JP3471450B2 - Hot water storage tank - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hot water storage tank used for a hot water storage type water heater or the like.

[0002]

2. Description of the Related Art A hot water storage tank used in hot water storage type electric water heaters currently on the market has a structure in which a bowl-shaped end plate is welded to both sides of a cylindrical tank body.
This is because the hot water storage tank in which the bowl-shaped end plates are welded to both sides of the cylindrical tank body has high mechanical strength, and it is not particularly necessary to reinforce with a reinforcing material or the like.

[0003]

However, in the welded portion of the conventional hot water storage tank, there is a problem that crevice corrosion is likely to occur due to the action of the local battery and the life is short.

An object of the present invention is to provide a hot water storage tank having a longer life than ever before.

Another object of the present invention is to provide a hot water storage tank in which crevice corrosion is unlikely to occur.

Another object of the present invention is to provide a hot water storage tank having high mechanical strength.

Still another object of the present invention is to provide a hot water storage tank in which the sealing portion of the joint has a long life.

[0008]

According to the present invention, a hot water storage tank is composed of a tank body formed by deep drawing and a closing plate for closing the opening of the tank body. The tank body and the closing plate are joined by seaming the opening end of the tank body and the peripheral edge of the closing plate with an insulating sealing material. Here, the shape of the tank main body formed by deep drawing is arbitrary, and various shapes of tank main body formed by a square tubular drawing, a cylindrical drawing, a hemispherical drawing, or the like can be used. The shape of the closing plate is also arbitrary. The closing plate may be shaped so as to enter the inside of the tank body, or may be shaped so as not to enter the inside of the tank body at all.

The hot water storage tank has a portion having a large temperature difference and a portion having a small temperature difference depending on the location. Especially, the temperature difference in the upper portion becomes large. For example, when boiling water is used in a hot water storage tank with a heater from the state where water is contained, convection of hot water occurs in the area above the heater and the temperature rises, and it is different between before boiling and after boiling. A temperature difference of 60 ° C. or more occurs. When the tank body and the closing plate are joined by welding, even such a temperature difference does not cause any problem.
However, in the connection by seaming, if there is a large temperature difference, the life of the seal member is shortened, which may shorten the life of the hot water storage tank. Therefore, the hot water storage tank of the present invention is preferably installed so that the joint portion formed by the seaming process is located on the lower side. When the temperature difference is small, it goes without saying that the hot water storage tank may be arranged so that the joint portion formed by the seaming process is located on the upper side.

The closing plate may have a flat plate shape, but it is preferably curved in order to enhance mechanical strength. In particular, when the closing plate is curved so as to be convex toward the inside of the tank body, the strength of the hot water storage tank can be increased and the hot water storage tank can be made compact.

As the insulative sealing material, it is necessary to use a harmless material which is not broken by a tensile force or a shearing force at the time of seaming and has water resistance. For example, a rubber packing material or a sealing material can be used as the insulating sealing material. Recently, a structural adhesive that meets the requirements for an insulating sealing material has been developed, and such a structural adhesive can also be used as an insulating sealing material. Since a considerably large force is applied in the seaming process, the structural adhesive is in the form of a film or sheet having a predetermined thickness in the non-heated state, and it is melted and softened when heated to provide structural adhesiveness. It is preferable to use an agent. This sheet-shaped adhesive is melted by heating after seaming by using an appropriate heating method such as high-frequency heating, and adheres to the tank body and the closing plate.

[0012]

Function: The tank body formed by deep drawing has no connecting portion. When the tank body and the closing plate are joined by seaming the opening end of the tank body and the peripheral edge of the closing plate with an insulating seal material, it is not necessary to use welding for joining the two. Therefore, according to the hot water storage tank of the present invention, the number of welded portions can be significantly reduced, so that the rate of occurrence of crevice corrosion, which is the largest cause of shortening the life of the hot water storage tank, can be greatly reduced.

