JPH0510206Y2 - - Google Patents

Description

[Detailed explanation of the idea] [Industrial application field] The present invention relates to a cooling container.

[Conventional technology]

The inventor previously filed a patent application for the basic invention regarding a cooling method using soft calcined quicklime (Japanese Patent Application No. 225183/1983).

[Problem that the invention attempts to solve]

The object of the present invention is to provide a cooling container using the above-mentioned cooling method, which allows the cooling operation to be performed more easily.

[Means for solving problems]

The present invention consists of an adsorption chamber filled with soft calcined lime, an evaporation chamber, and a storage chamber for objects to be cooled. A cooling container that cools objects to be cooled in a storage chamber for objects to be cooled by adsorbing water vapor evaporated from a refrigerant to soft calcined lime in an adsorption chamber, and a partition wall between the adsorption chamber and the evaporation chamber. An arm member is provided with an opening closed with a thin film member in the evaporation chamber, is pivotally supported by the side wall of the evaporation chamber, extends inside and outside the evaporation chamber, and has a protrusion at its tip for breaking the thin film member. The present invention relates to a cooling container characterized in that a bellows member for making the inside and outside of the evaporation chamber airtight is arranged on the shaft support of the arm member.

The present invention will be explained below with reference to the drawings.

The cooling container 1 of the present invention, as shown in FIG.
It is composed of an adsorption chamber 2 filled with soft calcined quicklime 5, an evaporation chamber 3 adjacent to the adsorption chamber 2, and an object storage chamber 4 for storing objects to be cooled 8 contained in the evaporation chamber 3. . A refrigerant-impregnated sheet 7 is provided in the evaporation chamber 3 so as to be in contact with a partition between the object storage chamber 4 and the evaporation chamber 3 . Further, the pressure inside the adsorption chamber 2 and the evaporation chamber 3 is reduced in advance, for example, to 0.1 to 30 torr. Furthermore, in the cooling container 1 of the present invention, as shown in FIG. An arm member 13 is disposed which is pivotally supported by a portion 11, extends both inside and outside the evaporation chamber 3, and has a protrusion 12 at its tip for tearing the thin film member 9. The arm member 13
A bellows member 15 is arranged on the shaft support 14 to make the inside and outside of the evaporation chamber airtight. Further, the arm member 13, for example, as shown in FIG.
The shaft portion 20 of the arm member 13 can be pivotally supported by being supported by a recess 19 provided in the shaft support 14. The arm member 13 can be made long enough so that its end protrudes outside the pivot support 14 as shown in FIG. 1, but from the viewpoint of preventing erroneous operation, Axial support 1
It is preferable to make the length so that it is on the inside of 4.
When the length of the arm member 13 is set to be inside the shaft support 14, when the cooling container 1 is used, the fourth
As shown in the figure, an auxiliary tool 2 is attached to the end of the arm member 13.
1, the arm member 13 can be easily rotated, and the thin film member 9 can be broken by the projection 12 of the arm member 13.

Furthermore, in the cooling container 1 of the present invention, if necessary, a partition wall 6 between the adsorption chamber 2 and the evaporation chamber 3 and/or a partition wall 16 between the object storage chamber 4 and the evaporation chamber 3 is provided.
A heat reflecting plate 17 can also be provided so as to be in contact with. In addition, in the cooling container of the present invention, the adsorption chamber 2
A heat transfer means 18, for example, a metal plate (iron plate, copper plate, etc.), film (aluminum foil, etc.), or mesh (iron mesh, copper mesh, etc.) can be provided.

The soft burnt lime used in the present invention is, for example, limestone heated to about 800 to 1100°C under atmospheric pressure, preferably about 850 to 1050°C.
It can be obtained by firing at ℃. The quicklime thus obtained is highly reactive. The soft calcined quicklime can be used as a powder, or it can be granulated or molded and filled into the adsorption chamber. Furthermore, the soft calcined quicklime is wrapped in cloth, wire mesh, etc., which is permeable to water vapor, and placed in the adsorption chamber 2.
It can also be filled with.

Further, examples of the refrigerant impregnated in the refrigerant-impregnated sheet 7 used in the present invention include water, brine (saline solution, calcium chloride water, etc.), and the like. As the impregnated sheet, a water-retaining material such as a water-absorbing polymer can be used. Instead of the refrigerant-impregnated sheet, the refrigerant may be used as a liquid by filling it into the evaporation chamber.

In the cooling container 1 of the present invention, a thin film member 9 provided on a partition wall 6 between an adsorption chamber 2 and an evaporation chamber 3 is broken by a protrusion 12 provided on an arm member 13, and water vapor is transferred from the evaporation chamber 3 to the adsorption chamber 2. The water vapor evaporated from the refrigerant-impregnated sheet 7 is adsorbed to the soft calcined lime in the adsorption chamber 2. When the water vapor evaporates from the coolant-impregnated sheet 7, the object to be cooled 8 in the object to be cooled storage chamber 4 is cooled by being deprived of latent heat of vaporization.
In addition, when using the cooling container of the present invention, if the adsorption chamber portion is immersed in water, for example, the heat transmitted to the side and upper walls of the adsorption chamber can be removed more efficiently and cooling can be performed more quickly. can.

By having the above-described structure, the cooling container of the present invention can easily start the movement of water vapor from the evaporation chamber 3 to the adsorption chamber 2.
This is an extremely useful cooling container that can easily cool wine, youth, alcoholic beverages, etc.

[Brief description of the drawings]

FIG. 1 is a schematic diagram of the cooling container of the present invention. FIG. 2 is a side sectional view of the vicinity of the arm member 13 of the cooling container of the present invention, FIG. 3 is a plan sectional view of the vicinity of the arm member 13 of the cooling container of the present invention, and FIG. FIG. 3 is a side cross-sectional view showing the operating state of the arm member 13 of the container. 1... Cooling container, 2... Adsorption chamber, 3... Evaporation chamber, 4... Cooled material storage chamber, 5... Soft calcined quicklime,
6... Partition wall, 7... Cooling medium impregnated sheet, 8... Cooled object, 9... Thin film member, 10... Opening, 11...
...Side wall portion, 12... Protrusion, 13... Arm member, 14... Pivotal support, 15... Bellows member, 16...
... partition wall, 17 ... heat reflection plate, 18 ... heat transfer means,
19... recessed part, 20... shaft part, 21... auxiliary tool.

Claims (1)

[Scope of Claim for Utility Model Registration] Consisting of an adsorption chamber filled with soft calcined quicklime, an evaporation chamber, and a storage chamber for objects to be cooled. A cooling container that cools objects to be cooled in a storage chamber for objects to be cooled by adsorbing water vapor evaporated from a refrigerant in an evaporation chamber to soft calcined quicklime in an adsorption chamber, the cooling container comprising the adsorption chamber and the evaporation chamber. An opening closed with a thin film member is provided in the partition wall between the evaporation chambers, the opening is pivotally supported by the side wall of the evaporation chamber, extends both inside and outside the evaporation chamber, and has a protrusion at the tip for breaking the thin film member. A cooling container characterized in that an arm member is arranged, and a bellows member for making the inside and outside of the evaporation chamber airtight is arranged on the shaft support of the arm member.