RU222167U1 - INSTALLATION FOR WASTEWATER GREASE SEPARATION - Google Patents

Abstract

The utility model relates to the treatment of water, industrial or domestic wastewater with its separation in sewer systems, in particular to sewerage facilities for separating fatty and oily substances, and can be used in industrial sewerage networks of private houses, cottages, as well as public catering establishments, restaurants, cafes, small food enterprises. The installation contains a housing with an upper sealed cover, the inner part of which is divided into three hydraulically communicating sections and one horizontal hollow sealed section in its upper central part. The first vertical section for separating media with an external inlet for the wastewater pipe contains a removable mesh container and a tray with hydrocyclones located below each other, and at the bottom of its lower right part - a hole with hydraulic communication with the second section. The second horizontal section of the thermal separation of the media contains on the left side the mentioned hole, on the right side - a hole with hydraulic communication with the third section, in the upper part - a thermal contact part of the heating element located directly in the mentioned horizontal hollow sealed section, and an outlet overflow valve located above the said hole with a hydraulic connection to the third section at the installation site of the removable collector-container for collecting fat and oil fractions. The third vertical section of the overflow contains the said hole and an L-shaped overflow visor, one of the shelves of which is welded with its edge to the right side of the said third vertical section of the overflow or the inner part of the body, and the other shelf with its edge is directed upward with the external outlet located in the center opposite it holes for the purified wastewater pipe. The tray is made with nine hydrocyclones, which are located in three parallel rows of three hydrocyclones in each row in such a way that the tray with hydrocyclones in the center of its rectangular flat part is symmetrical both along its horizontal axis of symmetry and along its vertical axis of symmetry. Technical result: expansion of operational capabilities, consisting in the effective implementation of ensuring maximum efficiency of wastewater treatment by increasing the efficiency of separation of media and the speed of separation of said media with an increase in the volume of wastewater treatment per unit of time. 5 salary f-ly, 6 ill.

Description

The utility model relates to the treatment of water, industrial or domestic wastewater with its separation in sewer systems, namely to devices for biological separation or removal of fatty or oily substances or similar floating material using equipment for separating immiscible liquids, in particular to sewer systems structures for separating fatty and oily substances, as well as similar materials from wastewater in pipelines leading to the main collector, and can be used in industrial sewerage networks of private houses, cottages, as well as catering establishments, restaurants, cafes, small food enterprises .

From the existing level of technology, a wastewater treatment plant is known (Patent RU 203029 U1, 03/18/2021, C02F1/00, C02F3/16, C02F3/02), containing a housing divided internally by partitions into four chambers: a receiving chamber, an aeration tank, and a secondary settling tank. and sludge stabilizer; an aeration system connected to the control unit and at least two compressors, which includes: a turbo mode subsystem, a forward cleaning phase subsystem and a reverse cleaning phase subsystem; in this case, the turbo mode subsystem includes a turbo air distributor connected to the main pump, to the aeration tank pump - circulator and to the main pump purge air duct by the corresponding air ducts: the main pump air duct, the circulator pump air duct and the main pump purge air duct; the subsystem of the direct cleaning phase contains, on the one hand, an air distributor, on the other hand, an aeration tank aerator and an external air duct for blowing the coarse fraction filter, connected to each other by air ducts: an air duct for the aeration tank aerator and an air duct for purging the coarse fraction filter, respectively; the reverse phase cleaning subsystem contains an air distributor, on the one hand, and, on the other hand, an aerator of the receiving chamber, a sludge stabilizer pump, an aeration tank pump - a recirculator and a secondary settling tank pump - a grease remover, interconnected by air ducts, respectively, with the distributor connected by a purge air duct secondary settling tank with a secondary settling tank purge nozzle.

A grease trap is also known from the prior art (Patent RU 114949 U1, 04/20/2012, C02F1/40), containing a housing, a removable filter for large fractions in the form of a basket, a shaft with disks for extracting oils and fats with scrapers, separately mounted on the outer on the wall of the housing there is an electrical unit and an electric motor shaft, the housing has a hole for connecting to a drain with untreated water, a pipe for draining purified water and a gutter for draining fat, a heating element, moreover, the housing is made of polymer materials, the heater is combined with a temperature sensor and is made as one element .

