • the present disclosure is applied to solve the above problem, and relates to a heat pump water heater, a heat pump apparatus, and an assembly method of the heat pump water heater, which can reduce a decrease in an assembling efficiency in the case where a high-temperature water producing and supplying circuit and a low-temperature water producing and supplying circuit are provided.
  • a heat pump water heater includes: a first circuit unit in which water is circulated, the first circuit unit being configured to heat the water by heat exchange between the water and refrigerant; a second circuit unit including a plurality of flow passage components, connected to an external heating load, and configured to cause the water heated by the first circuit unit to flow to the heating load and to release heat at the heating load, and mix the water heated by the first circuit unit with return water that has transferred heat; a housing unit in which the first circuit unit and the second circuit unit are housed; and a fixation sheet metal to which the flow passage components of the second circuit unit are fixed, and which is attached to the housing unit.
  • a heat pump apparatus includes the above heat pump water heater and an outdoor unit provided with an air-to-refrigerant heat exchanger configured to cause heat exchange to be performed between the refrigerant and air.
  • a assembly method of a heat pump water heater which includes: a first circuit unit in which water is circulated, the first circuit unit being configured to heat the water by heat exchange between the water and refrigerant; a second circuit unit including a plurality of flow passage components, connected to an external heating load, and configured to cause the water heated by the first circuit unit to flow to the heating load and to release heat at the heating load, and mix the water heated by the first circuit unit with return water that has transferred heat; a housing unit in which the first circuit unit and the second circuit unit are housed; and a fixation sheet metal to which the flow passage components of the second circuit unit are fixed, and which is attached to the housing unit, includes a step of incorporating the fixation sheet metal to which the flow passage components of the second circuit unit is fixed, into the housing unit in which the first circuit unit is housed.
  • the fixation sheet metal to which the flow passage components included in the second circuit unit are fixed is provided, and is also attached to the housing unit, the second circuit unit is united to the fixation sheet metal in advance, and it is therefore unnecessary to fix each of the flow passage components of the second circuit unit to the housing unit.
  • Fig. 1 is a perspective view illustrating an appearance of a heat pump water heater 1 according to Embodiment 1.
  • the heat pump water heater 1 includes a housing unit 40 as its outer shell.
  • the housing unit 40 is formed in the shape of a vertically long cuboid.
  • an X direction is a width direction of the heat pump water heater 1
  • a Y direction is a depth direction of the heat pump water heater 1
  • a Z direction is a height direction of the heat pump water heater 1.
  • Fig. 2 is a perspective view illustrating an internal configuration of the heat pump water heater 1 as illustrated in Fig. 1 .
  • the housing unit 40 is made up of a plurality of plate-like members.
  • the housing unit 40 includes a rear sheet metal 43, a bottom plate 44, a front plane 41, two side panels 42, and a top panel 45.
  • the rear sheet metal 43 forms a rear surface of the housing unit 40;
  • the bottom plate 44 forms a lower surface of the housing unit 40;
  • the front panel 1, as illustrated in Fig. 1 forms a front surface of the housing unit 40;
  • the two side panels 42 form a left side surface and a right side surface of the housing unit 40, respectively; and
  • the top panel 45 forms an upper surface of the housing unit 40.
  • the rear sheet metal 43 has screw holes 43a which allow screws to be inserted thereinto to fix a base sheet metal 52 to be described later ( Fig. 4 ) to the rear sheet metal 43.
  • a drainage outlet (not illustrated) for drain water is formed in the rear sheet metal 43.
  • the heat pump water heater 1 includes a first circuit unit 3 and a second circuit unit 2.
  • the first circuit unit 3 is connected to the second circuit unit 2.
  • the first circuit unit 3 includes a connection circuit C12 in which water serving as a heat medium flows, and heats the water by heat exchange that is performed between the water and refrigerant.
  • the first circuit unit 3 includes a hot-water supply side circuit C11 in which water for hot-water supply flows.
  • the first circuit unit 3 supplies heated water for hot-water supply to a target external device or equipment such as a shower or a kitchen.
  • the hot-water supply side circuit C11 includes a water storage tank 31 that stores water supplied from a water source such as a water supply.
  • the second circuit unit 2 is connected to the connection circuit C12 of the first circuit unit 3, and also connected to external heating loads (not illustrated) having different operating temperatures such as a radiator and floor heating.
  • Fig. 3 is a perspective view illustrating a configuration of the second circuit unit 2 of the heat pump water heater 1 as illustrated in Fig. 2 .
  • the second circuit unit 2 includes a high-temperature side hot-water supply circuit C21, a low-temperature side hot-water supply circuit C22, a returning circuit C23, and a bypass circuit C24, and mixes water heated by the first circuit unit 3 (which may be hereinafter referred to as high-temperature water) with return water which has released heat.
  • the first circuit unit 3 which may be hereinafter referred to as high-temperature water
  • high-temperature water is supplied from the high-temperature side hot-water supply circuit C21 to a high-temperature side heating load (not illustrated), and water which is mixed water of high-temperature water and return water from the high-temperature side heating load (and which may be referred to as low-temperature water) is supplied from the low-temperature side hot-water supply circuit C22 to a low-temperature side heating load (not illustrated).
  • the flow direction of hot-temperature water that flows from the first circuit unit 3 into the second circuit unit 2 is indicated by an outlined arrow A1
  • the flow direction of return water that flows out from the second circuit unit 2 into the first circuit unit 3 is indicated by an outlined arrow A6.
  • the flow direction of high-temperature water that is sent out from the second circuit unit 2 to the high-temperature side heating load is indicated by an outlined arrow A2
  • the flow direction of return water that returns from the high-temperature side heating load to the second circuit unit 2 is indicated by an outlined arrow A3.
