KR20190086367A - Water treatment aerator FRP injection device - Google Patents

Abstract

The present invention relates to a water treatment aeration tank FRP injection apparatus, which comprises two aeration tanks installed on the ground surface, two power water pumps are provided on one of the upper surfaces of the aeration tanks, The outlet port of the power water pump is connected to one side of the flow generator through an outlet pipe, the outlet pipe is provided with a first control valve, and the other of the flow generator is connected to the bottom of the aeration tank through a pressure pipe And the second flow reinforcement device includes a FRP intake main pipe connected to the pressure pipe, wherein a plurality of FRP nozzles are installed on one side of the FRP intake main pipe, and the FRP nozzle Are relatively densely arranged on the front end of the FRP intake main pipe.

Description

Water treatment aerator FRP injection device

The present invention relates to a sewage treatment facility, and more particularly, to a water treatment aeration tank FRP injection device.

An aeration tank is used for the sewage treatment process, and the aeration tank achieves the purpose of sewage treatment by injecting water mixed with uniform and fine bubbles through the bottom spraying device. All of the conventional injection devices consist of stainless steel and carbon steel, which are heavy, inconvenient to install, high in investment cost, and easy to be etched in sewage and have a short service life. In addition, the conventional spraying apparatus has uneven aeration, low oxygen utilization rate, low oxygen filling effect, and unstable discharge water quality, incomplete wastewater treatment, and low use efficiency.

An object of the present invention is to provide an FRP injection device for a water treatment aeration tank having a long service life, thereby solving the above technical problem.

According to an aspect of the present invention, there is provided a FRP injection apparatus for a water treatment aeration tank, comprising two aeration tanks installed on the ground surface, two power water pumps are installed on the ground surface of one of the aeration tanks, The pumping port of the power water pump is connected to the aeration tank through a water pipe. The outlet of the power water pump is connected to one side of the flow generator through an outlet pipe, a first control valve is installed in the outlet pipe, and the other side of the flow generator is connected to a second flow reinforcement And are connected to each other. The second flow reinforcement apparatus includes a FRP intake main pipe connected to a pressure pipe, and a plurality of FRP nozzles are installed on one side of the FRP intake main pipe. The FRP nozzles are relatively densely arranged at the front end of the FRP intake main pipe, and the FRP nozzles are arranged relatively infrequently at the rear end of the FRP intake main pipe. The upper end of the FRP intake main pipe is provided with an FRP intake branch pipe through a support, the FRP nozzle is connected to the FRP intake branch pipe through an FRP connection pipe, and the upper end of the flow generator is connected to an air distribution plate Lt; / RTI > The air distribution plate is connected to an oxygen supply via an oxygen distribution main pipe, a second control valve is installed in the oxygen distribution branch pipe, and an oxygen distribution branch pipe between the second control valve and the flow generator is connected to an oxygen distribution branch And an air inlet pipe connected to the pipe is installed. The air inlet pipe is provided with a second control valve.

The water treatment aeration tank FRP spraying apparatus according to the present invention replaces the conventional stainless steel and carbon steel structure as FRP, and is light, easy to install, has a low investment cost, and is strong in corrosion resistance, has a long service life, It has the advantage of good oxygen filling effect, stable water quality of drainage, perfect sewage treatment and high use effect.

1 is an explanatory view showing the structure of a new water treatment aeration tank FRP injection apparatus of the present invention,
FIG. 2 is a structural view of the secondary flow reinforcement device of FIG. 1,
3 is an enlarged view of the structure taken along line AA in Fig.

Hereinafter, the present invention will be described in detail with reference to the drawings and specific embodiments.

1, 2, and 3, the water treatment aeration tank FRP injection apparatus includes two aeration tanks 1 installed on the ground, and two power water pumps The water pump of the power water pump 2 is connected to the aeration tank 1 through a positive water pipe 3 and the water outlet of the power water pump 2 is connected to the flow generator 1 through an outflow pipe 4, A first control valve 6 is installed in the water pipe 4 and the other one of the flow generators 5 is connected to the bottom of the aeration tank 1 through a pressure pipe. And the FRP intake main pipe 81 connected to the pressure pipe 7 is connected to the second flow reinforcement device 8 installed in the second flow reinforcement device 8, A plurality of FRP nozzles 82 are installed in the front end of the FRP intake main pipe 81, And the upper end of the FRP intake main pipe 81 is connected to the FRP intake branch pipe 84 through the support 83 And the FRP nozzle 82 is connected to the FRP intake branch pipe 84 through the FRP connection pipe 85 and the upper end of the flow generator 5 is connected to the air distribution pipe 9 via the oxygen distribution branch pipe 9, And the air distribution plate 10 is connected to the oxygen supply device 12 through the oxygen distribution main pipe 11 and the second control valve 13 And an air inlet pipe 14 connected to the oxygen distribution branch pipe 9 is installed in the oxygen distribution branch pipe 9 between the second control valve 13 and the flow generator 5, The air inlet pipe 14 is provided with a second control valve 15.

