NO855333L - SILO WITH CIRCULAR ROUND BASIS AND FOR RAZGODS. - Google Patents

Description

The invention relates to a silo with a circular ground plan and for bulk goods, where a lathe is arranged at the head end of a centric support column for/a centric filling device that can be loaded from above and a double screw conveyor that can be raised and lowered, the filling device having a vertically telescopic extendable filling pipe, the double screw conveyor is suspended, which can be raised and lowered, in a crane bridge, the outermost end of which is stored on a circular crane path placed on the silo wall, and the support column is made with ring discs and a centric discharge chute.

In the case of a known large silo of this type (NL patent application 8103486), the filling device and the crane bridge with the double screw conveyor are rotated about the central axis of the silo, with the crushed material falling down through the filling pipe placed just above the filling level and transported radially outwards by means of the horizontal double screw conveyor. The twin screw conveyor is lifted when the fill level rises, but maintains its horizontal position. For emptying, the two screws are driven so that they bring the mass radially inwards, where the mass via ring discs in the support column falls down in an emptying process and is taken out with the help of a screw conveyor. The ring discs are arranged at a distance from each other in the column, and their horizontal ring surface is at least wide enough that the debris will lie on it,

in accordance with the slope angle, and first falls into the discharge chute under the influence of the radially inward transporting twin screw conveyor. When filling such large silos with loose goods, for example coal, lime, gypsum and the like, it is a difficulty that the goods delivered mostly in wagon loads often have varying quality from wagon to wagon (grain build-up, moisture, chemical composition, etc.), such that in the silo, different types of goods are built up, consisting of different qualities of goods. The emptying with the horizontally guided and submerged double screw conveyor in accordance with the outlet also follows this layering,

so that the inhomogeneous composition spreads further, for example to a boiler plant or the like. Similar difficulties also arise with an embodiment known from DE-OS 32 33 742, where a cross conveyor is used which

is placed in one of the lifting stands controlled by the support column and suspended in the turning mechanism and hangs from at least one rope. The emptying takes place outside the centric support column, through a bottom outlet device, whereby a debris funnel is formed where the debris is brought in by means of the radially inward transporting conveyor belt. This known design is not suitable for emptying through a support column made with ring discs.

The purpose of the present invention is to design a silo

of the type mentioned at the outset so that layered material of different quality can be removed during emptying as a largely homogenized mixture.

According to the invention, this is achieved by the double-screw conveyor with its inner end being pivotably supported about a horizontal axis on a lifting stand controlled by the support column and suspended in the lathe, and with its outer end suspended on a lifting device placed on the crane bridge.

With such an embodiment, the double screw conveyor can be arranged at an angle in relation to its horizontal position, so that its outermost end is either higher or lower than the inner end. During filling, a funnel-shaped transverse distribution and layering will be achieved in the raised position, while in the submerged position a cone-shaped transverse distribution and layering will be achieved. For emptying, the twin screw conveyor is brought into an opposite swing position, so that it crosses several layers and thus provides a mixture of these during emptying.

If, for example, a funnel-shaped layering is carried out during filling, with the double-screw conveyor raised, then the extraction takes place with the double-screw conveyor in a lowered position and with a cone-shaped mass profile.

Furthermore, the setting of the double screw conveyor in different swing positions will enable adaptation to different capacity requirements during filling and emptying. A high transport capacity is often required when filling a silo, for example in connection with the emptying of railway wagons, ships and the like. In the case of a lowered position of the double screw conveyor, the drop in the cone-shaped debris profile is utilized, so that the double screw conveyor can be supplied with a correspondingly weaker drive motor. The double screw conveyor's lowered position is also suitable for emptying a silo with a smaller transport capacity.

A favorable constructive solution is available if the twin-screw conveyor is fixed under a pivoting arm supported in the lifting frame by pivoting joints and raised and lowered in the crane bridge.

The inclination of the double screw conveyor can be adjusted depending on the characteristics of the material being crushed, particularly its angle of collapse. Thus, the double screw conveyor is preferably pivotable up and down 45° from the horizontal position.

The invention shall be described in more detail with reference to the drawings, where:

Fig. 1 shows a vertical section through a late silo,

fig. 2 shows a section along line I-1 in fig. 1, and fig. 3 shows an upper part of another embodiment, too

in vertical section.

That in fig. 1 and 2 shows a large silo, whose diameter is usually 8 m or more and whose height is 10 m or more. The silo 1 has a circular ground plan, with a cylinder-shaped wall. The silo has a bottom 2 and a roof 3. Large silos of this type are used to an ever-increasing degree where, for reasons of the environment, it is desirable to prevent the bulk material from being affected by wind, and where it is otherwise necessary to protect the container contents.

