DE2457942B1 - Pipe feeder system with countercurrent for conveying solids of different densities - Google Patents

Description

The invention relates to a device for alternately hydraulic conveying of different solids Weight, for example coal and mountains, using a pipe feeder system with counterflow.

For the hydraulic conveyance of solids of different grain sizes and different densities Significant speed differences occur as a result of the different resistances of the solid parts in the flowing liquid the solid particles on. This has a detrimental effect on the hydraulic delivery because this leads to excessive cloudy concentrations which can lead to blockages.

The profitability of a pipe feeder system increases with the chamber length, as this also applies to the largest chamber length the amount of additional water remains practically the same, as with short chambers and because the movable ones Parts essentially the locking devices have a lower switching frequency.

In practice, the chamber length is determined by the delivery head of the filling pump, as the filling speed must be kept constant during the filling of the chambers.

It is therefore the object of the invention to provide a device for the hydraulic conveyance of solids of different types To create weight that is the greatest possible from the point of view of economic efficiency Operational reliability guaranteed in the production.

According to the invention, this object is achieved in that alternate conveyance is provided, the chamber lengths of a two-chamber tube feeder depending on the weight of a solid to be conveyed are adjustable via locking devices.

In the context of the invention, it is particularly advantageous that the switching of the locking devices effecting the adjustment of the chamber length can be adapted to a measuring device which determines the density of the pulp.
Furthermore, it has proven to be advantageous that the entire chamber lengths are provided for conveying solids with a specific gravity, for example that corresponds to coal, and shortened chamber lengths for solids with a specific gravity greater than that of coal, for example.

The technical progress of the invention can be seen in particular in the fact that in the promotion of Solids with the greatest density, for example from mountains, a liquid column is achieved in which the Turbidity is interrupted by as many water intervals as possible and that in the duct between the carrier liquid and the mountains occurring slip, which can be up to 40%, avoided and prevent constipation.

In the drawing, a two-chamber tube feeder with variable chamber length is shown in one embodiment, which is described in more detail below.
The drawing shows the schematic structure of a two-chamber pipe feeder for coal or mountain conveyance. As soon as the density of the pulp coming from the filling pump 21 exceeds or falls below a certain level, the program control of the pipe feeder is to be influenced by means of an electrical signal via the density measuring device 20 to the effect that the long chambers A and B for coal extraction and the short ones for mountain extraction Chambers are operated. A shortening of the chambers A and B is brought about by the locking devices 9 to 14. The dead times that occur more frequently when the short chambers A and B are operated cause additional water intervals in the delivery line 29 and thus a reduction in the risk of clogging. Experience has shown that the mountains coming from the mining are always deposited directly at the discharge of the pipeline in the sludge bunker 25. It is therefore to be expected that the chamber length will be switched once every time the bunker is emptied.
However, it can also be assumed that coal and mountains are bunkered separately and that the length of the chamber can be switched over as required.

It is also conceivable that a three-chamber tube feeder is used as the conveying device.

In the following, a complete conveying cycle for chambers A and B is described, a difference in the operation of the short chambers and the long chambers only being seen in the more frequently occurring dead times in the short chambers.

The pipe feeder system is a lock system in which the pipe chambers A and B are alternately filled with pulp without pressure in one direction via a filling pump 21. The corresponding chamber is brought under pressure via the pressure equalization elements 6a and Ta and emptied in the opposite direction with the required delivery pressure. The motive water is pumped from the bunker 27 by the pump 19 via the motive water line into the corresponding chamber and via the outgoing delivery line 29. There

^Ö 5 the corresponding other chamber is filled during the conveying time of a chamber A or B and the filling time for a two-chamber tube feeder is considerably shorter than the conveying time, the

The dead time that arises in both processes is bridged by pumping motive water. At the ends of the chambers, in addition to the pressure equalization elements 6a and 7a, there are also pressure relief blocking elements 5a and 8a to depressurise chambers A and B for filling. The time of the depressurization or of the pressure equalization is determined by the contact manometers 23 and 24.

1 sheet of drawings

Claims (5)

Patent claims: 1. Device for the hydraulic conveying of solids of different densities, for example Coal and mountains, by means of a pipe feeder system with counterflow, characterized in that that an alternate promotion is provided, depending on the weight of one to conveying solids the chamber lengths of a two-chamber pipe feeder via locking devices (9, 14) are adjustable. 2. Apparatus according to claim 1, characterized in that the circuit of the chamber length adjustment effecting blocking elements (9 to 14) on a measuring device which determines the weight of the slurry (20) is tunable. 3. Apparatus according to claim 1, characterized in that with the promotion of solids a weight corresponding to the coal, for example, is provided for the entire length of the chamber are. 4. Device according to claims 1 and 3, characterized in that for conveying solids Chamber lengths shortened with a specific gravity exceeding, for example, coal are provided. 5. Apparatus according to claim 1, characterized in that for the alternate promotion of A three-chamber tube feeder is provided for solids of different densities.