CN107635013B - System and monitoring method for monitoring spraying equipment through mobile phone APP and cloud - Google Patents

Abstract

The invention discloses a system and a monitoring method for monitoring spraying equipment by a mobile phone APP and a cloud, wherein a control module is electrically connected with the intelligent spraying equipment, an environment detection sensing module, a remote control module, an expansion interface and a network module, the remote control module and a remote controller are in wireless connection, the expansion interface and the network module are connected with a cloud server, and the cloud server is also connected with a shared monitoring equipment and an APP mobile terminal. According to the invention, by monitoring the spraying equipment, the effective control of the specific environment around the equipment is realized, the application of cloud and mobile phone APP ends is combined, the rapid centralized and real-time acquisition of on-site operation data can be realized, the method is simple and easy to understand, the operation is simple, the efficiency is higher, meanwhile, the remote operation capability of the system provides real-time monitoring and guaranteeing for alarm information prompt and equipment abnormality feedback processing, so that a user and a manager can timely and clearly know the equipment state, and the targeted maintenance and management of the equipment are facilitated.

Description

System and monitoring method for monitoring spraying equipment through mobile phone APP and cloud

Technical Field

The invention relates to the technical field of intelligent control, in particular to a system and a monitoring method for monitoring spraying equipment by a mobile phone APP and a cloud.

Background

The water-saving spraying technology in the landscaping system is common, and the clean water source is reasonably distributed into the soil in the root area of the crops as uniformly as possible by adopting advanced spraying equipment and methods, so that the soil maintains moisture and nutrition states suitable for the growth of the crops, the growth survival rate of the garden crops is improved, and the water resource is effectively utilized.

Under the condition that traditional spraying equipment does not have cloud and APP, a customer needs to know the using method of the equipment in detail to operate the equipment, the operation is complex, the equipment cannot be maintained and managed in a targeted mode, and the working efficiency is low. Meanwhile, alarm information prompt and equipment abnormality feedback processing cannot be performed rapidly by the system, and large working loopholes and potential safety hazards exist.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, the present invention aims to provide a system and a monitoring method for monitoring spraying equipment by using a mobile phone APP and a cloud, wherein the APP and the cloud provide a good equipment interaction operation interface for the equipment, so that the system is simple and easy to understand, and has a simple operation and a high efficiency. Meanwhile, the remote operation capability of the system provides real-time monitoring and guaranteeing for alarm information prompt and equipment abnormality feedback processing, so that a user and a manager can timely know the state of the equipment, and the equipment can be conveniently maintained and managed in a targeted mode.

In order to achieve the above purpose, the invention provides a system for monitoring spraying equipment by a mobile phone APP and a cloud, which comprises a cloud server, intelligent spraying equipment, a control module, an environment detection sensing module, a remote control module, a remote controller, an expansion interface, a shared monitoring equipment, a network module and an APP mobile terminal, wherein the control module is electrically connected with the intelligent spraying equipment, the environment detection sensing module, the remote control module, the expansion interface and the network module, the remote control module and the remote controller are in wireless connection, the expansion interface and the network module are connected with the cloud server, and the cloud server is also connected with the shared monitoring equipment and the APP mobile terminal.

Further, the intelligent spraying equipment comprises, but is not limited to, a water adding valve, a stirring valve, a liquid medicine dilution pump, a booster pump and a spraying electromagnetic valve, and is connected with the control module through a relay integration module.

Further, the environment detection sensing module includes, but is not limited to, a temperature and humidity sensor, a liquid level sensor, a liquid concentration sensor, a flow sensor, a liquid leakage sensor, a current sensor.

Further, the remote control module includes, but is not limited to, a WIFI module, a 4G/5G module, a Zigbee module and a Bluetooth module.

Further, the network module is connected with the control module through an RS232 or RS485 interface, and the network module is connected with the cloud server through a TCP/IP protocol.

Further, the sharing monitoring device is a PC.

