RU174025U1 - CELLAR - Google Patents

Abstract

The utility model relates to the field of construction, and more specifically to underground facilities for year-round food storage. The technical result of the proposed utility model is to increase the strength of the cellar while maintaining its low weight and durability. The solution of a technical problem in a cellar containing a case in the form of a vertically arranged hollow cylinder of polymer material, hermetically connected to the bottom of the polymer material, and having an overlap of the polymer material with a neck for user access to the inside of the case, equipped with a ladder, shelves of polymer material and supply exhaust ventilation, achieved by the fact that the shelves are rigidly connected to the cylinder of the housing, forming an internal frame of rigidity, and have flanges on the inner edge, there are vertical located racks that are rigidly connected to the ceiling, shelves and bottom, the bottom of the body is made two-layer, and on the entire surface of the outer layer of the bottom there are stiffeners, on the outer surface of the cylinder there are eyelets with holes, the ladder is made of aluminum. The cylinder, bottom, floor, shelves and racks of the body can be made of polypropylene. Racks can serve as supply and exhaust ventilation channels due to the fact that they can be led out of the cellar, moreover, the lap with a valve for adjusting the air outflow is located in the upper part of the first rack, the lap with a valve for adjusting the air flow is located in the lower part of the second rack. A cable can be installed in the holes of the eyes to secure the cellar to the anchor plate. 6 ill.

Description

The utility model relates to the field of construction, and more specifically to underground facilities for year-round food storage.

A known analogue is the cellar, patent of the Russian Federation No. 101478, 01/20/2011, containing means of ventilation, exhaust ventilation and a sealed enclosure equipped with a through window for entry / exit, having a waterproofing, heat-insulating and hermetic metal shell, in which the said shells are embedded each other in the order of mention.

The disadvantage of the analogue is the low durability of the device due to the use of metal as a sealed enclosure. Steel is usually used as metal, as the most suitable material in terms of price to strength characteristics. But steel oxidizes under the influence of the medium, which leads to its destruction.

A closer analogue to the proposed technical solution is the cellar manufactured by LLC TSK North-West, St. Petersburg, information about which is available on the site http://pogreb.spb.ru, containing the case in the form of a vertically located polypropylene a hollow cylinder with a wall thickness of 6 to 8 mm, a diameter of 1.5 to 2 m, a height of 1.5 to 2 m, hermetically connected to the base of sheet polypropylene with a thickness of 8 to 20 mm, and having a plastic overlap with a neck for user access inside the case equipped staircase, semicircular polypropylene shelves and supply and exhaust ventilation.

The main disadvantage of the prototype is the low strength of the cellar, due to the low strength of the bottom and its connection with the cylindrical part of the cellar body, not designed for groundwater, creating pressure on the entire bottom area, the absence of a stiffness frame inside the cellar, which in the presence of groundwater leads to wall deformation cellar case, as well as the use of a plastic staircase. Additional disadvantages of the prototype are the small area of shelves for storing products, while most of the cellar volume is an empty space that cannot be used for storage, lack of thermal insulation of the neck, low vandal resistance of the plastic neck cover.

Increasing the strength of the cellar is possible due to the use of steel as the material of its body. But the use of steel increases the material consumption, the weight of the cellar, and, as a consequence, the cost of transportation and installation, and also reduces its durability due to the low corrosion resistance of steel, as was indicated in the description of the first analogue of the proposed technical solution.

The technical result of the proposed utility model is to increase the strength of the cellar while maintaining its low weight and durability.

The solution of a technical problem in a cellar containing a case in the form of a vertically arranged hollow cylinder of polymer material, hermetically connected to the bottom of the polymer material, and having an overlap of the polymer material with a neck for user access to the inside of the case, equipped with a ladder, shelves of polymer material and supply exhaust ventilation, achieved by the fact that the shelves are rigidly connected to the cylinder of the housing, forming an internal frame of rigidity, and have flanges on the inner edge, there are vertical located racks that are rigidly connected to the ceiling, shelves and the bottom, the bottom of the body is made two-layer, and on the entire surface of the outer layer of the bottom there are stiffeners, on the outer surface of the cylinder there are eyelets with holes, the ladder is made of aluminum.

