TWI406168B - Computerized drawing and recording device - Google Patents

Abstract

The present invention discloses a computerized chart recording device, which comprises a signal converting unit, an operation control unit, a print control unit and a database. The signal converting unit receives a plurality of measuring signals from a measuring instrument, and converts the measuring signals into a plurality of signal converting data; the operation control unit receives the signal converting data required for chart drawing, and correspondingly generates chart drawing data point data to draw a signal variation curve diagram used for being displayed on a human-machine interface unit, so as to determine whether to record the data or whether to draw the chart, and meanwhile to transmit the data to the print control unit; when the print control unit is activated, it can receive the chart drawing data point data and quality assurance data, and control the print control unit to simulate a chart recorder to perform a chart recording task, as well as print the quality assurance data, so as to meet a quality assurance requirement.

Description

Computerized drawing recorder

The present invention relates to a drawing and recording apparatus, and more particularly to a computerized drawing and recording apparatus. Instantly print the measuring instrument's sensing trend function and the quality control information with the computer analog recorder; directly set the output amplitude and percentage range to overcome the multi-detection head adjustment problem; directly connect with the computer to record, map and data Direct conversion to a database helps to organize the report; graphical indicators show the location of the measurement, making it easier to manage the measurement. It is especially suitable for the detection of large data volumes and complex and difficult text descriptions to improve data processing efficiency.

A general chart recorder is a data obtained by measuring a measuring instrument, and is directly recorded and drawn on the recording paper in real time. The drawing recorder is generally used to observe the trend of the signal generated by the monitoring instrument. For the development of the development of the mapping recorder, the earliest patent record, for the United States William Henry Bristol in the United States proposed US Patent No. US 389,635 "Pressure Indicator and Recorder", which was published in 1888, revealing a similar drawing recorder Pressure indicator and recorder, the recorder style is a disc-shaped drawing recorder, the pressure indicator and recorder can be applied to the pressure monitoring of fluids such as steam, liquid and gas. It can even be applied to barometers, thermometers and other analog measuring instruments. The demand for measuring recorders with the increase of measurement requirements and the advancement of technology has been continuously improved and developed by researchers. Now the plotter has been It is widely used in measurement and monitoring records in various scientific research. Therefore, we can see that some invention patents relating to the drawing recorder are constantly appearing, including the form and operation mode of the recording paper, the drawing or display mode, the recording and transmission method, etc., and the important invention patents of the US drawing recorders are organized over the years. As shown in Table 1.

Table I

Although computerized drawing recorders have been developed today, it seems that the quality assurance operations that a large number of measurement data management and modern measurement work professions have paid attention to have not been inked, and the price is not low. The external environment inspection operation must provide both the paper entity record and the electronic record; and the number of on-site samples of the external environment inspection operation is very large, it is necessary to do the quality assurance operation immediately. If the detection object has the positional characteristics, the position of the detected object should be clearly recorded. And can quickly understand the overall detection progress of the external environment inspection operation; due to the tight schedule, each external environment inspection operation needs a drawing recorder for backup use, but a better quality of the drawing recorder moves two or three 100,000, the cost of such backup is too high. If you temporarily purchase the backup drawing recorder for each external environment inspection operation, it will be quite time consuming and will delay the time course. If you have the existing work experience, if the overall number is After the completion of thousands of environmental testing operations, it is necessary to complete the report within one week. The data processing and integration performance requirements are very high. It requires not only skilled manpower processing, but also good data management and computer database tool assistance, which is difficult to complete.

Therefore, the present invention designs a computerized drawing recorder to instantly print the instrument sensing change trend function and the information required for quality control with a computer analog recorder; the output amplitude range and the percentage range can be directly set to overcome the problem of multiple detection head adjustment; Computer direct connection records, maps and data directly into a database, especially for a large number of reports; graphical indicators show the location of the measurement, it is easier to carry out the measurement work progress management work. Particularly suitable for external environmental testing operations with large data volumes to improve data processing efficiency, and It can reduce the trouble of expensive drawing recorder backup.

An object of the present invention is to provide a computerized drawing and recording device which utilizes computerized drawing data and attaches quality assurance data to break the functional limitation of the data quality related work generated by the existing drawing recorder, improve recording quality, and save recording working time. Improve efficiency.

