CN213771464U - Photocatalytic oxidation device for treating refractory organic wastewater - Google Patents

Abstract

The utility model discloses a light catalytic oxidation device for difficult degradation organic wastewater handles, include: the oxidation box is provided with a stirring structure, an oxidation auxiliary stirring structure and a light temperature catalysis structure, and a plurality of stirring inner boxes with the same structure are arranged in the oxidation box; the utility model relates to a sewage treatment technical field produces the multi-angle vortex through stirring structure and oxidation auxiliary stirring structure in with the stirring inner box, simultaneously through adding the air pressurization and taking the stirring inner box in, takes place chemical reaction through industrial waste water in oxygen, converts the part noxious material in the industrial waste water into other materials, simultaneously through temperature and ultraviolet intensity in adjusting the stirring inner box, carries out germicidal treatment to the industrial waste water in the stirring inner box.

Description

Photocatalytic oxidation device for treating refractory organic wastewater

Technical Field

The utility model relates to a sewage treatment technical field specifically is a light catalytic oxidation device for difficult degradation organic wastewater handles.

Background

The water treatment mode comprises physical treatment, chemical treatment and biological treatment. The mode of human being's water treatment has been quite a lot of years history, and the physical method includes utilizing the different filter media of various aperture sizes, utilizes absorption or separation mode, gets rid of the impurity in aquatic outside, and the more important person in the absorption mode is for adsorbing with active carbon, and separation method is to pass through the filter media with water, lets the impurity of bigger volume can't pass through, and then obtains comparatively clean water.

Some industrial organic waste waters contain toxic and highly stable contaminants, and such waste waters are difficult to treat by conventional physical, chemical and biological methods. Therefore, a two-stage photocatalytic oxidation tank type water treatment device is developed to perform two-stage advanced oxidation treatment on the wastewater to achieve the purposes of efficiently treating and purifying the wastewater.

SUMMERY OF THE UTILITY MODEL

The utility model provides a to prior art not enough, the utility model provides a light catalytic oxidation device for difficult degradation organic wastewater handles has solved current partial background technical problem.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a photocatalytic oxidation apparatus for treatment of refractory organic wastewater, comprising: the oxidation box is provided with a stirring structure, an oxidation auxiliary stirring structure and a light temperature catalysis structure, and a plurality of stirring inner boxes with the same structure are arranged in the oxidation box;

the stirring structure includes: the stirring device comprises a plurality of stirring shafts with the same structure, a plurality of stirring circular plates with the same structure, a plurality of stirring blades with the same structure, a stirring driving machine, a plurality of stirring gears with the same structure, a stirring driving gear and a stirring chain;

the stirring shaft is movably inserted in the stirring inner boxes and the oxidation box, stirring grooves are formed in the stirring inner boxes respectively, the stirring circular plates are installed on the stirring shafts respectively, the stirring circular plates are movably installed in the stirring grooves respectively, the stirring blades are movably installed on the stirring circular plates respectively, the stirring gears are installed on the stirring shafts respectively, the stirring driving machine is installed on the oxidation box, the stirring driving gear is installed on the driving end of the stirring driving machine, and the stirring chain is sleeved on the stirring driving gear and the stirring gears.

Preferably, the oxidation auxiliary stirring structure comprises: the device comprises a pneumatic press, a plurality of stirring auxiliary side shafts with the same structure, a plurality of U-shaped stirring rods with the same structure, a plurality of stirring auxiliary gears with the same structure, a stirring auxiliary driving machine, an auxiliary chain, a stirring driving auxiliary gear, a flow dividing pipe, a plurality of sealing pipes with the same structure and a plurality of sealing hydraulic push rods with the same structure;

the stirring auxiliary side shafts are movably inserted in the oxidation box and the stirring inner boxes through bearings, the stirring auxiliary gears are respectively arranged on the stirring auxiliary side shafts, the U-shaped stirring rods are respectively arranged on the stirring auxiliary side shafts, the stirring auxiliary driving machine is arranged on the outer side of the oxidation box, the stirring driving auxiliary gear is arranged on the driving end of the stirring auxiliary driving machine, and the auxiliary chain is sleeved on the stirring auxiliary gears and the stirring driving auxiliary gears; the sealing pipes are movably inserted in the plurality of stirring auxiliary side shafts respectively, the sealing pipes and the plurality of stirring auxiliary side shafts are provided with a plurality of exhaust holes with the same structure, the shunt pipes are installed on the air compressor, the other ends of the shunt pipes are connected to the plurality of stirring auxiliary side shafts, the sealing hydraulic push rods are installed on the oxidation box, and the pushing ends of the sealing hydraulic push rods are connected to the plurality of sealing pipes respectively.

