DE3529779A1 - Apparatus for reexciting flow in bulk material silos - Google Patents

Abstract

The invention relates to an apparatus for reexciting an even flow in bulk material silos, having a run-off hopper (20a, 20b) which opens out into at least one run-off channel, having a perforated and preferably arched intermediate floor which is assigned to the run-off hopper and having a star-shaped two-dimensional grid arrangement which oscillates just above the intermediate floor, acts as a vibrator and is composed of individual two-dimensional grids (40) which are respectively assigned to the run-off channels and are independent of one another. The two-dimensional grids (40) are in each case driven by a vibrator (50) which is mounted outside the silo and insulated to ensure that no vibration is passed between the silo and the vibrator (50). A deaerating device (60) is arranged below the intermediate floor (30). Star-shaped or cross-shaped two-dimensional grids have an especially good loosening effect on certain bulk materials, as they let relatively large quantities of bulk material fall onto the intermediate floors. This can result in improved loosening of the bulk material and more rapid falling off into the run-off channels. <IMAGE>

Description

The invention relates to a device for re-use excitation of a steady flow in bulk silos according to Preamble of claim 1.

Such a silo, described in DE-PS 30 42 414, has one over several drainage channels each in deduction filly zen running out funnel. Above the drain funnel a preferably arched intermediate floor is used, the Holes for the bulk material to pass into the drain funnel Has. Just above the intermediate floor are above the coin in the drainage channels independent flat mesh ter arranged, each vibrated by vibrators can be moved. These flat grids serve the purpose Flow of poorly flowing bulk material, such as. B. quick lime, Hydrated lime and the like to start and flow disorders as well to eliminate congestion.

In silos with the known device it can be determined bulk materials to stop the flow of bulk goods come. Especially with tightly stored bulk goods with irregular moderate crystal structure can then be actuated the flow of material from the top of the silo to the bottom Trigger part, but often observed a compression of the bulk material still in the lower part of the silo because the air still there is compressed. Hereby there are adverse effects. The bulk material flows through the material compression worse and clogged in extreme cases the silo in its lower part.

The object of the invention is based on this State of the art a device for re-excitation of a smooth flow in bulk silos that create the  Bulk can run smoothly and malfunctions in the Re-excitation and occurring when the bulk material flows Avoids material jams.

This object is achieved by the device with the features of the An Proverb 1. Preferred advantageous developments of the inventions Device according to the invention are specified in the subclaims.

The invention prevents not only when refilling bulk material well in the lower part of the silo with the compression of the air their adverse effects on the properties of the Bulk material, but leaves the air over the venting device escaping from the lower part of the silo. Through the Arrangement of the ventilation device below the intermediate floor, preferably close to the mezzanine, the structure an air bubble below the arch in most cases Avoided intermediate floor.

In a preferred embodiment of the invention the venting device has a return line, which in the upper part of the silo closed above in the example det. This means that there is no negative pressure in the upper part of the silo arise when filling material from the upper part of the silo in the lower Part flows in because the return line in the lower part of the silo due to increased bulk material inflow required air the removed bulk quantity by an ent speaking air volume in the upper part of the silo replaced. This also improves the flow properties of the bulk material in the silo. A particularly simple construction for the ventilation device consists of a vent pipe in the lower part of the silo opens just below the intermediate floor and at other end is connected to the silo ceiling so that the lower  Part and the top part of the silo are directly connected to each other are bound and the air balance by simple displacement of air takes place. With this simple arrangement you can one can do without conveyors or suction devices.

