CN115299400A

CN115299400A - Intelligent aerator with self-checking function and online control

Info

Publication number: CN115299400A
Application number: CN202210981165.6A
Authority: CN
Inventors: 梁一剑; 牛向中
Original assignee: Zhejiang Fudi Machinery Co ltd; Zhejiang Zhidi Network Technology Co ltd
Current assignee: Zhejiang Fudi Machinery Co ltd; Zhejiang Zhidi Network Technology Co ltd
Priority date: 2022-08-16
Filing date: 2022-08-16
Publication date: 2022-11-08

Abstract

The invention discloses an intelligent aerator with a self-checking function and online control, which belongs to the technical field of intelligent fishery and solves the problem of how to find faults more quickly so as to facilitate the use of users and prolong the service life, and the technical scheme is characterized by comprising an intelligent device and a mechanical device, wherein the mechanical device comprises a floating platform, a transmission assembly, an impeller and a motor; the intelligent device has the advantages that the intelligent level is improved, the automatic requirement is met, the intelligent device can automatically run after the power is switched on, namely the intelligent device can monitor the working voltage and the current of the motor in real time, and the communication module is utilized to improve the external controllable capacity for facilitating data transmission.

Description

Intelligent aerator with self-checking function and online control

Technical Field

The invention relates to the field of intelligent fishery, in particular to an intelligent aerator with a self-checking function and online control.

Background

The aerator belongs to traditional aeration equipment for fishery culture, operates by connecting three-phase AC380V or single-phase AC220 voltage, needs a user to manually switch on and off the aerator on site, and is not obvious in energy conservation and efficiency improvement. And the power grid is powered off, so that the user cannot be informed in time of the loss of fish death caused by oxygen deficiency in the fishpond and the like.

The aerator runs in water for a long time, and because of the reasons of nonstandard wiring, unqualified electric wire, loose terminal, water inflow and the like, the aerator is lack of phase and burns out, leaks electricity and turns over the pond occasionally.

At present, on the market there is not similar oxygen-increasing machine, just controls oxygen-increasing machine through the controller, and on the one hand the controller is towards masses' oxygen-increasing machine, and the suitability is poor, and on the other hand there is the electric wire of tens of meters or even hundred meters between controller to the oxygen-increasing machine, has increased the trouble risk, needs the adaptation electronic box, the heat dissipation is poor, because wiring and heat dissipation problem arouse the spontaneous combustion, the condition such as electric shock occasionally takes place.

Based on the situation, the technical problems to be solved are as follows: how to find the fault more quickly so as to facilitate the use of users and prolong the service life.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, at least solves the technical problems in the related technology to a certain extent, and provides an intelligent aerator with a self-checking function and on-line control, which has the advantages of self-checking of equipment faults, convenience in control and improvement of the use reliability.

In order to solve the technical problem, the technical scheme of the invention is as follows: an intelligent aerator with a self-checking function and online control comprises an intelligent device and a mechanical device, wherein the mechanical device comprises a floating platform, a transmission assembly, an impeller and a motor, the motor is fixed on the floating platform and drives the transmission assembly to work, the transmission assembly is connected with the impeller and drives the impeller to rotate, the intelligent device can be arranged at the top of the motor and/or on the side surface of the motor as a controller, the intelligent device is connected with the motor and is used for controlling the motor to work, and the intelligent device comprises a wire inlet harness, a voltage detection module, a power supply module, a current detection module, an MCU (microprogrammed control unit) processor, a switch control unit and a communication module;

the wire harness is connected with the voltage detection module, the power supply module and the current detection module and is used for providing electric power;

the current detection module is also connected with the MCU processor and the switch control unit, provides a current detection signal for the MCU processor and provides power for the switch control unit;

the voltage detection module is also connected with the MCU processor and provides a voltage detection signal for the MCU processor;

the power supply module is also connected with the MCU processor and provides power for the MCU processor;

the MCU processor is also connected with a switch control unit and provides a driving control signal for the switch control unit, and the switch control unit is connected with the motor to control the start, stop and speed change of the motor;

the communication module is connected with the MCU processor for bidirectional communication, and the communication module is connected with the built-in antenna.

Preferably, the communication module is further in communication connection with a cloud server, the cloud server is in communication connection with an enterprise server, and the enterprise server is further in communication connection with a mobile phone user side.

