CZ2013204A3 - Rotary vane feeder for bulk material fluidization and fluidization process of bulk material - Google Patents

Abstract

BACKGROUND OF THE INVENTION The present invention relates to a turnstile feeder allowing fluidization of bulk materials. It consists of a supporting structure (1) in which a rotary drum (2) is provided, comprising a hollow shaft (3) provided with blades (4), the supporting structure (1) being provided with a hopper and the blades (4) provided with grooves and where the vanes (4) are connected to the hollow shaft (3), channels (5) are provided for supplying fluidizing medium. The invention also relates to a method of fluidizing a bulk material by means of this feeder.

Description

Technical field

The invention is in the field of transport of difficult flowing materials, and more particularly relates to a new type of turnstile feeder enabling fluidization of material.

The state of the art

At present, more and more emphasis is placed on improving the flowability of bulk materials in transport, handling and storage systems. This phenomenon is associated with the ever-increasing need for material processing in conveyor systems. The reason is quite simple - transportation, handling and storage of materials (focusing on bulk materials) occupies an increasingly important component in the interaction of the manufacturer versus the customer in the logistics of the entire process. Process processing, material processing during the transport process in relation to customer satisfaction plays an important role throughout the chain.

Turnstile feeders are an essential element of the conveying device used for dispensing and transporting dry bulk and powdered material without a pulling element (ie without, for example, a belt, rope, chain, etc.). It is a process transport of mainly vertical character, where the bulk material is transported from one (most often storage) equipment to another conveying system (eg belt conveyor) through a turnstile feeder, which can process the bulk material processively (mostly dosing).

The present solution of the turnstile feeder device processes the bulk material controlled by fluidization and thus ensures perfect fluidity in the complex process of transport, handling and storage of bulk material. In the past, there were a number of solutions designed for media distribution and the subsequent mixing process. E.g. in US 6338828 the distributor is anchored firmly _{from the} ^{Λ Λ} vv inside the container and the medium flows through the distributor, or, for example, in US 5318β60 a gas / liquid distribution device is described. The device consists of a rotating part with blades and a hollow shaft. The gas flows through the hollow shaft into the holes around the periphery of the disc and the blades act as a fluid clarification during rotation and mix the gas.

The solution of classical chamber feeders is mentioned in documents CN 200999156, CN

102060181, JP 6278832 and JP 58113015. These devices are classic chamber or • »

- Two-chamber feeders, where, we do not expect to use the present principle of fluidization of bulk material.

Another group consists of industrial high-pressure feeders such as AKPV 1000-0,6, etc., where the feeder is equipped with a fluidization function, which is realized in the form of nozzles placed in the housing of the device, ie. a fluidization system through the tubing to the vessel, not to the rotor body as in the present solution.

Different types of patented stationary double-shell devices are also special

In character, e.g. US 6323293, used to separate vapors during mass transport and subsequent heat exchange. The device consists of a double-shell construction, where energy is exchanged between the inner and outer shell (vapor, heat, etc.). The device described in EP 1 948 354 forms a gas injection system. The apparatus is equipped with a nozzle behind which is located a propeller that rotates and disperses the gas.

The last group consists of devices that are probably the closest prior art. It is a device described in JP 4 ^ 83 ^ 97 which performs, for example, the function of air distribution in the form of bubbles in a flotation vessel, where the air flows through the shaft to a "bellows" where air is distributed through the holes. The difference with the solution according to the invention is in the number and location of fluidization channels and in the construction of the rotor and stator of the device and also in the fact that the device according to the invention fulfills the function of material dosing. Another is the apparatus of US 5 89 89 310 which describes the distribution of air into a liquid through a hollow shaft which forms a rotor with blades in a vertical axis. The difference with the solution according to the invention is in the design of the channels, the number of blades and the position of the rotor axis. Another is the apparatus described in CZ 2999-92, which serves for mixing gas in liquids. The gas flows through the hollow shaft into the vanes and gas is then distributed. These devices differ mainly in the system of blowing the medium into the blades, the design of the channels, the number of channels including the position. The device according to the invention, on the other hand, enables, in addition to fluidization, the simultaneous metering of the material while the rotor and channels are rotated.

SUMMARY OF THE INVENTION

Between the supplied bulk material and the blade of the rotary drum there is a friction which negatively affects the conveying of the bulk material. By combining the movement of the rotary drum and the blades provided with grooves and channels with the fluidized-medium supply, the transport of the supplied bulk material can be significantly influenced.

