JP2009168299A - Heat pump type water heater - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a heat pump type water heater capable of easily positioning a heat pump housing and a tank housing when they are installed in adjacent to each other to be integrally combined. <P>SOLUTION: A projecting portion 5a projecting into the wedge shape toward a heat pump base 4 side supporting the heat pump housing 2, is formed on a side face of a tank base 5 supporting the tank housing 3, and a recessed portion 4a of the shape fitted to the projecting portion 5a is formed on a side face of the heat pump base 4. Further a projecting leg portion 5c is disposed on the tank base 5 in a state of projecting to a lower space of the heat pump base 4. Thus the positioning in the horizontal direction and the vertical direction can be easily performed in integrally combining the heat pump housing 2 and the tank housing 3 by fitting the projecting portion 5a and the recessed portion 4a, and putting a bottom face of the heat pump base 4 on a top face of the projecting leg portion 5c. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a heat pump type hot water heater including a heat pump housing in which a heat pump cycle for heating hot water is accommodated and a tank housing in which a hot water storage tank for storing hot water is accommodated.

  2. Description of the Related Art Conventionally, there is known a heat pump type hot water heater that includes a heat pump housing that houses a heat pump cycle that heats hot water and a tank housing that houses a hot water storage tank that stores hot water. For example, Patent Document 1 discloses a heat pump type hot water heater in which the installation workability is improved by installing a heat pump housing and a tank housing in different places.

In addition, with respect to the heat pump water heater of Patent Document 1, the heat pump water heater that is installed in a state where the heat pump housing and the tank housing are arranged adjacent to each other in the horizontal direction and integrated is also used. -It has the merit that it is not necessary to embed a connecting pipe that connects the refrigerant heat exchanger and the hot water storage tank in the tank case in the ground, and that there is only one installation place. The needs are high.
JP 2006-308282 A

  However, in a heat pump water heater in which the heat pump housing and the tank housing are arranged adjacent to each other in the horizontal direction, when the heat pump housing and the tank housing are integrated, there is a positional shift between the housings. If it occurs, there is a risk that rainwater may enter the housing from between the contact surfaces on the side where each housing contacts.

  Furthermore, generally, since the outer surface of the heat pump casing and the tank casing is subjected to a coating process or the like for improving its design, the position shift of each casing occurs. Moreover, the problem that the design property as the whole heat pump type hot-water supply machine is also impaired also arises.

  In view of the above points, the present invention is a heat pump water heater in which a heat pump casing and a tank casing are arranged adjacently in the horizontal direction and integrated. An object of the present invention is to provide a heat pump type water heater capable of alignment.

To achieve the above object, according to the first aspect of the present invention, a heat pump casing (2) in which a heat pump cycle (20) for heating hot water is accommodated and a hot water storage tank (31) for storing hot water are accommodated. A heat pump type hot water heater comprising a tank case (3) and a heat pump case (2) and a tank case (3) arranged adjacent to each other in the horizontal direction.
The heat pump housing (2) has a heat pump base (4) that supports the heat pump housing (2) on the bottom surface side, and the tank housing (3) supports the tank housing (3) on the bottom surface side. A first base (5), one of the heat pump base (4) and the tank base (5) as a first base (5) and the other as a second base (4). When the second base (4) is viewed from above,
A convex portion (5a) protruding in a wedge shape toward the second base (4) is formed on the side surface of the first base (5), and a convex portion ( It is formed in a shape suitable for 5a), and a concave shape portion (4a) into which the convex shape portion (5a) is fitted is formed.

  According to this, on the side surface of the first base (5), the convex portion (5a) protruding in a wedge shape toward the other side is formed, and on the side surface of the second base (4), the convex portion ( Since the recessed portion (4a) to which 5a) is fitted is formed, horizontal alignment is easily performed when the heat pump housing (2) and the tank housing (3) are integrated. Can do.

  Moreover, since the convex portion (5a) has a shape protruding in a wedge shape, the convex portion (5a) can be easily fitted to the concave portion (4a). In addition, the “shape protruding in a wedge shape” in this claim means not only a shape protruding in a V shape but also a trapezoidal shape whose width gradually decreases from the root side toward the tip side. is there.

