SU1240709A1 - Arrangement for reloading loose materials - Google Patents

Description

The invention relates to devices for handling bulk materials and can be used in powder metallurgy, chemical, construction and other sectors of the national economy.

The purpose of the invention is to increase the reliability of operation.

The drawing shows the device, the overall appearance.

The device consists of a housing 1 with an inclined nozzle 2. The housing 1 is connected to an inclined diaphragm 3 and is equipped with a conical funnel 4 connected to the tank 5.

In the funnel 4, an elastic seal 6 is installed, and the hollow valve 7 is made in the form of two cones, which have an annular shoulder 8 at the connection point, through holes 9, and are perpendicular contact surfaces with elastic seal 6. The hollow valve 7 can move along the gate axis, since connected with a hollow screw 10, on which the lock nut 11 is installed and the flywheel 12 is fixed.

The device works as follows.

When the container is loaded, the device body 1 is oriented in space so that the axis of the hollow screw 10 is in the vertical plane, the funnel 4 connected to the tank 5 is at the bottom of the valve, and the flywheel 12 is connected to the hollow screw 10 - on top of the valve. Loosening the lock nut 11, rotate the flywheel 12 and move the hollow valve 7, connected to the hollow screw 10, until a necessary clearance is formed between the ring collar 8 and the inner surface of the funnel 4. Then, the inclined pipe 2 of the housing 1 is connected by one pipeline, for example, to the cyclone of the pneumatic transport unit of the bulk material, and the other to the hollow screw 10 with a source of compressed gas. Include a source of compressed gas connected to the hollow screw 10, and provide the flow rate of the working medium through the hollow valve 7, the openings 9 of the collar 8, sufficient to prevent sticking of particles of the bulk material to the walls of the inclined nozzle 2, the inclined diaphragm 3, hollow valve 7 and funnels 4.

Excess gas is then discharged through a special pipe on top of the cyclone to the exhaust manifold of the pneumatic conveying system. This preparation of the shutter to load the tank 5 is completed.

Then, the bulk pneumatic conveying system is turned on, the latter by gravity from the cyclone through the pipeline connected to the inclined pipe 2, the hollow valve 7, the inclined diaphragm 3, the funnel 4 enters the tank 5. After filling the tank 5 to the required level, the pneumatic conveying system turns off

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the material stops flowing into the container.

Rotating the hollow screw 10 behind the flywheel 12 in the direction opposite to the original, move the hollow valve 7 to bring the annular collar 8 in contact with the elastic seal 6. At the same time, the surface of the elastic seal 6 is deformed until the working medium ceases to break into the annular gap . Then the pressure source is disconnected, and the pressure inside the hollow screw 10 and the hollow valve 7 is reset to atmospheric. The hollow screw 10 is fixed in the set position with the lock nut 11, the pipelines are disconnected and turn on the drive of the rotation of the container 5.

The operation of the device when unloading bulk material from the tank is generally similar to its operation when loading, while the device body 1 is also oriented in space so that the axis of the hollow screw 10 is in the vertical plane, but that the funnel 4 connected to the tank 5 is located on top of the valve and the flywheel 12 connected to the hollow screw 10 is at the bottom of the valve.

Then, the inclined pipe 2 of the housing 1 is connected, for example, with an air ejector of the pneumatic transport installation, turning on the compressed air into the ejector and, loosening the lock nut 11, rotating the flywheel 12, move the hollow screw 10. The hollow valve 7 connected to the hollow screw 10 at This also moves along the axis of the device, setting the required annular gap between the inner surface of the funnel 4 and the annular collar 8 of the hollow valve 7. The annular gap that is fixed is fixed by the lock nut 11.

Bulk material from the tank 5 by gravity begins to flow into the ejector of the pneumatic transport installation, where it is picked up by the air flow and transferred to the consumer. After fixing with the lock nut 11 of the hollow screw 10, the latter is connected to a source of compressed gas, after switching on which the flow of working medium through the hollow screw 10, the hollow valve 7 and the openings 9 in the collar 8 begins to receive into the container 5, where it aerates the bulk material and increases its flowability .

35 Having finished unloading the bulk material from the tank 5, without turning off the pressure source connected to the hollow screw 10, rotate the hollow screw 10 behind the flywheel 12 again until the annular collar 8 comes into contact with the elastic seal 6. At the same time, the surface of the elastic seal 6 is first blown off from adhering particles and then deformed until the working medium is compressed no longer breaks into the annular gap.

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Then, the pressure source is disconnected, the mosphoric one, the hollow screw 10 is fixed in position — connected to the hollow screw 10; the pressure is set to its position by the lock nut 11, inside the valve and the screw is reset to at- and the air supply to the ejector is stopped.

Claims (1)

A device for reloading bulk materials containing a container located underneath a conical funnel with a hollow valve installed in its discharge opening with the ability to move in a vertical plane and having openings for supplying a working medium, and an inclined nozzle, characterized in that, in order to increase reliability of operation, the valve consists of two cones connected by bases and made at the junction with an annular collar, while the holes are made in the latter perpendicular to the walls of the funnel, and provided in the funnel located at its perimeter flush with the inner surface of the resilient seal for sealing said apertures. (L 1240709 A1