DE2213834A1 - TRANSPORT DEVICE FOR SCHUETTGUETER, IN PARTICULAR BUNKER DISPOSAL DEVICE - Google Patents

Description

Patent attorney Dipl.-Inrj. V / age 7 Stuttgart N, Menzetstrali «40 O O f O O O Λ

Swabian iron and steel works

Company with limited liability

7o ~ 3 Wasseralfingen A 32 8o1-du

March 20, 1972

Transport device for bulk goods,

in particular bunker discharge device

The invention relates to a transport device for bulk goods, in particular a bunker discharge device, with a Conveyor screw and with a discharge chute arranged at the end of the screw, into which the conveyed in the screw trough Bulk material is thrown off.

Conveyor screws are often used for conveying and preferably for metering bulk materials because they have the advantage have that they work reliably on the one hand and usually a lower purchase compared to other subsidies Require investment and, on the other hand, proportionate cause low costs for their operation and maintenance. As long as the bulk material to be conveyed is in the gap is located between the screw and the conveyor trough which usually encloses the screw over its entire circumference, If the filling level is even, it can be assumed that the amount of bulk material conveyed in the unit of time was related to on the unit of time is constant. For this reason, screw conveyors are often used for dosing bulk materials used. However, while the bulk material movement within the screw trough takes place continuously, it occurs at the end of the screw a, based on the time unit very different discharge of bulk quantities. This is based on the fact that, for example For example, with a horizontally arranged screw conveyor, there is a bulk material plug that runs through the last half of the screw flight

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is limited and is exposed in the direction of the Auafallschachtes, tilts when the tip of the last spiral upwards shows. Ea can only be thrown off the bulk material exposed in the direction of the Auafallschachtes. With increasing Cohesion can thereby entrain much larger quantities of bulk material ala this corresponds to the continuously conveying screw flights. Above all, it turns out to be disadvantageous that at the tip of the screw pointing downwards, the last screw flight, the bulk material quantities lying behind it first holds back and only releases when the tip approaches its upper turning point. What is particularly annoying is that the discontinuity caused by breaking off the strand of conveyed goods is greater / greater, the lower the flowability and the greater the cohesion of the bulk material. One can reduce this disadvantage, which is particularly evident in the case of single-flight screw conveyors, in that multi-start screw conveyors are used. With these, the maximum discharge is then reduced according to the number of threads of the worm. The use of multi-flight screws is, however, particularly problematic because compared to single-flight screws Screws with the same screw diameter, the pitch angle of the individual screw flights can be increased accordingly got to. However, the higher the pitch angle of the individual worm threads is selected, the more there is the risk that the bulk material will take part in the rotational movement of the screw flights and that then the conveyor speed is reversed in the axial direction behaves proportionally to the rotational movement.

The invention is primarily based on the object at a Transport device of the type described above, especially in the case of those that are used to dose bulk materials that are placed on indexing or belt scales, a uniform as possible To ensure discharge. For this it is necessary to keep the amount of bulk material discharged in the unit of time as evenly as possible

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to keep.

'To solve this problem, a! Transport device of the type described at the outset, according to the invention, that the discharge shaft adjoining the end of the screw passes through at least one partition wall, preferably extending parallel to the axis of the screw conveyor, is subdivided.

In the arrangement according to the invention, the partition causes aaS the bulk material flow conveyed by the screw in two on top of each other lying bulk material strands is divided. Even with the use of a single such partition it is achieved that the amount of material to be conveyed falling into the discharge chute has twice as much continuity with a single-flight screw conveyor has, which could previously only be achieved by a two-flight screw conveyor.

The evenness of the discharge can furthermore be improved by the fact that in one of the axes of rotation of the screw conveyor, at least approximately parallel arrangement at least two horizontally extending partition walls are provided. It has has also shown that the continuity of the discharge can be significantly improved if in addition to at least one partition wall running horizontally according to the basic concept of the invention and at least one vertical partition extending partition is provided which. in the direction of rotation of the screw conveyor between the bottom dead center of the screw end and the top dead center of the screw end that can be reached thereon “is arranged. In the inventive Measures can generally be said. That in the area up to about six partition walls, of which half horizontally and the other half vertically, a continuity improvement can be achieved as it is otherwise only through a correspondingly high number of flights on the screw conveyor

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would be achievable, but a comparable result could only be achieved even with multi-flight screw conveyors, if the material to be conveyed shows a comparatively low level of lump formation or has a high flowability.

The arrangement according to the invention of at least one horizontally extending partition wall achievable advantages are particularly clear by the described in more detail below and embodiments partially shown in the drawing in a schematic manner. Show it:

Fig. 1 is a serving to illustrate the basic principle of a screw conveyor with a single, dividing wall arranged above the screw shaft in the discharge shaft of the screw conveyor,

FIG. 2 shows a line II-II in FIG Cross-section,

3 shows a second exemplary embodiment with two spaced apart above and below the worm shaft arranged partitions and

FIG. 4 shows a cross section along the line IV-IV in FIG. 3; FIG.

