CN108353843B - Intelligent oxygen increasing equipment based on Internet of things and used for increasing oxygen in water - Google Patents

Abstract

The invention discloses an intelligent oxygen increasing device for increasing oxygen in water based on the Internet of things, which structurally comprises an air pump, an exhaust pipeline, a fixed support, a boosting device, a first buoyancy plate, a second buoyancy plate and a junction box, wherein the junction box is fixed at the center of the surface of the air pump through screws, the air pump is fixed above the exhaust pipeline through rivets, the exhaust pipeline is fixed in front of the fixed support through screws, the fixed support is connected to the rear side above the first buoyancy plate and the second buoyancy plate through nails, and the boosting device is provided with a fixing device, a propelling device, an opening device, a linkage device, a moving device, a pulley device, an outer shell, a transmission device and a gear device, and has the advantages that: can make equipment remove in aqueous through the thrust unit that is equipped with when equipment is oxygenation, enlarge the area of oxygenation through the thrust unit for the oxygen of aquatic distributes more evenly, has improved the oxygenation effect of equipment.

Description

Intelligent oxygen increasing equipment based on Internet of things and used for increasing oxygen in water

Technical Field

The invention discloses intelligent oxygen increasing equipment for increasing oxygen in water based on the Internet of things, and belongs to the field of oxygen increasing equipment.

Background

The oxygen increasing machine is a machine commonly applied to fishery breeding industry, and mainly has the main functions of increasing the oxygen content in water to ensure that fish in the water cannot lack oxygen, inhibiting the growth of anaerobic bacteria in the water, preventing pond water from deteriorating and threatening the living environment of the fish, and generally pumps air into the water by an air pump carried by the oxygen increasing machine so as to achieve the purpose of increasing the oxygen content in the water.

However, the area of the prior art device capable of increasing oxygen is small, so that most areas can not be increased with oxygen, the reduction of the oxygen increasing area can cause the oxygen in water to be uneven, and the use effect of the oxygen increasing device is reduced.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide intelligent oxygen increasing equipment for increasing oxygen in water based on the Internet of things, and the intelligent oxygen increasing equipment is used for solving the problems that the equipment in the prior art is small in oxygen increasing area, so that most of areas can not be increased with oxygen, the oxygen in water is uneven due to the reduction of the oxygen increasing area, and the using effect of the oxygen increasing equipment is reduced.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides an intelligence oxygenation equipment for aquatic oxygenation based on thing networking, its structure includes air pump, exhaust duct, fixed bolster, boosting device, first buoyancy board, second buoyancy board, terminal box, the terminal box passes through the screw fixation at the center on air pump surface, the air pump passes through the fix with rivet in exhaust duct's top, exhaust duct passes through the screw rod to be fixed in the place ahead of fixed bolster, the rear side in first buoyancy board and second buoyancy board top is connected to the fixed bolster nail, boosting device welds in the below of first buoyancy board, first buoyancy board is installed in the left side of second buoyancy board and is parallel to each other, first buoyancy board passes through the screw rod and is fixed with the second buoyancy board, boosting device is equipped with fixing device, advancing device, opening device, linkage, mobile device, pulley gear, shell body, transmission, The gear device, fixing device welds the top in the shell body inside, advancing device passes through the screw rod and fixes the left side in the fixing device below, opening device passes through the screw fixation in linkage's top, linkage passes through the fix with rivet in the inside lower left corner of shell body, the mobile device welds the below in the shell body, pulley gear mechanical connection is in the inside below of shell body, the transmission is connected in gear's below, gear passes through the right side of screw fixation in the fixing device below.

Further, fixing device is equipped with first locking screw, fixed stay post, fixed connection board, slide, second locking screw, first locking screw is installed in the left side of fixed stay post top and mutually perpendicular, first locking screw and fixed stay post threaded connection, the fixed stay post welding is in the inside top of shell body, fixed connection board passes through the below of screw fixation at the fixed stay post, the slide passes through fix with rivet in the below of fixed connection board, the right side and mutually perpendicular are installed in the fixed stay post top to the second locking screw, the second locking screw adopts threaded connection with the fixed stay post.

