KR101743820B1 - wine underwater storage - Google Patents

Abstract

The present invention induces low temperature groundwater to naturally flow into a low height reservoir at a certain height to agitate and store the wine in water and to provide a perfect storage environment without blocking light, To an underground wine cellar underwater.
The wine-aged underwater submerged pool of the present invention includes a foundation floor for building outer walls, a lower layer outer wall for guiding low-temperature groundwater to a certain height in the reservoir, an upper layer outer wall for preventing inflow of surface water at room temperature, A cap installed at the entrance of the reservoir to block, a gravel and inlet at the bottom of the foundation floor to induce groundwater flow from the floor, a side wall at the bottom of the foundation, a pore and gravel installed outside the reservoir to collect groundwater, An underwater wine storage box for storing wine, a wine box shelf installed on the wall and floor for fixing the wine storage box, a staircase along the wall for accessing the inside of the store, a wine mouth, Vertical transporter installed in the storage room for shipment, work installed in the storage room is installed. The features.

Description

 Wine underwater storage {wine underwater storage}

The present invention induces low temperature groundwater to naturally flow into a low height reservoir at a certain height to agitate and store the wine in water and to provide a perfect storage environment without blocking light, And to an underground water storage for water treatment.

The floods of Paris in 1910 caused the 450,000 bottles of wine stored in a restaurant cave to be submerged, but they are now traded at high prices, and the wines of the Baltic Sea submarine wreck near France have been found to be the best treats. In Europe, such as France, commercialization of wine aging using caves has attracted many visitors. Thus, the image of wine plays an important role in determining the sales volume or price of wine.

However, farmers in domestic winery are not able to compete with wine-developed countries such as Europe because they can not provide good image by using a small basement with air-conditioner or low-temperature warehouse for storing wine. In order to enhance the competitiveness of wineries farmers and revitalize the Korean wine industry, it is necessary to develop and commercialize advanced wine storage methods used only in Korea.

Also, the cost of low-temperature warehouse facilities or the cost of purchasing wine cellars is higher than the amount of storage, and maintenance costs are increased due to operation of facilities throughout the year.

Optimal conditions for ripening wine should always be at a cool temperature of around 15 ° c, no light, no contact with oxygen, and no vibrations. Underground water storage is ideally suited to meet all these conditions.

However, in the case of installing a pool using sea, river, and reservoir, there is a high possibility of water loss due to runoff. In winter, the water temperature is low and aging is stopped. In summer, oxidation is accelerated due to a rise in water temperature. There is a problem in that the function as the "

The present invention has been devised in order to solve the above-mentioned problems, and it is aimed at lowering the facility cost and maintenance cost compared to the storage amount, maintaining the water temperature suitable for wine aging, blocking light, . It is also aimed to develop and commercialize advanced aging storage methods.

In order to achieve the above object, the wine-aged underwater submerged water reservoir according to the present invention induces the groundwater to the lower outer wall of the lower level by using the gravel and the pipe, and the groundwater flows into the lower outer wall, By storing wine in low-temperature groundwater,

A bottom floor for guiding low temperature groundwater to the reservoir, an upper wall for preventing inflow of surface water at room temperature, a reservoir cap for preventing external light and air inflow, Gravels and inlets for inducing groundwater inflow, Pipelines and gravel for collecting groundwater to the lower part of the outer wall, Drainage pipes for water level control in reservoirs, Wine shelves for fixing underwater wine storage boxes and storage boxes, Wine mouth, vertical transport for shipment, work,

Underground submerged wine cellar is excavated to the bottom from the outflow point where the ground water comes out first while digging the ground down to form a gravel layer of 500cm × 500cm × 50cm depth on the floor and putting concrete on it, A square foundation floor having a size of 500 cm x 50 cm in thickness is formed, and stones having a size of 100 cm x 50 cm x 50 cm in height are formed on the outer wall, and a lower portion of 400 cm x 400 cm x 100 cm high x 50 cm thick is formed from the top of the lower portion From the foundation floor to the first groundwater outflow point, the square outer wall is poured from the upper side of 400cm × 400cm × height from the upper part of the lower part to the ground 50cm × 50cm above the ground by the concrete. An underwater storage body;

A gravel layer of 500 cm × 500 cm × 50 cm deep for inducing groundwater soaking on the bottom of the reservoir;

