TH11827A3 - Turbine pump aerators that supply air to the suction side - Google Patents

Abstract

Modify Brief Invention 10/03/2016 Turbine pump aerator supplying air to the suction side consists of three main parts: the first one consists of an air supply pipe and a check valve, the second consists of a pump, a chamber motor. Turbine impeller pump housing, pump suction channel And pump outlet channels And the third is the pressure-keeping part of the flow, consisting of contact pipes Outlet pressure control valve and pressure gauge When the pump is turned on, the water that needs to be filled with oxygen flows into the suction inlet side of the pump. Air is sucked into the air supply pipe by flow. Through the check valve enters the pump chamber Air will be hit by the turbine blades to form small bubbles. Circular motion within the pump chamber During this time, the pressure inside the pump chamber will gradually Soared from Pump suction inlet to pump outlet Water mixed with air bubbles or the mixture will flow through the contact tube. And the pressure control valve inside the contact pipe maintains a value in the range 0-3 bar gauge ---------------------------- ----------------------- New requests Update 8/09/2016 Turbine pump aerators that supply air to the suction side include 3 The main part is the first part consists of an air supply pipe, a check valve, the second consists of a pump, a motor, a pump chamber, a turbine impeller, a pump suction funnel. And pump outlet channels And the third is the pressure-keeping part of the flow, consisting of contact pipes Outlet pressure control valve and pressure gauge When the pump is turned on, the water that needs to be filled with oxygen flows into the suction inlet side of the pump. Air is sucked into the air supply pipe through the flow. Through the check valve enters the pump chamber Air is hit by the turbine blades to form small bubbles. Circular motion within the pump chamber During this time, the pressure inside the pump chamber will gradually Soared from Pump suction inlet to pump outlet The water mixed with air bubbles or the mixture will flow through the contact tube. The pressure control valve inside the contact pipe is maintained in the range 0-3 bar gauge.

Claims (1)

Disclaimer (all) which will not appear on the advertisement page: EDIT 10/03/2015 1. A turbine-type aerator that supplies air to the suction side consists of 3 main parts: the first part. It is an air supply pipe (1) that carries air from the outside into the pump chamber (2) .It is a hollow, cylindrical tube inside with a smooth surface.One end of the air supply pipe (1) is installed with a check valve (3). The other end of the air supply pipe (1) is connected into the pump housing (2), the second is the pump (5) that serves as a boost. Pressure and hit the air flowing into the air supply pipe (1) into small air bubbles It consists of motor (6), pump chamber (2), bine impeller (4), pump suction inlet (7) and pump outlet (8). The third is fluid pressure stabilizer. Consists of a contact pipe (9) connected to the pump outlet (8) serves to maintain the pressure of the mixture (mixture), which contains air bubbles dispersed in The water is supplied from the pump (5) to allow the air bubbles time to come into contact with the water. Causing the air to dissolve more into the water At higher pressure The other end of the contact pipe (9) is connected to a pressure control valve (10) that controls the pressure inside the contact pipe (9) by adjusting the flow rate of The mixture that flows from the aerator at the outlet (11) and the gauge pressure readings from the pressure gauge (12) mounted on the contact pipe (9) has a unique characteristic: One end of the air supply pipe (1) is connected into the pump chamber (2) from the top, with a certain distance to the turbine impeller edge (4), the other end of the air supply pipe (1). Installed with a check valve (3), one side of the pump housing (2) is connected to the pump suction port (7), the other side of the pump housing (2) to the pump outlet (8). Which is connected to one end of the contact tube (9) with a pressure gauge (12) installed, the other end of the contact tube (9) to the pressure control valve (10) for flow adjustment. Of the mixture coming out of the aerator at the outlet (11) ----------------------------------- ------------------------------- New request updated 8/09/2016 1.Turbine pump aerator that supplies air in the suction side consists of 3 main parts: the first part is the air supply pipe (1) that directs air from outside into the pump chamber (2). It is a hollow, cylindrical inner tube with smooth surface.One end of the air supply pipe (1) is fitted with a check valve (3), the other end of the air supply pipe (1) is connected to the inside of the pump chamber (2). The second is the pump (5) serves as a boost Pressure and hit the air flowing into the air supply pipe (1) into small air bubbles It consists of motor (6), pump chamber (2), bine impeller (4), pump suction inlet (7) and pump outlet (8). The third is fluid pressure stabilizer. Consists of a contact pipe (9) connected to the pump outlet (8) serves to maintain the pressure of the mixture (mixture), which contains air bubbles dispersed in The water is supplied from the pump (5) to allow the air bubbles time to come into contact with the water. Causing the air to dissolve more into the water At higher pressure The other end of the contact pipe (9) is connected to a pressure control valve (10) that controls the pressure inside the contact pipe (9) by adjusting the flow rate of The mixture that flows from the aerator at the outlet (11) and the gauge pressure readings from the pressure gauge (12) mounted on the contact pipe (9) has a unique characteristic: Dissolved oxygen can be added to 2 locations: inside the filling machine. Air and bubbles produced by aerators By allowing air to flow into the air supply pipe (1) into the pump chamber (2), the air will be hit by the turbine impeller (4) to produce small, swirling air bubbles. The inside of the pump chamber (2) and maintains the pressure between the contact pipe (9) and the pressure control valve (10) to a value in the range of 0-3 bar gauge, which can be classified in 2 cases: the first case. When operating at a pressure of 0 bar, the small air bubble gauge produced at the outlet (11) is formed by the turbine blades (4) to disperse the air into small bubbles. And in the second case, when operating at a pressure greater than 0 bar, gauge to 3 bar, the small air bubble produced at the outlet (11) is caused by the turbine blades (4) hitting the air to disperse. Small bubbles And bubbles produced from dissolved air at higher pressures Atmospheric pressure Keeping the pressure inside the contact pipes (9) higher than the atmospheric pressure results in More air dissolves into water. When reducing the pressure down to the outlet (11), the dissolved air in the High pressure will be released into equilibrium. (equilibrium) at atmospheric pressure Therefore a production was born Very small air bubbles mix with air that the air bubbles formed by the turbine blades (4) disperse the air.