UA74981C2 - Device for purification of liquid - Google Patents

Abstract

A device for purification of liquid contains a cylinder-conical housing with tangential inlet duct, drain and sandy branch pipes, a penetrating partition located horizontally in the cylindrical part of the housing separating inlet and drain branch pipes and dividing the space of housing into the lower chamber of purified liquid and the upper chamber of filtrate, and a cylindrical tank connected by conduit with the chamber of filtrate. The penetrating partition is made in the form of overflow pipe of hydrocyclone and truncated cone located coaxially with it, leaning by large base against free end of overflow pipe, and connected by smaller basis with the help of elbow with the conduit of cylindrical tank, equipped with distribution conical or cylindrical partition located coaxially and with a clearance with the inner cylinder face of tank and forming thus two cavities, internal of which through the drainage branch pipe with a stop unit is connected with the atmosphere, and external cavity with the help of circulation pipe is connected with the chamber of reduced pressure of the ejectormounted upstream of the housing inlet duct.

Description

Description of the invention

The invention belongs to the technique of distribution of solid and liquid components of suspensions, in particular to devices 2 for cleaning liquid in the field of centrifugal forces and by the filtering method, and can be applied in various industries.

A known hydrocyclone, which holds a cylindroconical body with a tangential inlet pipe, drain and sand pipes, a drain pipe located in the cylindrical part of the body, dividing the body into two chambers and separating the inlet and drain pipes UDC 622.7, P42, A.M. Povarov "Hydrocyclones at 70 enrichment factories", M., "Nedra", p. 186, fig. 6.1.6, 19781.

In the known hydrocyclone, as in all standard hydrocyclones, it is not possible to remove floating substances from the liquid, which does not ensure sufficient quality of the purified liquid. This is due to the presence of external and internal spiral flows of liquid during the operation of the hydrocyclone, the latter of which moves towards the drain nozzle and in which floating substances that fall into the drain nozzle are concentrated, which also restrains 72 the use of the hydrocyclone.

A cyclone separator is also known, which holds a cylindroconical body with a tangentially located inlet nozzle, drain and sand nozzles, a drain pipe connected to the drain nozzle, a device for stabilizing the liquid vortex located at the outlet of the cone of the housing (US Patent No. Mo 3802570, В04С 3/00, ВО1О 21/26, "Inventions abroad" Mo 7, p. 74, 1974).

The presence of a liquid vortex stabilization device in the separator only improves the removal of floating substances from the liquid, but does not ensure their complete removal from the liquid. This is especially noticeable during the adjustment of the separator, which lasts several days or even weeks. This worsens the quality of the purified liquid and prevents the use of a cyclone separator.

A well-known combined hydrocyclone, which includes a cylindroconical body with a tangential inlet with a 22 nozzle, drain and sand nozzles, a central filter cartridge connected to the drain nozzle of the housing, and a garbage washing device located in the filter cartridge (Aust. svyd. USSR

Mo1567284, IPK VO4S 9/00, Bul. Mo. 20, publ. 30.05.90).

Due to the presence of a filter cartridge, an increase in the quality of the purified liquid was achieved, i.e. a complete removal of floating substances from the liquid, but not from the hydrocyclone body, was ensured. At the same time, there was a need to clean the surface of the filter cartridge from debris and other contaminants and remove them from the hydrocyclone. To clean the surface of the filter cartridge, a backwash device is provided, which has such disadvantages as the need to spend time and labor on maintenance and additional types o energy, such as water or high-pressure air, electrical energy. In addition, the placement of at least a fraction of the filter cartridge in the conical part of the housing worsens the conditions for the distribution of solid and liquid phases by 3o due to centrifugal forces, which increases the possibility of the amount of contamination on the surface of the filter in the cartridge, worsens the conditions of liquid filtration, contributes to the accumulation of debris in the housing and the need to turn off the hydrocyclone to completely clean the filter cartridge and the housing from debris. This, in turn, reduces the performance of the hydrocyclone. Even in the case of successful regeneration of the filter cartridge using a water current, after there is an additional amount of liquid, which also reduces the performance of the hydrocyclone on the filtrate. Z 70 The closest in terms of technical essence to the proposed one is a device for cleaning liquid, which holds a cylindroconical housing with a tangential inlet nozzle, drain and sand nozzles, a permeable partition located horizontally in the cylindrical part of the housing, separating the inlet and drain nozzles and dividing the space of the housing on the lower chamber of the purified liquid and the upper chamber of filtrate, and a cylindrical container connected by a pipeline to the chamber of filtrate | Patent of the Federal Republic of Germany. Mo 2831607, MKY VO1O0 29/38, "Inventions in the USSR and Abroad" Mo 11, p. 18, 19801). and The location of the permeable partition only in the cylindrical part of the housing in comparison with the previous "" hydrocyclone improves the conditions for the separation of solid and liquid phases in the field of centrifugal forces, but the implementation of the permeable partition with the smallest possible filtering surface sharply reduces the filtering capacity of the partition and requires frequent Its cleaning from garbage is provided by backwashing with 20 o'clock filtrate, which flows from the cylindrical container through the pipeline to the most garbage-contaminated part of the partition. But this first requires disconnecting the device from the network, which reduces performance

