CN115490362A - Intelligent aquaculture wastewater treatment device and method - Google Patents

Abstract

The invention relates to the technical field of aquaculture, in particular to an intelligent aquaculture wastewater treatment device and method, which comprises a machine body serving as a whole device carrier, wherein a transmission case is fixedly connected onto the machine body, a storage case for storing an oxidant is fixedly connected onto the machine body, a sedimentation tank is arranged in the machine body, a feeding mechanism for adding the oxidant is arranged on the machine body, a filtering mechanism for filtering wastewater is arranged in the transmission case, an impurity removing mechanism for removing floating objects is arranged in the sedimentation tank, the feeding mechanism comprises a transmission blade arranged at a water outlet of the transmission case, a transmission shaft fixedly connected with the transmission blade is rotatably arranged in the machine body, a blanking assembly for controlling the opening and closing of the discharge outlet of the storage case is arranged on the transmission shaft, an adjusting assembly for controlling the discharging frequency is arranged on the machine body, the oxidant can be automatically added through the arrangement of the feeding mechanism, the corresponding amount of the oxidant can be fed according to the water volume, and the oxidant and the reaction with water is facilitated.

Description

Intelligent aquaculture wastewater treatment device and method

Technical Field

The invention relates to the technical field of aquaculture, in particular to an intelligent aquaculture wastewater treatment device and method.

Background

Aquatic products such as fishes and shrimps are important sources for obtaining proteins by human beings, large-scale aquaculture is rapidly developed along with the rapid increase of population, a large amount of impurities and harmful substances can be generated in the aquaculture process, the impurities and the harmful substances can cause harm to aquatic organisms, and the wastewater needs to be treated regularly.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an intelligent aquaculture wastewater treatment device and method, which have the advantages that the addition of an oxidant can be automatically completed, the oxidant with the corresponding amount can be added according to the water quantity, the reaction between the oxidant and water is facilitated, and the problems that the resource waste is caused by excessive oxidant, the aquatic organisms are damaged, and the wastewater treatment effect is poor caused by too little oxidant are solved.

In order to solve the technical problems, the invention provides the following technical scheme:

the utility model provides an intelligent aquaculture effluent treatment plant, includes the organism as whole device carrier, the rigid coupling has the transmission case on the organism, and the rigid coupling has the storage case that is used for storing the oxidant on the organism, is equipped with the sedimentation tank in the organism, installs the input mechanism that is used for adding the oxidant on the organism, is equipped with the filtering mechanism who is used for filtering waste water in the transmission case, is equipped with the edulcoration mechanism that is used for getting rid of the floater in the sedimentation tank, the delivery port department that input mechanism includes the transmission case is equipped with the transmission leaf, rotatable installation in the organism with the transmission shaft of transmission leaf rigid coupling, be equipped with the unloading subassembly that is used for controlling storage case discharge gate switch on the transmission shaft, install the adjusting part who is used for controlling ejection of compact frequency on the organism.

Preferably, unloading subassembly bottom rigid coupling has the support, and the rigid coupling has the spring on the support, and the discharge gate department of storage case installs the closing plate with the spring rigid coupling, and the rigid coupling has the driving frame on the closing plate, and the tip of driving frame passes the spout and extends to the outside and the rigid coupling of organism and has the transmission ball, is equipped with the driving disc on the transmission shaft, and the tip rigid coupling of driving disc has a plurality of lugs that are used for driving the closing plate and remove, and the lateral wall of lug is the arc.

Preferably, the adjusting assembly comprises a sliding sleeve which is connected to the transmission shaft in a sliding manner and fixedly connected with the transmission discs, a plurality of transmission discs are arranged on the transmission discs, the number of the convex blocks on the plurality of transmission discs is different, the machine body is fixedly provided with an electric telescopic rod, the free end of the electric telescopic rod is fixedly connected with a transmission plate, and the transmission plate is connected with the sliding sleeve through a bearing.

