DE1125851B - Discharge regulator for setting machines - Google Patents

Description

Discharge regulator for jigging machines The invention relates to jigging machines for coal or other granular substances with which a pulsating or up and Rushing water flow caused by a grate and above it a flow of water is maintained, which lighter particles of matter or the coal contains, creating a bed or an accumulation of mountains on the Rust develops.

The main purpose of the invention are devices that allow changes to the Display bed height and control or regulate it if necessary.

According to the invention, this is primarily achieved by a pipe in direct connection with the setting barrel, in which the setting pulses act as a kind of air pump, by means of which air is sucked in through a valve and air is expelled through another valve and a discharge line that by increasing or decreasing the height of the mountain bed a larger or smaller piston stroke and thus a stronger or weaker air pressure in the pipeline arises, whereby a pressure-actuated control device is actuated by this air pressure to increase or decrease the extent of the sediment discharge.

The invention will now be described in detail, for example with reference to the drawing, namely FIG. 1 shows a diagrammatic representation of the complete system, while FIG. 2 shows a partial illustration of this system. The Baumsche jig shown in Fig.l consists of an essentially U-shaped housing part 1, which is divided into two parts 2 and 3 by a hanging weir or a partition 4 . The housing part 2 is closed at the top, whereas the part 3, which receives a perforated plate or a grate 5, is open to the outside. In the housing, the water is caused to flow up and down through the grate 5, namely by an air pressure periodically caused by the closed part 2 in a known manner and made to disappear again, during a water flow which contains coal particles 6 and the mountains 7, is generated over the grate 5. The pulsating or upward and downward flow of water causes the formation of a bed or a collection of mountains on the grate 5, which is carried away in a known manner by a bucket elevator or a conveyor device.

A vertical pipe 8 communicates with the space under the grate 5 and flows into the jig above the mean water level. The top End of the tube 8 is closed and is via a tube 22 and a non-return or One-way inlet valve 9 with the outside air and a non-return one-way outlet valve 10 connected to a drain or outlet line. These valves can, automatically or mechanically operated, in phase with the pulsation or up and down Work rolling in the jig.

An air outlet or "sniffer" valve 12 is in the drain line 11 and can be a fine control valve or a fixed opening or have a tube.

The discharge line 11 is connected to a pressure gauge 23 and a tube 24 which projects upwards into the interior of a cylindrical vessel 13, the upper end of which is closed and which is partially immersed in oil contained in an outer vessel 14. The oil is located in the annular cavity between the two vessels and inside the vessel 13, which contains air in its cavity between the oil surface and its closed upper end. As a result of this air pressure or air cushion, the oil level in the vessel 13 is generally lower than the oil level outside this vessel. The vessel 13 is set up for essentially vertical movement, so that when the air pressure rises it tends to lift itself, whereby each subsequent movement causes the operation of the mountain conveyor control, for example by moving a vertical switch rod 15 connected to the closed upper part of the vessel. The rod 15 controls the recovery speed in a suitable manner. For example, the resistance of an electrical circuit can be changed by the rod movement, so that the change in current transmitted by a contactor or relay actuates a rack and pinion system which is used to move the usual gate or lock of the recovery conveyor device 17 for the purpose of changing the recovery conveyor speed : -Optionally, an electric or compressed air motor can be controlled by the rod movement, which moves the gate or the lock in the corresponding direction. The pressure at which the vessel begins to rise can be regulated by changing the weight of the vessel. For this purpose, removable weights 16, for example around the shift rod 15, can be arranged.

The system works as follows: When the part t of the jig is pressurized, the water wells up in part 3 and pipe 8; at high Flow resistance due to high mountain deposits (i.e. when the mountain depth or -Height is large) this surge is stronger than with lower flow resistance.

The water column in the pipe 8 represents a water flask and performs pulsating movements, to be precise at the same time as the movements or surges in the jar, the size of the movements depending on the strength of the sedimentation 7. Each downward movement of the water piston draws air in through the valve 9 from the outside, while each upward movement conveys air through the valve 10 into the drain line 11.

If the mountain sediment bed 7 becomes too high, the flow resistance and air pressure increase; the vessel 13 and the switching rod 15 move upwards and operate the mountains control for the purpose of faster removal of the mountains. If, on the other hand, the mountain deposit is too small, the mode of operation is reversed. At the same time, the pressure gauge 23 displays the changes in air pressure.

If no air were to escape from the drain line 11, the action of the water piston in conjunction with the non-return or one-way valves 9 and 10 would result in a pressure maximum that would never drop. It is one of the tasks of the air outlet valve 12 to counteract such a process by gradually escaping the pumped air so that the pressure in the discharge line 11 drops as soon as the movement of the water piston subsides (i.e. when the height of the mountain deposit and thus the Flow resistance is reduced).

Another task of the air outlet valve 12 is to enable an adjustment in the range of the control or regulating pressure produced in the discharge line 11 in order to be able to adapt the recovery control to the respective operating conditions of the device according to the invention.

Yet another task of the air outlet valve 12 is to to allow a limitation of the display and control pressure working range, in order to thereby reduce the effect of accidental air leaks and in order to the spatial pumping effect of the water piston is stronger compared to the pressure effect to bring to effect.

Fig. 2 shows the arrangement of the vessels 13 and 14 in detail. In order to restrict the pulsating or pendulum movement of the vessel 13, which tends to follow the interrupted or intermittent air delivery of the pump, these movements can be prevented by inhibiting the flow of oil between the inner and outer vessels 13 and 14, respectively. This can be achieved, for example, by closing the bottom of the vessel 13 except for a narrow, annular gap 20 . Further openings for the oil passage can be provided either in the closed bottom of the inner vessel or, as indicated at 21, in its side walls. In the latter case, the openings 21 are preferably arranged near the bottom of the vessel 13 in order to allow air to escape when the internal air pressure exceeds the pressure of the existing oil level. A further damping control can be provided, if required, by arranging one or more circular rings (not shown) in the annular space between the vessels 13 and 14 . All of these rings can be connected to either the inner or outer vessel. The switching or control rod 15 is guided by the guides 50.

The pressure range and / or the volume of the delivered by the pump Air can change according to the particular application of the invention. at An alternative form of the invention can provide for the regulation of both the Pressure as well as the volume of the released air can be taken. In this Trap is a device for the shock absorption or limitation of the on and flowing water column, which forms the water piston of the air pump, is provided. These Device can consist of a perforated plate in the tube 8.

Claims (2)

PATENT CLAIMS: 1. Discharge regulator for setting machines, characterized by a pipe (8) in direct connection with the setting barrel, in which the setting pulses act like an air pump, by means of which air is sucked in through a valve (9) and air through Another valve (10) and a discharge line (11) is ejected through it, in such a way that when the height of the mountain bed increases or decreases, a larger or a smaller piston stroke and thus a stronger or weaker air pressure is created in the pipeline (11) which actuates a pressure control device (13, 14, 15, 16) which increases or decreases the amount of material discharged accordingly. 2. Discharge regulator according to claim 1, characterized in that the discharge line (11) communicates with the atmosphere via an outlet valve (12) stands. Considered publications: German patent specifications No. 661441, 684 771, 854 031, 893 031, 993 066.