DE3150995A1 - Method of preparing coal or suchlike minerals - Google Patents

Abstract

The invention relates to a method of preparing coal or suchlike minerals, according to which a jig bed for the material to be prepared is acted upon by jig strokes in a pulsating manner in a jig chamber filled with water. In order to obtain a high separation effect between coal and waste in an especially quick and simple manner, two or more positive jig strokes separate from one another and having a predetermined stroke length are produced at predetermined time intervals during each jig-stroke phase and only then is the air discharged. <IMAGE>

Description

The invention relates to a method for processing

Coal or the like. Minerals, after which in a setting chamber filled with water a set bed for the set material to be processed is acted upon with pulsating setting strokes will.

There are setting machines for processing coal or the like.

Minerals known in various forms.

In particular, those are known with one or more with water filled setting chambers with a setting bed for the set material to be processed and with one or more arranged under water next to or under the bed pulsating air chambers which can be acted upon by compressed air and which are connected via air lines with air inlet nozzle and air outlet nozzle with the interposition of control valves are connected to an air tank.

It is known that such jigs are used to layer a grain mixture according to the density through the lifting movements of the water, which is predominantly orthogonal pulsates to the bed. To generate these lifting movements, in each setting stroke phase only a single setting stroke is generated, then air is released. During processing the specifically heavier mountains collect from coal in the lower, the specifically lighter coal corresponds to the impulse of the water strokes directed upwards as a result of the setting strokes faster than the heavy mountains. As a result, the coal will continue to be driven upwards. When the water moves downwards, coal and mountains have different rates of descent. The mountains fall faster than the coal and consequently collect further below. Such a sorting only works up to a certain grain size of coal and mountains. Because as can be seen from the influencing variables explained above, can The sorting of coal and mountains according to their density and during the setting stroke process superimpose a likelihood classification. That appearance becomes with indifference denotes, according to which bodies of different specific weights and geometrical Dimensions when sinking in a medium reach the same final fall speed. A similarity classification is consequently undesirable in the processing of coal, because the separation of coal and mountains is required. The indifference occurs however, it is generally used when the material to be settled has a grain size of approx. 0.5 mm to 0 mm reached, because then the mountains float with the coal on the bed, at least with conventional typesetting machines. -To avoid these disadvantages is A jig has been developed in which each air duct has at least two Has air inlet nozzle each with its own control valve and via the second control valve, the control of a superimposed setting stroke takes place. It has namely, it turned out that then a similarity of the setting material itself at Grain sizes of 0.5 mm and less are eliminated when using the conventional basic strokes a setting machine can be superimposed simultaneously or phase-shifted setting strokes. Apparently the superimposed setting strokes cause a pulsating stroke movement of the water in such a way that the layering of the abandoned setting material according to the density during sorting of coal and mountains works even with coal sludge. Anyway it will achieved by the superimposed setting strokes that the specifically heavier ones Mounts on the bed below and the specifically lighter coal collects on top, without a uniformity classification occurring in the finest grain range. These Typesetting machine has to be proven, it is nevertheless regarding their functioning can be further developed.

The invention is based on the object of a processing method indicate the type described above, which is particularly easy and quick a high degree of separation between the coal and the mountains can be established, so that perfect discharge is guaranteed.

The invention solves this problem with a method of the generic type in that in each Setzhubphase two or more separate positive Setting strokes with a given lift height are generated at given time intervals and only then does the air discharge take place. - According to the teaching of the invention is on the one hand worked with several setting strokes in the setting stroke phase, but on the other hand dispensed with a setting stroke overlay. In this way, the setting strokes only change still between the zero line and an upper limit value, so there is a zero crossing prevented. This means that, in relation to the coal grain, a grain-compatible one is achieved in the shortest possible time Creates buoyancy. To generate the positive setting strokes, during each setting stroke phase Compressed air is only admitted into the pressurizable air chambers during the Compressed air is only released after all of the individual setting stroke phases have been generated. This in turn results in a high degree of coal buoyancy with a high degree of selectivity.

