A kind of CSBR treatment tank
Technical field
The utility model relates to technical field of sewage, is specially a kind of CSBR treatment tank.
Background technology
Treatment tank is the process making sewage reach a certain water body of draining or the water quality requirement that reuses to purify it.Sewage disposal is widely used in building, agricultural, traffic, the energy, petrochemical industry, environmental protection, urban look, medical treatment, the every field such as food and drink, also the daily life of common people is come into more and more, and treatment tank in the market, function ratio is more single, operator are needed to expend a lot of working time, and in sewage disposal and reaction process, reaction efficiency is very slow, in common sludge settling, all do not carry out residual air separating measure, and residual air a small amount of in sewage enters settling region directly causes municipal pollution, have impact on sedimentation effect, and all will install sludge pump additional carries out sludge reflux usually in conventional precipitation pond, deposition efficiency is very low.
Utility model content
The purpose of this utility model is to provide a kind of CSBR treatment tank, to solve the problem proposed in above-mentioned background technology.
For achieving the above object, the utility model provides following technical scheme: a kind of CSBR treatment tank, comprise treatment tank, the inside of described treatment tank is provided with reaction tank and settling tank, one side of described reaction tank is provided with the first water inlet pipe, one side of described settling tank is provided with rising pipe, described reaction tank comprises anoxic pond, anaerobic pond and Aerobic Pond, described anoxic pond and anaerobic pond are all positioned at the top for the treatment of tank inwall, described anoxic pond is fixedly connected with the anaerobic pond being arranged on anoxic pond side by the hydraulic pipe being arranged on its side, the bottom of described anaerobic pond is communicated with the Aerobic Pond be arranged in the middle part for the treatment of tank by water port, the inside of described Aerobic Pond is provided with superposing type jet aerator, described superposing type jet aerator comprises shell, the side of described shell offers outer nozzle, the inside of described shell is provided with inner chamber, gap between described shell and inner chamber forms the hybrid chamber being used for mixed gas and liquid, the surface of described inner chamber is fixedly connected with inner nozzle, the top of described inner chamber and bottom are fixedly connected with inlet pipe and the second water inlet pipe respectively, described superposing type jet aerator is fixedly connected with the inlet pipe running through treatment tank by pneumatic tube, described settling tank comprises reflux sedimentation tank and is arranged on and staticly settles pond bottom treatment tank inwall, described reflux sedimentation tank is communicated with the Aerobic Pond being arranged on its side by filter screen, the inside of described reflux sedimentation tank is provided with residual air separator, described residual air separator by the vapor pipe of the return line and side that are arranged on its top respectively with the ft connection of anoxic pond and treatment tank, the opposite side of described residual air separator is provided with waste pipe.
Preferably, the top of described treatment tank inwall is also provided with motor, and described motor is socketed by rotating shaft and the impeller being arranged on hydraulic pipe inside.
Preferably, the inside of described first water inlet pipe is provided with the grid for intercepting large-scale material.
Preferably, described residual air separator is electrically connected with controller, and described controller is also electrically connected with sterilizing unit, superposing type jet aerator and motor respectively, and described controller is also electrically connected with gas sensing device.
Preferably, the inlet pipe of described superposing type jet aerator and the second water inlet pipe are fixedly connected on top and the bottom of Aerobic Pond respectively by subpanel.
Compared with prior art, the beneficial effects of the utility model are: this CSBR treatment tank, by arranging in treatment tank, reaction tank and settling tank are set, and reaction tank is divided into anoxic pond, anaerobic pond and Aerobic Pond, make reaction tank function more diversified, save the space needed for treatment facility, by arranging controller, reduce the labour intensity of operator, and make treatment tank more intelligent, by arranging superposing type jet aerator, make air-water mixture twice mixing in ejector, add the contact area of air and sewage, oxygen is greatly improved from air to the rate of transform sewage, thus accelerate organic oxygenolysis, improve processing efficiency, residual air separator is set, effectively improve deposition efficiency, automatically complete sludge reflux again simultaneously, residual air separator had both made residual air be effectively separated, and automatically completed sludge reflux again, reduced the working cost of sewage disposal.
Accompanying drawing explanation
Fig. 1 is the utility model structural representation;
Fig. 2 is the utility model structured flowchart.
In figure: 1 treatment tank, 2 reaction tanks, 21 anoxic pond, 22 anaerobic ponds, 23 Aerobic Ponds, 3 settling tanks, 31 reflux sedimentation tanks, 32 staticly settle pond, 4 first water inlet pipes, 5 rising pipes, 6 superposing type jet aerators, 61 shells, 62 inner chambers, 63 hybrid chambers, 64 inner nozzles, 65 inlet pipe, 66 second water inlet pipes, 67 outer nozzles, 7 residual air separators, 8 return lines, 9 vapor pipes, 10 motors, 11 impellers, 12 waste pipes, 13 pneumatic tubes, 14 controllers, 15 sterilizing units, 16 gas sensing devices.
