RU196480U1 - SEPARATOR FOR CLEANING LIQUIDS - Google Patents

Abstract

The utility model relates to devices for purifying impurities of process fluids used in various industries where there is a need to separate suspensions, as well as for treating natural waters, domestic and industrial wastewaters. The technical result of the utility model is to create a reliable, durable and technological device , which allows to improve the quality of cleaning liquids from solid impurities. The technical result is achieved by the fact that the body is a hollow cylinder, an opening A hole for introducing the liquid to be cleaned is located in the upper part of the housing, an opening for discharging the purified liquid and an opening for discharging contaminated liquid are located in the lower part of the housing, while a hollow cylinder is installed inside the housing, the holes are made in its walls, and a top with The following design features contribute to the achievement of the technical result: the separator is equipped with one or more additional openings for the output of contaminated liquid; the separator is equipped with at least one flushing circuit connecting the hole for the output of contaminated liquid and the hole for the input of the liquid being cleaned; holes in the walls of the hollow cylinder installed inside the housing are located in the upper half of this cylinder; holes in the walls of the hollow cylinder, mounted inside the housing, made in the form of parallel slots forming helical lines with an elevation angle varying from 30 ° to 150 °; the top with a screw swirl has two or more screws located on and equal angular distance; the top with a screw swirl is mounted on a cylinder mounted inside the housing by means of a threaded connection; a cylinder installed inside the housing is attached to the housing by a threaded connection.

Description

The utility model relates to devices for purifying impurities from process fluids used in various industries where there is a need to separate suspensions, as well as for treating natural waters, domestic and industrial wastewater.

The hydrocyclone apparatus is widely known (described in various sources, in particular: http://www.mining-enc.ru/g/gidrociklon/l including a cone-shaped body with an opening for the input of the cleaned liquid and openings for the output of the cleaned liquid and contaminated liquid These devices are manufactured by various enterprises, for example, Scientific and Production Center PromVodOchistka (see https://prom-water.ru)

The disadvantage of the analogue is the imperfect shape of the product, which leads to insufficient cleaning efficiency. The shape of such products determines the occurrence of chaotic vortices in the flow of the liquid being cleaned, as a result of which a part of the impurities remains in the purified liquid. The design of this device excludes its adjustment depending on the volume of the liquid being cleaned, the type and degree of its contamination, and the necessary degree of purification. Under the influence of friction of particles of impurities, parts of this design quickly wear out, while their separate replacement is not provided or is complicated and involves large labor costs.

The technical result of the utility model is to create a reliable, durable and technologically advanced device that can improve the quality of cleaning liquids from solid impurities.

The technical result is achieved by the fact that the casing is a hollow cylinder, the hole for introducing the cleaned liquid is located in the upper part of the casing, the opening for discharging the cleaned liquid and the opening for discharging contaminated liquid are located in the lower part of the casing, while a hollow cylinder is installed inside the casing, in the walls which holes are made, and on its upper base there is a top with a screw swirl.

The following design features also contribute to the achievement of the technical result:

- the separator is equipped with one or more additional holes for the output of contaminated liquid;

- the separator is equipped with at least one flushing circuit connecting the hole for the output of contaminated liquid and the hole for the input of the cleaned liquid;

- holes in the walls of the hollow cylinder mounted inside the housing are located in the upper half of this cylinder;

- the holes in the walls of the hollow cylinder installed inside the housing are made in the form of parallel slots forming helical lines with an elevation angle varying from 30 ° to 150 °;

- the top with a screw swirl has two or more screws located at an equal angular distance;

- the top with a screw swirl is mounted on a cylinder mounted inside the housing by means of a threaded connection;

- a cylinder mounted inside the housing is attached to the housing by means of a threaded connection.

The essence of the utility model is illustrated by the drawing, where Fig. 1 shows a sectional perspective view of a separator in an embodiment with two openings for discharging contaminated liquid and two flushing circuits. In FIG. 2 shows a cross-sectional view of a separator in an embodiment with one opening for discharging contaminated liquid and one flushing circuit. In FIG. 3 shows the different elevation angles of the screw slots in the inner cylinder 2.

The positions in the drawing show:

1 - case;

2 - inner cylinder;

3 - tops with a screw swirl;

4 - inlet;

5 - outlet;

6 - threaded connection of the top and the inner cylinder;

7 - nozzles output contaminated liquid;

8 - flushing circuits;

9 - holes in the inner cylinder;

10 - threaded connection of the inner cylinder and the lower base of the housing;

11 - the angle of elevation of the screw slots;

12 - holes for the withdrawal of contaminated liquid.

The arrows in FIG. 2 shows the direction of fluid movement in the cavities of the separator.

The proposed separator for cleaning liquids is as follows.

