DD143753A1 - TASK DEVICE FOR THE PNEUMATIC SUPPORT OF SCHUETTGUT - Google Patents

Abstract

The invention relates to a feeding device, by means of Bulk goods in a pressurized pneumatic Conveyor system are introduced. The aim of the invention is make this introduction of the bulk material energiegünstig wherein the task is to a corresponding device for this purpose develop, at the same time a good mixing of the bulk material effected with the conveying air flow. This task is solved by the mixing chamber following the auger as a cyclone is formed with tangential air inlet. He is in Conveying direction in cross-section tapered cyclone is over a cylindrical transition piece and a diffuser with the Conveying pipeline connected. The elongated one protrudes into the cyclone End of the hollow worm shaft whose end is formed as a nozzle. - Fig.1 -

Description

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Feeding device for pneumatic conveying of bulk material

Field of application of the invention

The invention relates to a feeding device by means of which bulk materials are transferred into a space of higher pressure, for example into a pipeline in which the bulk material is pneumatically conveyed under pressure.

Characteristic of the known technical solutions

For the pneumatic transport of bulk materials, feeders, for example, sluices, are used to discharge the material into the pressurized conveyor system. At an overpressure of 0.1 to 0.2 MPa, a screw sluice is sufficient to feed the material. · At higher pressures Pressure vessel locks are used ·

The screw lock consists of a screw housing with metering screw, which opens into a mixing chamber in which the bulk material is mixed with the pressurized conveying air According to DE-AS 1 169 370, the cantilevered worm shaft is hollow and formed at the end with an outlet opening for the This is different from the axis of the mixing chamber far away, whereby during rotation of the metering unit, the conveying air helically in the

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Mixing chamber enters ο This is intended to achieve an intimate mixing of the flow of goods and conveying air and thus easier introduction of the conveyed material into the conveying air flow. "In order to increase the conveying capacity of the feeding device and the pneumatic conveyor, according to DS-AS 1 .169 370 arranged around the metering screw around an annular nozzle, whose channels ibzw. Nozzle openings are arranged tangentially to the worm-shaped periphery and at an obtuse angle to the conveying direction.

The disadvantage of the invention is that the mixing of the material is impaired with the conveying air flow on the entry of the material flow from the outside in the helical conveying air flow in the mixing chamber good mixing of the material and Förderluftstrome3 is prevented by the material deflection to the outside and the necessary acceleration the material on conveying speed runs energy consuming abo

The aim of the invention is _s ο the Aufgabe'von bulk into a higher-pressure space to make energy cheap and high capacity, for example, a pneumatic conveying system,

Explanation of the essence of the invention

The object of the invention is to develop a feeding device, with the bulk material in a space of higher pressure, such as a pneumatic conveyor system, is introduced energiegünstig and at the same time causes, that in this case a good mixing of the moving material-conveying air flow occurs »According to the invention the task This problem is solved by the fact that, adjoining the metering screw surrounded by a housing, there is a mixing chamber, which consists of a cyclone tapering in the direction of perforation. usual tangential. Air inlet and at the cone end to a cylindrical transition piece with subsequent, in the transverse

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The extended end of the hollow worm shaft, whose end is designed as a nozzle, protrudes into the cyclone. · The nozzle end is located in the narrowest cross-section of the Zykons · The feed screw feeds the bulk material into the cyclone. In these, a part of the conveying air flow enters tangentially at low speed, gradually mixes with the bulk material and puts it in rotating motion. By the funnel-shaped constriction of the cyclone receives the bulk material-conveying air mixture then a continuously increasing speed serhöhung · The rest of the conveying air passes through The hollow worm shaft to the nozzle and exits at high speed · According to the injector principle, the bulk material-conveying air mixture flowing from the cyclone into the cylindrical transition piece is drawn in and accelerated. The bulk material-conveying air mixture reaches the low-loss nozzle through the diffuser conveying speed ·

embodiment

The invention will be explained in more detail with reference to an exemplary embodiment of the invention

Fig. 1 A schematic representation of the feeder in section

FIG. 2 shows a section along the line I-I according to FIG. 1

The feed device shown schematically in Fig. 1 consists essentially of the housing 1 with feed screw 2 with hollow screw shaft 3 and the adjoining mixing chamber · This consists of the cyclone 4, the subsequent cylindrical transition piece 6 and diffuser

The bulk material to be conveyed, arrow 8, is filled via a filler neck into the housing 1 of the metering screw 2. By the rotating metering screw 2 is the

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In the cyclone 4 enters a part of the conveying air flow, arrow 10, tangentially and moves spirally to the cylindrical transition piece 6 ₀ by the tangential entry of the conveying air flow in the Zyklon 4 arises at the place of bulk material supply in the mixing chamber a vortex, that is a pressure difference between * .Außen- and Kernbereicho Depending on the selected speed ratios, there is a more or less large suction effect in the core area and to support the Schuttgutzufuhrο Mach entry into the mixing chamber the bulk material is gradually drawn into the partially moving on the housing wall spiral conveying air stream, accelerated and mixed with this to a homogeneous bulk material conveying air mixture · The funnel-shaped design of the mixing chamber accelerates the bulk material-conveying air mixture continuously to z to enter the transition piece,

The second conveying air flow, arrow 11, is introduced through the hollow worm shaft 3 and emerges at high speed from the nozzle 5 formed at the end of the worm shaft 3. The negative pressure formed by the injector action in turn assists in the access of the bulk material / conveying air mixture from the nozzle Cyclone 4ο With intensive mixing, the low-loss transfer of the bulk material / conveying air mixture to the conveying speed in the delivery system 12 _O is now carried out in the subsequent diffuser 7

The advantage of the invention is that is increased by the two-part conveying air supply into the cyclone-like mixing chamber and through the use of the hollow screw shaft in the subsequent injector, the delivery pressure in two stages and thereby high pressures in the delivery line can be realized * by the tangential Introduction of a part of the Poraer »

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air into the mixing chamber, this undergoes a spiral movement with continuously increasing speed. This leads to a continuous acceleration of the bulk material, which makes it energy-low and with minimal losses ". Since the introduction of the bulk material into the mixing chamber by the metering screw takes place almost without counterpressure ₉ , the metering screw can be executed with a low number of turns and briefly. _O The entire feeding device is able to channel against high pressures in the conveying system with little wear.

Claims (1)

ti 3 142 -6- invention claim Feeding device for the pneumatic conveying of bulk material, consisting of a metering screw with hollow, cantilevered worm shaft, a subsequent mixing chamber and arranged around the metering screw around annular nozzle whose channels or nozzle openings are arranged tangentially to the screw circumference, characterized in that the mixing chamber composed is made of a with the metering screw (2) equiaxed, in the conveying direction tapered cyclone (4) with tangential air inlet sstutzen (9) at the widened end, a subsequent cylindrical transition piece (6) and an adjoining, in cross-section conically enlarged diffuser ( 7), wherein in the cyclone (4) the extended end of the hollow screw shaft (3)> whose end is formed as a nozzle (5) protrudes, and the nozzle (5) in the region of the narrowest part of the cyclone (4) ends *.