Further, advancing device is equipped with first propulsion gear, main propulsion gear, connecting plate, second propulsion gear, pushing ram, propulsion board, telescopic link, touching pole, connector, first propulsion gear mechanical connection is in the top of connecting plate, the connecting plate passes through the screw rod to be fixed in the inside of main propulsion gear, second propulsion gear mechanical connection is in the below of connecting plate, pushing ram threaded connection is on the right side of connecting plate, the propulsion board passes through the below of fix with rivet at the connector, the telescopic link passes through the screw fixation on the right side of propulsion board, the touching pole welding is on the right side of telescopic link, the connector nail is connected in the below of slide, main propulsion gear passes through the below of screw fixation at the fixed stay post.

Further, opening device is equipped with head rod, fixed plate, lifter, second connecting rod, small-size disc, third connecting rod, the fixed plate passes through the screw fixation in the top of first motor, lifter mechanical connection is in the inside center of fixed plate, head rod nail connection is at the end of lifter, the second connecting rod passes through the screw fixation at the end of head rod, small-size disc mechanical connection is at the end of second connecting rod, the third connecting rod passes through the right side of fix with rivet at small-size disc.

Furthermore, the linkage device is provided with a motor switch, a first motor, a fixed base, a current lead, a first linkage rod, an auxiliary gear, a hook, a second linkage rod and a third linkage rod, the motor switch is nested above the first motor, the first motor is fixed above the fixed base through screws, the fixed base is fixed at the lower left part inside the outer shell through a rivet, the current lead is connected inside the first motor through glue, the first linkage rods are arranged on the right side of the first motor and are vertical to each other, the first linkage rods are mechanically connected with the first motor, the auxiliary gear is mechanically connected to the tail end of the first linkage rod, the third linkage rod nail is connected to the upper left of the surface of the auxiliary gear, the second linkage rod is fixed at the tail end of the third linkage rod through a screw, and the hook is welded at the tail end of the second linkage rod.

Further, the mobile device is equipped with motor outer protective housing, first boosting motor, rotor, spread groove, rotates tripe, second boosting motor, first boosting motor passes through the inside of screw fixation at motor outer protective housing, rotor mechanical connection is on the right side of second boosting motor, rotate tripe threaded connection on the right side of rotor, motor outer protective housing welds in the below of spread groove, the spread groove passes through the below of screw fixation at first pulley fixed plate, the below at second pulley fixed plate is passed through to the second boosting motor screw rod.

Further, the pulley device is provided with a fixing groove, a first pulley fixing plate, a pulley connecting rod, a second pulley fixing plate, a second pulley, a pulley moving groove, a groove plate and a spring support plate, wherein the fixing groove is welded on the left side above the pulley connecting rod, the first pulley is mechanically connected behind the left side of the pulley connecting rod, the first pulley fixing plate is arranged on the right side of the first pulley and is parallel to each other, the first pulley fixing plate is connected with the pulley connecting rod through a nail, the second pulley fixing plate is fixed on the right side of the surface of the pulley connecting rod through a screw, the second pulley is arranged on the right side of the second pulley fixing plate and is parallel to each other, the second pulley is mechanically connected with the pulley connecting rod, the pulley moving groove is welded on the upper side of the groove plate, and the groove plate is fixed below the inside of the outer shell, the spring support plate is mechanically connected to the lower right corner inside the outer shell.

Further, transmission is equipped with first drive lever, first drive gear, transmission connecting plate, second drive gear, connection chain, third drive gear, transmission band, auxiliary drive gear, second drive rod, gear fixing column, the gear fixing column passes through the fix with screw in the top of pulley connecting rod, first drive gear mechanical connection is at the end of gear fixing column, first drive lever is inlayed in the left side on first drive gear surface, the inside at first drive gear is connected to second drive lever nail, auxiliary drive gear mechanical connection is at the end of second drive gear, the transmission band encircles and connects the surface at auxiliary drive gear, third drive gear fixes the below at second drive gear through connecting the chain, second drive gear mechanical connection is in the top of connecting the chain.