Preferably, the mobile phone user side displays current state information, current data, voltage data, alarm information and timing information.

Preferably, the mobile phone user side sends an on-off command to the intelligent device.

Preferably, the intelligent device automatically and regularly opens and closes the aerator.

Preferably, the MCU processor monitors the running state in real time, the running state comprises sampling voltage and current data, the motor is controlled to start and stop according to the state, user setting information, operation information and sampling information, abnormity is judged, the alarm data is sent to the cloud server through the communication module and then pushed to the enterprise server, and then the alarm data is displayed on the mobile phone user terminal.

Preferably, the sampled data comprises working voltage and current, the monitoring abnormal signal comprises monitoring of phase loss, overvoltage, undervoltage, overcurrent, undercurrent and shutdown, the power is automatically cut off and alarm information is sent after the monitoring abnormal signal is triggered, and the alarm information is sent to the mobile phone user side.

Preferably, the floating platform is provided with a plurality of symmetrically arranged structures, and the impeller is provided with a plurality of symmetrically arranged structures.

Preferably, the impeller is fixedly installed on the rotating shaft, 6 blades which are uniform in the circumferential direction are arranged on the impeller, and each impeller is installed in a staggered mode and rotates by 20 degrees.

Compared with the background technology, the technical effects of the invention are mainly reflected in the following aspects:

1. through the combination of intelligent device and mechanical device, improve intelligent level, reach automatic requirement, after the switch on, just can let intelligent device automatic operation, thereby operating voltage, the electric current of intelligent device meeting real-time supervision motor promptly, thereby can also control the work of motor control impeller, then control oxygenation in fishery. In order to facilitate data transmission, the communication module is used for improving the external controllability;

2. by means of the connection of the communication module and the cloud server and the internet technology, data and information can be directly fed back to the mobile phone, and a user can conveniently and visually and quickly obtain the data;

3. according to the working environment, after a user acquires data on the mobile phone, an operation command can be issued, so that the motor can be remotely controlled to work;

4. data transmission is quick and comprehensive, user operation is simple and labor-saving, dislocation installation can be carried out on the impeller structure layout in work, and oxygen increasing efficiency is improved.

Drawings

FIG. 1 is a block schematic diagram of a circuit module in an embodiment;

FIG. 2 is a schematic structural diagram of a mechanical device in the embodiment;

FIG. 3 is a side view of the impeller in the embodiment;

FIG. 4 is a side view of the impeller in the embodiment in a dislocation assembly;

fig. 5 is a communication path diagram.

Reference numerals are as follows: 1. an intelligent device; 11. feeding a wire harness; 12. a voltage detection module; 13. a power supply module; 14. a current detection module; 15. an MCU processor; 16. a switch control unit; 17. a communication module; 2. a mechanical device; 21. a floating platform; 22. a transmission assembly; 23. an impeller; 24. a motor; 31. a cloud server; 32. an enterprise server; 33. a mobile phone user side; 4. a rotating shaft; 5. a blade.

Detailed Description

The following detailed description of the present invention is provided to facilitate the understanding and appreciation of the technical aspects of the present invention in connection with the accompanying drawings.

Example 1:

an intelligent aerator with a self-checking function and on-line control is shown in figure 1 and comprises an intelligent device 1 and a mechanical device 2. In fig. 2 it can be seen that the mechanical device 2 comprises a floating platform 21, a transmission assembly 22, an impeller 23, and a motor 24. The motor 24 is fixed on the floating platform 21 and drives the transmission assembly 22 to work, and the transmission assembly 22 is connected with the impeller 23 and drives the impeller 23 to rotate. The transmission assembly 22 may be embodied as a transmission or gearbox. In the scheme, the driving output of the motor 24 directly drives the transmission assembly 22, and the selection of the transmission assembly 22 can adaptively adjust the position and the torque of the output shaft according to actual conditions, so that the rotating shaft 4 in fig. 2 can be rotated, the impeller 23 is driven to rotate, and oxygen enrichment is realized.

