JP2001336891A - Thermal storage tank - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a thermal storage tank having a sufficient thermal insulation effect and a heat insulation effect even when the tank is installed at a place having a large change of an external temperature. SOLUTION: The thermal storage tank 1 containing water as a thermal storage medium comprises side faces 12a, an upper surface 12b and a bottom surface 13. A heat insulator 14 is provided at an outside of the tank 1, and a material having a heat insulation such as, for example, a wooden side face partition 15 is provided at an inside on the overall periphery of the side faces 12a while assuring gaps 17a to the side faces 12a. A wooden bottom partition 16 is also provided at the bottom of the tank 1 while assuring a gap 17b to the bottom surface 13. Chilled water or warm water is stored in a storage tank 27 formed of the partition 15 and the partition 16.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat storage tank for storing a heat exchange medium used for an air conditioner or the like.

[0002]

2. Description of the Related Art There is known an air conditioner which performs cooling or heating using a heat exchange medium such as cold water or hot water. In such an air conditioner, when performing cooling or heating, the heat exchange medium is cooled or heated using a heat pump or the like. By the way, in recent years, a heat storage tank that stores cold or hot water during a time period when power demand is low, such as at night, and supplies the stored cold or hot water to an air conditioner has been used.
FIG. 1 is a schematic diagram of an air conditioner using such a heat storage tank.
Shown in The air conditioner shown in FIG. 1 includes a heat storage tank 1, a heating / cooling device 2, such as a heat pump, pumps 3, 4, a calorimeter 5,
It comprises on-off valves 6, 6a-6d, air conditioner 7, etc. In the heat storage tank 1, there are two water inlets at the top and bottom.
6a and 26b are provided.

When the cold water stored in the heat storage tank 1 is used in the air conditioner 7, the on-off valve 6 and the on-off valves 6c and 6c are used.
Open d. Then, the low-temperature cold water stored in the lower portion of the heat storage tank 1 is supplied from the pump 3 to the air conditioner 7 through the water supply port 26b. The cold water that has been heated to a high temperature by the heat exchange in the air conditioner 7 is returned to the upper part in the heat storage tank 1 from the water inlet 26a. On the other hand, in a time zone such as at night when power demand is small, the on-off valves 6c and 6d are opened. The pump 4 supplies high-temperature cold water in the upper part of the heat storage tank 1 to the heating / cooling device 2 from the water supply port 26a. The low-temperature cold water cooled by the heating / cooling device 2 is supplied to the water inlet 2
From 6b, it is returned to the lower part in the heat storage tank 1. In the heat storage tank 1, the low-temperature cold water is divided into the lower part and the high-temperature cold water is divided into the upper part, so that the low-temperature cold water is stored in the lower part in the heat storage tank 1. The hot water stored in the heat storage tank 1 is supplied to the air conditioner 7
, The on-off valve 6 and the on-off valves 6a and 6b are opened. Then, high-temperature hot water stored in the upper part of the heat storage tank 1 is supplied to the air conditioner 7 from the water supply port 26a by the pump 3. The hot water that has been cooled by the heat exchange in the air conditioner 7 is returned to the lower part in the heat storage tank 1 from the water supply port 26b. On the other hand, in a time zone such as at night when power demand is small, the on-off valves 6a and 6b are opened. And pump 4
Thereby, the low-temperature hot water in the lower part in the heat storage tank 1 is supplied to the heating / cooling device 2 from the water supply port 26b. The high-temperature hot water heated by the heating / cooling device 2 is supplied to the water inlet 26a.
From the heat storage tank 1. In the heat storage tank 1, the high-temperature hot water is divided into the upper part and the low-temperature hot water is divided into the lower part, so that the high-temperature hot water is stored in the upper part in the heat storage tank 1. The heat storage tank 1 is formed of a steel plate or the like, and is mounted on a foundation 11 on the ground 8. Further, in order to prevent the temperature of cold water or hot water stored in the heat storage tank 1 from being changed by an external temperature,
A heat insulating material is provided around.

[0004]

When a heat storage tank is installed in a basement of a building or the like, the temperature of the outside does not change so much. Therefore, by providing a heat insulating material or a heat insulating material around the heat storage tank, the temperature of the outside can be reduced. Can be prevented to some extent. However, when the heat storage tank is installed in a place where the external temperature changes greatly, for example, outdoors,
In the method of providing a heat insulating material or a heat insulating material around the heat storage tank, a sufficient heat insulating effect or a heat insulating effect with respect to an external temperature cannot be expected. Therefore, an object of the present invention is to provide a heat storage tank having a sufficient heat insulating effect and a sufficient heat retaining effect even when the heat storage tank is installed in a place where the temperature change is large outside.

