JPH06283217A - Heat insulated container for high-temperature battery - Google Patents

Abstract

PURPOSE:To hold necessary heat insulating performance for a heat insulated container, keep it small and easily manufacture it in a simple structure at a lower cost. CONSTITUTION:A plural of unit cells 4 are collected in array and stored inside a storage space 5 in a heat insulated container. Heat insulating boards 3 which are formed by fixing fiber such as glass wool and boron silicate with binder and have a given mechanical strength are arranged inside a main case 1 and a cover case 2 as part of the heat insulated container. Air in the storage space 5 in the heat insulated container is replaced with gas such as argon of high heat insulating performance.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat insulating container for a high temperature battery, which is used for storing electric power and contains a battery such as a sodium-sulfur battery which operates at a high temperature.

[0002]

2. Description of the Related Art Sodium as a conventional high temperature secondary battery
In a sulfur battery, a large number of cells are housed in a heat insulating container in a predetermined arrangement. This heat insulation container is configured by accommodating a heat insulation board made of glass wool or the like in a closed space portion formed between stainless steel and the like between an outer case and an inner case. Then, in this state, the sealed space is evacuated and maintained at a predetermined degree of vacuum, so that the heat insulating effect of the heat insulating container is exhibited.

On the other hand, there is also known a heat-insulating container in which a considerably thick heat-insulating board is housed in a sealed space in both cases of the heat-insulated container and the sealed space is kept under atmospheric pressure for use.

[0004]

However, in the former heat-insulating container, a large heat-insulating container accommodates a large heat-insulating board in a case, and a large-volume sealed space is vacuum-sucked to a predetermined size. There is a problem that it is difficult to manufacture a heat insulating container because it is necessary to obtain a degree of reduced pressure.
In addition, if a vacuum leak occurs in a part of the heat insulating container, the heat insulating effect sharply decreases, it becomes difficult to maintain the operating temperature of the battery, and there is a problem that the operation of the battery may have to be stopped. there were.

On the other hand, in the latter heat-insulating container, the heat-insulating board is formed to be considerably thicker than the former heat-insulating container, so that the heat-insulating container becomes large in size and the manufacturing cost increases due to an increase in the cost of the heat-insulating material. There was the problem of becoming expensive.

The present invention has been made by paying attention to the problems existing in such conventional techniques. An object of the present invention is to provide a heat insulating container for a high temperature battery, which has a predetermined heat insulating property and ensures miniaturization, has a simple structure and is easily manufactured, and can reduce the manufacturing cost. is there.

[0007]

In order to achieve the above object, in the heat insulating container for a high temperature battery of the present invention, a plurality of unit cells are assembled in a predetermined arrangement and housed in the inner housing space of the heat insulating container. In addition, a heat insulating material having a predetermined mechanical strength is arranged inside a case that constitutes the heat insulating container, and the accommodation space in the heat insulating container is filled with a gas having a high heat insulating property.

[0008]

In the heat insulating container configured as described above,
A heat insulating material having a predetermined mechanical strength is arranged inside a case that constitutes the heat insulating container, and a housing space in the heat insulating container is filled with a gas having a high heat insulating property. For this reason,
Due to the synergistic action of the heat insulating material and the gas having high heat insulating property, the heat insulating property required for the heat insulating container can be obtained and the miniaturization can be secured. In addition, since the heat insulating container is formed by arranging a heat insulating material inside the case and replacing the air in the accommodation space in the heat insulating container with a gas having a high heat insulating property to fill the air,
The structure is simple and easily manufactured.

[0009]

EXAMPLE An example in which the present invention is embodied in a heat insulating container for a sodium-sulfur battery will be described in detail below with reference to FIGS. 1 and 2.

The body case 1 of the heat-insulating container is formed of stainless steel or the like into a substantially box shape having an open upper surface, and a lid case 2 is fitted on the upper surface and the outer peripheral edge thereof is welded and joined to hermetically seal the inside. Is held in a state. The heat insulation board 3 is arranged inside the main body case 1, and
It is also arranged inside the lid case 2. The heat insulating board 3 is made of a fiber such as glass wool or boron silicate, and is fixed in a predetermined shape by fixing the fiber with a binder such as phenylmethyl silicate, and has a certain mechanical strength. The portion surrounded by the heat insulating board 3 is an internal accommodation space 5 for accommodating the single cell 4 made of a sodium-sulfur battery.

The heater plate 6 is laid at the bottom of the housing space 5 and is adapted to be heated from below to maintain the temperature in the housing space 5 at the operating temperature of the unit cell 4. The plurality of unit cells 4 are collectively arranged on the heater plate 6 in the heat insulating container in a predetermined arrangement state. Insulating sand 15 such as silica sand is filled in the gaps between the individual cells 4 and the upper portions thereof, and they are fixed by a binder such as phenylmethyl silicone. This insulating sand 15 has functions of maintaining strength and extinguishing the fire when the unit cell 4 ignites.

