KR101489580B1 - Insulation hot water storage device and hot water storage type water heater - Google Patents

Abstract

[PROBLEMS] To provide a technique capable of suppressing deterioration of working efficiency of the attaching / detaching operation of the foam insulating member even when the filling tank is enlarged.
The foamable thermal insulating member 30 includes a first cylindrical portion 50 that covers the outer peripheral surface of the lower side of the storage tank 22 in the axial direction and a second cylindrical portion that covers the outer peripheral surface of the upper end of the storage tank 22 in the axial direction The first tubular portion 50 and the second tubular portion 70 have left side portions 52 and 72 and right side portions 54 and 74, respectively. The first cylindrical portion 50 (the first left side portion 52 and the first right side portion 54) and the second cylindrical portion 70 (the second left side portion 72 and the second right side portion 74) 40, the ring portion 60, and the upper surface portion 80 in the direction of the holding tank 22 and held.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hot water storage device,

The technique disclosed in this specification relates to a hot-water type hot water apparatus and a low-temperature hot water apparatus equipped with the insulating hot water apparatus.

There is known a hot water supply technology in which hot water heated by a heat pump or a gas water heater or the like is stored in a storage tank and hot water which has been stored is supplied to a necessary portion when necessary. There is also known a technique for preventing the temperature of the hot water stored in the storage tank from being lowered by covering the storage tank with a heat insulating material.

Patent Document 1 discloses a heat insulating type warming apparatus in which a part of the outer circumferential surface of a substantially cylindrical reservoir tank is covered with a vacuum insulating member and the outside thereof is covered with a foam insulating member. The vacuum heat insulating member is formed by sandwiching a porous core member between two films and sealing two members of the film in a range in which they surround the periphery of the core members and melting the existing range of the core member in a vacuum state .

Patent Document 1: Japanese Patent Application Laid-Open No. 2007-212062

Conventionally, in general, a foam insulating member covering a storage tank has a right side portion covering the right half of the outer circumferential surface of the substantially cylindrical reservoir tank and a left half surface of the outer circumferential surface of the substantially cylindrical reservoir tank And the left-side covering portion is combined. In the prior art, when the filling tank becomes large, the right side portion and the left side portion for covering the filling tank are also enlarged, respectively. Therefore, the operation of covering the filling tank with the foam insulating member and the operation of peeling the foam insulating member from the filling tank The working efficiency may be lowered. In this specification, even when the leveling tank is enlarged, a technique capable of suppressing deterioration of the operation efficiency of the attaching / detaching operation of the foam insulating member is provided.

The insulated warming apparatus disclosed in this specification comprises a substantially cylindrical reservoir tank, a foam insulating member covering the storage tank, and a vacuum insulating member arranged at least in part between the storage tank and the foam insulating member. The foamable heat insulating member has a first cylindrical portion, a second cylindrical portion, a bottom face portion, a ring portion, and an upper face portion. The first cylindrical portion is a cylindrical portion that covers a part of the outer circumferential surface of the holding tank in the axial direction, and has a first left side portion and a first right side portion. The second cylindrical portion is a tubular portion that covers the outer peripheral surface of another portion in the axial direction of the storage tank and has a second left side portion and a second right side portion. The bottom portion covers the bottom surface of the storage tank and holds the lower end of the first left side portion and the lower end of the first right side portion by pressing them in the direction of the storage tank. The ring portion presses and holds the upper end of the first left side portion and the upper end of the first right side portion in the direction of the storage tank and presses and holds the lower end of the second left side portion and the lower end of the second right side portion in the direction of the storage tank. The upper surface portion covers the outer circumferential surface of the upper surface of the storage tank and holds the upper end of the second left side portion and the upper end of the second right side portion by pressing them in the direction of the storage tank.

The above-described foam insulating member is, for example, a heat insulating member made of foamed styrol. The above vacuum heat insulating member has a structure in which a porous core material is sandwiched between two sheets of film and two sheets of the film are fused in the range of aligning the periphery of the core material to be sandwiched, It is sealed.

