RU2424647C2 - Device to dry agricultural fodder - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention is related to agriculture, namely, to methods of grassy fodders stocking. The device for drying of agricultural fodder comprises a ventilation frame connected to a fan, which has an injection nozzle equipped with a bleed having curvilinear grooves, a polymer coating of fodder, having a gap. A suction nozzle of the fan is located in the gap. The nozzle body is made of bimetal, and curvilinear grooves have profile in the form of dovetail and change into a circular groove arranged on the inner surface of the nozzle behind the input hole. In the lower part of the circular groove there is a dirt collector. The fan is equipped with a drive with a speed controller in the form of a unit of powder electromagnet couplings and a temperature controller with a temperature sensor. The temperature controller includes a comparison unit and a setting unit. The comparison unit is connected to an input of an electronic amplifier equipped with a unit of non-linear feedback. The output of the electronic amplifier is connected to the input of the magnetic amplifier with a rectifier, which at the input is connected to the speed controller in the form of a unit of powder electromagnetic couplings of the fan drive. The temperature sensor is located in the ventilation channel.

EFFECT: optimisation of power inputs with account of environment conditions variation.

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Description

The invention relates to agriculture, and in particular to methods of harvesting grassy feed.

A device for drying agricultural feed containing a ventilation cage connected to the discharge pipe of the fan, a polymer coating of the feed with the formation of a gap in which the suction pipe of the fan is placed, in addition, a nozzle having curved grooves is installed on the discharge pipe of the fan (A.S. No. 1628936 , publ. 09/23/91, bull. No. 4).

The disadvantage of this device is the energy consumption of the drying process of agricultural feed due to the lack of the ability to control the power consumed by the fan to supply air to the ventilation circuit under changing weather and climate conditions of exposure to ambient temperature.

A device for drying agricultural feed (patent for the invention No. 2193303, IPC A01F 25/00, 25/08, publ. 11/27/2002), containing a ventilation frame connected to a fan having a discharge pipe, equipped with a nozzle with curved grooves, a polymer coating a feed having a gap in which the suction pipe of the fan is located, the nozzle body made of bimetal and the curved grooves having a dovetail profile and passing into an annular groove located on the inner surface of the nozzle behind the inlet, while at the bottom of the annular groove is a collection of contaminants.

The disadvantage of this device is the energy consumption of the drying process of agricultural feed due to the lack of the ability to control the power consumed by the fan to supply air to the ventilation circuit under changing weather and climate conditions of exposure to ambient temperature.

The technical task of the invention is to optimize the power consumption for the fan drive of the device for drying agricultural feed at varying ambient temperatures by automating the control process and the interaction between the rotation speed of the fan drive, respectively, its energy consumption and weather and climate conditions.

The technical result of reducing energy costs is achieved by the fact that the device for drying agricultural feed containing a ventilation frame connected to a fan having a discharge pipe provided with a nozzle with curved grooves, a polymer coating of the feed having a gap in which the fan suction pipe is placed, while the housing the nozzles are made of bimetal, and the curved grooves have a dovetail profile and pass into an annular groove located on the inner surface with opla behind the inlet, while in the lower part of the annular groove there is a dirt collector, and the fan is equipped with a drive with a speed controller in the form of a block of powder electromagnetic couplings and a temperature controller with a temperature sensor, while the temperature controller includes a comparison unit and a reference unit, and the comparison unit connected to the input of an electronic amplifier equipped with a nonlinear feedback unit, and the output of the electronic amplifier is connected to the input of a magnetic amplifier with a rectifier, which at the input dklyuchen to the speed controller as a block of powder electromagnetic fan drive couplings, moreover the temperature sensor is arranged in the ventilation duct.

Figure 1. shows a device for drying agricultural feed, figure 2 - section aa in figure 1, figure 3 - section bb in figure 1.

A device for drying agricultural feed contains a ventilation frame with a channel 1 connected to a fan 2 by means of a discharge pipe 3 on which a subsonic nozzle 4 is mounted. The nozzle body 4 is made of bimetal and has longitudinally located from inlet 5 to outlet 6 on the inner surface curved grooves 7 having a dovetail profile and turning into an annular groove 8. The annular groove 8 is located behind the inlet 5 of the nozzle 4 and is connected in its lower part to a collection of contaminants 9. The ventilation frame is installed on the site 10, the stack 11 is placed on the frame, sheathed with a polymer material, for example elastic film 12, with a gap 13 to the site 10. The suction pipe 14 of the fan 2 is connected to the gap 13.

The fan 2 is equipped with a drive 15 with a speed controller 16 in the form of a block of powder electromagnetic couplings and a temperature controller 17 with a temperature sensor 18. Moreover, the temperature controller 17 includes a comparison unit 19 and a reference unit 20, and the comparison unit 19 is connected to the input of an electronic amplifier 21 equipped with a nonlinear feedback unit 22, and the output of the electronic amplifier 21 is connected to the input of the magnetic amplifier 23 with a rectifier, which is connected to the speed controller 16 in the form of a block of powder electromagnetic couplings at the output 15 rivoda fan 2 further temperature sensor 18 is disposed in the fan duct.

