CN213012494U - UBBR upflow magnetic biological ball sewage purification reactor - Google Patents

Abstract

The utility model discloses a UBBR up-flow magnetism bio-ball sewage purification reactor, including the reactor jar body, honeycomb duct, electric valve, circulating pump and air-blower that rise, a side fixed surface of the reactor jar body is provided with the inlet tube, and the fixed filler bearing layer that is provided with in inside of the reactor jar body to magnetism bio-ball main part has been placed at the top of filler bearing layer, the fixed baffle that is provided with in inside of the reactor jar body, and the top surface fixedly connected with of baffle rises the honeycomb duct, and rises the honeycomb duct and be located the inside of the reactor jar body. This UBBR upflow magnetism biological ball sewage purification reactor, owing to adopted the integrated design to used neotype magnetism biological ball main part, it is strong to have shock resistance, the stable performance, the advantage of reliable operation, can adapt to the quality of water change fast, and be provided with circulating line, can realize good denitrogenation effect through the backward flow.

Description

UBBR upflow magnetic biological ball sewage purification reactor

Technical Field

The utility model relates to a water pollution control correlation technique field specifically is a UBBR upflow magnetism bio-ball sewage purification reactor.

Background

Since the chemical plants and the like continue to produce and process in daily life, the released liquid and the like easily pollute water, and at the time, the water pollution needs to be prevented and controlled, and a sewage treatment device is needed to purify sewage, but the sewage purification reactor has some disadvantages:

firstly, the impact resistance of a common sewage purification reactor is poor, and the performance is not stable enough, so that the common sewage purification reactor cannot adapt to water quality change more quickly;

secondly, the system treatment load of the common sewage purification reactor is low, and more equipment is required for treatment, so that the occupied area of the equipment is large.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a UBBR up-flow magnetic biological ball sewage purification reactor, which solves the problems of poor shock resistance and unstable operation in the prior art; the system has the problems of low processing load and large occupied area.

In order to achieve the above object, the utility model provides a following technical scheme: a UBBR up-flow magnetic biological ball sewage purification reactor comprises a reactor tank body, an up-flow guide pipe, an electric valve, a circulating pump and an air blower, wherein a water inlet pipe is fixedly arranged on one side surface of the reactor tank body, a filler bearing layer is fixedly arranged inside the reactor tank body, a magnetic biological ball main body is placed at the top of the filler bearing layer, a partition plate is fixedly arranged inside the reactor tank body, the top surface of the partition plate is fixedly connected with the up-flow guide pipe, the up-flow guide pipe is positioned inside the reactor tank body, one end of the up-flow guide pipe is fixedly connected to the outer surface of a guide cylinder, the guide cylinder respectively penetrates through the top of the reactor tank body and the outer surfaces of an inclined tube settling zone and an overflow weir, the inclined tube settling zone and the overflow weir are both positioned inside the reactor tank body, the overflow weir is positioned above the inclined tube settling zone, and one side of the up-flow guide pipe, the back flushing blow-off pipe penetrates through one side surface of the reactor tank body, an electric valve is fixedly arranged inside the back flushing blow-off pipe, the bottom end of the reactor tank body is penetrated through by an aeration pipeline, the tail end of the aeration pipeline is fixedly connected to an air blower, the air blower is positioned outside the reactor tank body, the ascending guide pipe penetrates through one side surface of the reactor tank body, the tail end of one side of the ascending guide pipe is fixedly connected to the input end of a circulating pump, the top of the reactor tank body is fixedly provided with a water outlet pipe, the circulating pump is positioned outside the reactor tank body, the output end of the circulating pump is connected with a pipeline and is fixed on one side surface of the bottom end of the reactor tank body, the inner surface of the ascending guide pipe is penetrated through by a cylindrical block, the outer surface of the bottom end of, one side surface of the transmission gear is connected with a driven gear, the driven gear penetrates through the inner surface of the guide cylinder, the inner surface of the driven gear is fixedly connected with a fixed rod, the tail end of the fixed rod is fixedly connected to the outer surface of the fixed column, and the outer surface of the fixed column is fixedly provided with a stirring paddle.

Preferably, the filler bearing layer is made of a microporous filter plate material, and the magnetic biological ball main bodies are stacked and filled above the filler bearing layer at equal intervals.

Preferably, the ascending draft tube is symmetrically distributed about the longitudinal center line of the partition plate, and the draft tube on the ascending draft tube is positioned at the middle ends of the inclined tube settling zone and the overflow weir.

Preferably, the fan blades are circumferentially distributed about a central axis point of the cylindrical block, and the cylindrical block forms a rotating structure with the reactor tank body and the ascending draft tube respectively.

