RU2005694C1 - Impulse percolating filter - Google Patents

Abstract

FIELD: sewage water treatment. SUBSTANCE: balanced IMPULSE flow rate of the water to be supplied to the subsequent treatment facilities is carried out by using a percolating filter. The filter is provided with two additional tanks, the internal tank being placed within the space of the external one. The percolating filter has a control means and a conical outlet nozzle. Under cups 14 of the filter a gathering basin 16 is disposed with an overflow duct 17. Duct 17 is connected to bin 19 by means of a spring 18, Bin 19 has a drainage opening 20 performed in its bottom. A valve 22 enters opening 20, said valve being secured by stem 21. Bin 19 is disposed at the upper part of the internal tank 23 which contains a packing with a microflora 24 attached to it. Conical outlet nozzle 25 is disposed at the lower part of internal tank 23. Internal tank 23 is placed within external tank 26 which is provided with baffle shield 27, gathering through 28 and tube 29 for the sediment removal. EFFECT: enhanced quality of purification. 2 cl, 1 dwg

Description

 The invention relates to a device for wastewater treatment by the biochemical method.

 Known biofilter containing paired containers with loading, inside of which are installed siphon devices; hydraulic locks with outlet pipes, as well as a rocker arm located under the tanks and a water distribution device made in the form of a gutter and located at the heights.

 A disadvantage of the known biofilter is that it does not provide a constant flow of water for its further treatment at subsequent treatment facilities.

 The aim of the invention is to increase the reliability by equalizing the pulsed flow rate of water for supplying it to subsequent treatment plants.

 This goal is achieved in that the biofilter containing paired containers with loading, inside which are installed siphoning devices, hydraulic shutters with exhaust pipes, as well as a rocker and water distribution device located under the tanks, made in the form of a chute located above the containers, is additionally equipped with two additional containers, the inner of which is located external under the spillway of the collection tank, and a part of its volume equal to the capacity of one biofilter, ra laid above the water surface of the outer container. In addition, the inner tank has a control device made in the form of a hopper having a drain hole and connected to the valve by means of a rod and spring-loaded relative to the overflow nozzle of the collecting tank, and there is a conical outlet nozzle at the bottom of the inner tank.

 The drawing shows a pulse biofilter in longitudinal section.

 The device consists of paired containers 1 with a load of 2, made, for example, from scraps of polyethylene pipes and located on a grill 3, spaced from the bottom of the container at a certain distance, hydraulic shutters 4 with outlet pipes 5. Inside the tanks are siphoning devices, an inverted glass 6 mounted on supports 7 and not reaching the bottom. Tubes 8 and 9 are connected to the upper part of the glass from opposite sides. One of them is siphoned, ends with an open end above the maximum water level of tank 1 and is connected to a bypass pipe 10, the other disconnecting ends with an open end at the bottom of the tank. The sewer feed pipe 11 and the water distribution device made in the form of a swinging weight 12 are located under the containers 1.

 Under the bowls 14 there is a collection tank 16 having a drain pipe 17. Using a spring 18, the drain pipe 17 is connected by a hopper 19 having a drain hole 20 in the bottom and fixed by a rod 21 with a valve 22. The hopper 18 is located on the top of the inner container 23 containing a nozzle with a fixed microflora 24, and in the lower part of the inner container 23 there is a conical outlet nozzle 25. The inner container 23 is located in the outer container 26, comprising a reflective shield27 and a collecting tray 28 and a pipe for removing sediment 29.

 The device operates as follows. Wastewater from the supply pipe 11 is directed along a swaying water distribution channel 12, for example, to the right tank 1. Water passes through a loading layer 2, the surface of which is populated by microorganisms. The organic part of the contaminants trapped by the biofilm undergoes biochemical oxidation using aerobic microorganisms.

 As the container 1 is filled with water under the glass 6, the pressure increases, while the water in the siphon tube 8 is forced out and, when the maximum level is reached, it begins to overflow into the discharge pipe 10, and then the sewage system enters.

 The pressure under the glass 6 is reduced to atmospheric (siphon-charged). Water from the tank 1 rushes under the glass 6 and through the outlet pipe 5 is discharged from the hydraulic lock 4, filling the bowl 14 mounted on the right shoulder of the rocker arm 13.

 The right shoulder of the rocker arm is lowered and by means of a rigid traction 15 provides a flip of the water distribution swinging trough 12, while the left tank 1 is filled with water.

 The emptying of the right tank will stop when the water level in it reaches the level of the lower elbow of the disconnecting tube 9. The air coming through this tube under the cap eliminates the non-vacuum and the siphon is discharged.

 Water from the bowl 14 enters the collecting tank 16, and then through the drain pipe 17 to the hopper 19, after filling which the water flows into the inner tank 23. Then the water through the tapered outlet nozzles 25 enters the outer tank 26. Having reached the reflective shield 27, the water flow rises upward and then the clarified wastewater is poured into the collecting tray 28, and the sediment is removed through the pipe 29.

 When filling the hopper 19, its weight increases and it will be lowered along with the valve 22 rigidly fixed with it via the rod21. The valve 22 will block the living section of the conical outlet nozzle 25. When the water supply stops, the hopper 19 will gradually empty through the drain hole 20, its weight will decrease and it will the spring 18 will rise with the valve 22, gradually opening the live section of the exhaust nozzle 25.

 Regulation of the flow of wastewater pouring from the internal capacity 23 to the external 26 can be carried out by changing the diameter of the drain hole 20 of the hopper 19.

 The use of the invention will allow for uniform supply of water to subsequent treatment plants, as a result of which the reliability of operation is improved, the operating conditions are improved. (56) Copyright certificate of the USSR N 1433911, cl. C 02 F 3/04, 1989.

Claims (2)

 1. PULSE BIOFILTER containing containers filled with loading with siphoning devices, a water distribution device in the form of a gutter located above the tanks and connected by a rigid rod with a beam located under the tanks, characterized in that it is equipped with an assembly tank with a drain pipe installed under the beam, and two additional tanks located one in the other, while the internal additional tank is installed under the drain pipe of the collecting tank with its upper part located It is located above the water level in the external additional container and is equipped with a microflora nozzle, a regulating device and a conical outlet nozzle attached at the bottom.  2. The biofilter according to claim 1, characterized in that the control device is made in the form of a hopper with springs connected to a spillway of a collection tank, and a rod with a valve located above the conical outlet nozzle.