CN114087084A - APP-based fuel generator start-stop control method - Google Patents

Abstract

The invention discloses a startup and shutdown control method of a fuel generator based on APP, which integrates an APP control module on the fuel generator, realizes remote data interaction through the connection of the APP control module and an APP mobile control terminal through a wireless network, thereby remotely and wirelessly sending a generator control command to the APP control module on the generator through the APP mobile control terminal, the APP control module identifies and judges the generator control command and detects the current working state of the generator in real time, and controls the startup and shutdown of the fuel generator by combining the judged command type and the detected current working state of the generator, compared with the existing ATS control box control mode, the method can more conveniently realize the remote startup and shutdown control of the fuel generator, and does not need to configure an ATS control box with larger volume when the generator leaves the factory, effectively saving material cost and transportation cost.

Description

APP-based fuel generator start-stop control method

Technical Field

The invention relates to the technical field of fuel generator control, in particular to a fuel generator start-stop control method based on APP.

Background

Fuel generators require remote control for start-up and shut-down in certain scenarios. At present, the mainstream mode is that the fuel generator is externally connected with an ATS (Automatic transfer switch) control box through a cable. The ATS control box is respectively connected with the power supply grid and the generator, and the ATS control box automatically controls the start and stop of the generator according to the detected power supply state of the power supply grid, namely when the power failure of the power supply grid is detected, the ATS control box controls the generator to automatically start to supply power to the load, and the power supply source of the load is switched to the generator from the power supply grid; when detecting that the power supply grid is electrified, the ATS control box controls the generator to automatically stop, and the power supply of the load is switched to the power supply grid by the generator. Therefore, the ATS control box can realize automatic starting and stopping of the generator to a certain extent, achieves unattended operation and can immediately stop when power generation is not needed, and saves energy and reduces emission. However, the ATS control box needs to be packaged and transported independently when being large in size and leaving a factory, the transportation cost is occupied, the ATS control box needs to be fixed in one place during later use, operation is inconvenient, and transfer is inconvenient.

Therefore, how to more conveniently realize the remote start-stop control of the fuel generator is a problem to be solved urgently at present.

Disclosure of Invention

The invention aims to at least solve one of the technical problems in the prior art, and particularly provides an APP-based fuel generator start-stop control method which can more conveniently realize remote start-stop control of a fuel generator compared with the existing ATS control box control mode.

In order to achieve the above purpose, the invention provides an APP-based fuel generator start-stop control method, wherein an APP control module for controlling the working state of a fuel generator is integrated on the fuel generator, the APP control module is connected with an APP mobile control terminal through a wireless network, the APP mobile control terminal is provided with a generator control APP for performing data interaction with the APP control module, and the method comprises the following steps:

s1, the APP mobile control terminal sends a generator control instruction to the APP control module, wherein the generator control instruction is used for instructing the APP control module to control the starting or stopping of the fuel generator;

s2, the APP control module judges the type of the generator control instruction, wherein the type of the generator control instruction comprises a starting instruction and a stopping instruction, when the type of the generator control instruction is the starting instruction, the step S3 is executed, and when the type of the generator control instruction is the stopping instruction, the step S7 is executed;

s3, the APP control module detects whether an ignition pulse signal exists in an ignition coil of the fuel generator, if so, the current fuel generator is in a started state, the APP control module enters a standby state, and if not, the step S4 is executed;

s4, supplying power to a throttle control module of the fuel generator by the APP control module to control an air inlet switch of a carburetor of the fuel generator to be opened and closed, and supplying power to a starting relay of the fuel generator after a preset time length to control a starting motor of the fuel generator to be started;

s5, the APP control module detects whether a continuous ignition pulse signal exists in an ignition coil of the fuel generator, if so, the fuel generator is judged to be started successfully, the APP control module enters a standby state, if not, the fuel generator is judged to be started unsuccessfully, and steps S4-S5 are executed in a circulating mode;

s6, if the fuel generator is still not started successfully after the steps S4-S5 are executed circularly twice, the APP control module enters a standby state and waits for receiving a starting instruction sent by the APP mobile control terminal next time;

s7, the APP control module detects whether an ignition pulse signal exists in an ignition coil of the fuel generator, if so, the step S8 is executed, if not, the current fuel generator is in a stopped state, and the APP control module enters a standby state;

s8, the APP control module supplies power to a flameout relay of the fuel generator and simultaneously supplies power to a carburetor solenoid valve relay of the fuel generator to control flameout and stop of the fuel generator.