  • Fig. 3 the flow direction of hot-temperature water that flows from the first circuit unit 3 into the second circuit unit 2 is indicated by an outlined arrow A1
  • the flow direction of return water that flows out from the second circuit unit 2 into the first circuit unit 3 is indicated by an outlined arrow A6.
  • the flow direction of high-temperature water that is sent out from the second circuit unit 2 to the high-temperature side heating load is indicated by an outlined arrow A
  • the heat pump water heater 1 includes a drainage portion 70 (see Fig. 7 ) for draining dew condensation water (hereinafter referred to as drain water) generated in the housing unit 40 to the outside thereof.
  • the hot-water supply side circuit C11 causes water for hot-water supply to be heated by heat exchange with high-temperature water in the connection circuit C12, and sends the heated water to a target device or equipment for hot-water supply.
  • the hot-water supply side circuit C11 includes: the water storage tank 31 to which the inflow pipe P11 for water for hot-water supply and the outflow pipe P12 for water for hot-water supply are connected; a pipe P13 that connects an upper part and a lower part of the water storage tank 31; a pump 6c for hot-water supply; and a water-to-water heat exchanger 30.
  • the water-to-water heat exchanger 30 causes heat exchange to be performed between high-temperature water in the first circuit unit 3, high-temperature water in the hot-water supply side circuit C11, and water for hot-water supply in the connection circuit C12.
  • connection circuit C12 of the first circuit unit 3 causes water serving as a heat medium to be heated by heat exchange with refrigerant; sends out the heated water, that is, high-temperature water, to the second circuit unit 2; and also causes the high-temperature water to flow in the water-to-water heat exchanger 30 to heat water for hot-water supply in the hot-water supply side circuit C11.
  • the connection circuit C12 includes a water pump 6d, a refrigerant-to-water heat exchanger 32, the above water-to-water heat exchanger 30, a three-way valve 33, a first outflow pipe P14 from which water flows to the second circuit unit 2, a first inflow pipe P15 into which water flows from the second circuit unit 2, etc.
  • An outlet side of the first outflow pipe P14 is connected with a second inflow pipe P21 of the second circuit unit 2, and the first inflow pipe P15 is connected with the second outflow pipe P22 of the second circuit unit 2.
  • the returning circuit C23 of the second circuit unit 2 returns to the first circuit unit 3, high-temperature water that is unused water of return water that returns from the external heating load and high-temperature water that has flowed from the first circuit unit 3 into the second circuit unit 2.
  • the bypass circuit C24 of the second circuit unit 2 is connected to an intermediate portion of the returning circuit C23 and an intermediate portion of the low-temperature side hot-water supply circuit C22, and is configured to use return water from the high-temperature side heating load in the supply of water to the low-temperature side heating load.
  • the second circuit unit 2 includes flow passage components such as a plurality of pipes, a mixing valve 23, the first water pump 6a, and the second water pump 6b.
  • the second circuit unit 2 may include a strainer 20 that removes unnecessary material in water.
  • the pipes are joined to each other by, for example, brazing.
  • the pipes included in the second circuit unit 2 include a high-temperature-side main pipe P23, the second inflow pipe P21 which is connected to an intermediate part of the high-temperature-side main pipe P23, a high-temperature-side outward pipe P24 which is connected to one end of the high-temperature-side main pipe P23, etc.
  • the pipes included in the second circuit unit 2 include a low-temperature-side main pipe P25, a low-temperature-side outward pipe P26 which is connected to one end of the low-temperature-side main pipe P25, a high-temperature water flow pipe P27, etc.
  • the high-temperature water flow pipe P27 connects the other end of the low-temperature-side main pipe P25 and part of the high-temperature-side main pipe P23 that is closer to the other end of the high-temperature-side main pipe P23 than part thereof to which the second inflow pipe P21 is connected.
  • the first water pump is provided at part of the high-temperature-side main pipe P23 that is closer to the one end of the high-temperature-side main pipe P23 than the part thereof to which the second inflow pipe P21 is connected.
  • Part of the high-temperature-side main pipe P23 that is closer to the one end of the high-temperature-side main pipe P23 than the part thereof to which the second inflow pipe P21 is connected, the first water pump 6a, and the high-temperature-side outward pipe P24 form the high-temperature side hot-water supply circuit C21.
  • the mixing valve 23 is provided at part of the low-temperature-side main pipe P25 that is close to the high-temperature water flow pipe P27, and the first water pump 6a is provided at part of the low-temperature-side main pipe P25 that is closer to the low-temperature-side outward pipe P26 than to the mixing valve 23.
  • the pipes included in the second circuit unit 2 include a return main pipe P28, the second outflow pipe P22 which is connected to an intermediate part of the return main pipe P28, a high-temperature-side return pipe P29 which is connected to one end of the return main pipe P28, etc.
  • the pipes included in the second circuit unit 2 include a low-temperature-side return pipe P30 which is connected to part of the return main pipe P28 that is closer to the one end of the return main pipe P28 than part thereof to which the second outflow pipe P22 is connected, etc.
  • the high-temperature-side return pipe P29, the low-temperature-side return pipe P30, the return main pipe P28, and the second outflow pipe P22 form the returning circuit C23.
  • the pipes included in the second circuit unit 2 include a return branch pipe P31 which is connected to an intermediate part of the high-temperature-side return pipe P29 and a return water flow pipe P32 which connects the return branch pipe P31 and the mixing valve 23.
  • the return branch pipe P31, the strainer 20, and the return water flow pipe P32 form the bypass circuit C24.