[0013]

Embodiments of the present invention will now be described in detail with reference to the drawings. FIG. 1 is an exploded perspective view of an underfloor storage hot water storage type electric water heater using an embodiment of the hot water storage tank of the present invention.
In FIG. 1, a concrete frame 1 is formed on a concrete slab 101 formed under the floor.
The frame 1 is composed of four walls 2 to 5 and has an opening that opens upward. A groove 6 into which the hot water supply pipe L1 and the water supply pipe L2 are inserted is formed in the wall 2, and stud bolts 7 ... Are embedded in the upper ends of the walls 3 and 4.

Reference numeral 8 represents a hot water storage tank made of stainless steel according to the embodiment of the present invention. The six walls 9 to 14 of the hot water storage tank 8
Has a low-strength wall portion that may be deformed due to an increase in internal pressure unless a reinforcing material is provided because it is not curved. However, the hot water storage tank 8 can be manufactured at a lower cost than the conventional hot water storage tank.

FIG. 2A is a sectional view showing the structure of the hot water storage tank 80 in an exaggerated manner. The hot water storage tank 80 does not use any welding for assembling the hot water storage tank. First, a stainless steel plate is drawn by a deep-drawing square tube to form a square tube-shaped tank body 81 with one end open. A flange portion 82 for seaming (caulking) is formed in the opening of the tank body 81. Although not shown, the tank main body 81 is provided with a hole for connecting a hot water supply pipe and a water supply pipe and a hole for inserting a heater, and a connecting pipe line or a cap is connected to each hole as needed. deep. Further, a stainless steel plate is pressed to form a closing plate 85 having a protrusion 83 projecting toward the inside of the opening of the tank main body 81 at the center and a flange 84 for seaming at the peripheral edge. Next, as shown in an enlarged manner in FIG. 2 (B), seaming is performed with the insulating seal material 86 sandwiched between the flange portion 82 of the tank body 81 and the flange portion 84 of the closing plate 85, The tank body 81 and the closing plate 85 are joined together. In this embodiment, the seaming process is performed so as to curl toward the tank body 81 side, but the curling direction is arbitrary.

As the insulative sealing material 86, it is necessary to use a harmless material which is not broken by a tensile force or a shearing force at the time of seaming processing and has water resistance. For example, a rubber packing material or a sealing material can be used as the insulating sealing material 86. Recently, a structural adhesive that meets the requirements for an insulating sealing material has been developed, and such a structural adhesive can also be used as the insulating sealing material 86. Since a considerably large force is applied in the seaming process, it is preferable to use a film-shaped or sheet-shaped structural adhesive having a predetermined thickness as the structural adhesive. This film-like or sheet-like adhesive is melted and softened by heating it by using an appropriate heating method such as high-frequency heating after the seaming process, so that the flange portion 82 of the tank body 81 and the flange portion 84 of the closing plate 85 are formed. In close contact. As this type of structural adhesive, one sold by Sumitomo 3M Co., Ltd. under the trade name of Scotch-Weld can be used.

In this embodiment, as shown in FIG.
The body 81a of the tank body 81 and the protruding portion 83 of the closing plate 85
And an inclined portion 85a formed between the flange portion 84 and the flange portion 84, an annular gap 87 having a modified V-shaped cross section is formed. When the above-mentioned structural adhesive is used, the bottom of the gap 87 is completely sealed with the adhesive when the adhesive is melted, so that the occurrence of liquid leakage and the occurrence of crevice corrosion are prevented. .

The hot water storage tank 80 manufactured in this manner is
Concrete slab 10 with seaming joints
It is housed in the frame body 1 so as to be positioned on the 1 side. In this way, the joint portion is not constantly exposed to high temperature, and thus it is possible to prevent the life of the seal portion from being shortened due to thermal expansion and thermal contraction.

As shown in FIG. 1, a heater insertion hole is formed in the upper side wall 9 of the hot water storage tank 8, and the heater 15 is inserted into the hot water storage tank 8 through this hole. In FIG. 1, only the terminal portion of the heater 15 is shown. The heater 15 has a shape bent in an L shape. A hot water supply pipe L1 is drawn out from the upper side wall portion 9.

