RU169956U1 - DEVICE FOR CLEANING LIQUID FROM SOLID PARTICLES - Google Patents

Abstract

The utility model relates to the field of purification of liquids from solid particles, including the purification of domestic and industrial wastewater from solid-state contaminants. The essence of the utility model is that in a device for purifying liquids from solid particles, including a storage tank, a node for supplying the liquid to be cleaned , a site for selecting cleaned from solid particles of liquid from the storage tank, a screw device for separating from the cleaned liquid of solid particles, including installed in the storage tank inclined to it the bottom part of the screw located in the tubular body, as well as the site for the selection of solid particles from the upper part of the auger body, according to a utility model, the supply unit of the liquid to be cleaned is made to supply it to the lower part of the screw body, the surface of the tubular screw body has through holes for draining liquid from the auger body, while the holes are equipped with shielding elements, the lower part of each of which is made in the form of legs, freely installed in the through hole, and the upper part is made in the form of a hat, yvayuschey through otverstie.Tehnicheskim result achieved in the implementation of the utility model is to provide a high degree of cleaning liquid from the solid particles. 2 ill.

Description

The utility model relates to the field of purification of liquids from solid particles, including the treatment of domestic and industrial wastewater from solid-phase pollution.

Known devices for cleaning liquids from solid particles, based on the separation of liquid and solid phases using screw conveyor devices.

So, it is known the device described in [RU 2527460], operating as part of an automated wastewater treatment system.

The device contains a storage tank, a device for separating solid-phase waste from the liquid being cleaned, including a screw located in a tubular body having a perforated outer surface, as well as a container for collecting purified liquid and a solid waste collector. The screw is oriented horizontally, located one third of its length in the bottom of the storage tank, and the rest of the screw is located above the tank for collecting purified liquid.

The cleaned liquid is transported using a screw from the storage tank. In the area located above the container for collecting purified liquid, the liquid phase through the perforations in the tubular body enters the specified container, and the solid phase from the screw exit enters the solid waste collector.

The disadvantage of this device is the insufficiently rational layout of the nodes of the device, in particular, due to the horizontal orientation of the screw and its installation partially inside the storage tank, and partially above the tank for collecting purified liquid.

A device for cleaning liquids from solid particles is described in [RU 2330734], in which separation of the liquid and solid phases of products formed during the processing of oil-contaminated soils takes place. The specified device is selected as the closest analogue.

This device includes a storage tank connected to a node for supplying cleaned liquid to it, made in the form of a conveying screw that feeds the cleaned liquid to the upper part of the specified capacity. In the storage tank there is a screw device for separating solid particles from the liquid being cleaned, including a screw located in a tubular body and located obliquely to the bottom of the tank. On the outer surface of the housing, longitudinally oriented guides are formed, into which the liquid phase enters through the openings in the outlet of the housing. In the output part of the housing there is a channel for removing solid particles from it.

The device is also equipped with a node for the selection of purified liquid from the upper part of the storage tank.

With the help of a screw device, the cleaned liquid containing solid particles is taken from the bottom of the storage tank and transported upstairs. From the outlet part of the auger body, the liquid phase enters the guides and flows through them into the storage tank, and the solid particles pass through the channel for discharging solid particles into the waste collector.

This device has a rational layout.

However, it does not provide a sufficiently high degree of purification of the liquid phase from solid particles, since part of the solid particles can slip from the outlet of the screw into the guides along which the liquid flows into the storage tank.

The technical problem, the solution of which is achieved using the utility model, is to provide a high degree of purification of the liquid from solid particles.

The essence of the utility model lies in the fact that in the device for cleaning liquids from solid particles, including a storage tank, a node for supplying a liquid to be cleaned, a node for selecting a liquid purified from solid particles from a storage tank, a screw device for separating solid particles from the liquid being cleaned, including storage tank inclined to its bottom part is a screw placed in a tubular body, as well as a site for the selection of solid particles from the upper part of the auger body, according to a utility model, the supply unit o the liquid to be searched is made to ensure that it is supplied to the lower part of the auger body, the surface of the tubular auger body has through holes for draining liquid from the auger body, and the holes are provided with shielding elements, the lower part of each of which is made in the form of a leg freely installed in the through hole, and the upper part is made in the form of a hat overlapping a through hole.