An inflow port having a diameter of 100 cm and a depth of 50 cm and having a base bottom circular shape for inflow of ground water rising from the bottom of the reservoir into the reservoir;

A square cap having a size of 410 cm x 410 cm x 10 cm x thickness and 55 cm inside which the light and air are prevented from flowing into the entrance of the storage tank;

A door having a width of 150 cm × 150 cm and a length of 100 cm × 100 cm to use a staircase for entering and exiting the wine cellar,

A heat insulating material 37 attached inside the storage inlet cap 34;

A pipe having a diameter of 30 cm and a length of 400 cm, which is installed on an outer wall surface of the main body and guides the ground water to a lower layer portion;

A gravel of 5 cm × 5 cm × 3 cm in height, which is filled on the outside of the pipe to guide the ground water to the pipe;

A 10 cm diameter stainless steel drain pipe to control the level in the reservoir;

70 cm wide, stainless steel staircase used for inside and outside of the storage room;

Vertical 70cm × 50cm vertical conveyor used for carrying wine boxes;

Wine storage box of 50cm × 35cm × 40cm height used for wine storage;

And a rack having a width of 55 cm x length 40 cm x height 45 cm x 10 cm of shelf skeleton, and a total length of 400 cm, which stacks the wine storage boxes in the storage warehouse.

According to the present invention, the wine stored in the groundwater is maintained at a temperature suitable for aging, the oxygen contact is blocked, the deterioration of the wine is prevented by blocking the light, and the wine is not re- And has the effect of satisfying all of the storage requirements. It also has the effect of reducing the storage cost by not using energy. And has the effect of commercializing a special storage method.

1 is a cross-sectional view of an underwater storage compartment, a foundation floor, a lower portion, and an upper portion according to the first embodiment of the present invention.
Fig. 2 is a perspective view of the lower outer layer portion and the upper layer portion of the well reservoir.
3 is a perspective view of the cap covering the reservoir.
4 is a cross-sectional view of the cam covering the reservoir.
5 is a perspective view of a pillar.
6 is a perspective view of a storage box for storing a wine bottle.
7 is a perspective view of a wine storage rack and a wine storage box in an underwater storage.

1 is a cross-sectional view of a submerged wine cellar underground, an underwater cellar bottom 22, a lower cell 24, and an upper cell 26 according to the present invention, and FIG. 2 3 is a perspective view of a cap 34 covering a reservoir, FIG. 4 is a cross-sectional view of a cap 34 covering the reservoir, and FIG. 5 is a cross- Fig. 6 is a perspective view of a storage box 38 for storing a wine bottle. Fig.

1 and 2, the wine-aged underwater underwater reservoir of the present invention includes a base bottom 22 having a rectangular shape formed by pouring concrete into a basement floor, a lower layer 24 formed by stacking stones at a predetermined height on a square outer wall, An upper portion 26 formed by pouring a square outer wall into the concrete from the upper end of the lower portion to a predetermined height of the earth surface, a square cap 34 located at the entrance of the pond, a pore pipe 32 installed on the outer wall, The wine storage shelf 33 and the wine storage box 39. The wine storage box 39 is provided with a water supply pipe 21 and a drain pipe 30, a work lamp 29, a step 28, a vertical transportation device 31,

Here, the foundation floor 22 is located below a certain depth with respect to the position 25 where the groundwater is firstly discharged, After filling the gravel 21 to a certain depth, concrete is placed on the gravel 21 to complete the rectangular bottom foundation 22. A plurality of circular inlet ports (23) are provided on the floor to guide the ground water rising from the bottom gravels (34) into the reservoir.

Next, the lower layer portion 24, The outer wall is piled up with a constant height at the bottom foundation (22) to induce the inflow of the groundwater into the space between the stones and fill the groundwater to the location (25) where the first groundwater is extracted during the excavation. Keep the wine to mature in the filled groundwater.

2 and 5, the porous pipe 32 is attached to the entire surface of the outer wall 4 of the storage tank from the vicinity of the foundation floor 22 to the height 25 at which the first ground water is discharged, thereby guiding the groundwater to the lower layer .

The gravel 21 is filled up to the height of the pipe 32 by a predetermined thickness to guide the groundwater to the pipe 32.

It is preferable that the upper layer portion 26 is poured into a square outer wall by using concrete from the upper portion 24 'of the lower portion 24 to a certain height above the surface 27 so that the surface water at room temperature can not be introduced.

