CS231319B1 - Connection of on-line active control valve - Google Patents

Abstract

The invention relates to a quantity control compressed air. It addresses proportional regulation depending on the height of the blend liquid with simultaneous application of time program on one valve. The principle of the invention is in the control circuit air above the regulatory membrane valve and level probe below the control membrane valve. It is possible to use it when mixing liquids using compressed air as it occurs especially in cement industry. Wiring - characterizes one illustration.

Description

The invention solves the connection of a direct-acting control valve which enables the control of this valve according to a time program and at the same time controlling the amount of air flowing through this valve proportionally to the level of the stirred liquid level.

It is known to employ a control valve which regulates the flow of air not constant or not proportional to the level of the stirred liquid, with the possibility of a smooth transition from regulation to constant flow to proportional regulation. When mixing liquids of, for example, cement sludge with compressed air, it is found that pulse mixing is sufficient. The use of a time program is not addressed in the known control valve, which increases the air consumption.

This disadvantage is overcome by connecting a direct acting control valve operated by a piston sealed by a diaphragm, the principle being that a control air pipe is connected above the diaphragm and the space below the diaphragm is connected to a level probe. A non-return valve is connected in the air supply to the control valve, followed by a control air pipe at the compressed air supply. A remote control valve is connected to the control air pipe.

An exemplary embodiment of a control valve according to the invention is shown in a schematic longitudinal section, wherein the upper control side of the valve is drawn to the left and the lower active side of the valve is drawn to the right.

A non-return valve 2 is connected to the compressed air inlet 1. Its outlet is connected to a control valve 2 * 2, which then flows into the mixing pipe A *. Between the non-return valve 2 and control valve 2 the control air pipe 11 branches and as a three-way remote control. One outlet of the control valve 2 is open to the open atmosphere and the other is connected to the cylinder 12 above the diaphragm 2 of the control valve 2.

A level probe 2 is connected to the space below the diaphragm 2 of the control valve 2. The diaphragm 6 is loaded from the upper side by a spring 8, the bias of which can be adjusted by an adjusting screw 12. parallel to the spindle 2 · The level probe 2 is a tube, with its upper end connected to the space below the membrane 6, with its lower open end immersed in the stirring liquid 14. The mixing tube 1 is immersed in the stirring liquid 14 with its lower open end.

If the compressed air supply is connected via the control valve 2 to the space above the diaphragm 6, the control valve 2 is closed. When the control valve 2 is moved to the position where the compressed air is discharged from the space above the diaphragm 6, the control valve 2 opens in proportion to the pressure in the level probe 2. The compressed air flows into the mixing tube A but also through the throttle 12 under the diaphragm 2 into the level probe 2 · The action of the orifice 12 cuts the air pressure to a value that corresponds to the pressure in the level probe 2> ^co ® is the hydrostatic pressure of the stirred liquid 14 which corresponds to the level in the stirred tank. Accordingly, the control valve 2 also opens or closes. When the level of the stirred liquid 14 decreases, the amount of stirring air is reduced and when the level of the stirred liquid 14 increases, the amount of stirring air is increased to the nominal value. Control valve 2 is controlled according to the selected time program. The non-return valve 2 ensures that the mixed liquid does not flow into the mixing tube A and the level probe 2 when the air pressure drops, thus preventing them from clogging.

The control valve according to the invention limits the amount of mixing air while lowering the level in the stirred tank and at the same time allows the connection of a time program for the implementation of pulse mixing, all of which ensures the saving of compressed air, one of the most expensive energies.

Claims (3)

Connection of a direct-acting control valve actuated by a diaphragm-sealed piston, the inlet space of the control valve being connected to the space below the diaphragm by means of a diaphragm whose axis is parallel to the valve stem, characterized in that the space under the membrane (6) is connected to the level probe (7). 2. Control valve connection according to claim 1, characterized in that a control valve (2) is connected downstream of the control valve (3) after the control valve (2) and the control air pipe (11) is led out to the compressed air supply (1). 3. Control valve connection according to claim 1 or 2, characterized in that a remote control valve (5) is connected to the control air tube (11).