JP6200804B2 - Hot water storage unit and water heater - Google Patents

Description

  The present invention relates to a hot water storage unit and a hot water supply apparatus.

  Conventionally, there is a hot water storage unit in which a water heat exchanger is attached to the upper part of a hot water storage tank. In such a hot water storage unit, since the refrigerant pipe connected to the water heat exchanger is extended from the upper part of the hot water storage tank to the lower side, heat dissipation loss of the refrigerant pipe becomes a problem.

  Therefore, in a hot water storage unit in which a water heat exchanger is attached to the upper part of the hot water storage tank, it is conceivable to reduce heat loss due to heat radiation by embedding the refrigerant pipe in a heat insulating member that covers the hot water storage tank (for example, Japanese Utility Model Laid-Open No. 60-188134 (Patent Document 1)).

Japanese Utility Model Publication No. 60-188134

  However, in the hot water storage unit in which the refrigerant pipe is embedded in the heat insulating member that covers the hot water storage tank, the heat insulating member is thin with respect to the refrigerant pipe and a sufficient heat insulating effect cannot be obtained. There is a problem that cannot be sufficiently reduced.

  Accordingly, an object of the present invention is to provide a hot water storage unit capable of effectively reducing heat loss due to heat radiation from the refrigerant pipe connected to the water heat exchanger at the upper part of the hot water storage tank, and a hot water supply device using the hot water storage unit. is there.

In order to solve the above problems, the hot water storage unit of the present invention is:
A casing having a rectangular cross section in plan view;
A hot water storage tank disposed in the casing and storing hot water;
A heat insulating member arranged to cover the hot water storage tank in the casing;
A water heat exchanger disposed at the top of the hot water storage tank;
A refrigerant pipe connected to the water heat exchanger,
The heat insulating member is a portion facing the corner portion of the casing and has a thick portion that is thicker than other portions,
The refrigerant pipe is arranged in a vertical direction in the thick part of the heat insulating member.

  According to the said structure, the heat insulation member which covers a hot water storage tank has a thick part thicker than other parts which is a part facing the corner part of a rectangular casing in a planar view, and the heat insulation In the thick part of the member, arrange the refrigerant pipe connected to the water heat exchanger in the vertical direction, so that the refrigerant pipe that extends longer from the water heat exchanger at the top of the hot water tank to the hot water tank It is possible to effectively reduce heat loss due to heat radiation from the refrigerant pipe to the outside by performing heat insulation with the thick part of the heat insulating member to be covered.

In one embodiment of the hot water storage unit,
Outgoing piping and return piping of the refrigerant piping are arranged in the vertical direction in the thick portion of the heat insulating member.

  According to the above-described embodiment, both the forward piping and the return piping of the refrigerant piping are arranged in the vertical direction in the thick portion of the heat insulating member, so that heat radiation from the refrigerant piping to the outside can be more effectively reduced. .

In one embodiment of the hot water storage unit,
The heat insulating member includes a main body having the thick portion and a heat insulating cover that covers the thick portion in which at least a part of the refrigerant pipe is accommodated.

  According to the above-described embodiment, the manufacturing cost is reduced compared to insert molding of the refrigerant pipe in the heat insulating member by covering the thick wall portion in which at least a part of the refrigerant pipe of the heat insulating member is accommodated with the heat insulating cover. it can.

In one embodiment of the hot water storage unit,
The heat insulating member is provided in the thick portion, and is provided with a groove portion into which the refrigerant pipe is fitted, on both sides or one side of the groove portion with a gap in the groove direction, and protrudes toward the inside of the groove portion. The tip has a plurality of convex portions that contact the refrigerant pipe.

  According to the above embodiment, when the refrigerant pipe is fitted into the groove portion provided in the thick portion of the heat insulating member, the tips of the plurality of convex portions provided at intervals in the groove direction on both sides or one side of the groove portion are the groove portions. The refrigerant pipe is positioned at the tips of the plurality of convex portions, and a clearance is provided between the groove and the refrigerant pipe, rather than fitting the refrigerant pipe into the groove without gaps. It becomes possible. Thereby, refrigerant | coolant piping can be easily engage | inserted in the groove part of the thick part of a heat insulation member. Moreover, it becomes possible not to contact the refrigerant | coolant piping positioned by the front-end | tip of a some convex part to the side wall of a groove part, and heat dissipation loss can be reduced.

