SU1596186A1 - Method of controlling air blower of suction pneumatic transport installation - Google Patents

Abstract

The invention relates to the technique of automatic control of blowers of suction pneumatic conveying installations and reduces the energy consumption for transporting material. The method consists in that the frequency of rotation of the motor of the installation is controlled in proportion to the square root of the vacuum value before the blower. 1 il.

Description

The invention relates to a technique for automatically controlling blowers of suction pneumatic conveying installations.

The purpose of the invention is to reduce energy consumption.

The drawing shows a functional diagram of a device for implementing a method for controlling a blower of an exhausted pneumatic conveying installation.

The device for controlling the blower contains a pressure sensor 1 connected by a feedback line 2 to the input of the controller 3 connected by an output to the frequency converter 4 of the supply voltage of the electric motor 5 of the blower 6. In addition, the device contains nozzles 7 connected by sleeve 8 and the cork valve 9 , to the pipeline 10, and the block 11 of air purification and material separation.

The device works as follows. The harvested material is taken away by the nozzle 7 and transported through the sleeve 8,

open plug valve 9 and pipe 0 into separation unit 11, where it is trapped and purified air enters blower 6. When the nozzle is working on clean air, the resistance of the system is relatively small and the negative overpressure (vacuum) before the blower is minimal. When the nozzle enters the accumulation of material, its input cross section decreases, and the hydraulic resistance of the system increases. As a result of an increase in the concentration of the material in the two-phase flow, the amount of vacuum in the installation increases. At the same time, the signal from pressure sensor 1 via feedback 2 enters the controller 3, which extracts the square root of this signal and issues a command to converter 4 for a corresponding increase in the rotation frequency of the electric motor 5 of the blower 6. The vacuum pressure in the network increases until equilibrium is established, those. when the vacuum of the blower is sufficient to stabilize the process of sucking the transport of the material.

ate with

00

about:

After cleaning up the accumulation of material and reducing its concentration in the flow, the network resistance decreases, which is detected by pressure sensor 1, the signal from which is transmitted via feedback 2 to controller 3, issuing a command to reduce the rotation frequency of the electric motor 5. The rotation frequency of the blower 6 decreases until it reaches equilibrium required less vacuum in the network. At the same time, the power consumed by the electric motor 5 decreases in a cubic dependence on the rotational speed. Thus, the most favorable control mode of the blower is provided.

depending on any distribution of the material being harvested.

Claims (1)

Claims The method of controlling the blower of a suction pneumatic conveying installation is that the negative overpressure of the air before the blower is measured and functionally dependent on the measured pressure regulates the frequency of rotation of the blower motor, characterized in that, in order to reduce energy consumption, the functional relationship is in the form of square root of pressure value. ll