CN210538265U - Novel intelligent aerator - Google Patents

Abstract

The utility model provides a novel intelligent aerator, which comprises a rotary impeller and a pontoon body, and is installed on a water body, through the rotary impeller stirring the water body to realize aeration or water plowing and flowing. The novel intelligent aerator is provided with a rotating impeller water-submerging adjusting device which comprises a driving device, a lifting screw rod and an adjusting floating body; the utility model discloses according to water operating condition, can adjust rotatory impeller and immerse the water depth, adjust the rotational speed of rotatory impeller simultaneously as required again, can reach the oxygenation operating mode of preferred. The utility model provides an oxygen-increasing machine can continuously operate under better operating mode, according to predetermined rule automatically regulated rotational speed etc. can alleviate unnecessary electric quantity loss, saves the charges of electricity expenditure, delays the oxygen-increasing machine life-span, and the practicality is good, has certain economic benefits nature.

Description

Novel intelligent aerator

Technical Field

The utility model relates to an oxygen-increasing machine technical field among the aquaculture especially relates to a novel intelligence oxygen-increasing machine.

Background

In aquaculture, one of the oxygenation devices widely used is a waterwheel type aerator. In the culture of eels and shrimps in coastal provinces in south, a waterwheel type aerator is widely applied.

In the conventional technology, after the aerator is installed, the aerator basically operates according to fixed power or fixed rotating speed, and the depth of the rotating impeller submerged in water is also fixed. Or even if the frequency conversion technology is used, the running condition of the aerator is basically not related to the actual working condition of the water body, and the aerator runs automatically according to the intention of a user or the equipment condition. In particular, since the waterwheel type aerator often keeps overload operation for a long time, the motor or the frequency converter is easy to damage. In fact, the real practical requirement of the culture site is that the automatic aerator is selected to be started or stopped in a targeted manner according to the actual working condition of the current pond, so that the optimal aeration efficiency or the optimal water ploughing and flowing is achieved, the electric quantity loss is reduced as much as possible on the premise of meeting the optimal working efficiency, and the expenditure is saved.

In the prior art, the culture mode is not scientifically analyzed, the aerator is simply started to carry out aeration operation under low oxygen, or the same method and steps are carried out when water and running water need to be ploughed, and the aerator is only started, so that the working effectiveness of the aerator or the real effective conversion of the aerator to a task target are not considered too much and cannot be considered.

In the chinese patent of patent No. 201810214034.9, a fishery cultivation impeller type oxygen-increasing machine is disclosed, this utility model provides a fishery cultivation impeller type oxygen-increasing machine, including oxygenation impeller, brushless motor, nylon support, flotation tank and flotation tank support arm etc. it is at least three the flotation tank be circumference array distribute in around the nylon support, and each the flotation tank is respectively through a plurality of flotation tank support arm and nylon support fixed connection. The aerator in the patent only plays a role in small rotating resistance of the aeration impeller and is not well combined with the actual working condition.

As described above, in the prior art, like this patent, the oxygen-increasing machine is just a common oxygen-increasing or water-pushing function, and does not relate to the actual water body working condition, carries out scientific operation as required, can't reduce the consumption on the basis of improving whole work efficiency, saves the cost spending.

SUMMERY OF THE UTILITY MODEL

The utility model discloses make the improvement to above-mentioned technical problem, promptly the utility model aims to solve the technical problem that a according to water operating condition, adjustable rotatory impeller submerges the oxygen-increasing machine of body depth and rotatory impeller rotational speed.

In order to solve the above technical problem, the utility model discloses a technical scheme is: the utility model provides a novel intelligence oxygen-increasing machine, includes rotary impeller and the pontoon body, installs on the water, through rotary impeller stirs the water and realizes oxygenation or plough water, flowing water, novel intelligence oxygen-increasing machine is equipped with rotary impeller and does not have water adjusting device.

The rotary impeller flooding adjustment apparatus includes:

a drive device for outputting power;

the lifting screw rod is used for realizing lifting under the action of the driving device;

the floating body is adjusted, and the lifting screw is synchronously lifted when lifted;

the driving device is connected with the lifting screw rod, and the lifting screw rod is connected with the adjusting floating body;

the driving device is also connected with an intelligent controller, and the lifting screw rod is driven to lift according to the instruction of the intelligent controller to drive the adjusting floating body to lift synchronously, so that the depth of the rotating impeller immersed in the water body is adjusted.