A particularly useful arrangement of the invention Device arises when the mezzanine floor in several Part intermediate shelves is divided, each with a flat grids are assigned to a drain channel. Advantageously extend the partial shelves in the upper end of the respective drainage channel and are arched. Domed Partial shelves are particularly effective as relief shelves sam because it is the load of the bulk material above absorb evenly and have particularly good strength. As a result of approximately the same load conditions there is also an even flow through the bulk material through the openings in the mezzanine, what the flow behavior of the stored goods improved. Another improvement results if, as is known for itself, the flat grids adapts to the shape of the partial intermediate floors. The flat grids can then be particularly close to the intermediate gust which are arranged. In this way the flow of the bulk guts are particularly effectively re-excited and none can disruptive material compression or other inhomogeneities between the intermediate floor and the flat grids, due to different distances between flat grids and intermediate floor come about across their transverse extent.

In a further preferred embodiment of the Er a ventilation pipe extends through the silo wall from above through the corresponding partial intermediate floor in the Drain channel. This arrangement is usually asymmetrical  Formation of the drainage channels and the curvature of the intermediate parts bottom bill that may cause air bubble formation favor.

Another advantageous measure to improve the Ma material flow is that in the area of the lower end an additional vibrator is provided for each drain channel is seen, the flow of the bulk material even in the narrowed Exit area supports and keeps going. Often enough a brief actuation of such a vibrator to a Compacting of material further above to avoid.

Further advantages and features of the invention emerge from the following description of exemplary embodiments and their Drawing. The drawing shows:

Fig. 1 is a vertical section along line BB of Figure 2 by a Siloablauftrichter with two mutually alternative pairs of flow channels, said left the flat grid is omitted.

FIG. 2 shows a plan view of the drain funnel according to line AA in FIG. 1;

Fig. 3 is a vertical partial section through a drain channel and

Fig. 4 is a sectional view along line DD in FIG. 1.

Fig. 1 shows a (not shown) to a silo container connected drainage funnel, which in two mutually alternative bottom pairs of discharge ports 20 a, 20 b and 20 c, 20 d ends. Discharge nozzles (not shown) are located below the drainage channels, which can be opened independently of one another. In the embodiment, the lower portion 12 of the funnel 10 is formed from the intersection of two schie fen cones 16 a , 16 b with the common circular base surface 12 and the intersection line 14 . Each loading area has at the lower end at the level of the transition to the drainage channels an arched, circular in the base part-intermediate floor 30 a , 30 b . The Teil-Zwischenbö the 30 a , 30 b have a plurality of holes 32 , which are used for the transfer of the bulk material into the outlet channels 20 a , 20 b , 20 c , 20 d . The size, the cut and the arrangement of the holes depend on the type of bulk material. The attachment of the part-intermediate floors 30 a , 30 b is not shown in the drawing. The partial intermediate floors 30 a , 30 b can be arranged at a distance from the inner wall of the silo as well as connected to it.

Above the partial intermediate floors 30 a , 30 b , a star-shaped flat grating 40 according to the invention is arranged vibration-insulated with the aid of oscillating metal elements 42 and horizontally capable of oscillating, closely above this. For the sake of clarity, only the flat grid assigned to the partial intermediate floor 30 b is shown. In the exemplary embodiment, the flat grid 40 consists of a framework which is formed by upright flat iron. There is a star-shaped vibration linkage with a central frame 44 in connection, over or through which two intersecting diagonal linkage 46 , 48 extend. With the central frame 44 of the framework is an externally attached to the processes 16 a , 16 b vibrator 50 , z. B. an unbalance motor, via an inserted through the silo wall coupling rod 52 in rigid connec tion.

A vent pipe 60 also extends through the container wall approximately in the region of the height of the vibration drive 50 and runs steeply obliquely downwards and passes through the partial intermediate floor 30 a or 30 b , its lower end ending just below the respective partial intermediate floor. The ventilation pipe 60 is inclined so that the pipe axis is substantially perpendicular to the surface of the partial intermediate floor 30 a or 30 b in the passage area and thus prevents the penetration of bulk material into the ventilation pipe 60 in connection with baffles 102 , 102 a .

The ventilation pipes 60 are expediently connected to a compensating line, not shown, leading to the silo ceiling.

