CN117101461A

CN117101461A - Medicine mixing equipment for marine ecological management

Info

Publication number: CN117101461A
Application number: CN202311345535.8A
Authority: CN
Inventors: 陈会东; 王磊; 李欣; 李伟
Original assignee: Tianjin Zhonghuan Tianyuan Environmental Testing Technology Service Co ltd
Current assignee: Tianjin Zhonghuan Tianyuan Environmental Testing Technology Service Co ltd
Priority date: 2023-10-18
Filing date: 2023-10-18
Publication date: 2023-11-24
Anticipated expiration: 2043-10-18
Also published as: CN117101461B

Abstract

The invention provides a medicine mixing device for marine ecological treatment, and belongs to the technical field of sea water administration mixing. This medicine mixing arrangement that marine ecology was administered usefulness includes box, blending tank, feed tank, mixing mechanism, feed mechanism and sampling mechanism, and the blending tank is installed at box inner chamber, and the feed tank is installed on box upper portion, and mixing mechanism includes first pivot, connecting plate, second pivot, first gear and ring gear. According to the invention, the first spiral blades are arranged, the first rotating shafts rotate to drive the first spiral blades to synchronously rotate, so that materials in the mixing tank are subjected to rolling mixing, the connecting plates are simultaneously driven to synchronously rotate, the two second rotating shafts are driven to rotate, meanwhile, the first gear is driven to rotate through the gear ring, the second rotating shafts are driven to rotate, the stirring rod is driven to rotate, and the materials are further mixed, so that the mixing efficiency is improved; simultaneously, the second pivot drives the third gear and rotates, drives the second gear and rotates, clears up the compounding jar inner wall, convenient clearance.

Description

Medicine mixing equipment for marine ecological management

Technical Field

The invention relates to the field of sea water administration mixing, in particular to a medicine mixing device for marine ecological management.

Background

In recent years, along with development of ocean resources, seawater pollution conditions are more serious, such as industrial wastewater, agricultural pesticides, chemical substances, heavy metals, ocean oil pollution and the like, and proper drugs are often put in to promote decomposition, degradation or precipitation of pollutants so as to purify seawater, and a seawater administration mixing device can uniformly mix the drugs with the seawater to ensure that the drugs can be fully dispersed in the whole water body, so that effective treatment or cultivation effects are realized, the drugs can be better contacted with the seawater through the mixing process, the utilization efficiency of the drugs is improved, and the waste of the drugs is reduced.

However, the existing seawater dosing and mixing device is generally replaced by a stirrer, the structure is simple, the mixing effect is poor, and medicine waste is caused by uneven mixing; and different medicines, such as controlling and preventing microbial infection of bacteria, parasites and the like in the ocean, need to use anti-biological pollution medicines; the suspended particulate matters and turbid matters in the ocean are removed by using precipitants and the like, and the precipitants and the turbid matters have different physicochemical properties, so that uneven mixing can occur in the mixing process, and the effectiveness of the medicines is affected.

Disclosure of Invention

In order to overcome the above disadvantages, the present invention provides a pharmaceutical mixing apparatus for marine ecological management which overcomes the above technical problems or at least partially solves the above problems.

The invention is realized in the following way:

the invention provides a medicine mixing device for marine ecological treatment, which comprises a box body, a mixing tank, a feeding tank, a mixing mechanism, a feeding mechanism and a sampling mechanism, wherein the mixing tank is arranged in the inner cavity of the box body, the feeding tank is arranged at the upper part of the box body, and the mixing mechanism comprises

The first rotating shaft is rotatably arranged in the inner cavity of the mixing tank, and a first spiral blade is arranged on the surface of the first rotating shaft;

the connecting plate is fixedly arranged at the upper part of the first rotating shaft;

the second rotating shaft is symmetrically and rotatably arranged at the lower part of the connecting plate, and a plurality of stirring rods are symmetrically arranged on the surface of the second rotating shaft;

the first gear is fixedly arranged at the upper part of the second rotating shaft;

the gear ring is fixedly arranged in the inner cavity of the mixing tank, and the first gear is meshed with the gear ring.

In a preferred scheme, first belt pulley and first carousel are fixed mounting in first pivot upper portion, mix jar upper portion fixed mounting has first motor, first motor output fixed mounting has the second belt pulley, be connected with the belt between first belt pulley and the second belt pulley.

In a preferred scheme, the brush roller is installed at the symmetry rotation of connecting plate both ends, the brush roller contacts with compounding jar inner chamber lateral wall, brush roller upper portion fixed mounting has the second gear, second pivot upper portion fixed mounting has the third gear, the second gear meshes with the third gear mutually.

In a preferred scheme, a first water pumping cylinder and an air pumping cylinder are arranged on the upper portion of the mixing tank, a first piston and a second piston are respectively and slidably arranged in the inner cavities of the first water pumping cylinder and the air pumping cylinder, supporting rods are fixedly arranged at one ends of the first piston and the second piston, a push plate is arranged between the two supporting rods, a first eccentric shaft is fixedly arranged on the surface of the first rotating disc, and a connecting rod is rotatably arranged between the first eccentric shaft and the push plate.

