SU100000A1 - Sludge flow control method and device for its implementation - Google Patents

Description

A feature of the proposed method of controlling the fluidity of sludge flowing through a calibrated hole in the bottom of the vessel is that the degree of fluidity is determined by the magnitude of the vacuum generated in the impulse tube lowered into the hole. The vacuum in the tube is created by a flow around the mass of the sludge, and the magnitude of this vacuum depends on the flow rate when the consistency of the mass changes.

The drawing schematically shows a device for carrying out the proposed method.

The receiving and measuring reservoir is a vessel / cylindrical with a conical bottom. In the bottom of the bottom, along its axis, there is a measuring nipple 2 with a calibrated orifice.

A measuring tube 3 is inserted along the axis of the measuring nipple 2, the position of which is fixed by means of a clamping sleeve 4. The second end of the impulse tube 3 is led outside the measuring vessel / and connected to the device 5 of type t homer or vacuum pump.

An air tube 6 is inserted into the vessel's body through a regulating clamping sleeve, at the end of which an air flow guide screen 7 is installed, which serves to agitate the sludge to obtain its uniformity.

In the upper HONEY of the vessel 1, there is a drain connection 8, which by means of the steering wheel 9 is set to a certain height along the measuring rod to maintain the sludge at the same level.

The pulse and air tube are vertically displaced and adjusted when the instrument is initially set up.

No. 100000-2 -

A thermometer can be installed to measure the temperature of the slurry in the measuring vessel, and a manometer 10 can be installed to monitor the air pressure.

A certain amount of sludge is fed into the body of the measuring vessel of the device, which is constantly maintained in the vessel at a certain level. The excess sludge is poured through the drain fitting 8.

The sludge, having a constant column height, will flow through a calibrated measuring nipple 2 at a different rate, which will depend on its flowability.

Depending on the speed of the sludge flow, the vacuum created by the source of the sludge will change depending on the speed of the sludge installed inside the measuring nipple 2, and therefore the reading on the device 5, which is connected to the second end of the impulse tube, will change.

The scale of the instrument can be calibrated appropriately and associated with laboratory accepted indicators for determining the fluidity of the sludge according to the diameter of the spreading circle in millimeters.

The proposed device allows the determination of sludge fluidity with the help of such a transfer agent as air, and therefore can be used to transfer indications to indicating or self-recording devices or to the membrane of the jet regulator, as shown, with an arrow //.

The proposed device can use a sludge flow sensor to transfer units for processing raw materials of chatterboxes and mills to automatically adjust the composition of the sludge, as this device will provide an opportunity to receive a pneumatic impulse acting on the membrane of slender hydraulic regulators.

Subject invention

Claims (3)

1. A method for controlling the fluidity of sludge flowing through a calibrated hole in the bottom of the vessel, characterized in that, in order to simplify the measurement, the degree of fluidity is determined by the amount of vacuum generated in the impulse tube installed in the hole. 2. A device for carrying out the method of claim 1, consisting of an cylindrical vessel with a calibrated measuring nozzle in a conical bottom, a drain nozzle for maintaining a constant level, and a pneumatic device for mixing the sludge, in order to eliminate the effect of sludge sticking, The impulse tube attached to a Homer type T instrument or man-vacuum meter is inserted into the measuring socket. 3. The use of the device according to claim 2 as a sludge flow sensor for automatically controlling its composition using known regulating devices, for example, hydraulic jet regulators acting on the instruments of the raw materials aggregates.