Further, the intelligent device 1 is connected with a motor 24 and used for controlling the motor 24 to work, and the intelligent device 1 comprises a wire inlet bundle 11, a voltage detection module 12, a power module 13, a current detection module 14, an MCU (microprogrammed control Unit) processor 15, a switch control unit 16 and a communication module 17. Referring to fig. 1, the connection manner and the signal transfer manner are as follows:

the inlet harness 11 is connected to the voltage detection module 12, the power supply module 13, and the current detection module 14 for supplying electric power. The current detection module 14 is further connected to the MCU processor 15 and the switch control unit 16, and provides a current detection signal to the MCU processor and power to the switch control unit 16. The voltage detection module 12 is further connected to the MCU processor 15, and provides a voltage detection signal to the MCU processor 15. The power module 13 is also connected to the MCU processor 15 to provide power to the MCU processor 15. The MCU processor 15 is further connected to a switch control unit 16 for providing driving control signals to the switch control unit 16, and the switch control unit 16 is connected to the motor 24 for controlling the motor 24 to start, stop and shift. The communication module 17 is connected to the MCU processor 15 for bi-directional communication. The antenna connected to the communication module 17 is a built-in antenna.

The incoming line bundle 11 adopts a three-phase four-wire system, three-phase or single-phase input, and the power module 13 comprises a module circuit for converting AC380/AC220V into DC 12V. A voltage for the switch controller unit signal is also provided. And the voltage for the DC 12V-to-DC 4V communication module is also provided. And a power supply for a DC 12V-to-3.3V circuit MCU and other circuits is also provided. With respect to the voltage detection module 12 or the current detection module 14, a sampling circuit is utilized, which includes three-phase input voltage sampling and three-phase current sampling. The MCU monitors the running state in real time during the running of the equipment, samples voltage and current, and timely switches on and off the aerator according to the state, user setting information, operation information and sampling information.

In fig. 1, the thick line representation in the smart device 1 represents a weak electrical signal and a DC power supply. The thin lines represent strong electrical signals.

Example 2:

based on embodiment 1, referring to fig. 5, a communication mode is further added, a communication line is established, the communication module 17 is further in communication connection with the cloud server 31, the cloud server 31 is in communication connection with the enterprise server 32, and the enterprise server 32 is further in communication connection with the mobile phone client 33. The mobile phone user terminal 33 displays current status information, current data, voltage data, alarm information, and timing information. The mobile phone user side 33 sends an on/off command to the smart device 1. The MCU processor 15 monitors the running state in real time, and comprises sampling voltage and current data, the motor 24 is controlled to start and stop according to the state, user setting information, operation information and sampling information, abnormality is judged, alarm data are sent to the cloud server 31 through the communication module 17 and then are pushed to the enterprise server 32, and then the alarm data are displayed on the mobile phone user side 33. The sampled data includes working voltage and current, the monitoring abnormal signal includes monitoring of phase loss, overvoltage, undervoltage, overcurrent, undercurrent and shutdown, when the monitoring abnormal signal is triggered, the power is automatically cut off and alarm information is sent, and the alarm information is sent to the mobile phone user side 33.

Therefore, when an abnormality occurs, the alarm data is sent to the Aliyun through the communication module 17, and then is pushed to the enterprise server 32 and is displayed in the small mobile phone program; the user can control the opening and closing of the aerator through the mobile phone small program switch, and the small program end displays the current state, current and voltage data, alarm information and timing information of the aerator. The cloud server 31 may be an ali cloud server 31.

Example 3:

referring to fig. 3 and 4, the floating platform 21 is provided with a plurality of symmetrically arranged structures, and the impeller 23 is provided with a plurality of symmetrically arranged structures. Impeller 23 is fixedly installed on pivot 4, sets up the even 6 blades 5 of circumference on impeller 23, and every impeller 23 misplaces rotatory 20 degrees installations.

The intelligent aerator is redesigned and modified from the traditional aerator and is added with intelligent functions. The intelligent aerator can monitor the running state of the aerator, sample working voltage and current, monitor abnormal conditions such as open phase, overvoltage, undervoltage, overcurrent, undercurrent, shutdown, loss connection and the like, automatically cut off the power supply and alarm, and send alarm information to a mobile phone end of a user. In addition, the user can remotely switch on and off the aerator by the mobile phone, set a timing switch function and check the running current and voltage in real time. In addition, the integrated design greatly improves the heat dissipation and safety compared with the traditional oxygen increasing machine addition controller. The intelligent aerator brings great improvement and convenience to energy conservation, equipment protection, manpower input, exception handling and the like in the culture process, and the market feedback is good.