Due to the presence of through holes on the surface of the auger housing, the liquid purified from solid particles flows out of it and enters the storage tank. The presence of the above-described shielding elements, freely installed in the through holes, ensures the formation of gap gaps between the bottom surface of the caps and the surface of the auger body, which allow passage through them of a liquid that is practically free of solid particles of contaminants. Moreover, with a relatively large size of the through holes, it is possible to prevent not only large, but also small solid particles from entering the liquid phase.

Free installation of the shielding elements in the through holes of the screw housing is achieved due to the fact that the cross-sectional area of these holes exceeds the cross-sectional area of the legs of the shielding elements. Accordingly, the overlapping of the shields of the shielding elements of the through holes by the hats is achieved due to the fact that the cross-sectional area of the hats of these elements exceeds the cross-sectional area of these holes.

The shielding elements and the screw housing can be made of magnetic materials, providing in the initial position the pressing of the shielding elements to the surface of the screw housing under the action of magnetic forces of attraction.

The shapes of the legs and caps of the shielding elements can be any, in particular, the caps can be rectangular, round, oval, the legs can be rectangular, round or oval in cross section of the rod, and so on.

It is advisable that the shape of the cap and legs of the shielding elements match the shape of the through holes.

Preferred is the placement of through holes with shielding elements in areas located along the upper longitudinal axis of the auger housing.

Thus, the technical result achieved by the implementation of the utility model is to ensure a high degree of purification of the liquid from solid particles.

In FIG. 1 presents a General view of the inventive device; in FIG. 2 is a view A of FIG. one.

The device contains a storage tank 1 for purified liquid, inside of which a screw device is installed, including a screw 2, placed in a tubular body 3. The screw 2 is installed obliquely with respect to the bottom of the storage tank 1, while a part of the housing 3 is located inside the storage tank 1, and part goes beyond it. The screw 2 has helical blades (not indicated in the drawing), the edge sections of which are provided with a protective coating, in particular, made in the form of a strip of flexible elastic material, for example, rubber.

Part of the surface of the housing 3, which is located inside the storage tank 1, has through holes 4 (in the drawing, the position indicates two through holes). In the through holes 4, shielding elements 5, conventionally shown in FIG. 2. The lower part of each element 5 is made in the form of legs, freely installed in the through hole 4, and the upper part is made in the form of a cap overlapping the through hole 4.

These holes 4, in particular, are located on a section of the housing 3 lying along its upper longitudinal axis, and the shielding elements 5 are placed in the holes 4 with the caps outward.

The device also comprises a chamber 6 for the liquid to be cleaned adjacent to the storage tank 1, as well as a node 7 for supplying the liquid to be cleaned from the chamber 6 to the housing 3 of the screw 2. The node 7 is made in the form of a pipe connected to the lower part of the housing 3 and to the chamber 6. Device equipped with a pump 8, which serves for the selection of liquid from the storage tank 1.

The screw device is equipped with a collector 9 of solid waste, as well as a drive 10 and a node 11 for the selection of solid particles from the upper part of the housing 3 of the screw 2.

The node 11 is made in the form of a pipe connected to the housing 3 of the screw 2, under which the collector 9 is installed.

The device operates as follows.

The liquid to be cleaned, in particular wastewater containing particulate particulate matter, is supplied from the chamber 6 through the assembly 7 to the inside of the housing 3. The screw 2 located in the housing 3 is rotated by the drive 10. Wastewater is transported by the screw 2 in the upward direction . The liquid phase through the gap gaps between the bottom surface of the caps of the elements 5 and the surface of the housing 3 of the screw 2 flows into the storage tank 1, and the solid phase remains inside the housing 3 of the screw 2. Solid particles enter the collector 9 of solid waste. Purified water is discharged from storage tank 1 using pump 8.

In this case, a conventional centrifugal pump can be used, capable of pumping liquid that is practically purified from dispersed particles, in contrast to the powerful pump required for pumping wastewater with large solid particles.

Claims (1)

A device for cleaning liquids from solid particles, including a storage tank, a node for supplying a liquid to be cleaned, a node for selecting a liquid purified from solid particles from a storage tank, a screw device for separating solid particles from the liquid to be cleaned, including a screw installed in the storage tank, inclined to its bottom, placed in a tubular body, as well as a site for the selection of solid particles from the upper part of the auger body, characterized in that the node for supplying the cleaned liquid is made to ensure its supply to the lower part of the auger body, the surface of the tubular auger body has through holes for draining fluid from the auger body, the holes being provided with shielding elements, the lower part of each of which is made in the form of a leg, freely installed in the through hole, and the upper part is made in the form of a hat, overlapping through hole.

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