Embodiment
Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.
Refer to Fig. 1-2, the utility model provides a kind of technical scheme: a kind of CSBR treatment tank, comprise treatment tank 1, the inside for the treatment of tank 1 is provided with reaction tank 2 and settling tank 3, cross to arrange in treatment tank 1 and reaction tank 2 and settling tank 3 are set, and reaction tank 2 is divided into anoxic pond 21, anaerobic pond 22 and Aerobic Pond 23, make reaction tank 2 function more diversified, save the space needed for treatment facility, one side of reaction tank 2 is provided with the first water inlet pipe 4, the inside of the first water inlet pipe 4 is provided with the grid for intercepting large-scale material, one side of settling tank 3 is provided with rising pipe 5, the top for the treatment of tank 1 inwall is also provided with motor 10, motor 10 is socketed by rotating shaft and the impeller 11 being arranged on hydraulic pipe inside, 10 impeller 11 are rotated, auxiliary sewage enters treatment tank 1, reaction tank 2 comprises anoxic pond 21, anaerobic pond 22 and Aerobic Pond 23, anoxic pond 21, anaerobic pond 22 and Aerobic Pond 23 coordinate and decompose the organic substance in sewage, anoxic pond 21 and anaerobic pond 22 are all positioned at the top for the treatment of tank 1 inwall, anoxic pond 21 is fixedly connected with the anaerobic pond 22 being arranged on anoxic pond 21 side by the hydraulic pipe being arranged on its side, the bottom of anaerobic pond 22 is communicated with the Aerobic Pond 23 be arranged in the middle part for the treatment of tank 1 by water port, the inside of Aerobic Pond 23 is provided with superposing type jet aerator 6, by arranging superposing type jet-flow aeration 6, make air-water mixture twice mixing in ejector, add the contact area of air and sewage, oxygen is greatly improved from air to the rate of transform sewage, thus accelerate organic oxygenolysis, improve processing efficiency, superposing type jet aerator 6 comprises shell 61, the side of shell 61 offers outer nozzle 67, the inside of shell 61 is provided with inner chamber 62, gap between shell 61 and inner chamber 62 forms the hybrid chamber 63 being used for mixed gas and liquid, the surface of inner chamber 62 is fixedly connected with inner nozzle 64, the top of inner chamber 62 and bottom are fixedly connected with inlet pipe 65 and the second water inlet pipe 66 respectively, the inlet pipe 65 of superposing type jet aerator 6 and the second water inlet pipe 66 are fixedly connected on top and the bottom of Aerobic Pond 23 respectively by subpanel, superposing type jet aerator 6 is fixedly connected with the pneumatic tube 13 running through treatment tank 1 by inlet pipe 65, settling tank 3 comprises reflux sedimentation tank 31 and is arranged on and staticly settles pond 32 bottom treatment tank 1 inwall, reflux sedimentation tank 31 is communicated with the Aerobic Pond 23 being arranged on its side by filter screen, the inside of reflux sedimentation tank 31 is provided with residual air separator 7, residual air separator 7 is set, effectively improve deposition efficiency, automatically complete sludge reflux again simultaneously, residual air separator 7 had both made residual air be effectively separated, automatically sludge reflux is completed again, reduce the working cost of sewage disposal, residual air separator 7 is electrically connected with controller 14, by arranging controller 14, reduce the labour intensity of operator, and make treatment tank 1 more intelligent, controller 14 also respectively with sterilizing unit 15, superposing type jet aerator 6 and motor 10 are electrically connected, controller 14 is also electrically connected with gas sensing device 16, gas sensing device 16 responds to the gas content in sewage, controller 14 pairs of sewage are coordinated to carry out analysis and resolution fast, residual air separator 7 by the vapor pipe 9 of the return line 8 and side that are arranged on its top respectively with the ft connection of anoxic pond 21 and treatment tank 1, return line 8 makes to carry out secondary response again for sewage up to standard is transported to reaction tank 2 again, the opposite side of residual air separator 7 is provided with waste pipe 12.
Although illustrate and described embodiment of the present utility model, for the ordinary skill in the art, be appreciated that and can carry out multiple change, amendment, replacement and modification to these embodiments when not departing from principle of the present utility model and spirit, scope of the present utility model is by claims and equivalents thereof.