Preferably, before the step S1, the method further includes the steps of:

the APP control module detects the current operation state of the fuel generator and sends the detected current operation state data to the APP mobile control terminal, wherein the current operation state data at least comprise the residual fuel quantity of the generator and the storage battery voltage of the generator.

Preferably, the method further comprises the steps of:

the APP mobile control terminal receives the current operation state data;

the APP mobile control terminal receives generator control information input by a user through a human-computer interaction module of the APP mobile control terminal;

the APP mobile control terminal generates the generator control instruction according to the generator control information;

the APP mobile control terminal generates feedback information according to the generator control instruction and the current operation state data;

and the APP mobile control terminal displays the feedback information.

Preferably, the generating, by the APP mobile control terminal, feedback information according to the generator control instruction and the current operation state data includes:

the APP mobile control terminal judges whether the type of the generator control instruction is a starting instruction;

if the current running state data is a starting instruction, the APP mobile control terminal judges whether the residual fuel quantity of the generator and the voltage of a storage battery of the generator in the current running state data meet preset conditions;

and if the preset condition is not met, generating the feedback information based on the generator control instruction and the current operation state data.

Preferably, the method further comprises the steps of:

when the APP control module receives and executes the generator control instruction, the APP control module feeds back execution result data to the APP mobile control terminal.

Preferably, before the APP control module detects the current operating state of the fuel generator and sends the detected current operating state data to the APP mobile control terminal, the method further includes the steps of:

the APP mobile control terminal sends a registration request to the APP control module, wherein the registration request carries identity information of the APP mobile control terminal;

and the APP control module registers the APP mobile control terminal according to the registration request and a preset registration rule to generate control terminal registration information.

Preferably, when the APP mobile control terminal sends the generator control command to the APP control module, the APP mobile control terminal simultaneously sends identity information of the APP mobile control terminal to the APP control module, and after the step S1 and before the step S2, the method further includes the following steps:

and the APP control module judges whether the APP mobile control terminal is a legal terminal according to the control terminal registration information and the identity information of the APP mobile control terminal, and if so, the step S2 is executed.

Preferably, the APP mobile control terminal is a smart phone.

According to the scheme, the APP control module is integrated on the fuel generator, the APP control module is connected with the APP mobile control terminal through a wireless network to realize remote data interaction, so that a generator control command can be remotely and wirelessly sent to the APP control module on the generator through the APP mobile control terminal, the APP control module identifies and judges the generator control command and detects the current working state of the generator in real time, and the start and stop control of the fuel generator is realized by combining the judged command type and the detected current working state of the generator, compared with the existing ATS control box control mode, the remote start and stop control of the fuel generator can be realized more conveniently, and an ATS control box with larger volume is not required to be configured when the generator leaves a factory, effectively saving material cost and transportation cost.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a flowchart of a fuel generator start-stop control method based on APP in a preferred embodiment of the present invention.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

It will be understood by those skilled in the art that, unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

As shown in fig. 1, an embodiment of the present invention provides a fuel generator start-stop control method based on APP, where an APP control module for controlling a working state of a fuel generator is integrated on a controlled fuel generator, and the APP control module is connected to an APP mobile control terminal through a wireless network, in this embodiment, the APP control module is specifically connected to the APP mobile control terminal through a 4G network in a communication manner, and the APP mobile control terminal is installed with a generator control APP for performing data interaction with the APP control module, where the method may include the following steps:

s1, the APP mobile control terminal sends a generator control instruction to the APP control module, wherein the generator control instruction is used for instructing the APP control module to control starting or stopping of the fuel generator;