Furthermore, the gear device is provided with a second motor, a first rotating gear, a gear transmission rod, a second rotating gear, a damping spring, an outer protecting shell of the gear device, an arc-shaped gear, a supporting rod and a third rotating gear, the damping spring is fixed on the right side below the fixed support column through a screw, the outer protective shell of the gear device is fixed below the damping spring through a rivet, the supporting rod nail is connected to the right side of the outer casing of the gear device, the second motor is fixed at the upper left corner inside the outer casing of the gear device through a screw, the first rotating gear is mechanically connected above the second motor, the gear transmission rod is in threaded connection with the right side of the first rotating gear, the second rotating gear is mechanically connected to the tail end of the gear transmission rod, the arc-shaped gear is fixed below the second rotating gear through a transmission belt, and the third rotating gear is in transmission connection with the second transmission gear through a chain.

Furthermore, the outer part of the current lead is made of an insulator material, so that people can be prevented from being injured by mistake in the process of electric leakage.

Furthermore, a lubricant is arranged inside the first transmission gear, so that damage caused by long-time friction of internal parts is prevented.

Advantageous effects

When the device is used, a first buoyancy plate and a second buoyancy plate of the device float on the water surface, air is exhausted through an exhaust pipeline by starting an air pump, the upper buoyancy plate is fixedly connected with a boosting device through a first locking screw and a second locking screw inside the boosting device, a first propelling gear and a second propelling gear inside the boosting device are driven to rotate by the rotation of an inner main propelling gear, a connecting plate is driven to move to the right side by the rotation of the first propelling gear and the second propelling gear, so that a propelling rod is not touched with the propelling plate, the propelling plate is deviated to the right side by the force transmitted from the left side to drive a telescopic rod to touch a touch rod, the touch rod moves to the right side to touch a switch of a second motor, so that the second motor starts to be started, the second motor starts to work to drive a first rotating gear to operate, and the first rotating gear drives a transmission rod to rotate, then the gear transmission rod drives the second rotating gear to rotate, the arc gear below the second rotating gear moves leftwards and rightwards along with the rotation of the second rotating gear, the third rotating gear is driven to rotate by moving leftwards, the second transmission gear is driven to rotate by a chain, the third transmission gear is driven to rotate by a connecting chain by the second transmission gear, the third transmission gear drives the auxiliary transmission gear by a transmission belt, the auxiliary transmission gear drives the second transmission rod to enable the first transmission gear to start rotating, the first transmission gear drives the first transmission rod by rotating, the first transmission rod drives the third connecting rod, the third connecting rod drives the second connecting rod to enable the lifting rod to be pressed downwards to touch the motor switch, the first motor drives the auxiliary gear to rotate by the first linkage rod, the auxiliary gear rotates to drive the third linkage rod, and the third linkage rod drives the second linkage rod, make the fixed recess looks lock of couple and pulley connecting rod top for first pulley and second pulley are to the skew removal in right side, and the first boosting motor and the second boosting motor start-up of below carry out the boosting, and the boosting device that is equipped with can make equipment remove in aqueous, enlarges the area of oxygenation, makes the oxygen distribution of aquatic more even.

According to the intelligent oxygen increasing equipment for increasing oxygen in water based on the Internet of things, the boosting device is arranged, so that the equipment can move in water through the boosting device when the equipment is used for increasing oxygen, the oxygen increasing area is enlarged, oxygen in water is distributed more uniformly, and the oxygen increasing effect of the equipment is improved.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of an intelligent oxygen increasing device for increasing oxygen in water based on the internet of things.

Fig. 2 is a schematic structural view of the boosting device of the present invention.

Fig. 3 is a detailed structural schematic diagram of the boosting device of the invention.

Fig. 4 is a schematic view of the operation of the boosting device of the present invention.