The closest technical solution is a device for biological wastewater treatment (Patent RU 96570 U1, 08/10/2010, C02F3/00, C02F9/14), characterized by the fact that it contains a housing with units for supplying wastewater for treatment and removing purified water and excess active sludge, divided by partitions into an aeration chamber and a settling chamber with a flow stabilizer and a blowing device, the aeration chamber is equipped with an aerator and an airlift for pumping the sludge mixture through the flow stabilizer into the settling chamber, the flow stabilizer is made in the form of a round or square pipe, equipped with mounting brackets connected to body, the partitions are made inclined to form a truncated pyramid with open bases, the smaller base of which is directed downwards, located above the aerator of the aeration chamber and equipped with at least one cut-off visor, and the upper base is equipped with a vertical partition connecting the opposite walls of the body and equipped with a reinforcing rib and grease trap, while all elements of the device are made of plastic.

The main disadvantage of the above-described technical solutions is the inability to provide an optimally sufficient degree of wastewater treatment due to the insufficiently effective separation of media and the low separation rate of the mentioned media.

The technical result of the claimed utility model is the expansion of operational capabilities, which consists in the effective implementation of ensuring maximum efficiency of wastewater treatment by increasing the efficiency of separation of media and the speed of separation of said media with an increase in the volume of wastewater treatment per unit time.

This technical result is achieved due to the fact that the installation for grease separation of wastewater contains a steel body with a steel upper sealed lid, the inner part of which is divided into three hydraulically communicating sections and one horizontal hollow sealed section in its upper central part: the first vertical section for separating media from an external outlet under a steel drain pipe for removing sediment or sludge in its lower left part and with an external inlet under a steel waste water pipe in its upper left part, inside of which a removable mesh steel container and a steel tray with steel hydrocyclones, and from the lower right side there is a large hole with hydraulic communication with the second section; a second horizontal section for thermal separation of media, on the left side of which there is the mentioned large hole, on the right side there is a small hole with hydraulic communication with the third section, in the upper part there is a thermal contact part of the heating element located directly in the mentioned horizontal hollow sealed section, and an outlet a steel overflow valve located above the mentioned small hole at the installation site of a removable steel collector-container for collecting fat and oil fractions; a third vertical overflow section, in the lower left part of which there is the said small hole, and in the right part in the center there is an L-shaped overflow visor, one of the shelves of which is welded with its edge to the right side of the said third vertical overflow section or the inner part of the body, and the other shelf - its edge is directed upward with the external outlet hole for the steel pipe of purified wastewater located in the center opposite it.

Moreover, the mentioned hydrocyclones are made in the form of identical hollow cones with uniform wall thickness, completely truncated at the tops and half truncated with oblique protrusions at the bases of the cones in horizontal planes perpendicular to the axes of symmetry of the mentioned cones, and the mentioned steel tray is made with nine mentioned hydrocyclones, which are located vertically downwards truncated tops and flush with halves of truncated bases on its flat rectangular part, and the centers of the axes of symmetry of which are placed on the said flat part along a rectangular grid with equal vertical pitch and equal horizontal pitch, so that the tray with the mentioned hydrocyclones is in the center of the rectangular its flat part is symmetrical, both along its horizontal axis of symmetry and along its vertical axis of symmetry.

In particular, each of the mentioned identical truncated hollow cones can be made in accordance with the following geometric parameters depending on the outer diameter D of its non-truncated base: the height of the said cone h is equal to 1.08D, the outer diameter d of its truncated apex is 0.52D, and the thickness of its wall S is 0.004D.

