1. A gas power generation parameter adjustment system based on remote communication is characterized by comprising:

the gas supply module is used for mixing gas and other gases and fully burning the gas;

the generator module: the power generated by burning the mixed gas is used for driving the generator module to generate electricity;

the generator control module is used for monitoring power generation parameters at the generator module;

the communication module is used for transmitting the power generation parameters detected by the power generator control module to the control module;

the control module is used for receiving the power generation parameters, processing the data and transmitting the processing result to the display module so that a remote operator can send an adjusting signal according to the display parameters;

and the gas supply control module is used for receiving the adjusting signal and controlling the gas mixing concentration according to the adjusting signal so as to control the heat generated by the generator.

2. The remote communication-based gas power generation parameter adjusting system as claimed in claim 1, wherein the generator control module is connected with a pressure detector and a temperature detector installed in the generator module, and the pressure and the temperature in the generator module are detected through the pressure detector and the temperature detector.

3. The remote communication-based gas power generation parameter adjusting system as claimed in claim 2, wherein a rotation speed regulator is connected to the generator control module.

4. The gas power generation parameter adjusting system based on remote communication as claimed in claim 1, wherein the gas supply module comprises a mixer and a cooling device, the mixer mixes gas with other gases, the mixer is provided with a gas supply control module, the gas supply control module is an electronic flow control valve, the mixer comprises a mixing barrel, the bottom end face of the mixing barrel is arranged in a penetrating manner, the bottom end of the mixing barrel is provided with a mixing assembly, the mixing assembly comprises a mixing pipe, the upper end and the lower end of the mixing pipe are both provided with a gas guide cylinder in a penetrating manner, the end part of the gas guide cylinder of the mixing pipe is provided with a connecting flange ring, the connecting flange ring at the bottom end of the mixing pipe is communicated with the gas inlet end of the generator module, the outer circumference of the mixing pipe is provided with the cooling device, the bottom end of the mixing pipe is provided with a flange ring, and the flange ring passing through the mixing pipe is connected with the connecting flange ring on the gas guide cylinder at, the even vertical grafting that runs through in top of compounding section of thick bamboo has the air guide subassembly, and the air guide subassembly includes the air guide cylinder, a plurality of bleeder vents have evenly been seted up to the bottom that inserts the compounding section of thick bamboo on the outer circumference of air guide cylinder, electronic flow control valve is installed at the outer circumference top of air guide cylinder, and electronic flow control valve passes through the wire and is connected with air feed control module group, be provided with cooling arrangement on the blender for the cooling mist, security when guaranteeing to carry.

5. The gas power generation parameter adjusting system based on remote communication as claimed in claim 1, wherein the communication module comprises a controller, a generator control module is connected to an input end of the controller for collecting various signals on the generator set, the controller is further communicated with the generator control module through the communication module, and the controller further realizes data exchange with the gas supply control module through the communication module.

6. The gas power generation parameter adjustment system based on remote communication as claimed in claim 5, wherein the controller is provided with a fixed RS232 communication interface and a settable three-way communication interface, and the settable three-way communication interface CAN be a CAN bus interface, or an RS485 interface, or an RS232 interface.

7. The gas power generation parameter adjustment system based on remote communication as claimed in claim 6, wherein the controller is a comma Intel igentbb controller and the display module is an InteliVision5 display.

8. The remote communication-based gas power generation parameter adjustment system according to claim 1, wherein the control module comprises a signal receiving processor, a database and a display, the signal receiving processor receives the signal parameters transmitted by the generator control module and the gas supply control module, compares the signal parameters with pre-stored parameters in the database, and displays the operation parameters on the display through computer processing.

9. The gas power generation parameter adjusting system based on remote communication as claimed in claim 8, wherein the console is connected with the input end of the signal transmitter through a data line, and the signal transmitter transmits the operation parameters to the generator control module and the gas supply control module to complete adjustment control of the generator module.

