RU2211075C2 - Radial settler - Google Patents

Abstract

FIELD: water purification works; biological purification of sewage containing considerable amount of suspended particles. SUBSTANCE: proposed settler has vertical housing of round section, pipe for supply of dirty water and cleaned water discharge system. It also contains movable truss connected with scrapers transferring sludge to sludge pit. Bottom of housing has diametral grooves with perforated tubes on their bottoms; they are communicated with sludge pit. Lower part of each scraper is elastic; it touches bottom of housing; sludge pit is isolated from dirty water. EFFECT: enhanced efficiency of removal of sediment from settler. 5 cl, 1 dwg

Description

 The invention relates to the field of water treatment plants, in particular biological wastewater treatment, and can be applied if necessary, the treatment of a large amount of wastewater with a high content of suspended particles.

 Known radial sump (SU, copyright certificate 1604403, 01 D 21/24, 1990), comprising a cylindrical body with a conical bottom, a purified water supply system, a purified water drainage system, a sludge removal device and a drive, the sludge removal means being made in the form of two diametrically located rods mounted on the central shaft, on which the scrapers are mounted, as well as a horizontally mounted metal ring made of a channel, in the groove of which there is a traction chain with locking teeth installed through every 20-30 steps of the chain, and the traction chain is designed to move the specified diametrically located rods.

 The disadvantage of this technical solution should recognize the implementation of the means for removing sludge in the form of a ring made of a channel, in the groove of which is a traction chain. Suspended particles, settling in the groove of the ring, clog the space between the chain links, which leads to the exit of the device from the working state. To carry out repair and restoration work, it is necessary not only to remove water from the sump, but also to remove the traction chain to remove suspended particles from it.

 Known radial sump (SU, copyright certificate 821410, C 02 F 1/52, 1981), containing a vertically mounted circular housing, a pipe for supplying purified water, a circular chute adjacent to the inner surface of the housing and connected to the purified water drainage system, floating a board installed with the possibility of driving floating particles into a hopper installed in the housing, a movable truss connected to scrapers installed to move the bottom sludge into the silt receiver, the center of the movable truss combined a center hull and truss mounted for movement caused by the presence of the actuator.

 The disadvantage of the above technical solution should be recognized as its low reliability caused by the movement of the truss along the end of the body, which is destroyed by the movement of the trolley. In addition, in the winter period of time, the icing of the end of the body occurs. All this increases the load on the shaft bearing, on which the truss is fixed with the possibility of movement, which leads to the destruction of the bearing and the failure of the sump.

 Known radial sump (RU, patent 2151625, 01 D 21/00, 2000), containing a vertically mounted housing with a circular cross section and containing a pipe for supplying purified water, a circular groove adjacent to the inner surface of the housing and combined with slotted holes connected to a purified water drainage system, a movable farm, the center of which coincides with the center of the sump, connected to scrapers installed to move the bottom sludge into the sludge pit communicated with the sludge pump. The movable truss is installed below the water level in the cylindrical casing and is an annular support connected by at least four jumpers to the central axis of the casing, with a continuous running track attached perpendicular to the end of the annular support along the outer perimeter of the annular support. The annular support touches at least eight rollers mounted in a horizontal plane, perpendicular to the axis of the housing. At the same time, between the treadmill and the wall of the casing there is at least one friction mechanism connected to the drive located above the surface of the water. The rollers are preferably rotatable. They can be fixed on the inner surface of the housing, or preferably on an annular supporting platform adjacent to the wall of the housing. In this case, the rollers are preferably mounted on U-shaped supports. The friction mechanism can be made in the form of a conical pair or in the form of a circular friction element worn on a shaft in communication with the drive shaft. At least part of the truss jumpers can be made in the form of pipes, the openings of which are closed by the moving walkway from the center of the housing, and the holes closest to the center through the sludge pit are connected to the suction pump, in this case scrapers are made in the form of ejectors. Preferably, the sump is further provided with means for collecting floating contaminants from the surface of the water in the sump. The specified tool can be made in the form of a floating structure, equipped with a drive, or in the form of a grid, usually lowered below the water level.

 A disadvantage of the known design should recognize the accumulation of sludge at the bottom of the body, due to the incomplete removal of sludge used by the system of removal.

 The technical problem solved by the present invention is to develop a design of a radial sump, which eliminates the accumulation of sludge at the bottom.

 The technical result obtained as a result of the implementation of the invention consists in increasing the operating time of the sump between the cycles of manual cleaning of its body and bottom from the sludge.

 The specified technical result is achieved using the claimed device. The radial sump contains a vertically mounted housing having a circular cross-section, a pipe for supplying purified water, a circular chute adjacent to the inner surface of the housing, combined with slotted holes and connected to the purified water drainage system, a movable truss connected to scrapers installed to move the bottom sludge into the sludge pit in communication with the sludge pump, moreover, the center of the truss is aligned with the center of the hull, and the truss itself is installed with the possibility of movement due to the presence of a drive, the movable truss is installed below the water level in the cylindrical casing and is an annular support connected by at least four jumpers to the central axis of the casing, and a continuous running track in the form of a ring oriented perpendicular to the end of the annular support is attached around the outer perimeter of the annular support the support touches at least four rollers mounted in a horizontal plane perpendicular to the axis of the housing, while between the treadmill and the wall of the housing At least one friction mechanism is connected, connected to a drive located above the water surface, at least two diametral grooves are made in the bottom of the body, at the bottom of which are perforated pipes in communication with the silt pit, at least the lower part of the scrapers is made elastic and touching the bottom of the housing, and the silt pit is isolated from the water being cleaned. The grooves can be made with a triangular cross-section, with a semicircular cross-section or with an oval cross-section. Usually the pipes in the grooves are oriented perforated upward.