In addition, the mentioned steel body can be made in the form of a rectangular parallelepiped, made in the frontal plane of a rectangular shape, the long part of which is located horizontally, and the short part is located vertically, with its internal volume divided along the width by steel rectangular sheet sealed partitions, welded sequentially to each other to each other and to the walls of the inner part of the housing, into the three mentioned hydraulically communicating sections and one horizontal hollow sealed section in its upper central part: a small vertical steel partition forming the right side of the mentioned first vertical section for separating media from the inner upper part of the housing along its height, less than the height of the inside of said body, a large hole in hydraulic communication with the second mentioned section, the height of which is equal to the difference in height of the inside of said body and said small vertical steel partition, as well as the left part of said horizontal hollow sealed section; horizontal-angular, located at an angle with an elevation from left to right - from the first mentioned section to the second, and horizontal steel partitions forming the upper part of the mentioned second horizontal section of thermal separation of media and the lower part of the mentioned horizontal hollow sealed section; a large vertical steel partition forming the right part of the said second horizontal thermal separation section, the right part of the said horizontal hollow sealed section, the left part of the said third vertical overflow section with a small opening of hydraulic communication with the mentioned second horizontal thermal separation section, the height of which is equal to the difference value the heights of the interior of said body and said large vertical steel partition.

Moreover, each of the mentioned steel elements of the device can be made of stainless steel.

In this case, the mentioned stainless steel can be made of AISI 304 or 08Х18Н10 grade.

In addition, the lower part of said housing may be equipped with at least four leveling feet that regulate the horizontal alignment of said device body in relation to its installation height.

Moreover, the mentioned heating element can be made of a flat-shaped silicone type with a power of at least 30 W with a temperature sensor and fixed to the mentioned horizontal steel partition in the mentioned horizontal hollow sealed section.

The essence of the utility model is illustrated by drawings, which show a particular case of the proposed installation for wastewater grease separation: Figure 1 shows the main view of the wastewater grease separation installation; figure 2 is an axonometric projection of an installation for wastewater grease separation; figure 3 is an axonometric projection of a tray with nine assembled hydrocyclones; figure 4 is an axonometric projection of the outlet overflow valve; figure 5 is a cross-sectional axonometric projection of an illustrative image of the operation of a wastewater grease separation plant; Figure 6 is a cross-sectional axonometric projection of an illustrative image of the operation of an outlet overflow valve in a wastewater grease separation plant, where:

1 - housing of the installation for grease separation of wastewater;

2 - sealed housing cover;

3 - first vertical section of media separation;

4 - second horizontal section of thermal separation of media;

5 - third vertical section of overflow;

6 - horizontal hollow sealed section in the upper central inner part of the housing;

7 - drain pipe for removing sediment or sludge under the external outlet in the lower left part of the first vertical section of media separation;

8 - wastewater pipe for the external inlet in the upper left part of the first vertical section of media separation;

9 - removable mesh container;

10 - tray with hydrocyclones;

11 - hydrocyclones;

12 - large hole with hydraulic communication between the first vertical section of media separation and the second horizontal section of thermal separation of media;

13 - small hole with hydraulic communication between the second horizontal section of thermal separation of media and the third vertical section of the overflow;

14 - heating element;

15 - outlet overflow valve;

16 - removable collector-container for collecting fat and oil fractions;

17 - L-shaped overflow visor;

18 - pipe for purified wastewater under the external outlet in the central right part of the third vertical section of the overflow or the inner part of the housing;

19 - oblique protrusions formed by half truncation of the bases in a horizontal plane perpendicular to the axes of symmetry of the hydrocyclone cones;

20 - equal vertical steps of arrangement of hydrocyclones in a rectangular grid on a flat rectangular part of the tray;

21 - equal horizontal steps of the arrangement of hydrocyclones in a rectangular grid on a flat rectangular part of the tray;

22 - center of symmetry of the flat rectangular part of the tray;

23 - horizontal axis of symmetry of the flat rectangular part of the tray;

24 - vertical axis of symmetry of the flat rectangular part of the tray;

25 - small vertical rectangular sheet steel partition;

26 - horizontal-angular rectangular sheet steel partition;

27 - horizontal rectangular sheet steel partition;

28 - large vertical rectangular sheet steel partition;

29 - adjusting feet;

30 - temperature sensor.

