CN210686256U - Permanent magnet water pump based on Internet of things - Google Patents

Abstract

The utility model belongs to the technical field of the permanent magnet water pump, especially, relate to a permanent magnet water pump based on thing networking, including permanent magnet water pump body, the permanent magnet frequency conversion controller of setting on the permanent magnet water pump body, set up the thing networking module in the permanent magnet frequency conversion controller, with the thing networking platform of thing networking module butt joint, with the server of thing networking platform butt joint, with the remote terminal and the backstage thing of server butt joint allies oneself with management system. The utility model discloses a permanent magnetism variable frequency controller can send the relevant data of permanent magnetism water pump body to the thing networking platform through thing networking module on, the server again with data transfer remote terminal and backstage thing networking management system, can realize carrying out real time monitoring to the data of permanent magnetism water pump body to control the regulation through remote terminal to the permanent magnetism water pump body, effectively promote the permanent magnetism water pump to automatic, information-based direction development.

Description

Permanent magnet water pump based on Internet of things

Technical Field

The utility model belongs to the technical field of the permanent magnet water pump, especially, relate to a permanent magnet water pump based on thing networking.

Background

The permanent magnet water pump is a water pump using a permanent magnet synchronous motor, has high efficiency, low energy consumption, low operation noise, long service life and high reliability, and is an ideal substitute of a common water pump. The control mode of the existing permanent magnet water pump in the market needs real-time attention of workers, needs to be started, adjusted and closed when, and the like, and needs the participation of manpower, and the system does not have the function of automatic starting or closing, so that the manpower cost is high, or the work is blocked due to human negligence, and even the water pump is scrapped.

The internet of things is an important component of a new generation of information technology and also an important development stage of the information era, namely the internet of things is connected with objects, which has two meanings, wherein the core and the foundation of the internet of things are still the internet and are extended and expanded networks on the basis of the internet, and the user side of the internet of things is extended and expanded between any object and any article to exchange and communicate information, namely the objects and the objects are related, and the internet of things is widely applied to the fusion of the networks through communication perception technologies such as intelligent perception, identification technology, pervasive computing and the like.

With the rapid development, popularization and application of the internet of things technology, the automation technology and the informatization technology, the permanent magnet water pump control and supervision are scientifically and effectively combined, and the development of the permanent magnet water pump towards the automation and informatization directions can be effectively promoted.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve prior art's weak point, and provide a but permanent magnetism water pump based on thing networking of real time supervision and remote control.

The utility model aims at solving the problems by the following technical scheme:

the utility model provides a permanent magnetism water pump based on thing networking which characterized in that: the permanent magnet water pump comprises a permanent magnet water pump body, a permanent magnet frequency conversion controller arranged on the permanent magnet water pump body, an Internet of things module arranged in the permanent magnet frequency conversion controller, an Internet of things platform in wireless connection with the Internet of things module, a server in wireless connection with the Internet of things platform, a remote terminal in wireless connection with the server and a background Internet of things management system.

Based on above-mentioned structure, permanent magnetism variable frequency controller can send the relevant data of permanent magnetism water pump body to the thing networking platform through thing networking module on, the server sends data transfer to remote terminal and backstage thing networking management system again, can realize carrying out real time monitoring to the data of permanent magnetism water pump body to control the regulation through remote terminal to the permanent magnetism water pump body, effectively promote the permanent magnetism water pump to automatic, information-based direction development.

Preferably, the permanent magnet frequency conversion controller of the utility model comprises a control bottom plate and a display panel; the control bottom plate comprises a bottom plate microcontroller module, a bottom plate power supply module, an isolation power supply module, a bottom plate serial port communication module, a motor driving module and an ADC data acquisition module; the display panel comprises a panel microcontroller module, a nixie tube, a touch key, a panel power supply module, a panel serial port communication module, an Internet of things module, an antenna module and a pressure sensor module;

the bottom plate microcontroller module is respectively connected with the power supply module, the bottom plate serial port communication module, the motor driving module and the ADC data acquisition module, and the isolation power supply module is connected with the bottom plate power supply module;

the panel microcontroller module is respectively connected with the nixie tube, the touch keys, the panel power supply module, the panel serial port communication module, the Internet of things module and the pressure sensor module, the antenna module is connected with the Internet of things module, the panel serial port communication module is connected with the bottom plate serial port communication module, and the panel power supply module is connected with the isolation power supply module.

