JPH0439584A - Cold storage device changeable into air-cooling - Google Patents

Abstract

PURPOSE:To transport and/or distribute cold storage commodities highly efficiently and economically by a method wherein cold air or cold water, supplied from a cold air producing unit and a cold water producing unit, is conducted selectively and the cold air is introduced into a container through a common supplying pipe while air in the container can be recovered from a discharging pipe. CONSTITUTION:The selection of air-cooling or water-cooling and the selection of a cold storage temperature are effected in accordance with the kind of commodities received in a container 12. When air-cooling is set, an air-cooling switching unit 19 and a water-cooling switching unit 22 in two stages are operated to open the air cooling pipelines and close water-cooling side pipelines. When a temperature band setting switch 14 is operated, a cold air temperature switching unit 18 is operated to open only one pipeline between a cold air chamber 16a or another cold air chamber 16b and communicate a supplying pipe 10 with the selected cold air chamber. Air in the container 12 flows out through a discharging pipe 11 and is returned into the cold air chambers 16a, 16b from an inflow pipe 20 through the air-cooling and water-cooling switching unit 22.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a cold storage device, more specifically, a device for transporting or storing frozen foods, fresh foods, live fish, etc.
This invention relates to a cold storage device that cools the inside of a small simple container containing the above-mentioned products with cold air or cold water.

[Conventional technology]

Recently, from the viewpoint of long-term storage and freshness preservation, there has been an increase in the number of refrigerated products that are transported or stored by cooling or freezing. There are various types of cold storage products, and it is necessary to adjust the cold storage temperature depending on the product.

Traditionally, refrigerated products are often transported using dedicated refrigerated trucks, but they are also often transported in simple insulated containers made of expanded polystyrene along with refrigerant, ice, dry ice, etc. Additionally, special vehicles equipped with large aquariums are often used to transport live fish.

[Problem to be solved by the invention]

By the way, in the case of using a dedicated refrigerated vehicle, it is not only uneconomical because it has to be driven regardless of the number of products, but also has only one refrigerated compartment, making it impossible to control the temperature of each product.

Temperature control is also difficult in the case of simple insulated containers, and in either case, they cannot be used to transport live fish that require a supply of cold water, and live fish must be transported separately. Must be.

In this way, conventionally, refrigerating devices have been developed to efficiently transport or store various types of refrigerated products, including live fish, refrigerated products, and frozen products, while individually controlling the temperature of the products. Since such a device has not been proposed, the present invention has been made to provide such a device.

[Means to solve the problem]

The present invention has a cold air generation section and a cold water generation section, allows selective flow of cold air or cold water supplied from them, and allows the selected cold air or cold water to be introduced into the container through a common supply pipe. In addition, the above-mentioned problem has been solved with an air/water cooling switchable refrigerating device that is capable of recovering air or water inside the container from the discharge pipe.

[For production]

When air cooling or water cooling is selected depending on the refrigerated product stored in the container, the selected one of the cold air generation section and the cold water generation section operates to continue introducing cold air or cold water into the container through the supply pipe, Maintain a specified temperature inside the container. The air or water in the container is sequentially discharged from the discharge pipe and returned to the cold air generation section or the cold water generation section.

〔Example] Preferred embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a partially cutaway perspective view of an embodiment of the present invention. In FIG. The bottom part 2 is preferably foldable so that it does not get in the way when not in use. Casters 3 on the bottom plate 2
is attached and can be moved freely. 4 is a main switch 5, a changeover switch 6, a monitor lamp 7,
This is an instrument panel equipped with a volume 8, a meter 9, etc. A supply pipe 10 and a discharge pipe 11 for supplying cold air and cold water are protruded from the front side of the main body case 1, and a rack 13 for placing a container 12 is installed.

The supply pipe 10 is an opening for supplying cold air or cold water into the container 12, as will be described in detail later, and the discharge pipe 11 is an opening for recovering air or water inside the container 12. The supply pipe 10 and the discharge pipe 11 are provided in the same number as the number of stages of containers set in the apparatus (four in the illustrated example). Since the lowest container 12 is placed on the bottom 2, the number of racks 13 may be one less than the number of containers. The front side of the main body case 1 is further provided with the same number of temperature zone setting switches I4 as there are containers. container 12
is an insulated container, usually made of styrofoam or hard material, which has a lid on the top surface and inlet ports (not shown) for a supply pipe 10 and a discharge pipe 11 for cold air or cold water are formed on the sides. . This entry port is provided with an opening/closing lid that opens only inward when pushed. Therefore, when setting the container 12, the supply pipe 10 and the discharge pipe 11 enter the entrance, push open the opening/closing lid, and face the inside of the container 12.