In one embodiment of the hot water storage unit,
The heat insulating member has a main body having the thick part, and a heat insulating cover covering the thick part in which at least a part of the refrigerant pipe is accommodated,
The main body is provided in the thick wall portion, and is provided with a first groove portion for accommodating one side of the refrigerant pipe and a bottom portion of the first groove portion with a gap in the groove direction, and the first groove portion. And a plurality of first protrusions whose front ends projecting toward the opening side of the
The heat insulating cover is provided at a position facing the first groove portion of the main body, and has a second groove portion for accommodating the other side of the refrigerant pipe, and a space in the groove direction at the bottom portion of the second groove portion. Provided with a plurality of second convex portions whose tips projecting toward the opening side of the second groove portion abut against the refrigerant pipe.

  According to the above embodiment, one side of the refrigerant pipe is accommodated in the first groove part provided in the thick part of the main body of the heat insulating member, and the other groove part of the refrigerant pipe is provided in the second groove part provided in the heat insulating cover of the heat insulating member. When the side is accommodated, the tips of the plurality of first protrusions provided at intervals in the groove direction at the bottom of the first groove portion of the thick wall portion protrude toward the opening side of the first groove portion and contact the refrigerant pipe. At the same time, the tips of a plurality of second convex portions provided at intervals in the groove direction at the bottom of the second groove portion of the heat insulating cover protrude toward the opening side of the second groove portion and come into contact with the refrigerant pipe. Thereby, rather than fitting the refrigerant pipe into the groove portion without any gap, the refrigerant pipe is positioned between the tip ends of the plurality of first convex portions and the tip ends of the plurality of second convex portions, so that the first and second groove portions are positioned. It is possible to provide a clearance between the refrigerant pipe and the refrigerant pipe. Thereby, the refrigerant | coolant piping positioned by the some 1st, 2nd convex part can be prevented from contacting the side wall of a 1st, 2nd groove part, and a heat loss can be reduced.

In the hot water supply apparatus of the present invention,
Any one of the above hot water storage units;
And a heat pump unit connected to the water heat exchanger of the hot water storage unit via the refrigerant pipe.

  According to the said structure, the thermal radiation to the exterior from the refrigerant | coolant piping which connects the water heat exchanger of a hot water storage unit and a heat pump unit can be reduced effectively.

  As apparent from the above, according to the present invention, a hot water storage unit capable of effectively reducing heat loss due to heat radiation from the refrigerant pipe connected to the water heat exchanger at the upper part of the hot water storage tank, and a hot water supply device using the hot water storage unit Can be realized.

FIG. 1 is a simplified configuration diagram showing a hot water supply apparatus including a hot water storage unit according to the first embodiment of the present invention. FIG. 2 is a circuit diagram of the hot water supply apparatus. FIG. 3 is a schematic cross-sectional view of the main part of the hot water storage unit. FIG. 4 is a side view of the main part of the heat insulating member of the hot water storage unit. FIG. 5 is a sectional view taken along line VV in FIG. FIG. 6 is a side view of a modified example of the groove portion of the heat insulating member. FIG. 7 is a side view of another modification of the groove portion of the heat insulating member. FIG. 8 is a schematic cross-sectional view of the main part of the hot water storage unit according to the second embodiment of the present invention. FIG. 9 is a schematic cross-sectional view of the main part of the hot water storage unit according to the third embodiment of the present invention. FIG. 10 is a side view of the main part of the heat insulating member of the hot water storage unit. 11 is a cross-sectional view taken along line XI-XI in FIG. FIG. 12 is a schematic cross-sectional view of the main part of a hot water storage unit according to the fourth embodiment of the present invention.

  Hereinafter, the hot water storage unit and the hot water supply apparatus of the present invention will be described in detail with reference to the illustrated embodiments.

[First Embodiment]
FIG. 1 shows a simplified configuration diagram showing a hot water supply apparatus provided with a hot water storage unit according to the first embodiment of the present invention, and FIG. 2 shows a circuit diagram of the hot water supply apparatus.