The device operates as follows. The air supply to the ventilation duct 1 is carried out by the fan 2 through the discharge pipe 3, on which a subsonic nozzle 4 with curved grooves 7 on the inner surface is mounted. The purge air, passing a subsonic nozzle 4 with curved grooves 7, is twisted.

In the gap 13, the air saturated with moisture condensed and removed from the stack has a temperature close to the ambient temperature, which is detected by the temperature sensor 18, the air temperature in the gap is assumed to be normalized (for example, 20 ° С) depending on the weather and climate conditions of the device according to which, taking into account the optimization, the rotation speed of the drive 15 of the fan 3 is adjusted based on the minimization of energy costs for the drying process of agricultural feed. When the air temperature in the gap 13 deviates to the side of decreasing, the signal from the temperature sensor 18 becomes smaller than the signal of the reference unit 20, and a signal of positive polarity appears at the output of the comparison unit 19, which arrives at the input of the electronic amplifier 21 simultaneously with the negative nonlinear signal reverse communication 22. Due to this, the non-linearity of the characteristics of the drive 15 of the fan 2 is compensated in the electronic amplifier 21. The signal from the output of the electronic amplifier 21 is fed to the input of the magnetic amplifier 2 3, where it is amplified by power, it is rectified and fed to the speed controller 16 in the form of a block of powder electromagnetic couplings. The positive polarity of the signal of the electronic amplifier 21 causes an increase in the excitation current at the output of the magnetic amplifier 23.

As a result, the moment from the drive 15 increases and the fan 2 increases the air supply to the fan channel 1 through the stack 11, dries the feed and enters the gap 13 formed by the upper layer of the stack 11 and the inner surface of the elastic film 12, where the moisture removed condenses. From the gap 13, the exhaust air through the suction pipe 14 is directed to the fan 2 and then through the discharge pipe 3 and the subsonic nozzle 4 into the ventilation duct 1, resulting in a recirculation loop, with an increased temperature due to the number of micro-eddies in the volume of the stack under the influence of increased temperature pressure on elements of streamlined dried agricultural feed due to the heat of friction (see, for example, p. 235, P. Choi. Methods for calculating individual heat and mass transfer problems, M., Energy, 1971, - 384 p.). The air temperature of the recirculation loop is increased until a normalized temperature is reached (for example, 20 ° C).

When the air temperature in the gap 13 deviates upward compared to the normalized one, the signal from the temperature sensor 18 becomes larger than the signal from the reference unit 20, and a negative polarity signal appears at the output of the comparison unit 19, which is fed to the input of the electronic amplifier 21 simultaneously with a negative nonlinear feedback signal 22.

Due to this, in the electronic amplifier 21, the non-linearity of the characteristics of the drive 15 of the fan 2 is compensated. The signal from the output of the electronic amplifier 21 is fed to the input of the magnetic amplifier 23, where it is amplified by power, rectified and fed to the speed controller 16 in the form of a block of powder electromagnetic couplings. The negative polarity of the signal of the electronic amplifier 21 causes a decrease in the excitation current at the output of the magnetic amplifier 23. As a result, the moment from the drive 15 decreases and the fan 2 reduces the air supply to the fan channel 1, followed by a decrease in the temperature of the recirculation loop.

The originality of the invention lies in the fact that when operating in varying weather and climatic influences of the environment, it allows maintaining the most rational drying mode of agricultural feed while optimizing energy consumption for the fan drive by supplying the drying device with a speed controller in the form of a block of powder electromagnetic couplings with a temperature sensor and a temperature controller based on electronic units and a magnetic amplifier acting on the controller rotation speed.

Claims (1)

A device for drying agricultural feed containing a ventilation cage connected to a fan having a discharge pipe provided with a nozzle with curved grooves, a polymer coating of the feed having a gap in which the suction pipe of the fan is located, while the nozzle body is made of bimetal, and the curved grooves have profile in the form of a "dovetail" and pass into the annular groove located on the inner surface of the nozzle behind the inlet, while in the lower part of the annular groove p a collection of contaminants is located, characterized in that the fan is equipped with a drive with a speed controller in the form of a block of powder electromagnetic couplings and a temperature controller with a temperature sensor, while the temperature controller includes a comparison unit and a reference unit, and the comparison unit is connected to the input of an electronic amplifier equipped with a nonlinear unit feedback, and the output of the electronic amplifier is connected to the input of the magnetic amplifier with a rectifier, which at the input is connected to the speed controller in the form of a block of powders of the electromagnetic clutch of the fan drive, in addition, the temperature sensor is located in the ventilation duct.

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