In the above-mentioned insulated warming apparatus, the foam insulating member has a first cylindrical portion covering a part of the outer circumferential surface in the axial direction of the storage tank and a second cylindrical portion covering an outer circumferential surface of another portion in the axial direction of the storage tank, The cylindrical portion and the second cylindrical portion are provided with a left side portion and a right side portion, respectively. According to the adiabatic heating apparatus described above, the first cylinder portion (the first left side portion and the first right side portion) and the second cylinder portion (the second left side portion and the second right side portion) are supported by the bottom portion, the ring portion, Direction. Therefore, even when the storage tank is enlarged, the first tubular portion (the first left side portion and the first right side portion) and the second tubular portion (the second left side portion and the second right side portion Can be combined to cover the storage tank. As a result, like the foam insulating member in the conventional heat insulating type warming apparatus, only the two members of the right side portion covering the right half surface of the outer peripheral surface of the storage tank and the left side portion covering the left half surface of the outer peripheral surface of the storage tank, There is no need to cover the tank. Therefore, according to the above-mentioned adiabatic bath apparatus, for example, even when the storage tank is large, the working efficiency of the attaching / detaching operation of the foam insulating member can be suppressed from being lowered.

According to the above configuration, the entire outside surface of the storage tank can be covered by the first cylinder portion, the second cylinder portion, the bottom surface portion, the ring portion, and the top surface portion. Therefore, it is possible to effectively prevent the temperature of the hot water stored in the storage tank from being lowered.

1 is a perspective view schematically showing a low-
2 is an exploded perspective view schematically showing a low-
Fig. 3 is a cross-sectional view schematically showing the adiabatic-
4 is an enlarged view of a portion IV in Fig. 3
5 is an enlarged view of a portion V in Fig. 3
6 is an enlarged view of the portion VI of Fig. 3
7 is an exploded perspective view schematically showing a state in which the filling tank is covered with the foam insulating member
8 is an exploded perspective view schematically showing a state in which the storage tank is covered with the foam insulating member

The main features of the embodiments to be described below will be described later (in column). In addition, the technical elements described below are independent technical elements and exert their technical usefulness individually or in various combinations, and the invention is not limited to the combination of claims described in the application.

(Characteristic 1) The present specification also discloses a low-temperature type hot water supply apparatus having the above-mentioned adiabatic warming apparatus and a hot water supply path for supplying hot water in a hot water tank to hot water use sites.

(Example)

As shown in Fig. 1, the low-temperature type hot water supply system 2 according to the present embodiment has hot water heated by a heat pump in a storage tank, and a hot water supply device to be. The low-temperature water heater 2 includes a casing 4 and a heat insulating warmer 20. The insulated warming apparatus (20) is provided in the casing (4). 1, the illustration of various pipe flows such as the hot water supply path provided around the adiabatic heating apparatus 20 and the casing 4 is omitted.

The casing (4) is a box-like member capable of accommodating the heat insulating type warming apparatus (20). A bottom plate (12) is formed at the lower end of the casing (4). The casing 4 is formed by a bottom plate 12 and a plurality of plate members 4a, 4b, 4c, 4d, 4e including the front plate member 4a. A plurality of arrangement holes 6 are formed in the vicinity of the lower end of the front plate member 4a for inserting various pipe flows. A working hole 8 for inserting a tool is also formed at the lower end of the front plate member 4a.

Fig. 2 schematically shows an exploded perspective view of the low-temperature type hot water supply device 2 of the present embodiment. In Fig. 2, the casing 4 shows a state in which the plate members 4b to 4e (see Fig. 1) other than the front plate member 4a are removed. As shown in Fig. 2, a frame body 10 is formed above the front plate member 4a. A controller (not shown) or the like can be attached to the frame body 10.

On the upper surface of the bottom plate 12, a small attachment plate 14 and a large attachment plate 16 are formed. Both the small attachment plate 14 and the large attachment plate 16 are provided vertically with respect to the upper surface of the bottom plate 12. The small attachment plate 14 and the large attachment plate 16 are formed with screw holes. The small attachment plate 14 is provided in the vicinity of the front plate member 4a and is provided at a position facing the operation hole 8. [

2, the adiabatic warming apparatus 20 is provided with a storage tank 22, a foam insulating member 30 covering the storage tank 22, and three legs 24a, 24b and 24c do. The storage tank 22 is a storage tank made of stainless steel and stores hot water heated by a heat pump (not shown). The storage tank 22 is formed in a substantially cylindrical shape. The capacity of the holding tank 22 is, for example, 100 liters.