Below the partial intermediate floor 30 b , a level indicator 70 is attached in the wall of the silo container, the sensor of which extends to approximately the middle of the outlet channel 20 b .

In the outlet area of the outlet channels 20 a , 20 b , cage-like vibration devices 80 a , 80 b are arranged, the main axis of which, in the section shown, extends approximately symmetrically to the cut side walls of the respective outlet channel. The Vi brationseinrichtung 80 a , 80 b have the outline of bishops hats and about the same distance to the wall of the respective drain channel. On the outside of the silo, a vibration drive 90 is again mounted without vibration, which is, for. B. can be an unbalance motor, which is expediently rigidly connected with a vibration-insulated coupling rod 92 guided through the silo wall 92 to the associated vibrating device 80 b in the Richness area. Below the vibration drive 90 extends a further level indicator 100 through the silo wall, the sensor extends up to the axial linkage of the vibration device 80 b , that is, extends into the region of the drain opening.

In Fig. 1 a variant for the design of the drain channels, ie drain channels 20 c and 20 d is shown. From the lowest point of the intersection line 14 of the two oblique cones 16 a and 16 b downwards, all horizontal cuts through the discharge channels 20 a , 20 b , 20 c , 20 d result in two circles. The variant with the rigid wall areas 20 , 22 c and 22 d and the flatter wall areas results from a rotation of the two drainage channels around the center of the circles, which result from a horizontal cut at the lowest point of the intersection line 14 . These two circles touch at the lowest point on line 14 . These two drain channels are also provided with vibrating devices 80 c , 80 d , which are constructed similarly to vibrating devices 80 a and 80 b , with their central axes - but vertically - extending in turn into the mouth area of the drain channels. Fill level indicators 100 c and 100 d are also provided here in order to monitor the fill level of the bulk material in the discharge channels 20 c and 20 d .

Fig. 2 shows a plan view from the sectional plane AA in Fig. 1 and illustrates the design and arrangement of the part-intermediate floors and the configuration of the star-shaped flat grid. In the left part of the view, the flat grid is omitted for reasons of clarity. In the exemplary embodiment, the partial intermediate floor has holes 32 , 32 ', 32 ''with different dimensions corresponding to the respective bulk material. The ventilation pipe 60 runs in the edge region of the partial intermediate floor through the latter. The selected shape of the intermediate shelf is particularly easy to manufacture and useful for many conventional silo containers. Of course, other intermediate floor shapes can also be selected.

The right part of FIG. 2 illustrates the configuration of the star-shaped flat grid. It has a central, octagonally shaped frame 44 , at the edge sections of which each radial struts or linkages 44 , 47 , 48 extend outwards to approximately the edge region of the partial intermediate floor 30 b beneath it. The rods 46 , 48 are designed to be continuous and intersect and cross the corresponding walls of the central frame 44 . The coupling rod 52 of the vibration drive 50 runs in the interior of the linkage 46 to the central frame 44 and thus engages essentially in the vicinity of the center of gravity of the flat grid. In the edge region, the rods 46 , 47 , 48 which extend radially outward are rigidly connected to one another by straight transverse struts 45 .

Fig. 3 shows a side view of the drain channel 20 b , seen in Fig. 1 from the right that the vent pipe 60 is carried out approximately at the level of the vibration drive 50 through the silo wall. The individual drive devices 52 of the Vibrationsan drive 50 are shown in more detail and illustrate the three degrees of vibration freedom. As can further be seen from the section, the additional outlet-Vibrationsein direction for the outlet of the drain channel 20 is substantially axially aligned. For the generation of vibrations, the aforementioned vibration drive 90 'is provided, which is also rigidly connected via a coupling 92 ' to the vibration cage 80 b . The latter is suspended on one side on the wall of the outlet channel 20 b fixedly mounted vibrating elements 94 freely movable in the interior of the outlet channel 20 b .

