JP3623647B2 - Calculation formula creation system in exhaust gas analysis system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a calculation formula creation system in an exhaust gas analysis system.
[0002]
[Prior art]
For example, as an analysis system for analyzing exhaust gas from an engine, a measuring device that measures exhaust gas and outputs the measurement data, a microcomputer that calculates a target object using a predetermined calculation program based on the measurement data, and An exhaust gas analysis system having the following is known. The arithmetic program is created in a programming language and is stored in the ROM of the microcomputer.
[0003]
[Problems to be solved by the invention]
However, in such a conventional analysis system, the user can easily change the calculation program written in a programming language when he wants to change the target expression, etc., by changing the fuel type, measurement target, etc. I can't do it.
[0004]
Accordingly, an object of the present invention is to provide an arithmetic expression creation system in an exhaust gas analysis system that solves this problem.
[0005]
[Means for Solving the Problems]
In order to achieve the above object, the present invention provides an exhaust gas analysis system for introducing exhaust gas into a measuring instrument, transmitting measurement data from the measuring instrument to a personal computer, and performing analysis in a microcomputer of the personal computer based on the measurement data. In the personal computer display device, an arithmetic expression for obtaining a target object is displayed, and a plurality of parameter types and values of the parameter in the arithmetic expression are displayed. The arithmetic expression and the parameter value can be changed.
[0006]
In the present invention, “parameter” refers to a parameter included in an arithmetic expression.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
In FIG. 1, the automobile exhaust gas analysis system has a measuring instrument 1 and a personal computer 11 connected to the measuring instrument 1 through an interface (not shown). The measuring instrument 1 includes an infrared analyzer, for example, and outputs measurement data measured by introducing exhaust gas into the measuring instrument 1 to the personal computer 11.
[0008]
The personal computer 11 has a microcomputer 12, and a touch screen 16, a keyboard 17, a printer 18, and an external storage device 19 are connected to the microcomputer 12 via an interface (not shown). The microcomputer 12 includes a CPU 13, a RAM 14, and a ROM 15.
[0009]
The external storage device 19 is composed of, for example, a hard disk, and stores a predetermined arithmetic program, an arithmetic expression used for the arithmetic operation, parameters in the arithmetic expression, and the like in addition to the OS (operation system). When the CPU 13 reads out a predetermined arithmetic program or arithmetic expression from the external storage device 19 in advance and writes it into the RAM 14 and receives the measurement data from the measuring instrument 1, the CPU 13 analyzes the exhaust gas in accordance with the arithmetic program and the like, for example, an air-fuel ratio. Calculate the measured value.
[0010]
The touch screen 16 is a device that displays an analysis screen and an operation screen, and performs input by touching a part of the display with a finger. Therefore, the touch screen 16 constitutes a display device of the personal computer 11 and a part of the input operation device together with the keyboard 17.
[0011]
2 to 5 show the screen of the touch screen 16. The parameter display input screens of FIGS. 2 and 3 include two types of measurement modes shown in FIG. 2 and a confirmation mode shown in FIG. There is a screen.
[0012]
The parameter display input screen in the measurement mode of FIG. 2 includes display operation areas such as an arithmetic expression name display area 2a, a measured value display operation area 2b, a parameter display operation area 2c, and an air-fuel ratio display operation area 2d that is a target. , A screen switching button 22 is provided. One of the arithmetic expression names displayed in the arithmetic expression name display area 2a is previously set and registered.
[0013]
The parameter display area 2c is provided with a plurality of parameter names 27 and parameter value buttons 28 for parameters used in the arithmetic expression. The parameter is a value related to the component of the fuel used for measurement. When the type of fuel changes, it is necessary to change the value of the parameter according to the chemical composition of the fuel. After touching the parameter value button 28, the parameter value displayed on the parameter value button 28 can be changed by operating the numeric keypad of the keyboard 17 or the like.
[0014]
In the measurement value display area 2b, a plurality of measurement value name buttons 25, a measurement value button 26 corresponding to the measurement value name button 25, and a mode display button 21 are displayed. The measurement name button 25 displays the name of the measurement value measured by the analysis. When the measurement value name button 25 is touched, a child window opens to display a plurality of measurement value names. The measurement value name to be measured can be selected and changed from the value name. The measured value measured by the analysis is displayed on the measured value button 26. When executing the confirmation mode to be described later, after touching the measured value button 26, the numeric keypad of the keyboard 17 is operated. The measurement value displayed on the measurement value button 26 can be set. By touching the mode display button 21, it is possible to switch between the two modes of the measurement mode (“meas”) displayed on the mode display button 21 and the confirmation mode (“set”) of FIG. it can.
[0015]
The air-fuel ratio display area 2d is provided with an air-fuel ratio display section 23 for displaying the air-fuel ratio and a lambda value display section 24 for displaying the lambda value. The air-fuel ratio is a value calculated according to a predetermined arithmetic expression based on the measured value, and the lambda value is a value obtained by dividing the air-fuel ratio by a predetermined ideal air-fuel ratio.
[0016]
When the screen switching button 22 is touched, an arithmetic expression display input screen shown in FIG. 4 is displayed. On the calculation formula display input screen, a storage button 31, a calculation formula name display input area 32, and a calculation formula display input area 30 are displayed and provided. In the arithmetic expression display input area 30, an arithmetic expression 34 corresponding to the arithmetic expression name is displayed. The arithmetic expression 34 is displayed not in a programming language format but in a format close to a general mathematical expression, and can be created or changed by operating the keyboard 17 or the like. When the storage button 31 is touched, the arithmetic expression 34 can be stored in the external storage device 19. The expression name displayed in the expression name display input area 32 can be changed by operating the keyboard 17 or the like.
[0017]
Next, the operation will be described.
First, the parameter display input screen in the measurement mode in FIG. 2 is called to display the equation name in the equation display area 2a. Subsequently, the screen switching button 22 is touched to display the arithmetic expression display input screen of FIG.
[0018]
On the arithmetic expression display input screen, the arithmetic expression name is displayed in the arithmetic expression name display input area 32 and the arithmetic expression 34 corresponding to the arithmetic expression name is displayed in the arithmetic expression display input area 30. Subsequently, the keyboard 17 or the like is operated to input or edit the arithmetic expression 34. Thus, in the present analysis system, the arithmetic expression 34 can be created or changed easily and quickly. When a new parameter name is set, the parameter name 27 and the parameter value button 28 are added to the parameter display area 2c in FIG.
[0019]
After the input or editing, the storage button 31 is touched to store a new arithmetic expression 34 in the external storage device 19. At this time, if necessary, the arithmetic expression name displayed in the arithmetic expression name display input area 32 is changed using the keyboard 17 or the like. After the creation or change, the display returns to the parameter display input screen in the measurement mode of FIG.
[0020]
Next, since it is necessary to confirm whether or not there is a mistake in the arithmetic expression 34, the mode is changed to the confirmation mode and the arithmetic expression 34 is checked. The confirmation mode is a mode for confirming whether or not the arithmetic expression 34 is wrong when the arithmetic expression 34 is created or changed.
[0021]
To set the confirmation mode, first, each mode display button 21 is touched to switch from the display of “meas” indicating the measurement mode to the display of “set” indicating the confirmation mode of FIG. Next, after touching the measured value button 26, the measured value used for the new calculation formula 34 (FIG. 4) is set to a predetermined value that becomes an ideal air-fuel ratio by operating the keyboard 17 or the like, The measured value setting button 26 is displayed. The CPU 13 performs an operation by treating the display value of the measurement value button 26 as the measurement value, and calculates and displays the air-fuel ratio 23 and the lambda value 24. By confirming the value of the air-fuel ratio or the value of the lambda value, the validity of the arithmetic expression 34 can be predicted to some extent, and therefore it is easy to confirm whether or not the arithmetic expression 34 is correct. it can.
[0022]
Next, the operation when performing measurement will be described.
First, the parameter display input screen of the measurement mode in FIG. 2 is called to display the arithmetic expression name of the arithmetic expression used for the analysis in the arithmetic expression display area 2a. Next, the parameter is confirmed, and if the parameter value needs to be changed by changing the fuel type, the parameter value displayed on the parameter value button 28 is changed by operating the keyboard 17 or the like. Thus, since the parameter value can be easily changed, it is possible to easily cope with a change in the type of fuel.
[0023]
Thereafter, when the measurement is performed, the measurement screen being executed is displayed as shown in FIG. 5, and the measurement value name and the measurement value are displayed in the measurement value name display area 40 and the measurement value display area 41, respectively. The air-fuel ratio and the lambda value are displayed in the fuel ratio display area 42 and the lambda value display area 43, respectively.
[0024]
The present invention is applicable to all exhaust gas analysis systems, and is not limited to an automobile exhaust gas analysis system. In addition, when the arithmetic expression display input screen is displayed by touching the screen switching button 22 in FIG. 2, if the password input screen is displayed and the password is input, an inadvertent arithmetic expression is displayed. Changes can be prevented.
[0025]
【The invention's effect】
As described above, according to the present invention, a general arithmetic expression that is not a programming language is displayed on the personal computer, and the arithmetic expression and the parameter value can be changed. An arithmetic expression or the like can be changed. On the other hand, the manufacturer does not need to create a calculation program or ROM, which is economical.
[0026]
In addition, if a check mode is provided to set the measured value and perform the calculation, it is possible to check whether there is an error in the changed calculation formula or parameter value by setting the known measured value and performing the calculation. Can be easily performed.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram showing an analysis system according to an embodiment of the present invention.
FIG. 2 is a plan view showing a parameter display input screen in a measurement mode.
FIG. 3 is a plan view showing a parameter display input screen in a confirmation mode.
FIG. 4 is a plan view showing an arithmetic expression display input screen.
FIG. 5 is a plan view showing a measurement screen during measurement.
[Explanation of symbols]
1: Measuring instrument 11: PC 12: Microcomputer 16: Touch screen (display device), (input operation device)
17: Keyboard (input operation device)