The three legs 24a to 24c are attached to the outer peripheral surface of the bottom surface of the storage tank 22. The three legs 24a to 24c are attached at substantially equal intervals (approximately 120 degrees apart). A plate member 26 is fixed between the lower ends of the two legs 24a and 24b of the three legs 24a to 24c. The plate member 26 is formed with two screw holes. A threaded hole is also formed in the lower end portion of the leg 24c. The adiabatic bath apparatus 20 is installed on the bottom plate 12 by fixing the three legs 24a to 24c to the bottom plate 12.

The leg 24c and the small attachment plate 14 are arranged side by side and the front plate member 4a is moved from the outside of the front plate member 4a through the operation hole 8 A tool is inserted to fix the small attachment plate 14 and the leg 24c with screws. The plate member 26 and the large attachment plate 16 are arranged side by side so that the plate member 26 and the large attachment plate 16 are fixed with screws. Thus, the adiabatic type warming apparatus 20 is installed on the bottom plate 12.

The foamable thermal insulating member (30) is a thermal insulating member covering the storage tank (22). In this embodiment, the foam insulating member 30 is formed of foamed styrene. The foamed thermal insulating member 30 has a bottom face portion 40, a first cylinder portion 50, a ring portion 60, a second cylinder portion 70 and an upper face portion 80 in order from the bottom.

The bottom surface portion 40 covers the outer peripheral surface of the bottom surface of the storage tank 22. As shown in the sectional view of Fig. 3, the bottom surface portion 40 is formed in an approximately hemispherical shape having an opened top surface. 3 shows only a section of the foam insulating member 30, and a cross section of the storage tank 22 is not shown. The inner peripheral surface of the bottom surface portion 40 is attached so as to be in contact with the outer peripheral surface of the bottom surface of the storage tank 22. Although not shown, the bottom surface portion 40 is formed with a hole for allowing the legs 24a to 24c provided on the bottom surface of the storage tank 22 to pass therethrough. 4, a step that can be engaged with the step of the lower end portion (that is, the lower end portion 52a, 54a) of the first cylinder portion 50 to be described later is formed at the opening edge portion 42 of the bottom face portion 40 have. The inner diameter of the stepped portion of the opening edge portion 42 is slightly smaller than the outer diameter of the stepped portion of the lower end of the first cylindrical portion 50 or slightly smaller than the outer diameter of the stepped portion of the lower end of the first cylindrical portion 50 . The step of the opening edge portion 42 is engaged with the step of the lower end portion of the first cylinder portion 50 and the lower end portion of the first cylinder portion 50 is pressed and held in the direction of the storing tank 22 .

As shown in Fig. 2, the first cylindrical portion 50 covers the outer peripheral surface in the vicinity of the axially downward side of the storage tank 22. The first cylindrical portion 50 has a first left side portion 52 and a first right side portion 54. A through hole 56 is formed at a portion where the first left side portion 52 and the first right side portion 54 abut each other. A thermistor (not shown) can be attached to the surface of the storage tank 22 through the through hole 56. The through hole 56 is closed by the closing plate 58. In this embodiment, the closing plate 58 is also formed of foamed styrene.

The first left side portion (52) covers the left portion of the outer peripheral surface in the vicinity of the axially lower side of the storage tank (22). The lower end portion 52a of the first left side portion 52 is formed with a step that can be engaged with the stepped portion of the opening edge portion 42 of the bottom surface portion 40 (see FIGS. 3 and 4). 3 and 5) formed on the upper end 52b of the first left side portion 52 so as to be engageable with the stepped portion of the lower end opening edge 62 of the ring portion 60. As shown in Figs. 7, a fixing portion 53 is formed on the inner circumferential surface of the first left side portion 52, and a vacuum insulator 100 is provided on the fixing portion 53. As shown in Fig.

The vacuum insulator 100 is obtained by sandwiching a porous core material between two films and fusing two films in a range in which they surround the periphery of the inserted core material and sealing the existing range of the core material in a vacuum state will be. Generally, the heat insulating performance of the vacuum insulating material 100 is higher than that of the foam insulating material 30.

A stepped portion (not shown) which can be engaged with a step (not shown) of the side end portion 54c of the first right side portion 54 is formed in the side end portion 52c of the first left side portion 52. A notch portion 52d is formed in the side end portion 52c of the first left side portion 52.

