JPH051771Y2 - - Google Patents

Description

[Detailed explanation of the idea]

INDUSTRIAL APPLICATION FIELD The present invention relates to a recorder for recording voltage, current, and other input data, and particularly to a comment display device thereof. 2. Description of the Related Art Conventionally, voltage, current, and other input data are recorded on recording paper using a recorder equipped with a graphic printer. At that time, each channel (CH) is displayed on the recording paper.
Each time, waveform graphs and the like are recorded according to the input data that enters there. Also, comments regarding each channel information are recorded below them. FIG. 10 is a diagram showing a part of the recording paper on which such comments are displayed. In the diagram,
30DIV/min is a comment indicating the paper feed speed in a graphic printer. From this comment, it can be seen that the paper feed speed is 30 divisions per minute. Also, the comment following 30DIV/min, CH1: DC 2V f・s, 40% offset CH2:
DC 1V f・s, 0% offset CH3: DC 0.1V
f・s, -50%offset indicates the status of each channel such as the type of input voltage, the voltage value at full scale, and the offset setting value for each of the first, second, and third channels. . For example, from the comments regarding the first channel, it can be seen that the DC input entering that channel is displayed at 2V at full scale on the recording paper, and a 40% offset is applied to it. Problems that the invention attempts to solve: However, such comment display does not display information for each channel being used in the first, second, and third channels.
They are performed in the order of the third channel, and their order is also fixed. Therefore, if the graphs of each waveform recorded on paper intersect and intermingle, the characteristics of each waveform etc. will need to be memorized in advance to display the corresponding waveform graph etc. You will make a mistake in checking. Furthermore, even if channel numbers are attached to graphs of each waveform, if you move away from the position where those numbers are attached, you cannot immediately confirm the information, and it takes time to read the data, which is inconvenient. This invention was developed by focusing on these conventional problems, and by improving the order of comment display, it is possible to immediately check the waveform graph of the channel being commented on from the comment display, and view them. An object of the present invention is to provide a comment display device for a recorder that can reliably read data. Means for Solving the Problems Means for achieving the above object will be explained below using FIG. 1 which clearly shows the present invention. This recorder comment display device includes an A-D converter 12 provided for each of a plurality of channels 10 that converts input data from an analog value to a digital value, and a comment display 16 that displays comments on recording paper.
and a point data creation means 30 that creates output data forming recording points on the recording paper based on these input data, and a sampling point setting means 32 that sets sampling points for comment display that read those point data. , a channel order setting means 34 for setting the channel order of comment display according to a required rule based on the read point data, and a display timing setting means 36 for setting the comment display timing. Action The above means works as follows. First, A-D is provided for each of the plurality of channels 10.
Converter 12 converts the input data entering each channel 10 from analog values to digital values, thereby enabling subsequent digital processing of the input data. The point data creation means 30 records each channel on the recording paper based on the digitized input data.
When drawing graphs such as waveforms every 10, output data that forms each recording point is created. At that time, if no offset is applied (offset 0%), the input data becomes point data as is, but if an offset is applied, the offset is placed on top of the input data, so processing such as adding the input data and the offset setting value is necessary. Point data will be created by doing this. The sampling point setting means 32 sets sampling points for comment display from which the point data is read. The channel order setting means 34 sets the channel order of comment display according to a required rule based on the point data read for each sampling point. The display timing setting means 36 sets the timing for displaying comments on the recording paper. Finally, comments for each channel information are displayed on the comment display 16 in accordance with the channel order set for each sampling point. Embodiments Hereinafter, embodiments of the present invention will be described based on the accompanying drawings. FIG. 2 is a block diagram showing a comment display device for a recorder according to an embodiment of the present invention. In the figure,
10, 10a, 10b, and 10c are first, second, and third channels CH ₁ , which respectively send analog input signals S ₁ , S ₂ , and S ₃ such as voltage, current, and power.
They are CH ₂ and CH ₃ . 12, 12a, 12b, 12
A-c is interposed in each of these channels 10 and converts the input data from an analog value to a digital value.
It is a D converter. 14 are those digital signals
A calculation device 16 receives the output signal S ₀ from the device ₁₄ and displays the information _of each channel as _a comment on the recording paper. This arithmetic unit 14 is, for example, a microcomputer, including a CPU (central processing unit) 18 and a ROM (read-only memory) 2.
0, RAM (readable/writable memory) 22, input port 24, output port 26, bus line 28
It is composed of etc. The CPU 18 corresponds to the central brain part of a microcomputer,
In accordance with program instructions, it performs overall control, performs arithmetic and logical operations, and temporarily stores the results. It also controls peripheral devices, and is subject to that control as well.
The ROM 20 stores a control program for improving the overall performance of the recorder, a channel order setting processing program for displaying comments, and other processing programs. Further, the RAM 22 stores voltage, current, other input data, data of the calculation results of the CPU 18, and the like. Input port 24
The channels 10 described above and a channel (not shown) for transmitting an offset signal are connected to. In addition, the output port 26 is a comment display device 16.