In a preferred scheme, first check valve and second check valve are all installed to first water pumping section of thick bamboo and air extraction section of thick bamboo lateral wall, one of them first check valve one end intercommunication has first inlet tube, the water collecting pipe is installed to compounding jar lower part, the water collecting pipe with one of them the intercommunication has first outlet pipe between the second check valve, a plurality of first shower nozzles are installed to compounding jar inner chamber, first shower nozzle is linked together with the water collecting pipe.

In a preferred scheme, another one first check valve one end intercommunication has the intake pipe, the gas collecting channel is installed to compounding jar lower part, the gas collecting channel with another the intercommunication has the blast pipe between the second check valve, a plurality of air cock are installed to the compounding jar inner chamber, the air cock is switched on with the gas collecting channel mutually.

In a preferred scheme, feed mechanism includes third pivot, second spiral leaf and inlet pipe, the third pivot is rotated and is installed at the feed tank inner chamber, third pivot surface fixed mounting has the second spiral leaf, feed tank lower part symmetry intercommunication has the inlet pipe, the inlet pipe other end switches on with the compounding jar, third pivot upper portion fixed mounting has the third belt pulley, feed tank upper portion fixed mounting has the second motor, second motor output fixed mounting has the fourth belt pulley, be connected with the belt between third belt pulley and the fourth belt pulley, density sensor is installed to the compounding jar inner chamber.

In a preferred scheme, the fourth pivot is installed in rotation of box upper portion, the water distribution dish is installed on fourth pivot upper portion, water distribution dish lateral wall intercommunication has a plurality of second shower nozzles, the water pump is installed to the compounding jar lower part, the intercommunication has the hose between water pump play water end and the water distribution dish, fourth pivot upper portion fixed mounting has the fourth gear, the lantern ring has been cup jointed on fourth pivot surface, lantern ring inner chamber slidable mounting has the pinion rack, the pinion rack meshes with the fourth gear, third pivot upper portion fixed mounting has the second carousel, second eccentric shaft is installed on second carousel upper portion, pinion rack one end and second eccentric shaft rotate to be connected.

In a preferred scheme, sampling mechanism includes sample bottle, water guide cylinder and second water pumping section of thick bamboo, sample bottle symmetry is placed at the box inner chamber, water guide cylinder fixed mounting is at the box inner chamber, water guide cylinder is the slope setting, a plurality of sample bottle all switches on with water guide cylinder, second water pumping section of thick bamboo fixed mounting is at the box inner chamber.

In a preferred scheme, the third piston is slidably arranged in the inner cavity of the second water pumping barrel, the screw rod is rotatably arranged in the inner cavity of the second water pumping barrel, a threaded block is fixedly arranged on the surface of the third piston, the threaded block is in threaded connection with the screw rod, a fifth gear is fixedly arranged on the upper portion of the screw rod, a sixth gear is fixedly arranged on the lower portion of the fourth rotating shaft, the fifth gear is meshed with the sixth gear, a second water inlet pipe and a second water outlet pipe are communicated with the bottom of the second water pumping barrel, the other end of the second water outlet pipe is communicated with the water guide barrel, and an overflow pipe is communicated with one end of the water guide barrel.

The invention provides a medicine mixing device for marine ecological management, which has the beneficial effects that:

through setting up first spiral leaf, first pivot rotates and drives first spiral leaf synchronous rotation to roll the mixture in the material jar, drive the connecting plate synchronous rotation simultaneously, drive two second pivots and rotate, mix the material, drive first gear through the ring gear simultaneously and rotate, drive the second pivot rotation, drive the puddler rotation, mix the material further, improved mixing efficiency, avoid the medicine extravagant; simultaneously, the second pivot drives the third gear and rotates, drives the second gear and rotates, clears up the compounding jar inner wall, avoids the medicine adhesion, convenient clearance.

2. Through setting up the first pumping barrel, the first rotating shaft drives the first rotating disc to rotate, drive the connecting rod to swing through the first eccentric shaft, thus promote the push pedal to move, drive first piston and second piston to slide in first pumping barrel and pumping barrel respectively through the brace rod, when the first piston moves rightwards, the first check valve of the sidewall of the first pumping barrel is conducted, will sea water draw into the first pumping barrel through the first inlet tube, when the first piston moves leftwards, the second check valve of the sidewall of the first pumping barrel is conducted, will first pumping barrel water pour into the mixing tank from the first shower nozzle, mix with medicines; and in the same way, the air injection is realized through the air tap to the inner cavity of the mixing tank, the aeration stirring is performed, the mixing efficiency is improved, and the medicine waste is avoided.