A cooling unit 15, a cold air chamber 16, and a filtration tank 17 are provided within the main body case l. FIG. 2 shows their configuration. The cooling unit 15 is integrated with a cold air chamber 16 equipped with a cooling plate (evaporator) to generate cold air, and the cold air chamber 16 is divided into two parts corresponding to the temperature range of the generated cold air. The cold air chamber 16a is set to a temperature range of about 0°C, and the cold air chamber 16b is set to a temperature range of about 5°C. 18 is a cold air temperature switching section, each cold air chamber 16a,
It is connected to the outflow side of the cold air chamber 16b, and is switched to communicate with either one of the cold air chambers 16a, 16b by the action of the temperature zone setting switch 14. The number of cold air temperature switching sections 18 is provided corresponding to each stage, and the pipe coming out of the cold air temperature switching section 18 passes through an air/water cooling switching section 19 on the supply side, and the tip thereof is inserted into the container 12. In addition, each cold air chamber 16a, 1
The inflow pipes 20 on the inflow side of 6b are each equipped with an air pump 21. Then, the pair of upper and lower inflow pipes 20 corresponding to each stage are unified and inserted into the container 12 via the air/water cooling switching section 22 on the discharge side.

Inside the filtration tank 17, a filter for filtering water, a water temperature adjustment device (evaporator) for adjusting water temperature, and an air stone for aeration are built-in. In the filter tank 17,
Outflow side pipes 23 and inflow side pipes 24 corresponding to each stage are connected. The outflow side pipe 23 is connected to the air/water cooling switching section 19 , and the inflow side vibe 24 is connected to the air/water cooling switching section 22 . Further, a water pump 25 is disposed in the middle of each inflow side vibrator 24.

FIG. 3 shows an example of the configuration of the air/water cooling switching section 19.22. When the water pump 25 is activated to allow water to flow, the ball 26 is pushed up and
is blocked and only water flows into the supply pipe 10. Also,
When the air pump 21 operates to circulate air,
The ball 26 is pressed down and the water side communication port 28 is closed.
Only air flows into the supply pipe IO.

The apparatus according to the present invention is used by being mounted in large numbers on a truck as shown in FIG. 4, for example, but it is also possible to carry only one on a light truck, or it may be loaded together with other general cargo. .

To use it, first place the container 12 on the rack 13 and slide it to the back. At that time, depending on the type of product stored in the container 12, you can select air-water cooling or Select the cold storage temperature. That is, by operating the changeover switch 6 corresponding to the stage in which the container 12 is to be set (usually starting from the bottom stage), air-cooling (if the stored items do not occur as in the bottom container 12 in FIG. etc.) or water cooling (if the stored items are live fish, for example, as in the container 12 in the second row from the bottom in FIG. 1). For example, when this is set to the air cooling side, the monitor lamp 7 lights up in the air cooling side color (for example, red), indicating that the relevant stage is set to the air cooling side mode.

At the same time, the air/water cooling switching units 19 and 22 of the relevant stage operate to open the air-cooled pipe line and close the water-cooled pipe line, respectively. Due to the operation of the air/water cooling switching unit 19.22, the cold water sent through the filtration tank 17 is prevented from flowing into the supply pipe IO, and the cold air chamber 16 inside the supply pipe 10 is prevented from flowing into the supply pipe IO.
Only the cold air sent from will be allowed to flow through. Furthermore, by operating the temperature zone setting switch 14, the temperature of the cold air can be set. That is, the cold air temperature switching section 18 operates according to the operation, and the cold air temperature switching section 18 operates to switch between the cold air chamber 16a or the cold air chamber 1.
6b is opened, and the supply pipe 10 is opened.
is communicated with one of the selected cold air chambers. At the same time, in response to the operation of the temperature zone setting switch 14, the air pump 21 on the selected cold air chamber side is activated, and the cold air cooled to a predetermined temperature in the cold air chambers 16a, 16b is transferred to the cold air temperature switching section. 18 and air/water cooling switching section 19, and is fed into the container 12 from the supply pipe 10. and,
The air inside the container 12 flows out of the container 12 through the discharge pipe 11, passes through the air/water cooling switching section 22, and is returned from the inflow pipe 20 into the cold air chambers 16a, 16b. In this way, the inside of the container 12 is always maintained at a predetermined temperature.