Connect to. The bus line 28 includes an address bus line, a data bus line, and a data bus line for connecting them.
It includes control bus lines, etc., and is also connected to peripheral devices. The comment display device 14 is, for example, a graphic dot printer, and draws a waveform graph of each channel on the recording paper based on the input data, and also displays comments on the channel information as appropriate. Next, the operation of this embodiment will be explained. First, the A-D converter 12 provided for each channel 10 converts the input data entering each channel 10 from an analog value to a digital value, thereby enabling digital processing of the input data thereafter. Next, when drawing a waveform graph or the like for each channel 10 on recording paper based on the digitized input data, the point data creation means 30 generates output data that forms each recording point. create. At that time, if no offset is applied (offset 0%), the input data becomes point data as is, but if an offset is applied, the offset will be placed on top of the input data, so it is necessary to add the input data and the offset setting value. Perform processing according to the program and create point data.
Next, the sampling point setting means 32 appropriately sets, for example, on the time axis, sampling points for comment display at which the point data are read. Third
Points A, B, C, D, and E on the recording paper in the figure are such sampling points. Note that the sampling points can be set periodically according to the processing program, when recording starts, or arbitrarily by operating a switch from the outside. Next, the channel order setting means 34 sets the channel order of comment display according to a predetermined rule based on the point data read for each sampling point. Such required rules include, for example, displaying graphs in order from the highest ○ points, conversely displaying graphs in order from the lowest ○ points, or displaying graphs in order from the highest ○ data (input data, etc.) ○Conversely, the graphs can be displayed in order from the smallest data. Note that if the input data are the same and offsets are applied, graphs with larger offsets are displayed in order of magnitude in ○B, and graphs with smaller offsets are displayed in order of magnitude with ○B. Also, in ○C and ○D, if the data is large or small, if an offset is added when displaying the graph, the point will be high or low even if the data is small or large, but it will not be at that point. , to set the order using only data. FIG. 4 is a flowchart of a processing program that sets the channel order of comment display for each sampling point according to the above-mentioned rules.
It is executed by steps _P1 to _P11 . In the figure,
The CH1 point, CH2 point, and CH3 point indicate point data on the graph for each of the first, second, and third channels, respectively. First, in P ₁ ,
Judgment is made by comparing CH1 points and CH2 points. If CH1 point ≧ CH2 point
Go to _P2 . In P ₂ , the CH1 point and CH3 point are compared and determined. If CH1 point≧CH3 point, it becomes clear that CH1 is located at the forefront. So go to P ₃ , at P ₃ , CH2
Judgment is made by comparing the points and CH3 points.
If CH2 points ≧ CH3 points, go to P ₄ . Set the channel order as CH1, CH2, CH3 using _P4 . Also, at P ₃ , if CH2 points < CH3 points, go to P ₅ . In _P5 , set the channel order as CH1, CH3, CH2. CH1 at P ₂ ahead
If points < CH3 points, it is already P ₁ ,
Since it is determined that CH1 points ≧ CH2 points, go to P ₆ . With P ₆ , change the channel order to CH3,
Set CH1 and CH2. At P ₁ , if CH1 points < CH2 points, go to P ₇ . At P ₇ ,
Judgment is made by comparing CH1 points and CH3 points. If CH1 point ≧ CH3 point, P ₈
go to Use P ₈ to change the channel order to CH2, CH1,
Set as CH3. In the previous P ₇ , CH1 points <
In the case of CH3 points, it becomes clear that CH1 is located last. So, go to P ₉ , and at P ₉ ,
Judgment is made by comparing CH2 points and CH3 points. If CH2 points ≧ CH3 points, P ₁₀
go to Use P ₁₀ to change the channel order to CH2, CH3,
Set as CH1. In the previous P ₉ , CH2 points <
For CH3 points, go to P ₁₁ . In P ₁₁ , set the channel order as CH3, CH2, CH1. If you want to set the order of channels in this way,
Instead of using one data of the graph for each channel, a plurality of data may be used. For example, it is determined by the average value of the required interval. When the sampling points are the same, the next input data is used to determine. For example, it is determined from the maximum value or minimum value of the required section. Next, the display timing setting means 36 sets the timing for displaying comments on the recording paper. To set the timing, set the timing periodically according to the processing program, or when recording starts.
Alternatively, this can be done arbitrarily by operating a switch from the outside. Finally, comments for each channel are displayed on the comment display 16 in accordance with the channel order set for each sampling point. Figure 5 shows comments regarding the first, second, and third channels for sampling point A shown in Figure 3 below the graph scale in the channel order set by the program shown in Figure 4. FIG. Also, Figure 6 is point B, Figure 7 is point C, Figure 8 is point D, and Figure 9 is point B.
The figure is a similar diagram regarding point E. However, since all channels overlap at point E, comments are displayed in the order of the first, second, and third channels. Also, in Figures 5 to 9, the third
The time axis scale is increased from the figure. Note that the place to write the comment is not limited to the bottom of the graph scale, but can be placed above, inside, or anywhere else. In the above embodiment, a 3-channel recorder is used, input data is always entered in all channels, and the channel order for comment display is set. However, if the recorder uses multiple channels and all channels are not used, You can also set the order based only on the channels you are using. Therefore,
For a three-channel recorder, display examples of channels and their order, including unused channels, are made to correspond to the channels and graph states at that time, and are all listed in Table 1. Further, although the above embodiment uses a recorder in which the horizontal axis is the time axis, the present invention can be similarly applied to a multi-channel XY recorder. Further, in the above embodiment, the comments are displayed by arranging them horizontally, but they can also be displayed by arranging them vertically.

