CN210959993U - Aquaculture pond water body oxygenation device based on thing networking - Google Patents

Abstract

The utility model provides a breed pond water oxygenation device based on thing networking relates to oxygen making equipment field, this breed pond water oxygenation device based on thing networking, including diaphragm, two flotation pontoons, baffle, photovoltaic board, oxygenation mechanism and clearance mechanism, two flotation pontoon pin joints are at the diaphragm both ends, and the baffle is established at the diaphragm middle part, and the baffle is perpendicular with the diaphragm, and the photovoltaic board is established on the baffle, and oxygenation mechanism establishes in the baffle rear side, and clearance mechanism establishes in the baffle front side, clearance mechanism is used for getting rid of the plant on water including gathering together subassembly and clearance subassembly, gathers together the subassembly and is used for gathering together the plant on water. This breed pond water oxygenation device based on thing networking utilizes the push rod to make a round trip the swing of flexible control plectrum, will float the plant on water and gather in the diaphragm middle part, drive the scraper bowl upset through the motor, drag for the plant and pour into the collecting vat, play and to breeding pond water quality testing, oxygenation in-process, in time clear up and fall showy plant on water.

Description

Aquaculture pond water body oxygenation device based on thing networking

Technical Field

The utility model relates to an oxygen making equipment technical field specifically is a breed pond water body oxygenation device based on thing networking.

Background

With the development of science and technology, the application of the oxygen generator in all aspects is more and more extensive, and the product is gradually used for improving the ecological system of the fishpond. The water body of the fishpond has certain self-purification capacity on ammonia and excrement discharged by fishes and shrimps, and mainly depends on the decomposition of plankton and microorganisms which need a large amount of dissolved oxygen during the decomposition. Therefore, the oxygen generator plays an important role.

An aquaculture oxygen generating device based on the Internet of things is disclosed in a Chinese patent network, and the patent number is 201821945995.9. The device is placed into water, and the solar cell panel is utilized to provide electric power to manual control dissolved oxygen tester, water quality detector, small-size meteorological monitor, GPRS wireless data transmission module work utilize waterproof motor drive axostylus axostyle and oxygenation impeller rotation, and then carry out the oxygenation operation through stirring water, exploding the gas effect.

However, the above-mentioned devices still have some disadvantages, and in summer, a large amount of plants, such as duckweed, algae, etc., sometimes float on the water surface of the culture pond. The oxygen content in the water body is easy to reduce, and the device only has the functions of detection and oxygen increasing. Can not clean a large amount of green plants floating on the water surface of the culture pond. The water quality detection can be only carried out, data are fed back to people and then are processed by the people, and time is wasted.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides a breed pond water body oxygenation device based on thing networking has solved general breed pond water body oxygenation device in the above-mentioned background, only has oxygenation and detection function, can not in time carry out the problem of clearing up a large amount of plants that float on the surface of water.

(II) technical scheme

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: the utility model provides a breed pond water body oxygenation device based on thing networking, includes diaphragm, two flotation pontoons, baffle, photovoltaic board, oxygenation mechanism and clearance mechanism, and two flotation pontoon pin joints are at the diaphragm both ends, and the middle part is established on the diaphragm to the baffle, and the baffle is perpendicular with the diaphragm, and the photovoltaic board is established on the baffle, and oxygenation mechanism establishes at the baffle rear side, and clearance mechanism establishes at the baffle front side, clearance mechanism is used for getting rid of the plant on water including gathering together subassembly and clearance subassembly, gathers together the subassembly and is used for gathering together the plant on water.

Preferably, the cleaning assembly comprises a bucket, a motor and a collecting tank, the bucket is located on the front side of the transverse plate, the upper end of the bucket is hinged to the top of the transverse plate, the lower end of the bucket extends into water, the collecting tank is arranged on the transverse plate, the motor is arranged on the transverse plate, a motor transmission shaft is connected with the upper end of the bucket, and duckweed and green algae are fished up and poured into the collecting tank after the bucket is turned.

