DE3526841A1 - Apparatus for discharging, especially metering, pulverulent or granular material from a storage container - Google Patents

Abstract

An apparatus for discharging, especially metering, pulverulent or granular material from a storage container possesses at least two parallel conveying screws mounted on the bottom of the container and having contrary and mutually engaging screw threads which rotate in opposite directions, and a metering section which is tubular and one end of which is fixed around an outlet aperture in the container, while the other end is connected to a material receiving apparatus. The conveying screws extend through the outlet aperture and into the metering section, but end at a distance from the other end thereof. As a result a plug formation space is created, in which the material fed by the conveying screws can be compacted, forming a plug. The plug is forced out through the other end of the metering section and is received by the receiving apparatus. The plug formation space may have various members, for example friction members on the inner surface of the metering section, in order to facilitate the plug formation, and may also be of tapered design to this end.

Description

Device m discharge, in particular dosing of

powder or granular material from a storage container CONTRAPTION FOR DISCHARGE, IN PARTICULAR DOSING OF POWDERY OR GRAINY MATERIAL A STORAGE CONTAINER The invention relates to a device for discharging, in particular Dosing powdery or granular material from a storage container, comprising at least two parallel screw conveyors on the bottom of the container, which have opposing and interlocking worm flights and in Revolve opposite directions, a tubular metering part, one of which End connected to the storage container around an outlet opening provided therein with the screw conveyors extending through the outlet opening and protrude into the metering part and essentially its cross-sectional area fill in, and means for receiving the emerging at the other end of the metering part Materials.

A discharge and metering direction of this type is described by DE-A-1 297 392 known. This device works externally, t satisfactorily and is used on many Used in areas where precise dosing of the material is required. Through this that the material from the counter-rotating and counter-rotating snail catchers is held securely, a secure volume is achieved; portioning through the costly weighing becomes superfluous. In this known Vorrichtunc; extend the screw conveyors up to a the outlet opening of the metering part or curan -orb-i. This outlet opening consists of a perpendicular to the longitudinal axis of the Dosierteiis attached Al support tube. It may be the case that in the metering section a certain amount of material accumulates at the outlet opening, so that the outlet opening becomes clogged, and if not discovered in time, this section can of the dosing part even burst under the action of pressure.

It has also been shown that the damp or chemicals permeated air, which in many cases occurs in the vicinity of the device, the material emerging from the metering part and delivered to a conveying device adversely affected.

The invention is based on the object on the basis of the known Device to create a new device that deals with clogging, bursting and the difficulties associated with adverse exposure to ambient air eliminates and also creates an end product that is easier to handle and even can be transported by means of a pneumatic conveyor. This task will solved in that the screw conveyor at a distance from the other end of the metering part ends to create a plugging space.

In the portion of the metering part adjacent to the outlet, means of the plug formation space formed a plug, the density of which is the density of the between the screw conveyors of compacted material more or less exceeds. The concentration of the plug can easily be adjusted, for example with the help of on the inner surface the dosing provided friction members or by means of a resiliently mounted Pressure plate that covers the outlet end of the metering part. The one from the exit end The coming plug can thus be given a density that is adapted to the ambient air so that the ambient air does not affect the material. Also will the material discharged in the form of a handy plug and can therefore easily be transported with the help of any funding, for example a pneumatic conveyor.

The invention is described in more detail below with reference to the drawing, in which an embodiment is shown in an extremely schematic manner. It Fig. 1 shows the device according to the invention in vertical section, and FIG. 2 shows a section along the line II-II in FIG. 1.

In the drawing, the reference number 10 denotes the lower part of a Container of any kind and, for example, the lowest part of a Can represent silos. On the outside of the container and near the bottom of the container is an approximately vertically protruding, tubular metering part 11 with its one End attached around an outlet opening 12 in the container 10. At the bottom of the container 10 two screw conveyors are mounted, which extend parallel to each other, as shown in FIG. The screw conveyors consist of a shaft 13 or 14 with worm flights 15 and 16 in the form of a helix around each Shaft 13, 14 welded sheet steel strip.

