JP2011089831A - Paperless recorder system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a paperless recorder system that displays the same screen as a paperless recorder without using a paperless recorder. <P>SOLUTION: The paperless recorder system includes a paperless recorder 1 that displays waveforms of measured data 122, as well as displays scales by using scale plate image data 123 that show scales of the waveforms, and outputs the measured data and the scale plate image data, and a display means 23 that inputs the measured data and the scale plate image data from the paperless recorder and displays the waveforms and the scale plate. <P>COPYRIGHT: (C)2011,JPO&amp;INPIT

Description

  The present invention relates to a paperless recorder system that uses a two-dimensional display instead of recording paper.

  Conventionally, the recorder has adapted various physical quantities such as voltage, temperature, pressure, etc. to each measurement object in various fields such as temperature history management of heating / cooling process, generator turbine operating condition monitoring, weather measurement and so on. Widely used as a device that converts voltage and current electrical signals with a measurement sensor and records the changes in the converted electrical signals over time as changes (waveforms) on paper or other storage media It is used. Of these, the paperless recorder in particular displays a waveform using a two-dimensional display such as a liquid crystal display, and the storage medium is an electronic storage medium such as a memory. Can be called and displayed. The display screen of the paperless recorder mainly includes a waveform display that is physical quantity measurement data, and a scale plate display that is adjacent to the waveform display and indicates a scale or a mark for reading the physical value.

JP 2003-149008 A

  The paperless recorder automatically creates a scale plate from span information or the like and displays the scale on a two-dimensional display. In recent years, image data indicating the scale of waveform display is created by a computer, and this image data is input to a paperless recorder and displayed on the paperless recorder. The operator can intuitively recognize the waveform.

  The measurement data recorded by the paperless recorder needs to be stored for a long period of time, similar to a paper recorder. For this reason, the paperless recorder stores the measurement data using, for example, a CF (Compact Flash) card. When viewing the measurement data, the waveform of the measurement data is usually displayed by a computer, but the waveform scale is automatically displayed from the span information or the like.

  As described above, since the paperless recorder outputs only the measurement data, in order to use the scale plate with the same image data that can be recognized intuitively by the operator, the paperless recorder is required.

  However, since the paperless recorder is installed at the site, in order to display the same screen, the CF card must be inserted into the paperless recorder at the site to display the waveform.

  Therefore, an object of the present invention is to realize a paperless recorder system that can display the same screen as a paperless recorder without using a paperless recorder.

In order to solve such a problem, the invention according to claim 1 of the present invention,
A paperless recorder that performs waveform display of measurement data, performs scale display using scale plate image data indicating the scale of the waveform display, and outputs measurement data and scale plate image data;
Display means for inputting the measurement data and scale plate image data from the paperless recorder, and displaying the waveform and scale plate,
It is characterized by having.
Invention of Claim 2 is invention of Claim 1, Comprising:
The paperless recorder outputs as a waveform file composed of at least the measurement data and the scale plate image data, and the display means performs waveform and scale display based on the waveform file.
Invention of Claim 3 is invention of Claim 2, Comprising:
The paperless recorder is:
A storage unit for storing the setting data and the scale plate image data;
A file creation unit that inputs measurement data and scale plate image data from the storage unit and creates the waveform file;
It is characterized by having.
Invention of Claim 4 is invention in any one of Claims 1-3, Comprising:
The display means includes
A display unit;
Waveform display means for performing waveform display on the display unit according to measurement data from the paperless recorder;
Scale plate display means for performing scale plate display on the display unit based on scale plate image data from the paperless recorder;
It is characterized by having.

According to the present invention, the paperless recorder outputs measurement data and scale plate image data, and the display means 231 performs waveform and scale plate display based on the measurement data and scale plate image data. The same screen display as the paperless recorder 1 can be performed. In other words, the operator can intuitively recognize the measurement data stored for a long time without being restricted by the location.

It is the block diagram which showed one Example of this invention. It is the figure which showed the scale board image data 123 used with the apparatus shown in FIG. It is the figure which showed the example of a display of the monitor part 24 of the apparatus shown in FIG. It is the figure which showed the other example of a display of the monitor part 24 of the apparatus shown in FIG.

  Hereinafter, the present invention will be described in detail with reference to the drawings. FIG. 1 is a block diagram showing an embodiment of the present invention.