Preferably, the gathering assembly comprises two shifting pieces, a push rod and two connecting rods, the push rod is arranged at the bottom of the transverse plate, the movable end of the push rod faces the front side of the transverse plate, the two shifting pieces are arranged on two sides of the push rod respectively, one end of the push rod is hinged to the transverse plate, the other end of the push rod extends to the front side of the transverse plate, the two connecting rods correspond to the two shifting pieces one to one, and the push rod is connected with the shifting pieces through the connecting rods.

Preferably, the oxygenation mechanism comprises a motor, a turbine blade and a spiral piece, the motor is arranged on the transverse plate, the transmission end of the motor is connected with the turbine blade, and the spiral piece is wound on the transmission end of the motor.

Preferably, the diaphragm front side is equipped with the dissolved oxygen apparatus, is equipped with water quality testing appearance on the diaphragm, and water quality testing appearance top is equipped with the wireless data transmission module of GPRS, and the wireless data transmission module of GPRS passes through thing networking wireless communication technology and is connected with the PC end.

(III) advantageous effects

The utility model provides a breed pond water body oxygenation device based on thing networking. The method has the following beneficial effects:

1. this breed pond water oxygenation device based on thing networking utilizes the push rod to make a round trip the swing of flexible control plectrum, will float the plant on water and gather in the diaphragm middle part, drive the scraper bowl upset through the motor, drag for the plant and pour into the collecting vat, play and to breeding pond water quality testing, oxygenation in-process, in time clear up and fall showy plant on water.

Drawings

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

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

FIG. 3 is a perspective view of the present invention with another angle;

fig. 4 is a schematic view of the structural state two of the present invention.

In the figure: the device comprises a transverse plate 1, a floating cylinder 2, a bulge 21, a micro motor 22, a dissolved oxygen tester 3, a partition plate 4, a photovoltaic plate 5, an oxygenation mechanism 6, a motor 61, a turbine blade 62, a spiral piece 63, a bucket 7, a filtering hole 71, a motor 72, a shifting piece 8, a push rod 81, a connecting rod 82, a collecting tank 9, a water quality detector 10 and a controller 11.

Detailed Description

The embodiment of the utility model provides a breed pond water body oxygenation device based on thing networking, as shown in fig. 1-4, including diaphragm 1, two flotation pontoons 2, baffle 4, photovoltaic board 5, oxygenation mechanism 6 and clearance mechanism. Two pontoons 2 are pivoted at two ends of the transverse plate 1, and a plurality of bulges 21 are fixedly arranged on the surfaces of the pontoons. The transverse plate 1 is welded with a micro motor 22, and a transmission shaft of the micro motor 22 is fixedly welded with the buoy 2. The rotation of the micro motor 22 drives the buoy 2 to rotate, and the transverse plate 1 moves left and right on the water surface through the rotation of the buoy 2. The baffle 4 is welded in the middle part on diaphragm 1, and baffle 4 is perpendicular with diaphragm 1. The photovoltaic panel 5 is fixedly arranged on the partition plate 4, and the photovoltaic panel 5 provides power for the whole device to work. Oxygenation mechanism 6 establishes at 4 rear sides of baffle, and clearance mechanism establishes in 4 front sides of baffle, and clearance mechanism is used for getting rid of the plant on water including gathering together subassembly and clearance subassembly, gathers together the subassembly and is used for gathering together the plant on water. The bottom of the photovoltaic panel 5 is fixedly provided with a storage battery for storing electric power.

The cleaning assembly comprises a bucket 7, a motor 72 and a collection tank 9. The bucket 7 is positioned at the front side of the cross plate 1, and the upper end of the bucket 7 is hinged with the top of the cross plate 1. The lower end of the bucket 7 extends into the water. The collecting groove 9 is positioned on the front side of the partition plate 4, and the collecting groove 9 is welded on the transverse plate 1. The motor 72 is fixedly mounted on the cross plate 1. The transmission shaft of the motor 72 is welded with the upper end of the bucket 7. The motor 72 rotates to drive the bucket 7 to turn over, and the plants floating on the water are fished up. After the bucket 7 is turned over, the duckweed and the green algae are fished up and poured into a collecting tank 9. During operation, the bucket 7 stretches into the underwater area, the motor 72 drives the bucket 7 to overturn, the lower end of the bucket 7 floats out of the water surface, plants floating on the water surface are fished out, and the fished plants are poured into the collecting tank 9. The effect of collection is achieved. The bottom of the bucket 7 is provided with a filtering hole 71.