[0005]

According to a first aspect of the present invention, there is provided a heat storage tank according to the present invention. The heat storage tank according to claim 1 includes a water intake unit provided at one of an upper part and a lower part of the tank, a water supply part provided at the other, and a heat insulating member provided at an inner side part and an inner bottom part of the tank. Have been. This allows
Even if the external temperature is conducted into the tank, the heat is insulated by the heat insulating member, so that the heat storage effect of the heat storage medium in the tank formed by the heat insulating member is improved. A second invention of the present invention is a heat storage tank as described in claim 2. Claim 2
In the heat storage tank described in (1), a gap is formed between a heat insulating member provided on an inner side portion and an inner bottom portion of the tank and the inside of the tank. The heat storage medium present in the gap between the tank and the heat insulating member provided on the inner side and the inner bottom of the tank is located at the upper end of the heat insulating member provided on the inner side and is formed in the tank formed by the heat insulating member. In communication with the heat storage medium.
Therefore, even if heat is conducted from the outside to the tank, only the heat storage medium present in the gap flows, and the heat storage medium in the tank does not flow. Therefore, the heat storage efficiency of the heat storage medium in the tank can be further improved. A third invention of the present invention is a heat storage tank as described in claim 3. The heat storage tank according to claim 3 uses wood as the heat insulating member. Therefore, an inexpensive and simple heat storage tank can be configured. In addition, the fourth invention of the present invention ~
A fifth invention is a heat storage tank as described in claims 4 to 5. By using the heat storage tank described in claims 4 to 6, the heat storage efficiency of the heat storage medium can be improved.

[0006]

Embodiments of the present invention will be described below with reference to the drawings. 2 and 3 are diagrams showing an embodiment of the present invention. FIG. 2 is a longitudinal sectional view of the heat storage tank according to the present embodiment, and FIG. 3 is a partially enlarged view showing a method of attaching the side partition. In the heat storage pump of the present embodiment, cold water or hot water is stored as a heat storage medium. The heat storage tank 1 is formed in a cylindrical shape, and has a tank side surface portion 12a, a tank upper surface portion 12b, and a tank bottom surface portion 13. Tank side part 12a and tank top part 12b
Is formed by forming a steel plate or the like into a cylindrical shape. The tank bottom portion 13 is made of a steel plate or the like provided on the base portion 11. On the outer periphery of the heat storage tank 1, a heat insulating material 14 made of rock wool or the like is provided.
The outer peripheral surface of the heat insulating material 14 is coated with heat insulating material such as aluminum.

Inside the heat storage tank 1, a material having heat insulating properties, for example, a wooden side partition portion 15 is provided.
While securing the gap 17a with the tank side 2a,
It is provided over the entire circumference of a. A wooden bottom partition 16 is also provided at the bottom of the heat storage tank 1.
3 is provided while securing a gap 17b. A method of attaching the side partition 15 will be described with reference to FIG. Inside the tank side part 12a, a side part stopper 31 for attaching the side part 15 by an attachment means such as a nail 32 is provided at an appropriate position, for example, on the circumference. The side partition part 15 is formed by connecting a plurality of sheets of one plate. Of course, it can also be constituted by a single plate. Each plate constituting the side partition part 15 is fixed by a nail 32 in a state where both ends are in contact with the adjacent side partition part stoppers 31. Also, the side partition 1
Inside 5, an inner heat insulating material 19 is provided in the entire range. Further, inside the inner heat insulator 19, the inner heat insulator 19 is provided.
In order to protect the surface, a heat insulating material protection sheet 20 is attached.

An upper support angle 22 for fixedly supporting the side partition 15 is provided above the inside of the tank side 12a.
Are provided at appropriate positions, for example, at equal intervals on the circumference. The side partition 15 is fixed to a spacer 24 provided with an upper support angle 22 by a nail 32.

Next, a method of attaching the bottom partition 16 will be described with reference to FIG. At the bottom of the heat storage tank 1,
A support 21 is provided at the apex of the tank base 11 having the shape of a truncated cone. A lower support angle 23 is mounted at an appropriate position inside the tank side surface 12a. The bottom partition 16 is formed by connecting a plurality of plates, for example. Further, the end of the bottom partition 16 is brought into contact with the adjacent bottom partition stopper 25 and the support base 21, and the nail 32
Has been fixed by. In this way, the bottom partition 16 is supported by the support base 21 while being received by the bottom partition stopper 25.
Is fixedly supported by the lower support angle 23 and the support base 2.
The heat storage tank 1 is provided in the shape of an inverted cone with the center at the top as an apex over the entire bottom of the heat storage tank 1. An inner heat insulating material 19 is provided above the bottom partition 16. Further, on the upper side of the inner heat insulating material 19, a heat insulating material protection sheet 20 is stuck.

