DE2460132B2 - DEVICE FOR PROMOTING DISPOSAL MOUNTAINS - Google Patents

Description

The invention relates to a device for conveying offset mountains, preferably from above Days to a dismantling department underground in pipelines by means of a water stream.

A device for introducing flushing offset is already known, in which the offset mountains over Days mixed with water and given up in a downpipe. The sediment is hydraulic flushed into the longwall and introduced there in a similar way to the blown backfill. The water is in collecting basins captured, clarified and pumped out for reuse.

The main disadvantage of the known device is then based on the fact that the water circulation is very large is and associated with the removal of the water is designed to be very expensive.

In contrast, the invention is based on the object of providing a device for promoting offset mountains / u create the mountains using gravity and a hydraulic conveyor system in a pipeline above days h> s η immediate Proximity to the mining operations and which requires very little water circulation and thus saves energy is inexpensive to use.

According to the invention, this object is achieved by that the vertical part of the conveyor consists of a mountain downpipe and a downpipe with a dormant Water and the horizontal part consists of a mixing pipe and a mountain conveyor line and that at the end a cyclone for water separation in the mountain conveying line with a recovery discharge and downstream recovery belt as well as a water basin with a water return is provided wöbe that Water in the mountain sink pipe communicating with a water basin through a water supply pipe connected and the supply of motive water with a speed is provided in the mixing pipe, the rate of fall of the mountains in the mountain sink pipe

"According to" a preferred embodiment of the Invention, the water return is directly connected to the water supply, wöbe, the water clarifier is so dimensioned. that it can absorb all of the circulating water. One such solution is To be aimed for if there is enough space for the creation of such a large clarification basin is or if the creation of a water tank for the water supply line is spatially unfavorable.

Grm for a further embodiment of the invention two control circuits are provided for fully automatic offset conveying, one of which is a control circuit the water circuit and the other control circuit regulates the switching on and off of the uphill task.

In the drawing, an embodiment of the training according to the invention is shown. It shows

F i g. 1 shows the conveying device in a schematic representation in side view and

F i s 2 shows the mixing tube in a schematic representation. According to the schematic representation of the device according to the invention in FIG. 1, classified mountains, for example between 10 and 50 mm, are fed into a recovery downpipe 3 at a feed point 1 via a conveyor belt and a belt scale 2 in a certain amount per unit of time. The recovery downpipe 3 is arranged in a shaft. The mountains abandoned via a funnel-shaped opening in the mountain downpipe 3 reach the water level in the mountain downpipe 4 in free fall. The mountains are braked in the upper zone of the mountain downpipe 4 to their sinking speed in the water.

Since the water in the water sink pipe 4 with the water tank 5 through the water supply line Is connected in a communicating manner, the mountains sinking in the still water can reach the mixing pipe 7. In the following mountain conveyor line 8 there is no shut-off element, so that there is a flow of water from the water tank 5 to the free discharge in the cyclone 9 forms, which in the mixing tube 7 the free-falling mountains captured and carried away.

The manometric height is matched to the length of the recovery line 8 and its diameter so that the slurry reaches the speed required for conveying on the bottom, which also causes the water to separate in the cyclone 9, which has no drive unit. The mountains discharged here in the area of the recovery discharge 10 of the cyclone 9 are supplied to their intended use via a recovery belt 15. The excess water from the water discharge 11 is collected in a clarifier and is returned to the water tank 5 by a pump.
The control station 12 is fully automatic

• i

■ Press the »On« button via control circuit II of the The water circuit is set in motion and, after feedback from the control circuit ί, the recovery belt switched on By pressing the »Off« button, control circuit 1 first switches off the recovery conveyor and after a specified time - when the entire system is free of mountains - by control circuit II of the Water cycle shut down In the event that the recovery belt 15 fails, an "emergency stop" is provided at which the conveyed mountains are directed into the water clarification basin 13.

In a further embodiment of the conveyor device the water tank 5 can be dispensed with if the water return 14 is used directly connects to the water supply 6 Then, however, the water clarification basin 13 must be dimensioned so large that that it can absorb all of the circulating water.

Söhlige hydraulic conveying works without problems if the pulp has a water-solids ratio of 6: 1 and a speed of 6 m / sec. With one line, the one Has a nominal diameter of 200 mm, a delivery rate of 250 t / h can be achieved. Important for the operational process the device is that a maximum delivery rate per unit of time is not exceeded at any time. One However, falling below is irrelevant. With an average rate of descent of the mountains of 0.8 m / sec The water-to-solid ratio of 6: 1 must not be undercut in still water These known factors are used to calculate the required diameter.

In the mixing tube 7, the speed of the inflowing motive water must be about the same order of magnitude as the speed of fall of the mountains ven 0.8 m / sec, so that a 45 ° downward deflection of the mountains occurs, as can be seen from FIG is, and so that in the subsequent tapering in the mixing tube 7, no accumulation can occur.

In the mixing tube 7, the taper according to acceleration and rate of descent must be calculated be, so that a completely continuous entrainment of the conveyed material in the horizontal pipe 8 through the increase in flow velocity takes place.

For this purpose 2 sheets of drawings

Claims (4)

Patent claims: IO "/. 1. Facility for conveying backfilled mountains, '" - preferably from above ground to a mining department underground in pipelines by means of a water flow, characterized in that that the vertical part of the conveyor consists of a recovery downpipe (3) and a downpipe (4) with still water and the horizontal part made up - - a mixing pipe (7) and a recovery pipe - - (8) exists, and that at the end of the mountain conveyor line (8) a cyclone (9) for water separation with a recovery discharge (10) unj downstream , Recovery belt (15) and a water tank (13) "with a water return (14) is provided, wherein the water in the mountain sink pipe (4) with a water basin (5) through a water supply line (6) communicating and in the mixing pipe (7) the supply of motive water with a speed is provided that corresponds to the speed of fall of the mountains in the mountain sink pipe (4) is equivalent to. 2. Device according to claim 1, characterized in that that the water return (14) is directly connected to the water supply (6), wherein the water clarifier (13) is dimensioned in this way. that it take up all of the circulating water can. 3. Device according to claims 1 and 2. characterized in that for the fully automatic Versatzberge promotion two control circuits (I, 11) is provided, with the one control circuit (II) the The water circuit and the other control circuit (I) regulates the switching on and off of the task (1). 4. Device according to claims 1 to 3, characterized in that in the event of failure of the downstream recovery belt (15) an "emergency stop" can be triggered and which is still in the pipeline system mountains located in the water clarifier (13). 35