Background

The gas is formed by decomposing cellulose and organic matters under the action of anaerobic bacteria in the early stage of stacking ancient plants into coal, and is continuously generated due to physical and chemical actions in the high-temperature and high-pressure environment while forming the coal, and the gas is colorless and tasteless gas, but can smell the fragrance similar to apple sometimes, and is caused by the fact that aromatic hydrocarbon gas and the gas are simultaneously emitted.

However, when the existing gas generator set is used for pumping gas, the control of the generator set is a very critical step, the control of the generator set in the past is monitored manually, and the generator set is started and closed, so that the labor cost is increased, the integral working state cannot be comprehensively monitored, and the stability and the safety are poor during gas supply.

Therefore, a gas power generation parameter adjusting system based on remote communication is needed, the start and stop of the gas generator set can be controlled remotely, a plurality of parameters in power generation are monitored simultaneously, labor cost is reduced, and stability and safety in use are improved.

Disclosure of Invention

The invention aims to provide a gas power generation parameter adjusting system based on remote communication, aiming at solving the problems that the control of a generator set is a very critical step when the existing gas generator set pumps gas, the control of the generator set in the past is monitored manually, and the starting and the closing of a generator module are implemented, so that the labor cost is increased, the integral working state cannot be monitored comprehensively, and the stability and the safety are not good when gas is supplied.

The invention is realized by the following steps: a gas power generation parameter adjustment system based on remote communication comprises:

the gas supply module is used for mixing gas and other gases and fully burning the gas;

the generator module: the power generated by burning the mixed gas is used for driving the generator module to generate electricity;

the generator control module is used for monitoring power generation parameters at the generator module;

the communication module is used for transmitting the power generation parameters detected by the power generator control module to the control module;

the control module is used for receiving the power generation parameters, processing the data and transmitting the processing result to the display module so that a remote operator can send an adjusting signal according to the display parameters;

the gas supply control module is used for receiving the adjusting signal, controlling the gas mixing concentration according to the adjusting signal and further controlling the heat generated by the generator

Further, the generator control module is connected with a pressure detector and a temperature detector which are installed in the generator module, and the pressure and the temperature in the generator module are detected through the pressure detector and the temperature detector.

Further, the generator control module is connected with a rotating speed regulator.

Further, the gas supply module comprises a mixer and cooling equipment, the mixer mixes gas and other gases, the mixer is provided with a gas supply control module which is an electronic flow control valve, the mixer comprises a mixing barrel, the bottom end face of the mixing barrel is arranged in a penetrating manner, the bottom end of the mixing barrel is provided with a mixing component, the mixing component comprises a mixing pipe, the upper end and the lower end of the mixing pipe are provided with gas guide cylinders in a penetrating manner, the end parts of the gas guide cylinders of the mixing pipe are provided with connecting flange rings, the connecting flange rings at the bottom end of the mixing pipe are communicated with the gas inlet end of the generator module, the outer circumference of the mixing pipe is provided with the cooling equipment, the flange rings are arranged at the bottom end of the mixing pipe, the flange rings passing through the mixing pipe are connected with the connecting flange rings on the gas guide cylinders at the bottom end of the mixing barrel through screws, and the gas guide components are uniformly and vertically inserted at the top end of the mixing barrel, the air guide assembly comprises an air guide cylinder, a plurality of air holes are uniformly formed in the bottom of the mixing cylinder inserted into the outer circumference of the air guide cylinder, an electronic flow control valve is installed at the top of the outer circumference of the air guide cylinder and connected with the air supply control module through a wire, and cooling equipment is arranged on the mixer and used for cooling mixed air and ensuring the safety during conveying.

Further, the communication module includes the controller, and the input of controller is connected with generator control module for gather various signals on this generator module, the controller still communicates with generator control module through communication module, the controller still realizes carrying out data exchange with air feed control module through communication module.

