DE626285C - Material feed for air conveying systems, especially fine-grained bulk goods, in which the conveying air flow in a nozzle is accelerated in such a way that no air pressure is directed against the incoming material at the feed point - Google Patents

Description

Material feed for air conveying systems, especially fine-grained bulk goods, in which the conveying air flow is accelerated in a nozzle. That at the At the point of delivery, no air pressure is counterbalanced to the incoming material the air conveyance of powdery bulk goods prepares the task of the goods special. Difficulty. A good use of the conveying air, i. H. a large amount of material to be conveyed per m3 conveying air, or if possible one if the mixing ratio remains the same low voltage difference in the conveying air between the feed and discharge of the conveyed material can only be achieved by a very even supply of the material to be conveyed to the air stream and at the same time by adding the conveyed material in a completely loosened state, so that every single solid particle is captured, accelerated and will be carried.

Numerous proposals have already been made to solve this problem without satisfactory successes have been achieved so far, which inter alia. it follows from this, that the necessary to convey a unit of weight over a distance unit Effort is considerably higher than the theoretically expected values.

The invention is based initially on the knowledge that it is not only to any application of the individual means for the task of the conveyed material in the Air or gas flow and any design of this gas flow at the point of application arrives, but that certain measures to achieve a satisfactory result must be connected to each other in a certain way.

The conveying air is in front of the application point through a nozzle in itself known way accelerated so far that a notable overpressure compared to the air pressure around the conveyed goods does not exist. Becomes beneficial a negative pressure is even generated by the electro-like effect of the air jet. A reverse current of air after the supply routes for the conveyed goods does not take place, the feed devices also do not need to be sealed against such a backflow.

To the air jet, a mixing head is arranged so that between his Inside, wall and the air jet an annulus remains. This free annulus becomes equal to or smaller in diameter than the diameter of the adjoining delivery line held. In the latter, preferable case, the cross-sectional transition to Delivery line to achieve a good conversion of the speed in pressure gradually designed.

The jet nozzle itself can be directed both in the direction of the air jet as well as perpendicular to this adjustable as well as in their diameter for adaptation be changeable to the respective operating conditions.

Sometimes, especially if the conveyed goods also contain larger pieces, it is advisable to arrange auxiliary nozzles next to the main nozzle, which the task to prevent heavy particles from depositing below the beam and bring them to the main ray. There is an option for large funding capacities a subpart of the main ray into several partial rays.

According to the invention, such a jet conveyor is a closed one Conveyor screw upstream in such a way that it is expediently perpendicular to the beam direction works directly into the annular space surrounding the air jet. Appropriate the outer diameter of the screw is equal to the outer diameter of the free annular space around the air jet.

This closed screw is given a according to the invention small diameter, high speed and such a slope that its theoretically Largest delivery rate due to the delivery rate to be managed only to a small extent is exploited. The degree of filling of the screw depends on the type of Conveyed goods and can z. B. 300/0.

These measures work together to ensure that the screw is the conveyed material in a very even flow and completely loosened up directly into the jet surrounding annulus swirls in and spreads in this.

In-depth tests have shown that this results in a special can achieve good transfer of the material to be conveyed into the air stream.

Since such a working vortex screw is not readily available in the Is able to also at the same time the conveyed goods evenly in a correspondingly measured amount to take, for example from a bunker, you must if necessary Institutions are arranged in front of them, which assign the conveyed goods to it. This can be done z. B. by screw conveyors of the usual type, discharge plates, cellular wheels, vibrators or other devices. The inlet of the vortex screw can also be designed in such a way that for example with a correspondingly reduced slope, which then gradually passes over that it takes over the metering of the material to be conveyed itself.

For such a task, this is the properties of the goods Subject to changes, a possibility of regulation between the Material feed device (e.g. cellular wheel) and the vortex screw attached will. An inevitable dependency of the speeds is also desirable in order to avoid this of clogging of the feeding device in the event of malfunctions.

The conveyed goods task is characterized by high operational reliability, due in particular to fine-grained or dusty materials to be conveyed in proportion low power requirement, very little wear and tear and great simplicity for conveying capacity of the facility, making it a significant advance in air handling technology represents.

An embodiment of the invention is described below with reference to the drawing explained as an example. The drawing shows schematically a feeding device in elevation, partly in section.

The conveyed material, for example cement, passes from the container i the outlet to the rotating discharge plate 3, from which the adjustable scraper 4 it continuously supplies the vortex screw 5 in the desired amount. The wave 6 the worm 5 runs in two bearings 7 and 7 ″, between which it acts as a drive worm 8 is designed for the worm wheel 9. This worm gear 9 drives a Bevel gear pair io ', io "and the shaft ii the discharge plate 3. By a coupling i: 3 the shaft 6 is connected to an electric motor i3.

That; The screw housing 14 has an inside diameter of the same size as the inside diameter of the mixing head 15, into which the screw housing i4 merges directly at the end of the screw 5. On the one hand, the mixing head 15 is followed by the compressed air line 16 with the nozzle 17, which can be adjusted and replaced in the jet direction by means of a thread guide, and on the other hand, the delivery line 18, which initially widens like a diffuser to its normal diameter, the diffuser part can also be attached to be longitudinally displaceable in the delivery direction.

The mixing head 1 5 surrounds the air jet 1 9 so as to denL uftstrahl remains a free annular space 20th

Claims (1)

PATENT CLAIM: Conveyed goods task for air conveyor systems, in particular for fine-grained bulk goods, where the conveying air flow in a nozzle is like this it is accelerated that no air pressure is applied to the incoming conveyed material at the point of application is opposed, characterized in that the conveyed material is mechanical, for example by a fast-moving, closed, evenly with part of their largest Feed rate fed screw (5), whirled apart into its individual parts, in an annular space surrounding the air jet, expediently perpendicular to the Direction of the air jet, is introduced.