  In invention of Claim 2, in the heat pump type hot water supply apparatus of Claim 1, the heat pump base (4) and the tank base (5) have a plurality of portions extending from the respective bottom surfaces toward the installation surface (G). Leg portions (4b, 4c, 5b, 5c) are provided, and the leg portions (5b, 5c) provided on one of the first base (5) and the second base (4). At least one is a protruding leg (5c) protruding into the lower space of the other base (4), and the bottom of the other base (4) is the upper surface of the protruding leg (5c). It is arrange | positioned so that it may ride on.

  According to this, since it arrange | positions so that the bottom face of the other base (4) may ride on the upper surface of the protrusion-shaped leg part (5c) provided in one base (5), heat pump housing | casing (2) When the tank casing (3) is integrated, the alignment in the vertical direction (up and down direction) can be easily performed.

In the invention according to claim 3, a heat pump casing (2) in which a heat pump cycle (20) for heating hot water is accommodated and a tank casing in which a hot water storage tank (31) for storing hot water is accommodated. (3), a heat pump water heater in which the heat pump housing (2) and the tank housing (3) are arranged adjacent to each other in the horizontal direction and integrated,
The heat pump housing (2) has a heat pump base (4) that supports the heat pump housing (2) on the bottom surface side, and the tank housing (3) supports the tank housing (3) on the bottom surface side. The tank base (5) has a plurality of legs (4b, 4c, 5b, 5c) extending from the bottom surface toward the installation surface (G) on the heat pump base (4) and the tank base (5). Of the tank base (5) and the heat pump base (4), at least one of the leg portions (5b, 5c) provided on one base (5) is provided on the other base (4). It has a protruding shape leg portion (5c) protruding into the lower space, and the bottom surface of the other base (4) is arranged so as to ride on the upper surface of the protruding shape leg portion (5c). .

  According to this, since the bottom surface of the other base (4) is arranged so as to ride on the upper surface of the protruding leg (5c) provided on the one base (5), Similar to the invention, when the heat pump casing (2) and the tank casing (3) are integrated, alignment in the vertical direction (vertical direction) can be easily performed.

  According to a fourth aspect of the present invention, in the heat pump type hot water heater according to the second or third aspect, a chamfered portion is provided at an end portion on the other base (4) side of the upper surface of the protruding leg portion (5c). (5d) is provided.

  Accordingly, when the bottom surface of the other base (4) is ridden on the upper surface of the protruding leg (5c), it can be easily ridden along the chamfered portion (5d). The chamfered portion (5d) in this claim includes not only a flat chamfered portion but also a curved surface, a cylindrical chamfered portion, and the like.

  According to a fifth aspect of the present invention, in the heat pump type water heater according to any one of the second to fourth aspects, at least one of the leg portions (4b, 4c) provided on the other base (4) is The contact leg (4c) is arranged so as to be in surface contact with the side surface of the protruding leg (5c). The height (h4) of the contact leg (4c) is the protruding leg. It is short with respect to the height dimension (h5) of a part (5c).

  According to this, when the bottom surface of the other base (4) rides on the upper surface of the projecting shape leg portion (5c), the contact leg portion (4c) is separated from the installation surface (G). The bottom surface of the other base (4) can be ridden on the upper surface of the protruding leg (5c). As a result, the vertical alignment (vertical direction) of the heat pump casing (2) and the tank casing (3) can be reliably performed.

  According to a sixth aspect of the present invention, in the heat pump type water heater according to the fifth aspect, the heat pump type hot water heater further comprises a fastening means (6) for fastening the protruding leg (5c) and the contact leg (4c). Features. According to this, the positioning of the heat pump housing (2) and the tank housing (3) can be more reliably performed by tightening the fastening means (6).

  According to a seventh aspect of the present invention, in the heat pump type water heater according to any one of the second to sixth aspects, one base is a tank base (5), and the other base is a heat pump base (4 ).

  According to this, since the bottom surface of the heat pump base (4) is placed on the top surface of the protruding leg portion (5c) provided on the tank base (5), the heat pump housing (3) is removed from the tank housing (3). 2) can be easily removed. As a result, the maintainability of the heat pump cycle (20) can be improved.

  In addition, the code | symbol in the bracket | parenthesis of each means described in this column and the claim shows the correspondence with the specific means as described in embodiment mentioned later.