Preferably, the transmission gear is in meshed connection with the driven gear, and the radius of the driven gear is larger than that of the transmission gear.

Preferably, the stirring paddle is spiral, and the outer surface of the stirring paddle is not attached to the inner surface of the ascending flow guide pipe.

Compared with the prior art, the beneficial effects of the utility model are that: the UBBR up-flow magnetic biological ball sewage purification reactor,

1. due to the adoption of an integrated design and the use of a novel magnetic biological ball main body, the biological ball has the advantages of strong impact resistance, stable performance and reliable operation, can quickly adapt to the change of water quality, is provided with a circulating pipeline, and can realize good denitrification effect through backflow;

2. the biochemical section in the sewage treatment device adopts an aerobic bio-sphere process, and a magnetic biofilm sphere carrier is arranged in an aerobic zone, so that the specific surface area of the microbial carrier is greatly increased, the biological activity is improved, the system treatment load is improved, the floor area of equipment is reduced, and the floor area is reduced by 70% compared with the traditional process;

3. the rear end of the sewage treatment device adopts an inclined tube precipitation process, so that a good mud-water separation effect can be realized, the effluent quality is ensured, meanwhile, complete automatic control and online cleaning can be realized, and the device is very suitable for distributed point source sewage treatment with low management capacity;

4. the accessible rivers beat the cylinder piece rotation on the flabellum for the cylinder piece drives driven gear rotation through drive gear, orders about driven gear and drives the stirring rake rotation of fixing through the dead lever, through spiral helicine stirring rake, can the even diffusion of speed when ordering about rivers in the draft tube and passing through.

Drawings

FIG. 1 is a schematic overall front sectional view of the present invention;

FIG. 2 is an enlarged schematic view of the structure at A of FIG. 1 according to the present invention;

FIG. 3 is a schematic view of a sectional view of the connection between the driving gear and the driven gear;

fig. 4 is the utility model discloses the flabellum is connected with the cylinder piece and is pitched the sectional structure sketch map.

In the figure: 1. a reactor tank; 2. a water inlet pipe; 3. a filler support layer; 4. a magnetic biosphere body; 5. a partition plate; 6. an ascending guide pipe; 7. an inclined tube settling zone; 8. an overflow weir; 9. a draft tube; 10. back flushing the sewage discharge pipe; 11. an electrically operated valve; 12. an aeration pipe; 13. a water outlet pipe; 14. a circulation pump; 15. a blower; 16. a cylindrical block; 17. a fan blade; 18. a transmission gear; 19. a driven gear; 20. fixing the rod; 21. fixing a column; 22. and (4) a stirring paddle.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a UBBR up-flow magnetic biological ball sewage purification reactor comprises a reactor tank body 1, a water inlet pipe 2, a filler bearing layer 3, a magnetic biological ball main body 4, a partition plate 5, an up-flow guide pipe 6, an inclined pipe settling zone 7, an overflow weir 8, a guide cylinder 9, a back-flushing sewage discharge pipe 10, an electric valve 11, an aeration pipeline 12, a water outlet pipe 13, a circulating pump 14, an air blower 15, a cylindrical block 16, a fan blade 17, a transmission gear 18, a driven gear 19, a fixed rod 20, a fixed column 21 and a stirring paddle 22, wherein the water inlet pipe 2 is fixedly arranged on one side surface of the reactor tank body 1, the filler bearing layer 3 is fixedly arranged inside the reactor tank body 1, the magnetic biological ball main body 4 is arranged at the top of the filler bearing layer 3, the partition plate 5 is fixedly arranged inside the reactor tank body 1, the up-flow guide pipe 6 is fixedly connected to the top surface of the partition plate 5, and the up, one end of an ascending draft tube 6 is fixedly connected to the outer surface of a draft tube 9, the draft tube 9 penetrates through the top of the reactor tank 1 and the outer surfaces of an inclined tube settling zone 7 and an overflow weir 8 respectively, the inclined tube settling zone 7 and the overflow weir 8 are both positioned in the reactor tank 1, the overflow weir 8 is positioned above the inclined tube settling zone 7, one side of the ascending draft tube 6 is fixedly connected with a back flushing sewage drain pipe 10, the back flushing sewage drain pipe 10 penetrates through one side surface of the reactor tank 1, an electric valve 11 is fixedly arranged in the back flushing sewage drain pipe 10, the bottom end of the reactor tank 1 is penetrated through by an aeration pipeline 12, the tail end of the aeration pipeline 12 is fixedly connected to an air blower 15, the air blower 15 is positioned outside the reactor tank 1, the ascending draft tube 6 penetrates through one side surface of the reactor tank 1, and the tail end of one side of the ascending draft tube 6 is fixedly connected to the input end of a, and the top of the reactor tank body 1 is fixedly provided with a water outlet pipe 13, the circulating pump 14 is positioned outside the reactor tank body 1, the output end of the circulating pump 14 is connected with a pipeline and fixed on one side surface of the bottom end of the reactor tank body 1, the inner surface of the ascending draft tube 6 is penetrated by the cylindrical block 16, the outer surface of the bottom end of the cylindrical block 16 is fixedly provided with fan blades 17, the top end of the cylindrical block 16 is fixedly provided with a transmission gear 18, one side surface of the transmission gear 18 is connected with a driven gear 19, the driven gear 19 penetrates through the inner surface of the draft tube 9, the inner surface of the driven gear 19 is fixedly connected with a fixed rod 20, the tail end of the fixed rod 20 is fixedly connected on the outer surface.