Claims (4)

In an exhaust gas analysis system that introduces exhaust gas into a measuring instrument, transmits measurement data from the measuring instrument to a personal computer, and performs analysis in the microcomputer of the personal computer based on the measurement data,
Displaying an arithmetic expression for obtaining a target object on the display device of the personal computer, displaying a plurality of parameter types and the value of the parameter in the arithmetic expression,
With the input operation device of the personal computer, the arithmetic expression and the parameter value can be changed ,
Here, the exhaust gas analysis system is an analysis system for analyzing exhaust gas from an engine, and the parameter includes a measured value to be measured,
In the measurement mode, a measured value is measured as the parameter. On the other hand, in the confirmation mode, the calculation formula creation system in the exhaust gas analysis system is configured so that a target object can be calculated by using the measured value as a set value . In claim 1,
The calculation formula creation system in the exhaust gas analysis system in which the type of the parameter can be changed by the input operation device of the personal computer. In claim 1 ,
The display device of the personal computer separates an arithmetic expression display input screen for displaying and inputting the arithmetic expression, and a parameter display input screen for displaying and inputting the parameter type and the value of the parameter. Calculation formula creation system in the exhaust gas analysis system displayed on the screen. In claim 1 , 2 or 3 ,
The display device is a calculation formula creation system in an exhaust gas analysis system that includes a touch screen and forms part of the input operation device.

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