The monitoring method for monitoring the spraying equipment by the mobile phone APP and the cloud comprises a cloud server real-time data monitoring step of the intelligent spraying equipment, a remote operation step of the cloud server on the intelligent spraying equipment, a remote operation step of the APP mobile terminal on the intelligent spraying equipment, a parameter setting step of the APP mobile terminal on the intelligent spraying equipment and an alarm pushing step of the intelligent spraying equipment, wherein:

the cloud end comprises the following steps of:

step 11, the intelligent spraying equipment is actively connected to a cloud server through a TCP/IP protocol;

step 12, the cloud server sends a command for reading the number of the intelligent spraying equipment to the control module through the network module;

step 13, after receiving a command for reading the number of the intelligent spraying equipment, the control module sends the number of the equipment to the cloud server, and the cloud server refreshes the APP and the cloud online state of the corresponding equipment according to the number of the intelligent spraying equipment;

step 14, the cloud server circularly monitors the equipment data refreshing mark bit, reads corresponding requirements according to the data of the refreshing bit, and updates database data;

step 15, refreshing the display page according to the database data;

the cloud side comprises the following remote operation steps of:

step 21, selecting current online intelligent spraying equipment;

step 22, different commands are sent to the intelligent spraying equipment aiming at different operations;

step 23, the intelligent spraying equipment performs corresponding actions aiming at different commands and feeds the actions back to the cloud server;

the APP mobile terminal comprises the following remote operation steps of:

step 31, the APP mobile terminal selects the current online intelligent spraying equipment;

step 32, the APP mobile terminal sends different commands to the cloud server according to different operations, and the cloud server calls a corresponding interface to send corresponding commands to the intelligent spraying equipment;

step 33, the intelligent spraying equipment performs corresponding actions aiming at different commands and feeds back the actions to the cloud server, and the cloud server feeds back the different intelligent spraying equipment to the APP mobile terminal according to the equipment information;

the APP mobile terminal parameter setting step for the intelligent spraying equipment comprises the following steps:

step 41, the APP mobile terminal selects intelligent spraying equipment and jumps to an equipment basic parameter interface;

step 42, the APP mobile terminal sets parameters of all intelligent spraying equipment;

step 43, saving the parameters, and sending the parameters of the intelligent spraying equipment to a cloud server, wherein the cloud server sends the parameters to the intelligent spraying equipment;

the intelligent spraying equipment alarm pushing step comprises the following steps:

step 51, the intelligent spraying equipment generates alarm abnormality;

step 52, correspondingly updating the alarm refreshing bit;

step 53, the cloud server confirms the alarm information according to the alarm refreshing position;

step 54, the cloud server pushes alarm information to mobile phone short messages, APP and mailbox according to the setting of the APP mobile terminal, and prompts a user and an administrator;

step 55, the cloud server generates an alarm record.

Further, the step 14 monitoring the device data refresh flag bit includes, but is not limited to: the device comprises a device spraying state refreshing mark bit, a device leakage alarm state refreshing mark bit, a device medicine shortage alarm state refreshing mark bit, a device system abnormal closing state refreshing mark bit, a device manual spraying time numerical value changing refreshing mark bit, a device spray head number numerical value changing refreshing mark bit, a device single spray head spraying quantity numerical value changing refreshing mark bit, a device stirring time numerical value changing refreshing mark bit, a device spraying frequency numerical value changing refreshing mark bit, a device medicine liquid remaining quantity numerical value changing refreshing mark bit, a device medicine bottle capacity numerical value changing refreshing mark bit, a device medicine liquid dilution proportion numerical value changing refreshing mark bit, a device average flow number value changing refreshing mark bit, a device week spraying enabling bit changing refreshing mark bit, a device spraying period changing refreshing mark bit, a device final spraying time changing refreshing mark bit and a device next spraying time changing refreshing mark bit.

Further, the step 22 sends different commands to the intelligent spraying apparatus for different operations including but not limited to: the cloud transmits a spraying start action command, a spraying stop action command, a next spraying action command skipped by cloud transmission cleaning, a manual and automatic mode switching action command transmitted by cloud, and a spraying period setting command transmitted by cloud.

Further, the step 32 includes, but is not limited to: APP sends spray start action command, APP sends spray stop action command, APP sends skip next spray action command, APP sends clear skip next spray action command, APP sends manual automatic mode switch action command, APP sends spray period set command, APP sends spray scheme set command.

