CN206375721U - Water treatment aeration pond resin base injection apparatus - Google Patents

Abstract

The utility model discloses a resin-based injection device for an aeration tank for water treatment, which comprises: two aeration tanks arranged on the ground, and two power water pumps are arranged on the ground at the upper end side of the aeration tanks. The water outlet of the power water pump communicates with the aeration tank through a water suction pipe, the water outlet of the power water pump is connected with one end of the jet through a water outlet pipe, and a first control valve is arranged on the water outlet pipe. The other end of the device is connected to the secondary jet booster installed at the bottom of the aeration tank through a pressure pipe, the structure of the secondary jet booster includes: a resin-based liquid inlet main pipe connected to the pressure pipe One side of the resin-based liquid inlet main pipe is provided with several resin-based nozzles, and the resin-based nozzles are densely arranged on the first half of the resin-based liquid inlet main pipe.

Description

Water treatment aeration tank resin-based injection device

technical field

The utility model relates to sewage treatment equipment, in particular to a resin-based injection device for an aeration tank for water treatment.

Background technique

In the process of sewage treatment, an aeration tank is required. The aeration tank uses a spray device to spray a water-air mixture with uniform micro-bubbles at the bottom to achieve the purpose of sewage cleaning. The existing spray devices are all stainless steel and carbon steel. The structure is bulky, inconvenient to install, high investment cost, and is easily corroded by sewage, with short service life. At the same time, the existing injection device has uneven aeration, low oxygen utilization rate, and poor oxygenation effect, resulting in unstable effluent quality. Sewage treatment is not thorough and the use effect is poor.

Utility model content

The technical problem to be solved by the utility model is to provide a resin-based injection device for the water treatment aeration tank with long service life.

In order to solve the above technical problems, the technical solution adopted by the utility model is: a resin-based injection device for water treatment aeration tanks, including: two aeration tanks arranged in the ground, on the ground at the upper end of the aeration tanks There are two power water pumps, the water outlet of the power water pump communicates with the aeration tank through the water suction pipe, the water outlet of the power water pump is connected with one end of the ejector through the water outlet pipe, and the water outlet of the water outlet

The pipe is provided with a first control valve, and the other end of the ejector is connected to the secondary jet booster installed at the bottom of the aeration tank through a pressure pipe. The structure of the secondary jet booster includes: The resin-based liquid inlet main pipe connected to the pipeline is provided with a number of resin-based nozzles on one side of the resin-based liquid inlet main pipe. The resin-based nozzles are arranged densely on the first half of the resin-based liquid inlet main pipe. The resin The base nozzles are arranged relatively sparsely on the second half of the resin-based liquid inlet main pipe. A resin-based intake branch pipe is arranged on the upper end of the resin-based liquid inlet main pipe through a support frame. The air intake branch pipe is connected, and the upper end of the ejector is connected with the gas volume distribution plate through the oxygen distribution branch pipe, and the gas volume distribution plate is connected with the oxygen supply device through the oxygen distribution main pipe. Two control valves, an air inlet pipe communicating with the oxygen distribution branch pipe is arranged on the oxygen distribution branch pipe between the second control valve and the injector, and a third control valve is arranged on the air inlet pipe.

The utility model has the advantages that: the above-mentioned water treatment aeration tank resin-based spraying device adopts resin-based instead of the original stainless steel and carbon steel structure, light in weight, easy to install, low in investment cost, corrosion-resistant, long in service life, and aeration at the same time Uniformity, high oxygen utilization rate, good oxygenation effect, stable effluent quality, thorough sewage treatment, and good use effect.

Description of drawings

Figure 1 is a schematic structural view of the resin-based injection device for the water treatment aeration tank of the present invention.

Fig. 2 is a schematic diagram of the mechanism of the secondary jet synergistic device in Fig. 1 .

FIG. 3 is a cross-sectional enlarged schematic diagram of A-A in FIG. 2 .

In the figure: 1. Aeration tank, 2. Power pump, 3. Suction pipe, 4. Outlet pipe, 5. Jet, 6. First control valve, 7. Pressure pipeline, 8. Secondary jet booster, 81. Resin-based liquid inlet main pipe, 82. Resin-based nozzle, 83. Support frame, 84. Resin-based intake branch pipe, 85. Resin-based connecting pipe, 9. Oxygen distribution branch pipe, 10. Air volume distribution plate, 11. Oxygen distribution Supervisor, 12, oxygen supply device, 13, second control valve, 14, air intake pipe, 15, third control valve.

detailed description

The specific content of the present utility model is described in detail below in conjunction with accompanying drawing and specific embodiment.