  1-4, one embodiment of the present invention will be described. FIG. 1 is a schematic overall configuration diagram of a household heat pump hot water heater 1 according to the present embodiment. As shown in FIG. 1, the heat pump type hot water heater 1 has a heat pump casing 2 and a tank casing 3 configured separately from the heat pump casing 2 arranged adjacent to each other in the horizontal direction and integrated. Is. In addition, each up-and-down arrow of FIG. 1 has shown each direction in the state which installed the heat pump type water heater 1 in the installation surface G. FIG.

  The heat pump casing 2 and the tank casing 3 form an outer shell of the heat pump hot water heater 1 and are formed in a substantially rectangular parallelepiped shape having a longitudinal direction in the vertical direction by a metal (for example, stainless steel) having excellent corrosion resistance. Yes. Further, the outer surfaces of the heat pump casing 2 and the tank casing 3 are subjected to a coating treatment for improving the design.

  The heat pump housing 2 houses a heat pump cycle 20 that heats hot water. The heat pump cycle 20 is a well-known vapor compression refrigeration cycle configured by sequentially connecting a compressor 21, a water-refrigerant heat exchanger 22, an electric expansion valve 23, an evaporator 24, and the like. Further, the heat pump cycle 20 employs carbon dioxide as a refrigerant, and constitutes a supercritical refrigeration cycle in which the high-pressure side refrigerant pressure is equal to or higher than the critical pressure of the refrigerant.

  The compressor 21 sucks the refrigerant in the heat pump cycle 20 and compresses and discharges the refrigerant until the pressure becomes equal to or higher than the critical pressure. In the present embodiment, the electric compressor 21 drives the compression mechanism portion 21a by the electric motor 21b. Is adopted.

  The water-refrigerant heat exchanger 22 exchanges heat between the refrigerant discharged from the compressor 21 that passes through the refrigerant passage 22a and hot water that passes through the water passage 22b, and the amount of heat that the high-temperature and high-pressure refrigerant discharged from the compressor 21 has. It is a heat exchanger for heating which heats hot-water supply by dissipating heat to hot-water supply. In addition, an electric water pump 25 that pumps hot water stored in a hot water storage tank 31 described later to the water-refrigerant heat exchanger 22 is connected to the inlet side of the water passage 22.

  The electric expansion valve 23 is a decompression means for decompressing and expanding the high-pressure refrigerant flowing out from the refrigerant passage 22a of the water-refrigerant heat exchanger 22 by electrically adjusting the throttle opening, and the discharge port of the compressor 21 It is also a pressure control means for controlling the high-pressure side refrigerant pressure of the refrigerant from to the inlet of the electric expansion valve 23.

  The evaporator 24 exchanges heat between the low-pressure refrigerant decompressed and expanded by the electric expansion valve 23 and the outside air (outdoor air) blown by the electric blower fan 24a, thereby evaporating the low-pressure refrigerant and exerting an endothermic effect. This is an endothermic heat exchanger.

  The electric motor 21b of the compressor 21, the electric expansion valve 23, the electric blower fan 24a of the evaporator 24, and the water pump 25 are connected to the output side of a control device (not shown) and output from this control device. The operation is controlled by a control signal.

  The control device is composed of a well-known microcomputer including a CPU, ROM, RAM and the like and its peripheral circuits, performs various calculations and processing based on a control program stored in the ROM, and performs the various electric actuators 21b described above. , 23, 24a, 25 are controlled.

  Further, on the input side of the control device, various sensor groups such as a temperature sensor for detecting the temperature of the hot water supply water on the inlet side of the water passage 22b of the water-refrigerant heat exchanger 22, an operation panel provided with various operation switches, etc. Neither is shown.) Is connected.

  Furthermore, the heat pump housing 2 has a heat pump base 4 that supports the heat pump housing 2 on the bottom surface side, and is installed (fixed) on the installation surface G via the heat pump base 4. Details of the heat pump base 4 will be described later.

  The tank housing 3 accommodates a hot water storage tank 31 that stores hot water. The hot water storage tank 31 is a hot water tank that is made of a metal (for example, stainless steel) having excellent corrosion resistance, has a heat insulating structure, and can retain hot hot water for a long time. Moreover, the amount of hot water storage is about 300-400 liters.