  • the high-temperature water that has flowed into the high-temperature side hot-water supply circuit C21 flows into the high-temperature-side outward pipe P24 through the first water pump 6a provided at the high-temperature-side main pipe P23, and is sent from the outlet of the high-temperature-side outward pipe P24 to the high-temperature side heating load.
  • the high-temperature water sent out from the high-temperature-side outward pipe P24 releases heat at the high-temperature side heating load and then flows out from the high-temperature side heating load, thereby fulfilling a heating function at a high temperature.
  • the water which has released heat at the high-temperature side heating load (which will be hereinafter referred to as high-temperature-water return water) flows into the returning circuit C23 of the second circuit unit 2 though the high-temperature-side return pipe P29.
  • Part of the high-temperature-water return water that has flowed into the returning circuit C23 flows into the mixing valve 23 though the bypass circuit C24, and the remaining part of the high-temperature-water return water flows into the return main pipe P28.
  • the high-temperature-water return water passes through the bypass circuit C24, unnecessary material in the high-temperature-water return water is removed by the strainer 20.
  • the high-temperature-water return water that has flowed into the mixing valve 23 though the bypass circuit C24, in the mixing valve 23 provided in the low-temperature side hot-water supply circuit C22 mixes with high-temperature water that has flowed into the low-temperature side hot-water supply circuit C22 through the second inflow pipe P21, thereby changing into low-temperature water that is lower in temperature than the high-temperature water.
  • the low-temperature water that has flowed out from the mixing valve 23 of the low-temperature side hot-water supply circuit C22 flows into the low-temperature-side outward pipe P26 through the second water pump 6b, and is sent from the outlet of the low-temperature-side outward pipe P26 to the low-temperature side heating load 104.
  • the low-temperature water sent out from the outlet of the low-temperature-side outward pipe P26 releases heat at the low-temperature side heating load 104 and then flows out from the low-temperature side heating load 104, thereby fulfilling a heating function at a low temperature.
  • the water which has released heat at the low-temperature side heating load 104 (which will be hereinafter referred to as low-temperature-water return water) flows into the returning circuit C23 of the second circuit unit 2 through the low-temperature-side return pipe P30.
  • the low-temperature-water return water that has flowed into the returning circuit C23 joins the remaining part of the high-temperature-water return water in the return main pipe P28, and is then re-sent to the first circuit unit 3 through the second outflow pipe P22.
  • Fig. 4 is an exploded perspective view illustrating the second circuit unit 2 of the heat pump water heater 1 as illustrated in Fig. 2 .
  • Fig. 5 is a partial perspective view illustrating a configuration of an upper part of the heat pump water heater 1 as illustrated in Fig. 2 .
  • a peripheral configuration of the second circuit unit 2 in the heat pump water heater 1 will be described with reference to Figs. 3 to 5 .
  • the heat pump water heater 1 includes a fixation sheet metal 50 to which the flow passage components included in the second circuit unit 2 are fixed, a fixing component 51 that fixes the flow passage components to the fixation sheet metal 50, and the base sheet metal 52 that attaches the fixation sheet metal 50 to the rear sheet metal 43.
  • the flow passage components of the second circuit unit 2 are provided on a front surface side of the fixation sheet metal 50.
  • a fixing component 51 needs to be provided. That is, the fixing component or fixing components 51 may be provided only at one or more of the flow passage components. In an example illustrated in Fig.
  • the fixing component 51 is not provided at any of flow passage components provided at the return water flow pipe P32 and the return water flow pipe P32, such as the strainer 20, the first water pump 6a, the second water pump 6b, and the mixing valve 23.
  • all the flow passage components included in the second circuit unit 2 are united to the fixation sheet metal 50; however, it suffices that at least two of the flow passage components are united to the fixation sheet metal 50.
  • the fixing component 51 is configured to fix, for example, the pipes of the flow passage components included in the second circuit unit 2 to the fixation sheet metal 50.
  • the fixing component 51 can be formed of a metal band.
  • the fixing component 51 which fixes the pipes includes, for example, a U-shaped peripheral portion 51a that contacts an outer periphery of a pipe, and fixation portions 51b that extend from both end portions of the peripheral portion 51a and are fixed to the fixation sheet metal 50 by fixation screws 54.
  • the base sheet metal 52 is fixed to the rear sheet metal 43 of the housing unit 40 by screws.
  • the base sheet metal 52 includes a flat plate portion 52a to which the fixation sheet metal 50 is fixed to face the flat plate portion 52a, connection portions 52c that extend rearward from both sides of the flat plate portion 52a in a width direction thereof (the X direction), and base fixation portions 52b that extend outward from rear ends of the connection portions 52c.
  • the flat plate portion 52a has a rectangular shape in a frontal view of the flat plate portion 52a, that is, as viewed in a direction toward the front side of the flat plate portion 52a.
  • the flat plate portion 52a has the screw holes 43a into which screws are inserted to fix the fixation sheet metal 50 to the flat plate portion 52a.
  • connection portions 52c Of the two connection portions 52c, a right connection portion 52c extends rearward from a right end of the flat plate portion 52a to connect with a left end of the right one of the base fixation portions 52b, and a left connection portion 52c extends rearward from a left end of the flat plate portion 52a to connect with a right end of the left one of the base fixation portions 52b.
  • the base sheet metal 52 is fixed to the housing unit 40 such that the base fixation portions 52b face an inner surface of the rear sheet metal 43.
  • screws 52b1 are formed at positions each of which corresponds to an associated one of the screw holes 4a formed in the rear sheet metal 43.