Fig. 4 shows a schematic sectional view of a variant of a drain channel 20 c . The cut is made in a plane vertical to the image plane of FIG. 1 through the axis of the vibration device. The same parts are executed with the same reference numerals as in Fig. 3. The vibration device 80 c is aligned symmetrically to the drain channel axis in this view and freely movable by means of vibrating elements 94 .

The device shown can be in different variants operate. It is possible on one hand, only on one Take out material drain channel. Then the reappearance of the bulk material flow, the vibration drive of the corresponding Acting flat grid operated briefly, causing the flow through the associated part-intermediate floor started again becomes. The other flat grids can remain at rest. No bulk material then flows through the associated outlet channels and there are no annoying densifications that a later Prevent withdrawal and can cause blockages. To Elimination of flow disturbances during the removal of bulk goods the corresponding flat grille can also be operated briefly will. To bulk bridges formed further up in the silo container can eliminate several, if necessary all, flat grids at the same time be made to vibrate.

The lower vibratory drives are used in a known manner to Eliminate blockages of the outlet channels yourself, why you, if necessary in addition to driving the assigned flat grid,  be operated. It can be used especially for large silos with drainage channels that have a large cross-section, the flow of the bulk material can be further improved. The ever because of the operation of the vibration devices level indicators assigned to them are monitored.

Of course, the invention is also on silos with more applicable as two drainage channels. There can be several Drainage channels can be assigned to a partial intermediate floor. Especially However, it is useful to assign a partial grid to each because of a drain channel. The Mas conditions while avoiding natural vibrations of the Silos for the associated flat grids are particularly cheap, which then also just above the partial intermediate floors can be led.

Claims (8)

1.Device for re-excitation of a uniform flow in bulk material silos with a discharge funnel, which runs into at least one discharge duct, a perforated and preferably arched intermediate floor assigned to the discharge funnel, and a flat grating arrangement which swings just above the intermediate floor and which are assigned to one another from the discharge channels and are independent of one another consists of individual flat grids, each of which is driven by a vibrator attached to the vibration-insulated outside of the silo, characterized in that a venting device ( 60 ) is arranged in the discharge funnel below the intermediate floor ( 30 a , 30 b ). 2. Device according to claim 1, characterized in that the ventilation device ( 60 ) is connected by a return line to the upper part of the silo. 3. Apparatus according to claim 2, characterized in that the ventilation device ( 60 ) consists of a ventilation pipe which opens into the drain funnel ( 10 ) just below the intermediate floor ( 30 a , 30 b ) and is connected to the silo ceiling. 4. Device according to one of claims 1 to 3, characterized in that the intermediate floor in several, each Weil only via an outlet channel ( 20 a , 20 b , 20 c , 20 d ) he stretching, independent partial intermediate floors ( 30 a , 30 b ) is divided, each of which a flat grid ( 40 ) and a ventilation device ( 60 ) is assigned. 5. Apparatus according to claim 4, characterized in that the partial intermediate floors ( 30 a , 30 b ) each form arched out and in the upper end region of the respective outflow channel ( 20 a , 20 b , 20 c , 20 d ) are arranged. 6. The device according to claim 5, characterized in that a through the silo wall above the respective outlet channel ( 20 a , 20 b , 20 c , 20 d ) vent pipe ( 60 ) of the venting device each through the part-intermediate floor ( 30 a , 30 b ) extends into the drain channel. 7. Device according to one of claims 4 to 6, characterized in that the flat grid ( 40 ) of the shape of the part-inter mediate floors ( 30 b) are curved and star-shaped. 8. Device according to one of claims 1 to 7, characterized in that in each case in the region of the lower end of a drain channel ( 20 a , 20 b , 20 c , 20 d ) a vibrator device ( 80 a , 80 b , known per se) 80 c , 80 d ) is arranged, which is driven by vibration-insulated vibrators ( 90, 100 ) attached to the outside of the silo.