3. Through setting up feed mechanism, can drive the rotation of second spiral leaf through the second motor, carry out the ejection of compact, send into the medicine and mix in the blending tank, and through density sensor, set for different parameters to different medicines, real-time supervision mixed solution's concentration, thereby through controlling second motor rotational speed, adjust third pivot rotational speed, control medicine ejection of compact speed, make in the compounding tank liquid medicine concentration maintain dynamic balance, then send the liquid medicine to the water distribution dish through the water pump, spray to the sea by the second shower nozzle, and can drive the rotation of second carousel when the second spiral leaf rotates, swing through second eccentric shaft drive pinion rack, thereby drive fourth gear and fourth pivot round trip to rotate, drive water distribution dish reciprocal rotation, evenly spray the sea with the liquid medicine, improve and spray the quality.

4. Through setting up the sampling mechanism, when the fourth spindle rotates reciprocally, can drive the fifth gear to rotate through the sixth gear, thus drive the screw rod to rotate reciprocally, drive the third piston to move up and down through the screw block, when the third piston moves up, draw sea water into the second water pumping cylinder through the second water inlet pipe, when the third piston moves down, send the sea water sample in the second water pumping cylinder into the water guiding cylinder through the second water outlet pipe, and send into every sample bottle sequentially, sample in real time, until all sample bottles are full, sea water is discharged back to the sea through the overflow pipe; the seawater synchronous sampling is realized, a water sample can be collected in the process of drug administration, and the concentration of the drug is analyzed, so that the concentration distribution of the drug in the surrounding area of the drug administration device can be known, the diffusion and dilution degree of the drug in the water body can be evaluated, and the drug administration time can be controlled.

Drawings

For a clearer description of the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some examples of the present invention and should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art;

FIG. 1 is a front cross-sectional view provided by an embodiment of the present invention;

FIG. 2 is a front perspective view of an embodiment of the present invention;

FIG. 3 is a side perspective view provided by an embodiment of the present invention;

FIG. 4 is a side view provided by an embodiment of the present invention;

FIG. 5 is a front cross-sectional view of an embodiment of the present invention;

FIG. 6 is a partial perspective view of a mixing mechanism according to an embodiment of the present invention;

FIG. 7 is a top cross-sectional view provided by an embodiment of the present invention;

FIG. 8 is a side cross-sectional view provided by an embodiment of the present invention;

FIG. 9 is an enlarged view of FIG. 8A according to an embodiment of the present invention;

FIG. 10 is a left side cross-sectional view provided by an embodiment of the present invention;

FIG. 11 is an exploded view of an embodiment of the present invention;

in the figure: 1. a case; 2. a mixing tank; 3. a feed tank; 4. a mixing mechanism; 401. a first rotating shaft; 402. a first pulley; 403. a first turntable; 404. a first motor; 405. a second pulley; 406. a first helical leaf; 407. a connecting plate; 408. a second rotating shaft; 409. a stirring rod; 410. a first gear; 411. a gear ring; 412. a brush roller; 413. a second gear; 414. a third gear; 415. a first pumping barrel; 416. a suction cylinder; 417. a first piston; 418. a second piston; 419. a brace rod; 420. a push plate; 421. a first eccentric shaft; 422. a connecting rod; 423. a first one-way valve; 424. a second one-way valve; 425. a first water inlet pipe; 426. a water collecting pipe; 427. a first water outlet pipe; 428. a first nozzle; 429. an air inlet pipe; 430. a gas collecting tube; 431. an exhaust pipe; 432. an air tap; 5. a feed mechanism; 501. a third rotating shaft; 502. a second helical leaf; 503. a feed pipe; 504. a third pulley; 505. a second motor; 506. a fourth pulley; 507. a density sensor; 508. a fourth rotating shaft; 509. a water distribution plate; 510. a second nozzle; 511. a water pump; 512. a hose; 513. a fourth gear; 514. a collar; 515. a toothed plate; 516. a second turntable; 517. a second eccentric shaft; 6. a sampling mechanism; 601. sampling bottle; 602. a water guide tube; 603. a second pumping barrel; 604. a third piston; 605. a screw rod; 606. a screw block; 607. a fifth gear; 608. a sixth gear; 609. a second water inlet pipe; 610. a second water outlet pipe; 611. and an overflow pipe.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, based on the embodiments of the invention, which are apparent to those of ordinary skill in the art without inventive faculty, are intended to be within the scope of the invention.