The gathering assembly comprises two plectrums 8, a push rod 81 and two connecting rods 82. The push rod 81 is welded at the bottom of the transverse plate 1. The movable end of the push rod 81 faces the front side of the transverse plate 1. Two shifting pieces 8 are respectively arranged at two sides of the push rod 81, and one end of the push rod 81 is hinged with the transverse plate 1. The other end of the push rod 81 extends to the front of the transverse plate 1. The two connecting rods 82 correspond one-to-one to the two paddles 8. One end of the connecting rod 82 is hinged with the shifting piece 8, and the other end of the connecting rod 82 is hinged with the movable end of the push rod 81. The push rod 81 is connected to the paddle 8 via a connecting rod 82. The push rod 81 is used for driving the two shifting pieces 8 to swing mutually in a telescopic mode, and the gathering effect is achieved. During operation, the push rod 81 extends to drive the connecting rod 82, and the connecting rod 82 drives the shifting piece 8 to rotate, so that the shifting piece 8 is far away from the middle part of the transverse plate 1. When the push rod 81 contracts, the connecting rod 82 drives the shifting piece 8 to approach the middle part of the transverse plate 1, and plants floating on the water surface are gathered together.

This breed pond water oxygenation device based on thing networking utilizes push rod 81 to make a round trip flexible control plectrum 8 swings, will float the plant on water and gather in the diaphragm middle part, drives the upset of scraper bowl 7 through motor 72, drags for the plant and pours into collecting vat 9 into, plays and at quality of water detection, oxygenation in-process to breeding the pond, in time clears up and fall showy plant on water.

The motor, the micro motor and the push rod are all the prior art, so the specific model and the circuit arrangement are the same as the conventional technical means, and the detailed description is not needed.

The oxygenation mechanism 6 comprises a motor 61, turbine blades 62 and a spiral blade 63. The motor 61 is fixedly arranged on the transverse plate 1. The driving end of the motor 61 is fixedly welded with the turbine blade 62, and the spiral piece 63 is wound and welded on the driving end of the motor 61. The rotation of the motor 61 drives the turbine blades 62 and the spiral blades 63 to rotate, so as to carry out oxygenation operation.

The motor 61 is used for driving the turbine blades 62 to rotate, and power is provided for the forward movement of the whole device.

The turbine blades 62 are driven by the motor 61 to rotate, and the floating barrel 2 is driven by the micro motor 22 to rotate, so that the whole device moves left and right in the culture pond in a front-back mode, and water quality of each area of the culture pond can be detected conveniently. The motor is a common torque motor.

The controller 11 is fixedly arranged on the transverse plate 1 and positioned on the back surface of the partition plate 4, a single chip microcomputer, an information receiving and transmitting device and the like are arranged in the controller 11, signals are transmitted to the controller in a remote control mode, and the controller 11 controls the electronic equipment of the whole device to work, which is a conventional technical means.

The dissolved oxygen apparatus 3 is fixedly installed on the front side of the transverse plate 1, the water quality detector 10 is fixedly installed on the top of the transverse plate 1 and on the back of the partition plate 4, the GPRS wireless data transmission module is fixedly installed on the back of the partition plate 4, and the data collection is measured by the GPRS wireless data transmission module.

Dissolved oxygen apparatus 3, water quality testing appearance 10 are connected through thing networking wireless communication technique NBIOT or L ORA, and the wireless data transmission module of GPRS passes through thing networking wireless communication technique, transmits the data of collecting to the PC end.

The GPRS wireless data transmission module is connected with an external device for data viewing, which is the prior art. Therefore, the dissolved oxygen meter 3, the water quality detector 10 and the GPRS wireless data transmission module are conventional technologies, and the specific models, circuit arrangements, internal structures and the like of the devices are conventional technical means and are not described in detail.