Preferably, the optical temperature catalytic structure comprises: the device comprises a plurality of ultraviolet lamps with the same structure, a plurality of cooling pipes with the same structure, a plurality of heating pipes with the same structure and a plurality of radiators with the same structure;

the ultraviolet lamps are respectively installed on the stirring inner boxes, the cooling pipes and the heating pipes are installed on the stirring inner boxes, and the radiators are respectively installed on the outer sides of the oxidation boxes.

Preferably, a plurality of auxiliary sliding blocks with the same structure are arranged at the bottom ends of the stirring circular plates respectively, and a plurality of auxiliary sliding ways are arranged on the stirring grooves respectively.

Preferably, a temperature sensor is arranged in the oxidation box.

Preferably, the bottom ends of a plurality of the stirring round plates are provided with sealing gaskets.

Advantageous effects

The utility model provides a light catalytic oxidation device for difficult degradation organic wastewater handles. The method has the following beneficial effects: this a photocatalytic oxidation device for difficult degradation organic waste water treatment, through stirring structure and the supplementary stirring structure of oxidation with stirring the incasement produce the multi-angle vortex, simultaneously through adding the air pressurization and taking the stirring incasement, take place chemical reaction in oxygen through industrial waste water, convert the part noxious material in the industrial waste water into other materials, simultaneously through temperature and ultraviolet intensity in adjusting the stirring incasement, carry out germicidal treatment to the industrial waste water of stirring incasement.

Drawings

FIG. 1 is a schematic sectional view of a photocatalytic oxidation apparatus for treating refractory organic wastewater according to the present invention.

Fig. 2 is a schematic top view of the photocatalytic oxidation apparatus for treating refractory organic wastewater of the present invention.

FIG. 3 is a schematic diagram of a stirring structure of a photocatalytic oxidation apparatus for treating refractory organic wastewater.

In the figure: 1-an oxidation box; 2-stirring the inner box; 3-stirring shaft; 4-stirring a circular plate; 5-stirring blade; 6-stirring driving machine; 7-stirring gear; 8-stirring driving gear; 9-stirring chains; 10-stirring the groove; 11-a gas compressor; 12-stirring auxiliary side shaft; 13-U-shaped stirring rods; 14-stirring auxiliary gear; 15-stirring auxiliary driving machine; 16-an auxiliary chain; 17-stirring driving auxiliary gear; 18-a shunt tube; 19-sealing the tube; 20-sealing the hydraulic push rod; 21-exhaust hole; 22-ultraviolet lamp; 23-a cooling tube; 24-a heating tube; 25-heat sink.

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.

All the electrical components in the present application are connected with the power supply adapted to the electrical components through a wire, and an appropriate controller and an appropriate encoder should be selected according to actual conditions to meet control requirements, and specific connection and control sequences should be obtained.

