RU2011141325A - IMPROVED DEVICE FOR COATING PARTICLES IN A NEW METHOD BY USING A VORTEX AIR FLOW GENERATOR - Google Patents

Abstract

1. An improved technological device for coating particles based on a new model of a vortex generator (4) of air flows, intended for coating in the form of a solution or dispersion on the surface of particles, in which the inner wall (1) is equipped with one block or a number of blocks, each block consists of a vortex generator (4) of the air flow, enclosed by a gas distribution plate (3) and a separation cylinder (5), with at least one single or multiphase spray nozzle (6) with an inlet for the coating solution / substance in a dispersed state inserted through the central hole of the vortex airflow generator, and in the case of a multiphase spray nozzle, with a supply pipe for compressed air, while the particles move upward along a circular path through the separation cylinder (5) and down to the area outside the separation cylinder, characterized in that: the gas vortex generator (4) is attached to the distribution plate (3) in the area under the separation cylinder (5) in such a way m, that at least two axisymmetric walls have an arrangement, forming at the intersection imaginary flat surfaces perpendicular to the rotational axis of symmetry of these walls and the space bounded by these walls, in the form of an annular slot, and these walls in the area under the separation cylinder (5) form an annular the gap between the distribution plate (3) and the nozzle (6), and these walls enclose the space inside which partitions (18) are installed to create a vortex gas flow, and gas

Claims (20)