Referring to fig. 1 to 11, the present invention provides a technical solution: the utility model provides a medicine mixing equipment for marine ecological management, which comprises a box body 1, the compounding jar 2, feeding jar 3, mixing mechanism 4, feeding mechanism 5 and sampling mechanism 6, compounding jar 2 is installed in the box body 1 inner chamber, be used for mixing solid powder form powder with the sea water, feeding jar 3 is installed in box body 1 upper portion, be used for depositing powder, mixing mechanism 4 includes first pivot 401, connecting plate 407, second pivot 408, first gear 410 and ring gear 411, first pivot 401 rotation is installed in compounding jar 2 inner chamber, be used for installing first helical blade 406, first pivot 401 surface mounting has first helical blade 406, be used for mixing sea water and powder, connecting plate 407 fixed mounting is in first pivot 401 upper portion, be used for installing second pivot 408, second pivot 408 symmetry rotation is installed in connecting plate 407 lower part, be used for installing puddler 409, second pivot 408 surface symmetry installs a plurality of puddlers 409, first gear 410 fixed mounting is in second pivot 408 upper portion, be used for driving second pivot 408, ring gear 411 fixed mounting is at mixing tank 2 inner chamber, be used for driving first gear 410, first gear 410 meshes with ring gear 411 mutually, during the use, first pivot 401 rotates, drive first helical blade 406 synchronous rotation, thereby mix the material in the compounding tank 2 tumbling, drive connecting plate 407 synchronous rotation simultaneously, drive two second pivots 408 rotations, mix the material, drive first gear 410 rotation through ring gear 411 simultaneously, drive second pivot 408 autorotation, drive puddler 409 rotation, further mix the material, and mixing efficiency has been improved, avoid the medicine extravagant.

Referring to fig. 1 to 8, in a preferred embodiment, a first belt pulley 402 and a first rotating disc 403 are fixedly installed on the upper portion of a first rotating shaft 401, a first motor 404 is fixedly installed on the upper portion of a mixing tank 2, the first motor 404 is electrically connected with an external power supply and is used for driving the first rotating shaft 401, a second belt pulley 405 is fixedly installed at the output end of the first motor 404, a belt is connected between the first belt pulley 402 and the second belt pulley 405, brush rolls 412 are symmetrically installed at two ends of a connecting plate 407 in a rotating mode and are used for cleaning the inner wall of the mixing tank 2, medicine adhesion is avoided, and cleaning is convenient; the brush roller 412 contacts with the side wall of the inner cavity of the mixing tank 2, a second gear 413 is fixedly arranged at the upper part of the brush roller 412 and used for driving the brush roller 412, a third gear 414 is fixedly arranged at the upper part of the second rotating shaft 408 and used for driving the second gear 413, and the second gear 413 is meshed with the third gear 414.

In a preferred embodiment, when in use, the first rotating shaft 401 rotates to drive the first spiral blade 406 to synchronously rotate, so as to tumble and mix materials in the mixing tank 2, meanwhile, the connecting plate 407 is driven to synchronously rotate to drive the two second rotating shafts 408 to rotate, so as to mix the materials, meanwhile, the first gear 410 is driven to rotate through the gear ring 411 to drive the second rotating shafts 408 to rotate, and the stirring rod 409 is driven to rotate, so that the materials are further mixed, the mixing efficiency is improved, and medicine waste is avoided; meanwhile, the second rotating shaft 408 drives the third gear 414 to rotate, and drives the second gear 413 to rotate, so that the inner wall of the mixing tank 2 is cleaned, medicine adhesion is avoided, and cleaning is convenient.

Referring to fig. 1 to 8, in a preferred embodiment, a first pumping cylinder 415 and a pumping cylinder 416 are installed at an upper portion of a mixing tank 2, for pumping and pumping, a first piston 417 and a second piston 418 are slidably installed in inner cavities of the first pumping cylinder 415 and the pumping cylinder 416, respectively, a supporting rod 419 is fixedly installed at one end of each of the first piston 417 and the second piston 418, for driving the first piston 417 and the second piston 418, a push plate 420 is installed between the two supporting rods 419, a first eccentric shaft 421 is fixedly installed on a surface of the first turntable 403, and a connecting rod 422 is rotatably installed between the first eccentric shaft 421 and the push plate 420, and when the first turntable 403 rotates, the connecting rod 422 is driven to swing by the first eccentric shaft 421, thereby pushing the push plate 420 to move, and the first piston 417 and the second piston 418 are driven to slide in the first pumping cylinder 415 and the pumping cylinder 416 by the supporting rod 419, respectively.

Referring to fig. 1-8, in a preferred embodiment, the side walls of the first water pumping barrel 415 and the air pumping barrel 416 are respectively provided with a first check valve 423 and a second check valve 424, the first check valves 423 are respectively communicated in a unidirectional manner towards the directions of the inner cavities of the first water pumping barrel 415 and the air pumping barrel 416, the second check valves 424 are respectively communicated in a unidirectional manner towards the directions of the outer walls of the first water pumping barrel 415 and the air pumping barrel 416, one end of one of the first check valves 423 is communicated with a first water inlet pipe 425 for water inflow, a water collecting pipe 426 is arranged at the lower part of the mixing tank 2, a first water outlet pipe 427 is communicated between the water collecting pipe 426 and one of the second check valves 424, a plurality of first spray heads 428 are arranged in the inner cavity of the mixing tank 2, the first spray heads 428 are communicated with the water collecting pipe 426 for spraying water to the inner cavity of the mixing tank 2, one end of the other first check valve 423 is communicated with an air inlet pipe 429 for air inflow, a gas collecting pipe 430 is arranged at the lower part of the mixing tank 2, a gas outlet pipe 431 is communicated between the gas collecting pipe 430 and the other second check valve 424, a plurality of gas outlet pipes 432 are arranged in the inner cavity of the mixing tank 2 for carrying out mixing and stirring and gas inlet pipe 432 is communicated with the inner cavity 430 for stirring and mixing tank 2.