The filler supporting layer 3 is made of a microporous filter plate material, the magnetic biological ball main bodies 4 are stacked and filled at equal intervals above the filler supporting layer 3, the microporous filter plate material serving as the filler supporting layer 3 is arranged, when sewage firstly passes through the filler supporting layer 3, the material is firstly filtered, so that the effect is improved, a large number of microorganisms are attached to the magnetic biological ball main bodies 4, through the fact that the fluid always has places with different slow flow rates, solid matters are always gathered from one side with a fast flow rate to one side with a slow flow rate in the flowing of the fluid, the flow separation phenomenon is generated, and pollutants in the sewage are adsorbed and degraded by the microorganisms attached to the magnetic biological ball main bodies 4.

The ascending draft tube 6 is symmetrically distributed about the longitudinal center line of the partition plate 5, and the draft tube 9 on the ascending draft tube 6 is positioned at the middle ends of the inclined tube settling zone 7 and the overflow weir 8, and when sewage enters the ascending draft tube 6, the sewage in the ascending draft tube 6 can uniformly enter the draft tube 9, so that the sewage in the draft tube 9 uniformly enters the overflow weir 8 after being settled in the inclined tube settling zone 7.

The fan blades 17 are distributed around the central axis point of the cylindrical block 16, the cylindrical block 16 and the reactor tank 1 and the ascending draft tube 6 respectively form a rotating structure, the fan blades 17 are distributed on the cylindrical block 16, the fan blades 17 are positioned in the ascending draft tube 6, when sewage is poured into the ascending draft tube 6, the sewage can strike the fan blades 17, and the fan blades 17 are driven by the impact force of the sewage to drive the cylindrical block 16 to rotate.

The transmission gear 18 is meshed with the driven gear 19, the radius of the driven gear 19 is larger than that of the transmission gear 18, and when the cylindrical block 16 rotates, the transmission gear 18 is driven to rotate, so that the transmission gear 18 rotates to be meshed with the driven gear 19, and the rotating speed of the driven gear 19 is lower than that of the transmission gear 18 due to the fact that the rotating speed of the driven gear 19 is larger.

Stirring rake 22 is the heliciform, and the surface of stirring rake 22 does not laminate mutually with the internal surface of ascending honeycomb duct 6, and it is rotatory to drive dead lever 20 when driven gear 19 is rotatory for dead lever 20 drives fixed column 21 rotatory, orders about fixed column 21 and drives stirring rake 22 and rotate, and when water entered into draft tube 9 this moment, need pass through heliciform stirring rake 22, orders about rivers through more even.

The working principle is as follows: when the UBBR up-flow magnetic biological ball sewage purification reactor is used, an external power supply is connected to the device, and sewage enters the bottom of a reactor tank body 1 through a water inlet pipe 2 according to a figure 1; sewage slowly rises through the filler supporting layer 3 and flows through the bed layer of the whole magnetic biological ball main body 4, a large number of microorganisms are attached to the magnetic biological ball main body 4, pollutants in the sewage are adsorbed and degraded by the microorganisms attached to the magnetic biological ball main body 4, the degraded sewage enters the guide cylinder 9 through the partition plate 5 along the ascending guide pipe 6, the sewage enters the overflow weir 8 after being precipitated by the inclined pipe precipitation zone 7 and then is discharged to the standard through the water outlet pipe 13, the circulating pump 14 is connected with the ascending guide pipe 6 through a pipeline to return the sewage to the bottom of the reactor tank body 1, the blower 15 is connected with the aeration pipeline 12 arranged at the bottom of the reactor tank body 1 to provide enough oxygen for the microorganisms on the magnetic biological ball main body 4, and the backwashing sewage discharge pipe 10 is closed through the electric valve 11;