In conclusion, the automatic control system has the advantages of self-detection (sampling the voltage and current of the running state of the automatic aerator, judging whether the automatic aerator works, whether the working state is normal or not and the working temperature of the controller), intelligent control (automatic power-off protection is carried out when the working voltage and current are abnormal, namely open-phase automatic stop, overvoltage alarm, undervoltage alarm, overcurrent stop, current overlow alarm, power-off alarm and disconnection alarm) and control (remote switch and timing switch). The controller in this scheme is waterproof dustproof of sealing.

The above are only typical examples of the present invention, and besides, the present invention may have other embodiments, and all the technical solutions formed by equivalent substitutions or equivalent changes are within the scope of the present invention as claimed.

Claims

1. The utility model provides an intelligence oxygen-increasing machine with self-checking function and on-line control, includes intelligent device (1) and mechanical device (2), characterized by: the intelligent device (1) as a controller can be arranged on the top of the motor (24) and/or on the side of the motor (24),

the intelligent device (1) is connected with the motor (24) and used for controlling the motor (24) to work, and the intelligent device (1) comprises a wire inlet harness (11), a voltage detection module (12), a power supply module (13), a current detection module (14), an MCU (microprogrammed control unit) processor (15), a switch control unit (16) and a communication module (17);

the wire inlet harness (11) is connected with the voltage detection module (12), the power supply module (13) and the current detection module (14) and is used for providing power;

the current detection module (14) is also connected with the MCU processor (15) and the switch control unit (16), provides a current detection signal for the MCU processor and provides power for the switch control unit (16);

the voltage detection module (12) is also connected with the MCU processor (15) and provides a voltage detection signal for the MCU processor (15);

the power supply module (13) is also connected with the MCU processor (15) and provides power for the MCU processor (15);

the MCU processor (15) is also connected with a switch control unit (16) and used for providing a driving control signal for the switch control unit (16), and the switch control unit (16) is connected with a motor (24) to control the start, stop and speed change of the motor (24);

the communication module (17) is connected with the MCU processor (15) for bidirectional communication, and the communication module (17) is connected with a built-in antenna.

2. The intelligent automatic aerator with the self-checking function and the online control function according to claim 1, is characterized in that: the communication module (17) is further in communication connection with the cloud server (31), the cloud server (31) is in communication connection with the enterprise server (32), and the enterprise server (32) is further in communication connection with the mobile phone user side (33).

3. The intelligent aerator with self-checking function and on-line control as claimed in claim 2, wherein: and the mobile phone user side (33) displays current state information, current data, voltage data, alarm information and timing information.

4. The intelligent aerator with self-checking function and on-line control as claimed in claim 3, wherein: and the mobile phone user side (33) sends an opening and closing command to the intelligent device (1).

5. The intelligent aerator with self-checking function and on-line control as claimed in claim 4, wherein: MCU treater (15) real time monitoring running state including sampling voltage, current data, controls motor (24) to open and stop according to state, user setting information, operation information and sampling information, judges to take place unusually, and data of reporting an emergency and asking for help or increased vigilance are sent cloud server (31) through communication module (17) on, push enterprise server (32) again, show on cell-phone user end (33) then.

6. The intelligent automatic aerator with self-checking function and online control as claimed in claim 5, wherein: the sampled data comprises working voltage and current, the monitoring abnormal signals comprise monitoring of phase loss, overvoltage, undervoltage, overcurrent, undercurrent, shutdown and loss of connection, the power is automatically cut off and alarm information is sent after the monitoring abnormal signals are triggered, and the alarm information is sent to a mobile phone user side (33).

7. The intelligent aerator with self-checking function and online control according to claim 1, characterized in that: the mechanical device (2) comprises a floating platform (21), a transmission assembly (22), an impeller (23) and a motor (24), wherein the motor (24) is fixed on the floating platform (21) and drives the transmission assembly (22) to work, and the transmission assembly (22) is connected with the impeller (23) and drives the impeller (23) to rotate.

8. The intelligent aerator with self-checking function and online control as claimed in claim 7, wherein: the floating platform (21) is provided with a plurality of symmetrical arrangement structures, and the impeller (23) is provided with a plurality of symmetrical arrangement structures.

9. The intelligent automatic aerator with self-checking function and online control according to claim 8, wherein: impeller (23) fixed mounting sets up a plurality of blades (5) of circumference equipartition on impeller (23) on pivot (4).