JP3569057B2 - Display scale variable linear clock - Google Patents

Description

【図面の簡単な説明】
【図１】本発明の表示目盛変動型線形時計のシステム構成図。
【図２】図１の表示装置の一表示状態を示す図。
【図３】本発明の表示目盛変動型線形時計の主プログラムのフローチャート。
【図４】時刻目盛変更プログラムの処理を説明するフローチャート。
【図５】図４の時刻目盛変更プログラムにより変更された時刻目盛の表示状態例を示す図。
【図６】図４の時刻目盛変更プログラムにより変更された時刻目盛の他の表示状態例を示す図。
【図７】図４のステップＳ２０３の時刻情報線形表示処理の内容をさらに説明するフローチャート。
【図８】図７の各ステップＳ１２〜Ｓ１７において実行される時刻目盛表示処理の基本的なフローチャート。
【図９】時刻更新プログラムの処理を説明したフローチャート。
【図１０】表示位置移動プログラムの処理を説明したフローチャート。
【図１１】入力部のマウスの右ボタンの操作より開始する復帰プログラムの処理を説明するフローチャート。
【図１２】表示目盛変動型線形時計の線形時間表示画面にメッセージの存在を示す指標を表示させた一例を示す図。
【符号の説明】
１ 計時回路
３ プログラム選択回路
４ 現時刻情報メモリ
５ ＲＡＭ
６ 制御回路
７ 演算回路
８ 入力部
９ 表示装置
１０ 時刻目盛
１１ 線形時間表示画面
１２ スクロールバー
１４ 指標[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a clock that indicates current time information at a specific position on a linear time display screen in which time scales such as characters and symbols indicating the passage of time are linearly arranged, and is further displayed as the current time information is updated. The time scale also relates to a display scale variable linear clock in which the time scale is also updated.
[0002]
[Problems to be solved by the invention]
In general, two types of clock display methods are known: an analog method and a digital method. The analog display clock gives the impression that the hour and hour hands rotate on a circular fixed dial to indicate the time, and the digital display clock shows the current time. Only information is displayed by numerical values. For this reason, in any of the conventional methods, the present time is intended to be directly displayed, and it is not sufficient to display the current time as transient in the passage of time. For this reason, in order to grasp or view the current time information during the passage of time, the hour and minute information rely on a clock (especially an analog display system), and the date and month information rely on a calendar. There was inconvenience. Therefore, there has been a demand for a new timepiece that can grasp the current time information (year, month, day, hour, minute, and second) linearly during the transition from the past to the future.
[0003]
It is an object of the present invention to provide a display scale variable linear timepiece capable of linearly grasping (visually observing) the time course of current time information.
[0004]
[Means for Solving the Problems]
A display scale variable linear timepiece according to the present invention includes: a timekeeping unit that provides time information; a time information storage unit that receives time information from the timekeeping unit and stores current time information; and characters and symbols that indicate the passage of time. Display means for indicating current time information at a specific position on a linear time display screen in which time scales are linearly arranged, and the present time on the linear time display screen according to the current time information each time the time information is received. The time scale of the specific position indicating the information is changed, and the time scale updating means for updating the time scale on the linear time display screen every time the time information is received is provided. Therefore, the current time information is displayed at a specific position on the linear time display screen where the time scale is sequentially updated.
[0005]
Further, the display scale variable linear timepiece of the present invention is a timekeeping means for providing time information, a time information storage means for receiving time information from the timekeeping means and storing the current time information, and a character indicating the passage of time. A display means for indicating current time information at a specific position on a linear time display screen in which time scales such as symbols are linearly arranged, and a scale change for instructing a change of a time scale arranged on the linear time display screen of the display means. Instructing means, calculating means for calculating the time scale in accordance with the instruction information instructed by the scale changing instructing means, and scale changing for changing the time scale on the linear time display screen according to the time scale calculated by the calculating means. Means. For this reason, the time scale on the linear time display screen is changed according to the instruction of the scale change instruction means.
[0006]
Further, the display scale variable linear timepiece of the present invention is a timekeeping means for providing time information, a time information storage means for receiving time information from the timekeeping means and storing the current time information, and a character indicating the passage of time. Display means for indicating current time information at a specific position on a linear time display screen in which time scales such as symbols are linearly arranged, and a time for updating the time scale on the linear time display screen every time the time information is received. Scale updating means, scale change instructing means for instructing a change of the time scale arranged on the linear time display screen of the display means, and calculating means for calculating the time scale in accordance with the instruction information instructed by the scale changing instructing means; A scale changing means for changing a time scale on the linear time display screen according to the time scale calculated by the calculating means. Therefore, the current time information is displayed at a specific position on the linear time display screen where the time scale on the linear time display screen is changed according to the instruction of the scale change instructing means and the time scale is sequentially updated.