  Hot water stored in the hot water storage tank 31 is discharged from a hot water outlet 31a provided in the upper part of the hot water storage tank 31, mixed with cold water from the water by a temperature control valve (not shown), and then adjusted to the temperature of the kitchen or bath. Hot water is supplied. Further, a water supply port 31b is provided at the bottom of the hot water storage tank 31, and tap water is supplied from the water supply port 31b.

  Furthermore, a hot water supply outlet 31 c is provided at the bottom of the hot water storage tank 31 for flowing hot water into the water-refrigerant heat exchanger 22 side. The hot water outlet 31 c is connected to the suction side of the water pump 25 in the heat pump housing 2. A hot water supply inlet 31 d through which hot water flowing out from the outlet side of the water passage 22 b of the water-refrigerant heat exchanger 22 flows is provided in the upper part of the hot water storage tank 31.

  Therefore, the hot water flowing out of the hot water outlet 31c flows into the water passage 22b of the water-refrigerant heat exchanger 22 and is heated by the action of the water pump 25, and flows again into the hot water storage tank 31 from the hot water inlet 31d. To do. Furthermore, the tank housing 3 has a tank base 5 that supports the tank housing 3 on the bottom surface side, and is installed (fixed) on the installation surface G via the tank base 5.

  Here, the details of the heat pump base 4 and the tank base 5 will be described with reference to FIGS. FIG. 2 is an exploded perspective view of the heat pump base 4 and the tank base 5. 3A is a top view when the heat pump base 4 and the tank base 5 are disassembled, and FIG. 3B is a top view when the heat pump base 4 and the tank base 5 are assembled. 4A is a cross-sectional view taken along the line AA in FIG. 3A, and FIG. 4B is a cross-sectional view taken along the line A′-A ′ in FIG.

  The heat pump base 4 and the tank base 5 are both made of the same material as the heat pump housing 2 and the tank housing 3, and as shown in FIG. 2, have a bottom surface portion and a side surface portion forming an outer frame thereof. It is the base member comprised in the shape.

  As shown in FIG. 3, when the heat pump base 4 and the tank base 5 are viewed from the upper side, the side surface of the tank base 5 has a convex portion 5 a protruding in a wedge shape toward the side surface of the tank base 5. Is formed. On the other hand, the side surface of the heat pump base 4 is formed with a concave shape portion 4a into which the convex shape portion 5a is fitted while being formed in a shape that fits the convex shape portion 5a of the tank base 5.

  In addition, the convex-shaped part 5a is the shape which protrudes in a wedge shape by forming in the shape (in this embodiment trapezoid shape) where a width dimension becomes small gradually toward the front end side (heat pump base 4 side) from the root side. It has become. Therefore, in this embodiment, the tank base 5 corresponds to the first base described in the claims, and the heat pump base 4 corresponds to the second base described in the claims.

  Further, as shown in FIGS. 2 and 4, the heat pump base 4 and the tank base 5 are each provided with a plurality of (three in this embodiment) leg portions 4 b, 4 c, 5 b extending from the bottom surface toward the installation surface G, respectively. 5c.

  The plurality of leg portions 4b, 4c, 5b, and 5c are formed in a hollow, substantially prismatic shape. Among these, the two leg portions 4b provided on the heat pump base 4 and the two legs provided on the tank base 5 are provided. As shown in FIG. 3B, the leg portions 5 b are disposed so as to be positioned at the four horizontal corners of the heat pump hot water heater 1 as a whole when the heat pump base 4 and the tank base 5 are assembled.

  Moreover, one of the leg portions provided on the tank base 5 is disposed at a substantially central portion of the side surface in contact with the heat pump base 4 as shown in FIGS. The protruding leg portion 5c protrudes.

  More specifically, the protruding leg portion 5c is disposed so as to overlap with a part of the convex portion 5a when the heat pump base 4 and the tank base 5 are viewed from above, as shown in FIG. ing. Further, a planar chamfered portion 5d is provided at an end portion on the heat pump base 4 side of the upper surface of the protruding leg portion 5c.

  On the other hand, one of the leg portions provided on the heat pump base 4 side is a contact arranged such that the side surface thereof comes into surface contact with the side surface of the protruding leg portion 5c when the heat pump base 4 and the tank base 5 are assembled. It is the leg part 3c. As shown in FIG. 4, the height h4 of the contact leg 3c is shorter than the height h5 of the protruding leg 5c.