Preferably, the rotating impeller waterlogging adjusting device is arranged in the middle area of the novel intelligent aerator.

Further, the driving device comprises a second motor and a driving wheel, and the second motor is connected with the driving wheel.

Furthermore, the lifting screw comprises a driven screw and a rotary sleeve shaft, and the driven screw is connected with the rotary sleeve shaft.

Further, the lifting screw and the rotating sleeve shaft can be fixedly connected or connected in a sliding mode through a connecting piece.

Furthermore, the novel intelligent aerator further comprises a driving motor which is a permanent magnet variable frequency motor.

Further, the rotating impeller waterlogging adjusting device is provided with a plurality of stabilizing columns, and the stabilizing columns are connected with stabilizing column connection parts on the adjusting floating body.

Further, the lower end of the driven screw is provided with an embedding part, and the rotary sleeve shaft is sleeved with the driven screw through the embedding part.

Further, the embedding part is also provided with an annular groove for embedding and arranging the rotating component.

Further, the rotating component comprises a cylindrical shaft, and the cylindrical shaft can slide around the annular groove.

Compared with the prior art, the utility model discloses following beneficial effect has:

(1) the utility model provides a novel intelligent aerator which can adjust the depth of the rotary impeller submerged in the water body according to the actual working condition of the water body, adjust the rotating speed of the rotary impeller according to the requirement and achieve the better aeration working condition;

(2) the utility model provides a novel intelligent aerator, which can correspondingly adjust the running parameters of the aerator according to different segmental task needs, such as aeration, water plowing, flowing water and the like, so as to select the working mode according to needs, and the aeration or water plowing is more scientific;

(3) the utility model provides a novel intelligent oxygen-increasing machine does not need to be like traditional oxygen-increasing machine uses, regularly carries out the operation of opening and stopping on time regularly, perhaps does not regularly carry out the operation of opening and stopping according to experience, the utility model provides an oxygen-increasing machine can continuously run under more excellent operating mode, can alleviate unnecessary electric quantity loss, saves the charges of electricity expenditure, delays the oxygen-increasing machine life-span;

(4) the utility model provides a pair of novel intelligence oxygen-increasing machine, from the practical application demand, the technique is realized easily, and the practicality is good, and has certain economic benefits nature, can promote in practical application.

Drawings

Fig. 1 is the simple structure schematic diagram of the novel intelligent aerator of the embodiment of the utility model.

Fig. 2 is a schematic view of a three-dimensional structure of the novel intelligent aerator according to the embodiment of the present invention.

Fig. 3 is a schematic view of the structure composition of the rotating impeller water-free adjusting device of the novel intelligent aerator of the utility model.

Fig. 4 is the partial structure anatomy sketch map of the driving gear and the driven screw of the novel intelligent aerator of the utility model.

Fig. 5 is one of the schematic structural diagrams of the rotating impeller water-free adjusting device of the novel intelligent aerator of the utility model.

Fig. 6 is a second schematic structural view of the rotating impeller water-free adjusting device of the novel intelligent aerator according to the embodiment of the present invention.

Fig. 7 is a schematic view of the combined connection of the partial structure of the rotating impeller water-free adjusting device of the novel intelligent aerator of the utility model.

Fig. 8 is a schematic structural anatomy view of an embedded part and a rotating sleeve shaft of the novel intelligent aerator according to the embodiment of the invention.

In fig. 1: a0-rotating impeller waterlogging adjusting device, A-1-driving device, A-2-lifting screw, A-3-adjusting floating body, 001-rotating impeller, 002-floating hull, 003-intelligent controller, B001-driving motor, B002-gear box, B003-coupler, B004-rotating bearing seat, B005-impeller shaft and B006-supporting frame.

In fig. 2: a-3 adjusting floating body, 001-rotary impeller, 002-floating hull, B001-driving motor, B002-gear box, B003-coupler, B004-rotary bearing seat, B005-impeller shaft and B006-support frame.

