Centralized control type digital display barometer terminal system and operation method thereof
[ technical field ] A method for producing a semiconductor device
The invention relates to the technical field of automation control, in particular to a centralized control type barometer terminal system and the technical field of control thereof.
[ background of the invention ]
Along with the continuous popularization of industrial automation concepts, industrial automation management is more and more popular, the use of automation equipment is more and more favored by people, the digital display type barometer is used as one member of the automation equipment and is used in a large amount in a plurality of related fields, but because the control mode is single, one digital display type barometer can only detect and control one working unit, a plurality of working personnel are needed to respectively supervise and take charge of different working units, and a large amount of manpower is consumed for management and monitoring.
And because different work units produce data respectively, need gather and arrange in order the data through the manual work, the work content is complicated, and makes mistakes easily with high working strength.
[ summary of the invention ]
Aiming at the situations and the current situation, the invention especially develops a terminal system (hereinafter referred to as a terminal system) integrating display of a digital barometer, wherein the terminal system can display air pressure values of a plurality of working units and can perform corresponding control operation on the plurality of working units, the terminal system has the greatest advantage that an operator does not need to go to each working unit to check and control the working units, and the like, and the operator can monitor and control a large number of working units in one place such as an office, a central data room and the like by using the operating system.
The invention relates to a centralized control type digital display barometer terminal system, which comprises simplified air pressure collecting heads used by working units, a management center and a communication bus.
The management center comprises a micro control unit MCU, a JATG download, an LCD screen, an RS485 communication interface and a power supply assembly, wherein the power supply assembly supplies electric energy for the micro control unit MCU and the LCD screen, and the micro control unit MCU is in butt joint with the JATG download interface, the LCD screen and the RS485 communication interface at the external output end.
The power supply assembly comprises a micro control unit power supply and a screen power supply, wherein the output end of the control unit power supply is in butt joint with the electric energy input end of the micro control unit MCU, and the output end of the screen power supply is in butt joint with the electric energy input end of the LCD screen.
The simplified air pressure collecting head comprises a plurality of Micro Control Units (MCU), JATG downloading, a pressure sensor, an RS485 communication interface, an LCD screen and a power supply assembly, wherein the power supply assembly supplies electric energy for the Micro Control Units (MCU) and the LCD screen, the Micro Control Units (MCU) are in butt joint with JATG downloading, the LCD screen and the RS485 communication interface at the external output end, and the pressure sensor is in butt joint with the data input end of the Micro Control Units (MCU).
The power supply assembly comprises a micro control unit power supply and a screen power supply, wherein the output end of the control unit power supply is in butt joint with the electric energy input end of the micro control unit MCU, and the output end of the screen power supply is in butt joint with the electric energy input end of the LCD screen.
An operation method of a centralized control type digital display barometer terminal system is characterized by comprising the following steps:
the method comprises the following steps: starting the system, and selecting the number of barometers;
step two: the selection mode comprises three modes which are respectively a self-defining mode, a simple mode and an air pressure meter mode,
the user-defined mode is entered into for the first time, the names of all barometers which are connected or selected by the user to be displayed are displayed, and the user enters the display mode of the selected barometer when selecting the specific barometer name; if the system does not enter the mode for the first time, the system skips the display interface of the corresponding barometer according to the last selection to display;
wherein the simple mode is as follows: displaying names and air pressure values of all air pressure gauges connected or required to be displayed by a user, and jumping to a display interface of the air pressure gauge corresponding to the air pressure gauge to display when a certain air pressure gauge is selected;
the barometer mode is as follows: entering the mode for the first time, selecting a display mode, and displaying all connected or required to be displayed barometers according to the selected display mode after selection; if the user does not enter the mode for the first time, the system directly jumps to a corresponding display interface for displaying according to the last selection of the user;
step three: entering a display interface of a single meter, displaying the name, the unit, the air pressure value, the states of the output channels 1 and 2, the target value, the MOD button and two upper and lower buttons of the barometer;
step four: setting a single barometer, jumping to a setting interface of the barometer by clicking an MOD button or an air pressure value display position of the barometer on the display interface of the single barometer, and setting all parameters of the barometer;
step five: acknowledgment return
In the first step, the number of the selected barometers is input through a keyboard, a factory setting button is further included in the starting interface in the first step, a user can restore the terminal system to factory setting through the button, the user can select whether the connected barometers are restored to factory setting through a pop-up prompt window, and factory setting restoration operation is performed if a click-off determination button is pressed; the stand-alone cancel button cancels the operation.
Wherein the second step is as follows: when a user selects a self-defined mode and enters the self-defined mode, the names of all barometers are displayed, a certain name is clicked to highlight the name of the barometer, colored boxes appear around the name to indicate that the barometer is selected, and the barometer enters a display interface of a single barometer of the barometer after being confirmed by the user;
if the upper button and the lower button are clicked or the target value display position is clicked in the third step, a digital keyboard is popped up, and a user can modify the target value through the digital keyboard; if the user clicks the return button, the user returns to the display interface in one of the easy mode/the custom mode/the barometer mode when the user initially enters.
The single gauge display interface displays the name, unit, air pressure value, state of output channels 1 and 2, target value, MOD button, and two up and down buttons
The following parameters of the barometer are set: the name, unit, color, normally open/normally closed, target value, output mode, output upper limit, output lower limit, etc. of the air pressure meter are set, and then the determination button is clicked to return to the previous display interface.
The centralized control type digital display barometer terminal system comprises a plurality of barometric pressure collecting heads and a management center, wherein collecting head data on all working units are integrated and input to the management center through a communication bus, monitoring, control, storage and kernel peer-to-peer work is completed in the management center, the operation is simple, the use is convenient, the workload and the working strength of operators are greatly reduced, corresponding data can be adjusted and checked in real time, and the working state is stable.