From the device and the possibility of its use, as a number of consumers need continuous consumption of pure liquid.

The technical task of the invention is to improve the design of the device for cleaning liquid, in which, thanks to the 29 design features of the permeable partition and the cylindrical container and the presence of additional

HF) elements, continuous removal of debris from the device is achieved, reduction of liquid losses during removal of debris and, due to this, increased productivity and expansion of the possibilities of using the device. o The task is achieved by the fact that in the device for cleaning the liquid, which holds a cylindroconical housing with a tangential nozzle, drain and sand nozzles, a permeable partition located horizontally in the cylindrical part of the housing 60, separating the inlet and drain nozzles and dividing the space of the housing into the lower chamber of the cleaned liquid and the upper chamber of the filtrate, and the cylindrical container connected by a pipeline to the chamber of the filtrate, according to the invention, the permeable partition is made in the form of a drain pipe of a hydrocyclone and a truncated cone located coaxially in it, supported by a larger base on the free end of the drain pipe, and a smaller base with connected by an elbow with the pipeline of a cylindrical container, equipped with a distribution conical or cylindrical partition, placed coaxially and with a gap to the inner surface of the cylinder of the container and forming at the same time two cavities, the inner one of which is connected to the atmosphere through a drain pipe with a shut-off device, and the outer the inner cavity is connected by means of a circulation pipeline to the chamber of reduced pressure of the ejector, installed in front of the inlet pipe of the body, in addition, the discharge pipe or the cone of the partition can be made impermeable, the cone of the partition can rest on the free end of the drain pipe with the possibility of vertical movement, and the connecting elbow partially or completely from a flexible sleeve, and the drain pipe and cone of the partition can simultaneously be made impermeable and located with an annular gap that connects the chamber of the cleaned liquid with the filtrate chamber. 70 Fig. 1 shows the proposed liquid cleaning device, vertical section; in fig. 2-4 - too, knots.

The device holds a vertical cylindroconical body 1 with a tangential nozzle 2, a drain nozzle

With a sand nozzle 4 equipped with a valve 5. In the body 1 with an annular gap and a coaxially fixed perforated drain pipe 6, which divides the space of the body 1 into the lower chamber 7 of the purified liquid and the upper /5 chamber 8 of the filtrate and is equipped at the free end of the cylinder with a ring 9 , on which the coaxial perforated cone 10 with an annular gap 11 (Fig. 2-4) rests with its larger base to the inner surface of the cylinder of the drain pipe 6. The cone 10 with its smaller base is connected with the elbow 12 and the pipeline 13 with the valve 14 capacity 15. At the same time, the cavity 16 of the cone 10 and the internal cavity 17 of the cylindrical container 15, which is formed by the distribution partition 18, located coaxially 2o in the container 15, are connected to each other with a gap in the form of an external cavity 19, connected by means of a circulation pipeline 20 to a valve 21 with the reduced pressure chamber 22 of the ejector 23, fitted to the inlet pipe 2 of the body 1. The internal cavity 17 of the container 15 is connected with the atmosphere using the drain pipe 24 with the valve 25.