Preferably, be equipped with power source module on the control bottom plate, power source module and bottom plate power module connect.

Preferably, be equipped with bee calling organ on the display panel, bee calling organ and panel microcontroller module connect.

Preferably, be equipped with the network indicator lamp on the display panel, the network indicator lamp is connected with panel microcontroller module.

Preferably, the bottom plate microcontroller module model of the utility model is STM32F103C8T 6.

Preferably, the panel microcontroller module model of the present invention is GD32F103C8T 6.

Preferably, the internet of things module is an NB86-G module.

Preferably, remote terminal carries the app of control permanent magnetism water pump.

Compared with the prior art the utility model has the following characteristics and beneficial effect:

the permanent magnet frequency conversion controller can send relevant data of the permanent magnet water pump body to the Internet of things platform through the Internet of things module, the server transmits the data to the remote terminal and the background Internet of things management system, real-time monitoring on the data of the permanent magnet water pump body can be achieved, the permanent magnet water pump body is controlled and adjusted through the remote terminal, and development of the permanent magnet water pump towards the direction of automation and informatization is effectively promoted.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a block diagram of the work flow of the present invention.

Fig. 3 is a block diagram of the permanent magnet frequency conversion controller of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 and 2, the permanent magnet water pump based on the internet of things comprises a permanent magnet water pump body 1, a permanent magnet frequency conversion controller 2 arranged on the permanent magnet water pump body 1, an internet of things module arranged in the permanent magnet frequency conversion controller 2, an internet of things platform in wireless connection with the internet of things module, a server in wireless connection with the internet of things platform, a remote terminal in wireless connection with the server, and a background internet of things management system. Preferably, the remote terminal carries an app for controlling the permanent magnet water pump.

Based on above-mentioned structure, permanent magnetism variable frequency controller can send the relevant data of permanent magnetism water pump body to the thing networking platform through thing networking module on, the server sends data transfer to remote terminal and backstage thing networking management system again, can realize carrying out real time monitoring to the data of permanent magnetism water pump body to control the regulation through remote terminal to the permanent magnetism water pump body, effectively promote the permanent magnetism water pump to automatic, information-based direction development.

Preferably, as shown in fig. 1 and fig. 3, the permanent magnet variable frequency controller includes a control bottom plate and a display panel; the control bottom plate comprises a bottom plate microcontroller module, a bottom plate power supply module, an isolation power supply module, a bottom plate serial port communication module, a motor driving module and an ADC data acquisition module. The display panel comprises a panel microcontroller module, a nixie tube 3, a touch key 4, a panel power module, a panel serial port communication module, an Internet of things module, an antenna module and a pressure sensor module.

The bottom plate microcontroller module is respectively connected with the power supply module, the bottom plate serial port communication module, the motor driving module and the ADC data acquisition module, and the isolation power supply module is connected with the bottom plate power supply module.

The panel microcontroller module is respectively connected with the nixie tube 3, the touch keys 4, the panel power supply module, the panel serial port communication module, the Internet of things module and the pressure sensor module, the antenna module is connected with the Internet of things module, the panel serial port communication module is connected with the bottom plate serial port communication module, and the panel power supply module is connected with the isolation power supply module.

Preferably, the control bottom plate is provided with a power supply interface module, and the power supply interface module is connected with the bottom plate power supply module.

Preferably, a buzzer 5 is arranged on the display panel, and the buzzer 5 is connected with the panel microcontroller module. And a network indicator lamp 6 is arranged on the display panel, and the network indicator lamp 6 is connected with the panel microcontroller module.

Preferably, the backplane microcontroller module is model number STM32F103C8T 6. The panel microcontroller module model is GD32F103C8T 6. The Internet of things module is an NB86-G module.

Preferably, the remote terminal is loaded with an App for controlling the permanent magnet water pump.

When the device works, the device is powered on firstly, 220V alternating current is rectified into 310V direct current after passing through the bottom plate power supply module, the direct current is divided into two paths of power supplies after passing through the transformer, one path of power supply is not isolated and is reduced to proper voltage to supply power to the bottom plate microcontroller module and the motor driving module, the other path of power supply is isolated and mainly supplies power to the display panel, and the bottom plate microcontroller module is in serial port communication with the display panel through the optocoupler, so that the display panel is completely isolated from the control bottom plate power supply.