[ description of the drawings ]
FIG. 1 is a block diagram of a centralized control type digital display barometer terminal system according to the invention;
FIG. 2 is a system flow chart of the centralized control type digital display barometer terminal system according to the invention;
[ detailed description ] embodiments
The centralized control type barometer terminal system according to the present invention will be described in further detail with reference to the accompanying drawings and embodiments of the present invention.
Referring to fig. 1 and 2: the terminal system aims at the condition that the existing digital display barometer can only detect and control one working unit and needs to consume larger manpower for summarizing management and operation, I research and develop a centralized control type digital display barometer terminal system (hereinafter called terminal system), the terminal system can display the air pressure values of a plurality of working units and can correspondingly control and operate the plurality of working units, the operating system has the greatest advantages that the operator does not need to go to each working unit to check and control the working unit, and the like, and the operator can monitor and control a large number of working units in one place such as an office, a central data room and the like by using the operating system, the operation system is simple to operate and convenient to use, work content and work intensity of operators are greatly reduced, and all work units of the whole plant can be detected and controlled easily.
The terminal system has two versions, wherein one version is a version (hereinafter referred to as a liquid crystal screen version) which is detected and controlled based on a liquid crystal screen, the version correspondingly detects and controls all working units through the liquid crystal screen, and the liquid crystal screen can be placed in places such as a machine tool and the like; another version is a PC (computer) based version (hereinafter PC version) that requires the user to provide PC support and that can be used only by installing the software of my own on the user's PC.
The invention relates to a centralized control type digital display barometer terminal system which comprises simplified air pressure collecting heads used by working units, a management center and a communication bus.
The management center comprises a micro control unit MCU, a JATG download, an LCD screen, an RS485 communication interface and a power supply assembly, wherein the power supply assembly supplies electric energy for the micro control unit MCU and the LCD screen, and the micro control unit MCU is in butt joint with the JATG download interface, the LCD screen and the RS485 communication interface at the external output end.
The power supply assembly comprises a micro control unit power supply and a screen power supply, wherein the output end of the control unit power supply is in butt joint with the electric energy input end of the micro control unit MCU, and the output end of the screen power supply is in butt joint with the electric energy input end of the LCD screen.
The simplified air pressure collecting head comprises a plurality of Micro Control Units (MCU), JATG downloading, a pressure sensor, an RS485 communication interface, an LCD screen and a power supply assembly, wherein the power supply assembly supplies electric energy for the Micro Control Units (MCU) and the LCD screen, the Micro Control Units (MCU) are in butt joint with JATG downloading, the LCD screen and the RS485 communication interface at the external output end, and the pressure sensor is in butt joint with the data input end of the Micro Control Units (MCU).
The power supply assembly comprises a micro control unit power supply and a screen power supply, wherein the output end of the control unit power supply is in butt joint with the electric energy input end of the micro control unit MCU, and the output end of the screen power supply is in butt joint with the electric energy input end of the LCD screen.
An operation method of a centralized control type digital display barometer terminal system is characterized by comprising the following steps:
the method comprises the following steps: starting the system, and selecting the number of barometers;
step two: the selection mode comprises three modes which are respectively a self-defining mode, a simple mode and an air pressure meter mode,
the user-defined mode is entered into for the first time, the names of all barometers which are connected or selected by the user to be displayed are displayed, and the user enters the display mode of the selected barometer when selecting the specific barometer name; if the system does not enter the mode for the first time, the system skips the display interface of the corresponding barometer according to the last selection to display;
wherein the simple mode is as follows: displaying names and air pressure values of all air pressure gauges connected or required to be displayed by a user, and jumping to a display interface of the air pressure gauge corresponding to the air pressure gauge to display when a certain air pressure gauge is selected;
the barometer mode is as follows: entering the mode for the first time, selecting a display mode, and displaying all connected or required to be displayed barometers according to the selected display mode after selection; if the user does not enter the mode for the first time, the system directly jumps to a corresponding display interface for displaying according to the last selection of the user;
step three: entering a display interface of a single meter, displaying the name, the unit, the air pressure value, the states of the output channels 1 and 2, the target value, the MOD button and two upper and lower buttons of the barometer;
step four: setting a single barometer, jumping to a setting interface of the barometer by clicking an MOD button or an air pressure value display position of the barometer on the display interface of the single barometer, and setting all parameters of the barometer;
step five: acknowledgment return
In the first step, the number of the selected barometers is input through a keyboard, a factory setting button is further included in the starting interface in the first step, a user can restore the terminal system to factory setting through the button, the user can select whether the connected barometers are restored to factory setting through a pop-up prompt window, and factory setting restoration operation is performed if a click-off determination button is pressed; the stand-alone cancel button cancels the operation.
Wherein the second step is as follows: when a user selects a self-defined mode and enters the self-defined mode, the names of all barometers are displayed, a certain name is clicked to highlight the name of the barometer, colored boxes appear around the name to indicate that the barometer is selected, and the barometer enters a display interface of a single barometer of the barometer after being confirmed by the user;
if the upper button and the lower button are clicked or the target value display position is clicked in the third step, a digital keyboard is popped up, and a user can modify the target value through the digital keyboard; if the user clicks the return button, the user returns to the display interface in one of the easy mode/the custom mode/the barometer mode when the user initially enters.
The single gauge display interface displays the name, unit, air pressure value, state of output channels 1 and 2, target value, MOD button, and two up and down buttons
The following parameters of the barometer are set: the name, unit, color, normally open/normally closed, target value, output mode, output upper limit, output lower limit, etc. of the air pressure meter are set, and then the determination button is clicked to return to the previous display interface.
Although the present invention has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.