  • the screw holes 43a of the rear sheet metal 43 are provided in an upper part of the rear sheet metal 43 such that two of the screw holes 43a are arranged in an up-down direction on a left side of the upper portion of the rear sheet metal 43 and the other two of the screw holes 43a are arranged in the up-down direction on a right side of the upper portion of the rear sheet metal 43; and the holes 52b1 of each of the base fixation portions 52b are provided at two positions in the up-down direction.
  • respective screws are inserted to fix the base sheet metal 52 to the rear sheet metal 43.
  • a space is provided between the flat plate portion 52a of the base sheet metal 52, the two connection portions 52c, and the rear sheet metal 43.
  • a space is provided between the flat plate portion 52a of the base sheet metal 52, the two connection portions 52c, and the rear sheet metal 43.
  • the fixation sheet metal 50 has a rectangular shape in a frontal view of the fixation sheet metal 50, that is, as viewed a direction toward the front side of the fixation sheet metal 50.
  • holes 50a are provided at respective positions which correspond to positions of screw holes 52a1 formed in the flat plate portions 52a of the base sheet metal 52.
  • the screw holes 52a1 of the flat plate portion 52a of the base sheet metal 52 are provided such that two of the screw holes 52a1 are arranged in the up-down direction on the left side of the flat plate portion 52a and the other two of the screw holes 52a1 are arranged in the up-down direction on the right side of the flat portion 52a; and likewise, the holes 50a of the fixation sheet metal 50 are provided such that two of the holes 50a are arranged in the up-down direction on the left side of the fixation sheet metal 50 and the other two of the holes 50a are arranged in the up-down direction on the right side of the fixation sheet metal 50.
  • fixation sheet metal 50 In the holes 50a of the fixation sheet metal 50 and the screw holes 52a1 of the flat plate portion 52a of the base sheet metal 52, respective screws are inserted to fix the fixation sheet metal 50 to the base sheet metal 52. It should be noted that regarding the above matter, it suffices that the fixation sheet metal 50 can be stably fixed to the base sheet metal 52, and the numbers and positions of the holes 50a and the screw holes 52a1 are not limited to the above numbers and positions.
  • an upper flange 50 is formed in such a manner to extend rearward.
  • Fig. 4 in the case where the fixation sheet metal 50 which is united to the second circuit unit 2 is attached to the rear sheet metal 43, with the base sheet metal 52 interposed between the fixation sheet metal 50 and the rear sheet metal 43, when the upper flange 50c of the fixation sheet metal 50 is pulled to an upper end of the base sheet metal 52, in the up-down direction (the Z direction), the fixation sheet metal 50 is positioned.
  • the fixation sheet metal 50 to which the flow passage components of the second circuit unit 2 are fixed is fixed to the base sheet metal 52 which is fixed to the rear sheet metal 43, by a plurality of screws, the fixation sheet metal 50 is fixedly supported by the base sheet metal 52 fixedly because of provision of the plurality of screws and the upper flange 50c of the fixation sheet metal 50.
  • the fixation sheet metal 50 is provided substantially parallel to the rear sheet metal 43.
  • the assembly efficiency can be improved, as compared with the existing heat pump water heater.
  • the flow passage components to be fixed to the fixation sheet metal 50 by the fixing component 51 preferably, should be united to the fixation sheet metal 50 in advance.
  • flow passage components included in the second circuit unit 2 may be attached to the fixation sheet metal 50 after the incorporation step; that is, they may not be fixed to the fixation sheet metal 50 in advance.
  • a lower flange 50b is formed in such a manner to extend forward.
  • a hole 50b1 is provided to allow a screw 53 to be inserted thereinto, and a first drain pan 71, which will be described later, is attached to a lower end portion of the fixation sheet metal 50 by the screw 53 inserted in the hole 50b1 of the lower flange 50b.
  • a configuration of the first drain pan 71 will be described later.
  • the fixation sheet metal 50 to which the first drain pan 71 is attached, to which the second circuit unit 2 is fixed by the fixing component 51, and which is united to the first drain pan 71 and the second circuit unit 2 as illustrated in Fig. 3 may be referred to as a second circuit assembly 99.
  • the layout of the flow passage components included in the second circuit unit 2 in the second circuit assembly 99 will be described with reference to Fig. 3 .
  • the flow passage components included in the second circuit unit 2 are arranged at two stages, that is, an upper stage and a lower stage, as a whole, on the front side of the fixation sheet metal 50. That is, the high-temperature side hot-water supply circuit C21 and the low-temperature side hot-water supply circuit C22 of the second circuit unit 2 are arranged at the upper stage and the lower stage, respectively.
  • the high-temperature-side main pipe P23 at which the first water pump 6a of the high-temperature side hot-water supply circuit C21 is provided and the low-temperature-side main pipe P25 at which the second water pump 6b and the mixing valve 23 of the low-temperature side hot-water supply circuit C22 are provided are arranged such that their axes extend in the width direction (the X direction) and are substantially parallel to each other. That is, of the flow passages included in the second circuit unit 2, especially, the second water pump 6b, the mixing valve 23, and the first water pump 6a which are thicker than the pipes, are arranged at the two stages in the up-down direction.
  • the first water pump 6a of the high-temperature side hot-water supply circuit C21 and the second water pump 6b of the low-temperature side hot-water supply circuit C22, which are connected parallel to each other, are arranged in the up-down direction; and the mixing valve 23 is provided at a position which is located on an upstream one of the left side and right side of the second water pump 6b in the low-temperature side hot-water supply circuit C22.
  • the low-temperature-side main pipe P25 at which the second water pump 6b of the low-temperature side hot-water supply circuit C22 configured to supply low-temperature water is provided is provided above the high-temperature-side main pipe P23 at which the first water pump 6a of the high-temperature side hot-water supply circuit C21 is provided. Furthermore, the second inflow pipe P21 is connected to part of the high-temperature-side main pipe P23 that is closer to the left side than part thereof at which the first water pump 6a is provided, and the mixing valve 23 is provided at part of the low-temperature-side main pipe P25 that is closer to the left side than part thereof at which the second water pump 6b is provided.
  • pipes at which none of the first water pump 6a, the second water pump 6b, and the mixing valve 23 are provided are arranged in the front of the fixation sheet metal 50 and at two stages in a front-back direction.
  • the pipes connected to the external heating load such as the high-temperature-side outward pipe P24, the low-temperature-side outward pipe P26, the high-temperature-side return pipe P29, and the low-temperature-side return pipe P30, are arranged in the front-back direction in units of one pair of pipes such that, for example, the high-temperature-side outward pipe P24 and the low-temperature-side outward pipe P26 are arranged in the front-back direction and the high-temperature-side return pipe P29 and the low-temperature-side return pipe P30 are arranged in the front-back direction.
  • the high-temperature-side outward pipe P24 which is connected to the high-temperature-side main pipe P23 and the low-temperature-side outward pipe P26 which is connected to the low-temperature-side main pipe P25 are arranged substantially in the front-back direction and in parallel with each other such that for example, their axes extend in the height direction (the Z direction).
  • the high-temperature-side return pipe P29 and the low-temperature-side return pipe P30 which are connected to the other end of the high-temperature-side main pipe P23 by the return main pipe P28 are arranged in the front-back direction and substantially in parallel with each other such that, for example, their axes extend in the height direction (the Z direction).
  • the high-temperature-side outward pipe P24 is located in the front of the low-temperature-side outward pipe P26, and is bent in such a manner as to connect to one end of the high-temperature-side main pipe P23.
  • the low-temperature-side return pipe P30 is located in the front of the high-temperature-side return pipe P29, and is L-shaped in such a manner as to connect to an intermediate part of the return main pipe P28.
  • the high-temperature-side outward pipe P24 and the low-temperature-side outward pipe P26 are located in the front of the right side of the front surface of the fixation sheet metal 50, and the high-temperature-side return pipe P29 and the low-temperature-side return pipe P30 are located in the front of the left side of the front surface of the fixation sheet metal 50.
  • the return water flow pipe P32 of the bypass circuit C24 is located in the front of the high-temperature water flow pipe P27 which connects an intermediate part of the high-temperature-side main pipe P23 and the other end of the low-temperature-side main pipe P25.
  • the return water flow pipe P32 is L-shaped in such a manner as connect to mixing valve 23 provided at the low-temperature-side main pipe P25.
  • the first drain pan 71 is provided under the flow passage components included in the second circuit unit 2, and collects drain water which is generated at the second circuit unit 2.
  • the first drain pan 71 forms part of the drainage portion 70 ( Fig. 7 ).
  • the first drain pan 71 is formed of resin, etc., and has, for example, a rectangular shape as viewed in plan view.
  • the first drain pan 71 has a length Wx in the X direction that is equal to or slightly greater than that of the second circuit unit 2 thereof which includes the flow passage components.
  • the first drain pan 71 has a width Wy in the Y direction that is equal to or slightly greater than that of the second circuit unit 2 which includes the flow passage components.
  • the width Wy ( Fig. 3 ) of the first drain pan 71 in the Y direction can be reduced as compared with the existing heat pump water heater. Furthermore, by virtue of the above configuration, it is possible to reduce the depth of the heat pump water heater 1, that is, the width of the heat pump water heater 1 in the depth direction thereof (the Y direction), as compared with the exiting heat pump water heater, and more easily achieve the access to each of components provided in the housing unit 40 from the front side thereof and improve the assembly efficiency.
  • a flange 71b is provided in such a manner as to extend upward, and on an upper surface of the first drain pan 71, projections 71c having respective screw holes are provided close to a rear side of the flange 71b.
  • the projections 71c and the holes 50b1 in the example illustrated in Fig. 3 , two projections 71c are provided at a left position and a right position, respectively, on a rear part of the upper surface of the first drain pan 71, and two holes 50b1 are provided at a left position and a right position, respectively, in the lower flange 50b of the fixation sheet metal 50.
  • the drain outlet 71a is formed in the first drain pan 71.
  • the first drain pan 71 is provided substantially horizontally, with the second circuit assembly 99 set at the housing unit 40 in which the first circuit unit 3 is mounted.
  • the drain outlet 71a is formed in lowermost part of the first drain pan 71.
  • the first drain pan 71 is slightly inclined relative to a horizontal plane such that in the depth direction (the Y direction), the rear side of the first drain pan 71 is located at a lower level than the front side thereof, and the drain outlet 71a is formed in the lowermost part of the first drain pan 71, which is close to a rear edge thereof.
  • an assembly method of the heat pump water heater 1 includes a step of incorporating the fixation sheet metal 50 to which the flow passage components of the second circuit unit 2 are fixed, into the housing unit 40 in which the first circuit unit 3 is housed.
  • the fixation sheet metal 50 since the flow passage components of the second circuit unit 2 are fixed to the fixation sheet metal 50 and the flow passage components and the fixation sheet metal 50 are united, when the fixation sheet metal 50 is fixed to the base sheet metal 52 fixed to the rear sheet metal 43, the second circuit unit 2 is easily incorporated into the heat pump water heater 1.
  • the second circuit unit 2 is fixed to the fixation sheet metal 50, and the first drain pan 71 is further fixed to the fixation sheet metal 50, thereby forming the second circuit assembly 99, the second circuit unit 2 and the first drain pan 71 can be incorporated into the heat pump water heater 1 at the same time, thus improving the assembly efficiency.