In a preferred embodiment, when in use, the first motor 404 can drive the first rotating shaft 401 to rotate, so as to drive the first spiral blade 406 to synchronously rotate, thus rolling and mixing materials in the mixing tank 2, simultaneously driving the connecting plate 407 to synchronously rotate, driving the two second rotating shafts 408 to rotate, mixing the materials, simultaneously driving the first gear 410 to rotate through the gear ring 411, driving the second rotating shafts 408 to rotate, driving the stirring rod 409 to rotate, further mixing the materials, improving the mixing efficiency, and avoiding medicine waste; meanwhile, the second rotating shaft 408 drives the third gear 414 to rotate and drives the second gear 413 to rotate, so that the inner wall of the mixing tank 2 is cleaned, medicine adhesion is avoided, and cleaning is facilitated; simultaneously, the first rotating shaft 401 drives the first rotating disc 403 to rotate, the connecting rod 422 is driven to swing through the first eccentric shaft 421, so that the push plate 420 is pushed to move, the first piston 417 and the second piston 418 are driven to slide in the first water pumping cylinder 415 and the air pumping cylinder 416 respectively through the supporting rod 419, when the first piston 417 moves rightwards, the first check valve 423 on the side wall of the first water pumping cylinder 415 is conducted, seawater is pumped into the first water pumping cylinder 415 through the first water inlet pipe 425, when the first piston 417 moves leftwards, the second check valve 424 on the side wall of the first water pumping cylinder 415 is conducted, and water in the first water pumping cylinder 415 is injected into the mixing tank 2 through the first spray nozzle 428 and mixed with medicines; in the same way, the air nozzle 432 is used for jetting air to the inner cavity of the mixing tank 2, aeration stirring is carried out, mixing efficiency is improved, and medicine waste is avoided.

Referring to fig. 1-11, in a preferred embodiment, the feeding mechanism 5 includes a third rotating shaft 501, a second spiral vane 502 and a feeding pipe 503, the third rotating shaft 501 is rotatably installed in an inner cavity of the feeding tank 3 and is used for driving the second spiral vane 502, the second spiral vane 502 is fixedly installed on the surface of the third rotating shaft 501 and is used for discharging medicines, the feeding pipe 503 is symmetrically communicated with the lower portion of the feeding tank 3, the other end of the feeding pipe 503 is communicated with the mixing tank 2, a third belt pulley 504 is fixedly installed on the upper portion of the third rotating shaft 501 and is used for driving the third rotating shaft 501, a second motor 505 is fixedly installed on the upper portion of the feeding tank 3 and is electrically connected with an external power supply and is used for driving the third rotating shaft 501, a fourth belt pulley 506 is fixedly installed at the output end of the second motor 505 and is used for driving the third belt pulley 504, a belt is connected between the third belt pulley 504 and the fourth belt pulley 506, a density sensor 507 is installed in the inner cavity of the mixing tank 2 and is used for monitoring the concentration of the mixed liquid in real time, so that the rotation speed of the third rotating shaft 501 is regulated and the discharge speed is controlled.

Referring to fig. 1 to 11, in a preferred embodiment, a fourth rotating shaft 508 is rotatably mounted at an upper portion of the case 1 and is used for driving the water distribution disc 509, the water distribution disc 509 is mounted at an upper portion of the fourth rotating shaft 508, a plurality of second spray nozzles 510 are communicated with a side wall of the water distribution disc 509 and are used for spraying mixed medicines to the sea surface, a water pump 511 is mounted at a lower portion of the mixing tank 2 and is electrically connected with an external power supply and is used for conveying medicine liquid, a hose 512 is communicated between a water outlet end of the water pump 511 and the water distribution disc 509, a fourth gear 513 is fixedly mounted at an upper portion of the fourth rotating shaft 508 and is used for driving the fourth rotating shaft 508, a lantern ring 514 is sleeved on a surface of the fourth rotating shaft 508 and is used for limiting the toothed plate 515, the toothed plate 515 is slidably mounted in an inner cavity of the lantern ring 514 and is used for driving the fourth gear 513, the toothed plate 515 is meshed with the fourth gear 513, a second eccentric shaft 517 is mounted at an upper portion of the third rotating shaft 501 and is used for driving the toothed plate 515, and the second eccentric shaft 517 is mounted at an upper portion of the second rotating shaft 516 and is mounted at a non-center position of the second rotating shaft 516 and is rotatably connected with the second eccentric shaft 517 when the second rotating shaft 516 is driven by the second rotating plate 517.