  The hot water supply apparatus of the first embodiment includes a hot water storage unit 1 and a heat pump unit 2 as shown in FIGS.

  The hot water storage unit 1 includes a casing 40, a hot water storage tank 11 disposed in the casing 40, and a water heat exchanger 12 for generating hot water stored in the hot water storage tank 11.

  A water supply pipe 32 connected to a water supply source E is connected to the bottom of the hot water storage unit 1. Thereby, the hot water storage unit 1 can introduce the city water (tap water) of the water supply source E into the bottom of the hot water storage tank 11 through the water inlet pipe 32 a branched from the water supply pipe 32. In addition, one end of a circulation pipe 33 is connected to the bottom of the hot water storage tank 11. On the other hand, the other end of the circulation pipe 33 is connected to the top of the hot water storage tank 11. A circulation pump 34 and the water heat exchanger 12 are disposed in the circulation pipe 33.

  A mixing valve 36 is connected to the top of the hot water storage tank 11 via a hot water supply pipe 35. The mixing valve 36 is connected to the other water inlet pipe 32 b branched from the water supply pipe 32 and the hot water supply terminal T. Thus, the hot water supply device can supply hot water having a desired temperature at the hot water supply terminal T by mixing the hot water discharged from the top of the hot water storage tank 11 and the water supplied from the water supply source E with the mixing valve 36. It is like that. Although omitted in FIG. 2, the hot water storage tank 11 is connected to the bath circulation pipe 37 shown in FIG. 1.

  The water heat exchanger 12 is disposed on the hot water storage tank 11 and functions as a condenser. More specifically, in the water heat exchanger 12, the high-temperature refrigerant from the heat pump unit 2 and the water from the hot water storage tank 11 exchange heat. As a result, the hot water storage unit 1 can warm the water from the hot water storage tank 11 with the water heat exchanger 12 and return it to the hot water storage tank 11.

  The heat pump unit 2 does not include the water heat exchanger 12, but includes a compressor 21 connected to the water heat exchanger 12, an expansion means 22, and an air heat exchanger 23. The compressor 21, the water heat exchanger 12, the expansion means 22, and the air heat exchanger 23 are connected in an annular shape via a refrigerant pipe 31 (outward pipe 31a, return pipe 31b). This air heat exchanger 23 acts as an evaporator. The expansion means 22 is an expansion valve, for example.

  When the compressor 21 and the circulation pump 34 are driven, the water in the hot water storage tank 11 flows through the circulation pipe 33 from the bottom of the hot water storage tank 11. At this time, the water flowing through the circulation pipe 33 becomes hot water by heat exchange with the high-temperature refrigerant, and then returns from the top of the hot water storage tank 11 into the hot water storage tank 11. By continuously performing such an operation, high-temperature hot water can be stored in the hot water storage tank 11. Hot water in the hot water storage tank 11 is supplied to the hot water supply terminal T and the bath.

  FIG. 3 is a schematic cross-sectional view of the main part of the hot water storage unit 1. A hot water storage tank 11 for storing hot water is disposed in a casing 40 having a rectangular cross section in plan view. In the casing 40, the hot water storage tank 11, which is a substantially cylindrical can body, is covered with a heat insulating member 50. The heat insulating member 50 includes a cylindrical main body 51 having thick portions 51a to 51d that are opposed to the corner portion of the casing 40 and are thicker than other portions, and a thick portion 51a of the main body 51. And a heat insulating cover 52 that covers the refrigerant pipe 31 (outward pipe 31a, return pipe 31b) fitted therein.

  Thus, in the casing 40 having a rectangular cross section in plan view, the space on each corner portion side of the casing 40 is wide among the spaces formed between the hot water storage tanks 11 having a circular cross section in plan view. The portion of the heat insulating member 50 facing the 40 corners can be made thick.

  Although not shown, the main body 51 of the heat insulating member 50 is formed by combining two parts divided by a vertical plane. The heat insulating cover 52 is fixed to the main body 51 using a mounting bracket or the like.