The liquid to be cleaned is supplied under pressure through the inlet 4 to the inner space of the vertically mounted housing 1 and is directed downward, twisting when interacting with the screw swirl at the top 3. Next, the external and internal contacting spiral flows of the liquid being cleaned with a single direction of rotation are formed. A downward vortex of the liquid to be cleaned passes along the cylindrical wall of the housing 1, while under the influence of centrifugal force, heavy impurity particles are ejected to the wall of the housing 1 and move down to the holes for the output of contaminated liquid 12. In the lower part of the housing, the vortex of the liquid to be cleaned changes its direction to the upward direction and is directed through the holes 9 into the inner cylinder 2, and then leaves through the outlet 5.

The separator for cleaning liquids can be equipped with a flushing circuit 8. In an advantageous embodiment, the separator can have at least two openings for discharging contaminated liquid 12 and two flushing circuits 8, allowing each of the discharge pipes of contaminated liquid 7 to be flushed if they become clogged without stopping the process the functioning of the separator.

The production of the proposed device from two pipes installed coaxially one inside the other, allows the use of standardized metal or polymer products of mass production, as well as standardized connecting nodes. This ensures high manufacturability of the product and allows you to quickly carry out maintenance and replacement of parts of the separator, eliminating long downtime.

The threaded connection 10 of the inner cylinder 2 and the lower base of the housing allows you to select the inner cylinders 2 depending on the operating conditions of the device - the flow rate of the liquid being cleaned, its contamination, the required degree of purification. In this case, the height and diameter of the inner cylinder 2, as well as the shape and location of the holes 9, can vary. This allows the device to be configured in a wide range of cleaning requirements. Also, thanks to the threaded connection 10, the inner cylinder 2 can be easily replaced in case of wear.

Fixing the inner cylinder 2 on the lower base of the housing allows you to create the optimal shape of the inner space of the separator, minimizing the chaotic turbulence of the flow of the cleaned liquid.

The holes 9 on the inner cylinder in the preferred embodiment are made in the form of parallel slots, while they have the form of helical lines with an elevation angle of 11, varying from 30 ° to 150 °. This angle allows you to optimally select the cleaning speed, eliminating the ingress of large particles of both settling and pop-up impurities in the cavity of the inner cylinder 2.

The top with a screw swirl 3 in the preferred embodiment has two or more screws located at an equal angular distance, which allows you to evenly distribute the fluid pressure on the nodes of the device.

The use of flange connections of the housing 1 and the inlet and outlet pipelines makes it easy to incorporate the device into the technological scheme of the enterprise, and its small weight and size characteristics determine the convenience of its installation and placement.

To manufacture the device, depending on the aggressiveness of the medium being cleaned, steel, cast iron, stainless steel, and polymeric material can be used.

A continuous output of contaminated liquid allows the device to self-clean, which ensures uninterrupted production process and the absence of the need for frequent maintenance.

In the inventive device uses exclusively the energy of the working environment, the functioning of the device is fully ensured by the pressure of the flow of the liquid being cleaned.

The optimal configuration of the device allows to achieve maximum concentration of impurities in the contaminated liquid. The location of the holes for the output of contaminated liquid 12 at a maximum distance from the axis of the device allows you to optimize the process of removing impurities.

The proposed compact design makes it possible to create automated plants, including several devices with different parameters installed in parallel or in series, which allows you to get different fractions.

The inventive design of the utility model has high reliability, maintainability, manufacturability and a wide range of applications in various industries.

Claims (8)

1. The separator for cleaning liquids, comprising a housing with holes for the input of the cleaned liquid, for the output of the purified liquid and for the output of contaminated liquid, characterized in that the housing is a hollow cylinder, the hole for the input of the cleaned liquid is located in the upper part of the housing, the outlet for the output purified liquid and a hole for the output of contaminated liquid is located in the lower part of the housing, while inside the housing there is a hollow cylinder, the holes are made in the walls of which, and on its upper base the top was made with a screw swirl. 2. The separator for cleaning liquids according to claim 1, characterized in that it is equipped with one or more additional openings for the output of contaminated liquid. 3. The separator for cleaning liquids according to claim 1 or 2, characterized in that it is equipped with at least one flushing circuit connecting the hole for the output of contaminated liquid and the hole for the input of the liquid to be cleaned. 4. The separator for cleaning liquids according to any one of paragraphs. 1-3, characterized in that the holes in the walls of the hollow cylinder mounted inside the housing are located in the upper half of this cylinder. 5. The separator for cleaning liquids according to any one of paragraphs. 1-4, characterized in that the holes in the walls of the hollow cylinder mounted inside the housing are made in the form of parallel slots forming helical lines with an elevation angle varying from 30 ° to 150 °. 6. The separator for cleaning liquids according to any one of paragraphs. 1-5, characterized in that the top with a screw swirl has two or more screws located at an equal angular distance. 7. The separator for cleaning liquids according to any one of paragraphs. 1-6, characterized in that the top with a screw swirl is mounted on a cylinder mounted inside the housing, through a threaded connection. 8. The separator for cleaning liquids according to any one of paragraphs. 1-7, characterized in that the cylinder mounted inside the housing is secured to the housing by means of a threaded connection.

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