Water is supplied to the heat storage tank 1 so as to have a higher water level than the upper end 18 of the side partition 15. A water inlet 26a is provided at the upper part of the heat storage tank 1,
A water inlet 26b is provided at the lower part. These water inlets 26a and 26b have both functions of a water inlet and a water inlet, and one of them is used as a water supply part and the other is used as a water supply part depending on whether cold water or hot water is used.
In other words, when cold water is stored in the heat storage tank 1 and when hot water is stored, the water intake port and the water supply port are reversed. When the cold water stored in the heat storage tank 1 is used by the air conditioner 7, the water supply port 26 b serves as a water intake from the heat storage tank 1 and supplies low-temperature cold water to the air conditioner 7. At this time,
The water supply port 26a serves as a water supply port of the heat storage tank 1, and returns the high-temperature cold water to the heat storage tank 1. When the hot water stored in the heat storage tank 1 is used in the air conditioner 7, the water supply port 26 a serves as a water intake from the heat storage tank 1 and supplies high-temperature hot water to the air conditioner 7. At this time, the water inlet 26b
Is a water supply port of the heat storage tank 1 and returns the low-temperature hot water to the heat storage tank 1. The heat storage tank 1 can be configured as a heat storage tank 1 that stores only cold or hot water. In this case, one of the upper and lower portions is provided with a water intake portion, and the other is provided with a water supply portion.

In the heat storage tank according to the present embodiment configured as described above, the gaps 17 a and 17
7b, wooden side partition 15 and bottom partition 16
Is provided. Therefore, the external heat is applied to the heat insulating material 14,
Even when the electric power is transmitted through the tank side surface portion 12a and the tank bottom surface portion 13, water exists in the gap 17a between the tank side surface portion 12a and the side surface partition portion 15 or the gap 17b between the tank bottom surface portion 13 and the bottom surface partition portion 16, Furthermore, since the side partition 15 and the bottom partition 16 are made of a wooden heat insulating material, the water storage tank 27 formed by the side partition 15 and the bottom partition 16 is formed.
The temperature of the water present in the water hardly changes. Also, gap 1
7a and the water present in the gap 17b
Is connected to the water in the water storage tank 27 at the upper end 18 thereof, even if the water present in the gap 17a or the gap 17b flows due to heat conducted from the outside, the water in the water storage tank 27 may flow. Absent. Therefore, heat storage efficiency is improved.

In the above description, the side partition and the bottom partition are provided on the entire inner side and the inner bottom of the heat storage tank, but are not necessarily provided on the entire surface. Further, the inner heat insulating material and the heat insulating protective sheet are provided inside the side partition and the bottom partition, but these may be omitted. Also,
Although the wooden partition was used as the side partition and the bottom partition, it is not limited to wooden. In addition, the mounting method of the side partition and the bottom partition can be variously changed. Further, the shape and configuration of the heat storage tank can be variously changed. Although the heat insulating material is provided outside the heat storage tank, the heat insulating material may be omitted. In addition, although water was used as a heat storage medium,
Various media other than water can be used. Further, the heat storage tank of the present invention can be used for existing air conditioning equipment. For example, when used for existing air conditioning equipment, a heat storage tank can be used instead of a heat pump that cools or heats a heat storage medium. In this case, the place where the heat storage tank is installed can be appropriately selected outdoors or on the roof of a building. When used in existing air conditioning equipment, the heat storage tank can be used in combination with another heating / cooling device to constitute an air conditioning equipment. Further, the heat storage medium stored in the heat storage tank of the present invention can be used for various uses other than the air conditioner.

[0013]

As described in detail above, according to the present invention,
Even when the heat storage tank is installed in a place where the external temperature changes greatly, the heat storage medium in the heat storage tank is not affected by the external temperature. Therefore, the heat storage effect is improved. And it can have sufficient heat insulating effect and heat retaining effect, and the temperature of the heat exchange medium stored in the water storage tank of the heat storage tank hardly changes.

[Brief description of the drawings]

FIG. 1 is a schematic diagram of an air conditioner.

FIG. 2 is a longitudinal sectional view of a heat storage tank.

FIG. 3 is a partially enlarged cross-sectional view of a side partition in a heat storage tank.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Thermal storage tank 7 ... Air conditioning equipment 12a ... Tank side part 13 ... Tank bottom part 15 ... Side partition part 16 ... Bottom partition part 17a, 17b ... Gap 18 ... Upper end 26a, 26b ... Water supply port 27 ... Water tank

Claims (6)

[Claims] 1. A heat storage tank comprising a tank for storing a heat storage medium, a water intake portion provided on one of an upper portion and a lower portion of the tank, and a water supply portion provided on the other side, wherein an inner side portion and an inner side of the tank are provided. A heat storage tank having a heat insulating member provided at the bottom. 2. The heat storage tank according to claim 1, wherein
A heat storage tank in which the heat insulating member is provided on the inner side and the inner bottom of the tank with a gap between the tank and the heat insulating member. 3. The heat storage tank according to claim 1, wherein the heat storage tank uses a wooden heat insulating member. 4. The heat storage tank according to claim 1, wherein a heat insulating material is provided inside the heat insulating member. 5. The heat storage tank according to claim 4, wherein
A heat storage tank in which a heat insulating sheet is provided inside the heat insulating material. 6. The heat storage tank according to claim 1, wherein a heat insulating material is provided outside the tank.