The paperless recorder 1 includes a measurement signal input unit 11, a first storage unit 12, a screen display unit 13, a display unit 14, a file creation unit 15, a second storage unit 16, an output interface 17, Have The measurement signal input unit 11 inputs an analog electrical signal output from an external measurement device (not shown), digitally samples the signal, and outputs measurement data as a result. The first storage unit 12 is connected to the measurement signal input unit 11, measurement data 121 that is an output of the measurement signal input unit 11, setting data 122 that is input by an input unit (not shown) such as a key, For example, the scale plate image data 123 indicating the scale of waveform display is stored as bitmap data as shown in FIG. The setting data 122 includes span values that are upper and lower limits when the measurement data 121 is displayed as a waveform. The screen display unit 13 includes a waveform display unit 131 and a scale plate display unit 132, is connected to the first storage unit 12, and displays a screen on the display unit 14 based on data stored in the storage unit 12. The waveform display unit 131 displays a waveform on the display unit 14 based on the measurement data 121 and the setting data 122 stored in the first storage unit 12. The scale plate display unit 132 performs scale plate display on the display unit 14 based on the scale plate image data 123 of the first storage unit 12. The file creation unit 15 receives the measurement data 121, the setting data 122, and the scale plate image data 123 from the first storage unit 12, creates the waveform file A, and outputs it. The second storage unit 16 inputs and stores the waveform file A that is the output of the file creation unit 15.
The output interface 17 is an interface that inputs and outputs the waveform file A stored in the second storage unit 16.

The computer 2 is a personal computer or the like, and includes an input interface 21, a storage unit 22, a screen display unit 23, and a monitor unit (display unit) 24, and is connected to the output interface 17 of the paperless recorder 1. . The input interface 21 is connected to the output interface 17 of the paperless recorder 1, and inputs and outputs the waveform file A output from the output interface 17. The storage unit 22 receives and stores the waveform file A output from the input interface 21. The screen display unit 23 includes a waveform display unit 231 and a scale plate display unit 232, is connected to the storage unit 22, and displays a screen on the monitor unit 24 based on data stored in the storage unit 22. The waveform display unit 231 displays a waveform on the monitor unit 24 based on the measurement data and setting data included in the waveform file A in the storage unit 22. The scale plate display means 232 displays the scale plate on the monitor unit 24 based on the scale plate image data included in the waveform file A in the storage unit 22. Here, the image display means 23 and the monitor unit 24 constitute display means.

The operation of such an apparatus will be described with reference to the drawings.
The measurement signal input unit 11 inputs an analog electrical signal output from an external measurement device (not shown), digitally samples the signal, and stores the measurement data as a result in the storage unit 12. The waveform display unit 131 of the screen display unit 13 performs waveform display on the display unit 14 based on the measurement data 121 and the measurement data 122 stored in the first storage unit 12, and the scale of the screen display unit 13. The plate display unit 132 performs scale plate display on the display unit 14 based on the scale plate image data 123 of the first storage unit 12.

  Next, instructed by an input unit (not shown) such as a key, the file creation unit 15 creates the measurement data 121, the setting data 122, and the scale plate image data 123 of the first storage unit 12 as a waveform file A, Store in the storage unit 16. The output interface 17 outputs from the storage unit 16 to the computer 2.

  The input interface 21 of the computer 2 inputs the waveform file A from the output interface 17 of the paperless recorder 1 and stores it in the storage unit 22. The screen display unit 23 is operated by an input unit (not shown) such as a keyboard and a mouse, and the waveform display unit 231 of the screen display unit 23 is based on measurement data and setting data included in the waveform file A of the storage unit 22. The waveform is displayed on the monitor unit 24. The scale plate display means 232 also displays the scale plate on the monitor unit 24 based on the scale plate image data included in the waveform file A in the storage unit 22.

In more detail, a display example of the monitor unit 24 is shown and described with reference to FIG. FIG. 3 shows an example in which electrical signals from two systems (CH1 and CH2) are input. a1 is a waveform display unit, where the horizontal axis represents time and the vertical axis represents the value of a physical quantity. a11 shows the waveform of “CH1”, and a12 shows the waveform of “CH2”. A line segment a13 indicates a cursor. Reference numeral a2 denotes a scale plate display unit, which is displayed adjacent to the right side of the waveform display unit a1. a21 indicates a scale for reading the physical quantity of the waveform data, and in this example, the minimum scale is 0.05V intervals in the range of 1.0V to 2.0V and -1.0V to -2.0V, and -1. In the range of 0V to 1.0V, the minimum scale is 1V interval. a22 and a23 are “CH1” and “CH2”, respectively.
", The waveforms a11 and a12 indicate the position of the vertical axis where the cursor a13 intersects. a24 and a25 are marks for reading the physical quantity of the waveform. In this example, for example, the ranges of 1.5V to 2.0V and -1.5V to -2.0V are red marks, and are dangerous areas (a24), 1.0V to 1.5V, and -1.0V to- This is used when 1.5V is a yellow mark and is a caution area (a25), and there is no mark and 1.0V to -1.0V is a safety area.

