RU170898U1 - GRAIN WITH MULTILEVEL VENTILATION SYSTEM - Google Patents

Abstract

The utility model relates to grain storage facilities. A granary with a multilevel ventilation system is designed to prevent self-heating and spontaneous combustion of grain during storage. A granary with a multilevel ventilation system consists of perforated pipes with temperature sensors, axial fans fixed at the ends of each pipe. Loading grain into the granary is carried out by trucks from the overpass. After loading the grain into the granary by trucks from the overpass, when storing grain, if the temperature rises to the set value, the axial fan located at the end of the perforated pipe on which the temperature sensor triggered is automatically turned on. After cooling the grain mass to the required temperature, the sensor is activated and the axial fan turns off. If several sensors fix the temperature increase to the set value, then several axial fans located at the ends of the corresponding pipes are turned off. The fans also turn off independently of each other when the grain mass is cooled to the required temperature. Thus, the grain is prevented from self-heating and self-ignition during storage.

Description

The utility model relates to grain storage facilities. A granary with a multi-level ventilation system is designed to prevent self-heating and spontaneous combustion of grain during storage.

A known installation for venting and unloading grain materials in granaries with a horizontal floor, containing a fan, a main discharge channel and air distribution channels with slotted holes in the side walls, which is equipped with a centrally located box, in the lower part of which there are discharge openings for unloading grain material and an unloading is installed a mechanical conveyor, for example a scraper conveyor, and in the upper one, isolated anal. The air distribution channels are connected to the main discharge channel, each, by means of a flexible hose and installed, each, with the possibility of rotation in a horizontal plane relative to the ball joint [RF patent for the invention No. 2205783, publ. 06/10/2003, bull. No. 16].

The disadvantages of this installation are the single-level arrangement of the air distribution channels and the presence of a main discharge channel, which makes it impossible to create a large layer of ventilated grain in the granary and forms unnecessary pressure losses, and, therefore, increases the energy consumption for ventilation of the grain mass.

A known system of ventilation of a grain embankment containing air preparation and supply equipment, pipelines and air distribution grilles, characterized in that it further comprises a static pressure chamber located under the grain mass over its entire area with a pressure equal to the resistance to air flow of the grain layer [application for invention No. 95120994, publ. 02/27/1998].

The disadvantages of this system are the single-level arrangement of pipelines and the presence of a static pressure chamber, which makes it impossible to create a large layer of ventilated grain mass and increases the energy consumption for ventilation.

The technical result of the utility model is to prevent self-heating and spontaneous combustion during storage by reducing the temperature of the grain to the desired value.

The technical result of the utility model is solved by using a granary with a multilevel ventilation system, characterized in that it contains perforated pipes located across the granary at various levels and evenly distributed along its length, with temperature sensors and individual axial fans placed on them.

The use of a granary with a multi-level ventilation system with a multi-level system of perforated pipes will reduce the temperature of the grain during storage, which is necessary to prevent self-heating and spontaneous combustion, as well as reduce energy consumption by including only the fans necessary for cooling the grain.

Thus, the proposed technical solution meets the criterion of "significant differences" and ensures the achievement of a positive effect, indicated by the purpose of the utility model.

In FIG. 1 schematically depicts a granary with a multi-level ventilation system. Structurally, the granary 1 with a multi-level ventilation system consists of perforated pipes 3 with temperature sensors 4, axial fans 5, fixed at the ends of each of the pipes. The loading of grain into the granary is carried out by trucks from overpass 2.

In FIG. 2 shows a granary with a multilevel ventilation system in section.

A granary with a multi-level ventilation system operates as follows. After loading the grain into the granary by freight transport from the overpass, when storing the grain, if the temperature rises to the set value, the axial fan located at the end of the perforated pipe on which the temperature sensor worked is automatically turned on. After cooling the grain mass to the required temperature, the sensor is activated and the axial fan turns off. If several sensors fix the temperature increase to the set value, then several axial fans located at the ends of the corresponding pipes are turned off. The fans also turn off independently of each other when the grain mass is cooled to the desired temperature.

Thus, the prevention of self-heating and spontaneous combustion of grain during storage.

Claims (1)

Granary with a multi-level ventilation system, characterized in that it contains perforated pipes located across the granary at different levels and evenly distributed along its length, with temperature sensors and individual axial fans placed on them.

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