KR101333004B1 - Portable low temperature storage house - Google Patents

Abstract

The present invention relates to a mobile low-temperature storage cell that is simple in the work process, reduces cost and manufacturing time, is easy to transport, and is free from leakage or leakage of cold air. According to an aspect of the present invention, a base, a wall, a ceiling, and a roof In the mobile low temperature reservoir, the base and the ceiling are formed of a container material, the bottom and the walls of the base are formed of a prefabricated urethane panel, and the ceiling is provided with a mobile low temperature reservoir, wherein the polyurethane is foam molded.

Description

Portable Cold Storage {PORTABLE LOW TEMPERATURE STORAGE HOUSE}

The present invention relates to a cold storage, and more particularly, to a mobile cold storage formed by a compromise between a container type and a prefabricated urethane panel type cold storage.

Currently, a device for refrigerating or freezing agricultural and livestock products or beverages is widely used. In addition, there are known specially produced teas such as refrigerated teas or refrigerated teas for transporting chilled or frozen various agricultural and livestock products, beverages, food and the like, and low temperature warehouses for storing a large quantity of various agricultural and livestock products.

Generally, refrigeration, refrigerated containers or low temperature warehouses employing conventional refrigeration cycles use refrigerants such as freon gas, liquefied petroleum gas (LPG) or ammonia gas to adjust the temperature in the container or warehouse. do. However, large volume cold stores are very expensive to maintain low temperatures, and refrigerated and refrigerated containers are transported by means of trucks or trailers.

Prior art related to the above-described storage is disclosed in Korean Utility Model Publication No. 20-0266735 (2002.02.20) "Container-type low-temperature storage with ozone gas generation function". The prior art is to build a container-type low-temperature warehouse made by the polyurethane foam inside the main wall to have a temperature-saving function to install a sealed door and to install a cold air supply in the room, but by installing an ozone generator inside the fan of the cold air supply 0.1 ~ It can produce 0.5PPM ozone gas and supply it with cold air, and it is possible to adjust the operation time by attaching a 24-hour timer to the operation device so that ozone is supplied for about 10 minutes every 30 minutes.

The prior art, because the ozone gas is stably supplied, it can be stored while maintaining the freshness by oxidative decomposition of harmful substances when storing agricultural products, and there is an advantage that can prevent the generation of stains on the crops by the sterilization of fungi, There is a disadvantage in that cold air leaks or moisture can penetrate into the wall and ceiling connection part.

The present invention has been made to solve the problems described above, one embodiment of the present invention is a simple low-cost process and manufacturing time is reduced, easy to transport, there is no leak or cold air removable cold storage Related to.

One preferred embodiment of the present invention is a mobile cold storage consisting of a base, a wall, a ceiling and a roof, the base and the ceiling is formed of a container material, the bottom and walls of the base is formed of a prefabricated urethane panel, the ceiling is polyurethane It provides a removable cold store, which is foam molded.

According to one embodiment of the present invention as described above, first, the work process is simple to reduce the cost and manufacturing time, it is easy to transport, it is possible to provide a portable cold storage without leakage or cold air outflow.

Second, the bearing capacity is improved by connecting the base and the roof with reinforcement frames.

Third, the workability is improved because the fork of the forklift or the crane can be conveniently inserted into the fork supporting hole formed in the base.

1 is a perspective view showing a removable cold storage according to an embodiment of the present invention,
FIG. 2 is a front view of the removable cold storage shown in FIG. 1;
3 is a cross-sectional view of the removable cold storage shown in FIG.
4 is a plan view showing a base employed in the removable cold storage shown in FIG.
5 is a front sectional view showing a CPV module unit employed in the mobile cold storage shown in Figure 1,
FIG. 6 is a cross-sectional view illustrating a light collecting unit employed in the CPV module unit illustrated in FIG. 5;
7 is a front sectional view showing a CPV module employed in the CPV module unit shown in FIG.
8 is a front sectional view showing a light collecting coupler employed in the CPV module unit shown in FIG. 5;
9 is a diagram illustrating a use state of the CPV module unit illustrated in FIG. 5.

1 is a perspective view showing a mobile cold storage according to an embodiment of the present invention, FIG. 2 is a front view of the mobile cold storage shown in FIG. 1, FIG. 3 is a cross-sectional view of the mobile cold storage shown in FIG. 1, 4 is a plan view showing a base employed in the mobile cold storage shown in FIG.

The mobile cold storage 1 according to the preferred embodiment of the present invention includes a base 10, a bottom 20, a wall 30, a ceiling 40, a roof 50, a freezer R, a natural cooler reservoir ( I), CPV module unit 140 is included.