In the silo's vertical central axis, a support column 4 is arranged. Its structure will be explained in more detail below. At the head of the support column there is a lathe 5 and above this there is an inlet pipe 6 for the crushed material. Furthermore, there is here a screw conveyor 7 whose outlet opening is connected to a downwardly telescopic extendable filling pipe 8. A crane bridge 9 is also arranged on the lathe 5. This extends radially out approximately to the container wall and is there stored on a crane path 11 on an annular console 10. Under the lathe 5, a ring-shaped lifting stand 12 is arranged. This extends around the support column 4 and is supported on vertical guide tubes 25. This lifting stand 12 is suspended in the lathe 5 by means of several ropes 13. In addition, the lower end of the telescopic filler tube 8 attached to this lifting stand 12.

A swing arm is stored at the end of the lifting stand 12

14. The storage is about a horizontal axis 15. The swing arm is suspended at its outer end in a lifting mechanism 16 by means of a rope 17. The lifting mechanism 16 is mounted on the crane bridge 9. Using the lifting mechanism 16, the swing arm 14 can be raised and lowered. Under the swing arm 14, a double screw conveyor 18 is placed, which has two transport screws 19, 20. These transport screws can either be driven separately or together, with the opposite direction of rotation. The support column 4 is made up of ring discs 21 stacked on top of each other. These are arranged at a distance above each other. The vertically aligned ring disc openings form a discharge chute 22. The radial width of the annular floats is dimensioned so that the waste materials lie on them in accordance with the discharge angle and only fall into the discharge chute 22 when the waste material is pushed on by the radially inward transporting double screw conveyor 18. Below the discharge chute 22 is it arranged a screw conveyor 24 which brings the goods out.

In fig. 1 shows how the silo 1 can be filled with the double-screw conveyor 18 in a lowered position. The waste enters through the inlet pipe 6 and enters the screw conveyor 8

and falls from there through the filling pipe 8 and onto the waste material in the container. The double screw conveyor 18 is operated so that it

distributes the goods radially outwards. During filling, the lathe 5 rotates and then takes with it the crane bridge 9 and the double screw conveyor 18 placed below it. After each full revolution, the lifting stand 12 and the swing arm 14 are lifted corresponding to a layer height. When filling with qualitatively different amounts of stock, layers are formed as in fig. 1 is schematically indicated by the dash-dotted lines 23. During the filling, a layered content will thus build up which has the shown cone shape around the vertical central axis.

For emptying, the double screw conveyor 18 is swung upwards, so that it takes the position indicated by 18', in which position the longitudinal axis of the conveyor crosses the filling layers 23. For emptying, the double screw conveyor 18 or 18' is driven in the opposite direction, so that the goods are transported radially inwards, pressed between the ring discs 21 and falls into the emptying chute 22. This emptying method is particularly suitable for bulk goods that tend to easily get stuck in the silo. In connection with the ring discs 21 and the discharge chute 22, there is thus an outlet from above. Because the double screw conveyor 18 can be given different inclinations during filling and emptying, a favorable mixing of the goods is achieved during emptying. That in fig. The design example shown in 3 essentially corresponds to that described above. In fig. 1, the crane bridge 9 is slightly inclined downwards in the radial direction, while in fig. 3 slopes slightly upwards. In fig. 3, the crane bridge is denoted by 9'. In this way, the swing area for the swing arm 14 and the double screw conveyor 18 can be extended upwards. The roof 3' is similarly designed, i.e. with a central recess. The lowered position of the double screw conveyor 18 is indicated by dashed lines and given the reference number 18'.

Claims (3)

1. Silo with a circular ground plan and for bulk goods, where a lathe is arranged at the head end of a centric support column for a centric filling device that can be loaded from above and a raising and lowering double screw conveyor, the filling device having a vertically telescopic extendable filling pipe, the double screw conveyor is suspended - and can be lowered into a crane bridge, the outermost end of which is supported on a circular crane path placed on the silo wall, and the support column is made with ring discs and a centric discharge chute, characterized by the fact that the double screw conveyor (18) with its inner end is pivotably supported about a horizontal axis (15 ) on a lifting stand (12) controlled by the support column (4) and suspended in the turning mechanism (5), and with its outermost end is suspended on a lifting mechanism (16) placed on the crane bridge (9). 2. Silo according to claim 1, characterized in that the double screw conveyor (18) is fixed under a swinging arm (14) stored in the lifting stand (12) and can be raised and lowered in the crane bridge (99). 3. Silo according to claim 1 or 2, characterized in that the double screw conveyor (18) can be swung up and down from its horizontal position, up to approx. 45°.