The liquid to be cleaned under pressure is fed to the ejector 23 inlet, from where it enters at high speed into the Chamber 7 of the housing 1 and moves in it in a helical manner towards the beginning of the conical part of the housing 1, while a portion of the liquid penetrates through the perforations in the cylinder of the drain pipe 6, and another part of it, together with dirt and debris i) continues to move in a helical direction towards the sand nozzle 4. The helical movement of the liquid contributes to the appearance of centrifugal forces, due to which heavy contaminants are concentrated on the surface of the conical part of the housing 1 and, upon reaching the sand nozzle 4 and the open valve 5, leave the device through them. Cleaned from heavy impurities, the liquid and floating substances in the form of garbage are squeezed by heavy impurities to the middle of the housing 1, where together with air and vapors of the liquid, they form a return movement from the sand nozzle 4 to the larger base of the cone 10 of the partition, after which they enter its cavity 16. Moving in the cavity 16 of the cone 10, Ge! a significant part of the liquid penetrates through its perforations, and the second part of the liquid, together with the debris along the elbow 12 and the pipeline 13 and through the valve 14, enters the cavity 17 of the container 15, where the liquid is once again separated from impurities and debris by means of the distribution partition 18. That part the liquid that has penetrated through the partition 18 first enters the cavity 19 of the container 15, and then enters the low-pressure chamber 22 of the ejector 23 through the pipeline 20 and through the valve 21. After that, it is sucked by the main flow of the cleaned liquid into the inlet pipe 2 and together flow into the chamber 7 of the body 1. Then the process proceeds according to the scheme described above, while a portion of the liquid and debris through the drain pipe 24 and the valve 25 leave "

The container 15 is continuous or cyclical, depending on the concentration of garbage in the liquid, and the liquid that has penetrated through c drain pipe 6 and cone 10, in the form of filtrate, first enters the filtrate chamber 8, and then is supplied to the consumer through the drain pipe C. ;" The implementation of a permeable partition in the form of a permeable drain pipe 6 and a permeable cone 10, and the location of the latter coaxially in the middle of the drain pipe would ensure that, with a small height of the permeable partition, it would increase its filtering surface, that is, increase the performance of the device. In addition, this made it possible to place a partition with a developed filtering surface only in the cylindrical part of the body 1, which excludes its influence on the field of centrifugal forces in its conical part. That is, the execution of the drain pipe 6 and the cone 10 of the partition simultaneously permeable, ensures the use of the device in those cases where the use of both centrifugal forces and other cleaning methods is mandatory for cleaning the liquid. The latter, in turn, expands the possibilities of using the device. The presence of elbow 12, pipeline 13, cylindrical container 15 with a partition 18 and a drain pipe 24, as well as a circulation pipeline 20 with a valve 21 and an ejector 23 ensures the continuous removal of waste from the device into the sewer and the return of a portion of the drain liquid to the body 1.

Both the first distinguishing features of the device and the second provide an increase in its productivity. 5B In unforeseen cases of changes in the conditions of liquid purification, contamination of the permeable partition is possible, which may lead to the need to immediately disconnect the device for maintenance. To prevent this

F) the cone 10 rests on the ring 9 (Fig. 3), fixed to the lower end of the drain pipe 6, with the possibility of vertical movement along at least three guides 26, fixed around the perimeter on the inner surface of the free end of the drain pipe 6, and the knee 12 is made partially or completely from a flexible sleeve. At the same time, under the pressure of the liquid on the inner surface of the contaminated cone 10, it rises up along the guides 26, between the ring 9 and the larger base of the cone 10, an annular gap 27 is formed, which, together with the gap 11, connects the chambers 7 and 8 of the housing 1. As a result, the liquid, which has been cleaned of impurities with the help of centrifugal forces, flows from the chamber 7 through the gaps 27 and 11 into the filtrate chamber 8, then to the consumer without the need to immediately stop the operation of the device. In such a case, constructive measures are taken to prevent debris from entering the leachate. It is known that in hydrocyclones the diameter of the internal vortex does not exceed 0.6-0.8 of the size of the diameter of the drain pipe, that debris in the form of floating substances is concentrated in this vortex. Therefore, in the device, the cone 10 is made with a larger base, the diameter of which is larger than the diameter of the vortex and smaller than the diameter of the inner surface of the cylinder of the drain pipe 6. This ensures that the internal vortex enters the middle of the cavity 16 of the cone 1, and then through the sleeve 12 and the pipeline 13 into the container 15 for removal garbage from the liquid and return to the housing 1 of the liquid freed from the garbage.