In fig. 3: a-1-a driving device, A-2-a lifting screw, A-3-an adjusting floating body, A-10-a second motor, A-11-a driving wheel, A-21-a driven screw, A-22-a rotating sleeve shaft and A-31-a fastening component.

In fig. 4: a-11-driving wheel and A-21-driven screw.

In fig. 5: a0-rotating impeller water-immersion adjusting device, A-1-driving device, A-2-lifting screw, A-21 driven screw, A-200-stabilizing column, and A-210-embedded part.

In fig. 6: a-21-driven screw, A-210-embedded part, A-2101-annular groove, A-22-rotary sleeve shaft, A-220-rotary part, A-300-stable column connection part and A-3-adjusting floating body.

In fig. 7: a-21-driven screw, A-22-rotary sleeve shaft, A-220-rotary component, A-300-stable column connection part and A-3-adjusting floating body.

In fig. 8: a-21-driven screw, A-210-embedded part, A-22-rotary sleeve shaft and A-220-rotary component.

Detailed Description

The drawings that accompany the detailed description can be briefly described as follows, and it is obvious that the described embodiments are some of the embodiments of the present invention, and some embodiments of the present invention can be derived from the drawings without creative efforts for those skilled in the art.

It is to be noted that, unless otherwise expressly specified or limited, the terms "connected," "connected," and "mounted" in the description of the invention are to be construed broadly, and may for example be integrally connected, fixedly connected, or detachably connected; either directly, mechanically or electronically, or indirectly through intervening media.

As shown in fig. 1, a novel intelligent oxygen-increasing machine, including rotary impeller 001 and pontoon body 002, install on the water, through rotary impeller 001 stirs the water and realizes oxygenation or ploughing water, flowing water, its characterized in that, novel intelligent oxygen-increasing machine is equipped with rotary impeller and does not have water adjusting device A0.

The rotary impeller flooding regulation device A0 comprises a driving device A-1 for outputting power; comprises a lifting screw A-2 which can realize lifting under the action of the driving device A-1; comprises an adjusting floating body A-3 which can synchronously lift when the lifting screw A-2 lifts.

The driving device A-1 is connected with the lifting screw A-2, and the lifting screw A-2 is connected with the adjusting floating body A-3; the driving device A-1 is also connected with an intelligent controller 003, and the lifting screw A-2 is driven to lift according to the instruction of the intelligent controller 003 to drive the adjusting floating body A-3 to lift synchronously, so that the depth of the rotating impeller 001 immersed in the water body is adjusted.

In this embodiment, the regulating float a-3 may be a floating ball or a pontoon or the like for buoyancy adjustment in conjunction with the floating hull 002.

Referring to fig. 1 and 2, in this embodiment, the novel intelligent aerator further includes a driving motor B001, a gearbox B002, a coupling B003, a rotary bearing seat B004, an impeller shaft B005, and a support frame B006. Driving motor B001 connects gearbox B002, driving motor B001's rotational speed is in gearbox B002 variable speed back, through shaft coupling B003 acts on impeller shaft B005, impeller shaft B005 passes through rotation bearing base B004 supports, impeller shaft B005 connects rotatory impeller 001, rotatory impeller 001 is in rotate under impeller shaft B005's the drive to stir the water.

Driving motor B001, gearbox B002 and rotatory bearing frame B004 passes through support frame B006 installation is fixed, support frame B006 is fixed float on the hull 002.

Preferably, the driving motor B001 is a permanent magnet variable frequency motor, the transmission case B002 may not be used at this time, the permanent magnet variable frequency motor is connected with a frequency converter, and the permanent magnet variable frequency motor directly outputs power to the coupling B003 and the impeller shaft B005.

In this embodiment, the floating hull body 002 is two in bilateral symmetry, the driving motor B001 and the gearbox B002 are arranged and installed in the middle area, and are fixed through the supporting frame B006.

The rotating impeller waterless adjusting device A0 is arranged in the middle area of the novel intelligent aerator.

As shown in fig. 3, the driving device a-1 includes a second motor a-10 and a driving wheel a-11, and the second motor a-10 is connected to the driving wheel a-11.