The side wall 11 located at the end of the hot water storage tank 8 in the longitudinal direction has a sensor protection plate 1 made of a stainless steel plate.
6 is detachably attached, and this sensor protection plate 1
A water supply temperature sensor 17 and a residual hot water sensor 18 are fixed to 6. By attaching the sensor protection plate 16 to the side wall portion 11, these sensors come into contact with the wall surface of the hot water storage tank, and measure the feed water temperature and the residual hot water temperature from the temperature of the wall portion of the hot water storage tank. A water supply pipe L2 is attached to the side wall portion 11. The water supply pipe L2 and the hot water supply pipe L1 extend to the outside of the frame body 1 through a groove 6 formed in the wall 2 of the frame body 1.
Is connected to a connecting pipe of a piping pack (not shown).

Between the lower side wall portion 14 of the hot water storage tank 8 and a part of the concrete slab 101 located inside the frame body 1,
Between the side wall portions 10 to 13 of the hot water storage tank 8 and the walls 2 to 5 of the frame body 1, heat insulating plates 19 to 23 made of a heat insulating material having high compressive strength are arranged. These heat insulation boards 19-
23 is formed, for example, by processing a heat insulating material sold under the name of Super Silica (trade name) by Nichias Corporation. This heat insulating material has a compressibility of 5% or less for a pressure of 6 kg / cm ² . As the heat insulating material used for these heat insulating plates 19 to 23, the wall portions 10 to 14 of the hot water storage tank 8 are used.
Any material may be used as long as it has a compressive strength or compressibility that does not substantially allow the deformation. Here, the compressive strength that does not substantially allow deformation depends on the thickness of the stainless steel plate forming the hot water storage tank 8. That is, the compressive strength is such that the wall portion is deformed by the internal pressure of the hot water storage tank 8 in the use state and the deformation of the wall portion is allowed to the extent that liquid leakage does not occur from the joint portion of the hot water storage tank 8.

In this embodiment, the lower side wall portion 14 of the box-shaped hot water storage tank 8 is provided with a concrete slab 10 via a heat insulating plate 19.
Reinforced by 1. In other words, the concrete slab 101 receives the internal pressure applied to the lower side wall 14 of the hot water storage tank 8 to increase the pressure resistance of the lower side wall 14. Similarly, the side walls 10 to 13 of the hot water storage tank 8 are connected to the heat insulating plate 20.
Are reinforced by the walls 2 to 5 of the frame body 1 through 23.
In other words, the concrete frame 1 receives the internal pressure applied to the side walls 10 to 13 of the hot water storage tank 8 to increase the pressure resistance of the side walls 10 to 13.

On the upper side wall portion 9 of the hot water storage tank 8, a heat insulating plate 24 made of the above-mentioned heat insulating material having a high compressive strength is also arranged. A lid member 25 having high strength is arranged. The lid member 25 has a mechanical strength such that it is not deformed at all by the force of the internal pressure of the hot water storage tank 8. The lid member 25 is formed with a plurality of through holes 26 into which the stud bolts 7 provided in the frame 1 are inserted. A nut (not shown) is screwed onto the tip of the stud bolt 7 inserted into these through holes 26. In this embodiment, the upper side wall portion 9 of the hot water storage tank 8
The pressure resistance strength of is increased by the heat insulating plate 24 and the lid member 25.

The pipe 28 extending outward from the wall 2 of the frame 1 is a water leakage drain pipe used when the water in the hot water storage tank 8 is drained if it should leak. The water discharged from the water leakage drain pipe 28 is discharged through the drainage pit 29 formed on the concrete slab 101.

According to this embodiment, the wall portion 9 of the hot water storage tank 8 is
Since all of Nos. 14 to 14 can be reinforced by the concrete slab 101, the frame 1 and the lid member 25, no problem occurs even if an inexpensive hot water storage tank in which all the walls are low-strength walls is used. Further, since the hot water storage tank 8 is surrounded by a heat insulating material having high compressive strength (high heat insulating rate),
Excellent heat retention performance. Further, in the present embodiment, since the shape of the hot water storage tank 8 has a box shape capable of occupying most of the internal space of the frame body 1, a hot water storage tank having a large capacity is arranged in a limited installation space. be able to.