Preferably, the inner wall of the electric telescopic rod is provided with a sliding groove, the transmission shaft is fixedly connected with a sliding block, and the sliding block is connected in the sliding groove in a sliding mode.

Preferably, a water quality detector is fixedly mounted on the transmission case, and a probe positioned at a water outlet of the transmission case is fixedly connected to the water quality detector.

Preferably, the filtering mechanism comprises a filtering ring which is rotatably arranged on the transmission case, impurity outlets are arranged on two sides of the filtering ring, a motor a fixedly connected with the filtering ring is arranged on the transmission case, a scraper attached to the inner wall of the filtering ring is fixedly connected in the filtering mechanism, a motor b is arranged on the transmission case, and a flow guide frame located below the filtering ring is fixedly connected to the output end of the motor b.

Preferably, install belt conveyor assembly in the sedimentation tank, install a plurality of transmission covers on the belt conveyor assembly, sliding connection has the connecting plate on the transmission cover.

Preferably, the sedimentation tank is internally and fixedly connected with a shell, an electric push rod is installed in the shell, and the free end of the electric push rod is fixedly connected with a lifting support frame for controlling the connecting plate.

Preferably, the belt conveying assembly comprises belt rollers which are rotatably arranged on two sides in the sedimentation tank, a conveying belt is sleeved between the belt rollers, a transmission sleeve is fixedly connected to the conveying belt, and a motor c for driving the belt rollers to rotate is fixedly arranged on the machine body.

The invention also provides a method of the intelligent aquaculture wastewater treatment device, which comprises the following steps:

the method comprises the following steps: the water pump starts and pours into water into through the water pipe and strains on the ring, waste water passes the filter screen of straining the ring bottom, can filter the impurity in the waste water, to straining when the ring goes up impurity and clears up, waste water stops to carry, motor b starts to drive the water conservancy diversion frame and rotates, it strains the ring below to overturn the water conservancy diversion frame, and motor a starts to drive and strains the ring rotation, strain the inner wall and the scraper blade contact of ring, will strain the impurity of ring inner wall and clear up, impurity falls on the water conservancy diversion frame through going out miscellaneous mouthful afterwards, the water conservancy diversion frame is the slope form, impurity falls in the material receiving box from the water conservancy diversion mouth afterwards.

Step two: probe on the water quality testing appearance detects quality of water, and the quality of water of waste water is different, and electric telescopic handle starts to make its free end extension or shrink, drives the driving plate and removes, and the sliding sleeve removes along with the driving plate, can adjust the position of driving disc then, changes the frequency of unloading, can adjust the volume of unloading then.

Step three: the water falls to the transmission leaf and makes it drive the transmission shaft and rotate, and the transmission shaft drives the transmission dish and rotates, and the lug rotates along with the transmission shaft, and the lug promotes its outside and removes when rotating and the contact of transmission ball, and the transmission ball passes through the transmission frame and drives the closing plate and remove, can put aside the closing plate from the discharge gate department of storage case, and the oxidant in the storage case is followed the discharge gate afterwards and is put in the waste water, can carry out the unloading by the automatic gap nature.

Step four: motor c starts to drive the belt roller and rotates, then can drive the conveyer belt and move, and belt transport assembly moves and drives the transmission cover and remove, and the connecting plate moves along with the transmission cover, can drive the floater that the reaction came out in the waste water outside the waste bin in, and it can to derive the water in the sedimentation tank through the water pipe at last.

By means of the technical scheme, the invention provides an intelligent aquaculture wastewater treatment device and method, which at least have the following beneficial effects:

1. this intelligent aquaculture effluent treatment plant and method through setting up input mechanism, can accomplish automatically and add the oxidant, can put in the oxidant of corresponding volume according to the size of water yield, is favorable to oxidant and water to react, avoids too much oxidant to cause extravagantly, also can prevent too few oxidant to cause the reaction inadequately, and can directly add the water of carrying coming, is favorable to water and oxidant to mix for the speed of reaction.