  Further, the refrigerant pipe 31 (outward pipe 31a, return pipe 31b) fitted in the thick part 51a of the main body 51 of the heat insulating member 50 is connected to the water heat exchanger 12 arranged at the upper part of the hot water storage tank 11. ing.

  4 shows a side view of the main part of the heat insulating member 50 of the hot water storage unit 1, and FIG. 5 shows a cross-sectional view taken along line V-V in FIG.

  As shown in FIGS. 4 and 5, the refrigerant pipe 31 (the forward pipe 31a in FIG. 4) is fitted into the groove 61 provided in the vertical direction in the thick part 51a of the heat insulating member 50 (shown in FIG. 3). Yes. A plurality of convex portions 62 are provided on both sides of the groove portion 61 at intervals in the groove direction, and the tips of the convex portions 62 protrude toward the inside of the groove portion 61. The tips of the plurality of convex portions 62 are in contact with the refrigerant pipe 31 (the forward pipe 31a in FIGS. 4 and 5).

  Note that the return pipe 31 b side of the refrigerant pipe 31 is also fitted in the groove 61 provided in the thick part 51 a of the heat insulating member 50.

  FIG. 6 shows a side view of a modification of the groove portion of the heat insulating member. In FIG. 6, the refrigerant pipe 31 (the forward pipe 31 a in FIG. 6) is fitted in the groove 61 provided in the vertical direction in the thick part 51 a of the heat insulating member 50 (shown in FIG. 3). A plurality of convex portions 63 are provided on both sides of the groove portion 61 at intervals in the groove direction, and the tips of the convex portions 63 protrude toward the inside of the groove portion 61.

  The plurality of convex portions 63 have tapered surfaces 63 a and 63 b on both sides so as to gradually narrow toward the inside of the groove portion 61.

  In the groove portion 61 having the plurality of convex portions 63, the refrigerant pipe 31 is easily fitted into the groove portion 61 by the tapered surfaces 63a and 63b on both sides of the convex portion 63.

  Moreover, FIG. 7 has shown the side view of the other modification of the groove part of a heat insulation member. In FIG. 7, the refrigerant pipe 31 (the forward pipe 31 a in FIG. 7) is fitted into the groove 61 provided in the vertical direction in the thick part 51 a of the heat insulating member 50. The tips of a plurality of convex portions 64 provided at intervals in the groove direction on both sides of the groove portion 61 protrude toward the inside of the groove portion 61.

  The plurality of convex portions 64 are provided with convex curved surfaces 64 a that protrude toward the inside of the groove portion 61.

  In the groove portion 61 having the plurality of convex portions 64, the refrigerant pipe 31 is easily fitted into the groove portion 61 by the convex curved surface 64 a of the convex portion 64.

  According to the hot water storage unit 1 having the above-described configuration, the heat insulating member 50 that covers the hot water storage tank 11 is a portion that is opposed to each corner portion of the casing having a rectangular cross-section in plan view and is thicker than the other portions. The water heat exchanger at the upper part of the hot water storage tank 11 is provided by vertically arranging the refrigerant pipe 31 connected to the water heat exchanger 12 in the thick part 51a of the heat insulating member 50 having the portions 51a to 51d. It is possible to effectively reduce the heat loss due to heat radiation from the refrigerant pipe 31 to the outside by insulating the refrigerant pipe 31 that extends from 12 to the lower side with the thick portion 51a of the heat insulating member 50 that covers the hot water storage tank 11. .

  Further, since both the forward pipe 31a and the return pipe 31b of the refrigerant pipe 31 are arranged in the vertical direction in the thick part 51a of the heat insulating member 50, heat radiation from the refrigerant pipe 31 to the outside is more effective. Can be reduced.

  Further, by covering the thick portion 51a in which the refrigerant pipe 31 of the main body 51 of the heat insulating member 50 is accommodated with the heat insulating cover 52, the manufacturing cost can be reduced as compared with insert molding of the refrigerant pipe 31 into the heat insulating member 50. .