In a preferred embodiment, when the device is used, medicine powder is poured into the feeding tank 3, the second spiral blade 502 can be driven to rotate through the second motor 505 to discharge, medicines are sent into the mixing tank 2 to be mixed, different parameters are set for different medicines through the density sensor 507, the concentration of the mixed liquid is monitored in real time, the rotation speed of the third rotating shaft 501 is regulated through controlling the rotation speed of the second motor 505, the medicine discharging speed is controlled, the concentration of the medicine in the mixing tank 2 is kept in dynamic balance, then the medicine liquid is sent into the water distribution disc 509 through the water pump 511, the second spray head 510 is sprayed to the sea surface, the second spiral blade 502 can drive the second rotary disc 516 to rotate when rotating, the toothed plate 515 is driven to swing through the second eccentric shaft 517, so that the fourth gear 513 and the fourth rotating shaft 508 are driven to rotate back and forth, the water distribution disc 509 is driven to rotate reciprocally, the medicine liquid is uniformly sprayed to the sea surface, and the spraying quality is improved.

Referring to fig. 1-11, in a preferred embodiment, the sampling mechanism 6 includes a sampling bottle 601, a water guide tube 602 and a second water pumping tube 603, where the sampling bottle 601 is symmetrically placed in the inner cavity of the box 1, and is used for synchronously sampling seawater, collecting a water sample during administration, and analyzing the concentration of the drug, so as to help know the concentration distribution of the drug in the area around the administration device, and evaluate the diffusion and dilution degree of the drug in the water body; the water guide cylinder 602 is fixedly arranged in the inner cavity of the box body 1, the water guide cylinder 602 is obliquely arranged, a plurality of sampling bottles 601 are communicated with the water guide cylinder 602, and the second water pumping cylinder 603 is fixedly arranged in the inner cavity of the box body 1.

Referring to fig. 1 to 11, in a preferred embodiment, a third piston 604 is slidably installed in an inner cavity of a second water pumping cylinder 603 for pumping water, a screw rod 605 is rotatably installed in the inner cavity of the second water pumping cylinder 603 for driving the third piston 604, a threaded block 606 is fixedly installed on the surface of the third piston 604, the threaded block 606 is in threaded connection with the screw rod 605, a fifth gear 607 is fixedly installed on the upper portion of the screw rod 605 for driving the screw rod 605, a sixth gear 608 is fixedly installed on the lower portion of the fourth rotating shaft 508 for driving the fifth gear 607, the fifth gear 607 is meshed with the sixth gear 608, a second water inlet pipe 609 and a second water outlet pipe 610 are communicated with the bottom of the second water pumping cylinder 603, the other end of the second water outlet pipe 610 is communicated with the water guiding cylinder 602, and an overflow pipe 611 is communicated with one end of the water guiding cylinder 602.

In a preferred embodiment, when the fourth rotating shaft 508 rotates reciprocally, the fifth gear 607 can be driven to rotate by the sixth gear 608, so as to drive the screw rod 605 to rotate reciprocally, the third piston 604 is driven to move up and down by the screw block 606, when the third piston 604 moves up, seawater is pumped into the second water pumping cylinder 603 by the second water inlet pipe 609, when the third piston 604 moves down, seawater sample in the second water pumping cylinder 603 is sent into the water guiding cylinder 602 by the second water outlet pipe 610 and is sequentially sent into each sampling bottle 601 for real-time sampling, until all the sampling bottles 601 are full, the seawater is discharged back to the sea by the overflow pipe 611; the seawater synchronous sampling is realized, a water sample can be collected in the process of drug administration, and the concentration of the drug is analyzed, so that the concentration distribution of the drug in the surrounding area of the drug administration device can be known, the diffusion and dilution degree of the drug in the water body can be evaluated, and the drug administration time can be controlled.

Specifically, the working process or working principle of the medicine mixing equipment for marine ecological management is as follows: when the device is used, the device is arranged on the sea surface through a buoy or a platform, medicine powder to be mixed is poured into the feeding tank 3, the first rotating shaft 401 can be driven to rotate through the first motor 404, the first spiral blade 406 is driven to synchronously rotate, so that materials in the mixing tank 2 are subjected to rolling mixing, the connecting plate 407 is driven to synchronously rotate, the two second rotating shafts 408 are driven to rotate, the materials are mixed, meanwhile, the first gear 410 is driven to rotate through the gear ring 411, the second rotating shafts 408 are driven to rotate, the stirring rod 409 is driven to rotate, the materials are further mixed, the mixing efficiency is improved, and medicine waste is avoided; meanwhile, the second rotating shaft 408 drives the third gear 414 to rotate and drives the second gear 413 to rotate, so that the inner wall of the mixing tank 2 is cleaned, medicine adhesion is avoided, and cleaning is facilitated; simultaneously, the first rotating shaft 401 drives the first rotating disc 403 to rotate, the connecting rod 422 is driven to swing through the first eccentric shaft 421, so that the push plate 420 is pushed to move, the first piston 417 and the second piston 418 are driven to slide in the first water pumping cylinder 415 and the air pumping cylinder 416 respectively through the supporting rod 419, when the first piston 417 moves rightwards, the first check valve 423 on the side wall of the first water pumping cylinder 415 is conducted, seawater is pumped into the first water pumping cylinder 415 through the first water inlet pipe 425, when the first piston 417 moves leftwards, the second check valve 424 on the side wall of the first water pumping cylinder 415 is conducted, and water in the first water pumping cylinder 415 is injected into the mixing tank 2 through the first spray nozzle 428 and mixed with medicines; in the same way, the air nozzle 432 is used for jetting air to the inner cavity of the mixing tank 2, aeration stirring is carried out, mixing efficiency is improved, and medicine waste is avoided.