2. This intelligent aquaculture effluent treatment plant and method, through setting up adjusting part, electric telescopic handle starts to make its free end extension or shrink, drives the driving plate and removes, and the sliding sleeve removes along with the driving plate, then can adjust the position of driving plate, because the boss quantity is different on a plurality of driving plates, can be different according to quality of water, changes the frequency of unloading, then can adjust the volume of unloading.

3. This intelligent aquaculture effluent treatment plant and method, through setting up filtering mechanism, can be automatic handle the impurity of straining the ring, can avoid straining the filtration pore on the ring and appear blockking up the efficiency that influences waste water treatment, strain the ring afterwards and continue to rotate, the filtration pore that will strain the ring top removes the below position, motor b starts and rotates the opposite side with the water conservancy diversion frame, waste water continues to arrange to send to strain and handles on the ring afterwards, can improve the efficiency to waste water treatment, reduce the time to impurity clearance on the filtration pore.

4. This intelligent aquaculture effluent treatment plant and method, through setting up edulcoration mechanism, belt transport assembly moves and drives the transmission cover and remove, and the connecting plate removes along with the transmission cover, in can driving the floater that reacts out in the waste water outside waste material case, need not the manual work and handles, further improves work efficiency.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application:

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

FIG. 2 is a schematic perspective view of the present invention in a front view;

FIG. 3 is a schematic structural diagram of the dispensing mechanism of the present invention;

FIG. 4 is a schematic structural view of the blanking assembly of the present invention;

FIG. 5 is a schematic view of the adjusting assembly of the present invention;

FIG. 6 is a cross-sectional view of the sliding sleeve of the present invention;

FIG. 7 is a schematic view of the filter mechanism of the present invention;

FIG. 8 is a perspective view of the present invention in a rear view;

FIG. 9 is a schematic view of the trash removal mechanism of the present invention;

fig. 10 is a schematic structural view of the flow guide frame of the present invention.

Reference numerals:

100. a body;

200. a sedimentation tank;

300. a feeding mechanism; 301. a drive shaft; 302. a drive blade; 303. a blanking assembly; 3031. a spring; 3032. a sealing plate; 3033. a transmission frame; 3034. a drive plate; 3035. a bump; 3036. a drive ball; 304. an adjustment assembly; 3041. a sliding sleeve; 3042. an electric telescopic rod; 3043. a drive plate; 3044. a slider; 3045. a sliding groove; 305. a water quality detector; 306. a probe;

400. a filtering mechanism; 401. filtering rings; 402. a sundry outlet; 403. a motor a; 404. a squeegee; 405. a motor b; 406. a flow guide frame; 407. a flow guide port; 408. a material receiving box;

500. an impurity removal mechanism; 501. a belt transfer assembly; 502. a driving sleeve; 503. a connecting plate; 504. an electric push rod; 505. a support frame; 506. a housing;

600. a material storage box;

700. a transmission case.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The following describes an intelligent aquaculture wastewater treatment device and method provided by some embodiments of the invention with reference to the accompanying drawings.

The first embodiment is as follows:

referring to fig. 1 to 4, the intelligent aquaculture wastewater treatment device and method provided by the present invention includes a machine body 100 as a carrier of the whole device, a transmission case 700 is fixedly connected to the machine body 100, a storage case 600 for storing an oxidant is fixedly connected to the machine body 100, a sedimentation tank 200 for precipitating wastewater is provided in the machine body 100, a feeding mechanism 300 for adding an oxidant is installed on the machine body 100, a filtering mechanism 400 for filtering wastewater is provided in the transmission case 700, an impurity removing mechanism 500 for removing floating matters is provided in the sedimentation tank 200, the filtering mechanism 400 is configured to primarily filter impurities in wastewater, so as to reduce the subsequent wastewater treatment efficiency of the device, the feeding mechanism 300 is configured to feed a corresponding amount of oxidant along with the delivery of wastewater, when wastewater is not delivered, the oxidant feeding is stopped, so as to avoid the situation of excessive or insufficient addition of the oxidant, the impurity removing mechanism 500 is configured to remove floating matters generated by the reaction of the wastewater and the oxidant, thereby further improving the wastewater treatment quality.