As shown in Figure 1, Figure 2, and Figure 3, the water treatment aeration tank resin-based injection device includes: two aeration tanks 1 arranged in the ground, set on the ground on the upper side of the aeration tank 1 There are two power water pumps 2, the suction port of the power water pump 2 communicates with the aeration tank 1 through the suction pipe 3, and the water outlet of the power water pump 2 is connected with one end of the ejector 5 through the water outlet pipe 4. The outlet pipe 4 is provided with a first control valve 6, and the other end of the ejector 5 is connected to a secondary jet booster 8 provided at the bottom of the aeration tank 1 through a pressure pipe 7. The secondary jet booster The structure of the effect device includes: a resin-based liquid inlet main pipe 81 connected to the pressure pipe 7, a number of resin-based nozzles 82 are arranged on one side of the resin-based liquid inlet main pipe 81, and the resin-based nozzles 82 are connected to the resin-based liquid inlet pipe. The first half of the liquid main pipe 81 is arranged relatively densely, and the resin-based nozzles 82 are arranged relatively sparsely on the second half of the resin-based liquid inlet main pipe 81, and the upper end of the resin-based liquid inlet main pipe 81 is set by a support frame There are resin-based intake branch pipe 84, resin-based spray

The nozzle 82 is connected to the resin-based intake branch pipe 84 through the resin-based connecting pipe 85, and the upper end of the ejector 5 is connected to the gas volume distribution plate 10 through the oxygen distribution branch pipe 9, and the gas volume distribution plate 10 passes through the oxygen distribution main pipe 11 Connected with the oxygen supply device 12, a second control valve 13 is provided on the oxygen distribution branch pipe 9, and an oxygen distribution branch pipe 9 is provided on the oxygen distribution branch pipe 9 between the second control valve 13 and the injector 5. 9 air intake pipes 14 communicating with each other, on which a third control valve 15 is arranged.

When using the resin-based spraying device for the above-mentioned water treatment aeration tank, start the two power pumps 2 on the ground at the upper end of the aeration tank 1, start four power pumps 2 in total in the two aeration tanks 1, and open the four outlet pipes 4 The first control valve 6 on the top, the power water pump 2 pumps the water in the aeration tank 1 through the suction pipe 3, and enters the jet device 5 through the outlet pipe 4, and the jet device 5 injects the water pumped up by the power water pump 2 into the pressure In the pipeline 7, the water in the pressure pipeline 7 enters the secondary jet booster 8 under pressure. At this time, the oxygen supply device 12 transports oxygen to the gas volume distribution plate 10 through the oxygen distribution main pipe 11, and opens the four oxygen distribution branch pipes 9 The second control valve 13 on the top and the third control valve 15 on the four air intake pipes 14, the gas volume distribution plate 10 sends oxygen to the four ejectors 5 through the four oxygen distribution branch pipes 9 respectively, and the air flows from the air intake pipe 14 enters the oxygen distribution branch pipe 9 and is delivered to the ejector 5 together with the oxygen. At this time, the mixer of oxygen and air is injected into the pressure pipe 7 along with the water in the ejector 5, and the water vapor in the pressure pipe 7 The mixed liquid enters the resin-based liquid inlet main pipe 81 in the secondary jet booster 8, and the water-gas mixture passes through several resin-based nozzles 82 on the side of the resin-based liquid inlet pipe 81 to complete the secondary injection at the bottom of the aeration tank 1 ,at the same time

The oxygen supply device 12 provides oxygen for the resin-based intake branch pipe 84, and the oxygen in the resin-based intake branch pipe 84 enters the resin-based nozzle 82 through the resin-based connecting pipe 85 at the bottom of the aeration tank 1 together with the water-air mixture. The secondary injection is completed, and it is fully stirred and mixed with the sewage with relatively low oxygen content in the aeration tank 1, so as to improve the oxygen transfer efficiency and aeration uniformity.

The resin-based injection device of the above-mentioned water treatment aeration tank adopts resin-based instead of the original stainless steel and carbon steel structure, which is light in weight, easy to install, low in investment cost, corrosion-resistant, long in service life, uniform in aeration, and high in oxygen utilization. The oxygenation effect is good, the water quality of the effluent is stable, the sewage treatment is thorough, and the use effect is good.

Claims (1)

1. The water treatment aeration tank resin-based spraying device is characterized in that it includes: two aeration tanks (1) arranged in the ground, and two aeration tanks (1) are arranged on the ground on the upper end side A power water pump (2), the suction port of the power water pump (2) communicates with the aeration tank (1) through the water suction pipe (3), and the water outlet of the power water pump (2) connects with the aeration tank (1) through the water outlet pipe (4) One end of the ejector (5) is connected, and a first control valve (6) is provided on the outlet pipe (4), and the other end of the ejector (5) is connected to the aeration device through a pressure pipe (7). The secondary jet booster (8) at the bottom of the pool (1) is connected. One side of the resin-based liquid inlet main pipe (81) is provided with several resin-based nozzles (82), and the resin-based nozzles (82) are arranged densely on the first half of the resin-based liquid inlet main pipe (81). The base nozzles (82) are relatively sparsely arranged on the second half of the resin-based liquid inlet main pipe (81), and the upper end of the resin-based liquid inlet main pipe (81) is provided with a resin-based air intake branch pipe through a support frame (83) (84), the resin-based nozzle (82) is connected to the resin-based intake branch pipe (84) through the resin-based connecting pipe (85), and the gas volume distribution is made through the oxygen distribution branch pipe (9) at the upper end of the ejector (5) The gas volume distribution plate (10) is connected to the oxygen supply device (12) through the oxygen distribution main pipe (11), and the second control valve (13) is set on the oxygen distribution branch pipe (9) ), the oxygen distribution branch pipe (9) between the second control valve (13) and the injector (5) is provided with an air intake pipe (14) communicating with the oxygen distribution branch pipe (9), in the A third control valve (15) is arranged on the air intake pipe (14).