CN210513798U - Online monitoring device for aquaculture wastewater - Google Patents

Abstract

The utility model relates to the technical field of wastewater treatment devices, and provides an online monitoring device for aquaculture wastewater, which comprises an ozone treatment box, wherein a rotating tank with an inclination angle of 15-20 degrees is arranged in the ozone treatment box, and an online detection mechanism is also arranged in the ozone treatment box; the feed inlet of the rotary tank is also provided with an air inlet pipe and a waste liquid inlet pipe which extend into the tank; a liquid taking pipe is sleeved in the air inlet pipe; the liquid taking pipe is connected with an online detection mechanism. Therefore, the utility model arranges an inclined rotating tank in the ozone treatment box, an air inlet pipe is inserted into the rotating tank, a liquid taking pipe is sleeved in the air inlet pipe, and a plurality of liquid suction ports are arranged on the liquid taking pipe; the liquid taking pipe is also connected with an online detection mechanism. The utility model discloses a plurality of imbibition mouths have improved the degree of accuracy of sample from jar interior different positions simultaneous sampling. Meanwhile, an online detection mechanism is arranged, so that liquid can be extracted from the tank in real time for online detection, technological parameters can be adjusted in time according to detection results, and the efficiency and quality of wastewater treatment are guaranteed.

Description

Online monitoring device for aquaculture wastewater

Technical Field

The utility model relates to a waste water treatment technical field especially relates to an online monitoring device of aquaculture wastewater.

Background

With the improvement of environmental protection requirements, the treatment standard of the wastewater of the farm is more and more strict.

Commonly used wastewater treatment processes generally include: natural settling, zeolite filtering, purifying, organic matter removing, oxygen increasing, sterilizing and the like. According to different waste water types and standard requirements, secondary precipitation can be properly added or certain procedures can be correspondingly reduced.

At present, the detection of the waste water is generally to take a sample and test after a complete process or a certain process is completed. Thus, the adjustment of the treatment parameters is delayed, and the effect and efficiency of wastewater treatment are affected.

In view of the above, the prior art is obviously inconvenient and disadvantageous in practical use, and needs to be improved.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects, the utility model aims to provide an on-line monitoring device for aquaculture wastewater, which is characterized in that an inclined rotating tank is arranged in an ozone treatment box, an air inlet pipe is inserted into the rotating tank, a liquid taking pipe is sleeved in the air inlet pipe, and a plurality of liquid suction ports are arranged on the liquid taking pipe; the liquid taking pipe is also connected with an online detection mechanism. The utility model discloses a plurality of imbibition mouths have improved the degree of accuracy of sample from jar interior different positions simultaneous sampling. Meanwhile, an online detection mechanism is arranged, so that liquid can be extracted from the tank in real time for online detection, technological parameters can be adjusted in time according to detection results, and the efficiency and quality of wastewater treatment are guaranteed.

In order to realize the aim, the utility model provides an on-line monitoring device for aquaculture wastewater, which comprises an ozone treatment box, wherein a rotating tank with an inclination angle of 15-20 degrees is arranged in the ozone treatment box, and an on-line detection mechanism is also arranged in the ozone treatment box; the ozone treatment box is also provided with a waste liquid inlet, a waste liquid outlet and an ozone inlet;

the rotary tank is erected on the tank bracket; the tank bracket is provided with two fixed seats; the fixed seat is fixedly provided with a rotating seat;

a feed inlet and a discharge outlet are respectively arranged at two ends of the tank body of the rotating tank and are respectively rotatably sleeved on the corresponding rotating seats;

the tank body of the rotating tank is provided with a circular rail, and the tank bracket is correspondingly provided with a rotating wheel; the rotating wheel is in contact with the connecting ring rail; a tank body of the rotating tank is also provided with a gear ring meshed with the gear; the tank bracket is also fixedly provided with a rotating motor of the driving gear;

the feeding port of the rotary tank is also provided with a tank port cover fixed on the tank bracket; an air inlet pipe and a waste liquid inlet pipe which extend into the tank are inserted into the tank opening cover; the air inlet pipe and the waste liquid inlet pipe are respectively connected with an ozone inlet and a waste liquid inlet; a discharge port of the rotary tank is provided with a filter hopper, and the bottom of the filter hopper is connected with a waste liquid outlet;

the air inlet pipe is also provided with a plurality of air inlet branch pipes; a plurality of air outlet holes are arranged on the air inlet branch pipe; a liquid taking pipe is sleeved in the air inlet pipe; the liquid taking pipe is connected with an online detection mechanism;

the online detection mechanism comprises a sampling barrel, a liquid inlet pipe and a PH meter are inserted into the top of the sampling barrel, and a liquid outlet is arranged at the bottom of the sampling barrel; the liquid inlet pipe is connected with a liquid suction pump; the liquid suction pump is connected with the liquid taking pipe, and the pipe body of the liquid taking pipe is also provided with a plurality of liquid suction ports.

