RU207177U1 - DRYER - Google Patents

Abstract

The utility model is intended for drying food, fodder and seed grains of cereals, cereals, and other cereals. The technical result of the utility model is to provide regulation and control of the heating temperature of the drying agent. The technical result achieved is achieved by the fact that the air duct between the heating rotor and the drying shaft has dampers for it communicates with atmospheric air, and a temperature sensor is installed at the entrance to the drying shaft, connected to the drive of the dampers. The dryer operates as follows. The grain is fed by a loading auger conveyor to the grain bin and then enters the drying shaft. The heating rotor heats the pre-heated drying agent from the heat exchanger and feeds it into the air duct. From the temperature sensor, the flap drive takes the temperature of the drying agent and accordingly changes the position of the flaps, which leads to the regulation of the amount of atmospheric air sucked in to the drying agent, and, accordingly, to the regulation of its temperature relative to the set value. Further, the drying agent heats the grain in the drying shaft, is saturated with moisture evaporated from the grain and is removed through an additional heating rotor into the heat exchanger, where it gives up its heat to the atmospheric air entering there, which is used as a drying agent. The dried grain enters the pneumatic conveyor and is sent to the discharge cyclone.

Description

The utility model is intended for drying food, fodder and seed grains of cereals, cereals, and other grain crops.

Known dryer (Patent for utility model RU No. 192350, Russian Federation, F26B 9/06, F26B 3/28, F26B 21 / Dryer / A.I. Kupreeenko, Kh.M. Isaev, S.Kh. Isaev; 09/13/2019 , Bul. No. 26), containing a heat-insulated chamber, "heating rotor of a centrifugal fan, heat exchanger.

The disadvantage of this dryer is its periodic operation and, therefore, its low productivity.

The closest to the claimed solution is a dryer (Patent for utility model RU No. 196966, Russian Federation, F26B 17/12; F26B 21/04 / Dryer / A.I. Kupreenko, T.V. Panova, M.V. Panov, 23.03 .20, Bulletin No. 9), containing a drying shaft, a grain bin with a loading cyclone, a loading screw conveyor and an unloading cyclone, a pneumatic conveyor, a heating rotor, a heat exchanger with an additional heating rotor.

The disadvantage of this dryer is the lack of the ability to regulate and control the heating temperature of the drying agent.

The technical result of the utility model is to provide regulation and control of the heating temperature of the drying agent.

The technical result achieved is achieved by the fact that the air duct between the heating rotor and the drying shaft has dampers for communicating it with atmospheric air, and a temperature sensor connected to the damper drive is installed at the entrance to the drying shaft.

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.

FIG. 1 shows a diagram of the movement of grain in the dryer, in Fig. 2 is a diagram of the movement of the drying agent in the dryer.

The dryer contains a drying shaft 1, a grain bin 2 with a loading cyclone 3, a loading screw conveyor 4 and an unloading cyclone 5, a pneumatic conveyor 6, a heating rotor 7, a heat exchanger 8 with an additional heating rotor 9.

The air duct 10 between the heating rotor 7 and the drying shaft 1 has dampers 11 for communicating it with atmospheric air, and a temperature sensor 12 is installed at the entrance to the drying shaft 1, connected to the drive 13 of the dampers 11.

The dryer works as follows. The grain is fed by the loading screw conveyor 4 into the grain bin 2 and then enters the drying shaft 1. The heating rotor 7 heats the pre-heated drying agent coming from the heat exchanger 8 and feeds it into the air duct 10. From the temperature sensor 12, the drive 13 of the flaps 11 takes the value temperature of the drying agent and accordingly changes the position of the dampers 11, which leads to the regulation of the amount of atmospheric air sucked in to the drying agent, and, accordingly, to the regulation of its temperature relative to the set value. Further, the drying agent heats the grain in the drying shaft 1, is saturated with moisture evaporated from the grain and is removed through an additional heating rotor 9 into the heat exchanger 8, where it gives up its heat to the atmospheric air entering there, which is used as a drying agent.

The dried grain enters the pneumatic conveyor 6 and goes to the discharge cyclone 5.

Sources of information:

1. Patent for utility model RU No. 192350, Russian Federation, F26B9 / 06, F26B 3/28, F26B 21 / Dryer / A.I. Kupreeenko, H.M. Isaev, S.Kh. Isaev; 13.09.2019, Bul. No. 26.

2. Patent for utility model RU No. 196966, Russian Federation, F26B 17/12; F26B 21/04 / Dryer / A.I. Kupreeenko, T.V. Panova, M.V. Panov, 23.03.20, Bul. No. 9.

Claims (1)

A dryer containing a drying shaft, a grain bin with a loading cyclone, a loading auger conveyor and an unloading cyclone, a pneumatic conveyor, a heating rotor, a heat exchanger with an additional heating rotor, characterized in that the air duct between the heating rotor and the drying shaft has dampers for communicating it with atmospheric air , and a temperature sensor connected to the damper drive is installed at the entrance to the drying shaft.

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