The display panel can detect whether the internet of things module is accessed when being powered on, if the internet of things module is not accessed, the internet of things module is not initialized, if the internet of things module is detected to be accessed, the internet of things module can be initialized after 1 to 2 seconds, the network indicator lamp continuously flickers during initialization, after the internet of things module is successfully initialized, the network indicator lamp is continuously lightened, the nixie tube continuously displays 4A in 3 seconds, the fact that the internet of things module is successfully initialized is indicated, otherwise, 4F are displayed, the fact that the initialization fails is indicated, and the initialization is conducted again. After successful initialization, data can be sent and received, the sent data can be transmitted to the remote terminal and the background internet of things management system through the internet of things module, the data can be inquired on the App of the remote terminal and the background internet of things management system, and equipment can be controlled through the App of the remote terminal.

The control bottom plate carries out the collection of each data through ADC data acquisition module, for example data such as total voltage, electric current, temperature, when meetting the trouble, bottom plate microcontroller module cuts off motor drive module's work rapidly, avoids bigger loss.

The pressure sensor module is responsible for detecting the water pressure of water pump, and the water pressure data transmission that detects reaches panel microcontroller module, and panel microcontroller module passes through serial ports communication with data transmission for bottom plate microcontroller module, and bottom plate microcontroller module handles the back to the realization is according to the rotational speed of current target water pressure control motor, realizes the constant voltage.

If the data acquired by the ADC data acquisition module and the pressure sensor module has faults, the faults can be displayed on the display panel. Meanwhile, data are fed back to a remote terminal loaded with a control permanent magnet water pump App and a background Internet of things management system through an Internet of things module by a panel microcontroller module to prompt a user, and equipment can be controlled through the App of the remote terminal.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (9)

1. The utility model provides a permanent magnetism water pump based on thing networking which characterized in that: the permanent magnet water pump comprises a permanent magnet water pump body, a permanent magnet frequency conversion controller arranged on the permanent magnet water pump body, an Internet of things module arranged in the permanent magnet frequency conversion controller, an Internet of things platform in butt joint with the Internet of things module, a server in butt joint with the Internet of things platform, a remote terminal in butt joint with the server and a background Internet of things management system.

2. The permanent magnet water pump based on the internet of things as claimed in claim 1, wherein: the permanent magnet variable frequency controller comprises a control bottom plate and a display panel; the control bottom plate comprises a bottom plate microcontroller module, a bottom plate power supply module, an isolation power supply module, a bottom plate serial port communication module, a motor driving module and an ADC data acquisition module; the display panel comprises a panel microcontroller module, a nixie tube, a touch key, a panel power supply module, a panel serial port communication module, an Internet of things module, an antenna module and a pressure sensor module;

the bottom plate microcontroller module is respectively connected with the power supply module, the bottom plate serial port communication module, the motor driving module and the ADC data acquisition module, and the isolation power supply module is connected with the bottom plate power supply module;

the panel microcontroller module is respectively connected with the nixie tube, the touch keys, the panel power supply module, the panel serial port communication module, the Internet of things module and the pressure sensor module, the antenna module is connected with the Internet of things module, the panel serial port communication module is connected with the bottom plate serial port communication module, and the panel power supply module is connected with the isolation power supply module.

3. The permanent magnet water pump based on the internet of things as claimed in claim 2, wherein: and the control bottom plate is provided with a power supply interface module, and the power supply interface module is connected with the bottom plate power supply module.

4. The permanent magnet water pump based on the internet of things as claimed in claim 2, wherein: the display panel is provided with a buzzer, and the buzzer is connected with the panel microcontroller module.

5. The permanent magnet water pump based on the internet of things as claimed in claim 2, wherein: and the display panel is provided with a network indicator light, and the network indicator light is connected with the panel microcontroller module.

6. The permanent magnet water pump based on the internet of things as claimed in claim 2, wherein: the bottom plate microcontroller module is STM32F103C8T 6.

7. The permanent magnet water pump based on the internet of things as claimed in claim 2, wherein: the panel microcontroller module is GD32F103C8T 6.

8. The permanent magnet water pump based on the internet of things as claimed in claim 2, wherein: the Internet of things module is an NB86-G module.

9. The permanent magnet water pump based on the internet of things as claimed in claim 1 or 2, wherein: the remote terminal is loaded with an app for controlling the permanent magnet water pump.

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