  Further, when the refrigerant pipe 31 is fitted into the groove 61 provided in the thick part 51a of the heat insulating member 50, the tips of the plurality of convex parts 62 provided on both sides of the groove 61 with a gap in the groove direction are groove parts. Since it protrudes toward the inside of 61 and abuts on the refrigerant pipe 31, the refrigerant pipe 31 is positioned at the tips of the plurality of protrusions 62 rather than fitting the refrigerant pipe 31 into the groove 61 without a gap, and the groove 61 and the refrigerant A clearance can be provided between the pipe 31 and the pipe 31. Thereby, the refrigerant | coolant piping 31 can be easily engage | inserted in the groove part 61 of the thick part 51a of the heat insulation member 50. FIG. Moreover, it becomes possible not to contact the refrigerant | coolant piping 31 positioned by the front-end | tip of the some convex part 62 with the side wall of the groove part 61, and can reduce a heat loss.

  The plurality of convex portions 62 are provided on both sides of the groove portion 61 so as to face each other. However, the plurality of convex portions 62 may be alternately provided with a gap in the groove direction, or may be spaced on only one side of the groove portion 61 in the groove direction. May be provided.

  Moreover, according to the hot water supply apparatus of the said structure, the thermal radiation to the exterior from the refrigerant | coolant piping 31 which connects the water heat exchanger 12 of the hot water storage unit 1 and the heat pump unit 2 can be reduced effectively.

  In the hot water supply apparatus of the first embodiment, the refrigerant pipe 31 (outward pipe 31a, return pipe 31b) is entirely fitted in the thick part 51a of the main body 51 of the heat insulating member 50. A part of the refrigerant pipe may be fitted into the meat part, and the other part of the refrigerant pipe may be covered with a heat insulating cover.

[Second Embodiment]
FIG. 8 shows a schematic cross-sectional view of the main part of the hot water storage unit 101 of the second embodiment of the present invention. The hot water storage unit 101 of the second embodiment has the same configuration as the hot water storage unit 1 of the first embodiment except for the arrangement of the heat insulating member 150 and the refrigerant pipe 31, and the same reference numerals are assigned to the same components. Therefore, the description is omitted.

  In the hot water storage unit 101 of the second embodiment, as shown in FIG. 8, a hot water storage tank 11 for storing hot water is disposed in a casing 40 having a rectangular cross section in plan view. In the casing 40, the hot water storage tank 11, which is a substantially cylindrical can body, is covered with a heat insulating member 150. This heat insulating member 150 is a portion facing each corner portion of the casing 40 and has a cylindrical main body 151 having thick portions 151a to 151d having a thickness larger than other portions, and a thick portion of the main body 151. The heat insulating cover 152 covers the forward pipe 31a of the refrigerant pipe 31 fitted in the 151a, and the heat insulating cover 153 covers the return pipe 31b of the refrigerant pipe 31 fitted in the thick part 151b of the main body 151.

  In addition, a refrigerant pipe 31 (outward pipe 31a, return pipe 31b) fitted in the thick portions 151a, 151b of the heat insulating member 150 is connected to the water heat exchanger 12 arranged at the upper part of the hot water storage tank 11. Yes.

  The hot water storage unit 101 of the second embodiment has the same effect as the hot water storage unit 1 of the first embodiment.

[Third Embodiment]
FIG. 9 shows a schematic cross-sectional view of the main part of a hot water storage unit 201 according to the third embodiment of the present invention. The hot water storage unit 201 of the second embodiment has the same configuration as the hot water storage unit 1 of the first embodiment except for the way of attaching the heat insulating member 250 and the refrigerant pipe 31, and the same reference numerals are given to the same components. A description thereof will be omitted.

  As shown in FIG. 9, the hot water storage unit 201 includes a hot water storage tank 11 that stores hot water in a casing 40 having a rectangular cross section in plan view. In the casing 40, the hot water storage tank 11, which is a substantially cylindrical can body, is covered with a heat insulating member 250. The heat insulating member 250 includes a cylindrical main body 251 having thick portions 251a to 251d that are opposed to the respective corner portions of the casing 40 and are thicker than other portions, and a thick portion of the main body 251. And a heat insulating cover 252 that covers the refrigerant pipe 31 (outward pipe 31a, return pipe 31b) accommodated in the 251a.

