JPH0861821A - Low temperature, frozen warehouse - Google Patents

Abstract

(57) [Summary] [Purpose] Proposal of a completely harmless and rational low-temperature, frozen warehouse with excellent freezing storage efficiency, low running cost, and no need for cooling equipment inside. [Composition] Cooling of the freezing space 2 of the low temperature and freezing warehouse 1 is performed by circulating the low temperature air generated by expanding compressed air between the main engine unit 4 which is the generating unit and the freezing space 2. That is, the low-temperature air sufficiently dehumidified by the main engine unit 4 is directly blown to the freezing space 2, the air in the freezing space 2 is directly returned to the main engine unit 4, and the dehumidifying, expanding, and cooling are performed again, and then the freezing space 2 is blown. And circulate.
Further, the temperature of the freezing space 2 is adjusted by mixing and injecting low-temperature air with the in-compartment air by the mixing and injection nozzle 5. Then, by blowing the low-temperature air directly into the freezing space 2, the cooling device in the warehouse is made unnecessary, the space is effectively used, and the running cost for the unnecessary device is reduced. In addition, it is a completely harmless air refrigerant that improves safety and compression, and facilitates management.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a warehouse used as a storage in a low temperature, frozen distribution industry and the like, and relates to a low temperature, frozen warehouse having a reinforced concrete structure.

[0002]

2. Description of the Related Art Heretofore, in this type of low temperature, freezer warehouse, it has been general to use chlorofluorocarbon, ammonia, etc. as a cooling medium. Further, as shown in FIG. 3, the cooling device using this CFC gas requires a cooler 20, a cooler fan 21, and a defrosting device 22.

The conventional freezer warehouse shown in FIG. 3 is of the air-cooled direct expansion type (equivalent to Freon R22). Further, in FIG. 3, reference numeral 23 is a condenser unit, 24 is a refrigerant pipe, 25 is a defrost water tank, 26 is a defrost pipe, 27 is a submersible pump, 28 is a cooler mount,
29 is defrost circulating water, 30 is a duct, and 31 is a return gallery.

[0004]

However, in the above-mentioned conventional low temperature and freezer warehouse, CFCs cause ozone destruction, and poisonous substances such as ammonia and dangerous substances cause air pollution. Further, in this conventional low temperature and freezer warehouse, as shown in FIG. 3, a large space for installing a cooling device such as a cooler or a duct, that is, an installation space for the cooling device is secured in a freezer (freezing space). There is a need to. And this installation space was useless as a warehouse.

The present invention was devised in view of the above-mentioned circumstances, and its objects are excellent in freezing storage efficiency, low running cost, and it is not necessary to install a cooling device in a freezer (freezing space). The purpose is to propose a completely harmless rational low-temperature, freezer warehouse that does not pollute the atmosphere.

[0006]

According to the present invention, a cooling device using an air refrigerant, which is a completely harmless natural material, is used in a frozen warehouse having an external heat insulating structure. That is, the cooling of the refrigerating space in the refrigerating warehouse is performed by expanding compressed air with an expander to generate low-temperature air (−5 ° C. or lower), and circulating the low-temperature air between the generating unit and the freezing space. It will be done indirectly.

More specifically, an air compressor, a compressed air cooler, an expander, and a cooler are arranged in the order of air flow in the low temperature air circulation path, and a main engine unit is systematically installed. Then, the low-temperature air generated by this main engine unit is directly blown into the freezing space, sucked from the freezing space, and returned to the main engine unit again.

As described above, the low temperature air is sufficiently dehumidified and dried in the main engine unit, and then directly blown into the freezing space and directly returned to the main engine unit, and then again dehumidified and expanded in the main engine unit. ， Cool and circulate by blowing out into the freezing space. The temperature setting of the freezing space is adjusted by injecting low-temperature air while mixing it with the air in the refrigerator using the mixing injection nozzle shown in FIG.

With this structure, in the present invention, the sufficiently dehumidified low-temperature air is blown directly into the freezing space.
The cooler, defrost heater, condenser, etc. for general cooling equipment are not needed, and the space is effectively used as a freezer warehouse. In addition, it is possible to reduce the running cost of the equipment that is no longer needed. Furthermore, compared with nitrogen gas, carbon dioxide gas, and natural gas, which are currently considered as refrigerant materials, air refrigerant is completely harmless, and has safety, compressibility,
It has the best manageability and can be obtained immediately anywhere.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A low temperature, freezer warehouse of the present invention will be described below with reference to embodiments shown in the drawings.

Low temperature, freezer warehouse 1 (see FIGS. 1 and 2)
Is cooling the inside of the freezing space 2 to the target temperature by the circulation facility 3 that circulates the low-temperature air inside the freezing space 2 between the cooling unit outside the freezing space 2. The circulation equipment 3 for circulating the low-temperature air is systematized by arranging an air compressor, a compressed air cooler, an expander and a cooler (above, not shown) in the order of air flow in the circulation path,
Inside the refrigerating space 2 while mixing the main engine unit 4 that expands the compressed air to generate low-temperature air and the low-temperature air from the main engine unit 4 that is sufficiently dehumidified dry cold air with the air in the refrigerating space 2. Mixing injection nozzle 5 for direct injection to
And an intake hole 6 that sucks the air in the freezing space 2 and returns it directly to the main engine unit 4.