Fig. 5 shows an improved embodiment with two horizontally extending partition walls and two vertical partition walls, each in a representation corresponding to FIGS. 2 and 4 for a third embodiment.

The transport device shown in FIGS. 1 and 2 is provided for bulk goods, which consist of a not shown

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Bunker discharged and in as continuous a flow as possible a cycle or belt scale, not shown, or to be fed to a mixer as a precisely metered component. It contains a screw conveyor 1o in a trough 11 and is at its end shown in Fig. 1 with a shaft 12 in a roller bearing 13 which is located on the outside one in its horizontal cross-section; approximately rectangular discharge shaft 14 is located. The drop shaft is on his The lower end face is open and the conveyed bulk material should be as uniform as possible over the cross-section of the discharge shaft can throw them down. To achieve a better distribution and at the same time to prevent dumps the conveyed bulk material in the manner described above in bulk material plugs that capture larger quantities, when the end of the last worm thread 15 reaches its top dead center, it is just above the worm shaft 12 a horizontally extending partition 16 is provided, which on its end portion adjacent to the screw 1o is beveled so that the resistance that occurs against the flow of bulk material can be kept as small as possible.

To avoid unwanted bulk material compression within the discharge chute and the two through the partition 16 divided chambers 18 and 19, the sum of the clear cross-sections of the two chambers is greater than the cross-section of the bulk material strand moved in the axial direction by the screw conveyor 1o chosen. The bulk material particles getting into the chambers fall largely independently of the position of the end 15 of the last screw flight into the discharge chute 14, because the bulk material strand conveyed by the screw is prevented from doing so by the partition, depending on the screw

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position to tear off over its entire cross-section and tilt.

The second embodiment shown in FIGS differs from the one previously described in that in the vertical drop shaft 14 in addition to the partition 16 arranged above the worm shaft 12 is also provided with a second partition 2o, which is also runs horizontally, but lies below the worm shaft 12. Both partitions 17 and 2o are not designated in any more detail Side walls of the discharge shaft 14 connected by welding. Through the two Tre-nn-walls 16 and 2o result a total of three chambers, which are not specified in detail and with an improvement in the continuity of the discharge bring yourself.

If the bulk material has a particularly strong tendency to form lumps, it can be useful to adjust the discharge cross-section of the screw conveyor to subdivide even more and for this purpose, in the manner shown in FIG. 5, in addition to two horizontally running partition walls 16 and 2ο another fear vertical standing partitions 22 and 23 are provided. In the illustrated embodiment, the two are perpendicular Partition walls 22 and 23 approximately in the middle between the peripheral surface the screw shaft 12 and the lateral surface 24 of the screw conveyor 1o. The same arrangement in terms of Screw shaft 12 and the peripheral surface 24 of the screw conveyor 1o is also recommended for the two horizontal ones Partitions 16 and 2o. In addition, it is useful that both the lower partition wall 2o can be seen in FIG In the same way as the two vertical partitions 22 and 23

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so that the bulk material stream against the occurring resistance can be kept small one against the auger, have zn sharpened end portion.

The particular importance of the inventive design of the failure shaft is that the discharge of the screw conveyor takes place continuously and that it is consequently possible to reduce the amount of bulk material discharged downwards at the discharge shaft to distribute evenly "

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Claims (6)

Expectations My transport device for bulk goods, especially as a bunker discharge device, with a screw conveyor and with a discharge chute at the end of the screw, into which the bulk material conveyed in the screw trough is dropped is, characterized in that the discharge shaft (14) adjoining the screw end through at least one partition (16, 2o, 22, 23), preferably parallel to the axis of the screw conveyor (1o) is divided. 2. Transport device according to claim 1, characterized in that at least one horizontally extending partition (16, 2o) is provided. 3. Transport device according to claim 2, characterized in that in one to the axis of rotation of the screw conveyor parallel arrangement at least two horizontally extending partition walls (16, 2o) are provided. 4. Transport device according to one of claims 1 to 3, characterized in that in addition to at least one horizontally extending partition (16, 2o) and at least one vertically extending partition (22, 23) is provided. 5. Transport device according to one of claims 1 to 4 _f, characterized in that each partition (16, 2o, 22, 23) is tapered towards the screw conveyor at its end portion (17) facing the screw conveyor (1o). -2- 309839/0217 6. Transport device according to one of claims 1 to 5, characterized in that to avoid unwanted bulk material compression within the discharge shaft and the two chambers (18, 19) divided by the partition (16) are the sum of the clear cross-sections of the two chambers (18, 19) is kept larger than the cross section of the front tendon (10) in the transverse direction moving bulk material strand. 309839/0217 Blank page