The worm threads are in opposite directions and so in relation to each other appropriate that they interlock. In the embodiment shown, have the screws have the same pitch, which can, however, also vary, for example remove in the direction towards the dosing part. The screw conveyors 13, 15, 14, 16 extend along the container bottom and through its exit opening to the outside and into the metering part 11. The screws are supported by bearings 17, 18. To the The shafts 13 and 14, each with a gear 19 or 20 which are in engagement with each other. The shaft 14 extends on their gear 20 over and carries a pulley 21. A drive motor 23 with a belt pulley 24 drives the belt pulley 21 and thus the screw conveyors with the help of a strap 22.

As can be seen from the drawing, the screw conveyors extend 13, 15, 14, 16 not all the way through the metering part 11, but end at a distance of its end facing away from the container 10, so that a room 25 is created. This space 25 should in its interior from the supplied by the two screw conveyors Material form a plug before the material passes through the end opening of the metering part 11 is carried out. The plug formation space 25 by means of the screw conveyors The material fed in is initially compacted by the action of the screw conveyors, but in the space mentioned there is a further compression.

How far this compression is carried out depends on the present Circumstances. The material plug is in the space 25 by the friction of the material formed against the wall of the metering part, and this wall can either be smooth, whereby the compression in space 25 is as low as possible, or the friction increases Projections or grooves or even an all around, inwardly directed, have annular flange in the actual opening, whereby the plug formation facilitated and a higher degree of compression is obtained. The degree of compaction is of course also dependent on the length of the plug formation space 25, which is normally about one third of the length of the metering part 11, but can of course, be both larger and smaller. It is also possible that The outlet end of the metering part 11 is tapered or curved in order to thereby to increase the friction. You can also, especially with higher degrees of compaction, cover the outlet opening with a pressure plate 26 which is resiliently mounted is so that they are at a predetermined pressure of the material in the metering part of the Opening is pushed away and allows discharge of the compacted material. to Cushioning of the plate, spiral, torsion or air springs can be used. To receive the compressed material emerging from the end of the metering part a line 28 with a receiving part 27 connected to the metering part is provided be. The emerging, condensed Material can be with the help of compressed air be promoted, which is supplied by means of a nozzle 29, since the increased air pressure in part 27 now does not affect the material.

With the device described, many different, powdery or granular materials are dosed with great accuracy, and the degree of compaction can easily be adjusted by changing the speed and / or pitch of the screw conveyors will. The pre-compacted material is fed to the plug formation space, where a further compression of the desired size with the help of the above means takes place so that a handy plug of such a density is formed that it is not influenced by the ambient air.

Claims (6)

PATENT CLAIMS 1 device for discharging, in particular dosing of powdery or granular material from a storage container (10) comprising at least two parallel ones mounted approximately horizontally on the bottom of the container (10) Screw conveyors (13, 15; 14, 16) which are opposing and interlocking Have worm flights (15, 16) and rotate in opposite directions, a tubular metering part (11), one end of which is connected to the storage container (10) is connected around an outlet opening (12) provided therein, the Conveyor screws (13, 15; 14, 16) extend through the outlet opening (12) and protrude into the metering part (11) and essentially its cross-sectional area fill, and means (27, 28) for receiving the at the other end of the metering part (11) escaping material, indicated by the fact that the screw conveyors (13, 15; 14, 16) at a distance from the other end of the metering part (11) end to one To create plug formation space (25). 2. Apparatus according to claim 1, characterized in that g e -k e n n z e i c h n e t that the plug formation space (25) has a length that is about one third of the Length of the metering part (11) is. 3. Apparatus according to claim 1 or 2, characterized in that g e k e n n z e i c h n e t that friction-increasing members, for example strips, grooves or the like., on the inner surface of the metering part (11) in the plug formation space (25) to facilitate plug formation. 4. Apparatus according to claim 1 or 2, characterized in that g e k e n n z e i c h n e t that the metering part (11) extends to its other end along the Plug formation space (25) tapers to the plug formation to facilitate. 5. Device according to one of the preceding claims, characterized in that g It is not noted that the other end of the metering part (11) is by means of a spring-loaded plate (26) can be closed to facilitate plug formation, which plate yields to the pressure of a plug penetrating through said end. 6. Device according to one of the preceding claims, characterized in that g e k e n n n n e i n e t that the means (27, 28) for receiving the from the other End of the dispensing material exiting a line connected to this end for pneumatic material transport.