The first right side portion 54 covers the right side portion of the outer circumferential surface in the vicinity of the axially lower side of the storage tank 22. The first right side portion 54 has almost the same configuration as the first left side portion 52. In other words, a step that can be engaged with the step of the opening edge portion 42 of the bottom surface portion 40 is formed at the lower end portion of the first right side portion 54 (see FIGS. 3 and 4). 3 and 5) formed at the upper end 54b of the first right side portion 54 so as to be engageable with the stepped portion of the lower end opening edge 62 of the ring portion 60. As shown in Fig. 7, a fixing portion 55 is formed on the inner circumferential surface of the first right side portion 54, and a vacuum heat insulating material 100 is provided on the fixing portion 55. As shown in Fig. A stepped portion (not shown) which can be engaged with a step (not shown) of the side end portion 52c of the first left side portion 52 is formed in the side end portion 54c of the first right side portion 54. [ A notched portion 54d is also formed in the side end portion 54c of the first right side portion 54. [

The side end portion 52c of the first left side portion 52 and the side end portion 54c of the first right side portion 54 are engaged by combining the first left side portion 52 and the first right side portion 54 . The notched portion 52d of the first left side portion 52 and the notched portion 54d of the first right side portion 54 are combined to form the through hole 56. [

The ring portion 60 is an annular member (see Fig. 7). The lower opening edge 62 of the ring portion 60 is formed with a step that can be engaged with a step of the upper end portion (i.e., the upper end portion 52b, 54b) of the first cylinder portion 50 (see FIG. The inner diameter of the stepped portion of the lower end opening edge 62 of the ring portion 60 is substantially equal to the outer diameter of the stepped portion of the upper end portion of the first cylindrical portion 50 or slightly larger than the outer diameter of the stepped portion of the upper end portion of the first cylindrical portion 50 small. The top end opening edge 64 of the ring portion 60 is formed with a step that is engageable with a step of the lower end portion (that is, the lower end portion 72a, 74a) of the second cylinder portion 70 described later (see FIG. 5) . The inner diameter of the stepped portion of the upper end opening edge 64 of the ring portion 60 is substantially equal to the outer diameter of the stepped portion of the lower end portion of the second cylinder portion 70 or slightly larger than the outer diameter of the stepped portion of the lower end portion of the second cylinder portion 70 small.

That is, the stepped portion of the lower end opening edge 62 of the ring portion 60 is engaged with the stepped portion of the upper end portion (the upper end portion 52b, 54b) of the first cylindrical portion 50, In the direction of the storage tank 22 and holds it. Similarly, the stepped portion of the upper end opening edge 64 of the ring portion 60 is engaged with the stepped portion of the lower end portion (lower end portion 72a, 74a) of the second cylindrical portion 70 and the lower end portion of the second cylindrical portion 70 And is pressed and held in the direction of the holding tank 22.

As shown in Fig. 2, the second cylindrical portion 70 covers the outer circumferential surface near the axially upper side of the storage tank 22. The second cylindrical portion 70 has a second left side portion 72 and a second right side portion 74. Two through holes 76 are formed in a portion where the second left side portion 72 and the second right side portion 74 are in contact with each other. The function of the through hole 76 is the same as that of the through hole 56 described above. The two through holes 76 are each closed by a closing plate 78. The closing plate 78 is also formed of foamed styrene.

The second left side portion 72 covers the left portion of the outer circumferential surface near the axially upper side of the storage tank 22. The lower end portion 72a of the second left side portion 72 is formed with a stepped portion that engages with the stepped portion of the upper end opening edge 64 of the ring portion 60 (see FIGS. 3 and 5). 3 and 6) are formed at an upper end 72b of the second left side portion 72. The stepped portion of the opening edge portion 82 of the upper surface portion 80 described later is engageable with the stepped portion. 8, a fixing portion 73 is formed on the inner circumferential surface of the second left side portion 72, and a vacuum heat insulating material 100 is provided on the fixing portion 73. As shown in Fig.