Meanwhile, the second spiral blade 502 can be driven to rotate through the second motor 505 to discharge, medicines are fed into the mixing tank 2 to be mixed, different parameters are set for different medicines through the density sensor 507, the concentration of mixed liquid is monitored in real time, so that the rotation speed of the third rotating shaft 501 is regulated through controlling the rotation speed of the second motor 505, the medicine discharging speed is controlled, the concentration of the medicine liquid in the mixing tank 2 is kept in dynamic balance, then the medicine liquid is fed into the water distribution disc 509 through the water pump 511 and sprayed to the sea surface through the second spray head 510, the second spiral blade 502 can drive the second rotary disc 516 to rotate when rotating, the toothed plate 515 is driven to swing through the second eccentric shaft 517, the fourth gear 513 and the fourth rotating shaft 508 are driven to rotate back and forth, the water distribution disc 509 is driven to rotate reciprocally, the medicine liquid is uniformly sprayed to the sea surface, and the spraying quality is improved.

When the fourth rotating shaft 508 rotates reciprocally, the sixth gear 608 drives the fifth gear 607 to rotate, so as to drive the screw rod 605 to rotate reciprocally, the threaded block 606 drives the third piston 604 to move up and down, when the third piston 604 moves up, seawater is pumped into the second water pumping cylinder 603 through the second water inlet pipe 609, when the third piston 604 moves down, seawater sample in the second water pumping cylinder 603 is sent into the water guiding cylinder 602 through the second water outlet pipe 610 and is sequentially sent into each sampling bottle 601 to sample in real time until all the sampling bottles 601 are full, and the seawater is discharged back to the sea through the overflow pipe 611; the seawater synchronous sampling is realized, a water sample can be collected in the process of drug administration, and the concentration of the drug is analyzed, so that the concentration distribution of the drug in the surrounding area of the drug administration device can be known, the diffusion and dilution degree of the drug in the water body can be evaluated, and the drug administration time can be controlled.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

It should be noted that, the first motor 404, the second motor 505, and the water pump 511 are devices or apparatuses existing in the prior art, or are devices or apparatuses that can be implemented in the prior art, and the power supply, the specific composition, and the principle thereof will be clear to those skilled in the art, so that detailed descriptions thereof will not be repeated.

Claims

1. The utility model provides a medicine mixing apparatus that marine ecology was administered and used, its characterized in that includes box (1), compounding jar (2), feed tank (3), mixing mechanism (4), feed mechanism (5) and sampling mechanism (6), compounding jar (2) are installed in box (1) inner chamber, feed tank (3) are installed on box (1) upper portion, mixing mechanism (4) include

The first rotating shaft (401), the first rotating shaft (401) is rotatably arranged in the inner cavity of the mixing tank (2), and a first spiral blade (406) is arranged on the surface of the first rotating shaft (401);

a connecting plate (407), wherein the connecting plate (407) is fixedly arranged at the upper part of the first rotating shaft (401);

the second rotating shaft (408), the second rotating shaft (408) is symmetrically and rotatably arranged at the lower part of the connecting plate (407), and a plurality of stirring rods (409) are symmetrically arranged on the surface of the second rotating shaft (408);

the first gear (410) is fixedly arranged at the upper part of the second rotating shaft (408);

the gear ring (411), gear ring (411) fixed mounting is in mixing tank (2) inner chamber, first gear (410) meshes with gear ring (411).

2. The device for treating marine ecology according to claim 1, wherein a first belt pulley (402) and a first rotating disc (403) are fixedly installed on the upper portion of the first rotating shaft (401), a first motor (404) is fixedly installed on the upper portion of the mixing tank (2), a second belt pulley (405) is fixedly installed at the output end of the first motor (404), and a belt is connected between the first belt pulley (402) and the second belt pulley (405).

3. The device for treating marine ecology according to claim 1, wherein brush rolls (412) are symmetrically and rotatably arranged at two ends of the connecting plate (407), the brush rolls (412) are in contact with the side wall of the inner cavity of the mixing tank (2), a second gear (413) is fixedly arranged at the upper part of the brush rolls (412), a third gear (414) is fixedly arranged at the upper part of the second rotating shaft (408), and the second gear (413) is meshed with the third gear (414).