Preferably, the second motor a-10 is a stepping motor, the driving wheel a-11 is a driving gear, and the second motor a-10 controls the driving wheel a-11 to rotate within a limited range, so as to drive the lifting screw a-2 connected with the driving wheel a-11 to lift up and down within a limited range, thereby driving the adjusting floating body a-3 to lift up and down within a limited range, so as to achieve the effect of adjusting buoyancy, so that the novel intelligent aerator passively floats up or descends along a certain range in the change of buoyancy, which is equivalent to the fact that the depth of the rotating impeller 001 submerged in the water body also synchronously changes. In practice, the depth of the rotating impeller 001 into the body of water need not be as great, with a preferred range of 10-15 cm.

The lifting screw A-2 comprises a driven screw A-21 and a rotary sleeve shaft A-22, and the driven screw A-21 is connected with the rotary sleeve shaft A-22.

The rotating impeller waterlogging regulator A0 is a mechanical structure for lifting regulation.

As shown in fig. 5 and 6, with reference to fig. 7 and 8, the lifting screw a-2 is slidably connected to the rotating sleeve a-22 through a connecting member, and the lifting screw a-2 can rotate in the rotating sleeve a-22.

In this embodiment, the rotary impeller flooding adjustment device A0 is provided with a plurality of stabilizing columns A-200, and the stabilizing columns A-200 are connected with stabilizing column connectors A-300 on the adjustment float A-3. The top of the stabilizing column A-200 is provided with a limiting part, and the stabilizing column A-200 can slide up and down. The stabilizing column A-200 is used for stabilizing the adjusting floating body A-3 and avoiding the deviation caused by unstable gravity center of the adjusting floating body A-3. The number of the stabilizing columns a-200 to be used or the stabilizing columns a-200 not to be used is selected according to the size and type of the adjusting floating body a-3.

The lower end of the driven screw A-21 is provided with an embedded part A-210, and the rotary sleeve shaft A-22 is sleeved with the driven screw A-21 through the embedded part A-210. The rotating sleeve shaft A-22 is provided with a plurality of holes, and a plurality of rotating parts A-220 are correspondingly arranged. The embedded part A-210 is also provided with an annular groove A-2101 for embedding and arranging the rotating component A-220. The rotating component A-220 at least comprises a cylindrical shaft which can slide around the annular groove A-2101.

In the embodiment, the rotating sleeve shaft A-22 is used for being fixedly connected with the adjusting floating body A-3, and a fastening part A-31 is arranged at the connecting part of the rotating sleeve shaft A-22 and the adjusting floating body A-3 and used for fastening and mounting.

In the embodiment, as shown in fig. 4, the driving gear is engaged with the driven screw a-21, and when the driving gear rotates, the driving gear drives the driven screw a-21 to move up and down, so as to drive the rotating sleeve shaft a-22 to move up and down. The driving gear and the driven screw A-21 can directly adopt a common screw combination mechanism which drives the screw to lift up and down through gear rotation.

As one of the practical modes, the rotating sleeve shaft a-22 and the embedded part a-210 can also be fixedly connected, and at this time, the stabilizing column a-200 does not need to be arranged, and when the lifting screw a-2 rotates slowly, the adjusting floating body a-3 is driven to rotate slowly and synchronously.

The utility model discloses an intelligence oxygen-increasing machine is when using, according to current oxygenation or plough water, the different modes of flowing water, adjusts the rotatory impeller rotational speed of intelligence oxygen-increasing machine and the degree of depth that submerges in the water for the oxygen-increasing machine is pointed to according to operating condition, according to the effective conversion efficiency operation of preferred. And in a conventional time period, the aerator is continuously kept to operate in a better state which is most suitable for the current working condition.

The utility model provides a pair of novel intelligence oxygen-increasing machine does not need regularly artifical opening to stop the oxygen-increasing machine. And the intelligent controller 003 is also provided with a wireless module for communication connection with a background or a remote platform and data transmission. The running mode of the aerator can be adjusted and modified on the background or a remote platform, and the running mode is transmitted to the intelligent aerator in a wireless communication mode to be controlled and changed.

Preferably, a collecting sensor can be arranged on the intelligent aerator, and parameters can be obtained from the outside. In this embodiment, the parameters are obtained from the outside and transmitted to the intelligent controller 003 of the aerator through a background or a remote platform, and the intelligent controller 003 is further provided with a memory for storing the parameters.

