RU79877U1 - INSTALLATION FOR TRANSPORTATION AND ACTIVE VENTILATION OF SEEDS AND GRAIN - Google Patents

Abstract

The utility model relates to agriculture. Installation for transportation and active ventilation of seeds and grain contains the main transporting (1) and side (2) air distribution channels. The air pumped by the fan (6) passes into the channels (1) and (2) and exits through the openings (5) of the hemispherical shape of the gratings (3) and (4) into the grain embankment, aerating it from the bottom up. The technical result of the utility model is an increase in the flow of air passing through the openings of the perforated gratings and a reduction in energy consumption. 4 of FIG.

Description

The proposed utility model relates to agriculture, namely to the field of active ventilation and pneumatic transportation of bulk materials.

Known installations for transporting and actively ventilating seeds and grain, consisting of a central, lateral air distribution channels, equipped with perforated partitions with openings for air outlet, blower fan (see RU No. 2137692, B65G 53/20, 09.20.1999; RU No. 2144898, B65G 53/20, 01/27/2000 g).

The disadvantage of these installations is the limited passage of air flow through the openings due to the small coefficient of live section and the small area of the channels, increased energy consumption.

Closest to the technical nature of the claimed utility model is selected as a prototype installation for ventilation and transportation of bulk materials containing separated by grilles transporting the main and side air distribution channels. At the same time, holes for air passage are punched in adjacent walls of the transporting main and additional air distribution channels. The holes are rectangular in shape, the upper edge of which is bent at a certain angle to the horizontal. The unit operates in active ventilation and pneumatic unloading modes. In pneumatic discharge mode, air is pumped under the grill and exits through open

rectangular holes and rushes to the outlet, dragging along the grain located on the perforated grate. (Auth. St. USSR No. 1022913, B65G 53/20, 1982).

The main disadvantage of this installation is the high aerodynamic drag of the grating, which arises not only because of the small coefficient of live section of rectangular openings K _fs , (for the transporting main K _f.c = 0.034 ± 0.002, side air distribution channels K _f.c = 0.068 ± 0.0025), but also of their very configuration, as a result of which air in a limited amount passes through the grain embankment both in the active ventilation mode and in the pneumatic discharge mode. The live section coefficient is a number expressing the ratio of the area of all openings in the grating to the area of the grating itself without openings.

The technical task of the utility model is to increase the coefficient of living cross section by changing the configuration of the holes, as a result of which the flow of air through them increases and the energy consumption decreases.

The technical result of the utility model is to increase the flow of air passing through the openings of the perforated gratings and reduce energy consumption.

The specified technical result is achieved by the fact that in the installation for transporting and ventilating seeds and grain containing perforated grilles conveying the main and side air distribution channels, the blower fan, according to a utility model, the holes in the perforated grilles are made hemispherical with a living cross-section coefficient K _{w. c} = 0.12 ± 0.002 and K _railways = 0.24 ± 0.0025, respectively, for the main conveying and side air distribution channels.

Distinctive features of the claimed utility model is the implementation of air distribution holes in perforated

hemispherical lattices, which increases the coefficient of living section. As a result, 3.5 times more air passes through the inventive openings compared to the prototype.

Thus, the distinguishing features of the claimed utility model provide an increase in air flow, a reduction in the process of active ventilation and transportation, which ultimately reduces energy consumption.

The utility model is illustrated by drawings, in which Fig. 1 schematically depicts the inventive installation, Fig. 2 is a view A-A of Fig. 1, Fig. 3 schematically shows a view of hemispherical holes, and Fig. 4 is a view of rectangular holes (in prototype).

Installation for transportation and active ventilation of seeds and grain (see figure 1) contains the main transporting 1 and side 2 air distribution channels. Channels 1 and 2 are equipped with perforated gratings 3 and 4 with openings 5 for air outlet (see figure 2). Holes 5 in the gratings 3 and 4 are made hemispherical in shape with a coefficient of live section K _z = 0.12 ± 0.002 and K _z = 0.24 ± 0.0025, respectively, for the main conveying and side air distribution channels. The number of holes in the side air distribution grilles is 2 times more than the holes in the main conveying grill, which is associated with the technological mode of ventilation, respectively, the coefficient of live section increases. The unit is equipped with a blower fan 6 and an outlet pipe 7.

Figure 3 shows a hemispherical hole, and figure 4 - a rectangular hole on a known (prototype) perforated lattice. As can be seen from FIGS. 3 and 4, the hemispherical holes provide a larger air flow (see FIG. 3) than the rectangular holes (see FIG. 4).

Installation works as follows.

The air pumped by the fan 6 passes into the main conveying 1 and side 2 air distribution channels and exits through the openings 5 of a hemispherical shape in the gratings 3 and 4 into the grain embankment, aerating it from the bottom up (in the active ventilation mode). In the pneumatic conveying mode, the lateral air distribution channels 2 are closed, the air leaving the holes in the hemispherical shape 5 of the main conveying channel 1, rushes towards the outlet pipe 7 in a directed flow, dragging the grain along with it.

Claims (1)

Installation for transporting and actively ventilating seeds and grain, containing transporting main and side air distribution channels equipped with perforated gratings, a blower fan, characterized in that the holes in the perforated gratings are made hemispherical in shape with a coefficient of live section K _w.s = 0.12 ± 0.002 and K _w.c = 0.24 ± 0.0025, respectively, for the main conveying and side air distribution channels.