after a communication link between an APP control module on the fuel generator and an external APP mobile control terminal is established, when starting and stopping of the fuel generator are controlled through the APP mobile control terminal, a generator control instruction used for indicating the APP control module to control starting or stopping of the fuel generator is sent to the APP control module of the fuel generator through the APP mobile control terminal. Specifically, APP mobile control terminal is portable mobile intelligent terminal equipment, for example, intelligent wearing equipment such as notebook computer, panel computer, smart mobile phone and smart bracelet installs on this mobile intelligent terminal equipment generator control APP (Application). In this embodiment, the APP mobile control terminal preferably adopts a smartphone.

S2, the APP control module judges the type of the generator control command, wherein the type of the generator control command comprises a starting command and a stopping command, when the type of the generator control command is the starting command, the step S3 is executed, and when the type of the generator control command is the stopping command, the step S7 is executed;

after the APP control module receives a generator control instruction sent by the APP mobile control terminal, the type of the generator control instruction is judged according to a pre-stored judgment rule, whether the generator control instruction is a starting instruction or a stopping instruction is identified, namely whether the instruction instructs the APP control module to start or stop the generator is judged, and corresponding preset steps are executed according to the judged type.

S3, the APP control module detects whether an ignition coil of the fuel generator has an ignition pulse signal, if so, the current fuel generator is in a started state, the APP control module enters a standby state, and if not, the step S4 is executed;

if the APP control module judges that the generator control instruction is a starting instruction, the APP control module firstly detects whether an ignition coil of the fuel generator has an ignition pulse signal or not so as to judge the current working state of the fuel generator. If the APP control module detects that an ignition pulse signal exists in an ignition coil of the fuel generator, the current fuel generator is in a started state, restarting is not needed, damage to the generator due to repeated starting is avoided, and accordingly the APP control module enters a standby state; if the APP control module detects that an ignition coil of the fuel generator does not have an ignition pulse signal, the current fuel generator is in a shutdown state, and the APP control module needs to execute corresponding steps for starting the fuel generator.

S4, the APP control module supplies power to the air door control module of the fuel generator to control the air inlet switch of the carburetor of the fuel generator to be opened and closed, and supplies power to the starting relay of the fuel generator after a preset time length to control the starting motor of the fuel generator to be started;

when APP control module judges that the fuel generator needs to be started, APP control module supplies power for the air door control module of the fuel generator, so that the air inlet switch of the carburetor of the fuel generator is opened, external air enters the combustion chamber through the air inlet channel, and the starting relay of the fuel generator is supplied power after the air inlet is preset for a long time, so that the starting motor of the fuel generator is started to drive the generator set to start. Specifically, in this embodiment, it is 2S to predetermine for a long time, after APP control module supplies power for fuel generator ' S air door control module promptly, crosses 2S clock again and supplies power for fuel generator ' S starter relay for there is sufficient air in fuel generator ' S the combustion chamber, guarantees that fuel generator can start better.

S5, the APP control module detects whether a continuous ignition pulse signal exists in an ignition coil of the fuel generator, if so, the fuel generator is judged to be started successfully, the APP control module enters a standby state, if not, the fuel generator is judged to be started unsuccessfully, and steps S4-S5 are executed in a circulating mode;

after the APP control module controls relevant devices of the fuel generator to execute the step S4, whether continuous ignition pulse signals exist in an ignition coil of the fuel generator or not is detected in real time, namely whether the fuel generator is started successfully or not is detected. When the APP control module detects that a continuous ignition pulse signal exists in an ignition coil of the fuel generator, the fact that the fuel generator is started successfully is judged, and the APP control module enters a standby state; when the APP control module detects that the ignition coil of the fuel generator does not have the continuous ignition pulse signal, the starting failure of the fuel generator is judged, and at the moment, the APP control module executes the steps S4-S5 twice in a recycling mode.