Further, the controller is provided with a fixed RS232 communication interface and three settable communication interfaces, where the three settable communication interfaces may be a CAN bus interface, an RS485 interface, or an RS232 interface.

Further, the controller is a comma InteliGenNTBB controller, and the display module is an InteliVision5 display.

Further, the control module comprises a signal receiving processor, a database and a display, the signal receiving processor receives signal parameters transmitted by the generator control module and the air supply control module, the signal parameters are compared with prestored parameters in the database, and then the computer processes the signal parameters to display the operating parameters on the display.

Further, the operation panel passes through the data line with the signal transmitter input and is connected, and signal transmitter accomplishes the regulation control to generator module in transmitting operating parameter to generator control module and air feed control module.

Compared with the prior art, the invention has the beneficial effects that: the invention uses a gas power generation parameter adjusting system based on remote communication, and the gas power generation parameter adjusting system comprises the following components in parts by weight: mixing gas and other gases by using a gas supply module; starting the generator module: starting the gas generator module, and opening a gas mixed gas inlet valve of the gas generator module to enable the mixed gas to enter the gas generator module; monitoring power generation parameters, namely monitoring the power generation parameters at the generator module through a generator control module arranged at the generator module; transmitting power generation parameters detected by the generator control module to the communication module, and then transmitting the power generation parameters to the control module by the communication module; remote control, wherein the control module receives power generation parameters, performs post comparison processing on the power generation parameters, transmits the operation parameters to the display module, and generates an adjusting signal by a remote operator through an operation console; the adjusting signal is transmitted to the air supply control module through the communication module, and the heat generated by the generator is controlled by controlling the mixed concentration of the gas; generator module control signal transmission, the regulation signal will be adjusted during signal transmission to the generator control module through the communication module, through generator control module control generator module work, thereby overcome current gas generator module when taking out the gas, be very crucial one step to the control of generator module, control to the generator module in the past is all monitored through the manual work, implement the start-up and the closing to the generator module, so not only increased the cost of labor, whole operating condition can not be synthesized control simultaneously, the not good problem of stability and security during the air feed simultaneously.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a flowchart of the overall operation of a gas power generation parameter adjusting system based on remote communication;

FIG. 2 is a flow chart of a gas supply module in a gas power generation parameter adjusting system based on remote communication;

FIG. 3 is a flow chart of a generator control module in a gas power generation parameter adjusting system based on remote communication;

FIG. 4 is a flow chart of a communication module in the gas power generation parameter adjusting system based on remote communication;

FIG. 5 is a flow chart of a control module in the gas power generation parameter adjusting system based on remote communication;

FIG. 6 is a schematic diagram showing the overall structure of a mixer in a gas power generation parameter adjusting system based on remote communication;

FIG. 7 is an exploded view of a mixer in the parameter adjusting system for gas power generation based on remote communication;

FIG. 8 is an exploded schematic view of a mixing barrel in a gas power generation parameter adjusting system based on remote communication;

fig. 9 is an exploded view of a mixing assembly in a gas power generation parameter adjusting system based on remote communication.

In the figure: 1. a mixer; 11. a mixing barrel; 12. a flange ring; 13. an air guide assembly; 131. an air guide cylinder; 132. an electronic flow control valve; 133. air holes are formed; 2. a mixing assembly; 21. a mixing barrel; 22. a connecting flange ring; 23. and (5) cooling the equipment.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Referring to fig. 1, 2, 3, 4 and 5, a gas power generation parameter adjusting system based on remote communication includes:

the gas supply module is used for mixing gas and other gases and fully burning the gas;

the generator module: the power generated by burning the mixed gas is used for driving the generator module to generate electricity;

the generator control module is used for monitoring power generation parameters at the generator module;

the communication module is used for transmitting the power generation parameters detected by the power generator control module to the control module;

the control module is used for receiving the power generation parameters, processing the data and transmitting the processing result to the display module so that a remote operator can send an adjusting signal according to the display parameters;

the gas supply control module is used for receiving the adjusting signal, controlling the gas mixing concentration according to the adjusting signal and further controlling the heat generated by the generator

Referring to fig. 3, the generator control module is connected to a pressure detector and a temperature detector installed in the generator module, and the pressure detector and the temperature detector detect the pressure and the temperature in the generator module; the generator control module is connected with a rotating speed regulator.

