RU2035573C1 - Refrigerator building - Google Patents

Abstract

FIELD: building of special structures. SUBSTANCE: pillars, rafter arched structures and longitudinal beams forming horizontal strakes are erected from tubular profiles of rectangular cross-section made of composite material based on glass fibre. Guard is made in form of skins manufactured of plastic and metal sheets secured respectively to inner and outer sides of pillars, beams and arched structures. Heat insulation in this version is made in form of slabs arranged in between skins. In other version, inner skin made of plastic slabs is secured to pillars, beams and arched structures on their inner sides; heat insulation is dusted in several layers on inner surfaces of plastic sheets; metal sheets are fitted to half of guard height and are secured to pillars and beams. EFFECT: enhanced reliability. 3 cl, 4 dwg

Description

 The invention relates to the construction and can be used in the construction of special facilities for cooling, freezing and storing various food products and can be used in the construction of procurement forwarding, distribution buildings of refrigerators, as well as buildings of mixed-type refrigerators.

Known design of the building of the refrigerator, containing a metal frame formed from columns and horizontal structures installed on them, and spatial blocks of insulation panels attached to the frame [1]
The closest in technical essence and the achieved result to the invention is the building of the refrigerator, including a frame of columns and horizontal elements, a fence, thermal insulation and vapor barrier [2]
Known designs contain metal-intensive frames, which are exposed to climatic factors of humidity and temperature and, therefore, require protection. Such designs also require significant labor costs for their construction.

 The objective of the invention is the exclusion from the design of the building of the refrigerator supporting metal structures, which will eliminate the impact on the design of climatic factors, increase the reliability and durability of the structure, as well as reduce labor costs during its installation.

 This is achieved by the fact that the horizontal frame elements are made in the form of rafter arched structures and forming horizontal belts of longitudinal beams, and the columns, beams and arched structures are formed from a set of tubular profiles of rectangular cross section from composite material based on fiberglass, and the fence from the casing in the form of plastic resistant to aggressive environments and metal sheets attached respectively from the inside and outside of the columns, beams and arched structures with the placement of inter casing, or casing in the form of plastic sheets resistant to aggressive environments, attached to columns, beams and arched structures from the inside, multilayer insulation made by spraying polystyrene foams onto the inner surface of the plastic sheets, and the outer casing made of half-metal sheets the height of the fence and attached to the columns and beams.

 In addition, the insulation can be made of plates when installing metal sheets to the entire height of the fence, and the cavity of the tubular profiles are filled with insulation.

 In FIG. 1 shows a refrigerator building, cross section; figure 2 is the same side view; figure 3 section aa in figure 1; figure 4 section BB in figure 1.

 The building of the refrigerator contains a frame 1 of columns 2 and horizontal elements in the form of rafter arched structures 3 and forming a belt of longitudinal beams 4, thermal insulation 5 and vapor barrier 6 and the fence 7. Arch structures 3 are supported on columns 2. Beams 4 are located along the height of the fence 7.

 Columns 2, beams 4 and arch structures 3 of the frame are made in the form of a set of tubular profiles of rectangular cross section from a composite material based on fiberglass. The fence 7 is made of sheathing 8 in the form of plastic sheets resistant to aggressive environments, for example, of PCL or PKS-LG sheets (food-grade plastic based on lavsan), which are attached to the inside of columns 2, beams 4 and arched structures 3, sheathing 9 of metal sheets, for example aluminum sheet, attached on the outside of the column 2, beams 4 and arched structures 3.

 Thermal insulation 5 and vapor barrier 6 are placed in the gap between the skin 8.9, and the vapor barrier 9 is adjacent to the inner surface of the plastic sheets 8.

 In another embodiment, the thermal insulation 5 is multilayered by spraying foams onto the inner surface of the plastic sheets 8. In this case, the sheathing 9 of the metal sheets is installed only on the zone of possible mechanical damage to the fence, namely half the height of the fence 7, and is attached to the columns 2 and beams 4 . In other places, including on the roof, instead of sheathing 9, the outer layer of multilayer thermal insulation was sprayed in the form of a high-density waterproofing membrane, which I perform with the addition of aluminum powder. Such a coating additionally protects the internal volume of the refrigerator building from external thermal radiation.

 Thermal insulation 5 can also be performed in the first embodiment when metal sheets 9 are installed over the entire height of the fence in the form of heat-insulating plates, for example, of polystyrene foam (PSV-9) with a thickness equal to the gap between the skinings 8, 9. Thermal insulation 5 of foam can be sprayed into cavities of each tubular profile of columns 2, beams 4 and arched structures 3. For an additional bundle of arched structures 3 and to ensure, if necessary, fixing the metal roof, longitudinal elements are installed on them 10. Fastening the frame elements among themselves is performed by special locks or using gussets and plastic sheet plastic fasteners or gussets of the aluminum alloy or corrosion-resistant fasteners (stainless steel or titanium alloy).

 The cross section of each tubular profile is set in the direction of action of the bending moment (maximum W). This set of tubular profiles allows you to provide maximum strength and rigidity with minimal weight. In addition, only such a set of tubular profiles of reduced cross-section allows bending of straight-line profiles to obtain an arched prestressed rafter structure. Sprayed multilayer thermal insulation 5 with waterproofing membranes ensures the maintenance of the set temperature and humidity parameters in the internal volume of the refrigerator.

 When installing as a thermal insulation 5 foam plates from the side of the inner plastic sheathing 8, a waterproofing film is installed, for example polyethylene, which provides vapor barrier. The absence of materials in the construction of the refrigerator building that are susceptible to corrosion by moisture or vapors of storage products, as well as steel elements that create “cold bridges”, significantly increases the operational reliability of the refrigerator building.

 The use of light composite and plastic materials, as well as thin sheets for sheathing, reduces labor costs during the construction of the refrigerator building, limited only by small-scale mechanization.

Claims (3)

 1. REFRIGERATOR BUILDING, including a frame of columns and horizontal elements, a fence, heat insulation and vapor barrier, characterized in that the horizontal elements of the frame are made in the form of rafter arched structures and forming horizontal girder beams, and the columns, beams, rafter and arched structures are formed from a set tubular profiles of rectangular cross-section made of a composite material based on fiberglass, the fence is formed of sheathing in the form of plastic sheets resistant to aggressive environments, and metal sheets attached respectively from the inner and outer sides of columns, beams and rafter arched structures with the placement of thermal insulation and vapor barrier between the casing, or from the casing in the form of plastic sheets that are resistant to aggressive environments and attached to the columns, belts and rafters arched structures on their inner side, multilayer thermal insulation made by spraying polystyrene foams onto the inner surface of plastic sheets, and metallic outer sheathing sheets of sheets installed at half the height of the railing and attached to columns and beams.  2. The building according to claim 1, characterized in that the thermal insulation is made in the form of plates when installing metal sheets to the entire height of the fence.  3. The building according to claims 1 and 2, characterized in that the cavity of the tubular profiles are filled with thermal insulation.

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