SU707607A1 - Separator - Google Patents

Description

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Claims (2)

(54) The SEPARATOR contains figured disks attached to the outer surface of the drum base with a gasket between them, forming receiving chambers for the buffer fluid, and channels connecting these chambers with the corresponding insert chambers, while the Hfcie disks have acute-angled projections to capture the buffer liquid. The axis of the rod and the channel for removal of the condensed phase from the nozzle are located at an angle of 25-90 to each other. FIG. 1 shows a schematic vertical section of a separator drum; in fig. 2 - section A-A of FIG. one; in fig. 3 - section bb FIG. 2; in fig. 4 and 5 — shaped disk, view from the side of the drum base and from the opposite side, respectively; in fig. 6 shows a section B-B of FIG. 2. The separator contains a drum 1 with a base 2, a pack of plates 3, a cone-shaped insert 4 with covers 5 and nozzles b (figure 2). Inserts 4 and kryh to 5 form internal chambers in which replaceable cylindrical elements 7 and movable pistons 8 with slots 9 on the end face of rod 1O are placed. In the lower part of the base 2, there is a device for supplying the buffer fluid to the chambers of the inserts 4, containing alternately mounted figured disks 11 and separating spacers 12, forming receiving chambers 13 for buffer water. The number of receiving chambers 13 corresponds to the number of groups of symmetrically arranged nozzles 6 intended for simultaneous self-cleaning and connected hydraulically by channels 14 and holes 15 (Fig. 3-5) in the figured disk 11 with a specific receiving chamber 13. Figured disk 11. on the side facing to base 2, it has at least two acute-angle protrusions 16 (FIG. 4) directed in the direction of rotation of the drum, and on the reverse side (FIG. 5) of the grooves 17 to reset the ... buffer water, ... Separator also contains a spindle 1 of the supply pipe 19, depressions 2O in the peripheral cavity of the drum, openings 21 for the viewer of the clarified fraction and channels 22 (FIG. 2) for supplying a thickened phase from the depressions 20 to the nozzles 6 and withdrawing it from the drum. The device works as follows, at once. After eating the drum 1 installed on the spindle 18, the initial suspension is fed through the feed pipe 19, which enters the stack of plates 3, where the separation of suspended particles takes place. The clarified fraction is pushed aside to the center and through the apertures 21 you exit. Discharged into the receiving dish (not shown), the impregnated particles are deposited in the recesses 20 and pass through horizontal channels 22 to the nozzles 6, the smallest cross section of which is formed by the flat end of the replaceable cylindrical element 7 and the groove 9 on the end of the rod 10 and then is thrown the drum. Taking into account the possibility of clogging the smallest flow area of the nozzle 6, periodically, with a certain time interval, the hydraulic unit 23 supplies the receiving chamber 13 with a certain amount of buffer water, which, with acute projections 16 and centrifugal force, moves to the periphery of the shaped disk 11 and enters four of eight channels 14, then enters the inner chamber (the era of the cone-shaped insert 4. Due to the hydrostatic pressure of buffer water on the movable piston 8, the latter moves radially to the center and open After the self-cleaning of the first group of four nozzles, a certain amount of buffer water is fed into the lower chamber 13. With the help of the hydro-system 23, the lower figured disk 11 is turned relative to the upper one at an angle cL i The water captured by the acute protrusions 16 is fed to the vertical holes 15 and further to the next part of the channels 14, which supply water to the not yet cleaned nozzles. If there are eight nozzles and only two acute-angled protrusions on the figured disks, one should have four receiving chambers. After cessation of the supply of buffer water B, the receiving chamber 13, the waste water ({the water is discharged through the nozzles 24 and the flow-through settlement of the nozzle is restored to the calculated value under the action of the centrifugal force of the movable piston). The inner diameter D of the figured disc 11 or of the spacer 12, and through paragraphs 17 enters the channels 25 formed by the housing of the hydraulic unit 26 and the valleys 27 of the figured disc 11, and then comes out of the drum. The separator drum nozzles are expedient because it minimally changes the established separation mode. It is possible to calculate and carry out the separation process and thus, when one of the pairs of diametrically mounted nozzles is constantly self-cleaning. The presence of self-cleaning nozzles reduces the flow area of the nozzle, the time is greater than their number.Thus it is possible to reduce the height of the cone-shaped sediment and, accordingly, increase the diameter of the stack of plates, and hence the productivity of the separator, Fore ula INVENTION 1. Separator V1shyuchayuschy barabats consisting of a base and a cover; a pack of plates, conical inserts fixed at the base with nozzles for unloading the thickened phase, differing from the fact that, in order to self-extract the nozzles, to increase its performance and reliability, there are recesses on the inner surface of the drum to collect the thickened phase inserts, the latter from the side of the sludge space are closed with lids to form internal chambers in which replaceable cylindrical elements and basement pistons are placed, while the nozzle is formed by end faces ited E replaceable cylindrical member and the rod, and in the inserts and formed the basis of the channels for supplying the condensed phase from recesses in the nozzle and discharging it from the drum, the latter is provided with jrcTpoEcTBOM for supplying the buffer fluid in chamber inserts. 2, a separator according to claim 1, characterized in that the device 51l for supplying the buffer liquid contains attached to the outer surface. The base of the drum is shaped disks with a gasket between them, forming receiving chambers for the buffer fluid, and channels connecting these chambers with the corresponding insert chambers, while the figured disks have angular projections for capturing the buffer liquid. 3, the Separator according to claim 1, which is also distinguished by the fact that the axis of the shaft and the axis of the channel for removing the condensed phase from the nozzle are angled 25-90 to each other. Sources of information taken into account during the examination 1. Romankov P. G. and Plyushkin S. A, Liquid separators, L. ,, MashinostroyHHef 1976, p. 238. 707607 // // / S FIG. f five AT 8