Referring to fig. 3, the gas supply module includes a mixer and a cooling device, the mixer mixes the gas with other gases, the mixer is provided with a gas supply control module, the gas supply control module is an electronic flow control valve, and the mixer is provided with the cooling device for cooling the mixed gas to ensure the safety during transportation;

referring to fig. 4, fig. 6, fig. 7, fig. 8, and fig. 9, a fixed RS232 communication interface and three settable communication interfaces are provided on the controller, and the three settable communication interfaces may be a CAN bus interface, an RS485 interface, or an RS232 interface; the controller is a Kommy InteliGenNTBB controller, and the display module is an InteliVision5 display; the mixer 1 comprises a mixing barrel 11, the bottom end face of the mixing barrel 11 is provided with a mixing component 2 in a penetrating manner, the mixing component 2 comprises a mixing pipe 21, air guide cylinders are installed at the upper end and the lower end of the mixing pipe 21 in a penetrating manner, a connecting flange ring 22 is installed at the end part of each air guide cylinder of the mixing pipe 21, the connecting flange ring 22 at the bottom end of the mixing pipe 21 is communicated with the air inlet end of a generator module, a cooling device 23 is installed on the outer circumference of the mixing pipe 21, a flange ring 12 is installed at the bottom end of the mixing pipe 21, the flange ring 12 of the mixing pipe 21 is connected with the connecting flange ring 22 on each air guide cylinder at the bottom end of the mixing barrel 11 through screws, the top end of the mixing barrel 11 is uniformly and vertically penetrated and inserted with an air guide component 13 in a penetrating manner, the air guide component 13 comprises the air guide cylinders 131, and the bottom of the mixing barrel 11 is uniformly provided with a plurality of air holes 133, an electronic flow control valve 132 is installed at the top of the outer circumference of the gas cylinder 131, and the electronic flow control valve 132 is connected with the gas supply control module through a lead.

Referring to fig. 5, the control module includes a signal receiving processor, a database and a display, the signal receiving processor receives signal parameters transmitted by the generator control module and the air supply control module, compares the signal parameters with pre-stored parameters in the database, and then displays the operating parameters on the display through computer processing; the operation panel passes through the data line with the signal transmitter input and is connected, and during signal transmitter transmitted operating parameter to generator control module group and air feed control module group, the completion was to the regulation control of generator module group.

The working principle is as follows: mixing gas and other gases by using a gas supply module; starting the generator module: starting the gas generator module, and opening a gas mixed gas inlet valve of the gas generator module to enable the mixed gas to enter the gas generator module; the generator control module arranged at the generator module is used for monitoring the power generation parameters at the generator module; the power generation parameters detected by the generator control module are transmitted to the communication module, and then transmitted to the control module by the communication module; the control module receives the power generation parameters, performs post comparison processing on the power generation parameters, transmits the operation parameters to the display module, and generates an adjusting signal by a remote operator through the operation console; the adjusting signal is transmitted to the air supply control module through the communication module, and the heat generated by the generator is controlled by controlling the mixed concentration of the gas; the adjusting signal is transmitted to the generator control module through the communication module, and the generator control module controls the generator module to work.

The device obtained through the design can basically meet the requirements of remotely controlling the start and stop of the gas generator module, simultaneously monitoring a plurality of parameters in power generation, reducing labor cost and improving the stability and safety in use of the gas power generation parameter adjusting system based on remote communication, but the designer further improves the device based on the purpose of further perfecting the functions of the gas power generation parameter adjusting system.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.