Another object of the present invention is to provide a computerized drawing and recording device, which utilizes a combination of a database and a graphical display interface network to solve the problem that when the number of detections is too large, manual integration processing of existing drawing recorders may result in paper records or electronic records. Trouble error, and can effectively improve the overall data organization efficiency.

Another object of the present invention is to provide a computerized drawing and recording device that uses a computer simulation drawing and recording device to store and manage drawing data in a database, thereby reducing the number of drawing devices used to avoid the need for backup of the drawing device.

The invention relates to a computerized drawing and recording device, which comprises a signal conversion unit, an operation control unit, a printing control unit, a display interface and a database. The signal conversion unit receives a plurality of measurement signals of a measuring instrument, and the signal conversion unit converts the measurement signal into a plurality of signal conversion data; the operation control unit is connected to the signal conversion unit to receive the signal data required for the mapping, And generating a plot data point data according to the signal data, to draw a signal change graph, displayed on the first human interface unit, available Whether the data is stored in the database, and the data of the drawing data is transmitted to the printing control unit; the first human interface unit can display the signal change trend curve, and also has the manual input control and query function, and the manual input can generate a quality assurance. Data, the message is sent to the operation control unit to decide whether to store the data in the database, and to determine whether to start the printing control unit. If the measuring instrument detects the positional characteristic of the object, the detected position can also be graphically displayed; when the printing control unit is printed It is activated to receive the data points of the drawing data and the quality assurance data, and control the printing unit to simulate the drawing recorder to perform the drawing and recording work according to the predetermined design, and the basic information required for the corresponding quality assurance, including the record and the position of the auditing personnel. . In addition, the operation control unit can connect the remote unit and the second human interface unit through the network to perform remote database backup, query, display and printing functions.

For a better understanding and understanding of the structural features and the achievable effects of the present invention, please refer to the preferred embodiment and the detailed description.

10‧‧‧Computerized drawing recorder

12‧‧‧Signal conversion unit

14‧‧‧Operation Control Unit

16‧‧‧Database

18‧‧‧First Human Machine Interface Unit

20‧‧‧Central Computer

22‧‧‧Print Control Unit

24‧‧‧Printing unit

26‧‧‧ Remote unit

28‧‧‧Second Human Machine Interface Unit

30‧‧‧Measurement instruments

The first figure is a schematic structural view of an embodiment of the present invention; and the second figure is a flow chart of an embodiment of the printing control flow of the present invention.

Please refer to the first figure, which is a block diagram of a preferred embodiment of the present invention. As shown in the figure, the present invention is a computerized drawing and recording device 10, which can instantly print the instrument sensing change trend function and the information required for quality control with a computer analog recorder; directly set the output amplitude and percentage range to overcome multiple detections. Head adjustment problem; direct connection with the computer, the map and data are directly converted into a database, especially for a large number of reports; graphical indicators display has been measured The location makes it easier to perform measurement work schedule management work. It is especially suitable for external environment testing operations with large data volumes to improve data processing efficiency. The computerized drawing and recording device 10 of the present invention mainly comprises a signal conversion unit 12, an operation control unit 14, a database 16, a human interface unit 18, a central computer 20, and a print control unit. The signal conversion unit 12 receives a plurality of measurement signals of a measuring instrument 30, and converts the measurement signals into complex signal conversion data according to the purpose of the detection work, for example, measurement unit conversion, in terms of air concentration units, the measurement instrument The original representation value may be per cubic meter of concentration, but the regulatory control may be in ppm, and the signal conversion unit 12 can be immediately converted into a format recognizable by the corresponding operation control unit 14 by the operation control unit 14, and if the instrument is simultaneously multi-instrument For the connection, the signal needs to be adjusted to normalize to compare the difference between the signals, and can also be set by the operation control unit 14, and the signal conversion unit 12 can achieve the desired detection work.

The operation control unit 14 can immediately calculate the complex signal conversion data obtained by the signal conversion unit 12, and generate a drawing data point data according to the signal data to draw a signal change graph, which is displayed on the first human interface unit 18. . The operation control unit 14 manually controls whether to store the drawing data point data into the database 16 and activate the print control unit 22 by the first human interface unit 18, so that the computerized drawing and recording device 10 can be selectively executed for electronic or The paper record, or both, is performed at the same time, or simply the signal output by the measuring instrument 30 is viewed. The first human interface unit 18 can display the signal change trend graph and the manual control function, and also has a manual input and query function. The manual input can generate a quality assurance data, and the quality assurance data can correspond to a specific signal curve. The figure includes the name of the instrument measuring unit, the measurement item, the measurement condition, the measurement record personnel and the auditor's data, and the quality assurance record required by the quality assurance operation.

