SU977328A1 - Aerodynamic of conveying loose materials - Google Patents

Description

(54) AERODYNAMIC DEVICE FOR TRANSPORTATION OF BULK MATERIALS

The invention relates to pneumatic conveying, namely to aerodynamic KIM devices for transporting bulk materials, and can be used to transport grain, pelleted feed and other materials. A known airwave for unloading grain contains a blower machine, an air supply and transport channels separated by an air distribution grille, a device for overwriting the non-working part of the air distribution grille in the form of an elastic membrane and a feed funnel located at the beginning of the groove J. However, this airbrush is designed to move the grain fed to the transport channel through the discharge funnel located at its beginning. Such a chanel is not effective when moving the grain fed into the transport channel in different places along the length. If the grain is fed into the transport channel at any (not the initial location), then the portion of the air distribution grill located to the loading point is bare, i.e. not covered by the material being transported, and is a zone of idle air passage. Consequently, the air consumption and energy intensity of the process of transportation of air.and increase. An aerodynamic device for transporting bulk materials is known, comprising a conveying channel in communication with a source of compressed air, an air-distributing channel and an air-permeable partition installed between them with a device located under it for blocking its flow area 2. However in the form of a section that does not allow to smoothly regulate the supply of compressed air. The purpose of the invention is to reduce energy consumption by expanding the range of adjustment of the compressed air supply. The goal is achieved by the fact that in an aerodynamic device for transporting bulk materials, the device for blocking the flow area of an air-permeable partition is designed as capable of mixing along the last flexible tape fixed at one end on the compressed air supply side and having a length greater than the length of the air-permeable partition.

: FIG. 1 shows the proposed device, a general view) in FIG. 2 1Eid along arrow A in FIG. one; on fig.Ssechenie bb in figure 1.

The device contains a transport channel 1, communicated with a source of compressed air through an air inlet pipe 2, an air-distributing channel 3, an air-permeable partition 4, and a device for blocking its flow section, made in the form of a flexible tape 5, one end of which is connected to cable b, and the second attached to the drum 7 of the drive 8. The second end of the cable b is fixed on the drum 9 of the drive 10. The tape has the ability to move in the guides 11 along the air-permeable partition 4. Places for entering the flexible tape and cable into the air duct 3 sealed.

The device works in the following way.

If the material to be transported is to be fed into the transport channel 1, for example, in the middle part thereof, then the part of the device from the beginning to the loading point is inoperative. In order to prevent idle passage of air through the air-permeable partition 4 in this non-working area, it should be blocked with tape 5. In this case, if tape 5 is to the left of the material feed point, drive 10 is put into operation, which, winding cable 9 on drum 9, moves tape 5 to the right. The tape should be moved until it covers the entire non-working part of the air-permeable partition 4. So that the actuator 10 is turned off and compressed air is fed through the air inlet 2, which passes only through the open part of the air-permeable partition 4, aerates and moves material from the transport channel to the discharge opening.

To move the belt in the opposite direction, a drive device is activated. The tape 5 at the same time is wound onto the drum 7. With the help of the drives 8 and 10, the tape 5 can be installed at any place depending on the place where the material is fed into the transport channel 1 and thus block the non-working part of the air-permeable partition, i.e. reduce

idle air flow and, consequently, the energy intensity of the gutter as a whole.

Claims (2)

1. USSR author's certificate 568581, cl. In 65C, 53/16, 1977. 2. USSR author's certificate No. 740651, cl. B 65 G 53/18 1976. Fig.T. Bb four.