On the other hand, when the changeover switch 6 is set to the water cooling side, the air/water cooling switching section 19.22 switches between the outflow side pipe 23 and the inflow side vibe 2.
At the same time as the pipe on the side 4 is opened, the water pump 25 is activated to constantly circulate the water in the filter tank 17. First, the water that has been filtered and cooled in the filtration tank 17 and has been sufficiently supplied with oxygen flows out from the outflow side pipe 23, passes through the air/water cooling switching section 19, and flows into the container 12 from the supply pipe 10. do. Then, the dirty water in the container 12 flows out from the discharge pipe 11, passes through the air/water cooling switching section 22, and is returned into the filtration tank 17 from the inlet pipe 24.

In this way, the water in the container 12 contains sufficient oxygen, is free from contamination, and is always maintained at a predetermined temperature.
This creates an ideal environment for live fish to survive. In the illustrated embodiment, the water temperature is adjusted by the volume 8, and water at a common water temperature is supplied to each container set on the water cooling side. Of course, it is also possible to supply water at different temperatures.

The above air/water cooling selection and temperature range setting are done individually for each stage, so all stages can be the same, or each stage can be set to different conditions. There are no restrictions on its use, and this device is suitable not only for mass transportation as shown in Figure 4, but also for small volume transportation mixed with other cargo, and is particularly effective for container-based transportation. It is something that demonstrates the.

〔Effect of the invention〕

The present invention is as described above, and it is possible to transport or store various types of refrigerated products, including live fish, individually at desired temperature conditions, and also to transport products under different conditions simultaneously in required quantities. , - It is possible to transport refrigerated products in a highly efficient and economical manner by transporting refrigerated products by wheel, which can be loaded together with ship cargo, without wasting space, and contributes to the distribution of refrigerated products. It has an extremely large effect.

[Brief explanation of drawings]

FIG. 1 is a partially cutaway perspective view of an embodiment of the present invention, FIG. 2 is a diagram showing the internal structure of the main body case, FIG. 3 is a diagram showing an example of the configuration of the air/water cooling switching section, and FIG. 4 is a diagram showing the present invention. FIG. 3 is a perspective view showing an example of use of the embodiment. Explanation of symbols 1-Main case, 2--Bottom removal l〇-Supply pipe, l I-Discharge pipe 12...-Container,
13- Rack 14- Temperature zone setting switch 15- Cooling unit 16- Cold air chamber 17...
・Filtering tank, 18.--Cold air temperature switching unit 19.
22 - Air/water cooling switching section, 24 - Inflow side pipe 25 -
water pump

Claims (3)

[Claims] (1) It has a cold air generation section and a cold water generation section, enables selective flow of cold air or cold water supplied from them, and enables the selected cold air or cold water to be introduced into the container through a common supply pipe. , an air/water cooling switching refrigerating device which is capable of recovering air or water inside the container from a discharge pipe. (2) A main case is provided, in which a plurality of protruding supply pipes and a discharge pipe facing into a simple container for storing refrigerated products are provided, and a plurality of racks for placing the container are installed; , a cold air chamber that generates cold air, and a filtration tank having a water filtration function, an aeration function, and a temperature adjustment function are provided, and a plurality of outflow measurement pipes are connected from the cold air chamber and the filtration tank to supply pipes, respectively. An air/water cooling switching section is installed at the intersection of the outflow side pipe from the cold air chamber and the outflow side pipe from the filtration tank, and
Extending a plurality of inflow side pipes that communicate with the discharge pipes from the cold air chamber and the filtration tank, respectively, installing an air/water cooling switching section at the intersection of the inflow side pipe from the cold air chamber and the inflow side pipe from the filtration tank, and further, An air/water cooling switching refrigerating device comprising an air pump disposed on each inflow side or outflow side pipe of the cold air chamber, and a water pump disposed on each inflow side or outflow side pipe of the filtration tank. (3) The air/water cooling switching refrigerating device according to claim 1, wherein the cold air chamber and/or the filtration tank are divided into a plurality of parts, each of which can supply cold air or cold water of different temperature ranges.