The first human interface unit 18 can also directly set the method of converting the complex signal conversion data obtained by the conversion control unit 14 to determine the magnitude and percentage range of the output amplitude, so as to overcome the inconsistent size of the multiple detection head signals and need to be adjusted. To compare problems. The first human interface unit 18 can further set a specific threshold, and the operation control unit 14 provides a warning message. For example, the operation control unit 14 can generate a corresponding warning message or change the instrument signal change graph. Curve mark. When the trend of the signal change graph of the instrument exceeds the maximum threshold value or the minimum threshold value, a corresponding warning message is generated or a curve mark of the instrument signal change graph is changed. If the detection object has a positional characteristic, the first human-machine interface unit 18 can graphically display the detected position, thereby overcoming the problem that the detection position is difficult to describe by text, especially when the detection quantity is large, the detection position error condition can be reduced; The library 16 accepts the data stored by the operation control unit 14 to include the complex signal conversion data of the instrument signal, the warning message and the corresponding warranty data. After the printing control unit 22 is activated, the printing unit 24 is driven to print and print. The content includes the complex signal conversion data of the instrument signal, the warning message and the corresponding warranty data, and is printed according to the predetermined format.

The print control unit 22 is connected to the operation control unit 14, and the print control unit 22 generates a print control signal according to the drawing data; the print control unit 22 selects a column of print characters, a print position, and a print value according to the drawing data. The print control unit 22 generates the same according to the drawing data and the warranty data. Printing the control signal, the printing control unit 22 is a micro processing unit or a digital signal processing unit, which is disposed in the central computer 20; the operation control unit 14 can activate the printing control unit 22, and the driving printing unit 24 simulates The general drawing recorder instantly prints the instrument signal change graph; and the data received and judged by the operation control unit 14 can be used to print the instrument signal change graph in the printing unit 24 by the printing unit 24 according to the actual working requirements. Previously, the quality assurance data is printed first; the print control unit 22 is driven and controlled by the operation control unit 14, accepts the information provided by the operation control unit 14, selects the appropriate print characters, and drives the print unit 24 to perform Instantly printing, wherein the information provided by the operation control unit 14 includes the measurement value and the prompt message of the measurement signal, the prompt message includes a general text prompt and an alarm, etc., and the print control unit 22 can set the adjustment column according to the length of the printing time. The paper conveyance speed is like that of a general drawing recorder controlling the paper conveying speed.

The printing unit 24 is connected to the printing control unit 22, and the printing unit 24 outputs the drawing data according to the printing control signal output. The printing unit 24 of this embodiment is a printer, and in particular, the dot matrix printer is most suitable for the best embodiment, and the instant printing effect can be achieved. When printing the paper entity record, the operation control unit 14 simulates the traditional drawing record to draw the measurement signal change curve according to the drawing data data through the printing control unit 22, so as to simulate the traditional drawing recorder printing measurement by using the printing unit 24. The signal change graph, and the print control unit 22 can further control the printing unit 24 to print more detailed records (such as time and data records) and quality assurance materials (such as printing test conditions and records, reviewers); When the control unit 14 determines, according to the drawing data data, that the signal value in the instrument signal change graph exceeds the set threshold, the operation control unit 14 transmits the column. The printing control unit 22 drives the printing unit 24 to instantly print a prompt message or a warning or change the display mark of the recorded point; the printing unit 24 can directly perform backup of the paper record by using a plurality of functions. Thus, the present invention can initiate the recording function by the operation control unit 14 at the same time to simultaneously perform the paper entity record and the electronic record, or only the electronic record, that is, only the drawing data data and the quality assurance data, or the graph and the quality assurance. Information to the database 16.

In addition, the price of the computer in which the printing control unit 22 and the printing unit 24 are arranged to be the arithmetic control unit 14 is far lower than that of the general-purpose drawing recorder, and the sharing property is high, and the backup cost relative to the drawing recorder is low. too much.