Further, the step 42 includes, but is not limited to: the method comprises the steps of setting a command of manual spraying time of an APP sending device, setting a command of the number of spray heads of the APP sending device, setting a command of spraying quantity of single spray heads sent by the APP, setting a command of stirring time sent by the APP, setting a command of medicine bottle capacity sent by the APP, setting a command of liquid medicine dilution proportion sent by the APP, setting a command of average flow rate of each spray head sent by the APP, and setting a command of average flow rate of each spray head sent by the APP.

Further, the step 51 of generating an alarm for an alarm abnormality by the intelligent spraying apparatus includes, but is not limited to: and (5) alarming by liquid leakage and medicine deficiency.

The beneficial effects of the invention are as follows:

according to the invention, by monitoring the spraying equipment, the effective control of the specific environment around the equipment is realized, the application of cloud and mobile phone APP ends is combined, the rapid centralized and real-time acquisition of on-site operation data can be realized, the on-site monitoring data is obtained, a remote fault diagnosis technology material basis is provided, and good data support is provided for the use habit of clients, the quality stability of the equipment and the working efficiency of maintainers; the maintenance personnel can monitor the working condition of the site without needing to visit a severe site environment by using the remote monitoring system, and the setting and adjustment of parameters, the fault repair and the like are completed, so that the equipment management and maintenance are more convenient and quicker; the remote monitoring system has the advantages that a manager in a different place can obtain remote monitoring data through a network to perform analysis and processing, remote monitoring is achieved, the cloud end collects equipment data, and a data analysis basis is provided for further improving the quality of equipment. The system is simple and easy to understand, simple to operate and high in efficiency, and meanwhile, the remote operation capability of the system provides real-time monitoring and guaranteeing for alarm information prompt and equipment abnormality feedback processing, so that a user and a manager can timely and clearly know the state of the equipment, and the equipment can be conveniently maintained and managed in a targeted mode.

The conception, specific structure, and technical effects of the present invention will be further described with reference to the accompanying drawings to fully understand the objects, features, and effects of the present invention.

Drawings

Fig. 1 is a block diagram of the overall structure of the present invention.

Fig. 2 is a schematic diagram of the monitoring method of the present invention.

Detailed Description

As shown in fig. 1, a system for monitoring spraying equipment by using a mobile phone APP and a cloud terminal comprises a cloud server 1, an intelligent spraying equipment 2, a control module 3, an environment detection sensing module 4, a remote control module 5, a remote controller 6, an expansion interface 7, a shared monitoring equipment 8, a network module 9 and an APP mobile terminal 10, wherein the control module 3 is electrically connected with the intelligent spraying equipment 2, the environment detection sensing module 4, the remote control module 5, the expansion interface 7 and the network module 9, the remote control module 5 and the remote controller 6 are in wireless connection, the expansion interface 7 and the network module 9 are connected with the cloud terminal 1, and the cloud terminal 1 is also connected with the shared monitoring equipment 8 and the APP mobile terminal 10.

The intelligent spraying equipment 2 comprises, but is not limited to, a water adding valve, a stirring valve, a liquid medicine dilution pump, a booster pump and a spraying electromagnetic valve, and the intelligent spraying equipment 2 is connected with the control module 3 through a relay integrated module.

The environment detection sensing module 4 includes, but is not limited to, a temperature and humidity sensor, a liquid level sensor, a liquid concentration sensor, a flow sensor, a liquid leakage sensor, and a current sensor.

The remote control module 5 includes, but is not limited to, a WIFI module, a 4G/5G module, a Zigbee module, and a bluetooth module.

The network module 9 is connected with the control module 3 through an RS232 or RS485 interface, and the network module 9 is connected with the cloud server 1 through a TCP/IP protocol.

The sharing monitoring device 8 is a PC.

The functional principle of each module is as follows:

the control module 3 is used for receiving information such as temperature and humidity, liquid level, liquid concentration, flow, liquid leakage, current and the like of the environment detection sensing module 4, and comparing the information with set parameters according to the received environment parameters; for receiving control information of the remote control module 5; the intelligent spraying device 2 (a water adding valve, a stirring valve, a liquid medicine dilution pump, a booster pump, a spraying electromagnetic valve and the like) is output controlled through a relay integrated module; for handling interaction commands between the network modules 9.

