RU2102659C1 - Storehouse for products - Google Patents

Abstract

FIELD: farming, food-precessing industry and trade. SUBSTANCE: storehouse includes room for products, ice guard, tubular heat exchanger arranged horizontally in ceiling, walls and under floor and connected in bundle in cavity of fan. Heat exchanger tubes located under floor are connected with those located in walls and in ceiling, as well as with the room for products. Sections of heat exchanger tubes located within thickness of heat-insulating layer are made from wood. EFFECT: enhanced efficiency. 3 cl, 2 dwg

Description

 The invention relates to storage facilities for storing food and can be used in agriculture, in the food industry and trade.

 A well-known warehouse for storing products, walls, floors, the floor of which is made of ice, freezed by using natural cold in the winter season. The warehouse has a heat-insulating coating on top, for example, of sawdust and slag, which protects the ice parts of the warehouse building from melting during its operation in the warm season.

The disadvantage of this ice warehouse is that the overhaul, carried out almost 1-2 years later, including freezing ice on top of the ice warehouse and including charging it with natural cold, requires laborious work to remove the heat-insulating layer from the upper surface of the warehouse in autumn and to lay it to the place in winter. And during winter charging with through ventilation with a hole of 3 4 m ² in the end wall, the products stored in it are moved to another storage for 40-50 days, which is associated with large costs and loss of production.

 A well-known warehouse for storing products containing a room for products, a fence made of frozen material, such as ice, and including a ceiling, walls and floor, a heat-insulating layer, a fan, a heat exchanger from pipes located in the walls and under the floor (ed. USSR N 1756746, F 25 D 3/02, 1992).

 This solution allows the fan to blow cold air through pipes of the heat exchanger to accumulate cold in the enclosing parts of the structure in the walls and under the floor of the warehouse, but does not allow cooling the ceiling, which is most exposed to external thermal effects.

 Vertically located heat exchanger tubes are not suitable for a land ice warehouse with a considerable length. Moreover, the combination of horizontal and vertical tubes of the heat exchanger creates increased resistance to air blowing by the fan. All this leads to the fact that the invention cannot ensure the reliability of charging the ground ice warehouse with natural cold and does not make it possible to increase the period between successive cycles of ice freezing on the outer surfaces of the warehouse.

 The technical result to which this invention is directed is to provide the possibility of charging the warehouse with natural cold without removing the heat-insulating layer and without unloading products from the warehouse for the period of its cooling, as well as to increase the life of the warehouse without removing the heat-insulating layer to perform ice freezing on top of the ice warehouse.

 This technical result is achieved due to the fact that the warehouse for storing products containing a room for products, a fence made of frozen material, such as ice, and including a ceiling, walls and floor, insulation layer, fan, heat exchanger from pipes located in the walls and under the floor, characterized in that the heat exchanger contains additional metal pipes located in the ceiling, while the pipes in the enclosure are placed horizontally and connected by a bundle in the fan chamber, and the pipes laid under the floor are connected with pipes in the walls and the ceiling by means of pipes with valves. The heat exchanger pipes located under the floor are connected to the food storage room by means of pipes with dampers. The heat exchanger contains sections of pipes placed within the thickness of the insulating layer, which are made of a material having a low coefficient of thermal conductivity, for example, wood.

 In FIG. 1 shows a warehouse for storing products, a longitudinal section; in FIG. 2 warehouse, section AA in figure 1.

 The food storage warehouse contains a food room 1, a fence made of frozen material, such as ice, and comprising a ceiling 2, walls 3, floor 4, a heat-insulating layer consisting of sawdust 5, slag 6, dusting 7. The warehouse contains a fan 8 and a heat exchanger from pipes 9, 10, 11 located respectively in the ceiling 2, in the walls 3 and under the floor 4. The pipes 9, 10, 11 of the heat exchanger are made of metal, placed horizontally in the enclosure and connected by a bundle in the fan chamber 8.

 In this case, the pipes 11 located under the floor 4 are connected to the pipes 10 in the walls 3 and to the pipes 9 in the ceiling 2 by means of the pipes 12 with shutters 13. In addition, the pipes 11 located under the floor 4 are connected to the product room 1 by means of pipes 14 with shutters 15, the heat exchanger also contains sections of pipes 16 located within the thickness of the insulating layer, which are made of a material having a low coefficient of thermal conductivity, for example, of wood. The warehouse has a vestibule 17.

 In winter, they turn on fan 8 and cold air is driven through the pipes 9, 10, 11 of the heat exchanger, the cooling process is in all parts of the warehouse, including the ceiling 2. The horizontally located pipes 9, 10, 11, converging in a bundle in the chamber of fan 8, successfully fit into the dimensions of the warehouse and create good aerodynamics of the internal volume of the heat exchanger, which will allow the use of a small power drive, for example a wind engine, for operation of fan 8. After charging the warehouse with cold, sections of pipes 16 made of wood are filled with heat-insulating material to improve the insulation of ice from external heat. If necessary, cold air is also supplied to the product room 1, for this, open the shutter 15 of the pipes 14 and turn on the fan 8, while the openings of the wooden pipes 16 must be closed. In this case, air is supplied by the fan 8 by injection.

 In summer, when the temperature of the ice of walls 3 and floors 2 increases, the damper 13 of the pipe 12 is opened, the fan 8 is turned on, blocking the access of warm air from the outside, and due to internal circulation, cold air is supplied from the pipes 11 of the underground array to the pipes 9,10 located in floors 2 and walls 3 of the warehouse. A few periodic inclusions lower the temperature of the ice walls 3 and floors 2. If necessary, lower the air temperature in room 1, close the valve 13 of the pipe 12, open the valve 15 of the pipe 14 and supply cold air with a fan 8 to the room 1 of the products. The low temperature of the ice massif in summer is ensured by the fact that the underground part of the warehouse is better than walls 3 and the ceiling 2 can be insulated from external heat and the size of the ice massif under floor 4 can be made quite powerful and with a large supply of cold.

 This invention not only allows the warehouse to be charged with natural cold in winter without removing the heat-insulating layer and without unloading products from the warehouse, but also creates a more favorable temperature regime for the operation of the warehouse, ensuring the safety of wall ice, flooring, flooring and thereby delay the time for ice freezing. In addition, it is possible to reduce and even eliminate the consumption of salt, which is widely used in the practice of storing products in ice warehouses to lower the room temperature by mixing it with ice. The expense and labor costs during the operation of the warehouse are reduced, its reliability and safety are increased.

Claims (3)

 1. Warehouse for storing products, containing a room for products, a fence made of frozen material, for example, from ice and including a ceiling, walls and floor, a heat-insulating layer, a fan, a heat exchanger from pipes located in the walls and under the floor, characterized in that the heat exchanger contains additional metal pipes located in the ceiling, while the pipes in the enclosure are horizontally placed and connected by a bundle in the fan chamber, and the pipes located under the floor are connected to the pipes in the walls and erekrytii by pipes with valves.  2. The warehouse according to claim 1, characterized in that the pipes of the heat exchanger located under the floor are connected to the storage room for products through pipes with dampers.  3. The warehouse according to claim 1, characterized in that the heat exchanger contains sections of pipes placed within the thickness of the insulating layer, which are made of a material having a low coefficient of thermal conductivity, such as wood.

Images