3 and 5, the cap 34 of the storage compartment includes a door 35 for use of a wine inlet, a vertical transporting device at the top, and a door 36 for use of a staircase for entering and exiting Is installed. A heat insulating material 37 may be attached to the interior of the cap 34 to block the influence of light and external temperature.

Referring to FIG. 1, a water level control drain pipe 30 is connected from the bottom to the reservoir inlet in the reservoir. The inlet of the drain pipe (30) includes a foreign matter filtering net. It serves to drain the wine when it is shipped.

Referring to FIGS. 1 and 7, a plurality of wine shelves 33 fixed to the bottom and wall of the storage can be installed. The shelves 34 can be stacked up and down. Thereby preventing the wine box 39 from floating or collapsing on the water due to buoyancy.

Referring to FIG. 6, the wine box 38 has a stainless steel net 39 on each side so that low temperature ground water and a wine bottle can freely contact each other. And stored.

Referring to FIG. 1, an entry and exit staircase 28 is provided within the storage compartment. The stairs 28 are connected from the ground to the floor along the walls.

In the interior of the storage room, a vertical conveyor 31 is installed on the wall from the entrance to the floor. It serves to carry wine box, wine box at shipment.

In addition, a work lamp 29 is provided in the upper portion of the upper wall 26 in the inside of the storage compartment for the entrance of wine and for shipment.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Of course.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the scope of the appended claims, as well as the scope of the appended claims.

In Europe, such as France, the wine producing region, caves are used to mature wine and are widely used for commercialization. In Korea, however, there are not many caves suitable for wine aging. Therefore, it is necessary to develop and commercialize a high- It was time.

A European ship, loaded with wines, has sunk for more than a hundred years, and wines found at modern times are trading at high prices. Providing the optimal environment for wine ripening and reducing operating costs while commercializing a wine storage aged underground storage room with advanced storage methods can play an important role in revitalizing wine farmers and the Korean wine industry.

21: gravel 22: foundation bottom 23: inlet
24: lower layer portion 25: fresh water height 26: upper layer
27: ground surface 28: stairs 29: work lights
30: Water level control drain pipe 31: Vertical conveyor 32:
33: Wine shelf 34: Reservoir cap 35: Vertical transport door
36: stairway door 37: insulation 38: wine box
39: Steel mesh

Claims (1)

Underground submerged wine cellar is excavated to the bottom from the outflow point where the ground water comes out first while digging the ground down to form a gravel layer of 500cm × 500cm × 50cm depth on the floor and putting concrete on it, A square foundation floor having a size of 500 cm x 50 cm in thickness is formed, and stones having a size of 100 cm x 50 cm x 50 cm in height are formed on the outer wall, and a lower portion of 400 cm x 400 cm x 100 cm high x 50 cm thick is formed from the top of the lower portion From the foundation floor to the first groundwater outflow point, the square outer wall is poured from the upper side of 400cm × 400cm × height from the upper part of the lower part to the ground 50cm × 50cm above the ground by the concrete. An underwater storage body;

A gravel layer of 500 cm × 500 cm × 50 cm deep for inducing groundwater soaking on the bottom of the reservoir;

An inflow port having a diameter of 100 cm and a depth of 50 cm and having a base bottom circular shape for inflow of ground water rising from the bottom of the reservoir into the reservoir;

A square cap having a size of 410 cm x 410 cm x 10 cm x thickness and 55 cm inside which the light and air are prevented from flowing into the entrance of the storage tank;

A door having a width of 150 cm × 150 cm and a length of 100 cm × 100 cm to use a staircase for entering and exiting the wine cellar,

A heat insulating material 37 attached inside the storage inlet cap 34;

A pipe having a diameter of 30 cm and a length of 400 cm, which is installed on an outer wall surface of the main body and guides the ground water to a lower layer portion;

A gravel of 5 cm × 5 cm × 3 cm in height, which is filled on the outside of the pipe to guide the ground water to the pipe;

A 10 cm diameter stainless steel drain pipe to control the level in the reservoir;

70 cm wide, stainless steel staircase used for inside and outside of the storage room;

Vertical 70cm × 50cm vertical conveyor used for carrying wine boxes;

Wine storage box of 50cm × 35cm × 40cm height used for wine storage;

A wine storage underground storage room having a width of 55 cm × 40 cm × 45 cm × 10 cm of shelf skeleton and a total of 400 cm,

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