SU961736A1 - Radial shelf-type settler - Google Patents

Description

(54) RADIAL SHEET SHRINK

The invention relates to devices for separating suspensions under the action of gravity, in particular dd from wastewater treatment from mechanical impurities, and can be used in the chemical, pulp and paper and other industries,

A radial shelf settling tank for separating suspensions is known, comprising a tub of cylindrical shape with a conical bottom, a supply pipe, a device for distributing raw water at the inlet, made in the form of a pipe perforated along the entire height, coaxially with the tank, a thin-layer module made in the form of packages of inclined shelves and a raking device mounted on the side surface of the tank consisting of flat trusses and blades and located in the space between the thin-layer module and the bottom of the device for collecting and removing perishable water. The raking device is moved by a central or peripheral drive 1.

Also known radial shelving sump, comprising a cylindrical body with a conical bottom, the input units of the source water and the output of the treated

water, a sediment raking mechanism mounted on supporting farms, a thin SG module, located above the trusses and made in the form of blocks of inclined shelves, ring treadmills mounted on supporting farms / placed above the blades of the grabs. device, and rollers, mounted on the blocks, based on the running to-

10 horns 2..

The known shelf shelters have insufficient separation efficiency due to the small surface of the clarification and the increase in the distance between the shelves and the height of the sedimentation layer from the center to the periphery.

The closest to the proposed technical essence and the achieved result is a shelf case, comprising a housing with a bottom, devices for introducing and distributing the source water, a means for and discharging clarified water, a means for draining sludge, a thin-layer module with

25 precipitation channels, made in the form of a block consisting of main inclined shelves and additional peripheral inclined shelves installed in the upper part of the block between the main

30 shelves 3.

Due to the presence of additional shelves in the well-known shelf shelter, an increase in the surface of the shutter and a decrease in the height of the settling layer in the upper part of the block as compared to the known clarifiers 5 1 and 2, which leads to a comparative increase in the separation efficiency,

However, with arbitrary installation of additional shelves with a small JQ of the lower ends of the additional shelves from the lower end of the thin-layer: module, i.e. when the length of the additional shelves is close to the length of the main shelves, clogging occurs, ... as well as inter-shelf space: even solidified solid particles; with an optimal distance between adjacent main shelves, and with a relatively significant distance of the lower ends of the additional 20 shelves from the lower end of the thin-layer module, i.e. to insignificant length of additional shelves, reduces -. With the positive effect of installing additional shelves, the 25 drawbacks noted reduce the separation efficiency in a well-known settling tank.

The purpose of the invention is to increase the efficiency of separation in the radial shelving tank.

This goal is achieved by the fact that in a well-known shelving tank, containing a housing with a bottom, devices for introducing and distributing source water, means for collecting and draining clarified water, a device for draining sludge, a thin-layer module consisting of main inclined shelves for | And additional peripheral inclined shelves installed between the main shelves of the block, the distance in radius; from the center of the settling tank to the beginning of additional peripheral shelves, relative-. c to the distance from the center of the settler to the beginning of the block, as 2: 1, 4: 1, 8: 1.

The proposed ratio is optimal for achieving separation efficiency with the simultaneous absence of blockage of inter-shelf space by solid particles. When the ratio parameters change to a smaller side, provided that the distances of 55 to the adjacent main shelves are optimally selected, the interpolar space is blocked by particles of the solid phase, and when they are changed to a larger direction, the separation efficiency is reduced due to a decrease in the surface of the clarification.

FIG. 1 shows the proposed clarifier, general view; in FIG. 2 view along arrow L on FIG. IjHa FIG. 3--. 65

section bb in fig. 2; in fig. 4, section BB, in FIG. 2; in FIG. 5 a section of YYY in FIG. 2; in fig. 6 is a view along arrow D in FIG. five; in fig. 7 is a view along arrow E of FIG. five; in fig. 8 is a view along arrow G in FIG. five.

 The sump consists of a cylinder-shaped body 1 with a conical bottom 2, a device 3 for injecting raw water 3 in the form of a supply pipe located under the body 1, a device 4 for evenly distributing the source water when entering in the form of perforated over the entire height a pipe coaxial with iKOpnycoM 1, a thin-layer module with precipitation channels 5, made in the form of sections of block 6, assembled from radially arranged main inclined precipitation shelves 7 and 8, fastened by means of a frame of pipes 9, device 10 for from Sediment water consisting of flat trusses 11 and blades 12 located in the space between sections of block 6 and bottom 2, bridge 13 located above housing 1 above water level in sump, with peripheral drive 14, star-shaped horizontal frame 15, means 16 for discharge and removal of clarified water 16 of device 17 for sludge removal 17. Sections of block 6 are evenly distributed around the circumference of the sump and are made as separate sectors directed from the center to the periphery. In the central part of the settling tank inside the perforated pipe of the distribution device 4 are arranged around the circumference of the rack 18, on which the plate 19 of the frame 15 is mounted. On the plate 19 there is a ring rail on which the rollers of the frame 15 rest.

Claims (3)

The device 10 for the removal of sediment consists of prime 20 and scrapers 21. Shelves 7 and 8. are installed zigzag (Fig. 3) in a vertical cut in two Russ (upper and lower). The angle of the shelves 7 and 8: j rus, which may be the same or different, is assumed to be greater than the angle of repose of the sediment due to the condition of spontaneous sliding of the sediment in a liquid medium. In the peripheral part of the bottom 2 of the settling tank there is an annular support 22. The sections of the block 6 are provided with rollers 23 for moving and turning them during installation resting on annular channel bars 24 mounted on radial beams. In the sections of block 6 between the shelves 7 and 8, radially additional peripheral inclined shelves 25 are installed so that the radial distances from the center of the settling tank to the beginning of the corresponding channels 5 formed by the shelves 7, 8 and 25 refer to the distance from the center of the settling basin to the beginning of the sections of the block b shelves 7 and 8, as 2: 1, 4: 1, 8: 1. Along the peri-leri section of the block 6 are kept between themselves at a certain distance by brackets 26. The settling tank works as follows. : Source water containing mechanical suspension is fed from the bottom through the supply pipe of the device 3 for input into the perforated distribution pipe of the distribution device 4 Through the holes in the wall of the perforated pipe, water enters the cavity of the housing 1 into the space between the outer surface of the perforated pipe and sections block 6. When water moves in this space, the largest and heaviest particles precipitated from it, precipitating on the bottom 2. Small and light particles enter the thin-layer separation in the inter-shelf shelf. unit sections 6. The passage along the inter-shelf space of sections of unit 6, which is formed both by inclined precipitation shelves 7 and 8, and by additional peripheral shelves 25, at low speed, is freed from solid impurities by gravity forces. Solids are deposited on the upper surfaces of polo 7, 8, and 25 and form a sediment layer that crawls onto the bottom 2 of the settler. The clarified water is collected in the drain of the media. 16 for collecting and from water, water installed in the upper part of the housing 1, and discharged from the sump. When the bridge 13 rotates from the strand 14 through the frame 15 and rods, a torque is transmitted to the raking device 10 to drain the sediment 10. When the flat trusses 11 of the raking device with blades 12 rotate, the sediment moves along the bottom 2 20, from which the precipitate is removed for its intended purpose. If in the process of work | it becomes necessary to inspect and check the condition of the shelf surfaces corresponding to the с sections of the blocks 6 shift - moving on the rollers 23 along the annular channels 24 until the opening of the opening is sufficient to be removed from the cavity of the housing 1. Use of the proposed 40 m radial shelter sump instead of the three existing par radial septic tanks allows to increase the efficiency of wastewater treatment by 1.5 times and to obtain those 1 185 thousand rubles. savings per year. Claims of the invention A radial shelving settler comprising a housing with a bottom, devices for introducing and distributing raw water, means for collecting and discharging clarified water, a device for draining sludge, a thin-layer module with settling channels made in the form of a block consisting of main inclined shelves and additional peripheral inclined shelves installed between the main shelves of the unit, characterized in that, in order to increase the separation efficiency, the radial distance from the cent The integral peripheral shelves refer to the distance from the center of the settling basin to the beginning of the block, as 2: 1, 4: 1, 8: 1. Sources of information taken into account in the examination 1.Baturov V.I., Leibovsky M.r.j Modern septic tanks for water treatment systems. M., 1974, p. 39, 40. 2. USSR author's certificate W 803952, cl. OLD 21/24, 1978. 3. The patent of Germany 1805909, class. On 01 D 21/00, 1974. 25 b 6 gd d-y (g 1g 1 at 5 Srig.4 / 3 2 // 8ud np & epf yrr70