S6, if the fuel generator still fails to be started after the steps S4-S5 are circularly executed for two times, the APP control module enters a standby state and waits for receiving a starting instruction sent by the APP mobile control terminal for the next time;

in order to avoid damage to the generator caused by frequent starting, if the fuel generator is still not started successfully after the generator starting steps S4-S5 are executed circularly, the APP control module enters a standby state and waits for receiving a starting instruction sent by the APP mobile control terminal next time.

S7, the APP control module detects whether an ignition coil of the fuel generator has an ignition pulse signal, if so, the step S8 is executed, if not, the current fuel generator is in a stopped state, and the APP control module enters a standby state;

in the step S3, if the APP control module determines that the generator control command is a stop command, the APP control module first detects whether an ignition pulse signal exists in an ignition coil of the fuel generator, so as to determine the current working state of the fuel generator. If the APP control module detects that an ignition pulse signal exists in an ignition coil of the fuel generator, the fact that the current fuel generator is in a started state is indicated, and subsequent shutdown operation needs to be executed; if the APP control module detects that an ignition coil of the fuel generator does not have an ignition pulse signal, the current fuel generator is in a stopped state, the controller does not need to execute the stopping operation, and the APP control module enters a standby state.

S8, the APP control module supplies power to a flameout relay of the fuel generator and simultaneously supplies power to a carburetor solenoid valve relay of the fuel generator to control the fuel generator to flameout and stop.

When APP control module judges that fuel generator needs to be controlled to stop, APP control module supplies power for the flameout relay of fuel generator, and simultaneously supplies power for the carburetor solenoid valve relay of fuel generator, so that the fuel generator stops when flameout.

In summary, the present embodiment discloses a method for controlling start and stop of a fuel generator based on APP, which integrates an APP control module on the fuel generator, and implements remote data interaction through the APP control module and an APP mobile control terminal through wireless network connection, so that a generator control command can be remotely and wirelessly sent to the APP control module on the generator through the APP mobile control terminal, the APP control module then identifies and judges the generator control command and detects the current working state of the generator in real time, and controls start and stop of the fuel generator by combining the judged command type and the detected current working state of the generator, compared with the existing ATS control box control mode, the method can more conveniently implement remote start and stop control of the fuel generator, and does not need to configure an ATS control box with a larger volume when the generator leaves the factory, effectively saving material cost and transportation cost.

In order to avoid the failure of starting or stopping the generator due to insufficient fuel allowance or insufficient battery voltage of the fuel generator or other faults of the generator, in one embodiment, before the APP mobile control terminal sends a generator control instruction to the APP control module, the method may further include the following steps:

the APP control module detects the current operation state of the fuel generator and sends the detected current operation state data to the APP mobile control terminal, wherein the current operation state data at least comprise the residual fuel quantity of the generator and the storage battery voltage of the generator. It can be understood that the current operation state data can also comprise other state data besides the residual fuel quantity of the generator and the voltage of the storage battery of the generator, such as whether a starting system or a stopping system of the fuel generator works normally, and whether the communication function and the control function of the APP control module are normal.

After the APP control module detects the current operating state of the fuel generator, in order to enable a holder (typically, a manager or an operator of the fuel generator) of the APP mobile control terminal to know whether the fuel generator has a fault in real time before the APP mobile control terminal remotely controls the fuel generator, in one embodiment, the method further includes the following steps:

the APP mobile control terminal receives current operation state data;

the APP mobile control terminal receives generator control information input by a user through a human-computer interaction module of the APP mobile control terminal;

the APP mobile control terminal generates a generator control instruction according to the generator control information;

the APP mobile control terminal generates feedback information according to the generator control instruction and the current operation state data;

and the APP mobile control terminal displays the feedback information.

Specifically, in one embodiment, the generating, by the APP mobile control terminal, feedback information according to the generator control instruction and the current operation state data includes:

the APP mobile control terminal judges whether the type of the generator control instruction is a starting instruction;

if the current running state data is a starting instruction, the APP mobile control terminal judges whether the residual fuel quantity of the generator and the voltage of a storage battery of the generator in the current running state data meet preset conditions or not;

and if the preset condition is not met, generating feedback information based on the generator control instruction and the current operation state data.