The throwing mechanism 300 comprises a transmission blade 302 arranged at a water outlet of a transmission box 700, a transmission shaft 301 fixedly connected with the transmission blade 302 is rotatably arranged in the machine body 100, a discharging component 303 used for controlling the opening and closing of a discharging port of the storage box 600 is arranged on the transmission shaft 301, an adjusting component 304 used for controlling discharging frequency is arranged on the machine body 100, a water pump injects waste water into the filtering mechanism 400 through a water pipe, then the waste water is discharged from a water outlet of the filtering mechanism 400, the water falls on the transmission blade 302 to drive the transmission shaft 301 to rotate, the transmission shaft 301 rotates to open a discharging port at the bottom of the storage box 600 through the discharging component 303, an oxidant in the storage box 600 falls on the waste water, and then the oxidant can be automatically added, the corresponding amount of the oxidant can be thrown according to the water amount, the oxidant can be favorably reacted with water, waste caused by excessive oxidant can be avoided, insufficient reaction caused by insufficient oxidant can be prevented, water can be directly added, mixing of the water with the oxidant can be favorably, and the reaction speed can be accelerated.

Specifically, a support is fixedly connected to the bottom of the blanking assembly 303, a spring 3031 is fixedly connected to the support, a sealing plate 3032 fixedly connected to the spring 3031 is installed at a discharge port of the storage tank 600, a transmission frame 3033 is fixedly connected to the sealing plate 3032, an end portion of the transmission frame 3033 penetrates through the sliding chute and extends to the outside of the machine body 100, and a transmission ball 3036 is fixedly connected to the transmission shaft 301, a transmission disc 3034 is arranged on the transmission shaft 301, a plurality of protruding blocks 3035 for driving the sealing plate 3032 to move are fixedly connected to an end portion of the transmission disc 3034, an outer side wall of each protruding block 3035 is arc-shaped, the transmission shaft 301 drives the transmission disc 3034 to rotate, the protruding blocks 3035 rotate along with the transmission shaft 301, the protruding blocks 3035 are pushed to move outwards when contacting with the transmission ball 3036, the transmission ball 3036 drives the sealing plate 3032 to move through the transmission frame 3033, the sealing plate 3032 can be moved away from the discharge port of the storage tank 600, and then the oxidant in the storage tank 600 is thrown into the wastewater from the discharge port, and blanking can be performed automatically.

According to the embodiment, the water pump injects the wastewater into the filtering mechanism 400 through the water pipe, and then the wastewater is discharged from the water outlet of the filtering mechanism 400, the water falls to the driving blade 302 to drive the driving shaft 301 to rotate, the driving shaft 301 drives the driving disc 3034 to rotate, the bump 3035 rotates along with the driving shaft 301, the bump 3035 pushes the driving ball 3036 to move outwards when contacting with the driving ball 3036, the driving ball 3036 drives the sealing plate 3032 to move through the driving frame 3033, the sealing plate 3032 can be moved away from the material outlet of the storage tank 600, then the oxidant in the storage tank 600 is put into the wastewater from the material outlet, automatic intermittent blanking can be performed, the corresponding amount of oxidant can be put in, the oxidant and the water can be favorably reacted, waste caused by excessive oxidant can be avoided, insufficient reaction caused by insufficient oxidant can be prevented by too little oxidant, the conveyed water can be directly added, the water and the oxidant can be favorably mixed, and the reaction speed is accelerated