The cylinder, bottom, floor, shelves and racks of the body can be made of polypropylene.

Racks can serve as supply and exhaust ventilation channels due to the fact that they can be led out of the cellar, moreover, the lap with a valve for adjusting the air outflow is located in the upper part of the first rack, the lap with a valve for adjusting the air flow is located in the lower part of the second rack.

A cable can be installed in the holes of the eyes to secure the cellar to the anchor plate.

Figure 1 shows a side view of the cellar.

Figure 2 shows a remote view And at the junction of the cylinder and the bottom of the cellar.

Figure 3 shows the bottom view of the cellar.

Figure 4 shows a top view of the cellar.

Figure 5 shows the cellar installed in the pit and ready for operation.

Figure 6 shows the cellar in isometric view with a conditional cutout image of the inner part of the cellar.

The cellar contains a case in the form of a vertically arranged hollow cylinder 1 made of polymer material, hermetically connected to the bottom 2 of polymer material, and having an overlap 3 of polymer material with a neck 4 for user access inside the case, equipped with a ladder 5, shelves 6 of polymer material and a supply -exhaust ventilation, shelves 6 are rigidly connected to the cylinder 1 of the housing, forming an internal frame of rigidity, and have flanging 7 along the inner edge, there are vertically located racks 8, which are rigidly connected Nena lapped 3, flanges 6 and the bottom 2, the bottom 2 of the housing holds a two-layer, wherein the entire bottom surface of the outer layer are ribs 9 on the outer surface of the cylinder 1 has ears 10 with openings 11, ladder 5 is made of aluminum.

Cylinder 1, bottom 2, ceiling 3, shelves 6 and racks 8 of the housing can be made of polypropylene.

Racks 8 can play the role of supply and exhaust ventilation channels due to the fact that they can be led outside the ceiling of 3 cellars, moreover, a lap with a valve (not shown in the drawings) for adjusting the outflow of air is located in the upper part of the first rack, a lap with a valve for regulating the inflow air is located at the bottom of the second rack.

A cable can be installed in the holes 11 of the eyes 10 to secure the cellar to the anchor plate.

Consider an example of a specific implementation of a cellar. Cylinder 1 is made of a polypropylene pipe with a diameter of 1852 mm and a wall thickness of 15 mm. Racks 8 are made of a polypropylene pipe with a diameter of 100 mm with a wall thickness of 2 mm. The outer layer of the bottom with ribs 9 is made of a homopolymer of polypropylene having high hardness and a slight deformation coefficient. The outer layer is square in plan. The inner layer 12 (see Fig. 2) of the bottom 2, floor 3, shelf 6 and the walls of the neck 4 are made of a sheet copolymer of polypropylene with ethylene 10 mm thick, which has greater plasticity than that of the homopolymer. As a result, the inner layer 12 takes on the dynamic mechanical effect that arises during the operation of the cellar - shock when objects fall, the soles of the user's shoes, the pressure of the base of the stairs, and does not damage the hard outer layer of the bottom 2. Connection of the cylinder 1, bottom 2, overlap 6, shelves 6, racks 8, walls of the neck 4, lugs 10 is carried out by extrusion welding. The neck 4 has a box shape. Its lower part is connected to the cavity of the cellar case, and the upper opening is closed by a cover 13. Outside, the connection of the cylinder 1 with the bottom is reinforced with stiffeners 14. The neck 4 and the cover 13 have an insulation layer 15 of polystyrene foam 50 mm thick.