  Furthermore, through holes 3e and 5e penetrating the front and back of each contact surface are formed on the contact surfaces of the contact leg 3c and the protruding leg 5c. The through holes 3e and 5e are holes for fixing the heat pump base 4 and the tank base 5 to each other through the common bolt 6 when the heat pump base 4 and the tank base 5 are assembled.

  Next, the operation of this embodiment in the above configuration will be described. The heat pump type hot water heater 1 of the present embodiment operates when an operation switch provided on the operation panel is turned on (ON) while an external power source such as a commercial power source is supplied.

  When the operation switch is turned on, the control device detects detection signals of various sensor groups such as the water passage 22b inlet side hot water temperature, the water passage 22b outlet side hot water temperature, and the outside temperature of the water-refrigerant heat exchanger 22 and the operation panel. The operation of the various electric actuators 21b, 23, 24a, 25 is controlled based on the operation signal of the hot water temperature setting switch provided at.

  As a result, the high-temperature and high-pressure refrigerant discharged from the compressor 21 and the hot water flowing out of the water pump 25 exchange heat in the water-refrigerant heat exchanger 22, and the heat quantity of the refrigerant is dissipated to the hot water. Heated.

  The refrigerant flowing out of the water-refrigerant heat exchanger 22 is decompressed and expanded by the electric expansion valve 23 and flows into the evaporator 24. At this time, the valve opening degree of the electric expansion valve 23 is controlled such that the high-pressure side refrigerant pressure of the heat pump cycle 20 approaches a target high pressure determined according to the high-pressure side refrigerant temperature. Thereby, the high-pressure side refrigerant pressure is controlled so that the COP of the heat pump cycle 20 becomes a substantially maximum value.

  The low-pressure refrigerant flowing into the evaporator 24 absorbs heat from the outside air blown by the electric blower fan 24a, evaporates, and is sucked into the compressor 21 again. On the other hand, the hot water supplied from the water-refrigerant heat exchanger 22 returns to the storage tank 31, and the heated hot water is stored in the hot water storage tank 31.

  Next, a method for assembling the heat pump type water heater 1 of the present embodiment will be described. As described above, in the heat pump type water heater 1 of the present embodiment, since the heat pump casing 2 and the tank casing 3 are configured as separate bodies, the heat pump casing 2 and the tank casing 3 are separately transported to the installation location. To do. And after arrange | positioning the tank housing | casing 3 in an installation place, the heat pump housing | casing 2 is integrated with the tank housing | casing 3. FIG.

  Specifically, as shown in FIG. 4 (b), the concave portion 4 a of the heat pump base 4 is fitted into the convex portion 5 a of the tank base 5 described above. Thus, the heat pump base 4 is disposed so that the bottom surface of the heat pump base 4 rides on the upper surface of the protruding leg portion 5c of the tank base 5, and the side surfaces of the protruding leg portion 5c and the side surfaces of the contact leg portions 3c of the heat pump base 4 are Will be in contact.

  In this state, the bolts 6 are passed through the through holes 3e and 5e of the contact leg 3c and the protruding leg 5c, and tightened with nuts. Further, the heat pump housing 2 and the tank housing 3 are also integrated by fastening means such as bolt fastening. Furthermore, the opening part provided in the side surface of the heat pump housing | casing 2 which is not shown in figure is opened, and the hot water storage tank 31 and the water-refrigerant heat exchanger 22 are connected inside the heat pump housing | casing 2. FIG.

  Furthermore, the hot water outlet 31a of the hot water supply tank 41 is connected to a hot water supply pipe that guides hot water to a kitchen or a bath in the house, and the hot water outlet 31a is connected to a water supply pipe that supplies tap water. Thereby, the connection of various piping of the heat pump type hot water heater 1 is completed.

  In the present embodiment, a convex portion 5a protruding in a wedge shape toward the heat pump base 4 side is formed on the side surface of the tank base 5, and a concave shape in which the convex portion 5a is fitted on the side surface of the heat pump base 4. Since the portion 4a is formed, the horizontal alignment can be easily performed when the heat pump housing 2 and the tank housing 3 are integrated.

  At this time, since the convex portion 5a has a shape protruding in a wedge shape, by tightening the bolt 6, the concave portion 4a of the heat pump base 4 can be gradually shifted along the wedge shape of the convex portion 5a. Therefore, the horizontal alignment can be reliably performed.

