SU887377A2 - Air-gravity device for airing and conveying loose materials - Google Patents

Description

The invention relates to the field of pneumatic conveying and can be used to actively ventilate and transport bulk materials, such as grains, in bunker and floor warehouses, as well as to move mid-sized building materials. Basically auth. St. W 688399 described an aero-gravitational device for ventilating and transporting bulk materials, containing an air inlet and transport channels, separated by a louvre grille, and, in the transport chute, a grid was installed with an elastic junction grid with a gap, a grid, fitted with resilient connecting elements, with single junction grid with a gap, a grid, fitted with elastic connecting elements, one end of the jalousia with a gap, a grid, fitted with elastic connecting elements, one ends of the jalousie grille, a grid with elastic connecting elements, one end of which, the ends of the body were fitted with elastic connecting elements with single junction grid with a gap, a grid installed, with elastic connecting elements, one end of the junction grid with a junction louvre grid, with elastic connecting elements. mounted on the side walls of the transporting billow. The disadvantages of the known device are as follows. , To improve the performance of such a device with a flat load, the existing surface of the transport chute. usually increase its LJH rinu, since performance is necessary to determine the expression of the form: where is the performance of a known device with a chute width B. | . width of the newly designed device for productivity 02 It is possible to increase the performance of the gouge by changing the height of the layer of aerated material, however the power consumption of the installation sharply increases because .., 1 uPa ha where uR | ilr2- loss of pressure (respectively, with productivity b and (a) in the layer of transported bulk material. Increasing the width of the chute causes deflection of the grid and deformation of the blinds, which, in turn, causes a violation of the gaps between certain parts of the blinds, and this entails a violation mode of operation. When

deformation of the louver air flow, penetrating the loose mass from the bottom upwards at a certain angle to the horizontal plane, deviates from the axial longitudinal line of the trench, displaces the material to its sidewalls, which causes an increase in resistance to movement due to the friction of the material particles on the sidewalls.

In rectangular-shaped slits, the airflow rate in the border areas with sidewalls and in the corners has a lower value and the velocity field is a parabola with a maximum speed value along the central axial line and zero at the sidewalls and in the corners. Therefore, in air-gravitational devices with a flat surface of a louvered grille, the air flow is drawn along a limited surface and volume, which together reduces the fraction of the force of the living air flow in the message to the moving particles of an additional amount of motion.

The aim of the invention is to increase the productivity and uniformity of the distribution of the air flow along the load-carrying surface of the transport chute.

The goal is achieved by the fact that in an aerogravitational device according to the author. 688399, the louvered grille is made in a cross section of a U shape, the cross section of each of its slits having a height decreasing from the center to the edges.

On F1 | g. 1 shows an airborne gravitational device for venting and transporting bulk materials; a general view; FIG. 2 is a section along the line A-A in FIG. one.

The airborne gravity unit comprises an air inlet groove 1 with walls 2, a louvered grill 3 transporting the groove 4 with inclined side walls 5 in which a grid b is installed above the lattice 3. To block the discharge opening of the chute 4, a shutter 7 serves. The grid is attached to the walls 5 by means of elastic elements 8 and bends around the i-shaped surface of the louvre grille 3. A fan 9 serves to feed the air into the yellow - 1. Kra m

Airborne gravitational device during transportation of material works as follows.

When the fan impeller 9 rotates, the air in the air inlet

Trench 1 receives a directional arc-like movement under grid 6 by making arcuate slots. When the valve 7 is open, the material is unloaded from the side of the valve, then the unloading zone shifts towards the operating fan, the main mass of the material moves along the axial line of the load-carrying chute, thereby reducing the possible lateral displacements of the material and, most importantly, the amount of friction of the material particles decreases. sloping sides 5.

In the case of movement of a medium-sized material with particle sizes of 40-80 mm, when they are prevented from passing between the louvers into the air inlet chute, the mesh b with elastic elements 8 is removed.

In this case, under the action of the pressure of compressed air jets discharging arcuately through the slits of the lattice, the lumpy material is covered over a larger surface and volume by airflow, which contributes to reducing the friction of the material against the surface of the louver grille, reducing energy intensity and increasing productivity.

The use of the invention will allow to increase productivity during unloading by 1.7 times, to reduce friction losses, to reduce energy costs without increasing the size of the airway of the hopper and transport chutes, to provide the possibility of transporting lumpy materials with particle sizes of 4080 mm, weight 30-120 g. .

Claims (1)

Invention Formula Airborne gravity device for ventilation and transportation of bulk materials by ed. St. No. 688399, characterized in that, in order to increase the productivity and uniformity of the distribution of the air flow along the load-carrying surface of the transport chute, the louver grille is made in a cross section of O-circumform, of different shape, each cross section of which has a decreasing shape from the center to the edge m height. Information sources, 5 taken into account in the examination 1. USSR author's certificate. W 688399, cl. In 65 G 53/20, 1978 (prototype).