SU1710091A1 - Thin-layer shelf settler - Google Patents

Description

The invention relates to devices for separating suspensions and emulsions under the action of gravity and can be used in the chemical, petrochemical and other sectors of the industry, in particular for the purification of wastewater from mechanical impurities.

A thin-layer shelf settler is known, including a body with inclined shelves in it, patru @ lk supplying the initial suspension, a device for collecting and draining sludge and a collector for draining the clarified liquid, containing pipes with holes installed in pockets. In order to increase the efficiency of the release of pop-up mechanical

impurities, the inclined shelves in the upper part are provided with deaf partitions made of pipes adjacent to each other with openings communicating with the collectors of the outlet of the emerging mechanical impurities and the clarified liquid.

However, in the sump there is no possibility of increasing the separation efficiency by controlling the flow of the separated components. Therefore, with an increase in the amount or volume of sediment or floating impurities, sediment will get into the pockets, contaminated with clarified liquid, and floating impurities through the holes in the pipes will fall into the discharge liquid discharge manifold, also contaminated. When reducing the amount or volume of sediment and floating mechanical impurities, their consumption will also not correspond to the constant gap of the pockets and holes in the pipes, as a result of which the clarified liquid will flow into them, reducing the concentration of sediment or floating mechanical impurities.

The closest to the proposed is a thin-layer strip STEMPER ;.

includes a housing, inclined shelves located inside it with diversion canopies, a device for introducing the initial suspension and draining the sediment, a collector for draining the clarified liquid containing pipes with openings located in the pockets of the visors. In order to increase the separation efficiency of the components, the free ends of the diverting canopies are connected to a device that regulates the gap between the inclined shelves and the canopies.

A disadvantage of the known settling tank is the constancy of the cross sections of the openings of the collector pipes for draining the clarified liquid. With an increase in the amount of clarified liquid, the cross-sectional area of the openings may be insufficient to drain the entire volume of liquid, despite the adjustment of the gap between the shelves and visors. In this case, the clarified liquid will fall into the sediment, diluted it. This reduces the separation efficiency of the low concentrated suspensions. When separating highly concentrated suspensions, the overestimated area of the cross-section of the holes helps to accelerate the removal of the clarified liquid, which at the same time will capture slow-moving sediment particles into its flow, which also reduces the efficiency of the separation of the suspension.

The purpose of the invention is to increase the effectiveness of the separation of the suspension by regulating the cross section of the openings of the collector pipes for drainage of the clarified liquid.

The goal is achieved due to the fact that a thin-layer shelf shelter, including a body, inclined shelves located inside it, a device for introducing the initial suspension and draining the sediment, a collector for draining the clarified liquid containing pipes with holes, is provided with additional rotatable inside the collector pipes tubes in which holes are made and fixedly fixed levers that interact with the mechanism of tube rotation, while the levers pass through grooves made in the tube lines which ensure a constant communication

inter-shelf spaces with cavities of additional pipes. In this case, the pipe turning mechanism is made in the form of a pipe installed with the possibility of reciprocating motion with holes through which the free ends of the levers are buried into it.

It becomes possible to control the separation mode in the sump without disturbing the hydrodynamics between the inclined shelves. This is achieved by blocking the cross-section of the holes in the pipes of the exhaust manifold with the additional pipes installed in them. Due to the presence of hagoB pipes in the collector pipes through which the levers connected to the additional pipes pass, the degree of overlap of the cross section of the holes of the collector pipes by the walls of the additional pipes is regulated. The implementation of the pipe rotation mechanism in the form of a pipe installed with the possibility of reciprocating motion, with openings through which the free ends of the levers are buried into it, is simple to manufacture and reliable in operation. In addition, it is outside the zone of separation, which also contributes to improving the efficiency of separation.

Figure 1 presents the sump, General view; figure 2 - the node, 1 in figure 1: fig.Z section aa in figure 2; figure 4 - section bb in figure 1; figure 5 - node II in fig.Z; on figb section bb In figure 1.