4. The device for treating marine ecology according to claim 2, wherein a first water pumping barrel (415) and a pumping barrel (416) are installed on the upper portion of the mixing tank (2), a first piston (417) and a second piston (418) are respectively and slidably installed in the inner cavities of the first water pumping barrel (415) and the pumping barrel (416), supporting rods (419) are fixedly installed at one ends of the first piston (417) and the second piston (418), a push plate (420) is installed between the two supporting rods (419), a first eccentric shaft (421) is fixedly installed on the surface of the first rotary table (403), and a connecting rod (422) is rotatably installed between the first eccentric shaft (421) and the push plate (420).

5. The device for treating marine ecology according to claim 4, wherein the side walls of the first water pumping barrel (415) and the air pumping barrel (416) are provided with a first check valve (423) and a second check valve (424), one end of the first check valve (423) is communicated with a first water inlet pipe (425), the lower part of the mixing tank (2) is provided with a water collecting pipe (426), a first water outlet pipe (427) is communicated between the water collecting pipe (426) and one of the second check valves (424), the inner cavity of the mixing tank (2) is provided with a plurality of first spray heads (428), and the first spray heads (428) are communicated with the water collecting pipe (426).

6. The device for treating marine ecology according to claim 5, wherein one end of the other first check valve (423) is communicated with an air inlet pipe (429), a gas collecting pipe (430) is installed at the lower part of the mixing tank (2), an exhaust pipe (431) is communicated between the gas collecting pipe (430) and the other second check valve (424), a plurality of air nozzles (432) are installed in the inner cavity of the mixing tank (2), and the air nozzles (432) are communicated with the gas collecting pipe (430).

7. The device for mixing medicines for marine ecological management according to claim 1, wherein the feeding mechanism (5) comprises a third rotating shaft (501), a second spiral blade (502) and a feeding pipe (503), the third rotating shaft (501) is rotatably installed in an inner cavity of the feeding tank (3), the second spiral blade (502) is fixedly installed on the surface of the third rotating shaft (501), the feeding pipe (503) is symmetrically communicated with the lower portion of the feeding tank (3), the other end of the feeding pipe (503) is communicated with the mixing tank (2), a third belt pulley (504) is fixedly installed on the upper portion of the third rotating shaft (501), a second motor (505) is fixedly installed on the upper portion of the feeding tank (3), a fourth belt pulley (506) is fixedly installed at the output end of the second motor (505), a belt is connected between the third belt pulley (504) and the fourth belt pulley (506), and a density sensor (507) is installed in the inner cavity of the mixing tank (2).

8. The marine ecological treatment drug mixing device according to claim 7, wherein a fourth rotating shaft (508) is rotatably installed on the upper portion of the box body (1), a water distribution disc (509) is installed on the upper portion of the fourth rotating shaft (508), a plurality of second spray heads (510) are communicated with the side wall of the water distribution disc (509), a water pump (511) is installed on the lower portion of the mixing tank (2), a hose (512) is communicated between the water outlet end of the water pump (511) and the water distribution disc (509), a fourth gear (513) is fixedly installed on the upper portion of the fourth rotating shaft (508), a lantern ring (514) is sleeved on the surface of the fourth rotating shaft (508), a toothed plate (515) is slidably installed in an inner cavity of the lantern ring (514), the toothed plate (515) is meshed with the fourth gear (513), a second rotary plate (516) is fixedly installed on the upper portion of the third rotating shaft (501), a second eccentric shaft (517) is installed on the upper portion of the second rotary plate (516), and one end of the toothed plate (515) is rotatably connected with the second eccentric shaft (517).

9. The device for mixing medicines for marine ecological management according to claim 8, wherein the sampling mechanism (6) comprises a sampling bottle (601), a water guide cylinder (602) and a second water pumping cylinder (603), the sampling bottle (601) is symmetrically placed in the inner cavity of the box body (1), the water guide cylinder (602) is fixedly installed in the inner cavity of the box body (1), the water guide cylinder (602) is obliquely arranged, a plurality of sampling bottles (601) are all communicated with the water guide cylinder (602), and the second water pumping cylinder (603) is fixedly installed in the inner cavity of the box body (1).

10. The device for treating marine ecology according to claim 9, wherein a third piston (604) is slidingly installed in the inner cavity of the second water pumping barrel (603), a screw rod (605) is rotatably installed in the inner cavity of the second water pumping barrel (603), a threaded block (606) is fixedly installed on the surface of the third piston (604), the threaded block (606) is in threaded connection with the screw rod (605), a fifth gear (607) is fixedly installed on the upper portion of the screw rod (605), a sixth gear (608) is fixedly installed on the lower portion of the fourth rotating shaft (508), the fifth gear (607) is meshed with the sixth gear (608), a second water inlet pipe (609) and a second water outlet pipe (610) are communicated at the bottom of the second water pumping barrel (603), the other end of the second water outlet pipe (610) is communicated with the water guiding barrel (602), and an overflow pipe (611) is communicated at one end of the water guiding barrel (602).