Consider the example of the operation of the cellar. To install the cellar, a pit is excavated with a diameter and depth of approximately 2 m, at the bottom of which a pillow is poured out of sand, which is rammed. The installed cellar is shown in Figure 6. The cellar is mounted on the sand in such a way that the neck 4 is half below the ground level (zero mark). The pit space remaining after the installation of the cellar is covered with sand to the level of overlap. On top of the floor, a layer of extruded polystyrene foam is installed, which is filled with sand to the ground level (zero mark). After that, the cellar is ready for use.

In the case of installing a cellar in areas with a high level of groundwater, an additional fastening of the cellar to the ground is used to prevent its displacement or “ascent” under the influence of groundwater. For this, a metal cable in a polymer shell is passed through the holes 11 of the eyes 10. The cable is attached to flat blocks with cross-shaped stiffeners (not shown), made of polypropylene sheet and laid in a foundation pit at the bottom of cellar 2 during installation. These blocks act as an anchor plate. A block of soil located next to the cellar exerts pressure on the blocks, cables keep the cellar from floating.

As ventilation ducts, racks 8 are used, displayed in the form of couplers for overlapping 3 cellars. For the outflow of air, a stand with a lap in the upper part is used, for the air flow - with a lap in the bottom. The openings can be completely or partially blocked by valves, which are a segment of a polypropylene pipe with a longitudinal cut, tightly adjacent to the surface of the column and moving freely along it.

To illuminate the interior of the cellar, a portable lamp in a waterproof design is used. Thanks to this solution, lighting of any part of the cellar is accessible, convenient and safe in conditions of high humidity.

The achievement of the technical result in the device of the cellar is due to the fact that

- shelves are rigidly connected to the cylinder of the casing, forming an internal frame of rigidity, increasing the rigidity of the cellar, allowing it to withstand significant pressure of the soil and groundwater without deformation and destruction,

- shelves have flanging along the inner edge, which increases their rigidity, increasing the overall rigidity of the cellar case,

- there are vertically located racks that are rigidly connected to the ceiling, bottom, and shelves, distributing external pressure to all structural elements evenly, preventing deformation of the cellar,

- the bottom of the body is made two-layer, and on the entire surface of the outer layer of the bottom there are stiffeners,

- on the outer surface of the cylinder there are eyes with holes, which makes it possible to install and operate the cellar, made of corrosion-resistant, but lightweight, polymeric material, in areas with a high level of groundwater and in areas with moving flooded soils, while maintaining low weight cellars

- the ladder is made of aluminum, which increases its strength and durability,

Additional advantages of the technical solution are the presence of flanging along the inner edge of the shelves, which performs the additional function of keeping products on the shelves, which allows more efficient use of the useful area of the shelves, and the described location of ventilation openings using valves, which makes the ventilation adjustable and more efficient.

Claims (4)

1. A cellar containing a case in the form of a vertically arranged hollow cylinder of polymer material, hermetically connected to the bottom of the polymer material and having an overlap of the polymer material with a neck for user access inside the case, equipped with a ladder, shelves of polymer material and supply and exhaust ventilation, characterized in that the shelves are rigidly connected to the cylinder of the body, forming an internal frame of rigidity, and have flanges on the inner edge, there are vertically located racks, which are rigidly connected to the ceiling, shelves and the bottom, the bottom of the body is made two-layer, and on the entire surface of the outer layer of the bottom there are stiffeners, on the outer surface of the cylinder there are eyelets with holes, the ladder is made of aluminum. 2. The cellar according to claim 1, characterized in that the cylinder, bottom, floor, shelves and racks of the body are made of polypropylene. 3. The cellar according to claim 1, characterized in that the racks act as supply and exhaust ventilation channels due to the fact that they are led out beyond the ceiling of 3 cellars, and the lap with a valve for adjusting the outflow of air is located in the upper part of the first rack, the lap with a valve for air flow adjustment is located at the bottom of the second rack. 4. The cellar according to claim 1, characterized in that a cable is installed in the holes of the eyes for securing the cellar to the anchor plate.

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