  Furthermore, since the bottom surface of the heat pump base 4 is disposed so as to ride on the top surface of the protruding leg portion 5c provided on the tank base 5, when the heat pump housing 2 and the tank housing 3 are integrated, the vertical direction The alignment in the (vertical direction) can be easily performed.

  At this time, since the chamfered portion 5d is provided at the end on the heat pump base 4 side of the upper surface of the protruding leg portion 5c, the bottom surface of the heat pump base 4 is easily protruded along the chamfered portion 5d. It can be made to ride on the upper surface of the shape leg part 5c.

  In addition, since the height h4 of the contact leg 3c is shorter than the height h5 of the protruding leg 5c and the contact leg 3c is separated from the installation surface G, the vertical alignment is ensured. It can be performed.

  As a result, the displacement of the heat pump housing 2 and the tank housing 3 can be prevented, and when the heat pump housing 2 and the tank housing 3 are assembled, each housing is exposed from between the contact surfaces of the housings 2 and 3. It is possible to avoid rainwater or the like intruding into 2 or 3. Furthermore, it can also prevent that the design property as the heat pump hot-water supply apparatus 1 whole is impaired.

  In the present embodiment, since the bottom surface of the heat pump base 4 is placed on the top surface of the protruding leg portion 5 c of the tank base 5, the heat pump housing 2 can be easily detached from the tank housing 3. . Such an arrangement is extremely effective in that the maintainability of the heat pump cycle 20 including components such as the compressor 21, the electric expansion valve 23, the electric blower fan 24a, and the water pump 25 can be improved.

(Other embodiments)
The present invention is not limited to the above-described embodiment, and can be variously modified as follows.

  (1) In the above-described embodiment, the example in which the convex shape portion 5a is provided in the tank base 5 and the concave shape portion 4a is provided in the heat pump base 4 has been described, but conversely, the concave shape portion is provided in the tank base 5 and the heat pump A convex portion may be provided on the base 4. That is, the heat pump base 4 may correspond to the first base described in the claims, and the tank base 5 may correspond to the second base described in the claims.

  Further, the heat pump base 4 may be provided with protruding leg portions, and the tank base 5 may be provided with contact leg portions. That is, as shown in FIG. 5A, the tank base 5 is provided with a convex shape portion, the heat pump base 4 is provided with a concave shape portion, and the tank base 5 is provided with a contact leg portion and protrudes from the heat pump base 4. Shape legs may be provided.

  Further, as shown in FIG. 5 (b), the tank base 5 is provided with a concave shape portion, the heat pump base 4 is provided with a convex shape portion, and the tank base 5 is provided with a protruding shape leg portion so as to contact the heat pump base 4. A leg portion may be provided.

  Further, as shown in FIG. 5 (c), the tank base 5 is provided with a concave shape portion, the heat pump base 4 is provided with a convex shape portion, and the tank base 5 is provided with a contact leg, and protrudes from the heat pump base 4. Shape legs may be provided. 5A to 5C are drawings corresponding to FIG. 3A described above.

  (2) In the above-described embodiment, as shown in FIGS. 3 and 5, depth dimensions in the front-rear direction of the respective housings 2 and 3 (that is, parallel to the contact surfaces of the respective housings 2 and 3, and Although an example in which the vertical dimension in the vertical direction) is substantially the same has been described, the depth dimensions of the respective housings 2 and 3 may be different. For example, if the depth dimension of the tank casing 3 is made longer than the depth dimension of the heat pump casing 2, the capacity of the hot water storage tank 31 can be easily secured.

  (3) In the above-described embodiment, an example in which the entire heat pump cycle 20 is accommodated in the heat pump housing 2 has been described. However, a part of the heat pump cycle 20 (for example, only the water-refrigerant heat exchanger 22) is heat pumped. The structure accommodated in the housing | casing 2 may be sufficient.

  (4) In the above-described embodiment, the heat pump base 4 and the tank base 5 are configured separately from the heat pump casing 2 and the tank casing 3, respectively. You may form integrally.

  (5) In the above-described embodiment, the heat pump base 4 and the tank base 5 are each provided with three legs. However, the number of legs is not limited to this, and the entire heat pump water heater 1 is supported. What is necessary is just to select suitably a required number.