Example (b): according to the attached drawings 1-3, the oxidation box 1 is provided with a stirring structure, an oxidation auxiliary stirring structure and a light temperature catalysis structure, and a plurality of stirring inner boxes 2 with the same structure are arranged in the oxidation box 1; the stirring structure includes: the stirring device comprises a plurality of stirring shafts 3 with the same structure, a plurality of stirring circular plates 4 with the same structure, a plurality of stirring blades 5 with the same structure, a stirring driving machine 6, a plurality of stirring gears 7 with the same structure, a stirring driving gear 8 and a stirring chain 9; the stirring shafts 3 are movably inserted into the stirring inner boxes 2 and the oxidation box 1, stirring grooves 10 are respectively formed in the stirring inner boxes 2, the stirring circular plates 4 are respectively installed on the stirring shafts 3, the stirring circular plates 4 are respectively movably installed in the stirring grooves 10, the stirring blades 5 are respectively movably installed on the stirring circular plates 4, the stirring gears 7 are respectively installed on the stirring shafts 3, the stirring driver 6 is installed on the oxidation box 1, the stirring driver gear 8 is installed at the driving end of the stirring driver gear 6, and the stirring chain 9 is sleeved on the stirring driver gear 8 and the stirring gears 7; the oxidation auxiliary stirring structure comprises: the device comprises a pneumatic press 11, a plurality of stirring auxiliary side shafts 12 with the same structure, a plurality of U-shaped stirring rods 13 with the same structure, a plurality of stirring auxiliary gears 14 with the same structure, a stirring auxiliary driving machine 15, an auxiliary chain 16, a stirring driving auxiliary gear 17, a shunt pipe 18, a plurality of sealing pipes 19 with the same structure and a plurality of sealing hydraulic push rods 20 with the same structure; a plurality of auxiliary stirring side shafts 12 are movably inserted into the oxidation box 1 and the inner stirring box 2 through bearings, a plurality of auxiliary stirring gears 14 are respectively installed on the auxiliary stirring side shafts 12, a plurality of U-shaped stirring rods 13 are respectively installed on the plurality of auxiliary stirring side shafts 12, an auxiliary stirring driving machine 15 is installed on the outer side of the oxidation box 1, an auxiliary stirring driving gear 17 is installed on the driving end of the auxiliary stirring driving machine 15, and an auxiliary chain 16 is sleeved on the plurality of auxiliary stirring gears 14 and the auxiliary stirring driving gear 17; the sealing pipes 19 are respectively and movably inserted into the stirring auxiliary side shafts 12, a plurality of exhaust holes 21 with the same structure are formed in the sealing pipes 19 and the stirring auxiliary side shafts 12, the shunt pipe 18 is installed on the gas compressor 11, the other end of the shunt pipe 18 is connected to the stirring auxiliary side shafts 12, a plurality of sealing hydraulic push rods 20 are installed on the oxidation box 1, and the pushing ends of the sealing hydraulic push rods 20 are respectively connected to the sealing pipes 19; the light temperature catalysis structure comprises: a plurality of ultraviolet lamps 22 with the same structure, a plurality of cooling pipes 23 with the same structure, a plurality of heating pipes 24 with the same structure and a plurality of radiators 25 with the same structure; the ultraviolet lamps 22 are respectively arranged on the inner stirring boxes 2, the cooling pipes 23 and the heating pipes 24 are arranged on the outer sides of the inner stirring boxes 2, and the radiators 25 are respectively arranged on the outer sides of the oxidation boxes 1; the bottom ends of the stirring circular plates 4 are respectively provided with a plurality of auxiliary sliding blocks with the same structure, and a plurality of stirring grooves 10 are respectively provided with an auxiliary slideway; a temperature sensor is arranged in the oxidation box 1; and the bottom ends of the stirring round plates 4 are provided with sealing gaskets.

From the above, it follows: through pouring industrial waste water into a plurality of stirring inner box 2 in, operate through stirring driver 6, it rotates to drive stirring drive gear 8 on the drive end of stirring driver 6, it rotates to drive gear engagement's stirring chain 9 with it through stirring drive gear 8, it rotates to drive a plurality of gear engagement's stirring gear 7 with it through stirring chain 9, it rotates to drive its (mixing) shaft 3 through a plurality of stirring gear 7 rotation, it drives stirring disc 4 above that respectively through a plurality of (mixing) shaft 3 rotation, make a plurality of stirring disc 4 at stirring recess 10 internal rotation, through the cooperation of a plurality of stirring leaf 5 on stirring disc 4, make the interior vortex flow that produces the horizontal direction of stirring inner box 2, in passing through aerostatic press 11 with the air pumping to shunt tubes 18 simultaneously, in passing through shunt tubes 18 with the air pumping to a plurality of sealed tank 19, through sealed tank 19 and the exhaust hole 21 on the (mixing) shaft 3 with the air pumping discharge a plurality of stirring inner box 2, through sealed tank 19 and the interior box 2 of (mixing) of discharging of air pumping Meanwhile, the operation of the stirring auxiliary driving machine 15 drives the operation of the stirring driving auxiliary gear 17 on the driving end to drive the auxiliary chain 16, the auxiliary chain 16 drives a plurality of stirring auxiliary gears 14 engaged with the auxiliary chain to rotate, the stirring auxiliary side shafts 12 on the stirring auxiliary gears 14 are respectively driven by the rear stirring auxiliary gears 14, the stirring auxiliary side shafts 12 rotate, the stirring auxiliary side shafts 14 drive a plurality of U-shaped stirring rods 13 on the stirring auxiliary shafts to rotate, the stirring inner box 2 generates a vortex in the vertical direction, the air and the industrial wastewater are fully reacted by the vortex at multiple angles, toxic and harmful substances dissolved in the wastewater are converted into non-toxic and harmless new substances through oxidation-reduction reaction, and the wastewater treatment method is called as a wastewater oxidation-reduction method.