In the figure: air pump-1, exhaust pipe-2, fixed bracket-3, boosting device-4, first buoyancy plate-5, second buoyancy plate-6, junction box-7, fixing device-41, propelling device-42, opening device-43, linkage device-44, moving device-45, pulley device-46, outer shell-47, transmission device-48, gear device-49, first locking screw-411, fixed supporting column-412, fixed connecting plate-413, sliding plate-414, second locking screw-415, first propelling gear-421, main propelling gear-422, connecting plate-423, second propelling gear-424, propelling rod-425, propelling plate-426, telescopic rod-427, touch rod-428, telescopic rod-427, Connector-429, first connecting rod-431, fixed plate-432, lifting rod-433, second connecting rod-434, small disc-435, third connecting rod-436, motor switch-441, first motor-442, fixed base-443, current lead-444, first connecting rod-445, auxiliary gear-446, hook-447, second connecting rod-448, third connecting rod-449, motor outer protective shell-451, first boosting motor-452, rotor-453, connecting groove-454, rotating louver-455, second boosting motor-456, fixed groove-461, first pulley-462, first pulley fixed plate-463, pulley connecting rod-464, second pulley fixed plate-465, second pulley-466, lifting rod-433, second connecting rod-434, small disc-435, third connecting rod-441, motor switch-441, first motor-442, fixed base-443, current lead-444, rotor-453, connecting groove-454, rotating louver-455, second, The pulley-moving groove-467, the groove plate-468, the spring support plate-469, the first transmission rod-481, the first transmission gear-482, the transmission connection plate-483, the second transmission gear-484, the connection chain-485, the third transmission gear-486, the transmission belt-487, the auxiliary transmission gear-488, the second transmission rod-489, the gear fixing column-4810, the second motor-491, the first rotating gear-492, the gear transmission rod-493, the second rotating gear-494, the damping spring-495, the gear device outer casing-496, the arc gear-497, the support rod-498 and the third rotating gear-499.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1 to 4, the present invention provides an intelligent oxygen increasing device for increasing oxygen in water based on the internet of things: the structure of the air pump comprises an air pump 1, an exhaust pipeline 2, a fixed support 3, a boosting device 4, a first buoyancy plate 5, a second buoyancy plate 6 and a junction box 7, wherein the junction box 7 is fixed at the center of the surface of the air pump 1 through screws, the air pump 1 is fixed above the exhaust pipeline 2 through rivets, the exhaust pipeline 2 is fixed in front of the fixed support 3 through screws, the fixed support 3 is connected to the rear side above the first buoyancy plate 5 and the second buoyancy plate 6 in a nailing manner, the boosting device 4 is welded below the first buoyancy plate 5, the first buoyancy plate 5 is arranged on the left side of the second buoyancy plate 6 and parallel to each other, the first buoyancy plate 5 is fixed with the second buoyancy plate 6 through screws, and the boosting device 4 is provided with a fixing device 41, a propelling device 42, an opening device 43, a linkage device 44, a moving device 45 and a pulley device 46, The device comprises an outer shell 47, a transmission device 48 and a gear device 49, wherein the fixing device 41 is welded above the inner part of the outer shell 47, the propulsion device 42 is fixed at the left side below the fixing device 41 through a screw rod, the opening device 43 is fixed above the linkage device 44 through a screw, the linkage device 44 is fixed at the left lower corner inside the outer shell 47 through a rivet, the moving device 45 is welded below the outer shell 47, the pulley device 46 is mechanically connected below the inner part of the outer shell 47, the transmission device 48 is in transmission connection below the gear device 49, the gear device 49 is fixed at the right side below the fixing device 41 through a screw, the fixing device 41 is provided with a first locking screw 411, a fixed supporting column 412, a fixed connecting plate 413, a sliding plate 414 and a second locking screw 415, the first locking screw 411 is arranged at the left side above the fixed supporting column 412 and is vertical to each other, the first locking screw 411 is in threaded connection with a fixed supporting column 412, the fixed supporting column 412 is welded above the inside of the outer shell 47, the fixed connecting plate 413 is fixed below the fixed supporting column 412 through screws, the sliding plate 414 is fixed below the fixed connecting plate 413 through rivets, the second locking screw 415 is arranged on the right side above the fixed supporting column 412 and is perpendicular to each other, the second locking screw 415 is in threaded connection with the fixed supporting column 412, the propelling device 42 is provided with a first propelling gear 421, a main propelling gear 422, a connecting plate 423, a second propelling gear 424, a propelling rod 425, a propelling plate 426, a telescopic rod 427, a touch rod 428 and a connector 429, the first propelling gear 421 is mechanically connected above the connecting plate 423, the connecting plate 423 is fixed inside the main propelling gear 422 through screws, the second propelling gear 424 is mechanically connected below the connecting plate 423, the push rod 425 is screwed on the right side of the connecting plate 423, the push plate 426 is fixed below the connector 429 by rivets, the telescopic rod 427 is fixed on the right side of the push plate 426 by screws, the touch rod 428 is welded on the right side of the telescopic rod 427, the connector 429 is screwed below the sliding plate 414, the main push gear 422 is fixed below the fixed support column 412 by screws, the opening device 43 is provided with a first connecting rod 431, a fixed plate 432, a lifting rod 433, a second connecting rod 434, a small disc 435 and a third connecting rod 436, the fixed plate 432 is fixed above the first motor 