That is, the waveform display unit 231 displays the waveforms a11 and a12 and the cursor a13 based on the measurement data and the setting data included in the waveform file A in the storage unit 22, and displays the waveform display unit a1 on the monitor unit 24. The scale plate display means 232 also displays the scale plate image data included in the waveform file A of the storage unit 22, that is, the bitmap data shown in FIG. 2, and the scale plate display unit a2 together with the scale marks a22 and a23. Is displayed on the monitor unit 24 adjacent to the waveform display unit a1.

  As described above, the paperless recorder 1 outputs the file A including the measurement data, the setting data, and the scale plate image data, and the waveform display unit 231 displays the waveform on the monitor unit 24 based on the measurement data and the setting data of the file A. Since the scale plate display means 232 displays the scale plate on the monitor unit 24 based on the scale plate image data of the file A, the same screen display as the paperless recorder 1 can be performed without using the paperless recorder 1. That is, the operator can intuitively confirm the measurement data stored for a long time without being restricted by the location.

  Note that the present invention is not limited to this, and the scale plate display means 232 shows scale plate display based on the scale plate image data. However, the scale plate display means 232 uses the setting data as shown in FIG. The scale plate may also be displayed. In FIG. 4, b2 is a scale board display part. b21 indicates the scale of the physical quantity of the waveform data, and the minimum scale is 0.1 V intervals in the entire displayed range. a22 and a23 are scale marks of “CH1” and “CH2”, respectively. In this case, the scale plate display means 232 creates a scale plate from the setting data of the waveform file A in the storage unit 22, and displays the scale plate display unit b2 adjacent to the left side of the waveform display unit a1.

  In addition, the waveform display unit a1 is displayed on the monitor unit 24 on the left side and the scale plate display unit a2 is displayed on the right side. The structure, the structure which displays the waveform display part a1 and the scale board display part a2 up and down may be sufficient. That is, any configuration may be used as long as the waveform display and the scale plate display are displayed side by side.

  Then, the configuration in which the paperless recorder 1 and the computer 2 are connected and the waveform file is transferred is shown. The paperless recorder 1 stores the waveform file in a CF (Compact Flash) card, a USB (Universal Serial Bus) memory, or the like. A configuration of passing to the computer 2 may also be used.

  Although the span information is set as the setting data, a configuration in which the span information is included in the measurement data may be used. That is, it is sufficient that one waveform file includes at least measurement data and scale plate image data.

  Further, the scale plate image data 23 is bitmap data, but other image data may be used.

DESCRIPTION OF SYMBOLS 1 Paperless recorder 11 Measurement signal input part 12 1st memory | storage part 121 Measurement data 122 Setting data 123 Scale board image data 13 Screen display part 131 Waveform display part 132 Scale board display part 15 File preparation part 14 Display part 16 2nd memory | storage Unit 17 output interface 2 computer 21 input interface 22 storage unit 23 screen display unit 231 waveform display unit 232 scale plate display unit 24 monitor unit

Claims (4)

A paperless recorder that performs waveform display of measurement data, performs scale display using scale plate image data indicating the scale of the waveform display, and outputs measurement data and scale plate image data;
Display means for inputting the measurement data and scale plate image data from the paperless recorder, and displaying the waveform and scale plate,
A paperless recorder system comprising:   2. The paperless recorder outputs as a waveform file comprising at least the measurement data and the scale plate image data, and the display means displays a waveform and a scale based on the waveform file. Paperless recorder system. The paperless recorder is:
A storage unit for storing the setting data and the scale plate image data;
A file creation unit that inputs measurement data and scale plate image data from the storage unit and creates the waveform file;
The paperless recorder system according to claim 2, further comprising: The display means includes
A display unit;
Waveform display means for performing waveform display on the display unit according to measurement data from the paperless recorder;
Scale plate display means for performing scale plate display on the display unit based on scale plate image data from the paperless recorder;
The paperless recorder system according to any one of claims 1 to 3, further comprising: