EP2813779B1 - Hot water generator - Google Patents

Hot water generator Download PDF

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Publication number
EP2813779B1
EP2813779B1 EP14170085.6A EP14170085A EP2813779B1 EP 2813779 B1 EP2813779 B1 EP 2813779B1 EP 14170085 A EP14170085 A EP 14170085A EP 2813779 B1 EP2813779 B1 EP 2813779B1
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EP
European Patent Office
Prior art keywords
water
heat exchanger
connection port
pump
port
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.)
Active
Application number
EP14170085.6A
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German (de)
English (en)
French (fr)
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EP2813779A1 (en
Inventor
Shingo Fujibayashi
Manabu Sakai
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Panasonic Corp
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Panasonic Corp
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Publication date
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Publication of EP2813779A1 publication Critical patent/EP2813779A1/en
Application granted granted Critical
Publication of EP2813779B1 publication Critical patent/EP2813779B1/en
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Classifications

    • 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
    • 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
    • F24H9/14Arrangements for connecting different sections, e.g. in water heaters 
    • F24H9/148Arrangements of boiler components on a frame or within a casing to build the fluid heater, e.g. boiler
    • 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 
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24DDOMESTIC- OR SPACE-HEATING SYSTEMS, e.g. CENTRAL HEATING SYSTEMS; DOMESTIC HOT-WATER SUPPLY SYSTEMS; ELEMENTS OR COMPONENTS THEREFOR
    • F24D2200/00Heat sources or energy sources
    • F24D2200/12Heat pump
    • F24D2200/123Compression type heat pumps

Definitions

  • the present invention relates to a hot water generator for heating water using a refrigeration cycle.
  • a heat pump apparatus As conventional hot water generators of this kind, there is one integrally provided with a heat pump apparatus, a water heat exchanger and a pump (see patent document 1 for example).
  • a compressor In the heat pump apparatus, a compressor, a water heat exchanger (radiator) which exchanges heat between refrigerant and water to produce hot water, an expansion valve, and an air heat exchanger which exchanges heat between refrigerant and air are annularly connected to one another through a refrigerant pipe.
  • the pump circulates hot water between a heater terminal and a hot water supplying terminal.
  • Patent Document 2 forming the closest prior art, discloses all features of the preamble of claim 1 of the present invention.
  • the conventional configuration has the following problems. Since the heat pump unit and the hot water unit are separately provided, the hot water generator which is integrally formed together with them becomes large in size. Further, since the hot water unit is provided above the heat pump unit, if a draining operation of a water pipe is carried out, it is necessary to carefully carry out the operation to keep water away from the heat pump unit. Moreover, air stays in the water pipe depending upon a positional relation between the pump, the water heat exchanger and the water pipe connecting portion, and an air-removing operation becomes complicated.
  • the present invention has been accomplished to solve the conventional problems, and it is an object of the invention to provide a small hot water generator having excellent maintenance operability.
  • the present invention provides a hot water generator including: a refrigerant circuit formed by annularly connecting, to one another through a refrigerant pipe, a compressor, a first heat exchanger which exchanges heat between refrigerant and water, an expansion valve, and a second heat exchanger which exchanges heat between refrigerant and air; a water circuit formed by connecting, to each other through a water pipe, the first heat exchanger and a pump which sends water to the first heat exchanger under pressure; a fan which blows air into the second heat exchanger; a blowing chamber in which at least the fan is placed; a machine chamber in which at least the compressor is placed; an outer covering body which covers the blowing chamber and the machine chamber; a first connection port through which water flows into the water circuit; and a second connection port through which water flowing through the water circuit flows out, wherein the second connection port is placed at a location higher than the first connection port in a vertical direction, the first heat exchanger is placed at a location lower than the first connection port
  • the refrigerant circuit and the water circuit can be accommodated in the outer covering body, and the hot water generator can be made small in size. A draining operation and an air-removing operation can easily be carried out, and maintenance operability can be enhanced.
  • a first aspect of the present invention provides a hot water generator including: a refrigerant circuit formed by annularly connecting, to one another through a refrigerant pipe, a compressor, a first heat exchanger which exchanges heat between refrigerant and water, an expansion valve, and a second heat exchanger which exchanges heat between refrigerant and air; a water circuit formed by connecting, to each other through a water pipe, the first heat exchanger and a pump which sends water to the first heat exchanger under pressure; a fan which blows air into the second heat exchanger; a blowing chamber in which at least the fan is placed; a machine chamber in which at least the compressor is placed; an outer covering body which covers the blowing chamber and the machine chamber; a first connection port through which water flows into the water circuit; and a second connection port through which water flowing through the water circuit flows out, wherein the second connection port is placed at a location higher than the first connection port in a vertical direction, the first heat exchanger is placed at a location lower than the first connection port in
  • the air-removing operation When a user starts using the hot water generator, water is poured into the water circuit and the air-removing operation is carried out.
  • a maintenance operation carried out by the air-removing operation if water is poured from the first connection port in a state where the second connection port is opened into atmosphere, water which was poured into the water circuit is pushed up to a height of the second connection port.
  • the second connection port is provided at a location higher than the first heat exchanger and at the same height as the pump or at a location higher than the pump. Air generated by pouring water into the water circuit moves to a location higher than the pump and the first heat exchanger and is discharged out from the second connection port.
  • the first connection port is provided at the same height as the pump or at a location higher than the pump. Hence, in the draining operation in the water circuit, water staying in the pump is discharged from the first connection port only by opening the first connection port. Therefore, maintenance operability is further enhanced.
  • the discharge port is placed such that it is oriented in a horizontal direction or oriented upward from the horizontal direction.
  • air which flows into the pump is smoothly discharged from the discharge port which is placed such that it is oriented in the horizontal direction or oriented upward from the horizontal direction, and it is possible to restrain air from remaining in the pump. Further, water flow generated by driving the pump is formed upward from the horizontal direction. By driving the pump, air which flows into the pump can smoothly be discharged.
  • the draining operation for discharging water in the water circuit is carried out.
  • the first connection port and the second connection port are opened, water in the pump and water in the discharge pipe are discharged from the first connection port.
  • the discharge port of the pump is placed such that it is oriented upward from the horizontal direction, it is possible to smoothly flow water from the discharge port toward the suction port, and to discharge water from the pump. Hence, it is possible to restrain water from remaining in the pump, and to avoid a case where volume of water is increased by freezing and the pump is damaged by water.
  • the hot water generator further including a drainage port provided in a tip end of a drainpipe which branches off from the water pipe, the drainpipe is placed at a position lower than a water flow-path of the first heat exchanger, and a difference in height between the suction port and the drainage port in the vertical direction is greater than a difference in height between the suction port and the first connection port.
  • a difference in height between the suction port and the drainpipe in the vertical direction is made greater than a difference in height between the suction port and the first connection port, it is possible to increase a pressure difference applied in the pump. Hence, it is possible to reliably discharge water staying in the pump.
  • Fig. 1 is a perspective view of an outward appearance of a hot water generator according to an embodiment
  • Fig. 2 (a) is a top view showing an internal structure of the hot water generator
  • Fig. 2(b) is a front view showing the internal structure of the hot water generator
  • Fig. 3 is a sectional view taken along a line B-B in Fig. 1
  • Fig. 4 is a side view of Fig. 1 showing the internal structure as viewed from a direction A
  • Fig. 5 is an enlarged front view of essential portions of Fig. 2(b) .
  • Fig. 2(a) does not show a portion of an upper plate 1e
  • Fig. 2 (b) does not show portions of a fan 33, a water heat exchanger (first heat exchanger) 22 and a heat insulator 41.
  • Fig. 4 shows a water circuit 50, an air heat exchanger (second heat exchanger) 24, the upper plate 1e and a bottom plate 1d.
  • the hot water generator in the embodiment includes an outer covering body 1.
  • the outer covering body 1 is composed of a front plate 1a, a right side plate 1b, a left side plate 1c, the bottom plate 1d and the upper plate 1e.
  • the right side plate 1b includes a first connection port 51 and a second connection port 52 which project from the outer covering body 1.
  • the first connection port 51 supplies water to the hot water generator, and the second connection port 52 flows out hot water produced by the hot water generator.
  • the front plate 1a includes a bell mouth-shaped orifice 31. According to this, an air outlet 32 from which air flows out from an interior of the hot water generator is formed.
  • a surface (back surface) of the hot water generator which is opposite from the front plate 1a of the hot water generator is covered with an air heat exchanger 24 placed on the bottom plate 1d.
  • the air heat exchanger 24 when the air heat exchanger 24 is disposed up to a left side surface of the hot water generator so that the upper plate 1e can be fixed, the left side plate 1c may be omitted.
  • the hot water generator includes a refrigerant circuit 20 which configures a refrigeration cycle.
  • the refrigerant circuit 20 is configured by annularly connecting the following members to one another through a refrigerant pipe; i.e., a compressor 21 which compresses refrigerant, a water heat exchanger 22 which exchanges heat between refrigerant and water, an expansion valve (decompressor) 23 which expands refrigerant, and an air heat exchanger 24 which exchanges heat between refrigerant and air.
  • a compressor 21 which compresses refrigerant
  • a water heat exchanger 22 which exchanges heat between refrigerant and water
  • an expansion valve (decompressor) 23 which expands refrigerant
  • an air heat exchanger 24 which exchanges heat between refrigerant and air.
  • the water heat exchanger 22 is a double pipe type heat exchanger in which a refrigerant pipe through which refrigerant flows is accommodated in a water pipe through which water flows.
  • This double pipe is wound into a coiled shape and is formed into a substantially rectangular parallelepiped shape.
  • a periphery of the water heat exchanger 22 is covered with the heat insulator 41. Heat radiation loss from the water heat exchanger 22 is reduced by the heat insulator 41.
  • the heat insulator 41 is made of foamed resin material. Of a periphery of the heat insulator 41, its upper surface and a side surface are covered with a casing 42 which is made of erosion-resistant metal.
  • the casing 42 suppresses deterioration of the heat insulator 41 caused by heat, ultraviolet, rain and ozone, and the casing 42 prevents heat exchanging performance when hot water is produced from deteriorating.
  • the upper surface of the heat insulator 41 is a surface on the side of the upper plate 1e of the heat insulator 41, and the side surface of the heat insulator 41 is surfaces of the heat insulator 41 other than a surface on the side of the upper plate 1e and a surface on the side of the bottom plate 1d.
  • the hot water generator includes the water circuit 50.
  • the water circuit 50 is configured by connecting the following members to one another through a water pipe; i.e., the first connection port 51 through which water flows from outside into the water circuit 50, a pump 54, a water flow-path (water inlet 22a) of the water heat exchanger 22, and the second connection port 52 through which water flowing through the water circuit 50 flows to outside.
  • the first connection port 51 and a suction port 54a of the pump 54 are connected to each other through a water inlet pipe (suction pipe) 53, a discharge port 54b and the water heat exchanger 22 are connected to each other through a discharge pipe 55, and the water heat exchanger 22 and the second connection port 52 are connected to each other through a hot water outlet pipe 57.
  • the discharge pipe 55 is provided with an entering-water sensor 16 which detects temperature of water flowing through the interior, and the hot water outlet pipe 57 is provided with an outgoing-water sensor 17.
  • a drainpipe 56 is connected to the water circuit 50.
  • the drainpipe 56 is formed such that it branches off from any one of water pipes which form the water circuit 50, and a tip end of the drainpipe 56 is provided with a drainage port 56a which can open and close.
  • the drainage port 56a is exposed from the outer covering body 1. According to this, a later-described draining operation becomes easy, and maintenance operability is enhanced.
  • the drainage port 56a is provided below the right side plate 1b.
  • the drainpipe 56 is formed at a lowest location in the water circuit 50. According to this, the later-described draining operation becomes easy.
  • the drainpipe 56 branches off from a lowest location of the discharge pipe 55 and extends downward toward the drainage port 56a as shown in Fig. 4 . According to this, the drainpipe 56 is placed below the water flow-path (water inlet 22a) of the water heat exchanger 22.
  • the pump 54 includes a centrifugal impeller which sends water into its interior under pressure.
  • the suction port 54a is provided in a rotation shaft direction of the centrifugal impeller, and an end of a case in which the centrifugal impeller is accommodated is provided with the discharge port 54b from which water flows out.
  • the discharge port 54b is provided above the suction port 54a, and the discharge port 54b is oriented upward from the horizontal direction.
  • an interior of the hot water generator is separated into a blowing chamber 91 and a machine chamber 92 by a partition plate 90.
  • the outer covering body 1 covers at least upper surfaces, bottom surfaces, front surfaces and right side surfaces of peripheries of the blowing chamber 91 and the machine chamber 92.
  • the water heat exchanger 22 covered with the heat insulator 41, the air heat exchanger 24, the fan 33 for blowing air on the air heat exchanger 24, a fan motor 34 for rotating the fan 33, and a column 35 for supporting and fixing the fan motor 34 are placed in the blowing chamber 91.
  • the water heat exchanger 22 covered with the heat insulator 41 is placed on the bottom plate 1d.
  • the upper surface and the side surface of the heat insulator 41 are covered with the casing 42.
  • the heat insulator 41 is covered with the casing 42 and the bottom plate 1d. According to this, it is possible to restrain the heat insulator 41 from being exposed to heat, ultraviolet, rain and ozone, and to restrain the heat insulator 41 from deteriorating.
  • the water heat exchanger 22 is placed on the downwind side with respect to a direction of air flowing through the blowing chamber 91 as compared with the air heat exchanger 24.
  • temperature around the air heat exchanger 24 is lower than outside air temperature by about 5 to 8K.
  • temperature of the water heat exchanger 22 becomes high up to about 90°C. That is, in winter when outside air temperature is low and very hot water is produced, a temperature difference between the periphery of the air heat exchanger 24 and the water heat exchanger 22 becomes high up to about 100K.
  • a space is provided between the casing 42 and the heat insulator 41 on the upwind side of the heat insulator 41.
  • This space forms a heat-insulating layer, and high heat-retaining performance of the water heat exchanger 22 can be maintained. Further, it is possible to prevent rain which enters the blowing chamber 91 from coming into contact with the heat insulator 41, and to prevent aged deterioration of the heat insulator 41.
  • the water heat exchanger 22 is covered with the heat insulator 41 and the casing 42, it is possible to place the water heat exchanger 22 adjacent to the air heat exchanger 24. That is, the water heat exchanger 22 can be placed in the blowing chamber 91, and the hot water generator can be downsized.
  • a refrigerant pipe configuring the compressor 21, the expansion valve 23 and the refrigerant circuit 20 is placed in the machine chamber 92.
  • the air heat exchanger 24 is placed on the side of a surface (back surface) opposite from the front plate 1a such that it straddles the blowing chamber 91 and the machine chamber 92. It is only necessary that the air heat exchanger 24 is placed at least in the blowing chamber 91, and the air heat exchanger 24 need not extend from the blowing chamber 91 to the machine chamber 92.
  • the water inlet pipe 53, the pump 54, the discharge pipe 55 and the hot water outlet pipe 57 are placed in the machine chamber 92.
  • the water inlet pipe 53 and the hot water outlet pipe 57 are placed closer to the front plate 1a and the right side plate 1b than the compressor 21. According to this, when maintenance of the water heat exchanger 22 becomes necessary, since the water heat exchanger 22 and the water pipe connected to the water heat exchanger 22 are exposed only by detaching the front plate 1a, maintenance operability is enhanced.
  • the compressor 21, the expansion valve 23 and the pump 54 are controlled by a controller 25. Based on detection values of the entering-water sensor 16 and the outgoing-water sensor 17, the controller 25 controls the compressor 21, the expansion valve 23 and the pump 54 such that the detection value of the outgoing-water sensor 17 becomes equal to predetermined temperature.
  • Water which flows from outside into the water circuit 50 through the first connection port 51 flows from the first connection port 51 into the water inlet pipe 53 which extends in the horizontal direction. Water which flows through the water inlet pipe 53 flows from the suction port 54a of the pump 54 into the pump 54.
  • the first connection port 51, the water inlet pipe 53 and the suction port 54a are placed such that their heights become the same in the vertical direction. According to this, the draining operation becomes simple as will be described later. It is only necessary that a height of the suction port 54a is equal to or higher than the first connection port 51. It is only necessary that the water inlet pipe 53 is formed such that its position becomes higher from the first connection port 51 toward the suction port 54a. According to this, the draining operation becomes simple and the maintenance operability can be enhanced as will be described later.
  • the pump 54 is placed such that the discharge port 54b is located higher than the suction port 54a.
  • the suction port 54a is formed in the horizontal direction or upward from the horizontal direction. According to this, air is restrained from remaining in the pump 54. Hence, maintenance operability which is carried out when a user starts using the hot water generator is enhanced, and durability of the pump 54 is also enhanced.
  • the discharge pipe 55 extends upward from a connecting portion between the discharge pipe 55 and the discharge port 54b and reaches a highest position of the water circuit 50. According to this, since air which flows into the pump 54 flows toward the discharge pipe 55 which extends upward from the pump 54, this configuration restrains air from remaining in the pump 54. This configuration prevents the pump 54 from being driven in a state where air remains in the pump 54. Hence, the air-removing operation which is carried out when a user starts using the hot water generator becomes simple, and maintenance operability is enhanced. Durability of the pump 54 is also enhanced.
  • a portion (uppermost portion) of the discharge pipe 55 is located at a highest position of the water circuit. Hence, if a water surface in the water circuit 50 is pushed up to a position of the second connection port 52, air which flows into the water circuit 50 is pushed up to the highest position of the discharge pipe 55. Therefore, air does not flow toward the other constituent elements of the water circuit 50.
  • the discharge pipe 55 reaches the highest position of the water circuit 50, and a portion of the discharge pipe 55 located downstream (on the side of water heat exchanger 22) of the highest position extends to a lowest position of the water circuit 50 except the drainpipe 56.
  • the lowest position of the water circuit 50 except the drainpipe 56 is a lowest position of the water flow-path (water inlet 22a) which forms the water heat exchanger 22 or a position lower than the lowest position.
  • the discharge pipe 55 is connected to the water flow-path (water inlet 22a) of the water heat exchanger 22 at the lowest position of the water circuit 50 except the drainpipe 56.
  • Water which flowed into the water heat exchanger 22 exchanges heat with high temperature and high pressure gas refrigerant and becomes hot water.
  • the produced hot water flows out from the water heat exchanger 22 into the hot water outlet pipe 57 through a water outlet 22b which is formed at a location higher than the water inlet 22a.
  • the hot water outlet pipe 57 connects the water outlet 22b and the second connection port 52 to each other.
  • the second connection port 52 is placed at a location higher than the first connection port 51 in the vertical direction. Hot water which flows through the hot water outlet pipe 57 flows from the second connection port 52 to outside of the water circuit 50.
  • the second connection port 52 is placed at a location higher than the discharge port 54b of the pump 54 and lower than a portion (uppermost portion) of the discharge pipe 55 which is placed at a highest position of the water circuit 50. According to this, in the air-removing operation, water which was poured into the water circuit 50 is pushed up to a height of the second connection port 52 as will be described later. Hence, it is possible to prevent air from remaining in the pump 54, and the maintenance operability is enhanced. A circulation flow rate of water when the pump 54 is driven is stabilized, and it is possible to maintain high heat exchanging efficiency in the water heat exchanger 22.
  • the draining operation is carried out by opening (releasing) the first connection port 51, the second connection port 52 and the drainage port 56a into atmosphere. If the first connection port 51, the second connection port 52 and the drainage port 56a are opened (released), water staying in the water circuit 50 is discharged out from the first connection port 51 and the drainage port 56a.
  • the drainpipe 56 is placed at a lowest location of the water circuit 50. Hence, during the draining operation, most of water staying between the uppermost portion of the discharge pipe 55 and the second connection port 52 can reliably be discharged out.
  • the suction port 54a is placed at a height equal to or higher than the first connection port 51, and the water inlet pipe 53 is placed such that it is oriented in the horizontal direction or such that the suction port 54a becomes higher than the first connection port 51.
  • the pump 54 is placed such that the discharge port 54b becomes higher than the suction port 54a.
  • a difference in height between the suction port 54a of the pump 54 and the drainage port 56a is greater than a difference in height between the suction port 54a and the first connection port 51. According to this, a pressure difference generated between the drainage port 56a and the pump 54 is increased. Generally, if the pump 54 is at a stop, since the centrifugal impeller in the pump 54 is fixed, it becomes difficult to discharge water staying in the pump 54. On the other hand, if the difference in height between the suction port 54a and the drainage port 56a is increased, a pressure difference generated between the drainage port 56a and the pump 54 can be increased.
  • the air-removing operation is carried out by closing the drainage port 56a, opening the second connection port 52 and pouring water from the first connection port 51. If water is poured from the first connection port 51 in a state where the second connection port 52 is opened, a water surface in the water circuit 50 is pushed up to a height of the second connection port 52. Since the second connection port 52 is provided at a location higher than the water heat exchanger 22 and the pump 54, air existing in the water circuit 50 moves to a location higher than the pump 54 and the water heat exchanger 22. Hence, it is possible to restrain air from remaining in the pump 54 and the water heat exchanger 22. If the pump 54 is driven in a state where the second connection port 52 is opened (released) into atmosphere, it is possible to almost completely discharge air remaining in the water circuit 50 by water which flows and moves in the water circuit 50.
  • the discharge port 54b is located higher than the suction port 54a and the discharge port 54b is formed such that it is oriented upward from the horizontal direction, air which flows into the pump 54 is easily discharged out from the discharge port 54b.
  • a portion (uppermost portion) of the discharge pipe 55 extends to a location higher than the second connection port 52. Hence, even if a large amount of air flows into the pump 54, a space into which air flowing in the pump 54 can be released is formed. Therefore, it is possible to prevent air from remaining in the pump 54.
  • Air remaining in the water circuit 50 includes oxygen. If temperature of this air becomes high, the air can be a factor which rots the water pipe and the water flow-path (water inlet 22a) of the water heat exchanger 22.
  • a portion of the discharge pipe 55 located on the upstream side from the water heat exchanger 22 is placed at a highest location in the water circuit 50, and the space into which air is released is formed. Hence, air does not flow into the water heat exchanger 22 and durability of the hot water generator can be enhanced.
  • the hot water generator of the present invention can be downsized while accommodating the water heat exchanger 22 and the pump 54 in the outer covering body 1.
  • the suction port 54a and the discharge port 54b of the pump 54 are placed within a height range L which is equal to or higher than the first connection port 51 and which is equal to or lower than the second connection port 52. Therefore, maintenance such as the draining operation and the air-removing operation can be simplified.
  • the height which is equal to or higher than the first connection port 51 is a height which is equal to or higher than a lowermost portion of the first connection port 51
  • the height which is equal to or lower than the second connection port 52 is a height which is equal to or lower than the uppermost portion of the second connection port 52.
  • the hot water generator of the present invention As described above, according to the hot water generator of the present invention, the heat exchanger and the pump are placed in the outer covering body, the hot water generator is downsized and the maintenance operability is excellent. Therefore, the hot water generator of the invention is suitable as domestic and professional-use hot water generators.
EP14170085.6A 2013-06-14 2014-05-27 Hot water generator Active EP2813779B1 (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2013125363A JP2015001326A (ja) 2013-06-14 2013-06-14 温水生成装置

Publications (2)

Publication Number Publication Date
EP2813779A1 EP2813779A1 (en) 2014-12-17
EP2813779B1 true EP2813779B1 (en) 2016-12-14

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Application Number Title Priority Date Filing Date
EP14170085.6A Active EP2813779B1 (en) 2013-06-14 2014-05-27 Hot water generator

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EP (1) EP2813779B1 (ja)
JP (1) JP2015001326A (ja)
CN (2) CN104236086B (ja)

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP7065326B2 (ja) * 2018-02-22 2022-05-12 パナソニックIpマネジメント株式会社 室内機、空気調和装置
JP7233024B2 (ja) * 2019-04-15 2023-03-06 パナソニックIpマネジメント株式会社 ヒートポンプ熱源機

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Publication number Priority date Publication date Assignee Title
JP5173780B2 (ja) 2008-12-18 2013-04-03 株式会社コロナ ヒートポンプ式温水暖房装置
BR112012021194A2 (pt) * 2010-03-01 2016-05-17 Panasonic Corp equipamento de ciclo de refrigeração
JP5335136B2 (ja) * 2010-04-19 2013-11-06 三菱電機株式会社 給湯器
JP5278452B2 (ja) * 2011-01-27 2013-09-04 パナソニック株式会社 冷凍サイクル装置及びそれを用いた温水暖房装置
JP5845441B2 (ja) * 2011-05-31 2016-01-20 パナソニックIpマネジメント株式会社 ヒートポンプ温水暖房装置
JP5845442B2 (ja) * 2011-06-02 2016-01-20 パナソニックIpマネジメント株式会社 ヒートポンプ温水暖房装置
JP2013044507A (ja) * 2011-08-26 2013-03-04 Panasonic Corp ヒートポンプ式温水装置

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* Cited by examiner, † Cited by third party
Title
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Publication number Publication date
CN204202160U (zh) 2015-03-11
JP2015001326A (ja) 2015-01-05
EP2813779A1 (en) 2014-12-17
CN104236086A (zh) 2014-12-24
CN104236086B (zh) 2018-05-29

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