1 and 2, a fork support hole 11 is formed on one side of the base 10, and the fork support hole 11 serves to conveniently carry a fork such as a forklift or a crane. Do it. In addition, as shown in FIG. 4, the base 10 has a fork pocket bracket which communicates with the fork support hole 11 and is formed in a rail shape so that the fork such as a forklift or a crane is not separated from the other direction when the fork is inserted ( 12) is installed. Furthermore, the base 10 has a crossbar 13 for reinforcing the base 10 and preventing twisting, and the fork pocket bracket 12 are supplemented with the base 10 as shown in FIG. Bottom member bar 14 is installed to prevent the bottom from being deformed. On the other hand, the wheel 15 is installed on the lower side of the base 10 to facilitate the movement as shown in FIG.

The base 10 is preferably formed of a container material, that is, a material such as steel.

The bottom 20 is installed on the upper side of the base 10, as shown in Figure 4 and preferably using a urethane panel for construction convenience, work speed and cost reduction.

The wall 30 is installed on the upper side of the base 10 as shown in FIG. 3 and preferably uses a urethane panel to improve construction convenience, such as the bottom 20. As shown in FIG. 2, a heat dissipation door 31 is installed on one sidewall of the wall 30, and a support ring 32 is installed on the upper side of the wall 30 so as to be conveniently supported by a crane or the like.

The ceiling 40 is fixed to the top of the wall 30, as shown in Figure 3 is formed of a container material such as steel, such as the base 10, the ceiling 40 is urethane foamed at the work site and foamed Cold air leakage to the ceiling 40 is blocked by the urethane, and the space between the ceiling 40 and the wall 30 is sealed, thereby preventing cold air leakage or moisture penetration by the space.

The ceiling steel pipe 40a is installed inside the ceiling 40 as shown in FIG. 3 in order to prevent bending due to a load or torsion during lifting.

The roof 50 is fixed to the outside of the ceiling 40 as shown in Figure 3 and is preferably formed of a steel plate material, the roof 50 does not leak even if rain rain light weight concentrated acid on the roof 50 It is preferably coated with a medium anticorrosive paint so that the strength is maintained even with water. In addition, the base 10 and the roof 50 are connected to the reinforcement frame 60 to improve the bearing capacity.

The refrigerator R is preferably installed at one side of the wall 30 as shown in FIG. 2, and the natural cooler reservoir I is fixed to the ceiling 40 by a bracket as shown in FIG. 3. A fan F is provided to allow cold air to circulate naturally.

CPV module 140 is installed on the upper side of the roof 50, as shown in Figure 5 to convert the received sunlight into electrical energy to supply to the lighting means, preferably, the upper side of the roof 50 At least one installed on the light collecting unit 141 for condensing the sunlight, and installed on the upper side of the roof 50 is connected to the light collecting unit 141 and the optical fiber 100 to convert the received sunlight into electrical energy The CPV module 142 and the CPV module 142 as shown in FIG. 5 are installed on the upper side of the plurality of light collecting units 141 to collect the sunlight collected in one place to be delivered to the CPV module 142. Condensing coupler 143.

The condenser 141 is preferably a triangular cross-sectional shape, as shown in Figure 6, the condenser main body 141a having a concentrated lens unit accommodating groove at the bottom, and preferably fitted on the upper side of the condensing main body 141a. The condensing lens 141b is fixed and fixed to the condenser lens unit 141c to be described later, and the condenser lens unit receiving groove of the condensing body 141a is preferably screwed or fitted to the condenser lens ( Concentrated lens unit 141c for condensing the sunlight collected through the 141b to the optical fiber 100 connected to the CPV module 142.

The condensing lens 141b preferably uses a Fresnel lens, and the Fresnel lens is one of the condensing lenses 141b, which is divided into several band shapes to have a prism effect on each band. It can be replaced by a conventionally known Fresnel lens by making the smaller.

The concentrating lens unit 141c has a concentrating lens unit body 141ca, which is preferably fitted or screwed into the concentrating lens unit receiving groove of the condensing body 141a, as shown in FIG. 6, and the concentrating lens unit body. A concentrated lens 141cb preferably fitted to the upper side of the 141ca and a lower side of the concentrated lens unit body 141ca are preferably fitted to the ferrule 141cd, which will be described later, from sunlight. The ferrule protection window (141cc) to protect, and the lower side of the concentrated lens unit body (141ca) is preferably composed of a ferrule (141cd) that is screwed or fitted and the optical fiber 100 is fixed therein.

As shown in FIG. 7, the CPV module 142 has a CPV module main body 142a having air flow ports 142aa formed at both sides thereof, and is fixed to an upper side of the CPV module main body 142a to receive solar light. CPV type solar cell 142b for converting the energy, and as shown in FIG. 7 is installed inside the CPV module body 142a so that one side is in contact with the solar cell 142b to cool the solar cell 142b. The cooler 142c and the CPV module main body 142a are preferably configured to be screw-coupled to a light collecting coupler support part 142d for supporting the light collecting coupler 143.

Since the cooler 142c is installed inside the CPV module body 142a as shown in FIG. 9, and an air flow port 142aa is formed in the CPV module body 142a, the heat of the solar cell 142b is generated. The absorbed cooler 142c may be cooled by the air flowing in and out through the air flow port 142aa.

