PL100331B1 - SETTING MACHINE FOR PROCESSING MINERAL RAW MATERIALS, ESPECIALLY COAL - Google Patents

Description

The subject of the invention is a jig for the processing of mineral resources, especially coal, with a fluid-filled working space with at least one excitation chamber periodically filled with air to generate pulsation of the fluid contained in the excitation chamber and in the workspace.

In the technique of processing coal, jigs of the type described above are known in which a pulsating control is used air is regulated by an operator who watches the jig during operation. Changes over time the duration of the pulsation of the air stream, when all other parameters of the machine are kept constant, with a value of 1 or 2 milliseconds, which is the smallest control unit, slowly descends or rises The fluid level in the excitation chamber changes, so that time readjustment is required from time to time duration of pulsation by the operator.

The object of the invention is to increase the efficiency of the deposition process and to significantly improve the safety movement and adjustment of the jig described above. According to the invention, this aim was achieved by the fact that the chamber excitation has a capacitive working probe to measure the pulsation of the fluid in the excitation chamber, the probe is suspended. freely between the side walls of the excitation chambers, mostly parallel to them. Thanks to the probe and its indication, there is no need to wait for the influence of pulsation changes in the excitation chamber to the jig working space. Thanks to the probe in the excitation chamber there is up to a measuring instrument is available, which allows to register the ratios in the excitation chamber on an ongoing basis and to perform using it for regulatory interference. In this way, you can benefit from a constant and optimal way of working jigging machines.

According to the invention, it is provided that the probe has at least the length of the excitation chamber wall. Thanks Such a design of the probe ensures that the height of the excitation chamber can be completely used without the probe moving out of the water or without its suspension point in contact with the water. Optimal The use of the excitation chamber is a prerequisite for high, durable and good performance of the jig separation. 2 100 331 It is preferable that the probe has a protective basket. This prevents damage to the measuring elements when removing and reinserting a probe. Probe wear caused by this is also eliminated the continuous impingement of the water, which consumption is increased by the destructive action of the carbon and ash particles. Further it is advantageously achieved that the height of the liquid level builds up in the protective basket, but only after a certain amount adaptation time, for example after a few vibrations, it adapts to changes in the pulsating motion and that hence some damping in the pointer system. Moreover, the invention envisages that as indicated the probe controls the introduction of air into the excitation chambers. Thus, the desired effect is achieved advantageous control of the jig on the basis of measuring excitation pulsations, which has a beneficial effect on deposition of the material to be sorted.

The subject of the invention has been shown in an exemplary embodiment in the drawing in which Fig. 1 shows the jig in a side view with a partial section, and fig. 2 - detail II on an enlarged scale.

Figure 1 shows the layout of the individual working spaces 9 inside the jig 10 with chambers excitation 3. The material feeding takes place at the origin 11, while the material is exiting takes place through funnels 12 and 13 (waste and intermediate assortment) as well as discharge 14 of the assortment petty. The body and walls of the funnels have reinforcing ribs 15. At the bottom of the working spaces there are guide plates 16. Air for pulsation is supplied via the guide elements 17 and directed to the excitation chambers through the holes 18.

Figure 2 shows the excitation chambers 3 positioned on the right and left sides of the space 9 with the probe 1. The probe is placed in the protective basket. The probe itself includes capacitive measuring elements 5, 6, 7, 8. The fluid 2 inside the excitation chamber 3 varies in this case, between the two limit values of AQ and Au. The operation of the jig is as follows: coal, which it is to be processed, it is fed through the transmitting point 11 and is separated on the surface a feldspar centrifuge 20, which is set into a vibrating motion by the fluid and separated from the working fluid with the sieve 19. The processed coal 21 is placed above the feldspar 20. The coal is incorporated vibrations by a feldspar centrifuge, which itself is excited to vibrate by the working fluid. It follows at the same time, the separation of the small components from the larger ones, and the heavy parts separate from them, then that is, there is a division into yield scale, medium-sized coal and fine coal, with individual The assortments are discharged separately through funnels 12 and 13 as well as through an exit opening 14.

The working fluid is excited by pulsating air in the excitation chambers which it displaces the fluid in the excitation chambers and thus, in accordance with the principle of connected vessels, causes vibrations surfaces of the jig working compartment. Duration of the introduction; the pulsating air determines the vibration amplitude for the bath surface.

It turned out that changes in the duration of the pulsating air in the millisecond range are enough to obtain permanent changes in the amplitude of vibrations.

If the injection time for the pulsating air is only slightly too long, breakdowns will occur downward air on the partition 22, which admits air into the working space 9 and leads to errors when checking the contact method of the surface of the deposited material, which then settles. Bled This should always be avoided as it damages the machine. You can use the measuring elements set the limit values that ensure optimal use of the machine without fear of occurrence such a puncture. In such an uncomplicated and inexpensive way, the sorting work is significantly improved, so far controlled manually and with unsatisfactory results.

Claims (4)

Patent claims 1. An settling machine for the processing of mineral resources, especially coal, with a fluid-filled working space, in which at least one excitation chamber is placed, periodically filled with air to generate pulsation of the fluid contained in the excitation chamber and in the working space, characterized by the excitation chamber (3) has a capacitive working probe (1) for measuring the pulsation of the fluid (2) in the excitation chamber (3), the probe (1) suspended freely between the side walls of the excitation chambers (3) and usually parallel to them. 2. Embedding machine according to claim The method of claim 1, characterized in that the probe (1) has at least the length of the excitation chamber wall (3). 3. Embedding machine according to claim The method of claim 1 or 2, characterized in that the probe (1) has a protective basket. 4. Embedding machine according to claims The method of claim 1 or 2, characterized in that, as indicated by the probe, the introduction of air into the excitation chambers (3) is controlled. 100 331 A 10 17 I and ii; «« / »• '» »i' n '» 11 i /' li.-lii 18 k.A .. ^. A; ^ Si