Further measures essential to the invention are listed below. Basically, you can work with setting strokes of different lifting heights. The initial stroke is preferably a setting stroke with a maximum stroke height produce, so that the set bed is basically tightened at the beginning of the set stroke phase and then the other set strokes act on the raised set bed and for an optimal separation effect care for. In this context, the invention teaches that on the first setting stroke following set strokes with constant or successively decreasing stroke height will. Because the indifference of the setting material is increasingly being eliminated, so that the following set strokes are only a sort of coal and mountains in the finest grain range and consequently a lower lifting height than request the initial stroke. In this way, energy savings are achieved at the same time.

The setting strokes are expediently at the same time intervals generated. But there is also the possibility of the setting strokes after different To generate time intervals. In addition, the setting strokes can be over each the same lifting time or different lifting times take place.

The advantages achieved by the invention are essentially therein to see that the method according to the invention is particularly easy and quick a high degree of distinction between coal and mountains in the course of the processing of coal is achieved, especially since a setting stroke overlay is dispensed with. Optimal separation effect is achieved even if the grain size of the setting material is 0.5 mm and less amounts to. Due to the optimal separation effect, the coal and tailings discharge is more energy-saving Way relieved.

In the following the invention is based on only one Embodiment illustrative drawing explained in more detail; They show: FIG. 1 a setting machine for Implementation of the method according to the invention in a schematic front view, FIG. FIG. 2 shows a setting stroke diagram for explaining the method according to the invention, FIG modified setting stroke diagram and FIG. 4 a further variant of the setting stroke diagram.

The setting machine shown in Fig. 1 is used for processing Coal or the like. Minerals. This jig has one or more with water 1 filled setting chambers 2 with a setting bed 3 for the setting material 4 to be processed on, furthermore one or more arranged next to the settling bed 3 pulsating with compressed air acted upon air chambers 5, which via air lines 6 with air inlet nozzles 7 with the interposition of control valves 8 for air inlet and air outlet are connected to an air tank 9. This allows the bed 3 for the Apply setting strokes 4 pulsating to the setting material to be processed.

According to FIGS. 2 to 4, two or more are in each setting stroke phase separate positive setting strokes 10 with a predetermined stroke height H in predetermined Time intervals T generated. Only then does the air outlet 11 take place for all setting strokes 10 of the previous setting stroke phase p.

The set strokes 10 are positive half oscillations with respect to the zero line N. - According to Fig. 2 is set with strokes 10 same lifting height H in the same time intervals T and taking into account the same Lift time tH worked. - According to Fig. 3 is a setting stroke 10 with maximum as the initial stroke Lifting height H is generated while the setting strokes following the first setting stroke 10 remain the same Lift height H. - According to Fig. 4, the setting strokes 10 each take place over different Lift times tHt, however, taking into account the same time intervals T and the same Lifting height H.

In addition, there is the possibility that the first setting stroke 10 subsequent setting strokes have successively decreasing stroke height H. Independently of can the setting strokes 10 after different time intervals T while maintaining equal hat times tH are generated.

Claims (8)

"Method for processing coal or the like. Minerals "claims: 1. Process for processing coal od. Like. Ilineralien, according to which a set bed is placed in a setting chamber filled with water is applied pulsating for the material to be processed with setting strokes, d a d u r c h g e k e n n n n z e i c h n e t that in each setting stroke phase two or more of each other Separate setting strokes with a specified lifting height generated at specified time intervals and only then does the air discharge take place. 2. The method according to claim 1, characterized in that with set strokes different lifting heights is used. 3. The method according to any one of claims 1 or 2, characterized in that that a setting stroke with a maximum stroke height is generated as the initial stroke. 4. The method according to any one of claims 1 to 3, characterized in that that the setting strokes following the first setting stroke are constant or successive decreasing lifting height can be generated. 5. The method according to any one of claims 1 to 4, characterized in that that the setting strokes are generated at the same time intervals. 6. The method according to any one of claims 1 to 4, characterized in that that the setting strokes are generated after different time intervals. 7. The method according to any one of claims 1 to 6, characterized in that that the setting strokes take place over the same stroke time. 8. The method according to any one of claims 1 to 6, characterized in that that the setting strokes take place over different stroke times.