1. An improved technological device for coating particles based on a new model of a vortex generator (4) of air flows, intended for coating in the form of a solution or dispersion on the surface of particles, in which the inner wall (1) is equipped with one block or a number of blocks, each block consists of a vortex generator (4) of the air flow, enclosed by a gas distribution plate (3) and a separation cylinder (5), with at least one single or multiphase spray nozzle (6) with an inlet for the coating solution / substance in a dispersed state inserted through the central hole of the vortex airflow generator, and in the case of a multiphase spray nozzle, with a supply pipe for compressed air, while the particles move upward along a circular path through the separation cylinder (5) and down to the area outside the separation cylinder, characterized in that: the gas vortex generator (4) is attached to the distribution plate (3) in the area under the separation cylinder (5) in such a way that at least two axisymmetric walls have an arrangement that forms imaginary flat surfaces perpendicular to the rotational axis of symmetry of these walls and the space, bounded by these walls, in the form of an annular slot, and these walls in the area under the separation cylinder (5) form an annular gap between the distribution plate (3) and the nozzle (6), moreover, the walls enclose the space inside which partitions (18) are installed to create a vortex gas flow, and the gas vortex generator (4) is connected to a gas source, while the gas pressure at the generator inlet channel (4) is higher than at the generator outlet channel (4) . 2. An improved technological device for coating particles in a new way using a vortex generator of air flow according to claim 1, characterized in that: said gas flow baffles are located between two at least almost axisymmetric walls so that the angle between the horizontal projection of the gas flow velocity vector and its radially oriented horizontal component is in the range from 10 ° to 80 °. 3. An improved technological device for coating particles in a new way using a vortex generator of air flow according to any one of claims 1 or 2, characterized in that: the total area of the gap gap defined by the axisymmetric walls of the vortex generator (4) of the air flow in the position where the generator is attached to the edge of the distribution plate (3), is from 5% to 90% of the horizontal sectional area defined by the inner edge (5a) of the separation cylinder (5 ) 4. An improved technological device for coating particles in a new way using a vortex generator of air flow according to any one of claims 1 or 2, characterized in that: the ratio between the surface area of the geometric body defined by the lower edge of one of the axisymmetric walls forming the vortex generator (4) of the air flow in a certain region and the horizontal cross-sectional area of the geometric body determined by the upper edge of the same wall ranges from 1 to 200. 5. An improved technological device for coating particles in a new way using a vortex air flow generator according to any one of claims 1 or 2, characterized in that the partitions (18) for supplying the vortex flow are located below the level of the gas distribution plate (3). 6. An improved technological device for coating particles in a new way using a vortex generator of air flow according to any one of claims 1 or 2, characterized in that the partitions (18) for directing the gas flow are made flat, curved, inclined or stepped. 7. An improved technological device for coating particles in a new way using a vortex generator of air flow according to any one of claims 1 or 2, characterized in that partitions (18) for the direction of gas flow are parallel to the rotational axis of symmetry of the device. 8. An improved technological device for coating particles in a new way using a vortex generator of air flow according to any one of claims 1 or 2, characterized in that: partitions (18) for directing the gas flow that crosses an imaginary plane so that it lies on the axis of rotation of the vortex generator (4) of the air flow, are not parallel to the same plane. 9. An improved technological device for coating particles in a new way using a vortex generator of air flow according to any one of claims 1 or 2, characterized in that the outer one of the two axisymmetric walls that form the vortex generator (4) of the air flow, is attached to the edge of the distribution plate (3) at the place of installation of the partitions to create a vortex gas flow. 10. An improved technological device for coating particles in a new way using a vortex generator of air flow according to any one of claims 1 or 2, characterized in that the inner of the two axisymmetric walls, which form the vortex generator (4) of the air flow, rises above the lowest position of the distribution plate (3) at the place of installation of the partitions to create the vortex gas flow. 11. An improved technological device for coating particles in a new way using a vortex generator of air flow according to any one of claims 1 or 2, characterized in that the walls forming the vortex generator (4) of the air flow in the zone of installation of the partitions (18) to create a vortex gas flow are horizontal. 12. An improved technological device for coating particles in a new way using a vortex generator of air flow according to any one of claims 1 or 2, characterized in that the distribution plate (3) has a flat, curved, inclined or stepped shape with a fraction of the free surface passing the gas flow, for example, through openings in the range from 1% to 50%. 13. An improved technological device for coating particles in a new way using a vortex generator of air flow according to any one of claims 1 or 2, characterized in that contains a number of separating cylinders (5), one nozzle or many nozzles (6) and many vortex generators (4) of the air flow. 14. A device for creating a vortex gas flow, characterized in that: at least two axisymmetric walls have an arrangement giving the intersection with flat surfaces perpendicular to the axis of symmetry of rotation of these walls, and the space enclosed inside these walls, the shape of an annular slot, and these walls enclose the space inside which there are partitions for creating a gas flow, and a device for creating a vortex gas flow is connected to a gas source, and the gas pressure in the inlet of the specified device is higher than in the outlet of the specified device state. 15. A device for creating a vortex gas stream according to 14, characterized in that: partitions for directing the gas flow are located between at least two at least almost axisymmetric walls and so that the angle between the gas velocity vector and its radially oriented horizontal component is in the range from 10 ° to 80 °. 16. A device for creating a vortex gas stream according to any one of paragraphs.14 or 15, characterized in that the walls of the device located in the installation area of the partitions to direct the gas flow should be horizontal. 17. A device for creating a vortex gas flow according to any one of paragraphs.14 or 15, characterized in that: the ratio between the surface area of an imaginary geometric figure defined by the longer edge of any of the axisymmetric walls that form a device for creating a vortex gas flow in a certain area and the surface area of an imaginary geometric figure defined by a shorter edge of the same wall ranges from 1 to 200. 18. Device for creating a vortex gas stream according to any one of paragraphs.14 or 15, characterized in that baffles for directing the gas flow that an imaginary plane crosses in such a way that the axis of rotation of the device for creating a vortex gas flow is on it, are not parallel to the same plane. 19. A device for creating a vortex gas stream according to any one of paragraphs.14 or 15, characterized in that the baffles for directing the gas flow are made flat or curved. 20. Device for creating a vortex gas stream according to any one of paragraphs.14 or 15, characterized in that the baffles for directing the gas flow are parallel to the axis of rotational symmetry of the device.