NL8303988A - Feed for powder or granular material into pneumatic transport gas - has fan outlet containing venturi upstream of hopper outlet and connected downstream into transport line - Google Patents

Abstract

The conveyor is for feeding pulverised or granular material (3) from a supply container (2) into a pneumatic transport line (11). The material drops into the carrier gas flow via a bottom outlet. At the point where the material enters the gas flow, the pressure at the outlet is lower than that which would prevent entry of the material. Pressure control venturi (6) is positioned upstream of the entry point. Entry may be via a rotary cell lock (10) into a line (4; 5-7), connected to a fan (8) via an upstream venturi (6). The downstream smaller-diameter end (7) of this line extends into (15) the transport line (11) which branches off the upstream end (5).

Description

. . * X Sch / Themans-7

DEVICE FOR TRANSPORTING POWDER OR GRANULES

The invention relates to an apparatus for the transport of material consisting of powder or granules falling from a supply container into a gas stream, through an outflow channel.

Such a device is known. With the known device the problem arises that after having been in operation for some time the device stagnates. Investigations have shown that this stagnation results from the build-up of such a low pressure in the storage container that the outflow of powder or granules stops due to the pressure difference between the gas flow and the storage container.

In order to overcome this problem, the invention proposes a device of the type stated in the preamble, which is provided with means for creating a pressure in said gas flow at the location of that outflow channel, which pressure is lower than the pressure which is necessary to stop the flow of material falling through the outflow channel.

In order to obtain the intended lower pressure by means as simple and therefore as reliable as possible, advantageous use can be made of an embodiment in which the means for creating the lower pressure in the gas flow comprise a pitot or venturi system.

Use can be made of a variant in which a volumetric dosing device, for instance a rotatable cell lock, is included in the outflow channel. Attention is drawn here to the fact that the actual dosing takes place by the operation of the dosing device and that the means for creating the lower pressure only serve to ensure that this dosing device can perform its function correctly. , without hiccups in the supply of material.

In order to have the transport of the material proceed in a relatively calmly flowing gas, use can be made, in part, of an embodiment in which the 8303988

. V

- 2 - gas flow is generated in a pipe connected to a fan, which in a second pipe, also connected to that fan, into which the first pipe opens.

Very good results have been achieved with an embodiment in which the first conduit opens into the second conduit via a pitot tube, in which case preferably the plane of the mouth opening of the first conduit is perpendicular to the center line of the second conduit location of that mouth opening.

Full controllability is ensured with a version in which an adjustable valve is included in the second pipe.

The setting of the fan and that of the adjustable valve together determine the total gas flow, as well as the ratio of the gas flows in the first and the second line.

The invention will now be elucidated with reference to the drawing of an arbitrary embodiment.

Show in the drawing:

Fig. 1 is a partly broken away perspective view of a device according to the invention, in a highly simplified, schematic representation;

Fig. 2 is a cross-sectional view of FIG. 1 taken on the line II-II therein.

The device 1 comprises a storage container 2 for material 3 consisting of powder or granules, a first pipe 4 with a relatively wide part 5, a tapering part 6 and a relatively narrow part 7, a fan 8 connected to the wide part, an intermediate the underside of the storage container 2 and the narrow part 7 connected by a motor 9 drivable cell sluice 10, and a bypass 11 connecting to the wide part 5, into which the narrow pipe part 7 opens.

The bypass line 11 includes an adjustable valve 12 which is connectable to an unsigned, adjustable source of pressurized medium via a control line 13.

The fan 8, which is driven by a motor 14, causes pressure build-up in the wide pipe section 5 to cause an air flow.

83 03 98 8 - 3 - /. '

The constriction, or the tapered part 6, results in the gas flow being accelerated, whereby the pressure in the gas flow is lowered according to the venturi principle.

At the location of the underside of the cell lock 10, therefore, a slightly reduced pressure prevails, as a result of which jamming of the material 3 on the underside of the storage container as a result of too high a pressure on the underside thereof is prevented.

As shown in Fig. 2, the plane of the mouth opening 15 of the narrow part 7 is perpendicular to the center line of the bypass line 11 at that mouth opening.

With regard to the configuration of Fig. 1, it should be noted that there are no bends in the pipe sections bounding a gas flow with material. Namely, bends 15 would have the undesirable effect that the pipe wall is subject to heavy wear. With the drawn configuration this danger is prevented.

8303988

Claims (7)

1. Device for the transport of material consisting of powder or granules falling through an outflow channel from a storage container in a gas stream, characterized by means for creating a pressure in said gas flow at the location of that outflow channel, which pressure is lower. is then the pressure necessary to stop the material falling through the outflow channel. 2. Device as claimed in claim 1, characterized in that the means for creating the lower pressure in the gas flow comprise a pitot or venturi system. 3. Device according to claim 1 or 2, characterized in that a volumetric dosing device, for instance a rotatable cell sluice, is included in the outflow channel. Device as claimed in any of the foregoing claims, with. characterized in that the gas flow is generated in a pipe connected to a fan, which flows into a second pipe, also connected to that fan, into which the first pipe flows. Device according to claim 4, characterized in that the first conduit opens into the second conduit via a pitot tube. 6. Device as claimed in claim 5, characterized in that the plane of the mouth opening of the first conduit is perpendicular to the center line of the second conduit at that mouth opening. 7. Device according to claim 4, 5 or 6, characterized in that an adjustable valve is included in the second pipe. 8303988