According to the utility model discloses an on-line monitoring device of aquaculture wastewater, the angle of inclination of rotating the jar is 17.

According to the utility model discloses an on-line monitoring device of aquaculture wastewater, the top of ozone treatment case still is equipped with the lug.

According to the utility model discloses an on-line monitoring device of aquaculture wastewater, the converter is connected to the rotation motor.

According to the utility model discloses an on-line monitoring device of aquaculture wastewater, still be equipped with the kuppe on the filter hopper.

According to the utility model discloses an on-line monitoring device of aquaculture wastewater, still be provided with a plurality of fins on the inlet branch.

According to the utility model discloses an on-line monitoring device of aquaculture waste water, still be equipped with the hydrojet on the sampling bucket, the inside of sampling bucket still is provided with the agitator.

According to the utility model discloses an on-line monitoring device of aquaculture wastewater, the ring rail is two.

According to the utility model discloses an on-line monitoring device of breeding waste water, two runners are connected to every ring rail.

According to the utility model discloses an on-line monitoring device of aquaculture wastewater, the ring gear is located between two ring rails.

The utility model aims to provide an on-line monitoring device for aquaculture wastewater, which is characterized in that an inclined rotating tank is arranged in an ozone treatment box, an air inlet pipe is inserted into the rotating tank, a liquid taking pipe is sleeved in the air inlet pipe, and a plurality of liquid suction ports are arranged on the liquid taking pipe; the liquid taking pipe is also connected with an online detection mechanism. The utility model discloses a plurality of imbibition mouths have improved the degree of accuracy of sample from jar interior different positions simultaneous sampling. Meanwhile, an online detection mechanism is arranged, so that liquid can be extracted from the tank in real time for online detection, technological parameters can be adjusted in time according to detection results, and the efficiency and quality of wastewater treatment are guaranteed.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic structural view of the rotary tank of the present invention;

FIG. 3 is a schematic view of the structure in the direction A of FIG. 2;

FIG. 4 is a schematic structural diagram of the region C in FIG. 2;

FIG. 5 is a schematic structural diagram of the on-line detection mechanism of the present invention;

FIG. 6 is a schematic structural view of the region A in FIG. 1;

FIG. 7 is a schematic structural diagram of the region B in FIG. 1;

FIG. 8 is a schematic structural view of the region D in FIG. 7;

in the figure, 1-ozone treatment box, 10-lifting lug, 11-rotating tank, 12-ring rail, 13-feeding inlet, 14-discharging outlet, 15-rotating seat, 16-gear ring, 17-waste liquid inlet, 18-waste liquid outlet and 19-ozone inlet; 2-tank support, 21-fixing seat, 22-rotating wheel, 23-gear, 24-air inlet pipe, 241-air inlet branch pipe, 242-fin and 243-air outlet hole; 25-waste liquid inlet pipe, 26-tank cover; 3-an online detection mechanism, 31-a sampling barrel, 32-a liquid outlet, 33-a PH meter, 34-a liquid spraying nozzle, 35-a liquid suction pump, 36-a liquid inlet pipe, 37-a stirrer, 38-a liquid taking pipe and 381-a liquid suction port; 4-filter hopper, 41-air guide sleeve.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. The above-mentioned directions or positions of the upper, lower, left, right, etc. are referred to in this specification for better describing the technical solution in conjunction with the drawings, so that the reader can understand that the practical implementation includes but is not limited to this description.