and when water passes through the ascending honeycomb duct 6, according to fig. 1, fig. 2, fig. 3 and fig. 4, the water of the ascending honeycomb duct 6 can directly hit the fan blade 17, the fan blade 17 is ordered to hit the cylindrical block 16 for rotation, the cylindrical block 16 drives the transmission gear 18 for rotation to be meshed with the driven gear 19, the driven gear 19 drives the fixed rod 20 for rotation, the fixed rod 20 is ordered to drive the spiral stirring paddle 22 through the fixed column 21, the water uniformly passes through the stirring paddle 22 and then enters the inclined tube settling zone 7 and the overflow weir 8, and the overall practicability is improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a UBBR upflow magnetism biological ball sewage purification reactor, includes the reactor jar body (1), rises honeycomb duct (6), electric valve (11), circulating pump (14) and air-blower (15), its characterized in that: a water inlet pipe (2) is fixedly arranged on the surface of one side of the reactor tank body (1), a filler bearing layer (3) is fixedly arranged inside the reactor tank body (1), a magnetic biological ball main body (4) is placed at the top of the filler bearing layer (3), a partition plate (5) is fixedly arranged inside the reactor tank body (1), a rising guide pipe (6) is fixedly connected to the top surface of the partition plate (5), the rising guide pipe (6) is positioned inside the reactor tank body (1), one end of the rising guide pipe (6) is fixedly connected to the outer surface of a guide cylinder (9), the guide cylinder (9) respectively penetrates through the top of the reactor tank body (1) and the outer surfaces of an inclined pipe settling zone (7) and an overflow weir (8), the inclined pipe settling zone (7) and the overflow weir (8) are both positioned inside the reactor tank body (1), and the overflow weir (8) is positioned above the inclined pipe settling zone (7), the device is characterized in that a back-flushing sewage discharge pipe (10) is fixedly connected to one side of the ascending flow guide pipe (6), the back-flushing sewage discharge pipe (10) penetrates through one side surface of the reactor tank body (1), an electric valve (11) is fixedly arranged inside the back-flushing sewage discharge pipe (10), the bottom end of the reactor tank body (1) is penetrated through by an aeration pipeline (12), the tail end of the aeration pipeline (12) is fixedly connected to an air blower (15), the air blower (15) is positioned outside the reactor tank body (1), the ascending flow guide pipe (6) penetrates through one side surface of the reactor tank body (1), the tail end of one side of the ascending flow guide pipe (6) is fixedly connected to the input end of a circulating pump (14), a water outlet pipe (13) is fixedly arranged at the top of the reactor tank body (1), and the circulating pump (14) is positioned outside the reactor tank body (, and the output end of the circulating pump (14) is connected with a pipeline and fixed on the surface of one side of the bottom end of the reactor tank body (1), the inner surface of the ascending guide pipe (6) is penetrated through by the cylindrical block (16), the outer surface of the bottom end of the cylindrical block (16) is fixedly provided with fan blades (17), the top end of the cylindrical block (16) is fixedly provided with a transmission gear (18), the surface of one side of the transmission gear (18) is connected with a driven gear (19), the driven gear (19) penetrates through the inner surface of the guide cylinder (9), the inner surface of the driven gear (19) is fixedly connected with a fixing rod (20), the tail end of the fixing rod (20) is fixedly connected on the outer surface of the fixing column (21), and the outer surface of the fixing.

2. The UBBR upflow magnetic bio-sphere sewage purification reactor of claim 1, wherein: the filler bearing layer (3) is made of a microporous filter plate material, and the magnetic biological ball main bodies (4) are stacked and filled at equal intervals above the filler bearing layer (3).

3. The UBBR upflow magnetic bio-sphere sewage purification reactor of claim 1, wherein: the ascending draft tube (6) is symmetrically distributed about the longitudinal center line of the partition plate (5), and the draft tube (9) on the ascending draft tube (6) is positioned at the middle ends of the inclined tube settling zone (7) and the overflow weir (8).

4. The UBBR upflow magnetic bio-sphere sewage purification reactor of claim 1, wherein: the fan blades (17) are distributed on the circumference of the central axis point of the cylindrical block (16), and the cylindrical block (16) forms a rotating structure with the reactor tank body (1) and the ascending draft tube (6) respectively.

5. The UBBR upflow magnetic bio-sphere sewage purification reactor of claim 1, wherein: the transmission gear (18) is in meshed connection with the driven gear (19), and the radius of the driven gear (19) is larger than that of the transmission gear (18).

6. The UBBR upflow magnetic bio-sphere sewage purification reactor of claim 1, wherein: the stirring paddle (22) is spiral, and the outer surface of the stirring paddle (22) is not attached to the inner surface of the ascending guide pipe (6).

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