 When using the device under the influence of a gravitational field, silt particles sink to the bottom, including the surface of these perforated pipes. Particles trapped on the bottom surface of the casing in a circular motion of the scrapers touching the bottom of the casing move into these grooves and also fall on the surface of the perforated pipes. By the combined action of the hydrostatic pressure of the water being purified and the sludge pump pumping sludge from the sludge pit, sludge particles that have fallen onto the surface of the perforated pipes through the perforation holes enter the pipes and then into the sludge pit. The circular movement of the scrapers along the bottom of the housing virtually eliminates the accumulation of silt particles at the bottom of the housing.

 The invention is illustrated by graphic material (see drawing), on which the following notation is adopted: housing 1 of a settling tank, jumpers 2 farms, scrapers 3 farms, grooves 4, perforated pipes 5, silt pit 6.

 The following is a preferred embodiment of the invention with reference to the drawings.

 The housing 1 of the sump is made with the possibility of filling the purified water at 0.8 of its height. A central feed pipe (not shown) is connected to a sewage pipe (not shown). The clarified water enters the casing from below and leaves through a circular trough (not shown) and slotted holes (not shown) for subsequent cleaning (not shown). In the lower part of the housing near the bottom, scraper 3, rigidly connected to the jumpers of the movable truss 2, moves, at least the lower part of which is made elastic and touching the bottom. The scrapers are installed with the possibility of moving excess sludge into the grooves 4, in which perforated pipes 5 are placed, the ends of which go into the sludge pit 6, located in the center of the bottom of the housing 1 and isolated from the water being cleaned. The movable truss is rigidly fixed on the central axis aligned with the axis of the housing 1. The movable truss 2 is a structure of at least four jumper tubes placed in radial directions relative to the central axis. The outer ends of the jumper tubes are bounded by a treadmill (not shown) mounted parallel to the wall of the housing 1. An annular support (not shown) is attached to the lower parts of the outer ends of the jumper tubes. In the lower part of the housing 1, an annular support (not shown) made of concrete adjacent to the inner side of the housing 1 is made of concrete. Twelve U-shaped supports (not shown) are mounted uniformly on the perimeter of the end face of the concrete annular support. A cast iron roller (not shown) is mounted rotatably on each U-shaped support. Moreover, all horizontal axes of the U-shaped supports are installed in the same plane. The scrapers 3 are fixed on the jumper pipes of the farm 2. Between the surface of the treadmill and the inner surface of the housing 1 there is a friction mechanism (not shown), which is, in particular, an axis, on which a ring of dense rubber is worn, touching the treadmill. The axis of the friction mechanism is in communication with the drive shaft (electric motor) installed above the water level.

 The sump works as follows.

 Through the Central supply pipe into the housing 1 serves the water to be sludge. When filling the housing 1 with water to the level that covers the farm 2, turn on the electric motor. The farm begins to move along the support, made in the form of a set of rollers mounted on a concrete ring support. When the farm 2 moves along the support, the scrapers 3 move together with the farm 2 and move the sludge into the grooves 4 with perforated pipes 5. The movement of the sludge through the pipe cavity is caused by the suction effect, which exerts the sludge on the suspended particles and water located in the sludge pit 6, as well as hydrostatic fluid pressure. The purified water through a circular trough and slotted holes enters further purification. Suspended particles enter the pit, from which they are removed in the usual way.

 The presence of the proposed system for removing sludge from the bottom of the casing provides an increase in the time of operation of the sump between the cycles of manual cleaning of its casing and the bottom of the sludge by at least 5.4 times.

Claims (5)

 1. Radial sump containing a vertically mounted housing having a circular cross-section, a pipe for supplying purified water, a circular chute adjacent to the inner surface of the housing, combined with slotted holes and connected to the purified water drainage system, perforated pipes connected to the sludge are located at the bottom a pit, a movable truss connected to scrapers installed to move the bottom sludge into a sludge pit communicated with a sludge pump, with the center of the truss aligned with the center of the hull, and the truss is installed with the possibility of movement due to the presence of the drive, the movable truss is installed below the water level in the cylindrical casing and is an annular support connected by at least four jumpers to the central axis of the casing, and a continuous treadmill is attached along the outer perimeter of the annular support rings oriented perpendicular to the end face of the ring support, the ring support touches at least four rollers mounted in a horizontal plane, perp peculiarly to the axis of the casing, wherein between the treadmill and the wall of the casing there is at least one friction mechanism connected to a drive located above the surface of the water, characterized in that at least two diametrical grooves are made in the bottom of the casing, at the bottom of which said perforated pipes are located, at least the lower part of the scrapers is made elastic and touching the bottom of the housing, and the silt pit is isolated from the water to be cleaned.  2. The sump under item 1, characterized in that the grooves are made with a triangular cross section.  3. The sump according to claim 1, characterized in that the grooves are made with a semicircular cross section.  4. The sump under item 1, characterized in that the grooves are made with an oval cross-section.  5. The sump under item 1, characterized in that the pipes in the grooves are oriented by perforation up.