  (6) In the above-described embodiment, the example in which the chamfered portion 5d of the protruding leg portion 5c is formed in a planar shape has been described, but it may be formed in a curved surface shape or a cylindrical surface shape.

It is a typical whole lineblock diagram of the heat pump type hot water heater of one embodiment. It is a disassembled perspective view of the heat pump base and tank base of one Embodiment. (A) is a top view at the time of decomposition | disassembly of the heat pump base and tank base of one Embodiment, (b) is a top view at the time of an assembly | attachment. (A) is AA sectional drawing of Fig.3 (a), (b) is A'-A 'sectional drawing of FIG.3 (b). It is a top view at the time of decomposition | disassembly of the heat pump base and tank base of other embodiment.

Explanation of symbols

2 Heat pump housing 3 Tank housing 3c Contact leg 4 Heat pump base 4a Concave shaped part 4b, 5b Leg 5 Tank base 5a Convex shaped part 5c Projected leg 5d Chamfer 20 Heat pump cycle 41 Hot water storage tank G Installation surface

Claims (7)

A heat pump housing (2) containing a heat pump cycle (20) for heating hot water,
A tank housing (3) in which a hot water storage tank (31) for storing hot water is stored,
A heat pump type hot water heater in which the heat pump casing (2) and the tank casing (3) are arranged adjacent to each other in the horizontal direction and integrated.
The heat pump housing (2) has a heat pump base (4) for supporting the heat pump housing (2) on the bottom side thereof,
The tank casing (3) has a tank base (5) that supports the tank casing (3) on the bottom side thereof,
Of the heat pump base (4) and the tank base (5), one is a first base (5) and the other is a second base (4), and the first base (5) and the second base (4) ) When viewed from above
On the side surface of the first base (5), a convex portion (5a) protruding in a wedge shape toward the second base (4) side is formed,
Furthermore, the side surface of the second base (4) is formed in a shape that fits the convex shape portion (5a), and a concave shape portion (4a) into which the convex shape portion (5a) is fitted. A heat pump type water heater characterized by being formed. The heat pump base (4) and the tank base (5) are provided with a plurality of legs (4b, 4c, 5b, 5c) extending from the respective bottom surfaces toward the installation surface (G),
Of the first base (5) and the second base (4), at least one of the legs (5b, 5c) provided on one base (5) is below the other base (4). It is a protruding leg (5c) protruding into the side space,
2. The heat pump type hot water heater according to claim 1, wherein a bottom surface of the other base (4) is arranged so as to ride on an upper surface of the projecting leg portion (5 c). A heat pump housing (2) containing a heat pump cycle (20) for heating hot water,
A tank housing (3) in which a hot water storage tank (31) for storing hot water is stored,
A heat pump type hot water heater in which the heat pump casing (2) and the tank casing (3) are arranged adjacent to each other in the horizontal direction and integrated.
The heat pump housing (2) has a heat pump base (4) for supporting the heat pump housing (2) on the bottom side thereof,
The tank casing (3) has a tank base (5) that supports the tank casing (3) on the bottom side thereof,
The heat pump base (4) and the tank base (5) are provided with a plurality of legs (4b, 4c, 5b, 5c) extending from the respective bottom surfaces toward the installation surface (G),
Of the tank base (5) and the heat pump base (4), at least one of the legs (5b, 5c) provided on one base (5) is a lower space of the other base (4). It has a protruding shape leg (5c) protruding to
The heat pump type hot water heater is characterized in that the bottom surface of the other base (4) is disposed so as to ride on the upper surface of the protruding leg (5c).   The chamfered part (5d) is provided in the edge part by the side of the said other base (4) among the upper surfaces of the said protrusion-shaped leg part (5c), The Claim 2 or 3 characterized by the above-mentioned. Heat pump water heater. At least one of the legs (4b, 4c) provided on the other base (4) is a contact leg (4c) disposed so as to be in surface contact with the side surface of the protruding leg (5c). )
5. The height dimension (h4) of the contact leg (4c) is shorter than the height dimension (h5) of the protruding leg (5c). The heat pump type water heater according to one.   The heat pump type hot water heater according to claim 5, further comprising fastening means (6) for fastening the protruding leg (5c) and the contact leg (4c). The one base is the tank base (5);
The heat pump type hot water heater according to any one of claims 2 to 6, wherein the other base is the heat pump base (4).

Images