Referring to fig. 1, the utility model provides an on-line monitoring device of aquaculture wastewater, including ozone treatment case 1, the incasement is provided with the rotation jar 11 of slope, still is provided with on-line measuring mechanism 3. The inclination angle of the rotating tank 11 is 15-20 degrees, and the utility model is preferably 17 degrees. The ozone treatment box 1 is provided with a waste liquid inlet 17, a waste liquid outlet 18 and an ozone inlet 19; better, the top of ozone treatment case 1 still is equipped with lug 10, is convenient for handle the hoist and mount of case and shift.

Referring to fig. 2, the rotary tank 1 is erected on a tank support 2; the tank bracket 2 is provided with two fixed seats 21; the fixed seat 21 is fixedly provided with a rotating seat 15;

referring to fig. 4, a feed inlet 13 and a discharge outlet 14 are respectively arranged at two ends of the tank body of the rotary tank 11, and the feed inlet 13 and the discharge outlet 14 are respectively rotatably sleeved on corresponding rotary seats 15;

the tank body of the rotating tank 11 is provided with a ring rail 12, and the tank bracket 2 is correspondingly provided with a rotating wheel 22; the runner 22 contacts the connecting ring rail 12; a tank body of the rotating tank 11 is also provided with a gear ring 16 meshed with the gear 23; the tank bracket 2 is also fixedly provided with a rotating motor for driving the gear 23; preferably, the rotating motor is connected with the frequency converter, so that the rotating speed can be conveniently adjusted. The utility model discloses a rotating seat 15 is the bearing frame, realizes rotating through the bearing and rotating jar 11 and is connected.

The rotary motor drives the gear 23 to rotate and thereby rotate the canister via the ring gear 16. Referring again to fig. 3, each ring rail 12 connects two wheels 22 to ensure smooth rotation of the can body. For added stability, there are two ring rails 12. For the purpose of optimum design, the toothed ring 16 is arranged between the two ring rails 12.

Referring to fig. 4, a tank cover 26 fixed on the tank bracket 2 is further arranged at the feed port 13 of the rotary tank 11; an air inlet pipe 24 and a waste liquid inlet pipe 25 extending into the tank are also inserted into the tank cover 26; the air inlet pipe 24 and the waste liquid inlet pipe 25 are respectively connected with the ozone inlet 19 and the waste liquid inlet 17; referring to fig. 6 again, a filter hopper 4 is arranged at a discharge port 14 of the rotary tank 11, and a waste liquid outlet 18 is connected to the bottom of the filter hopper 4; preferably, in order to avoid splashing of the liquid, the filter hopper 4 is further provided with a flow guide cover 41.

Referring to fig. 7, the intake pipe 24 is further provided with a plurality of intake branch pipes 241; referring to fig. 8, the inlet manifold 241 is provided with a plurality of outlet holes 243; the ozone is mixed with the wastewater stirred up by the rotary tank 11 through the air outlet 243, and impurities such as organic matters in the wastewater are removed by oxidation. In order to enhance the treatment effect, a plurality of fins 242 are further disposed on the intake manifold 241. The fins 242 have a turbulent flow effect, increase the contact area between the wastewater and the ozone, and improve the treatment effect.

Referring to fig. 5, the online detection mechanism 3 includes a sampling barrel 31, a liquid inlet pipe 36 and a PH meter 33 are inserted into the top of the sampling barrel 31, and a liquid outlet 32 is arranged at the bottom; the liquid inlet pipe 36 is connected with a liquid sucking pump 35; referring to fig. 4, the liquid suction pump 35 is connected to the liquid extraction pipe 38; referring to fig. 7, the liquid taking tube 38 is sleeved in the air inlet tube 24, and a plurality of liquid suction ports 381 are further formed in the tube body of the liquid taking tube 38; the utility model discloses a plurality of imbibition mouths 381 have improved the degree of accuracy that detects from the simultaneous sampling of jar interior different positions.

The utility model discloses set up on-line measuring mechanism 3 and can extract liquid in real time from jar and carry out on-line measuring, in time adjust technological parameter according to the testing result, guarantee waste water treatment's efficiency and quality. In order to improve the truth of each detection, the sampling barrel 31 is also provided with a liquid spraying nozzle 34, and the inside of the sampling barrel 31 is also provided with a stirrer 37. After each detection, cleaning liquid is sprayed from the liquid spraying nozzle 34, the stirrer 37 is started for cleaning, and then the cleaning liquid is discharged from the liquid discharging port 32, so that the interference of the next detection result is avoided.