442 by screws, the lifting rod 433 is mechanically connected at the center inside of the fixed plate 432, the first connecting rod 431 is screwed on the end of the lifting rod 433, the second connecting rod 434 is fixed on the end of the first connecting rod 431 by screws, the small disc 435 is mechanically connected on the end of the second connecting rod 434, the third connecting rod 436 is fixed on the right side of the mini disc 435 by a rivet, the linkage 44 is provided with a motor switch 441, a first motor 442, a fixed base 443, a current conducting wire 444, a first connecting rod 445, an auxiliary gear 446, a hook 447, a second connecting rod 448 and a third connecting rod 449, the motor switch 441 is nested above the first motor 442, the first motor 442 is fixed above the fixed base 443 by a screw, the fixed base 443 is fixed on the lower left inside the outer housing 47 by a rivet, the current conducting wire 444 is glued inside the first motor 442, the first connecting rod 445 is arranged on the right side of the first motor 442 and is perpendicular to each other, the first connecting rod 445 is mechanically connected with the first motor 442, the auxiliary gear 446 is mechanically connected at the end of the first connecting rod 445, the third connecting rod 449 is connected on the upper left side of the surface of the auxiliary gear 446, the second linkage 448 is fixed at the end of a third linkage 449 through screws, the hook 447 is welded at the end of the second linkage 448, the moving device 45 is provided with a motor outer protective shell 451, a first boosting motor 452, a rotor 453, a connecting groove 454, a rotating louver 455 and a second boosting motor 456, the first boosting motor 452 is fixed inside the motor outer protective shell 451 through screws, the rotor 453 is mechanically connected at the right side of the second boosting motor 456, the rotating louver 455 is connected at the right side of the rotor 453 in a threaded manner, the motor outer protective shell 451 is welded below the connecting groove 454, the connecting groove 454 is fixed below a first pulley fixing plate 463 through screws, the second boosting motor 456 is fixed below a second pulley fixing plate 465 through screws, and the pulley device 46 is provided with a fixing groove 461, a first pulley 462, a first pulley fixing plate 463, a second pulley fixing plate 463, A pulley connecting rod 464, a second pulley fixing plate 465, a second pulley 466, a pulley moving groove 467, a groove plate 468, a spring supporting plate 469, the fixing groove 461 is welded on the left side above the pulley connecting rod 464, the first pulley 462 is mechanically connected behind the left side of the pulley connecting rod 464, the first pulley fixing plate 463 is installed on the right side of the first pulley 462 and parallel to each other, the first pulley fixing plate 463 is nailed to the pulley connecting rod 464, the second pulley fixing plate 465 is fixed on the right side of the surface of the pulley connecting rod 464 by screws, the second pulley 466 is installed on the right side of the second pulley fixing plate 465 and parallel to each other, the second pulley 466 is mechanically connected to the pulley connecting rod 464, the pulley moving groove 467 is welded above the groove plate 468, the groove plate 468 is fixed below the inside of the outer case 47 by rivets, the spring supporting plate 469 is mechanically connected on the lower right corner of the inside of the outer case, the transmission device 48 is provided with a first transmission rod 481, a first transmission gear 482, a transmission connecting plate 483, a second transmission gear 484, a connecting chain 485, a third transmission gear 486, a transmission belt 487, an auxiliary transmission gear 488, a second transmission rod 489 and a gear fixing column 4810, wherein the gear fixing column 4810 is fixed above the pulley connecting rod 464 through screws, the first transmission gear 482 is mechanically connected to the tail end of the gear fixing column 4810, the first transmission rod 481 is inlaid on the left side of the surface of the first transmission gear 482, the second transmission rod 489 is nailed inside the first transmission gear 482, the auxiliary transmission gear 488 is mechanically connected to the tail end of the second transmission rod 489, the transmission belt 487 is circularly connected to the outer surface of the auxiliary transmission gear 488, the third transmission gear 486 is fixed below the second transmission gear 484 through a connecting chain 485, and the second transmission gear 484 is mechanically connected above the connecting chain 485, the gear device 49 is provided with a second motor 491, a first rotating gear 492, a geared transmission rod 493, a second rotating gear 494, a damping spring 495, a gear device outer casing 496, an arc gear 497, a support rod 498 and a third rotating gear 499, the damping spring 495 is fixed on the right side below the fixed support column 412 through screws, the gear device outer casing 496 is fixed below the damping spring 495 through rivets, the support rod 498 is nailed on the right side of the gear device outer casing 496, the second motor 491 is fixed on the upper left corner inside the gear device outer casing 496 through screws, the first rotating gear 492 is mechanically connected above the second motor 491, the geared transmission rod 493 is screwed on the right side of the first rotating gear 492, the second rotating gear 494 is mechanically connected at the tail end of the geared transmission rod 493, the arc gear 497 is fixed below the second rotating gear 494 through a transmission belt, the third rotating gear 499 is in transmission connection with the second transmission gear 484 through a chain, the outer portion of the current lead 444 is made of an insulator material, people are prevented from being injured by mistake in electric leakage, and the first transmission gear 482 is internally provided with a lubricant, so that damage caused by long-time friction of internal parts is prevented.

