RU98116265A - METHOD AND DEVICE FOR SUBMITTING A REGULATING LIQUID TO A CENTRIFUGAL SEPARATOR - Google Patents

Claims (7)

1. The method of supplying control fluid to the rotor of a centrifugal separator by means of a feeding device (21), which has a cylinder (25), in which a partition (26) is located with the possibility of its movement, which axially forms a storage chamber (29) located in the cylinder ( 25), and in the storage chamber (29) a predetermined volume of control fluid is stored, and from which at least a part of the volume of control fluid is squeezed out into the rotor during axial displacement, characterized in that a certain part of the volume stored in During storage of the control fluid (29), the control fluid is squeezed out during the first stage after the feed is displaced by the partition (26) by a first distance at an adjustable pressure of the storage chamber (29) through the first outlet channel (33) located in the feed device (21), overcoming in this case, the influence of the resistance of the first stream in the outlet channel (33) with the first stream, which will be higher than the specified minimum stream, while at least part of the first outlet channel (33) is blocked by the opening and closing by an element (31) connected to the partition (26) when the latter is moved a first distance and at least part of the remaining volume of control fluid in the storage chamber (29) is squeezed out during the second stage following the first stage, with continued displacement partitions (26) to a second distance, overcoming the influence of the resistance of the second stream, which will be greater than the resistance of the first stream, from the storage chamber (29) through the second outlet channel (36.37) located in the device for feeding (21) for the second flow and that will be significantly less than the first flow.  2. The method according to claim 1, characterized in that the first and second outlet channels (33 and 36.37, respectively) are kept closed during the displacement of the partition (26) by a third distance, ensuring the location of the first and second distance with a gap between them, and the supply device (21) contains a third outlet channel (38) that connects the storage chamber (29) to the tube (19) and through which the control fluid passes at least during the displacement of the partition by a third distance, overcoming the resistance of the third stream which The second one will be greater than the resistance of the second flow, then open the second outlet channel (36.37) and keep it open during the displacement of the partition by a second distance.  3. The method according to p. 1 or 2, characterized in that the regulatory fluid is extruded from the storage chamber (29) during the first stage with a stream that will be at least two times larger than the flow in which the regulatory fluid is extruded from the chamber storage (29) during the second stage.  4. A device for supplying control fluid to the rotor of a centrifugal separator, comprising a feeding device comprising a cylinder (25), in which a baffle (26) is mounted with the possibility of its axial movement in the cylinder (25), which forms an axial storage chamber (29 ) located in the cylinder (25) and designed to store a given volume of control fluid, an inlet connected to the storage chamber (29) for supplying control fluid to the storage chamber (29) after the partition (26) is displaced to the first the distance, the outlet channel connected to the storage chamber (29) and located in the supply device (21) and through which during the supply of the control fluid to the rotor extrudes at least part of the volume of the control fluid stored in the storage chamber (29), moreover, this extrusion occurs through a tube (19), which after axial displacement of the partition (26) in the second direction is connected to the outlet channel, and means for compressing the partition (26) in the second direction in the process of supplying the control fluid from given force, which will be greater than the resulting fluid pressure force prevailing in the storage chamber (29), characterized in that the device comprises a first exhaust channel (33) connected to the storage chamber (29), which connects the storage chamber (29) to the tube ( 19) and is designed to ensure the formation of a first flow that will be higher than a specified minimum flow passing through this pipeline after moving the partition (26) in the second direction by a predetermined first distance, overcoming the influence of resistance ne the second stream (36.37) connected to the storage chamber (29), which also connects the storage chamber (29) to the tube (19) and is designed to form a second stream through this channel, which will be much smaller than the first stream, while overcoming the influence of the resistance of the second stream, which will be greater than the resistance of the first stream after the partition (26) is displaced by the first distance in the second direction, and the opening and closing element (31) connected to the partition (26) and designed to open and hold the first outlet channel (33) in the open position during the displacement of the partition wall (26) by a first distance in the second direction and at least to partially close the first outlet channel (33), after the partition (26) is displaced by the first distance and held the first outlet channel (33), at least in a partially closed position during the ongoing bias of the partition (26) in the second direction.  5. The device according to claim 4, characterized in that it is arranged to hold the first and second outlet channels (33 and 36.37, respectively) in the closed position after the partition (26) is displaced by a third. the distance that holds the first and second distance with a gap between them, and the device contains a third outlet channel (38), through which the storage chamber (29) is connected to the tube (19) and which is designed to form, at least after the displacement of the partition ( 26) the third distance through which the passing stream overcomes the resistance of the third stream, which is greater than the resistance of the second stream.  6. The device according to p. 4 or 5, characterized in that the means for forcing pressure on the partition (26) in the second direction is designed to provide pressure on the partition (26) using pressurized air, and the partition (26) forms in axial the direction of the pressure chamber, which is designed to fill under pressure with air at a controlled pressure in the process of displacement of the partition (26) in the second direction and to release air in the process of displacement of the partition (26) in the third direction.  7. A centrifugal separator comprising a device for supplying a control fluid, characterized in that the device for feeding is made according to any one of paragraphs. 4-6.