The remote control module 5 user sends information to the control module 3 to start spraying, stop spraying, skip the next spraying, etc.

The network module 9 is configured to convert the RS232 or RS485 signal into TCP/IP protocol network data and perform data interaction with the cloud server 1 of the control module 3.

The cloud server 1 is used for collecting and sorting information of all network modules 9 and APP mobile terminals 10 (Android APP or IOS APP), responding to corresponding actions, recording data into a database, and providing data support for analysis of later-stage data.

As shown in fig. 2, in combination with the above system, the invention provides a monitoring method for monitoring spraying equipment by using a mobile phone APP and a cloud, which comprises a real-time data monitoring step of the cloud server on the intelligent spraying equipment, a remote operation step of the APP mobile terminal on the intelligent spraying equipment, a parameter setting step of the APP mobile terminal on the intelligent spraying equipment, and an alarm pushing step of the intelligent spraying equipment, wherein:

the cloud end comprises the following steps of:

step 11, the intelligent spraying equipment is actively connected to a cloud server through a TCP/IP protocol;

step 12, the cloud server sends a command for reading the number of the intelligent spraying equipment to the control module through the network module;

step 13, after receiving a command for reading the number of the intelligent spraying equipment, the control module sends the number of the equipment to the cloud server, and the cloud server refreshes the APP and the cloud online state of the corresponding equipment according to the number of the intelligent spraying equipment;

step 14, the cloud server circularly monitors the equipment data refreshing mark bit, reads corresponding requirements according to the data of the refreshing bit, and updates database data;

step 15, refreshing the display page according to the database data;

the cloud side comprises the following remote operation steps of:

step 21, selecting current online intelligent spraying equipment;

step 22, different commands are sent to the intelligent spraying equipment aiming at different operations;

step 23, the intelligent spraying equipment performs corresponding actions aiming at different commands and feeds the actions back to the cloud server;

the APP mobile terminal comprises the following remote operation steps of:

step 31, the APP mobile terminal selects the current online intelligent spraying equipment;

step 32, the APP mobile terminal sends different commands to the cloud server according to different operations, and the cloud server calls a corresponding interface to send corresponding commands to the intelligent spraying equipment;

step 33, the intelligent spraying equipment performs corresponding actions aiming at different commands and feeds back the actions to the cloud server, and the cloud server feeds back the different intelligent spraying equipment to the APP mobile terminal according to the equipment information;

the APP mobile terminal parameter setting step for the intelligent spraying equipment comprises the following steps:

step 41, the APP mobile terminal selects intelligent spraying equipment and jumps to an equipment basic parameter interface;

step 42, the APP mobile terminal sets parameters of all intelligent spraying equipment;

step 43, saving the parameters, and sending the parameters of the intelligent spraying equipment to a cloud server, wherein the cloud server sends the parameters to the intelligent spraying equipment;

the intelligent spraying equipment alarm pushing step comprises the following steps:

step 51, the intelligent spraying equipment generates alarm abnormality;

step 52, correspondingly updating the alarm refreshing bit;

step 53, the cloud server confirms the alarm information according to the alarm refreshing position;

step 54, the cloud server pushes alarm information to mobile phone short messages, APP and mailbox according to the setting of the APP mobile terminal, and prompts a user and an administrator;

step 55, the cloud server generates an alarm record.

In this embodiment, the step 14 of monitoring the device data refresh flag bit includes, but is not limited to: the device comprises a device spraying state refreshing mark bit, a device leakage alarm state refreshing mark bit, a device medicine shortage alarm state refreshing mark bit, a device system abnormal closing state refreshing mark bit, a device manual spraying time numerical value changing refreshing mark bit, a device spray head number numerical value changing refreshing mark bit, a device single spray head spraying quantity numerical value changing refreshing mark bit, a device stirring time numerical value changing refreshing mark bit, a device spraying frequency numerical value changing refreshing mark bit, a device medicine liquid remaining quantity numerical value changing refreshing mark bit, a device medicine bottle capacity numerical value changing refreshing mark bit, a device medicine liquid dilution proportion numerical value changing refreshing mark bit, a device average flow number value changing refreshing mark bit, a device week spraying enabling bit changing refreshing mark bit, a device spraying period changing refreshing mark bit, a device final spraying time changing refreshing mark bit and a device next spraying time changing refreshing mark bit.