Making the elbow 12 from a flexible sleeve and resting the cone 1 on the free end of the drain pipe 6 with the possibility of vertical movement expands the possibilities of using the device.

Depending on the concentration of impurities in the liquid and its ability to be cleaned by one or another method or several together, the need to make the drain pipe 6 and cone 10 permeable is chosen, while they 7/0 can be permeable at the same time, the drain pipe 6 is permeable, and the cone 10 impenetrable or vice versa.

In cases where the cleaning of the liquid is possible exclusively by internal forces, and the problem of removing debris remains, then the drain pipe 6 and the cone 10 can be made impermeable, while the cone 10 rests with a larger base on the ribs 28 (Fig. 4), fixed to the inner surface of the free end of the drain pipe 6, and with a gap 11 to this surface, which connects the chambers 7 and 8 of the body 1. The device in this case works like a /5 Conventional hydrocyclone, but additionally equipped with a device for rational removal of garbage.

Making the drain pipe 6 and the cone 10 alternately or simultaneously impenetrable ensures the rational use of cleaning methods in each specific case, the expansion of the design capabilities of the device and the possibilities of its use.

The presence of valves 5, 14, 21 and 25 provide the possibility of regulating the operation of the device, in addition, valves 14, 21 and 25 ensure the disconnection of the container 15 from the system in cases of contamination of its distribution partition 18 or its cleaning from debris without disconnection from the system, while the operation of the device continues First, the valve 25 is fully opened, i.e., the speed of the fluid along the wall of the partition 18 is increased and, when it shows signs of cleaning it from debris, the valve 25 is returned to its initial state. If it is not possible to clean the partition 18 in this way, then, after fully opening the valve 25, the valve 21 is gradually closed, further increasing the speed of the liquid in the cavity 17 of the container 15. If the goal is not achieved in this case, then the container 15 is disconnected from the system without turning off the device. To do this, completely (8) close the valves 14 and 21 from the system, disconnect the conical bottom of the container 15 from its cylindrical body and remove the partition 18 from it and clean it using known methods or replace it with a new one. After that, the body of the container 15, elbow 12 and pipeline 13 are cleaned of debris and dirt, for which the damper 14 is temporarily opened and then closed. After cleaning, the container 15 is collected in the reverse direction, the valves 14, 21 and 25 are returned to their original state or with their help, if necessary, they perform additional adjustment of the operation of the container 15. Hey!

The ability to clean the partition 18 of the container 15 from debris without disconnecting the device from the system ensures a reduction in downtime and, due to this, an increase in productivity and expansion of capabilities - c5 Application of the device. Cha

Thus, the proposed distinguishing features, together with the known ones, provide an expansion of the possibilities of use and an increase in the productivity of the device for cleaning liquid.

Claims (5)

The formula of the invention h - c 1. A device for cleaning a liquid containing a cylindroconical housing with a tangential inlet nozzle, with drain and sand nozzles, a permeable partition located horizontally in the cylindrical part of the housing, separating the inlet and drain nozzles and dividing the housing space into the lower chamber of the cleaned liquid and the upper the filtrate chamber, and a cylindrical container connected by a pipeline to the filtrate chamber -I, which differs in that the permeable partition is made in the form of a hydrocyclone drain pipe and a coaxially cut cone located in it, supported by a larger base on the free end of the drain pipe, and a smaller the base of a cylindrical container connected by an elbow with a pipeline, equipped with a distribution cone so or a cylindrical partition, placed coaxially and with a gap to the inner surface of the cylinder of the container and forming at the same time two cavities, the inner one of which is connected to the atmosphere through a drain pipe with a closing body so, and external cavity according to d with the help of a circulation pipeline, it is connected to the lower pressure chamber of the ejector, installed in front of the inlet pipe of the housing. 2. The device according to claim 1, which is characterized by the fact that the drainage pipe of the partition is made impermeable. C. The device according to claim 1, which is characterized by the fact that the cone of the partition is made impermeable. 4. The device according to claims 1-3, which is characterized by the fact that the cone of the partition rests on the lower end of its drain pipe with the possibility of vertical movement, and the connecting elbow is partially or completely made of (Ф) a flexible sleeve. GI 5. The device according to claim 1, which is characterized by the fact that the drain pipe and the cone of the partition are made impermeable at the same time and are located between each other with an annular gap that connects the chamber of the purified liquid with the chamber in the filtrate. b5