A remote unit 26 is coupled to the operational control unit 14, which controls the operational control unit 14. The remote unit 26 is a micro processing unit or a digital signal processing unit; the remote unit 26 can view the operation control unit 14 screen at a time through the network function, and can also perform drawing data data query. The second human interface unit 28 is connected to the remote unit 26, and the remote control unit 28 reads the instrument signal change graph generated by the operation control unit 14 to the second human interface unit 28 and displays the remote end. The unit 26 reads the instrument signal change graph stored in the database 16 and the warranty data to the second human interface unit 28 and displays the second human interface unit 28 to provide the remote unit 26 user query measurement. As a result, a trend change graph of the instrument signal change graph is displayed. When performing large-scale on-site measurement, the second human interface unit 30 can graphically display the measured position to improve work management efficiency.

As can be seen from the above, the present invention is a computer graphics and recording device, which uses a computer to improve performance and reduce cost of a graphics recorder system, including a signal conversion unit 12, an operation control unit 14, a database 16, and a first human interface unit. 18. Print control unit 22 and remote control unit 26 and second human interface unit 28. The signal conversion unit 12 converts the measurement signal of the measurement unit into a signal conversion data, and uses the computer operation control unit 14 to simulate the operation to generate a corresponding instrument signal change graph and the corresponding warranty data, and can pass through the column. The printing control unit 22 drives the printing unit 24 to print the graph and the quality assurance data by simulating the drawing recorder, and applies the storage management function of the database to solve the application problem of the instrument signal change graph obtained by the general drawing recorder. At the same time, the application of computers and networks to strengthen the management of inspection operations and the function of quality assurance data.

Since the present invention utilizes the storage management function of the database 16 to directly perform electronic records, the paperless drawing recorders are separately recorded into a single file, and the stored data is managed and applied, and the performance is greatly improved, which contributes to huge data. Processing and subsequent report output, that is, the database 16 receives the plurality of control commands of the operation control unit 14 for storage; the human-machine interface unit can be used to establish a graphical user interface for monitoring or detecting the location, before the access record is recorded. The design inputs a special number or directly on the drawing surface to link the record of the access result to a specific graphic position and display it on the first human interface unit 18 or the second human interface unit 28 when the access completes the location. It can be marked as an existing access record, and it can be seen at a glance where it has not been detected. When the amount of detected data is very large, it is usually required that multiple shifts of labor are performed in turn, and the detection location graphical interface provided by the first human interface unit 18 and the second human interface unit 28 is very useful for detecting operation management. . Through the network function, the remote control unit 26 can directly monitor the picture provided by the operation control unit 14 through the second human interface unit 28, and can instantly read and display the drawing data at any time. The measuring unit 30 can measure the level of the signal, and can directly query the existing measurement results, which provides great convenience for the quality assurance and reporting operations.

Please refer to the second figure, which is a flow chart of one embodiment of the printing control flow of the present invention. As shown in the figure, the present invention uses the print control unit 22 to drive the printing unit 24 to simulate the function of the drawing recorder to immediately draw a signal change on the paper. The arithmetic control unit 14 controls the printing control unit 22 according to the received signal conversion data. Workflow. The printing control flow of the present invention first determines whether to execute the paper recording printing function by the operation control unit 14 as shown in step S10. If the determination is no, the step 510 is re-executed, and if the determination is yes, the steps are executed. S20; as shown in step S20, the arithmetic control unit 14 drives the printing unit 24 to print the existing warranty data through the print control unit 22. As shown in step S30, the operation control unit 14 determines, according to the signal conversion data received during the printing period, to select the printing value (such as the maximum value, the minimum value, and the average value) of the printing instrument signal change graph. And printing the used character and the position on the paper, wherein the printing cycle time length of the printing unit 24 needs to be set in advance; as shown in step S40, the printing control unit 22 generates the printing control signal and transmits it to the column. The printing unit 24; as shown in step S50, the printing unit 24 prints according to the printing control signal.