A special case of implementing an installation for grease separation of wastewater can be performed as follows: the installation for grease separation of wastewater contains a steel body 1 with a steel upper sealed cover 2, the internal part of which is divided into three hydraulically communicating sections 3, 4 and 5 and one horizontal hollow sealed section 6 in its upper central part: the first vertical section 3 for separating media with an external outlet under a steel drain pipe 7 for removing sediment or sludge in its lower left part and with an external inlet under a steel sewage pipe 8 in its upper left part, inside in which a removable mesh steel container 9 and a steel tray 10 with steel hydrocyclones 11 are sequentially located on top of each other, and a large hole 12 with hydraulic communication with the second section 4 is located on the lower right side of its part; the second horizontal section 4 for thermal separation of media, in the left part of which there is the mentioned large hole 12, in the right part there is a small hole 13 with hydraulic communication with the third section 5, in the upper part there is a thermal contact part of the heating element 14 located directly in the mentioned horizontal hollow sealed section 6, and an outlet steel overflow valve 15, located above the mentioned small hole 13 at the installation site of a removable steel collector-container 16 for collecting fat and oil fractions; the third vertical section 5 of the overflow, in the lower left part of which there is the mentioned small hole 13, and in the right part in the center there is an L-shaped overflow visor 17, one of the shelves of which is welded with its edge to the right part of the mentioned third vertical section 5 of the overflow or the inner part housing 1, and the other shelf is directed upward with its edge, with the external outlet hole for the steel pipe 18 of purified wastewater located in the center opposite it.

Moreover, the mentioned hydrocyclones 11 are made in the form of identical hollow cones with uniform wall thickness, completely truncated at the tops and half truncated with oblique protrusions 19 at the bases in horizontal planes perpendicular to the symmetry axes of the mentioned cones, and the mentioned steel tray 10 is made with nine mentioned hydrocyclones 11, which are located vertically downward with truncated tops and flush along the halves of the truncated bases on a flat rectangular part of it, and the centers of the axes of symmetry of which are located on said flat part of it along a rectangular grid with an equal pitch of 20 vertically and an equal pitch of 21 horizontally, so that the tray 10 with the mentioned hydrocyclones 11 in the center 22 of its rectangular flat part is symmetrical, both along its horizontal axis 23 of symmetry, and along its vertical axis 24 of symmetry.

Moreover, each of the mentioned identical hollow truncated cones can be made in accordance with the following geometric parameters depending on the outer diameter D of its non-truncated base: the height of the mentioned cone h is equal to 1.08D, the outer diameter d of its truncated top is 0.52D, and the thickness its walls S is equal to 0.004D.

In addition, the mentioned steel body 1 can be made in the form of a rectangular parallelepiped, made in the frontal plane of a rectangular shape, the long part of which is located horizontally, and the short part is located vertically, with its internal volume divided along the width by steel rectangular sheet sealed partitions 25, 26 , 27 and 28, welded sequentially to each other and to the walls of the inner part of the housing 1, into the three mentioned hydraulically communicating sections 3, 4 and 5 and one horizontal hollow sealed section 6 in its upper central part: a small vertical steel partition 25, forming the right part of the first mentioned vertical section 3 of separating the media from the inner upper part of the housing 1 in its height, less than the height of the inner part of the mentioned housing 1, a large hole 12 with hydraulic communication with the second mentioned section 4, the height of which is equal to the difference in heights of the inner part of the mentioned housing 1 and the mentioned small vertical steel partition 25, as well as the left part of the mentioned horizontal hollow sealed section 6; horizontal-angular 26, located at an angle with an elevation from left to right - from the first mentioned section 3 to the second 4, and horizontal 27 steel partitions forming the upper part of the mentioned second horizontal section 4 for thermal separation of media and the lower part of the mentioned horizontal hollow sealed section 6; a large vertical steel partition 28 forming the right part of the mentioned second horizontal thermal separation section 4, the right part of the mentioned horizontal hollow sealed section 6, the left part of the mentioned third vertical overflow section 5 with a small hole 13 of hydraulic communication with the mentioned second horizontal thermal separation section 4 , the height of which is equal to the difference in height between the inner part of said body 1 and the said large vertical steel partition 28.

Moreover, each of the mentioned steel elements of the device can be made of stainless steel.

In this case, the mentioned stainless steel can be made of AISI 304 or 08Х18Н10 grade.

In addition, the lower part of said housing 1 may be equipped with at least four adjustment feet 29 that regulate the alignment of said device housing 1 in the horizontal plane according to its installation height.

Moreover, the mentioned heating element 14 can be made of flat-shaped silicone type with a power of at least 30 W with a temperature sensor 30 and fixed on the mentioned horizontal steel partition 27 in the mentioned horizontal hollow sealed section 6.