The utility model provides a pair of novel intelligence oxygen-increasing machine can be according to water operating condition, adjusts rotatory impeller and submerges the water depth, adjusts rotatory impeller's rotational speed as required, can reach the oxygenation operating mode of preferred.

The utility model provides a pair of novel intelligence oxygen-increasing machine can for example need oxygenation or need plough water, flowing water etc. according to the segmental task needs of difference, corresponds and adjusts oxygen-increasing machine operational parameter, can accomplish to select mode as required, oxygenation or plough water more scientifically.

The utility model provides a pair of novel intelligence oxygen-increasing machine need not open regularly on time and stop the operation like traditional oxygen-increasing machine is used, perhaps open according to experience and stop the operation irregularly, the utility model provides an oxygen-increasing machine can continuously operate under better operating mode, can alleviate unnecessary power loss, saves the charges of electricity expenditure, delays the oxygen-increasing machine life-span.

The utility model provides a pair of novel intelligence oxygen-increasing machine, from the practical application demand, the technique is realized easily, and the practicality is good, and has certain economic benefits nature, can promote in practical application.

The above description is only for the purpose of illustrating the technical concept and features of the present invention, and the purpose of the present invention is to enable people skilled in the art to understand the contents of the present invention and implement the present invention, but not to limit the protection scope of the present invention. All the equivalent changes and modifications made according to the claims of the present invention shall fall within the scope of the present invention.

Claims (10)

1. A novel intelligent aerator comprises a rotary impeller (001) and a pontoon body (002), is arranged above a water body, and realizes aeration or water ploughing and running by stirring the water body through the rotary impeller (001), and is characterized in that the novel intelligent aerator is provided with a rotary impeller waterless adjusting device (A0);

the rotary impeller flooding adjustment device (A0) comprises:

a drive device (A-1) for outputting power;

the lifting screw (A-2) is lifted under the action of the driving device (A-1);

the adjusting floating body (A-3) synchronously lifts when the lifting screw rod (A-2) lifts;

the driving device (A-1) is connected with the lifting screw rod (A-2), and the lifting screw rod (A-2) is connected with the adjusting floating body (A-3);

the driving device (A-1) is further connected with an intelligent controller (003), and the lifting screw (A-2) is driven to lift according to the instruction of the intelligent controller (003) to drive the adjusting floating body (A-3) to lift synchronously, so that the depth of the rotating impeller (001) immersed in the water body is adjusted.

2. The novel intelligent aerator according to claim 1, wherein the rotating impeller waterlogging adjusting device (A0) is arranged in the middle area of the novel intelligent aerator.

3. The novel intelligent aerator as claimed in claim 1, wherein the driving device (A-1) comprises a second motor (A-10) and a driving wheel (A-11), and the second motor (A-10) is connected with the driving wheel (A-11).

4. The novel intelligent aerator as claimed in claim 1, wherein the lifting screw (A-2) comprises a driven screw (A-21) and a rotating sleeve shaft (A-22), and the driven screw (A-21) is connected with the rotating sleeve shaft (A-22).

5. The novel intelligent aerator as claimed in claim 4, wherein the lifting screw (A-2) and the rotating sleeve shaft (A-22) can be fixedly connected or slidably connected through a connecting piece.

6. The novel intelligent aerator according to claim 1, further comprising a driving motor (B001), wherein the driving motor (B001) is a permanent magnet variable frequency motor.

7. The novel intelligent aerator according to claim 1, wherein the rotating impeller waterlogging adjusting device (A0) is provided with a plurality of stabilizing columns (A-200), and the stabilizing columns (A-200) are connected with stabilizing column connection parts (A-300) on the adjusting floating bodies (A-3).

8. The novel intelligent aerator as claimed in claim 4, wherein the lower end of the driven screw (A-21) is provided with an embedded part (A-210), and the rotating sleeve shaft (A-22) is sleeved on the driven screw (A-21) through the embedded part (A-210).

9. The novel intelligent aerator as claimed in claim 8, wherein the embedded part (A-210) is further provided with an annular groove (A-2101) for nested arrangement of the rotating part (A-220).

10. The new intelligent aerator as claimed in claim 9, wherein said rotating member (a-220) comprises a cylindrical shaft, said cylindrical shaft being slidable around said annular groove (a-2101).

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