  In addition, a refrigerant pipe 31 (outward pipe 31a, return pipe 31b) accommodated in the thick part 251a of the heat insulating member 250 is connected to the water heat exchanger 12 arranged in the upper part of the hot water storage tank 11.

  10 shows a side view of the main part of the heat insulating member 250 of the hot water storage unit 201, and FIG. 11 shows a cross-sectional view taken along line XI-XI in FIG.

  As shown in FIGS. 10 and 11, the refrigerant pipe 31 (in FIGS. 10 and 11, goes to the first groove 261 provided in the vertical direction in the thick part 251 a of the main body 251 of the heat insulating member 250 (shown in FIG. 9). When one side of the pipe 31a) is accommodated and the other side of the refrigerant pipe 31 (outward pipe 31a) is accommodated in the second groove part 271 provided in the longitudinal direction in the heat insulating cover 252, the first groove part of the thick part 251a. The tips of a plurality of first convex portions 262 provided at intervals in the groove direction at the bottom of the H.261 protrude toward the opening side of the first groove 261 and come into contact with the refrigerant pipe 31 (outward pipe 31a), and are insulated. Refrigerant piping 31 (outward piping 31a) with the tips of the plurality of second convex portions 272 provided at intervals in the groove direction at the bottom of the second groove portion 271 of the cover 252 projecting toward the opening side of the second groove portion 271. Abut.

  Note that the return pipe 31 b side of the refrigerant pipe 31 is also fitted in the groove 61 provided in the thick part 251 a of the heat insulating member 250.

  The hot water storage unit 201 of the third embodiment has the same effect as the hot water storage unit 1 of the first embodiment.

  Further, the refrigerant pipe 31 is sandwiched between the tips of the plurality of first convex portions 262 and the tips of the plurality of second convex portions 272, rather than fitting the refrigerant pipe 31 into the first and second groove portions 261 and 271 with no gap. Thus, a clearance can be provided between the first and second groove portions 261 and 271 and the refrigerant pipe 31. Thereby, the refrigerant | coolant piping 31 positioned by the some 1st, 2nd convex part 262,272 can be prevented from contacting the side wall of the 1st, 2nd groove part 261,271, and a heat dissipation loss can be reduced.

[Fourth Embodiment]
FIG. 12 is a schematic cross-sectional view of the main part of a hot water storage unit 301 according to the fourth embodiment of the present invention. The hot water storage unit 301 of the fourth embodiment has the same configuration as the hot water storage unit 1 of the first embodiment except for the arrangement of the heat insulating member 350 and the refrigerant pipe 31, and the same reference numerals are assigned to the same components. Therefore, the description is omitted.

  As shown in FIG. 12, the hot water storage unit 301 has a hot water storage tank 11 for storing hot water in a casing 40 having a rectangular cross section in plan view. In the casing 40, the hot water storage tank 11, which is a substantially cylindrical can body, is covered with a heat insulating member 350. The heat insulating member 350 includes thick portions 351a to 351d that are opposed to the corner portions of the casing 40 and have a larger thickness than other portions.

  The heat insulating member 350 is formed by insert molding in a state where the refrigerant pipe 31 (outward pipe 31a, return pipe 31b) is disposed in the thick part 351a. A refrigerant pipe 31 (outward pipe 31a, return pipe 31b) is connected to the water heat exchanger 12 arranged at the upper part of the hot water storage tank 11.

  The hot water storage unit 301 of the fourth embodiment has the same effect as the hot water storage unit 1 of the first embodiment.

  In the first to fourth embodiments, the forward pipe 31a and the return pipe 31b of the refrigerant pipe 31 are vertically arranged in the thick part 51a (151a, 151b, 251a, 351a) of the heat insulating member 50 (150, 250, 350). However, only one of the forward piping and the return piping of the refrigerant pipe may be arranged vertically in the thick part of the heat insulating member, and in this case, the forward pipe on the high temperature side of the refrigerant pipe is connected to the thick wall of the heat insulating member. It is more preferable to arrange in the longitudinal direction in the part.

  Moreover, in the said 1st-4th embodiment, it is thick part 51a-51d (151a-151d, 251a-251d, 351a-351d) in the part facing each corner part of the heat insulation member 50 (150,250,350). However, the heat insulating member may be one in which thick portions are provided in one to three corner portions.