The side end portion 72c of the second left side portion 72 is formed with a step (not shown) which can be engaged with a step (not shown) of the side end portion 74c of the second right side portion 74. Two notched portions 72d are formed in the side end portion 72c of the second left side portion 72. [

The second right side portion 74 covers the right portion of the outer circumferential surface near the axially upper side of the storage tank 22. The second right side portion 74 has almost the same configuration as the second left side portion 72. That is, the lower right end portion of the second right side portion 74 is also formed with a step that can be engaged with the stepped portion of the upper end opening edge 64 of the ring portion 60 (see FIGS. 3 and 5). 3 and 6) are formed on the upper end portion 74b of the second right side portion 74 so as to engage with the stepped portion of the opening edge portion 82 of the upper face portion 80 described later. 8, a fixing portion 75 is formed on the inner circumferential surface of the second right side portion 74, and a vacuum heat insulating material 100 is provided on the fixing portion 75. As shown in Fig. A stepped portion (not shown) which can be engaged with a step (not shown) of the side end portion 72c of the second left side portion 72 is formed in the side end portion 74c of the second right side portion 74. Two notch portions 74d are also formed in the side end portions 74c of the second right side portion 74. [

The side end portion 72c of the second left side portion 72 and the side end portion 74c of the second right side portion 74 are engaged by the combination of the second left side portion 72 and the second right side portion 74 . Thereby, the two notch portions 72d of the second left side portion 72 and the two notch portions 74d of the second right side portion 74 are combined to form two through holes 76, respectively.

The upper surface portion 80 covers the outer peripheral surface of the upper surface of the storage tank 22. As shown in the sectional view of Fig. 3, the upper surface portion 80 is formed in an approximately hemispherical shape with a lower surface opened. The inner circumferential surface of the upper surface portion 80 is attached so as to abut the outer circumferential surface of the upper surface of the storage tank 22. 6, the opening edge portion 82 of the upper surface portion 80 is formed with a step that can be engaged with the step of the upper end portion (that is, the upper end portion 72b, 74b) of the second cylinder portion 70 The inner diameter of the stepped portion of the opening edge portion 82 is substantially equal to the outer diameter of the stepped portion of the upper end portion of the second cylinder portion 70 or the outer diameter of the stepped portion of the lower end portion of the second cylinder portion 70 The step of the opening edge portion 82 is engaged with the step of the upper end portion of the second cylinder portion 70 and the upper end portion of the second cylinder portion 70 is pressed in the direction of the storing tank 22 The upper surface portion 80 is formed with an insertion hole 84 for inserting a pipe therethrough and a through hole (not shown) for attaching a thermistor to the upper surface of the storage tank 22.

3, each of the bottom surface portion 40, the first tubular portion 50, the ring portion 60, the second tubular portion 70, and the upper surface portion 80, which cover the warming tank 22, And the surface of the connecting portion of the connecting portion is substantially flush with no unevenness. This makes it unnecessary to form an unnecessary space between the surface of the foam insulating member 30 and the pipe when arranging the pipe along the surface of the foam insulating member 30. [

Next, in the present embodiment, the outer peripheral surface of the storage tank 22 is divided into the foam insulating member 30 (the bottom surface portion 40, the first cylinder portion 50, the ring portion 60, the second cylinder portion 70, The upper surface portion 80) will be described with reference to Figs. 7 and 8. Fig.

First, the bottom surface of the bottom surface of the storage tank 22 is covered with the bottom surface portion 40. At this time, the legs 24a to 24c provided on the bottom surface of the storage tank 22 are projected outward from holes (not shown) formed in the bottom surface portion 40. [

In this embodiment, the attachment of the plate member 26 (see Fig. 2) to the legs 24a and 24b, the fixing of the plate member 26 and the large attachment plate 16, (14) is carried out after at least the bottom surface portion (40) is attached.

Next, as shown in Fig. 7, the first left side portion 52 and the first right side portion 54 are attached. Specifically, the inner peripheral surface of the first left side portion 52 and the inner peripheral surface of the first right side portion 54 cover the outer peripheral surface of the storage tank 22 and the side edge portion 52c of the first left side portion 52, And the side end portions 54c of the first right side portion 54 are brought into contact with each other to engage the stepped portions of the side end portions 52c and 54c. Thus, the first cylindrical portion 50 is formed. Next, the stepped portion of the lower end portion (i.e., the lower end portion 52a, 54a) of the first cylindrical portion 50 is engaged with the stepped portion of the opening edge portion 42 of the bottom face portion 40 (see Fig. 4).

Next, as shown in Fig. 7, the ring portion 60 is attached. Concretely, the step of the lower end opening edge 62 of the ring portion 60 is engaged with the step of the upper end portion (that is, the upper end portion 52b, 54b) of the first cylindrical portion 50 (see FIG.