• · ·

The turnstile feeder consists of a hopper-mounted support structure and a rotary drum contained therein comprising a hollow shaft provided with vanes for conveying bulk material. In the lower part of the blades, grooves are milled, either of which are always several evenly distributed over the entire lower part of the blade, or there is always only one groove on each one blade. The recess begins at the point of attachment of the blades to the hollow shaft and tapers towards the edges of the blades until lost. Air intake ducts are located at the points where the grooves begin at the bottom of the blades, i.e. at the bottom of the blades at the point of their connection to the hollow shaft. In the case of a multi-groove construction on each blade, there is one channel at the beginning of each groove.

The hollow shaft is driven by an electric drive, through which the channels at the bottom of the blades are supplied with pressurized medium so as to ensure a uniform supply to all openings in the bottom of the blades. The feed medium in combination with the movement of the blades located on the shaft ensures fluidization of the conveyed material and thus better flowability of the bulk material.

By a fluidizing medium according to the invention is meant a liquid (eg water) or gas (eg air or nitrogen) or a dispersion of modified particles (eg nanoparticles S102) in the gas.

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BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view of the turnstile feeder; FIGS. 2 and 3 are detailed views of the design of channels and grooves at the bottom of the blades in a uniformly distributed solution along the bottom of the blades; 4 and 5 are detailed views of the design of channels and grooves at the bottom of the blades in a single-groove and channel-wide solution along the bottom of each blade; and Figure 7 is an isometric view of a model of a turnstile feeder model with grooves at the bottom of the blades in a single groove and channel channel along the bottom of each blade.

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Examples. Embodiments of the invention

Example 1

The turnstile feeder according to Figures 1, 2, 3 and 6 consists of a hopper provided with a support structure 1, in which a rotating drum 2 containing a hollow shaft 3 is provided, which is provided with vanes 4 for conveying bulk material. In the lower part 7 of the blades 4, grooves 6 are milled, which are uniformly distributed over the entire lower part 7 of the blades 4. At the points where the grooves 6 begin in the lower part 7 of the blades 4, air supply ducts 5 are located. The hollow shaft 3 ‘3 is driven by an electric drive and air is supplied to the channels 5 in the lower part 2 of the blades 4, which in combination with the movement of the blades 4 through the rotary drum 2 ensures fluidization of the conveyed material.

Example 2

The turnstile feeder according to Figures 1, 4, 5, 7 is formed by a hopper provided with a supporting structure 1, in which a rotating drum 2 containing a hollow shaft 3 is provided, which is provided with vanes 4 for conveying bulk material. In the lower part 7 of each of the blades 4, a groove 6 is milled all over its part. At the point where the groove 6 begins in the lower part 7 of the blade 4, an air supply duct 5 is located. The hollow shaft 3 is driven by an electric drive and air is supplied to the channels 5 in the lower part 7 of the blades 4, which in combination with the movement of the blades 4 through the rotary drum 2 ensures fluidization of the conveyed material.

Industrial applicability

The turnstile feeder according to the invention is useful in the field of bulk material transport and processing. Thanks to the fluidization of the bulk material, fluidity in the conveying systems is ensured, thus ensuring a smooth flow during transport, handling and storage of bulk materials.

Claims (6)

PATENT CLAIMS A turnstile feeder for fluidizing a bulk material, characterized in that it comprises a support structure (1) in which a rotary drum (2) comprising a hollow shaft (3) provided with blades (4) is supported, the support structure (1) being provided with a hopper and the vanes (4) are provided with grooves (6) on the underside (7) and in the places where the vanes (4) are connected to the hollow shaft (3), channels (5) for fluidizing medium supply are located. The bulk material turnstile feeder according to claim 1, characterized in that the underside (7) of each one of the vanes (4) is provided with one groove (6) and one channel (5) for supplying the fluidizing medium. A bulk material turnstile feeder according to claim 1, characterized in that the underside (7) of each one of the vanes (4) is provided with several equally spaced grooves (6) and channels (5) for supplying the fluidizing medium. Method for fluidizing a bulk material according to any one of the preceding claims, characterized in that a hollow shaft (3) is supplied to the channels (5) in the lower part (7) of the blades (4) even under pressure. in combination with the movement of the vanes (4) by means of a rotary drum (2), it ensures fluidization of the conveyed material. The bulk material fluidization process according to claim 4, wherein the fluidizing medium is a liquid or a gas or a dispersion of modified particles in a gas. 6. The bulk material fluidization process of claim 5, wherein the fluidizing medium is water, air, nitrogen, or a dispersion of S1O2 nanoparticles in air.