In summary, the computerized drawing and recording device of the present invention mainly has the following advantages: 1. The present invention uses a computer simulation drawing recorder to generate a graph and quality control data corresponding to the trend of the measured signal according to the measured data. To avoid the situation that the results of traditional drawing recorders are difficult to match with the quality control data, and to reduce human error and improve the efficiency of quality operations; 2. The invention can use the operation control unit to set the printing control unit according to the drawing data to control the output amplitude range and the percentage range of the printing unit, and overcome the traditional drawing recorder to adjust the detection head signal size in sequence. Difficult problems, and can set the output signal amplitude or percentage range according to requirements; 3. The invention can directly connect the computer and the database, and let the computing control unit directly transfer the drawing data and the quality assurance data to the database, which is helpful for detecting The report of the operation is organized; and 4. The present invention simplifies the work management of the inspection operation by displaying the graphical indication of the human-machine interface unit to display the measurement position and measurement progress of the inspection operation.

While the present invention has been described in its preferred embodiments, the present invention is not intended to limit the invention, and the present invention may be modified and modified without departing from the spirit and scope of the invention. The scope of protection is subject to the definition of the scope of the patent application.

10‧‧‧Computerized drawing recorder

12‧‧‧Signal conversion unit

14‧‧‧Operation Control Unit

16‧‧‧Database

20‧‧‧Central Computer

22‧‧‧Print Control Unit

24‧‧‧Printing unit

18‧‧‧First Human Machine Interface Unit

26‧‧‧ Remote unit

28‧‧‧Second Human Machine Interface Unit

30‧‧‧Measurement instruments

Claims (14)

A computerized drawing and recording device comprises: a signal conversion unit that receives a plurality of measurement signals of a measuring instrument, the signal conversion unit converts the measurement signals into complex signal conversion data; and an operation control unit, which is connected The signal conversion unit receives the signal conversion data, and the operation control unit calculates the signal conversion data to generate a drawing data data for generating an instrument signal change graph, and generating a quality assurance data according to the signal conversion data. The warranty data corresponds to the signal change curve of the instrument; a database that accepts the plurality of control commands of the operation control unit to store the drawing data and the corresponding warranty data; and a print control unit, Receiving the control commands of the operation control unit, and correspondingly generating a print control signal for controlling a signal change curve, a warning message and a corresponding signal corresponding to the plurality of signal conversion data of the printing unit for printing the instrument signal Quality assurance information. The computerized drawing and recording device of claim 1, wherein the database further stores the instrument signal change graph. The computerized drawing recording device according to claim 1, wherein the quality assurance data includes at least one measurement time, a name of the measurement instrument, a measurement item, a corresponding measurement position, and one of the drawing data materials. Measure the name of the person and at least one auditor's name. The computerized drawing and recording device according to claim 1, wherein the The printing control unit selects a column of printing characters, a printing position, and a printing value according to the drawing data data, and the printing control unit signs the signature according to the printing character, the printing position, the printing value, and the warranty data. The position produces the print control signal. The computerized drawing and recording device of claim 1, further comprising: a human-machine interface unit connected to the operation control unit and the database, the human-machine interface unit displaying the instrument generated by the operation control unit a signal change graph, the human interface unit reads the graphic data stored in the database and the warranty data and displays the data. The computerized drawing recording device according to claim 1, further comprising: a remote unit connected to the operation control unit, the remote unit controlling the operation control unit. The computerized drawing recording device of claim 6, wherein the remote unit is a micro processing unit or a digital signal processing unit. The computerized drawing and recording device according to the first aspect of the patent application includes: a human-machine interface unit, which directly sets the method for calculating the complex signal conversion data obtained by the signal conversion unit by the arithmetic control unit to determine the output amplitude. And the percentage range to set a specific threshold value, and provide an operation control unit to generate a warning message basis to graphically display the detection position. The computerized drawing and recording device according to claim 1, wherein the operation control unit generates a warning according to a threshold value and the drawing data data. message. The computerized drawing recording device of claim 1, wherein the operation control unit generates at least one display mark according to the at least one threshold value and the drawing data data. The computerized drawing recording device according to claim 1, wherein the operation control unit is a micro processing unit or a digital signal processing unit. The computerized drawing recording device of claim 1, wherein the database further stores at least one prompt message according to the control instructions. The computerized drawing and recording device according to claim 1, wherein the database further integrates the drawing data and the corresponding warranty data according to the control instructions and establishes a corresponding index data. The computerized drawing and recording device of claim 1, wherein the printing control unit controls the printing speed of one of the printing units and a paper feeding speed according to the control commands of the computing control unit.