The terminal box 7 of the invention is one of electrical accessories, because the electric wire for decoration is passed through the electric wire tube, and the terminal box is used for transition at the joint part of the electric wire, such as a longer line, or the corner of the electric wire tube, the electric wire tube is connected with the terminal box, the electric wire in the wire tube is connected in the terminal box, and the functions of protecting the electric wire and connecting the electric wire are achieved.

When the device is used, the first buoyancy plate 5 and the second buoyancy plate 6 of the device float on the water surface, the air pump 1 is started to discharge air through the air discharge pipe 2, the boosting device 4 fixedly connects the upper buoyancy plate through the inner first locking screw 411 and the inner second locking screw 415, the rotation of the inner main pushing gear 422 drives the inner first pushing gear 421 and the inner second pushing gear 424 to rotate, the rotation of the first pushing gear 421 and the second pushing gear 424 drives the connecting plate 423 to move to the right, so that the pushing rod 425 touches the pushing plate 426, the pushing plate 426 receives the force transmitted from the left side to deviate to the right side to drive the telescopic rod 427 to touch the touching rod 428, the touching rod 428 moves to the right side to touch the switch of the second motor 491, so that the second motor 491 starts to start, the second motor 491 starts to start working to drive the first rotating gear 492 to operate, the first rotating gear 492 drives the gear transmission rod 493 to rotate, the gear transmission rod 493 drives the second rotating gear 494 to rotate, the lower arc gear 497 moves left and right along with the rotation of the second rotating gear 494, the left movement drives the third rotating gear 499 to rotate, the rotation of the third rotating gear 499 drives the second transmission gear 484 to rotate through a chain, the second transmission gear 484 drives the third transmission gear 486 to rotate through a connecting chain 485, the third transmission gear 486 drives the auxiliary transmission gear 488 through a transmission belt 487, the auxiliary transmission gear 488 drives the second transmission rod 489 to make the first transmission gear 482 start to rotate, the rotation of the first transmission gear 482 drives the first transmission rod 481, the first transmission rod 481 drives the third connection rod 436, the third connection rod 436 drives the second connection rod 434 to press the lifting rod 433 down to touch the motor switch 441, so that the first motor 442 rotates to drive the auxiliary gear 446 through the first connection rod 445, supplementary gear 446 is rotatory to drive third trace 449, third trace 449 drives second trace 448, make fixed recess 461 looks lock of couple 447 and pulley connecting rod 464 top, make first pulley 462 and second pulley 466 skew removal to the right side, first boosting motor 452 and the start of second boosting motor 456 below carry out the boosting, boosting device 4 that is equipped with can make equipment remove in aqueous, enlarge the area of oxygenation, make the oxygen distribution in aqueous more even.