In order to know whether the fuel generator meets the starting condition in advance, the APP mobile control terminal firstly judges whether the type of a generator control instruction generated according to generator control information input by a user is a starting instruction, if so, judges whether the residual fuel quantity of the generator and the voltage of a storage battery of the generator in current running state data sent by the APP control module meet the preset condition, if not, the APP mobile control terminal generates feedback information according to the generator control instruction and the current running state data, and prompts the user that the current fuel generator does not meet the starting condition.

In the process that the APP control module controls the fuel generator to start and stop according to the generator control instruction sent by the APP mobile control terminal, in order to facilitate a user to know the start and stop control result of the fuel generator in time, in one embodiment, the method further comprises the following steps:

after the APP control module receives and executes the generator control instruction, the APP control module feeds back execution result data to the APP mobile control terminal. Specifically, execution result data fed back to the APP mobile control terminal by the APP control module mainly comprises whether the fuel generator is started successfully or not, the starting times and whether the engine is stopped successfully or not.

In order to guarantee that APP mobile control terminal can carry out remote control to the fuel generator who corresponds safely, fast, in an embodiment, detect fuel generator's current running state at APP control module to before sending the current running state data that detect to APP mobile control terminal, still need bind APP mobile control terminal and fuel generator's APP control module, specifically can realize through following step:

the method comprises the steps that an APP mobile control terminal sends a registration request to an APP control module, wherein the registration request carries identity information of the APP mobile control terminal;

and the APP control module registers the APP mobile control terminal according to the registration request and a preset registration rule to generate control terminal registration information.

In order to avoid illegal control of the fuel generator by the non-binding APP mobile control terminal, in one embodiment, when the APP mobile control terminal sends a generator control instruction to the APP control module, the APP mobile control terminal simultaneously sends identity information of the APP mobile control terminal to the APP control module, after step S1 and before step S2, the method further includes the following steps:

the APP control module judges whether the APP mobile control terminal is a legal terminal or not according to the control terminal registration information and the identity information of the APP mobile control terminal, if so, the APP mobile control terminal is indicated to be a legal terminal, the fuel generator can be controlled, and the APP control module executes the type judgment step of the corresponding engine control instruction, namely step S2.

The invention can realize all or part of the processes in the APP-based fuel generator start-stop control method, and can be completed by instructing relevant hardware through a computer program, wherein the computer program can be stored in a computer readable storage medium, and when the computer program is executed by a processor, the steps of the method embodiments can be realized. Wherein the computer program comprises computer program code, which may be in the form of source code, object code, an executable file or some intermediate form, etc. The computer-readable medium may include: any entity or device capable of carrying the computer program code, recording medium, usb disk, removable hard disk, magnetic disk, optical disk, computer Memory, Read-Only Memory (ROM), Random Access Memory (RAM), electrical carrier wave signals, telecommunications signals, software distribution medium, and the like. It should be noted that the computer readable medium may contain content that is subject to appropriate increase or decrease as required by legislation and patent practice in jurisdictions, for example, in some jurisdictions, computer readable media does not include electrical carrier signals and telecommunications signals as is required by legislation and patent practice.

Those skilled in the art will appreciate that while some embodiments herein include some features included in other embodiments, rather than others, combinations of features of different embodiments are meant to be within the scope of the invention and form different embodiments. For example, in the following claims, any of the claimed embodiments may be used in any combination.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (8)

1. The utility model provides a fuel generator opens stops control method, a serial communication port, the last integrated APP control module who is used for controlling fuel generator operating condition of fuel generator that has of fuel generator, APP control module has APP mobile control terminal through wireless network connection, APP mobile control terminal install be used for with APP control module carries out the generator control APP of data interaction, the method includes following step:

s1, the APP mobile control terminal sends a generator control instruction to the APP control module, wherein the generator control instruction is used for instructing the APP control module to control the starting or stopping of the fuel generator;