Preferably, the oxidation-assisted stirring structure further includes: the device comprises a pneumatic press 11, a plurality of stirring auxiliary side shafts 12 with the same structure, a plurality of U-shaped stirring rods 13 with the same structure, a plurality of stirring auxiliary gears 14 with the same structure, a stirring auxiliary driving machine 15, an auxiliary chain 16, a stirring driving auxiliary gear 17, a shunt pipe 18, a plurality of sealing pipes 19 with the same structure and a plurality of sealing hydraulic push rods 20 with the same structure;

a plurality of auxiliary stirring side shafts 12 are movably inserted into the oxidation box 1 and the inner stirring box 2 through bearings, a plurality of auxiliary stirring gears 14 are respectively installed on the auxiliary stirring side shafts 12, a plurality of U-shaped stirring rods 13 are respectively installed on the plurality of auxiliary stirring side shafts 12, an auxiliary stirring driving machine 15 is installed on the outer side of the oxidation box 1, an auxiliary stirring driving gear 17 is installed on the driving end of the auxiliary stirring driving machine 15, and an auxiliary chain 16 is sleeved on the plurality of auxiliary stirring gears 14 and the auxiliary stirring driving gear 17; the sealing pipes 19 are respectively movably inserted into the stirring auxiliary side shafts 12, a plurality of exhaust holes 21 with the same structure are formed in the sealing pipes 19 and the stirring auxiliary side shafts 12, the shunt pipes 18 are installed on the gas compressor 11, the other ends of the shunt pipes 18 are connected to the stirring auxiliary side shafts 12, a plurality of sealing hydraulic push rods 20 are installed on the oxidation box 1, and the push ends of the sealing hydraulic push rods 20 are respectively connected to the sealing pipes 19.

Preferably, the optical temperature catalytic structure further comprises: a plurality of ultraviolet lamps 22 with the same structure, a plurality of cooling pipes 23 with the same structure, a plurality of heating pipes 24 with the same structure and a plurality of radiators 25 with the same structure;

the ultraviolet lamps 22 are respectively installed on the inner stirring boxes 2, the cooling pipes 23 and the heating pipes 24 are installed on the outer sides of the inner stirring boxes 2, and the radiators 25 are respectively installed on the outer sides of the oxidation boxes 1.

As a preferable scheme, further, a plurality of auxiliary sliding blocks with the same structure are respectively arranged at the bottom ends of the plurality of stirring circular plates 4, and an auxiliary slideway is respectively arranged on the plurality of stirring grooves 10.

Preferably, a temperature sensor is disposed in the oxidation box 1.

Preferably, the bottom ends of a plurality of the stirring round plates 4 are provided with sealing gaskets.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The use of the phrase "comprising one of the elements does not exclude the presence of other like elements in the process, method, article, or apparatus that comprises the element.

In conclusion, the device is designed for treating the wastewater which is difficult to degrade, a multi-angle vortex is generated in the stirring inner box through the stirring structure and the oxidation auxiliary stirring structure, meanwhile, air is pressurized and added into the stirring inner box, partial toxic substances in the industrial wastewater are converted into other substances through the chemical reaction of the industrial wastewater in oxygen, and simultaneously the temperature and the ultraviolet intensity in the stirring inner box are regulated, the industrial wastewater in the stirring inner tank is sterilized, and although the embodiment of the present invention has been shown and described, it will be appreciated by those skilled in the art that various 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. A photocatalytic oxidation apparatus for treatment of refractory organic wastewater, comprising: the oxidation box (1) is characterized in that the oxidation box (1) is provided with a stirring structure, an oxidation auxiliary stirring structure and a light temperature catalysis structure, and a plurality of stirring inner boxes (2) with the same structure are arranged in the oxidation box (1);