All the motor equipment of the whole device are electrically connected through a lead.

The working principle is as follows: when the device is used, the push rod 81 is used for stretching back and forth to drive the shifting sheet 8 to swing back and forth, plants such as duckweed and green algae floating on the water surface are drawn close to the front side of the transverse plate 1, then the motor 72 is used for rotating to drive the bucket 7 to be turned up, and the plants such as duckweed and green algae on the water surface are fished up. While throwing the plants into the collection tank 10 under the effect of inertia.

To sum up, this breed pond water oxygenation device based on thing networking utilizes push rod 81 to make a round trip flexible control plectrum 8 swings, will float the plant on water and gather in the diaphragm middle part, drive the upset of scraper bowl 7 through motor 72, drag for the plant and pour into collecting vat 9, play and in time clear up the plant of floating on water to breed pond water quality testing, oxygenation in-process.

In addition, the turbine blades 62 are driven to rotate by the motor 61, and the floating barrel 2 is driven to rotate by the micro motor 22, so that the whole device moves left and right in the culture pond in a front-back mode, and the water quality of each area of the culture pond can be detected conveniently.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a breed pond water body oxygenation device based on thing networking which characterized in that: including diaphragm (1), two flotation pontoons (2), baffle (4), photovoltaic board (5), oxygenation mechanism (6) and clearance mechanism, two flotation pontoon (2) pin joints are at diaphragm (1) both ends, and middle part on diaphragm (1) is established in baffle (4), and baffle (4) are perpendicular with diaphragm (1), and photovoltaic board (5) are established on baffle (4), and oxygenation mechanism (6) are established in baffle (4) rear side, and clearance mechanism establishes in baffle (4) front side, clearance mechanism is including gathering together subassembly and clearance subassembly, and the clearance subassembly is used for getting rid of the plant on water, gathers together the subassembly and is used for gathering together the plant on water.

2. The aquaculture pond water body oxygenation device based on the Internet of things according to claim 1, characterized in that: the cleaning assembly comprises a bucket (7), a motor (72) and a collecting tank (9), wherein the bucket (7) is located on the front side of the transverse plate (1), the upper end of the bucket (7) is hinged to the top of the transverse plate (1), the lower end of the bucket (7) extends into water, the collecting tank (9) is arranged on the transverse plate (1), the motor (72) is arranged on the transverse plate (1), a transmission shaft of the motor (72) is connected with the upper end of the bucket (7), and duckweed and green algae are fished up and poured into the collecting tank (9) after the bucket (7) is turned over.

3. The aquaculture pond water body oxygenation device based on the Internet of things according to claim 1, characterized in that: gather together the subassembly and include two plectrums (8), push rod (81) and two connecting rods (82), establish in diaphragm (1) bottom push rod (81), push rod (81) expansion end is towards diaphragm (1) front side, and establish respectively in push rod (81) both sides in two plectrums (8), and push rod (81) one end is articulated with diaphragm (1), and push rod (81) other end extends to diaphragm (1) the place ahead, two connecting rods (82) and two plectrums (8) one-to-one, push rod (81) are connected with plectrums (8) through connecting rod (82).

4. The aquaculture pond water body oxygenation device based on the Internet of things according to claim 1, characterized in that: the oxygenation mechanism (6) comprises a motor (61), turbine blades (62) and a spiral piece (63), the motor (61) is arranged on the transverse plate (1), the transmission end of the motor (61) is connected with the turbine blades (62), and the spiral piece (63) is wound on the transmission end of the motor (61).

5. The aquaculture pond water body oxygenation device based on the Internet of things according to claim 1, characterized in that: diaphragm (1) front side is equipped with dissolved oxygen apparatus (3), is equipped with water quality testing appearance (10) on diaphragm (1), and water quality testing appearance (10) top is equipped with the wireless data transmission module of GPRS, and the wireless data transmission module of GPRS passes through thing networking wireless communication technology and is connected with the PC end.

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