As shown in FIG. 9, the condenser coupler 143 collects sunlight collected by a plurality of concentrators 141 in one place, and is preferably located above the coupler body 143a and the coupler body 143a. Is a screw coupled to the coupler cover (143b) formed with at least two or more focusing lens unit receiving grooves (143ba), and the lens is preferably screwed or fit coupled to the focusing lens unit receiving groove (143ba) of the coupler cover (143b) Focusing lens unit (143c) is provided with a focusing lens (143cb) is preferably fitted and coupled to the lower side of the unit body (143ca) and the lens unit body (143ca) to focus the sunlight on the optical fiber 100 located below. ), And a bulging lens (143d) which is preferably screwed or fitted to the lower side of the coupler body (143a) so that the emitted sunlight can be emitted in parallel.

In the preferred embodiment of the present invention, the base 10 and the ceiling 40 are formed using a container material such as steel, and the bottom 20 and the wall 30 are made of a urethane panel, and are formed by a tradeoff between a conventional container type and a prefabricated type. As a result, the work process is simple, which reduces costs and manufacturing time. In addition, the support force is improved by connecting the base 10 and the roof 50 to the reinforcement frame 60, and the fork of the forklift or the crane can be conveniently inserted into the fork support hole 11 formed in the base 10 to move conveniently. Therefore, workability is improved. Furthermore, by foaming polyurethane on the ceiling 40 and the connection portion, it is possible to prevent leakage of cold air and penetration of moisture, and the roof 50 is coated with a heavy anticorrosive paint so that no leakage occurs even if it rains. There is an advantage that the strength is maintained even if the weight concentrate. On the other hand, although not shown, the lamp is installed in the reservoir as an LED lamp, by using the CPV module unit 140 can save energy and contribute to green growth.

As the present invention can be variously modified by those skilled in the art without departing from the scope of the claims, the technical protection scope of the present invention is not limited to the specific preferred embodiments described above. Do not.

1: removable cold storage 10: base
11: fork support hole 12: fork pocket bracket
13: crossbar 14: floor member bar
15: wheel 20: floor
30: wall 31: heat dissipation door
32: support ring 40: ceiling
40a: fabric steel pipe 50: roof
60: reinforcement frame F: fan
I: Natural Cooler Jerking R: Freezer
140: CPV module unit 141: light collecting unit
142: CPV module 143: condenser coupler

Claims (6)

It is composed of a base and a ceiling formed of a container material, and a floor, a wall and a roof of a base formed of a prefabricated urethane panel. The ceiling is foamed with polyurethane, and the roof is configured to convert sunlight into electrical energy. A plurality of condensing parts installed on the upper side to condense solar light, a CPV module installed on the upper side of the roof and connected to the condensing part and an optical fiber to convert the received sunlight into electrical energy, and an upper side of the CPV module In the portable cold storage unit equipped with a CPV module unit consisting of a condenser coupler installed to collect the solar light collected by a plurality of condenser in one place to be delivered to the CPV module,
The condenser has a triangular cross-sectional shape and has a condenser main body having a concentrating lens unit accommodating groove at a lower portion, a condensing lens that is fitted and fixed to an upper side of the condensing main body, and a screw or fit coupled to the concentrating lens unit accommodating groove and condensed. Concentrated lens unit for concentrating the sunlight collected through the lens to the optical fiber connected to the CPV module,
The concentrating lens unit includes a concentrating lens unit body that is screwed or fitted into the concentrating lens unit accommodation groove of the condensing body, a condensing lens fitted to the upper side of the concentrating lens unit body, and a lower side of the concentrating lens unit body. Ferrule protection window that is fitted to fit, and a screw or fit to the lower side of the concentrated lens unit body and the ferrule is fixed to the optical fiber therein,
The CPV module has a CPV module main body having air flow ports formed at both sides, a CPV solar cell fixed at the upper side of the CPV module main body to convert received sunlight into electrical energy, and one side of the CPV contacting the solar cell. A cooler installed inside the module body to cool the solar cell, and a light coupling coupler screwed to an upper side of the CPV module body and supporting a light collecting coupler.
The condenser coupler is a coupler body, a coupler cover screwed to an upper side of the coupler body and formed with at least two focusing lens unit receiving grooves, and a lens unit body screwed or fitted to the focusing lens unit receiving groove of the coupler cover. And a focusing lens unit having a focusing lens fitted to the lower side of the lens unit body and focusing sunlight on an optical fiber located at the lower side, and the solar light emitted by being screwed or fitted to the lower side of the coupler body. Removable cold storage, characterized in that consisting of parallel lenses to be discharged in parallel.
The method of claim 1,
The roof is a mobile cold storage, characterized in that the coating with a heavy coating.
3. The method of claim 2,
Removable cold storage, characterized in that the reinforcement frame is further installed connecting the base and the roof.
The method according to any one of claims 1 to 3,
Removable cold storage, characterized in that the base is formed with a fork support hole.
The method according to any one of claims 1 to 3,
Removable cold storage, characterized in that the support ring is installed on the wall.
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