The installation for grease separation of wastewater operates as follows: the mentioned steel body 1 of the device is made in the form of a rectangular parallelepiped, made in the frontal plane of a rectangular shape, the long part of which is located horizontally, and the short part is located vertically, with its internal volume divided along the width by steel rectangular sheets sealed partitions 25, 26, 27 and 28, welded sequentially to each other and to the walls of the inner part of the housing 1, into the three mentioned hydraulically communicating sections 3, 4 and 5 and one horizontal hollow sealed section 6 in its upper central part. After connecting the device to the sewer system, industrial waste flows through the pipeline through the sewage pipe 8 into the inlet into the first vertical section 3 of media separation, in which solid waste is separated from wastewater: solid waste is retained in a removable mesh container 9 for its further disposal service personnel. In this case, fats and oils are also separated from water by means of nine hydrocyclones 11 installed in tray 10 by means of the centrifugal force created in the cones and increasing the speed of media separation. Moreover, the mentioned hydrocyclones 11 are made in the form of identical hollow cones with uniform wall thickness, completely truncated at the tops and half truncated with oblique protrusions 19 at the bases of the cones in horizontal planes perpendicular to the symmetry axes of the mentioned cones, and the mentioned steel tray 10 is made with nine mentioned hydrocyclones 11, which are located vertically downward with truncated vertices and flush along the halves of truncated bases on a flat rectangular part of it, and the centers of the axes of symmetry of which are located on the said flat part of it along a rectangular grid with an equal pitch of 20 vertically and an equal pitch of 21 horizontally, such that the tray 10 with the mentioned hydrocyclones 11 in the center 22 of its rectangular flat part is symmetrical, both along its horizontal axis 23 of symmetry, and along its vertical axis 24 of symmetry. Moreover, each of the mentioned identical hollow truncated cones can be made in accordance with the following geometric parameters depending on the outer diameter D of its non-truncated base: the height of the mentioned cone h is equal to 1.08D, the outer diameter d of its truncated top is 0.52D, and the thickness its walls S is equal to 0.004D. Next, partially purified wastewater through a large hole 12 with hydraulic communication between the first vertical section 3 of media separation and the second horizontal section 4 of thermal separation of media respectively enters the second section 4, where the secondary separation of fats and oils from water occurs by heating the fats using a heating element 14 with a temperature sensor 30, located in a horizontal hollow sealed section 6 in the upper central inner part of the housing 1, made with a sealed lid 2, and the overflow of the above-mentioned fats and oils through the outlet overflow valve 15, located in the upper extreme part of the second mentioned section 4, into a removable collector-container 16 for collecting fat and oil fractions. Into the third vertical section 5 of the overflow, through a small hole 13 with a hydraulic connection between the second horizontal section 4 of thermal separation of media and the third vertical section 5 of the overflow, purified waste flows, which then passes through the L-shaped overflow canopy 17 and through the pipe 18 of purified sewage connected to the sewerage system water flows into the sewer. In this case, the device is additionally equipped with a drain pipe 7 for removing sediment or sludge under the external outlet hole in the lower left part of the first vertical section 3 of media separation, as well as adjusting legs 29, through which the said body 1 of the device is aligned in a horizontal plane according to the height of its installation.

The specified technical result is achieved due to the fact that, on the one hand, the structural design of the tray with nine cyclones placed on the tray with a geometric arrangement, optimally covering the entire flat working surface of the tray with its most efficient use, and made with the three-dimensional geometry described above, depending from the outer diameters D of their non-truncated bases, the maximum efficiency of wastewater treatment is fully ensured by increasing the efficiency of separation of media and the speed of separation of the mentioned media with an increase in the volume of wastewater treatment per unit time. On the other hand, due to the fact that each of the mentioned steel elements of the device is made of AISI 304 or 08Х18Н10 stainless steel, the load-bearing capacity, stability, reliability and service life of the device are effectively increased, and due to the presence of adjustable feet in the lower part of the device body , allowing you to adjust its alignment in the horizontal plane according to the height of its installation, in general, the ease of operation of the installation for grease separation of wastewater is ensured.