The energization control device for controlling the energization of the heater 15 is arranged outside the frame 1 as a unit. Wiring between the energization control device and the heater 15 and the sensors 17 and 18 is performed through the groove 6 formed in the wall 2 of the frame body 1. The energization control of the heater 15 is exactly the same as that of a normal hot water storage type electric water heater, and a description thereof will be omitted.

In the above embodiment, since the lid member 25 that closes the opening of the frame 1 is used, the hot water storage tank 8 is not provided with any reinforcing material. However, when the lid member 25 is not used, a plurality of structural materials having a cross section of L-shape, I-shape, U-shape, etc. are fixed to the upper side wall portion 9 of the hot water storage tank 8 at a predetermined interval. To reinforce. Then, the upper side wall 9 may be covered with a heat insulating material having a low compressive strength.

FIG. 3 shows a schematic sectional view of another embodiment of the hot water storage tank of the present invention. The hot water storage tank of this embodiment is
It has a structure that can sufficiently withstand internal pressure without using a reinforcing material. The tank body 31 of the tank 30 of this embodiment is also formed by deep drawing. Tank body 31
The body portion 31a of the is formed in a cylindrical shape, and the upper side wall 31
b is formed in a bowl shape or a hemispherical shape like the end plate of the conventional hot water storage tank. Further, the closing plate 32 is the tank body 31.
Has a shape projecting toward the inside and having a convex shape like a bowl or a hemisphere. The flange portion of the tank body 31 and the peripheral edge portion of the closing plate 32 are seamed with an insulating sealing material as in the embodiment of FIG. If each wall of the hot water storage tank 30 is formed by a curved wall as in the present embodiment, the strength of each wall against the internal pressure increases. Therefore, unlike the embodiment shown in FIGS. 1 and 2, there is no need to reinforce the wall portion of the hot water storage tank with the reinforcing material.

FIGS. 4A and 4B show another embodiment of the hot water storage tank of the present invention and its installation mode. The hot water storage tank 40 includes a cylindrical peripheral wall portion 40a, a lower side wall portion 40b and an upper side wall portion 40c that close both ends of the peripheral wall portion 40a.
The cylindrical hot water storage tank 40 is also manufactured by using the deep drawing technique and the seaming technique, like the hot water storage tank 80 shown in FIG. Specifically, a tank body integrally having a peripheral wall portion 40a and an upper side wall portion 40c is formed by a deep-drawing cylindrical drawing, and a closing plate constituting a lower side wall portion 40b is formed by a seaming process at an opening of the tank body. Are connected. In this case as well, it goes without saying that an insulating seal material is used.

In this embodiment, in the hot water storage tank 40, the concrete slab 101 is provided on the lower side wall 40b via the heat insulating material 41.
It is placed on top. In addition, the upper wall 4 of the hot water storage tank 40
A pressing plate 44 made of concrete is arranged on the 0c via a heat insulating material 42. The restraining plate 44 has through holes formed at four corners. The stud bolts 45 fixed to the concrete slab 101 are inserted into the through holes, the nuts 46 are screwed into the tips of the stud bolts 45, and the pressing plate 44 is urged toward the hot water storage tank 40. . The heat insulating materials 41 and 42 are heat insulating materials having high compressive strength used in the embodiment of FIG. 1, and the heat insulating material 43 surrounding the peripheral wall portion 40a of the hot water storage tank 40 is heat insulating material having low compressive strength such as glass wool. In the hot water storage tank 40 of the present embodiment, the lower side wall 40b and the upper side wall 40c are low-strength walls, and these low-strength walls are connected to the concrete slab 101.
It is reinforced by the (structure) and the holding plate 44.

FIGS. 5A and 5B show still another embodiment of the hot water storage tank of the present invention and its installed state. The hot water storage tank 50 includes a hemispherical tank body 50a and a lower side wall portion 50b that closes the lower end of the tank body.
This hot water storage tank 50 is also manufactured by using the deep drawing technique and the seaming process technique, similarly to the hot water storage tank 30 shown in FIG. Specifically, the tank body 50a is formed by a deep-drawing hemispherical drawing, and the closing plate forming the lower side wall portion 50b is joined to the opening of the tank body 50a by seaming. In this case as well, it goes without saying that the insulating sealing material is used.