the stirring structure includes: the stirring device comprises a plurality of stirring shafts (3) with the same structure, a plurality of stirring circular plates (4) with the same structure, a plurality of stirring blades (5) with the same structure, a stirring driver (6), a plurality of stirring gears (7) with the same structure, a stirring driving gear (8) and a stirring chain (9);

the stirring shafts (3) are movably inserted into the stirring inner boxes (2) and the oxidation box (1), stirring grooves (10) are respectively arranged on the stirring inner boxes (2), the stirring circular plates (4) are respectively arranged on the stirring shafts (3), a plurality of stirring circular plates (4) are respectively and movably arranged in a stirring groove (10), a plurality of stirring blades (5) are respectively and movably arranged on the plurality of stirring circular plates (4), a plurality of stirring gears (7) are respectively arranged on the plurality of stirring shafts (3), the stirring driving machine (6) is arranged on the oxidation box (1), the stirring driving gear (8) is arranged on the driving end of the stirring driving machine (6), the stirring chain (9) is sleeved on the stirring driving gear (8) and the stirring gear (7).

2. The photocatalytic oxidation device for treatment of organic wastewater difficult to degrade according to claim 1, wherein the oxidation auxiliary stirring structure comprises: the device comprises a pneumatic press (11), a plurality of stirring auxiliary side shafts (12) with the same structure, a plurality of U-shaped stirring rods (13) with the same structure, a plurality of stirring auxiliary gears (14) with the same structure, a stirring auxiliary driving machine (15), an auxiliary chain (16), a stirring driving auxiliary gear (17), a shunt pipe (18), a plurality of sealing pipes (19) with the same structure and a plurality of sealing hydraulic push rods (20) with the same structure;

the stirring auxiliary side shafts (12) are movably inserted in the oxidation box (1) and the stirring inner boxes (2) through bearings, the stirring auxiliary gears (14) are respectively arranged on the stirring auxiliary side shafts (12), the U-shaped stirring rods (13) are respectively arranged on the stirring auxiliary side shafts (12), the stirring auxiliary driving machine (15) is arranged on the outer side of the oxidation box (1), the stirring driving auxiliary gear (17) is arranged on the driving end of the stirring auxiliary driving machine (15), and the auxiliary chain (16) is sleeved on the stirring auxiliary gears (14) and the stirring driving auxiliary gear (17); the sealing device is characterized in that a plurality of sealing pipes (19) are movably inserted into a plurality of stirring auxiliary side shafts (12) respectively, a plurality of sealing pipes (19) and a plurality of exhaust holes (21) with the same structure are formed in the stirring auxiliary side shafts (12), a plurality of shunt pipes (18) are installed on an air compressor (11), the other ends of the shunt pipes (18) are connected to the plurality of stirring auxiliary side shafts (12), a plurality of sealing hydraulic push rods (20) are installed on an oxidation box (1), and the pushing ends of the sealing hydraulic push rods (20) are connected to the plurality of sealing pipes (19) respectively.

3. The photocatalytic oxidation device for treatment of organic wastewater difficult to degrade according to claim 1, characterized in that the light temperature catalytic structure comprises: a plurality of ultraviolet lamps (22) with the same structure, a plurality of cooling pipes (23) with the same structure, a plurality of heating pipes (24) with the same structure and a plurality of radiators (25) with the same structure;

the ultraviolet lamps (22) are respectively installed on the inner stirring boxes (2), the cooling pipes (23) and the heating pipes (24) are installed on the outer sides of the inner stirring boxes (2), and the radiators (25) are respectively installed on the outer sides of the oxidation boxes (1).

4. The photocatalytic oxidation device for treating refractory organic wastewater as recited in claim 1, wherein a plurality of auxiliary sliders with the same structure are respectively disposed on the bottom ends of a plurality of stirring circular plates (4), and a plurality of auxiliary slideways are respectively disposed on a plurality of stirring grooves (10).

5. The photocatalytic oxidation device for treatment of organic wastewater difficult to degrade according to claim 1, characterized in that a temperature sensor is arranged in the oxidation box (1).

6. The photocatalytic oxidation device for the treatment of organic wastewater difficult to degrade according to claim 1, characterized in that the bottom ends of a plurality of stirring circular plates (4) are provided with sealing gaskets.

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