In this embodiment, the step 22 sends different commands to the intelligent spraying apparatus for different operations, including but not limited to: the cloud transmits a spraying start action command, a spraying stop action command, a next spraying action command skipped by cloud transmission cleaning, a manual and automatic mode switching action command transmitted by cloud, and a spraying period setting command transmitted by cloud.

In this embodiment, the step 32 includes, but is not limited to: APP sends spray start action command, APP sends spray stop action command, APP sends skip next spray action command, APP sends clear skip next spray action command, APP sends manual automatic mode switch action command, APP sends spray period set command, APP sends spray scheme set command.

In this embodiment, the step 42 includes, but is not limited to: the method comprises the steps of setting a command of manual spraying time of an APP sending device, setting a command of the number of spray heads of the APP sending device, setting a command of spraying quantity of single spray heads sent by the APP, setting a command of stirring time sent by the APP, setting a command of medicine bottle capacity sent by the APP, setting a command of liquid medicine dilution proportion sent by the APP, setting a command of average flow rate of each spray head sent by the APP, and setting a command of average flow rate of each spray head sent by the APP.

In this embodiment, the step 51 of generating the alarm for the alarm abnormality by the intelligent spraying apparatus includes, but is not limited to: and (5) alarming by liquid leakage and medicine deficiency.

In summary, the invention realizes effective control of specific environments around the equipment by monitoring the spraying equipment, can realize rapid centralized and real-time acquisition of on-site operation data by combining the application of cloud and mobile phone APP ends, obtains on-site monitoring data, provides a material basis for remote fault diagnosis technology, and provides good data support for the use habit of customers, the quality stability of the equipment and the working efficiency of maintainers; the maintenance personnel can monitor the working condition of the site without needing to visit a severe site environment by using the remote monitoring system, and the setting and adjustment of parameters, the fault repair and the like are completed, so that the equipment management and maintenance are more convenient and quicker; the remote monitoring system has the advantages that a manager in a different place can obtain remote monitoring data through a network to perform analysis and processing, remote monitoring is achieved, the cloud end collects equipment data, and a data analysis basis is provided for further improving the quality of equipment. The system is simple and easy to understand, simple to operate and high in efficiency, and meanwhile, the remote operation capability of the system provides real-time monitoring and guaranteeing for alarm information prompt and equipment abnormality feedback processing, so that a user and a manager can timely and clearly know the state of the equipment, and the equipment can be conveniently maintained and managed in a targeted mode.

The foregoing describes in detail preferred embodiments of the present invention. It should be understood that numerous modifications and variations can be made in accordance with the concepts of the invention by one of ordinary skill in the art without undue burden. Therefore, all technical solutions which can be obtained by logic analysis, reasoning or limited experiments based on the prior art by the person skilled in the art according to the inventive concept shall be within the scope of protection defined by the claims.

Claims (5)

1. The monitoring method for monitoring the spraying equipment by the mobile phone APP and the cloud is characterized by comprising a step of monitoring real-time data of the intelligent spraying equipment by the cloud server, a step of remote operation of the intelligent spraying equipment by the APP mobile terminal, a step of parameter setting of the intelligent spraying equipment by the APP mobile terminal and a step of alarm pushing of the intelligent spraying equipment, wherein:

the cloud end comprises the following steps of:

step 11, the intelligent spraying equipment is actively connected to a cloud server through a TCP/IP protocol;

step 12, the cloud server sends a command for reading the number of the intelligent spraying equipment to the control module through the network module;

step 13, after receiving a command for reading the number of the intelligent spraying equipment, the control module sends the number of the equipment to the cloud server, and the cloud server refreshes the APP and the cloud online state of the corresponding equipment according to the number of the intelligent spraying equipment;