[Table] Effects of the invention According to the invention described above, it is possible to immediately check the waveform graph of the channel being commented on from the comment display on the recording paper. Therefore, it is convenient because data can be reliably read from the graph.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing a comment display device for a recorder according to the present invention. FIG. 2 is a block diagram showing a comment display device for a recorder according to an embodiment of the present invention. FIG. 3 is a diagram showing sampling points for displaying comments on a graph on a recording paper obtained by the comment display device of the same embodiment. Fourth
The figure is a flowchart of a processing program for setting the channel order of comment display stored in the ROM of the same embodiment. FIG. 5 is a comment display diagram regarding the sampling point A shown in FIG.
6 is a similar diagram regarding point B, FIG. 7 is a point C, FIG. 8 is a point D, and FIG. 9 is a similar diagram regarding a point E. 10th
The figure is a comment display diagram obtained by a conventional recorder comment display device. 10... Channel, 12... A-D converter,
14...Arithmetic device, 16...Comment display device, 3
0... Point data creation means, 32... Sampling point setting means, 34... Channel order setting means, 36... Display timing setting means.

Claims (1)

[Scope of utility model registration request] An A-D converter that converts input data provided for each of a plurality of channels from analog values to digital values, and point data creation means that creates output data that forms recording points on recording paper based on the input data. , a sampling point setting means for setting a sampling point for comment display that reads the point data, a channel order setting means for setting the channel order for comment display according to a required rule based on the read point data, and a comment. 1. A comment display device for a recorder, comprising: display timing setting means for setting display timing; and a comment display device for displaying comments on recording paper.