The invention solves the problems that the equipment in the prior art has small area capable of increasing oxygen, most areas can not be increased with oxygen, the reduction of the oxygen increasing area can cause the oxygen in water to be uneven, and the use effect of the oxygen increasing equipment is reduced.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (1)

1. The utility model provides an intelligence oxygenation equipment for aquatic oxygenation based on thing networking, its structure includes air pump (1), exhaust duct (2), fixed bolster (3), boosting device (4), first buoyancy board (5), second buoyancy board (6), terminal box (7), its characterized in that:

the terminal box (7) is fixed at the center of the surface of the air pump (1) through screws, the air pump (1) is fixed above the exhaust pipeline (2) through rivets, the exhaust pipeline (2) is fixed in front of the fixed support (3) through screws, the fixed support (3) is connected to the rear side above the first buoyancy plate (5) and the second buoyancy plate (6) through nails, the boosting device (4) is welded below the first buoyancy plate (5), the first buoyancy plate (5) is arranged on the left side of the second buoyancy plate (6) and is parallel to each other, and the first buoyancy plate (5) is fixed with the second buoyancy plate (6) through screws;

the boosting device (4) is provided with a fixing device (41), a propelling device (42), an opening device (43), a linkage device (44), a moving device (45), a pulley device (46), an outer shell (47), a transmission device (48) and a gear device (49);

the fixing device (41) is welded above the inside of the outer shell (47), the propelling device (42) is fixed on the left side below the fixing device (41) through a screw rod, the opening device (43) is fixed above the linkage device (44) through a screw, the linkage device (44) is fixed on the lower left corner inside the outer shell (47) through a rivet, the moving device (45) is welded below the outer shell (47), the pulley device (46) is mechanically connected below the inside of the outer shell (47), the transmission device (48) is in transmission connection below the gear device (49), and the gear device (49) is fixed on the right side below the fixing device (41) through a screw rod;

the fixing device (41) is provided with a first locking screw (411), a fixed supporting column (412), a fixed connecting plate (413), a sliding plate (414) and a second locking screw (415), the first locking screw (411) is arranged on the left side above the fixed supporting column (412) and is perpendicular to the fixed supporting column (412), the first locking screw (411) is in threaded connection with the fixed supporting column (412), the fixed supporting column (412) is welded on the upper portion inside the outer shell (47), the fixed connecting plate (413) is fixed below the fixed supporting column (412) through screws, the sliding plate (414) is fixed below the fixed connecting plate (413) through rivets, the second locking screw (415) is arranged on the right side above the fixed supporting column (412) and is perpendicular to the fixed supporting column (412), and the second locking screw (415) is in threaded connection with the fixed supporting column (412);

the propelling device (42) is provided with a first propelling gear (421), a main propelling gear (422), a connecting plate (423), a second propelling gear (424), a propelling rod (425), a propelling plate (426), a telescopic rod (427), a touch rod (428) and a connector (429), wherein the first propelling gear (421) is mechanically connected above the connecting plate (423), the connecting plate (423) is fixed inside the main propelling gear (422) through a screw rod, the second propelling gear (424) is mechanically connected below the connecting plate (423), the propelling rod (425) is in threaded connection on the right side of the connecting plate (423), the propelling plate (426) is fixed below the connector (429) through rivets, the telescopic rod (427) is fixed on the right side of the propelling plate (426) through screws, the touch rod (428) is welded on the right side of the telescopic rod (427), and the connector (429) is in nailed connection below the sliding plate (414), the main propelling gear (422) is fixed below the fixed supporting column (412) through a screw rod;

the opening device (43) is provided with a first connecting rod (431), a fixed plate (432), a lifting rod (433), a second connecting rod (434), a small disc (435) and a third connecting rod (436), the fixed plate (432) is fixed above a first motor (442) through screws, the lifting rod (433) is mechanically connected to the center inside the fixed plate (432), the first connecting rod (431) is connected to the tail end of the lifting rod (433) in a nailing mode, the second connecting rod (434) is fixed to the tail end of the first connecting rod (431) through screws, the small disc (435) is mechanically connected to the tail end of the second connecting rod (434), and the third connecting rod (436) is fixed to the right side of the small disc (435) through rivets;