step 14, the cloud server circularly monitors the equipment data refreshing mark bit, reads corresponding requirements according to the data of the refreshing mark bit, and updates database data; the monitoring device data refresh flag bits include, but are not limited to: the method comprises the steps of a device spraying state refreshing mark bit, a device leakage alarm state refreshing mark bit, a device medicine shortage alarm state refreshing mark bit, a device system abnormal closing state refreshing mark bit, a device manual spraying time numerical value changing refreshing mark bit, a device spray head number numerical value changing refreshing mark bit, a device single spray head spraying quantity numerical value changing refreshing mark bit, a device stirring time numerical value changing refreshing mark bit, a device spraying frequency numerical value changing refreshing mark bit, a device medicine liquid remaining quantity numerical value changing refreshing mark bit, a device medicine bottle capacity numerical value changing refreshing mark bit, a device medicine liquid dilution ratio numerical value changing refreshing mark bit, a device average flow number value changing refreshing mark bit, a device week spraying enabling bit changing refreshing mark bit, a device spraying period changing refreshing mark bit, a device final spraying time changing refreshing mark bit and a device next spraying time changing refreshing mark bit;

step 15, refreshing the display page according to the database data;

the cloud side comprises the following remote operation steps of:

step 21, selecting current online intelligent spraying equipment;

step 22, different commands are sent to the intelligent spraying equipment aiming at different operations;

step 23, the intelligent spraying equipment performs corresponding actions aiming at different commands and feeds the actions back to the cloud server;

the APP mobile terminal comprises the following remote operation steps of:

step 31, the APP mobile terminal selects the current online intelligent spraying equipment;

step 32, the APP mobile terminal sends different commands to the cloud server according to different operations, and the cloud server calls a corresponding interface to send corresponding commands to the intelligent spraying equipment;

step 33, the intelligent spraying equipment performs corresponding actions aiming at different commands and feeds back the actions to the cloud server, and the cloud server feeds back information of different intelligent spraying equipment to the APP mobile terminal;

the APP mobile terminal parameter setting step for the intelligent spraying equipment comprises the following steps:

step 41, the APP mobile terminal selects intelligent spraying equipment and jumps to an equipment basic parameter interface;

step 42, the APP mobile terminal sets parameters of all intelligent spraying equipment;

step 43, saving the parameters, and sending the parameters of the intelligent spraying equipment to a cloud server, wherein the cloud server sends the parameters to the intelligent spraying equipment;

the intelligent spraying equipment alarm pushing step comprises the following steps:

step 51, the intelligent spraying equipment generates alarm abnormality;

step 52, correspondingly updating the alarm refreshing mark bit;

step 53, the cloud server confirms the alarm information according to the alarm refreshing mark bit;

step 54, the cloud server pushes alarm information to mobile phone short messages, APP and mailbox according to the setting of the APP mobile terminal, and prompts a user and an administrator;

step 55, the cloud server generates an alarm record.

2.A method of monitoring a spraying device by a mobile APP and cloud as claimed in claim 1, wherein said step 22 of sending different commands to the intelligent spraying device for different operations includes but is not limited to: the cloud transmits a spraying start action command, a spraying stop action command, a next spraying action command skipped by cloud transmission cleaning, a manual and automatic mode switching action command transmitted by cloud, and a spraying period setting command transmitted by cloud.

3. A method of monitoring a spraying device by a mobile APP and cloud as claimed in claim 1, wherein said step 32 includes, but is not limited to: APP sends spray start action command, APP sends spray stop action command, APP sends skip next spray action command, APP sends clear skip next spray action command, APP sends manual automatic mode switch action command, APP sends spray period set command, APP sends spray scheme set command.

4. A method of monitoring a spraying device by a mobile APP and cloud as claimed in claim 1, wherein said step 42 includes, but is not limited to: the method comprises the steps of setting a command of manual spraying time of an APP sending device, setting a command of the number of spray heads of the APP sending device, setting a command of spraying quantity of single spray heads sent by the APP, setting a command of stirring time sent by the APP, setting a command of medicine bottle capacity sent by the APP, setting a command of liquid medicine dilution proportion sent by the APP, setting a command of average flow rate of each spray head sent by the APP, and setting a command of average flow rate of each spray head sent by the APP.

5. The method for monitoring the spraying device by the mobile phone APP and the cloud as claimed in claim 1, wherein the step 51 of generating the alarm of the alarm abnormality by the intelligent spraying device includes, but is not limited to: and (5) alarming by liquid leakage and medicine deficiency.