In this embodiment, in the hot water storage tank 50, the lower side wall portion 50b is arranged on the concrete slab 101 via the heat insulating material 51 having high compressive strength. In addition, hot water storage tank 50
The tank body 50a is covered with a heat insulating material such as glass wool having a low compressive strength. The hot water storage tank 50 is fixed to the concrete slab 101 by using fasteners 53 .... The stopper 53 has a through hole and is fixed to the outer peripheral portion of the tank body 50a by welding. Then, a stud bolt (not shown) fixed to the concrete slab 101 is inserted into the through hole, and a nut is screwed into the tip of the stud bolt, so that the hot water storage tank 50 is fixed to the concrete slab 101. In this embodiment, the lower side wall portion 50b is a low strength wall portion, and the heat insulating material 51 and the concrete slab 101 reinforce the low strength wall portion.

The constitutions of some of the plurality of inventions described in this specification will be listed below.

(1) A stainless steel plate is deep-drawn to form a tank body, and a stainless steel plate is pressed to form a closing plate that closes the opening of the tank body.
A hot water storage tank is manufactured by joining the tank body and the closing plate by performing a seaming process with an insulating sealing material interposed between the opening end of the tank body and the peripheral edge of the closing plate. A method for manufacturing a hot water storage tank, comprising: (2) As the insulating sealing material, an insulating sealing material that is sheet-like in an unheated state, has tensile strength and shear strength, and melts and softens when heated to exhibit adhesiveness is used. The method for manufacturing a hot water storage tank according to (1) above, wherein the insulating sealing material is melted and softened by high frequency heating after processing.

[0035]

According to the present invention, the tank main body and the closing plate are formed by seaming the opening end of the tank main body formed by deep drawing and the peripheral edge of the closing plate through the insulating seal material. Since they are joined, welding is not used to join them. Therefore, according to the hot water storage tank of the present invention, since the number of welded portions can be significantly reduced, there is an advantage that the rate of occurrence of crevice corrosion, which is the largest cause of shortening the life of the hot water storage tank, can be significantly reduced.

[Brief description of drawings]

FIG. 1 is an exploded perspective view of an example in which the hot water storage tank of the present invention is used in an underfloor storage hot water storage type electric water heater.

FIG. 2A is a sectional view showing an example of the structure of the hot water storage tank of the present invention, and FIG. 2B is an enlarged sectional view of a joint portion.

FIG. 3 is a schematic vertical sectional view of another embodiment of the hot water storage tank of the present invention.

4 (A) and 4 (B) are respectively an exploded perspective view and a schematic sectional view showing another embodiment of the hot water storage tank of the present invention and its installation state.

5 (A) and 5 (B) are respectively an exploded perspective view and a schematic sectional view showing still another embodiment of the hot water storage tank of the present invention and its installation state.

[Explanation of symbols]

1 frame 2-5 walls 6 grooves 7 Stud bolt 8, 30, 40, 50, 80 Hot water storage tank 81 Tank body 82 Block 85 Insulating sealing material 9-14 Wall of hot water storage tank 15 heater 16 Sensor protection plate 17 Water temperature sensor 18 Remaining hot water sensor 19-24 Heat insulation board 25 Lid member 101 concrete slab

─────────────────────────────────────────────────── ─── Continuation of front page (58) Fields surveyed (Int.Cl. ⁷ , DB name) F24H 9/00

Claims (4)

(57) [Claims] 1. A tank main body formed by deep drawing and a closing plate for closing an opening of the tank main body, wherein an opening end of the tank main body and a peripheral edge of the closing plate are provided with an insulating seal material. A hot water storage tank, wherein the tank body and the closing plate are joined by seaming. 2. The hot water storage tank according to claim 1, wherein the hot water storage tank is installed such that a joint portion formed by a seaming process is located on a lower side. 3. The hot water storage tank according to claim 2, wherein the closing plate has a shape that is convex toward the inside of the tank body. 4. The hot water storage according to claim 1, wherein the insulating sealing material is sheet-shaped in an unheated state, has tensile strength and shear strength, and melts and softens when heated to exhibit adhesiveness. tank.