The second embodiment:

as shown in fig. 4, 5, and 6, based on the first embodiment, the adjusting assembly 304 includes a sliding sleeve 3041 slidably connected to the transmission shaft 301 and fixedly connected to the transmission disc 3034, the transmission disc 3034 is provided with a plurality of protrusions 3035, the number of the protrusions 3035 on the plurality of transmission discs 3034 is different, the machine body 100 is fixedly provided with an electric telescopic rod 3042, a free end of the electric telescopic rod 3042 is fixedly connected to a transmission plate 3043, the transmission plate 3043 is connected to the sliding sleeve 3041 through a bearing, when the water quality of the wastewater is different, the electric telescopic rod 3042 is started to extend or contract the free end thereof to drive the transmission plate 3043 to move, the sliding sleeve 3041 moves along with the transmission plate 3043, and then the position of the transmission disc 3034 can be adjusted, because the number of the protrusions 3035 on the plurality of transmission discs 3034 is different, the blanking frequency can be changed according to the different water quality, and then the blanking amount can be adjusted.

Specifically, the inner wall of the electric telescopic rod 3042 is provided with a sliding groove 3045, the transmission shaft 301 is fixedly connected with a sliding block 3044, the sliding block 3044 is slidably connected in the sliding groove 3045, and when the transmission shaft 301 rotates, the sliding sleeve 3041 is driven to rotate through the sliding block 3044, so that an additional power source is not needed, and the equipment cost can be reduced.

The water quality detector 305 is fixedly arranged on the transmission case 700, the probe 306 positioned at the water outlet of the transmission case 700 is fixedly connected to the water quality detector 305, the probe 306 on the water quality detector 305 can detect the water quality, then the electric telescopic rod 3042 can be started, the transmission discs 3034 with different numbers of lugs 3035 can be adjusted, then the blanking frequency can be automatically controlled, the blanking amount can be accurately and rapidly adjusted, and the waste water treatment is facilitated.

Example three:

referring to fig. 1, 7, 8 and 10, in the first embodiment, the filtering mechanism 400 includes a filtering ring 401 rotatably mounted on a transmission case 700, impurity outlets 402 are disposed on two sides of the filtering ring 401, a motor a403 fixedly connected to the filtering ring 401 is mounted on the transmission case 700, a scraper 404 attached to an inner wall of the filtering ring 401 is fixedly connected to the filtering mechanism 400, a motor b405 is mounted on the transmission case 700, a guide frame 406 positioned below the filtering ring 401 is fixedly connected to an output end of the motor b405, a guide opening 407 is disposed on the transmission case 700, a material receiving box 408 positioned below the guide opening 407 is disposed on the machine body 100, a water pump is started to inject water onto the filtering ring 401 through a water pipe, the wastewater passes through a filter screen at the bottom of the filtering ring 401 to filter impurities in the wastewater, and when the impurities on the filtering ring 401 are cleaned, the wastewater stops being conveyed, the motor b405 starts to drive the guide frame 406 to rotate, the guide frame 406 is turned to the position below the filter ring 401, the motor a403 starts to drive the filter ring 401 to rotate, the inner wall of the filter ring 401 is in contact with the scraper 404, impurities on the inner wall of the filter ring 401 are cleaned, the impurities fall onto the guide frame 406 through the impurity outlet 402, the guide frame 406 is inclined, the impurities fall onto the material receiving box 408, the impurities on the filter ring 401 can be automatically treated, the problem that the filter holes in the filter ring 401 are blocked to influence the wastewater treatment efficiency can be avoided, the filter ring 401 continues to rotate, the filter holes above the filter ring 401 are moved to the lower position, the motor b405 starts to rotate the guide frame 406 to the other side, the wastewater is continuously discharged onto the filter ring 401 to be treated, the wastewater treatment efficiency can be improved, and the time for cleaning the impurities on the filter holes is shortened.

Example four:

with reference to fig. 1 and 9, on the basis of the first embodiment, a belt conveying assembly 501 is installed in the sedimentation tank 200, a plurality of transmission sleeves 502 are installed on the belt conveying assembly 501, a connection plate 503 is connected to the transmission sleeves 502 in a sliding manner, a waste bin is fixedly connected to the machine body 100, the belt conveying assembly 501 runs to drive the transmission sleeves 502 to move, the connection plate 503 moves along with the transmission sleeves 502, floaters reacted out of waste water can be driven into the external waste bin, manual treatment is not needed, and the working efficiency is further improved.