. The thin-layer shelving tank consists of a housing 1, the bottom of which is adjacent to the chamber 2 for collecting sludge and it. through the branch pipe 3. Inside the housing 1 there are inclined shelves 4. In the upper part of the housing 1 there is a device 5 for introducing the initial suspension, which communicates with the sedation chamber 6. A distributing device, made in the form of a collector 7 with openings 8 in the inter-shelf space, is installed above the sediment collection chamber 2. In order to drain the clarified liquid, a collector 9 is placed in the upper part of the shelves 4 with a nozzle 10 containing pipes 11 with openings 12 pointing downwards. Inside pipes 11, additional pipes 13 are installed with the possibility of rotation with holes 14 directed in the same direction as holes 12. On the outer surface of pipes 13, levers 15 are fixedly fixed, passing through grooves 16 made in pipes 11. Levers 15 interact with the mechanism of rotation of the pipes, made in the form of a pipe 17 installed with the possibility of reciprocating motion with holes 18. through which the pipes 17 are buried in the cavity of the pipe

the blunt ends of the arms 15. The tube 17 of the turning mechanism is fixed in the guides 19 and provided with a bracket 20, by means of which it is connected to a threaded bushing 21 covering the threaded shaft 22. The latter is installed in bearings 23 on the lid 24 of the settler. To move the tube 17 at the end of the shaft 22 there is a flywheel 25 with a limb 26. The stroke of the tube 17 is equal to the length of the groove 16.

To remove light or pop-up components, pipes 27 with holes 28 adjoin pipe 11, which are sent to a collector 29 having a branch pipe 30.

Thin layer shelf SINNER works as follows.

The initial suspension through the inlet of the inlet device 5 enters the calm chamber 6, where it is evenly distributed over the cross section of the chamber. Then, the initial suspension enters the collector 7, from where, through the openings 8, it is evenly distributed from the bottom up between the inclined shelves 4. Here the suspension is divided with solid particles released on the upper surfaces of the shelves 4, and the light phase (clarified liquid, floating mechanical impurities) on their lower surfaces.

The solids slide off the shelves 4 under the force of gravity and enter the chamber 2 for collecting and draining. As sediment accumulates in chamber 2, it is discharged from the apparatus through nozzle 3. The clarified liquid rises continuously and enters through the openings 12 and 14 of pipes 11 and 13 into the cavity of pipes 13, then goes to collector 9 and is discharged through pipes 10. . Spurting mechanical impurities through the holes 28 enter the cavities of the pipes 27, then to the collector 29 and through pipes 30 are diverted from the apparatus 7 T1 as the concentration of solid particles in the initial suspension changes, the flow area of the holes 12 of the pipes 11 is changed. To do this, turn the flywheel 25 to the corresponding the angle, which is determined by limb 26. Through the kinematic chain: the flywheel 25, the threaded shaft 22, the threaded sleeve 21, the bracket 22, move the pipe 17 to the left or right. While this, the free ends of the levers 15 passing through the openings 18 move with the pipe 17, rotating with the pipe 13 around its axis, and the pipe 13 overlaps part of the opening 12 of the pipe 11.

Thus, due to the presence of an adjusting device in the form of additional pivot tubes installed inside the collector pipes for drainage of the clarified liquid, it becomes possible to control the separation mode without disturbing the hydrodynamics of the process passing through the inter-shelf space of the settling tank. This increases the separation efficiency of the suspension.

Claims (2)

1. A thin layer shelf trap, comprising a housing, inclined shelves located inside it, a device for entering the initial suspension and sludge removal, a collector for removing the clarified liquid connected to pipes with holes, characterized in that, in order to improve the efficiency of separation of the suspension by adjusting the cross sections of the openings of the collector pipes for drainage of the clarified liquid; it is provided with additional pipes with holes installed rotatably inside the collector pipes for removal of the clarified liquid; with the holes of the main pipes, and levers fixedly mounted on the outer surface of the additional pipes with the possibility of interaction with the mechanism of their rotation and passing through the grooves made in the main pipes. 2. The settling tank according to Claim 1 is from the fact that the mechanism for rotating the additional pipes is made up of a pipe installed with the possibility of reciprocating and moving the pipe with holes through which the free ends of the levers are recessed into it. / / / / / 1b / 9 // / 7 2b 20 LD 12. „/ З j. h .. 2/22 2Ь 5 g g D, I I I -I -I / I / J -IH c II,. // .Fig. it 9ur.5