No technical solutions that coincide with the set of essential features of the claimed utility model have been identified, which allows us to conclude that the claimed utility model complies with such a patentability condition as “novelty”.

Claims (6)

1. Installation for grease separation of wastewater, containing a housing with an upper sealed cover, the inner part of which is divided into three hydraulically communicating sections and one horizontal hollow sealed section in its upper central part: the first vertical section for separating media with an external inlet for the wastewater pipe, inside of which a removable mesh container and a tray with hydrocyclones are sequentially located on top, one below the other, and on the lower right side there is a hole with hydraulic communication with the second section; a second horizontal section for thermal separation of media, on the left side of which there is the said hole, on the right side there is a hole with hydraulic communication with the third section, in the upper part there is a thermal contact part of the heating element located directly in the mentioned horizontal hollow sealed section, and an outlet overflow valve , placed above the said hole with a hydraulic connection to the third section at the installation site of the removable collector-container for collecting fat and oil fractions; a third vertical overflow section, in which the said hole and an L-shaped overflow visor are located, one of the shelves of which is welded with its edge to the right side of the said third vertical overflow section or the inner part of the body, and the other shelf with its edge is directed upwards and is located centrally opposite it external outlet for the purified wastewater pipe, characterized in that the said tray is made with nine of the mentioned hydrocyclones, which are located in three parallel rows of three hydrocyclones in each row in such a way that the tray with hydrocyclones in the center of its rectangular flat part is symmetrical as on the horizontal its axis of symmetry, and along its vertical axis of symmetry. 2. Installation for grease separation of wastewater according to claim 1, characterized in that each of the mentioned identical truncated hollow cones is made in accordance with the following geometric parameters depending on the outer diameter D of its non-truncated base: the height of the mentioned cone h is equal to 1.08D, the outer diameter d of its truncated vertex is 0.52D, and the thickness of its wall S is 0.004D. 3. Installation for grease separation of wastewater according to claim 1, characterized in that the body is made in the form of a rectangular parallelepiped, made in the frontal plane of a rectangular shape, the long part of which is located horizontally, and the short part is located vertically, with its internal volume divided along the width steel rectangular sheet sealed partitions, welded sequentially to each other and to the walls of the inner part of the housing, into the three mentioned hydraulically communicating sections and one horizontal hollow sealed section in its upper central part: a vertical steel partition forming the right side of the mentioned first vertical section for separating media from of the inner upper part of the body at a height less than the height of the inner part of the said body, a hole with hydraulic communication with the second mentioned section, the height of which is equal to the difference in heights of the inner part of the said body and the said vertical steel partition, as well as the left part of the said horizontal hollow sealed sections; horizontal-angular, located at an angle with an elevation from left to right - from the first mentioned section to the second, and horizontal steel partitions forming the upper part of the mentioned second horizontal section of thermal separation of media and the lower part of the mentioned horizontal hollow sealed section; a vertical steel partition forming the right part of the mentioned second horizontal section of thermal separation of media, the right part of the mentioned horizontal hollow sealed section, the left part of the mentioned third vertical overflow section with a hole for hydraulic communication with the mentioned second horizontal section of thermal separation of media, the height of which is equal to the value of the difference in heights of the internal parts of said body and said vertical steel partition. 4. Installation for grease separation of wastewater according to claim 1, characterized in that the hydrocyclones are made in the form of identical hollow cones with uniform wall thickness, completely truncated at the tops and half truncated with oblique protrusions at the bases of the cones in horizontal planes perpendicular to the axes of symmetry of the mentioned cones, and located vertically downward with truncated vertices and flush along the halves of truncated bases on its flat rectangular part, and the centers of the symmetry axes of which are located on the said flat part along a rectangular grid with equal vertical spacing and equal horizontal spacing. 5. Installation for grease separation of wastewater according to claims 1 and 3, characterized in that the lower part of the housing is equipped with at least four adjustable legs that regulate the alignment of the said device body in the horizontal plane according to the height of its installation. 6. Installation for grease separation of wastewater according to claims 1 and 3, characterized in that the heating element is made of a flat-shaped silicone type with a power of at least 30 W with a temperature sensor and is fixed to a horizontal steel partition in a horizontal hollow sealed section.