The replacement valve 7 for evacuating is the lid case 2
Is fixed upright in the center of the connection pipe 8 and the connecting pipe 8
The heat insulating board 3 on the inside extends to the lower end. And
The air in the accommodation space 5 is sucked through the connection pipe 8 and the replacement valve 7, and then a gas such as argon (Ar) or xenon (Xe) having a high heat insulating property is sealed and replaced. . These gases such as argon and xenon have lower thermal conductivity than gases such as nitrogen and have excellent heat insulating properties. Then, these gases are held in the accommodation space 5 at approximately atmospheric pressure.

The electrode terminal 9 is attached to the lid case 2 by an airtight plug 10, and the lower portion thereof is connected to the unit cell 4 via a lead wire 11. Heater wire 12 and measurement wire 13
Is also connected to the heater plate 6 via an airtight plug 14.

Next, the production of this heat insulating container will be described. First, the heat insulating board 3 is housed inside the main body case 1, and the heater plate 6 is placed on the bottom of the housing space 5 formed by the heat insulating board 3. After arranging the unit cells 4 on the heater plate 6 in a predetermined array state, insulating sand 15 is filled in the gaps between the unit cells 4. Next, the heat insulating board 3 is placed on the upper surface of the opening of the heat insulating board 3, and the lid case 2 is covered. At this time, the connection between the connection pipe 8 and the replacement valve 7,
Connection between electrode terminal 9 and terminal of unit cell 4 and heater wire 12
The measurement line 13 is taken out. And body case 1
The outer peripheral edge of the upper part and the outer peripheral edge of the lid case 2 are joined by welding.

After that, the replacement valve 7 is opened to evacuate the air in the accommodation space 5 to a predetermined vacuum degree, whereby the air in the accommodation space 5 is discharged. Then, a gas having a high heat insulating property is sucked from the replacement valve 7 to fill the accommodation space 5 with the gas having a high heat insulating property. At this time, since the accommodation space 5 is preliminarily kept in a vacuum, the gas is quickly and reliably filled.

In the heat insulating container configured as described above, the heat insulating board 3 having a predetermined mechanical strength is arranged inside the main body case 1 constituting the heat insulating container, and the heat insulating property in the accommodation space 5 is maintained. Is filled with high gas. Therefore, the heat insulating board 3 and the gas having a high heat insulating property synergistically provide the heat insulating property required for the heat insulating container. Moreover, since the accommodation space 5 is maintained at the atmospheric pressure, even if a part of the main body case 1 is damaged, the speed at which the outside air enters the accommodation space 5 and replaces the internal gas is very slow. Therefore, there is no fear that the heat insulating effect of the heat insulating container is suddenly reduced.

In addition, the body case 1 and the heat insulating board 3 having a predetermined thickness exhibit the strength to hold the shape of the heat insulating container, which can ensure the miniaturization of the heat insulating container and reduce the manufacturing cost. You can In addition, the heat insulating board 3 is arranged inside the main body case 1 to replace the air in the accommodation space 5 in the heat insulating container with a gas having a high heat insulating property so as to fill the air. It is not a structure in which it is housed between the outer case and the inner case and a vacuum is drawn. Therefore, the structure of the heat insulating container is simple and the manufacture is easy.

The present invention is not limited to the structure of the above embodiment, and may be embodied by arbitrarily changing the structure as follows, for example, without departing from the spirit of the present invention. (1) Omitting the insulating sand 15 in the above embodiment. In this case, in order to maintain the strength of the heat insulating container, the main body case 1 and the heat insulating board 3 should be reinforced. Insulating sand 1
5 is accommodated between the cells 4 without using a binder. (2) Applying the heat insulating container for a high temperature battery of the present invention to a heat insulating container for a high temperature secondary battery such as a lithium-sulfur battery. (3) The replacement valves 7 are provided at two places, while the accommodation space 5 is provided.
Evacuate the air from the other side, while feeding in insulating gas.

[0019]

EFFECTS OF THE INVENTION Since the heat insulating container for high temperature battery of the present invention is constructed as described above, it retains heat insulating property,
While ensuring miniaturization, the structure is simple and easily manufactured,
It has an excellent effect that the manufacturing cost can be reduced.

[Brief description of drawings]

1 is a cross-sectional view of a heat-insulating container for a sodium-sulfur battery embodying the present invention.

FIG. 2 is a perspective view of a heat insulating container.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Main body case, 2 ... Lid case, 3 ... Insulation board as a heat insulating material, 4 ... Single cell, 5 ... Internal accommodation space.

Claims (1)

[Claims] 1. A plurality of unit cells are assembled in a predetermined array and housed in an internal housing space of a heat insulating container, and a heat insulating material having a predetermined mechanical strength is arranged inside a case constituting the heat insulating container. At the same time, the heat-insulating container for a high temperature battery is characterized in that the accommodation space in the heat-insulating container is filled with a gas having a high heat insulating property.