As a result, the lower end portion (i.e., the lower end portion 52a, 54a) of the first cylindrical portion 50 is pressed and held in the direction of the storage tank 22 by the opening edge portion 42 of the bottom surface portion 40, And the upper end portion (that is, the upper end portion 52b, 54b) is pressed and held in the direction of the storage tank 22 by the lower end opening edge 62 of the ring portion 60. [ Therefore, the first cylindrical portion 50 is kept covered with the outer circumferential surface of the storage tank 22. At this time, the vacuum heat insulating material 100 provided on the inner peripheral surface of the first left side portion 52 and the first right side portion 54 is also held in the state of being pushed against the outer peripheral surface of the storage tank 22.

Next, the through hole 56 formed in the first cylindrical portion 50 is closed by the closing plate 58.

Next, as shown in Fig. 8, the second left side portion 72 and the second right side portion 74 are attached. Concretely, the inner circumferential surface of the second left side portion 72 and the inner circumferential surface of the second right side portion 74 cover the outer circumferential surface of the storage tank 22 and the side end portion 72c of the second left side portion 72, And the side end portions 74c of the two right side portions 74 are brought into contact with each other so that the stepped portions of the side end portions 72c and 74c are engaged with each other. Thus, the second cylindrical portion 70 is formed. Next, the stepped portion of the lower end portion (i.e., the lower end portion 72a, 74a) of the second cylindrical portion 70 is engaged with the stepped portion of the upper end opening edge 64 of the ring portion 60 (see FIG.

Next, the upper surface portion 80 covers the outer peripheral surface of the upper surface of the storage tank 22. At this time, the step of the opening edge portion 82 of the upper surface portion 80 is engaged with the step of the upper end portion (i.e., the upper end portion 72b, 74b) of the second cylinder portion 70 (see FIG.

As a result, the lower end portion (i.e., the lower end portion 72a, 74a) of the second cylinder portion 70 is pressed and held in the direction of the storing tank 22 by the upper end opening edge 64 of the ring portion 60, The upper end portions 72b and 74b are pressed and held in the direction of the storage tank 22 by the opening edge portions 82 of the upper surface portion 80. [ Therefore, the second cylindrical portion 70 is kept covered with the outer peripheral surface of the storage tank 22. At this time, the vacuum heat insulating material 100 provided on the inner circumferential surfaces of the second left side portion 72 and the second right side portion 74 is also held in the state of being pushed against the outer peripheral surface of the storage tank 22.

Finally, the two through holes 76 formed in the second cylindrical portion 70 are closed by the closing plate 78, respectively.

The configuration of the low-temperature type hot water supply device 2 of the present embodiment has been described above. As described above, in this embodiment, the foamed thermal insulating member 30 has the first cylindrical portion 50 that covers the outer peripheral surface of the lower side of the balancing tank 22 in the axial direction, And the first tubular portion 50 and the second tubular portion 70 are provided with left side portions 52 and 72 and right side portions 54 and 74, respectively. In the present embodiment, the first cylinder portion 50 (the first left side portion 52 and the first right side portion 54) and the second cylinder portion 70 (the second left side portion 72 and the second right side portion 74) Is pressed and held in the direction of the storage tank 22 by the bottom surface portion 40, the ring portion 60, and the top surface portion 80. Therefore, even in the case where the storage tank 22 is enlarged, the first tubular portion 50 having a relatively small size (the first left side portion 52 and the first right side portion 52) And the second tank portion 70 (the second left side portion 72 and the second right side portion 74) can be combined to cover the storage tank 22. As a result, like the foam insulating member in the conventional heat insulating type warming apparatus, only the two members of the right side portion covering the right half surface of the outer peripheral surface of the storage tank and the left side portion covering the left half surface of the outer peripheral surface of the storage tank, There is no need to cover the tank. Therefore, according to the adiabatic warming apparatus 20 of the present embodiment, even when the storage tank 22 is large, it is possible to suppress the deterioration of the operation efficiency of the attaching / detaching operation of the foamy insulating member 30 have.

In the present embodiment, the outer surface of the outer side of the storage tank 22 is surrounded by the first cylindrical portion 50, the second cylindrical portion 70, the bottom surface portion 40, the ring portion 60, and the top surface portion 80 Can be coated. Therefore, it is possible to effectively prevent the temperature of the hot water stored in the storage tank 22 from being lowered.

While the embodiments of the present invention have been described in detail, the present invention is not limited to these embodiments. The techniques described in the claims include various modifications and variations of the embodiments described above.