  • Fig. 6 is a right-side view illustrating a configuration of a connection portion R1 between the second circuit unit 2 and the first circuit unit 3 that is located in the upper part of the heat pump water heater 1 as illustrated in Fig. 5 .
  • the configuration of the connection portion R1 between the second circuit unit 2 and the first circuit unit 3 will be described with reference to Figs. 5 and 6 .
  • the second circuit unit 2 and the first circuit unit 3 are connected by the pipes. In this case, preferably, this pipe connection should be achieved by a connection method in which pipes can be connected to and disconnected from each other without using a tool.
  • the heat pump water heater 1 includes two fasteners 13 formed of sheet metal, and the first circuit unit 3 and the second circuit unit 2 are quickly connected by the fasteners 13.
  • One of the two fasteners 13, as illustrated in Fig. 6 connects the first outflow pipe P14 of the first circuit unit 3 and the second inflow pipe P21 of the second circuit unit 2, and the other, as illustrated in Fig. 5 , connects the second outflow pipe P22 of the second circuit unit 2 and the first inflow pipe P15 of the second outflow pipe P22.
  • connection portion R1 in the case where the first outflow pipe P14 of the first circuit unit 3 and the second inflow pipe P21 of the second circuit unit 2 are quickly connected by the fasteners will be described with reference to Fig. 6 .
  • a water outlet side of the first outflow pipe P14 of the first circuit unit 3 and a water inlet side of the second inflow pipe P21 of the second circuit unit 2 form respective joints 15, and O-rings 14 are provided at inner parts of the joints 15.
  • the joints 15 of the first outflow pipe P14 of the first circuit unit 3 and the second inflow pipe P21 of the second circuit unit 2 are brought into contact with each other, and fixed and connected by the fasteners 13 (quick fastener connection).
  • connection between the second outflow pipe P22 of the second circuit unit 2 and the first inflow pipe P15 of the first circuit unit 3 is achieved by the quick fastener connection, as well as the connection between the first outflow pipe P14 of the first circuit unit 3 and the second inflow pipe P21 of the second circuit unit 2.
  • the first circuit unit 3 and the second circuit unit 2 are connected by the fasteners 13.
  • the first circuit unit 3 and the second circuit unit 2 are connected, with the second circuit assembly 99 fixed to the housing unit 40 in which the first circuit unit 3 is mounted, this connection is achieved without a tool, and the work for the connection can be simplified.
  • Fig. 7 is a left-side view of the heat pump water heater 1 as illustrated in Fig. 2 .
  • the heat pump water heater 1 is used in a region which is relatively low in temperature, and drain water is generated in the heat pump water heater 1 because of the temperature difference between the temperature in the heat pump water heater 1 and an outside temperature.
  • the drain water is generated, especially, in the first circuit unit 3 and the second circuit unit 2 which include the pipes, etc.
  • a heat pump apparatus 100 is formed to have the drainage portion 70 which causes the drain water to be drained from the housing unit 40 to the outside of the housing unit 40.
  • the drainage portion 70 includes, for example, a first drain pan 71, a second drain pan 72, a first drain hose 74, a second drain hose 75, etc.
  • the first drain pan 71 is provided under the second circuit unit 2 and above the first circuit unit 3, especially, the water storage tank 31; and collects drain water generated in the second circuit unit 2.
  • the second drain pan 72 collects drain water generated in the first circuit unit 3, and is provided at a lower position than the first drain pan 71.
  • the second drain pan 72 is provided on the bottom plate 44 of the housing unit 40.
  • the first drain hose 74 is provided between the first drain pan 71 and the second drain pan 72, and guides drain water from the second circuit unit 2 that is collected by the first drain pan 71 to an upper surface of the second drain pan 72.
  • An upper end of the first drain hose 74 is connected to the first drain pan 71, and a lower end of the first drain hose 74 is located at a slightly upper position than the second drain pan 72.
  • the second drain hose 75 is connected to drain outlets (not illustrated) that are formed in the second drain pan 72 and the rear sheet metal 43 of the housing unit 40, and is intended to let out drain water collected at the second drain pan 72 to the outside of the housing unit 40.
  • Fig. 8 is a partial enlarged view illustrating a peripheral configuration of a connection portion R2 between the first drain hose 74 and the first drain pan 71 in the heat pump water heater 1 as illustrated in Fig. 7 .
  • the heat pump water heater 1 includes a socket portion 73 that communicates with the drain outlet 71a of the first drain pan 71.
  • the socket portion 73 extends to a lower region located below the first drain pan 71.
  • an upper end portion of the first drain hose 74 is attached to the socket portion 73.
  • drain water from the second circuit unit 2 which is located above the first circuit unit 3 in the housing unit 40 is temporarily collected at the first drain pan 71. Then, the drain water temporarily collected at the first drain pan 71 flows to the first drain hose 74 through the drain outlet 71a of the first drain pan 71 and the socket portion 73 ( Fig. 8 ), passes through the first drain hose 74, and is then temporarily collected at the second drain pan 72. Furthermore, drain water from the first circuit unit 3 is temporarily collected at the second drain pan 72. When the amount of the drain water collected at the second drain pan 72 exceeds a given amount, the drain water passes through the second drain hose 75, and is let out to the outside through the drain outlet of the housing unit 40.
  • the housing unit 40 does not need to have a drain outlet between the first circuit unit 3 and the second circuit unit 2, and it is possible to let out the drain water from the second circuit unit 2, along with the drain water from the first circuit unit 3.
