DE3720988A1 - Lock for granular or coarse bulk materials - Google Patents

Abstract

The present invention relates to an outlet lock from a bunker (9) for bulk materials, in which the bulk material is braked by the arrangement of a drawing-off table (2) and the cone of bulk material is removed in a controllable manner by means of a movable clearing arm (3) or a rotatable drawing-off table (2), as a result of which a controlled sinking of the contents of the bunker occurs. The bulk material removed from the drawing-off table (2) is now fed, in a controlled quantity, to a discharge device (4) which is constructed in an advantageous manner as a cellular wheel. The discharge device (4) ensures the necessary tightness of the closure and takes over the transport of the bulk material from the drawing-off table (2) via the actual lock chamber to the discharge opening (6), where it is taken over by the transport device (10). <IMAGE>

Description

The invention relates to a lock for granular or large pieces Bulk goods, such as B. sand, coal or coke, especially gas-tight, adjustable discharge from a funnel-shaped bunker, in which under half of the bunker outlet a pull-off table is provided by Is cleared, which is the bulk of the cell wheel trained discharge device, which the bulk material feeds the discharge opening via sealed rooms.

Numerous lock systems are known, but a large one Height and thus require a large amount of construction work, in particular when they should be designed to be gas-tight and / or controllable. From the DP 9 55 758, DE Al 27 20 645 and DE Al 29 30 236 it is be knows bulk goods by means of a removal device from the bottom a container and remove the bulk material from a pressure zone in to spend a low-pressure zone and carry it on from there. The disadvantage of this construction is the high construction costs for the Length of the lock and the withdrawal.

The invention has become Task to overcome these disadvantages, and at least one to achieve quasi-continuous bulk discharge at any time can be stopped and started and the low one Height achieved with the greatest possible gas tightness.

The invention is characterized in that the extraction table minde according to the ver around the angle of repose of the bulk material Larger opening of the bunker outlet is formed and that the Clearing arms engaging in the edge of the bulk material cone are arranged and by the rotation of the clearing arm or Pull the bulk material outwards through one or more Lead through openings to the discharge device. Further essential features of the invention are in subclaims 2 to 6 specified.

When the invention was implemented, it surprisingly turned out that that the standard effort could be significantly reduced, because with each a certain rotation of the cell lock or the clearing arm Bulk quantity is removed from the bunker, so that, for. B. one after switched wagon filling system after every x-th rotation of the corresponding wagon was filled and the train moved one wagon further  was pushing, thereby managing both the lock system and the wagon filling system was significantly simplified.

The invention is shown for example and schematically in the connected FIGS. 1 to 5.

Fig. 1 shows a lock system with a fixed extraction table in elevation and

Fig. 2 is a plan view or section along the sectional line II in FIG. 1.

In Fig. 3, a construction variant of Fig. 1 is shown with a rotary feed table and the opposite clearing arm, whereas the

FIGS. 4 and 5 represent plan or sections 3 according to the section lines IV and V in Fig..

In Fig. 1 of the chute 1 is shown in elevation, which has a laterally abgeböschten outlet. The emptied bulk material lies on the fixed extraction table 2 and is fed in portions by a clearing arm 3 which can be rotated about the axis 5 via the extraction table 2 to a passage opening 11 , each portion being dimensioned such that it easily enters a chamber 7 ( FIG. 2 ) a rotary valve can be filled without the tip of the bulk material cone protruding over the rotary valve. This facilitates the rotation of the rotary valve and a good seal. After rotation of the cellular wheel sluice, the bulk material falls through the discharge opening 6 into the transport device 10 below. Instead of the discharge device 4 , which is designed as a cellular wheel, discharge screws, double flap lock and similar constructions can of course also be used. The discharge device 4 is connected to the clearing arm 3 by an axis 5 , so that both devices have the same speed. In Fig. 1 the path of the bulk material is shown by a dash-dotted line from the bunker 9 through the passage opening 11 in the transport device 10 .

In Fig. 2 is a section along section line II in the plan Darge provides. One can see the curved clearing arms 3 , which move example clockwise in the filling direction from the bunker outlet 1 towards the edge of the passage opening 11 about the axis 5 and remove the outside of the slope of the bulk material. From the through opening 11 , the discharge device 4 , which is designed as a cellular wheel, takes over the bulk material and is there for the funnel-shaped discharge device, where it leaves the area of the discharge device 4 . In this construction, it is essential that the discharge opening 6 is arranged offset with respect to the bunker outlet 1 .

In Fig. 3, a concentric arrangement is shown, in which the extraction table 2 is arranged concentrically to the bunker outlet 1 and is swept by fixed clearing arms. Due to the shape of the clearing arms 3 and the rotary movement of the draw-off table, the bulk material is deflected outwards and falls outside the draw-off table into two or more passage openings 11 into the support device 4 below, which is again designed as a cellular wheel and forwards the bulk material to the discharge opening 6 . In this case, the discharge openings of the discharge device can be connected in a funnel manner, so that there is a common discharge opening through which the bulk material falls into the transport device below. In Fig. 4, a section along section line IV is shown in the plan, in which it can be seen that the bulk material is deflected by the rotary feed table 2 outwards into the passage openings 11 .

In Fig. 5 another section is shown in plan according to section line V, in which the transport of the bulk material through the rotary valve to the discharge opening ( 6 ) from this is shown in more detail. In the central and symmetrical arrangement of the bulk material lock, it may be advantageous to arrange a cone 8 protruding into the opening of the bunker outlet 1 on the rotatable extraction table 2 , which facilitates the movement of the bulk material to the outside.

The invention is suitable for bulk goods of all types such. B. sand, Coal or coke, the bulk material also having a higher temperature can point, so that this construction, for example, for Coke dry cooling systems is suitable, with fresh air entering from down in the cooling bunker can be avoided.

Claims (6)

1. Lock for granular or coarse bulk goods, e.g. B. sand, coal or coke, in particular gas-tight, controllable discharge from a funnel-shaped bunker, in which a discharge table is provided below the bunker outlet, which is brushed by clearing arms which feed the bulk material from the carrier device designed as a cellular wheel, which the bulk material over feeds sealed spaces to the discharge opening, characterized in that the extraction table ( 2 ) is formed at least corresponding to the opening of the bunker outlet ( 1 ) which is enlarged by the angle of repose of the bulk material and that the clearing arms ( 3 ) are each arranged to engage in the edge of the bulk material cone and by rotating the clearing arm ( 3 ) or the pull-off table ( 2 ), the bulk material leads outwards through one or more through openings ( 11 ) to the carrying device ( 4 ). 2. Lock according to claim 1, characterized in that the clearing arms ( 3 ) and the extraction table ( 2 ) are arranged concentrically to the bunker outlet ( 1 ). 3. Lock according to claim 1, characterized in that the pull-off table ( 2 ) rotatable and the clearing arms ( 3 ) are arranged stationary. 4. Lock according to claim 2 or 3, characterized in that with the withdrawal table ( 2 ) connected in the opening of the Bunkerauslau fes ( 1 ) projecting displacement cone ( 8 ) is provided. 5. Lock according to claim 1, characterized in that the Bun kerauslauf ( 1 ) is arranged offset to the discharge opening ( 6 ). 6. Lock according to claim 1, characterized in that the carrier device ( 4 ) and the clearing arms ( 3 ) or the pull-off table ( 2 ) are arranged on an axis ( 5 ).