Concretely, the rigid coupling has a shell 506 in the sedimentation tank 200, install electric putter 504 in the shell 506, electric putter 504's free end rigid coupling has and is used for control connecting plate 503 lift support frame 505, the water yield is different in the sedimentation tank 200, the height of surface of water is also different, electric putter 504 starts to make its free end stretch out and draw back, support frame 505 goes up and down along with electric putter 504's free end, can adjust connecting plate 503's position, make connecting plate 503 contact with the surface of water, thereby can clear up the surface of water of co-altitude not.

Further, belt conveying subassembly 501 includes the belt roller of rotatable installation both sides in sedimentation tank 200, and the cover is equipped with the conveyer belt between the belt roller, and transmission cover 502 rigid coupling is on the conveyer belt, and organism 100 is equipped with drive belt roller pivoted motor c admittedly, and motor c starts to drive the belt roller and rotates, can drive the conveyer belt then and move.

The embodiment also provides a method for the intelligent aquaculture wastewater treatment device, which comprises the following steps:

the method comprises the following steps: water is injected into the filter ring 401 through a water pipe when the water pump is started, wastewater passes through a filter screen at the bottom of the filter ring 401, impurities in the wastewater can be filtered, when the impurities on the filter ring 401 are cleaned, the wastewater stops being conveyed, the motor b405 is started to drive the guide frame 406 to rotate, the guide frame 406 is overturned below the filter ring 401, the motor a403 is started to drive the filter ring 401 to rotate, the inner wall of the filter ring 401 is in contact with the scraper blade 404, the impurities on the inner wall of the filter ring 401 are cleaned, then the impurities fall onto the guide frame 406 through the impurity outlet 402, the guide frame 406 is inclined, and then the impurities fall into the material receiving box 408 from the guide opening 407.

Step two: the probe 306 on the water quality detector 305 detects the water quality, when the water quality of the wastewater is different, the electric telescopic rod 3042 is started to extend or contract the free end of the electric telescopic rod 3042 to drive the transmission plate 3043 to move, the sliding sleeve 3041 moves along with the transmission plate 3043, the position of the transmission disc 3034 can be adjusted, the blanking frequency is changed, and the blanking amount can be adjusted.

Step three: the water falls to the driving blade 302 to drive the driving shaft 301 to rotate, the driving shaft 301 drives the driving disc 3034 to rotate, the convex block 3035 rotates along with the driving shaft 301, the convex block 3035 pushes the driving ball 3036 to move outwards when rotating to be in contact with the driving ball 3036, the driving ball 3036 drives the sealing plate 3032 to move through the driving frame 3033, the sealing plate 3032 can be moved away from the discharge port of the storage box 600, then the oxidant in the storage box 600 is thrown into the wastewater from the discharge port, and automatic intermittent blanking can be achieved.

Step four: motor c starts to drive the belt roller and rotates, can drive the conveyer belt then and move, and belt transport module 501 moves and drives transmission sleeve 502 and remove, and connecting plate 503 moves along with transmission sleeve 502, can drive the floater that comes out of reaction in the waste water to outside waste material case in, at last with the water in the sedimentation tank 200 lead out can through the water pipe.