When using the water treatment aeration tank FRP injector, two power water pumps 2 on the upper one side of the aeration tank 1 are started, and the two aeration tanks 1 start up a total of four power water pumps 2 And the four first control valves 6 of the water pipe 4 are opened. The power water pump 2 draws water in the aeration tank 1 through the amniotic water pipe 3 and enters the flow generator 5 through the water pipe 4. The flow generator 5 pushes the water that the power water pump 2 sucked into the pressure pipe 7 and the water in the pressure pipe 7 enters the second flow enhancer 8 in a pressurized state. At this time, the oxygen supply device 12 sends oxygen into the air distribution plate 10 through the oxygen distribution main pipe 11. The second control valve 13 in the four oxygen distribution branch pipes 9 and the third control valve 15 in the four air intake pipes 14 are opened and the air distribution plate 10 is opened with four oxygen distributions Oxygen is fed into the four flow generators 5 through each of the branch pipes 9 and the air enters the oxygen distribution branch pipe 9 from the air inlet pipe 14 and is sent to the flow generator 5 together with oxygen Loses. At this time, gas mixed with oxygen and air is sent into the pressure pipe (7) together with the water in the flow generator (5). The mixed liquid of water and air in the pressure pipe 7 enters into the FRP intake main pipe 81 in the second flow intensifying device 8 and the mixed liquid of water and air flows into the FRP intake main pipe 81, And the second injection is finished at the bottom of the aeration tank 1 through the nozzle 82. The oxygen in the FRP intake branch pipe 84 enters the FRP nozzle 82 through the FRP connection pipe 85 and flows into the FRP nozzle 82 through the FRP connection pipe 85. At this time, the oxygen supply device 12 supplies the transfer oxygen to the FRP intake branch pipe 84, And the air is mixed with the liquid mixture to complete the second injection at the bottom of the aeration tank 1. The oxygen content in the aeration tank 1 is sufficiently mixed with the relatively low wastewater and mixed to improve the oxygen transfer efficiency and the aeration uniformity.

The water treatment aeration tank FRP injection device replaces the existing stainless steel and carbon steel structure as a FRP, and it is light, easy to install and has a low investment cost as well as a strong corrosion resistance, a long service life, a uniform aeration, Is good, the quality of the effluent water is stable, the sewage treatment is complete, and the use efficiency is high.

1: Aeration tank 2: Power water pump
3: Piping pipe 4: Outflow pipe
5: Flow generator 6: First control valve
7: pressure pipe 8: second flow reinforcement device
81: FRP intake main pipe 82: FRP nozzle
83: Support 84: FRP intake branch pipe
85: FRP connection pipe 9: Oxygen distribution branch pipe
10: air distribution plate 11: oxygen distribution main pipe
12: oxygen supply device 13: second control valve
14: air inlet pipe 15: third control valve

Claims (1)

Wherein two power water pumps (2) are provided on one of the upper surfaces of the aeration tank (1), and a positive water pipe of the power water pump (2) is connected to a positive water pipe And the outlet port of the power water pump 2 is connected to one side of the flow generator 5 through the outlet pipe 4 and the outlet pipe 4 is connected to the outlet port of the first control valve 5. [ (7) of the flow generator (5) is connected to a second flow reinforcement device (8) installed on the bottom of the aeration tank (1) through a pressure pipe, and the second flow reinforcement device A plurality of FRP nozzles 82 are installed on one side of the FRP intake main pipe 81 and the FRP nozzle 82 is connected to the FRP injection main pipe 81 connected to the pressure pipe 7, The FRP nozzle 82 is relatively densely arranged on the front end of the intake main pipe 81, And the upper end of the FRP intake main pipe 81 is provided with a FRP intake branch pipe 84 through a support 83. The FRP nozzle 82 is connected to the FRP connection pipe 85 through an FRP And an upper end of the flow generator 5 is connected to the air distribution plate 10 via an oxygen distribution branch pipe 9. The air distribution plate 10 is connected to an oxygen distribution main pipe A second control valve 13 is installed in the oxygen distribution branch pipe 9 and a second control valve 13 is provided between the second control valve 13 and the flow generator 5, The oxygen distribution branch pipe 9 of the air distribution pipe 14 is provided with an air inlet pipe 14 connected to the oxygen distribution branch pipe 9 and a second control valve 15 is installed in the air inlet pipe 14 Water treatment aeration tank FRP injection device.

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