In summary, the utility model aims to provide an on-line monitoring device for aquaculture wastewater, which is characterized in that an inclined rotating tank is arranged in an ozone treatment box, an air inlet pipe is inserted into the rotating tank, a liquid taking pipe is sleeved in the air inlet pipe, and a plurality of liquid suction ports are arranged on the liquid taking pipe; the liquid taking pipe is also connected with an online detection mechanism. The utility model discloses a plurality of imbibition mouths have improved the degree of accuracy of sample from jar interior different positions simultaneous sampling. Meanwhile, an online detection mechanism is arranged, so that liquid can be extracted from the tank in real time for online detection, technological parameters can be adjusted in time according to detection results, and the efficiency and quality of wastewater treatment are guaranteed.

Naturally, the present invention can be embodied in many other forms without departing from the spirit or essential attributes thereof, and it should be understood that various changes and modifications can be made by one skilled in the art without departing from the spirit or essential attributes thereof, and it is intended that all such changes and modifications be considered as within the scope of the appended claims.

Claims (10)

1. An on-line monitoring device for aquaculture wastewater is characterized by comprising an ozone treatment box, wherein a rotating tank with an inclination angle of 15-20 degrees is arranged in the ozone treatment box, and an on-line detection mechanism is also arranged in the ozone treatment box; the ozone treatment box is also provided with a waste liquid inlet, a waste liquid outlet and an ozone inlet;

the rotary tank is erected on the tank bracket; the tank bracket is provided with two fixed seats; the fixed seat is fixedly provided with a rotating seat;

a feed inlet and a discharge outlet are respectively arranged at two ends of the tank body of the rotating tank and are respectively rotatably sleeved on the corresponding rotating seats;

the tank body of the rotating tank is provided with a circular rail, and the tank bracket is correspondingly provided with a rotating wheel; the rotating wheel is in contact with the connecting ring rail; a tank body of the rotating tank is also provided with a gear ring meshed with the gear; the tank bracket is also fixedly provided with a rotating motor of the driving gear;

the feeding port of the rotary tank is also provided with a tank port cover fixed on the tank bracket; an air inlet pipe and a waste liquid inlet pipe which extend into the tank are inserted into the tank opening cover; the air inlet pipe and the waste liquid inlet pipe are respectively connected with an ozone inlet and a waste liquid inlet; a discharge port of the rotary tank is provided with a filter hopper, and the bottom of the filter hopper is connected with a waste liquid outlet;

the air inlet pipe is also provided with a plurality of air inlet branch pipes; a plurality of air outlet holes are arranged on the air inlet branch pipe; a liquid taking pipe is sleeved in the air inlet pipe; the liquid taking pipe is connected with an online detection mechanism;

the online detection mechanism comprises a sampling barrel, a liquid inlet pipe and a PH meter are inserted into the top of the sampling barrel, and a liquid outlet is arranged at the bottom of the sampling barrel; the liquid inlet pipe is connected with a liquid suction pump; the liquid suction pump is connected with the liquid taking pipe, and the pipe body of the liquid taking pipe is also provided with a plurality of liquid suction ports.

2. The on-line monitoring device for aquaculture wastewater of claim 1, wherein the inclination angle of the rotating tank is 17 °.

3. The on-line monitoring device for aquaculture wastewater of claim 1, wherein a lifting lug is further arranged at the top of the ozone treatment tank.

4. The on-line monitoring device for aquaculture wastewater of claim 1, wherein the rotating motor is connected with a frequency converter.

5. The on-line monitoring device for aquaculture wastewater of claim 1, wherein a flow guide cover is further arranged on the filter hopper.

6. The on-line monitoring device for aquaculture wastewater as claimed in any one of claims 1 to 5, wherein the air inlet branch pipe is further provided with a plurality of fins.

7. The on-line monitoring device for aquaculture wastewater as claimed in claim 6, wherein the sampling barrel is further provided with a liquid spraying nozzle, and the inside of the sampling barrel is further provided with a stirrer.

8. The on-line monitoring device for aquaculture wastewater of claim 6, wherein there are two loop rails.

9. The on-line monitoring device for aquaculture wastewater of claim 8, wherein each ring rail is connected with two rotating wheels.

10. The on-line monitoring device for aquaculture wastewater of claim 9, wherein the gear ring is disposed between two ring rails.

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