The embodiment can show that: when a water pump is started to inject water onto the filter ring 401 through a water pipe, wastewater passes through a filter screen at the bottom of the filter ring 401 to filter impurities in the wastewater, when the impurities on the filter ring 401 are cleaned, the wastewater stops conveying, a motor b405 is started to drive a guide frame 406 to rotate, the guide frame 406 is turned over to the lower part of the filter ring 401, a motor a403 is started to drive the filter ring 401 to rotate, the inner wall of the filter ring 401 is contacted with a scraper 404 to clean the impurities on the inner wall of the filter ring 401, then the impurities fall onto the guide frame 406 through an impurity outlet 402, the guide frame 406 is inclined, then the impurities fall onto a material receiving box 408, then the impurities on the filter ring 401 can be automatically treated, the water falls onto a transmission blade 302 to drive the transmission shaft 301 to rotate, the transmission shaft 301 drives a transmission disc 3034 to rotate, the convex block 3035 rotates along with the transmission shaft 301, the convex block 3035 is pushed to move towards the outside when rotating to contact with the transmission ball 3036, the transmission ball 3036 drives the sealing plate 3032 to move through the transmission frame 3033, the sealing plate 3032 can be moved away from the discharge port of the storage box 600, then the oxidant in the storage box 600 is put into the wastewater from the discharge port, automatic intermittent blanking can be performed, the wastewater and the oxidant react, the floating objects generated by the reaction are located on the water surface, the motor c is started to drive the belt roller to rotate, then the conveyor belt can be driven to operate, the belt conveying assembly 501 operates to drive the transmission sleeve 502 to move, the connecting plate 503 moves along with the transmission sleeve 502, and the floating objects reacted in the wastewater can be driven into the external wastewater box.

It is to be noted that 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.

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 (10)

1. An intelligent aquaculture wastewater treatment device, comprising a machine body (100) as a whole device carrier, characterized in that: a transmission box (700) is fixedly connected to the machine body (100), a storage box (600) for storing an oxidant is fixedly connected to the machine body (100), a sedimentation tank (200) is arranged in the machine body (100), a feeding mechanism (300) for adding the oxidant is arranged on the machine body (100), a filtering mechanism (400) for filtering wastewater is arranged in the transmission box (700), and an impurity removing mechanism (500) for removing floating materials is arranged in the sedimentation tank (200);

the feeding mechanism (300) comprises a transmission blade (302) arranged at a water outlet of a transmission box (700), a transmission shaft (301) fixedly connected with the transmission blade (302) is rotatably arranged in the machine body (100), a discharging component (303) used for controlling a discharging opening and closing of the storage box (600) is arranged on the transmission shaft (301), and an adjusting component (304) used for controlling discharging frequency is arranged on the machine body (100).

2. The intelligent aquaculture wastewater treatment plant of claim 1, wherein: unloading subassembly (303) bottom rigid coupling has the support, the rigid coupling has spring (3031) on the support, the discharge gate department of storage case (600) installs sealing plate (3032) with spring (3031) rigid coupling, the rigid coupling has transmission frame (3033) on sealing plate (3032), the tip of transmission frame (3033) passes the spout and extends to organism (100) outside and rigid coupling has transmission ball (3036), be equipped with transmission disc (3034) on transmission shaft (301), the tip rigid coupling of transmission disc (3034) has a plurality of lugs (3035) that are used for driving sealing plate (3032) to remove, the lateral wall of lug (3035) is the arc.

3. The intelligent aquaculture wastewater treatment plant of claim 2, wherein: the adjusting assembly (304) comprises a sliding sleeve (3041) which is connected to the transmission shaft (301) in a sliding mode and fixedly connected with the transmission disc (3034), a plurality of transmission discs (3034) are arranged, the number of the convex blocks (3035) on the plurality of transmission discs (3034) is different, an electric telescopic rod (3042) is fixedly arranged on the machine body (100), a transmission plate (3043) is fixedly connected to the free end of the electric telescopic rod (3042), and the transmission plate (3043) is connected with the sliding sleeve (3041) through a bearing.

4. The intelligent aquaculture wastewater treatment plant of claim 3 wherein: the inner wall of the electric telescopic rod (3042) is provided with a sliding groove (3045), a sliding block (3044) is fixedly connected to the transmission shaft (301), and the sliding block (3044) is connected in the sliding groove (3045) in a sliding mode.