s2, the APP control module judges the type of the generator control instruction, wherein the type of the generator control instruction comprises a starting instruction and a stopping instruction, when the type of the generator control instruction is the starting instruction, the step S3 is executed, and when the type of the generator control instruction is the stopping instruction, the step S7 is executed;

s3, the APP control module detects whether an ignition pulse signal exists in an ignition coil of the fuel generator, if so, the current fuel generator is in a started state, the APP control module enters a standby state, and if not, the step S4 is executed;

s4, supplying power to a throttle control module of the fuel generator by the APP control module to control an air inlet switch of a carburetor of the fuel generator to be opened and closed, and supplying power to a starting relay of the fuel generator after a preset time length to control a starting motor of the fuel generator to be started;

s5, the APP control module detects whether a continuous ignition pulse signal exists in an ignition coil of the fuel generator, if so, the fuel generator is judged to be started successfully, the APP control module enters a standby state, if not, the fuel generator is judged to be started unsuccessfully, and steps S4-S5 are executed in a circulating mode;

s6, if the fuel generator is still not started successfully after the steps S4-S5 are executed circularly twice, the APP control module enters a standby state and waits for receiving a starting instruction sent by the APP mobile control terminal next time;

s7, the APP control module detects whether an ignition pulse signal exists in an ignition coil of the fuel generator, if so, the step S8 is executed, if not, the current fuel generator is in a stopped state, and the APP control module enters a standby state;

s8, the APP control module supplies power to a flameout relay of the fuel generator and simultaneously supplies power to a carburetor solenoid valve relay of the fuel generator to control flameout and stop of the fuel generator.

2. The APP-based fuel generator start-stop control method as recited in claim 1, wherein before the step S1, the method further comprises the following steps:

the APP control module detects the current operation state of the fuel generator and sends the detected current operation state data to the APP mobile control terminal, wherein the current operation state data at least comprise the residual fuel quantity of the generator and the storage battery voltage of the generator.

3. The APP-based fuel generator start-stop control method as recited in claim 2, further comprising the steps of:

the APP mobile control terminal receives the current operation state data;

the APP mobile control terminal receives generator control information input by a user through a human-computer interaction module of the APP mobile control terminal;

the APP mobile control terminal generates the generator control instruction according to the generator control information;

the APP mobile control terminal generates feedback information according to the generator control instruction and the current operation state data;

and the APP mobile control terminal displays the feedback information.

4. The APP-based fuel generator start-stop control method is characterized in that the APP mobile control terminal generates feedback information according to the generator control instruction and the current operation state data and comprises the following steps:

the APP mobile control terminal judges whether the type of the generator control instruction is a starting instruction;

if the current running state data is a starting instruction, the APP mobile control terminal judges whether the residual fuel quantity of the generator and the voltage of a storage battery of the generator in the current running state data meet preset conditions;

and if the preset condition is not met, generating the feedback information based on the generator control instruction and the current operation state data.

5. The APP-based fuel generator start-stop control method as recited in claim 1, further comprising the steps of:

when the APP control module receives and executes the generator control instruction, the APP control module feeds back execution result data to the APP mobile control terminal.

6. The APP-based fuel generator start-stop control method according to any one of claims 1-5, characterized in that before the APP control module detects the current operation state of the fuel generator and sends the detected current operation state data to the APP mobile control terminal, the method further comprises the following steps:

the APP mobile control terminal sends a registration request to the APP control module, wherein the registration request carries identity information of the APP mobile control terminal;

and the APP control module registers the APP mobile control terminal according to the registration request and a preset registration rule to generate control terminal registration information.

7. The APP-based fuel generator start-stop control method as recited in claim 6, wherein the APP mobile control terminal sends the identity information of the APP mobile control terminal to the APP control module at the same time when sending a generator control command to the APP control module, and after the step S1 and before the step S2, the method further comprises the following steps:

and the APP control module judges whether the APP mobile control terminal is a legal terminal according to the control terminal registration information and the identity information of the APP mobile control terminal, and if so, the step S2 is executed.

8. The APP-based fuel generator start-stop control method is characterized in that the APP mobile control terminal is a smart phone.

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