The low temperature, freezer warehouse 1 in this embodiment is used.
Is a RC skeleton 9 having a flat slab structure with a small number of columns, which has a floor 7 formed by arranging tension steel wires and a side wall 8 serving as a load-bearing wall, and was constructed on the outside of this RC skeleton 9.
The refrigerating space 2 is composed of an outer layer 16 such as a heat insulating layer, a moisture proof layer, an outer wall finishing material and a roof finishing material.

As shown in FIG. 1, the main engine unit 4 includes a cooling tower 10 and a circulation pump 11, a supply pipe 12 for sending low temperature air from the main engine unit 4 to a mixing injection nozzle 5, and an intake hole 6. A return pipe 13 that sends the air in the freezing space 2 to the main unit 4 is connected.

Further, as shown in FIG. 2, the mixing jet nozzle 5 has a nozzle body 5a connected to the spiral duct 14 extending from the supply pipe 12 and a low temperature air jetted from the nozzle body 5a. The mixing section 5b is configured so as to be able to inject it into the freezing space 2 while entraining the next air 15.

Thus, the low temperature, freezer warehouse 1 of the present invention
The low-temperature air that is the dry cold air sufficiently dehumidified in the main engine unit 4 by the main engine unit 4, the mixing injection nozzle 5, and the intake hole 6 is directly blown out into the freezing space 2 and the inside of the freezing space 2 is discharged. Of the air is returned directly to the main engine unit 4 and then again dehumidified, expanded and cooled,
The low-temperature air can be circulated by blowing out into the freezing space 2.

The use of the low temperature, freezer warehouse 1 of the present invention having such a structure will be described below. That is, the low temperature air from the expander (not shown) in the main engine unit 4 is directly blown into the freezing space 2 of the low temperature and freezing warehouse 1 by the mixed injection nozzle 5 of the system, And the low temperature air from the main unit 4 are mixed to create a set temperature.

Therefore, as the system power in the low temperature and freezer warehouse 1 of the present invention, only the main engine unit 4, the cooling tower 10 and the circulation pump 11 are required.
Therefore, it was necessary in the conventional low temperature, frozen warehouse.
The defrost heater, cooler, condenser, etc., as shown in, are unnecessary.

Therefore, the refrigerating space 2 in the low temperature and freezing warehouse 1 of the present invention has no equipment racks or ducts as shown in FIG. 3, and the mixing injection nozzle 5 and the intake hole (return pipe hole). Only 6 can realize a low temperature, frozen warehouse with the highest storage efficiency. In addition, the low temperature, freezer warehouse 1 of the present invention
Can be used regardless of the size of the refrigerating scale, and can be applied to a refrigerator with a beam or an internal heat insulation type refrigerator.

[0019]

The air and atmosphere of the refrigerant used in the low temperature and freezer warehouse of the present invention is a completely harmless natural material that does not affect the environment and does not cause ozone destruction of the CFC gas refrigerant or atmospheric pollution of the ammonia refrigerant. is there. In addition, the low temperature and freezing space in the freezer of the present invention does not require a wasteful space for installing a cooler, a duct, a defrosting device, or the like. Moreover, energy for operating each device is not required. Therefore, according to the present invention, it is possible to provide the most rational low temperature and freezer warehouse, which has excellent storage efficiency of frozen articles and low running cost.

[Brief description of drawings]

FIG. 1 is a schematic sectional view showing a low temperature, frozen warehouse of the present invention.

FIG. 2 is a detailed view showing a mixing injection nozzle in a low temperature freezing warehouse of the present invention.

FIG. 3 is a schematic sectional view showing a conventional frozen warehouse.

[Explanation of symbols]

1 ... low temperature, frozen warehouse, 2 ... freezing space, 3 ... circulation equipment, 4
... Main engine unit, 5 ... Mixing injection nozzle, 5a ... Nozzle body, 5b ... Mixing section, 6 ... Intake hole, 7 ... Floor, 8 ... Side wall, 9 ...
RC skeleton, 10 ... Cooling tower, 11 ... Circulation pump, 12
… Supply pipe, 13… Return pipe, 14… Spiral duct, 15… Secondary air, 16… Outer layer part.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Yasue Furuya 1-2-7 Moto-Akasaka, Minato-ku, Tokyo Kashima Construction Co., Ltd.

Claims (1)

[Claims] 1. A low temperature refrigeration warehouse that cools the inside of the refrigeration space to a target temperature by a circulation facility that circulates the low temperature air inside the refrigeration space between the cooling unit outside the refrigeration space and circulates the low temperature air. The circulating equipment is a system in which, in the circulation path, an air compressor, a compressed air cooler, an expander and a cooler are arranged in the order of the flow of air to form a system, and a main engine unit that expands the compressed air to generate low temperature air A mixing injection nozzle that directly injects low-temperature air, which is sufficiently dehumidified dry cold air, from the main engine unit into the freezing space while mixing the low-temperature air with the air in the freezing space, and inhales the air in the freezing space. And a low-temperature, freezer warehouse characterized by comprising an intake hole directly returned to the main engine unit.