the linkage device (44) is provided with a motor switch (441), a first motor (442), a fixed base (443), a current lead (444), a first linkage rod (445), an auxiliary gear (446), a hook (447), a second linkage rod (448) and a third linkage rod (449), the motor switch (441) is nested above the first motor (442), the first motor (442) is fixed above the fixed base (443) through screws, the fixed base (443) is fixed at the lower left inside the outer shell (47) through rivets, the current lead (444) is glued inside the first motor (442), the first linkage rod (445) is arranged at the right side of the first motor (442) and is perpendicular to the first motor (442), the first linkage rod (445) is mechanically connected with the first motor (442), the auxiliary gear (446) is mechanically connected at the tail end of the first linkage rod (445), the third linkage rod (449) is connected to the upper left of the surface of the auxiliary gear (446) in a nailing manner, the second linkage rod (448) is fixed at the tail end of the third linkage rod (449) through a screw, and the hook (447) is welded at the tail end of the second linkage rod (448);

the moving device (45) is provided with a motor outer protective shell (451), a first boosting motor (452), a rotor (453), a connecting groove (454), a rotating louver (455) and a second boosting motor (456), the first boosting motor (452) is fixed inside the motor outer protective shell (451) through screws, the rotor (453) is mechanically connected to the right side of the second boosting motor (456), the rotating louver (455) is in threaded connection with the right side of the rotor (453), the motor outer protective shell (451) is welded below the connecting groove (454), the connecting groove (454) is fixed below a first pulley fixing plate (463) through screws, and the second boosting motor (456) is fixed below a second pulley fixing plate (465) through screws;

the pulley device (46) is provided with a fixing groove (461), a first pulley (462), a first pulley fixing plate (463), a pulley connecting rod (464), a second pulley fixing plate (465), a second pulley (466), a pulley moving groove (467), a groove plate (468), and a spring supporting plate (469), the fixing groove (461) is welded on the left side above the pulley connecting rod (464), the first pulley (462) is mechanically connected behind the left side of the pulley connecting rod (464), the first pulley fixing plate (463) is arranged on the right side of the first pulley (462) and parallel to each other, the first pulley fixing plate (463) is in nail connection with the pulley connecting rod (464), the second pulley fixing plate (465) is fixed on the right side of the surface of the pulley connecting rod (464) through screws, the second pulley (466) is arranged on the right side of the second pulley fixing plate (465) and parallel to each other, the second pulley (466) is mechanically connected with a pulley connecting rod (464), the pulley moving groove (467) is welded above a groove plate (468), the groove plate (468) is fixed below the inside of the outer shell (47) through rivets, and the spring supporting plate (469) is mechanically connected at the lower right corner of the inside of the outer shell (47);

the transmission device (48) is provided with a first transmission rod (481), a first transmission gear (482), a transmission connecting plate (483), a second transmission gear (484), a connecting chain (485), a third transmission gear (486), a transmission belt (487), an auxiliary transmission gear (488), a second transmission rod (489) and a gear fixing column (4810), wherein the gear fixing column (4810) is fixed above the pulley connecting rod (464) through screws, the first transmission gear (482) is mechanically connected to the tail end of the gear fixing column (4810), the first transmission rod (481) is embedded in the left side of the surface of the first transmission gear (482), the second transmission rod (489) is connected to the inside of the first transmission gear (482) in a nailing manner, the auxiliary transmission gear (488) is mechanically connected to the tail end of the second transmission rod (489), and the transmission belt (487) is connected to the outer surface of the auxiliary transmission gear (488) in a surrounding manner, the third transmission gear (486) is fixed below the second transmission gear (484) through a connecting chain (485), and the second transmission gear (484) is mechanically connected above the connecting chain (485);

the gear device (49) is provided with a second motor (491), a first rotating gear (492), a gear transmission rod (493), a second rotating gear (494), a damping spring (495), a gear device outer casing (496), an arc gear (497), a supporting rod (498) and a third rotating gear (499), the damping spring (495) is fixed on the right side below the fixed supporting column (412) through screws, the gear device outer casing (496) is fixed below the damping spring (495) through rivets, the supporting rod (498) is connected to the right side of the gear device outer casing (496) through screws, the second motor (491) is fixed on the upper left corner inside the gear device outer casing (496) through screws, the first rotating gear (492) is mechanically connected above the second motor (491), and the gear transmission rod (493) is in threaded connection with the right side of the first rotating gear (492), the second rotating gear (494) is mechanically connected to the tail end of the gear transmission rod (493), the arc-shaped gear (497) is fixed below the second rotating gear (494) through a transmission belt, and the third rotating gear (499) is in transmission connection with the second transmission gear (484) through a chain.

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