5. The intelligent aquaculture wastewater treatment apparatus of claim 1, wherein: the water quality detector (305) is fixedly arranged on the transmission case (700), and the probe (306) positioned at the water outlet of the transmission case (700) is fixedly connected to the water quality detector (305).

6. The intelligent aquaculture wastewater treatment apparatus of claim 1, wherein: the filter mechanism (400) comprises a filter ring (401) which is rotatably arranged on a transmission case (700), impurity outlets (402) are arranged on two sides of the filter ring (401), a motor a (403) fixedly connected with the filter ring (401) is arranged on the transmission case (700), a scraper (404) attached to the inner wall of the filter ring (401) is fixedly connected in the filter mechanism (400), a motor b (405) is arranged on the transmission case (700), and a flow guide frame (406) positioned below the filter ring (401) is fixedly connected to the output end of the motor b (405).

7. The intelligent aquaculture wastewater treatment apparatus of claim 1, wherein: install belt conveyor assembly (501) in sedimentation tank (200), install a plurality of transmission covers (502) on belt conveyor assembly (501), sliding connection has connecting plate (503) on transmission cover (502).

8. The intelligent aquaculture wastewater treatment plant of claim 7, wherein: a shell (506) is fixedly connected in the sedimentation tank (200), an electric push rod (504) is installed in the shell (506), and the free end of the electric push rod (504) is fixedly connected with a lifting support frame (505) used for controlling the connecting plate (503).

9. The intelligent aquaculture wastewater treatment plant of claim 7, wherein: the belt conveying assembly (501) comprises belt rollers which are rotatably arranged on two sides in the sedimentation tank (200), a conveying belt is sleeved between the belt rollers, a transmission sleeve (502) is fixedly connected to the conveying belt, and a motor c for driving the belt rollers to rotate is fixedly arranged on the machine body (100).

10. A method of intelligent aquaculture wastewater treatment plant according to any of claims 1 to 9, characterized in that: comprises the following steps:

the method comprises the following steps: when the water pump is started to inject water onto the filter ring (401) through the water pipe, wastewater passes through a filter screen at the bottom of the filter ring (401) and can be filtered, when the impurities on the filter ring (401) are cleaned, the wastewater stops being conveyed, the motor b (405) is started to drive the flow guide frame (406) to rotate, the flow guide frame (406) is turned over below the filter ring (401), the motor a (403) is started to drive the filter ring (401) to rotate, the inner wall of the filter ring (401) is in contact with the scraper (404) to clean the impurities on the inner wall of the filter ring (401), then the impurities fall onto the flow guide frame (406) through the impurity outlet (402), the flow guide frame (406) is inclined, and then the impurities fall into the material receiving box (408) from the flow guide opening (407);

step two: when the water quality is different, an electric telescopic rod (3042) is started to extend or contract the free end of the electric telescopic rod to drive a transmission plate (3043) to move, a sliding sleeve (3041) moves along with the transmission plate (3043), the position of a transmission disc (3034) can be adjusted, the blanking frequency can be changed, and the blanking amount can be adjusted;

step three: the water falls to the driving blade (302) to drive the driving shaft (301) to rotate, the driving shaft (301) drives the driving disc (3034) to rotate, the lug (3035) rotates along with the driving shaft (301), the lug (3035) is pushed to move outwards when rotating to be in contact with the driving ball (3036), the driving ball (3036) drives the sealing plate (3032) to move through the driving frame (3033), the sealing plate (3032) can be moved away from the discharge port of the storage box (600), then the oxidant in the storage box (600) is thrown into the wastewater from the discharge port, and automatic intermittent blanking can be realized;

step four: motor c starts to drive the belt roller and rotates, can drive the conveyer belt then and move, and belt conveying subassembly (501) move and drive transmission cover (502) and remove, and connecting plate (503) move along with transmission cover (502), can drive the floater that comes out of reaction in the waste water outside the waste bin in, at last with the water in sedimentation tank (200) lead out can through the water pipe.

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