(Modification 1) In the above embodiment, the two cylindrical portions 50, 70 cover the outer peripheral surface of the substantially cylindrical reservoir tank 22, and the space between the two cylindrical portions 50, And is held by the ring portion 60. The outer circumferential surface of the holding tank 22 may be covered by three or more cylindrical portions and the space between the cylindrical portions may be held by the ring portion. The lower end portion of the cylinder portion disposed at the lowermost position in the axial direction of the storage tank 22 is held by the bottom face portion 40 and the upper end portion of the cylinder portion disposed at the uppermost position in the axial direction of the storage tank 22 And is preferably held by the upper surface portion 80.

4, the stepped portion of the lower end portion (i.e., the lower end portions 52a, 54a) of the first cylindrical portion 50 and the stepped portion of the opening edge portion of the bottom surface portion 40 42 are all formed in a rectangular shape. The tapered portion may be formed at the step of the lower end portion (i.e., the lower end portion 52a, 54a) of the first cylindrical portion 50 and the stepped portion of the opening edge portion 42 of the bottom face portion 40 . The lower end portion of the first cylindrical portion 50 and the opening edge portion 42 of the bottom surface portion 40 can be smoothly engaged with each other by forming the tapered portion. Similarly, a tapered portion may be formed at the step of the upper end portion (i.e., the upper end portion 52b, 54b) of the first cylindrical portion 50 and the stepped portion of the lower end opening edge 62 of the ring portion 60. [ A tapered portion may be formed at the step of the lower end portion (i.e., the lower end portion 72a, 74a) of the second cylindrical portion 70 and the stepped portion of the upper end opening edge 64 of the ring portion 60. [ A tapered portion may be formed at the step of the upper end portion (i.e., the upper end portion 72b, 74b) of the second cylindrical portion 70 and the stepped portion of the opening edge portion 82 of the upper surface portion 80. [

2 - low temperature hot water supply unit 4 - casing
4a - front plate members 4b, 4c, 4d, 4e - plate members
6 - Batch hole 8 - Operation hole
10 - frame body 12 - bottom plate
14 - Small attachment plate 16 - Large attachment plate
20 - Insulating tank 22 - Storage tank
24a, 24b, 24c-leg 26-plate
30 - foamable thermal insulating member 40 - bottom part
42 - opening edge portion 50 - first cylinder portion
52 - first left side portion 52a -
52b - upper end portion 52c -
52d - Notch 53 - Fixed portion
54 - First right side 54a - Lower side
54b - upper end 54c -
54d - Notch 55 - Fixed portion
56 through hole 58 closed plate
60 - Ring portion 62 - Lower opening edge
64 - upper opening edge 70 - second cylinder
72 - second left side 72a -
72b - upper end portion 72c -
72d - Notch portion 73 - Fixed portion
74 - Second right portion 74a - Lower end
74b - upper end portion 74c -
74d - Notch 75 - Fixed portion
76 - Through hole 78 - Closed plate
80 - upper surface portion 82 - opening edge
84 - Insertion hole 100 - Vacuum insulation

Claims (2)

As an adiabatic bath apparatus,
A foam insulating tank for covering the filling tank, and a vacuum insulating member arranged at least at a part between the filling tank and the foam insulating member,
The foamable heat insulating member has a first tubular portion, a second tubular portion, a bottom surface portion, a ring portion, and an upper surface portion,
The first cylindrical portion is a tubular portion that covers a part of the outer circumferential surface of the holding tank in the axial direction and has a first left side portion and a first right side portion,
The second cylindrical portion is a tubular portion that covers the outer peripheral surface of another portion in the axial direction of the storage tank and has a second left side portion and a second right side portion,
The bottom portion covers the outer circumferential surface of the bottom surface of the storage tank and holds the lower end of the first left side portion and the lower end of the first right side portion by pressing them in the direction of the storage tank,
The ring portion presses and holds the upper end of the first left side portion and the upper end of the first right side portion in the direction of the storage tank and presses and holds the lower end of the second left side portion and the lower end of the second right side portion in the direction of the storage tank,
Wherein the upper surface portion covers the outer circumferential surface of the upper surface of the storage tank and holds the upper end of the second left side portion and the upper end of the second right side portion by pressing in the direction of the storage tank.
A low-temperature type hot water supply system comprising the adiabatic bath apparatus according to claim 1 and a hot water supply path for supplying hot water in a storage tank to a hot water utilization site.

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