  • the heat pump water heater 1 includes the first circuit unit 3, the second circuit unit 2 including the flow passage components, the housing unit 40 which houses the first circuit unit 3 and the second circuit unit 2, and the fixation sheet metal 50.
  • the first circuit unit 3 water is circulated, and heated by heat exchange with refrigerant.
  • the second circuit unit 2 is connected to the external heating load, causes the water heated by the first circuit unit 3 to flow to the external heating load and release heat at the external heating load, and mixes the water heated by the first circuit unit 3 and return water that has released heat at the heating load with each other.
  • the fixation sheet metal 50 the flow passage components of the second circuit unit 2 are fixed.
  • the fixation sheet metal 50 is attached to the housing unit 40.
  • the fixation sheet metal 50 to which the flow passage components of the second circuit unit 2 are fixed is attached to the housing unit 40, the second circuit unit 2 and the fixation sheet metal 50 are united in advance, and it is not necessary to fix each of the flow passage components of the second circuit unit 2 to the housing unit 40. Therefore, it is possible to prevent the number of steps of the work for incorporating the second circuit unit 2 into the housing unit 40 in which the first circuit unit 3 is provided, from being increased depending on the number of the flow passage components, and also reduce a decrease in the assembly efficiency even in the case where in the first circuit unit 3 and the second circuit unit 2 are provided, as compared with the existing heat pump water heater.
  • the second circuit unit 2 is provided above the first circuit unit 3.
  • the flow passage components of the second circuit unit 2 are located in an upper region in the housing unit 40, and a worker can easily see where to set the flow passage components, and can thus easily carry out a work for setting the flow passage components.
  • the first drain pan 71 is provided at the fixation sheet metal 50 and below the second circuit unit 2 to collect drain water generated in the second circuit unit 2.
  • the first drain pan 71 is provided at the fixation sheet metal 50 and below the second circuit unit 2 to collect drain water generated in the second circuit unit 2.
  • the second circuit unit 2 is provided above the first circuit unit 3, and the heat pump water heater 1 includes the first drain pan 71 which collects drain water generated in the second circuit unit 2, the second drain pan 72 which collects drain water generated in the first circuit unit 3, and the first drain hose 74.
  • the first drain hose 74 is connected to the first drain pan 71, and guides the drain water sent from the second circuit unit 2 to the upper surface of the second drain pan 72.
  • drain water from the second circuit unit 2 which is collected at the first drain pan 71 can be made to join drain water from the first circuit unit 3, through the first drain hose 74.
  • the drain outlet of the housing unit 40 can also be used in the above case. Therefore, it is not necessary to increase the number of drain outlets.
  • the second circuit unit 2 includes, as flow passage components, the high-temperature-side main pipe P23 in which water heated by the first circuit unit 3 (high-temperature water) flows and the low-temperature-side main pipe P25 in which mixed water (low-temperature water) flows. Furthermore, the second circuit unit 2 includes, as flow passage components, the first water pump 6a provided at the high-temperature-side main pipe P23 and the second water pump 6b provided at the low-temperature-side main pipe P25.
  • the high-temperature-side main pipe P23 and the low-temperature-side main pipe P25 are provided in an upper region and a lower region, respectively, and extend in the lateral direction (the X direction).
  • the first water pump 6a and the second water pump 6b are arranged in the up-down direction (the Z direction), and the heat pump water heater 1 can be made thinner, as a result of which the worker can easily reach a deep portion of the housing unit 40, and can easily perform maintenance and work for assembly, etc. Furthermore, in the above configuration, in the case where the first drain pan 71 is provided, the width Wy of the first drain pan 71 in the depth direction (the Y direction) can be reduced, as compared with that in the existing heat pump water heater, and the heat pump water heater 1 can be made thinner, and the cost of the first drain pan 71 can be reduced.
  • the fixation sheet metal 50 is attached to the heat pump water heater 1, the fixation sheet metal 50 is attached.
  • the heat pump water heater 1 includes the base sheet metal 52 which is provided at the inner surface of the rear sheet metal 43 of the housing unit 40.
  • the fixation sheet metal 50 to which the second circuit unit 2 is united can be set in the front of the rear sheet metal 43 in the housing unit 40, thereby improving the assembly efficiency.
  • the heat pump water heater 1 includes the fasteners 13 which is made of sheet metal, and which connects a pipe (for example, the second inflow pipe P21) of the second circuit unit 2, and a pipe (for example, the first outflow pipe P14) of the first circuit unit 3. Therefore, the pipe connection between the second circuit unit 2 and the first circuit unit 3 can be achieved by the fasteners 13, and thus, a tool is not necessary for the pipe connection, and the work for the above setting can be easily performed.
  • the assembly method of the heat pump water heater 1 according to Embodiment 1 includes a step of setting the fixation sheet metal 50 to which the flow passage components of the second circuit unit 2 are fixed, in the housing unit 40 which houses the first circuit unit 3. Therefore, in the assembly method of the heat pump water heater 1, it is possible to reduce a decrease in the assembly efficiency.
  • Fig. 9 is a circuit configuration view of a heat pump apparatus 100 according to Embodiment 2.
  • the heat pump apparatus 100 according to Embodiment 2 includes the heat pump water heater 1 according to Embodiment 1 and an outdoor unit 37.
  • the outdoor unit 37 include a compressor 34 that compresses refrigerant, an air-to-refrigerant heat exchanger 36 that causes heat exchange to be performed between the refrigerant and air, and an expansion valve 35 that reduces the pressure of the refrigerant.
  • the compressor 34 of the outdoor unit 37, the refrigerant-to-water heat exchanger 32 of the heat pump water heater 1, the expansion valve 35 of the outdoor unit 37, and the air-to-refrigerant heat exchanger 36 of the outdoor unit 37, are connected by refrigerant pipes, whereby a refrigerant circuit is formed.