  Although specific embodiments of the present invention have been described, the present invention is not limited to the first to fourth embodiments, and various modifications can be made within the scope of the present invention.

DESCRIPTION OF SYMBOLS 1,101,201,301 ... Hot water storage unit 2 ... Heat pump unit 11 ... Hot water storage tank 12 ... Water heat exchanger 21 ... Compressor 22 ... Expansion means 23 ... Air heat exchanger 31 ... Refrigerant piping 31a ... Outward piping 31b ... Outward piping 32 ... Water supply pipe 32a, 32b ... Inlet pipe 33 ... Circulation pipe 35 ... Hot water supply pipe 37 ... Bath circulation pipe 40 ... Casing 50, 150, 250, 350 ... Thermal insulation member 51, 151, 251, 351 ... Main body 51a-51d, 151a to 151d, 251a to 251d, 351a to 351d ... thick part 52, 152, 252 ... heat insulating cover 61 ... groove 62, 63, 64, 262, 272 ... convex 261 ... first groove 271 ... second groove

Claims (6)

A casing (40) having a rectangular cross section in plan view;
A hot water storage tank (11) disposed in the casing (40) for storing hot water;
A heat insulating member (50, 150, 250, 350) arranged to cover the hot water storage tank (11) in the casing (40);
A water heat exchanger (12) disposed above the hot water storage tank (11);
A refrigerant pipe (31) connected to the water heat exchanger (12),
The heat insulating members (50, 150, 250, 350) are thick portions (51a to 51d, 151a to 151d, 251a to 251d) which are portions facing the corner portions of the casing and are thicker than other portions. 351a-351d)
Hot water storage characterized in that the refrigerant pipe (31) is arranged vertically in the thick part (51a, 151a, 151b, 251a, 351a) of the heat insulating member (50, 150, 250, 350). unit. The hot water storage unit according to claim 1,
The forward pipe (31a) and the return pipe (31b) of the refrigerant pipe (31) are disposed in the thick portions (51a, 151a, 151b, 251a, 351a) of the heat insulating member (50, 150, 250, 350). A hot water storage unit that is arranged in a vertical direction. The hot water storage unit according to claim 1 or 2,
The heat insulating member (50, 150, 250) accommodates a main body (51, 151, 251) having the thick part (51a, 151a, 151b, 251a) and at least a part of the refrigerant pipe (31). And a heat insulating cover (52, 152, 252) covering the thick part (51a, 151a, 151b, 251a). In the hot water storage unit according to any one of claims 1 to 3,
The heat insulating member (50, 150) is provided in the thick portion (51a, 151a, 151b), and a groove portion (61) for fitting the refrigerant pipe (31), and both sides of the groove portion (61) or Provided on one side with a gap in the groove direction, the tip protruding toward the inside of the groove (61) has a plurality of protrusions (62, 63, 64) that contact the refrigerant pipe (31). Hot water storage unit characterized by The hot water storage unit according to claim 1 or 2,
The heat insulating member (250) includes a heat insulating cover that covers the main body (251) having the thick part (251a to 251d) and the thick part (251a) in which at least a part of the refrigerant pipe (31) is accommodated. (252)
The main body (251) is provided in the thick part (251a), and includes a first groove part (261) for accommodating one side of the refrigerant pipe (31), and a bottom part of the first groove part (261). And a plurality of first protrusions (262) with the tips protruding toward the opening side of the first groove portion (261) contacting the refrigerant pipe (31). ,
The heat insulating cover (252) is provided at a position facing the first groove (261) of the main body (251), and a second groove (271) for accommodating the other side of the refrigerant pipe (31). And at the bottom of the second groove (271) with a gap in the groove direction, a plurality of tips protruding toward the opening side of the second groove (271) are in contact with the refrigerant pipe (31). A hot water storage unit having a second protrusion (272). A hot water storage unit according to any one of claims 1 to 5,
A hot water supply apparatus comprising: a heat pump unit (2) connected to the water heat exchanger (12) of the hot water storage unit (1, 101, 201, 301) via the refrigerant pipe (31).

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