  • water is circulated as a heat medium by the water pump 6d, and is heated by heat exchange with refrigerant at the refrigerant-to-water heat exchanger 32.
  • the water heated by the refrigerant that is, high-temperature water, flows from the three-way valve 33 to the water-to-water heat exchanger 30 and the second circuit unit 2.
  • the high-temperature water that has flowed from the three-way valve 33 to the water-to-water heat exchanger 30 transfers heat to water for hot-water supply that circulates in the hot-water supply side circuit C11, at the water-to-water heat exchanger 30, then joins return water from the second circuit unit 2, and re-flows into refrigerant-to-water heat exchanger 32 and is heated thereat.
  • running water is supplied from a water supply side 101 to the water storage tank 31 of the hot-water supply side circuit C11 of the first circuit unit 3 through the inflow pipe P11 for water for hot-water supply. Furthermore, water for hot-water supply which is stored in the water storage tank 31 is supplied to a hot-water supply side 102 through the outflow pipe P12 for water for hot-water supply.
  • the water for hot-water supply that is stored in the water storage tank 31 is circulated between the water-to-water heat exchanger 30 and the water storage tank 31 by the pump 6c for hot-water supply, through the pipe P13 which connects an upper part and a lower part of the water storage tank 31.
  • the water for hot-water supply that flows through the pipe P13 of the hot-water supply side circuit C11 exchanges heat with high-temperature water that flows into the water-to-water heat exchanger 30 from the three-way valve 33 of the connection circuit C12, and as a result, the water for hot-water supply is heated.
  • the flow direction of high-temperature water that is sent from the second circuit unit 2 to the high-temperature side heating load 103 is indicated by an outlined arrow A2
  • the flow direction of return water that flows from the high-temperature side heating load 103 to the second circuit unit 2 is indicated by an outlined arrow A3.
  • high-temperature water and high-temperature return water are mixed with each other
  • the flow direction of low-temperature water that flows from the second circuit unit 2 toward the low-temperature side heating load 104 is indicated by an outlined arrow A4
  • the flow direction of low-temperature-water return water that returns from the low-temperature side heating load 104 to the second circuit unit 2 is indicated by an outlined arrow A5.
  • An operation of the second circuit unit 2 is the same as that of Embodiment 1, and its description will thus be omitted.
  • the heat pump apparatus 100 includes an outdoor unit 37 that is provided with the heat pump water heater 1 and the air-to-refrigerant heat exchanger 36 which causes heat exchange to be performed between the refrigerant and air.
  • the heat pump apparatus 100 can also obtain the same advantages as the heat pump water heater 1 according to Embodiment 1.
  • the above embodiments can be combined, and each of the embodiments can be modified or omitted as appropriate.
  • the configuration of the housing unit 40 is limited to such a configuration thereof as described above.
  • the housing unit 40 may further include a support rod.
  • connection configuration of the pipes of the second circuit unit 2 is not limited to such a connection configuration as illustrated in Fig. 3 .

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Heat-Pump Type And Storage Water Heaters (AREA)
EP20967022.3A 2020-12-25 2020-12-25 Wärmepumpenwassererhitzer, wärmepumpenvorrichtung mit dem wärmepumpenwassererhitzer und verfahren zur montage des wärmepumpenwassererhitzers Pending EP4269904A4 (de)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/JP2020/048830 WO2022137536A1 (ja) 2020-12-25 2020-12-25 ヒートポンプ給湯器、ヒートポンプ給湯器を備えたヒートポンプ装置及びヒートポンプ給湯器の組み立て方法

Publications (2)

Publication Number Publication Date
EP4269904A1 true EP4269904A1 (de) 2023-11-01
EP4269904A4 EP4269904A4 (de) 2024-03-06

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EP20967022.3A Pending EP4269904A4 (de) 2020-12-25 2020-12-25 Wärmepumpenwassererhitzer, wärmepumpenvorrichtung mit dem wärmepumpenwassererhitzer und verfahren zur montage des wärmepumpenwassererhitzers

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Family Cites Families (10)

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Publication number Priority date Publication date Assignee Title
JP2006275412A (ja) * 2005-03-29 2006-10-12 Noritz Corp コージェネレーションシステムの熱回収装置、並びに、その製造方法
JP2007085656A (ja) 2005-09-22 2007-04-05 Matsushita Electric Ind Co Ltd 貯湯式給湯機
JP2006242566A (ja) 2006-05-30 2006-09-14 Noritz Corp 給湯器システムの生産方法
JP5247335B2 (ja) 2008-09-30 2013-07-24 三洋電機株式会社 暖房装置
JP2010281487A (ja) * 2009-06-03 2010-12-16 Mitsubishi Electric Corp 給湯機
JP5489733B2 (ja) * 2010-01-15 2014-05-14 三菱電機株式会社 貯湯タンク装置
JP6128331B2 (ja) 2014-02-26 2017-05-17 株式会社富士通ゼネラル 温水暖房装置
US10718549B2 (en) 2017-10-30 2020-07-21 Rheem Manufacturing Company Hybrid water heater
JP7038861B2 (ja) * 2019-01-25 2022-03-18 三菱電機株式会社 タンクユニット
EP3705820B1 (de) * 2019-03-08 2021-11-03 Daikin Industries, Ltd. Wärmequelleneinheit für eine wärmepumpe

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JPWO2022137536A1 (de) 2022-06-30
WO2022137536A1 (ja) 2022-06-30
JP7433478B2 (ja) 2024-02-19

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