[0007]
Further, the display scale variable linear timepiece of the present invention is a timekeeping means for providing time information, a time information storage means for receiving time information from the timekeeping means and storing the current time information, and a character indicating the passage of time. , Display means for displaying current time information at a specific position on a linear time display screen in which time scales such as symbols are linearly arranged, and pasting at the specific position for displaying current time information on a linear time display screen of the display means. Or time changing means for changing to future time information display, calculating means for calculating the time information of the time scale according to the time information instructed by the time changing means, and the linear time according to the time information calculated by the calculating means. A scale changing means for changing the time information of the time scale on the display screen. Therefore, the past or future time is displayed at a specific position on the linear time display screen where the current time information is displayed, and the time scale is also updated.
[0008]
BEST MODE FOR CARRYING OUT THE INVENTION
FIG. 1 is a system configuration diagram of a display scale variable linear timepiece according to the present invention. In FIG. 1, reference numeral 1 denotes a clock circuit. The clocking circuit 1 has a known configuration including a crystal oscillator and a frequency dividing circuit, and information of seconds, minutes, hours, days, months and years is timed, and a time signal is provided every second for the program selection circuit 3 in the CPU 2 and Output to the current time information memory 4. The program selection circuit 3 reads the time scale update program into the RAM 5 every time the time signal is received, and also reads the program specified by the instruction signal from the control circuit 6 from the RAM 5. The current time information memory 4 is provided with areas for storing current time information of seconds, minutes, hours, days, months, and years. Each time a time signal from the clock circuit 1 is received, the corresponding time is stored. The information is updated. The current time information is provided to the control circuit 6. The RAM 5 stores a time scale changing program, a display position moving program, and the like in addition to the time updating program. The control circuit 6 is connected to the arithmetic circuit 7, the input unit 8, and the display device 9 to exchange data. The arithmetic circuit 7 calculates the time scales arranged on the linear time display screen of the display device 9 according to the instruction information from the control circuit 6, and notifies the control circuit 6 of the calculation result. The input unit 8 instructs the change of the time scale arranged on the linear time display screen by a drag operation of a mouse. In addition, a keyboard is provided so that necessary schedule information can be input. Given. The display device 9 displays required information on a designated screen according to display information such as time scale information, current time information, and scroll bar information provided from the control circuit 6.
[0009]
FIG. 2 shows one display state of the display device 9. A linear time display screen 11 in which time scales 10 such as characters and symbols indicating the passage of time are linearly arranged, and a time scale of the linear time display screen 11. And a current time display section 13 for displaying the current year, month, date, hour, minute, and second together with the day of the week. In the case of FIG. 2, the current time display unit 13 displays the current time information, that is, Saturday, October 14, 1995 at 0:38:59 (Saturday, October 14, 1995, 00:38:59). ing. Further, on the linear time display screen 11, the time scale 10 indicating 38 minutes 54 seconds to 39 minutes 4 seconds is shown as 54 to 59, 0:39, and 1 to 4 in the unit of seconds. In this case, 59 indicating the second on the current time display section 13 and 0:39 indicating the minute on the linear time display screen 11 are displayed in different colors. At a specific position on the linear time display screen 11, in this case, the current time of 59 seconds is displayed at the center position, and the time scale indicating 59 at the center position has a red indicator 14 indicating that it is the current time. Indicated by lines.
[0010]
FIG. 3 is a flowchart showing an outline of the main processing routine of the present invention. In step S 1, the program selection circuit 3 shown in FIG. 1 receives the time signal from the clock circuit 1 and the signal indicating the movement of the mouse of the input unit 8 from the control circuit 6 (acquisition of an event), and is stored in the RAM 5. Select various programs. That is, when the scroll box 12a of the scroll bar 12 is moved by the operation of the mouse of the input unit 8, the program selection circuit 3 specifies the time scale change program stored in the RAM 5, and proceeds to step S2 to execute the time scale change program. Perform processing. Further, each time the time signal is received, the program selection circuit 3 designates the time update program stored in the RAM 5, and proceeds to step S3 to execute the processing of the time update program. When the mouse is dragged on the input unit 8, the program selection circuit 3 specifies the display position moving program stored in the RAM 5, and proceeds to step S4 to execute the processing of the display position moving program. Further, the program selection circuit 3 specifies a required program in the RAM 5 in accordance with an instruction from the control circuit 6, and executes the program in step S5.
[0011]
FIG. 4 is a flowchart illustrating the process of the time scale changing program in step S2 of FIG. In step S201, when the scroll box 12a of the scroll bar 12 is moved by operating the mouse of the input unit 8 as shown in FIG. 5, for example, the position of the scroll box 12a of the scroll bar 12 is identified by the control circuit 6. Next, the process proceeds to step S202, and a pixel time (PixelTime) is calculated from the acquired value of the position of the scroll box 12a. Specifically, the scroll bar 12 normalizes the scroll box 12a to 0 when the scroll box 12a is located at the left end 12b, and to 1 when the scroll box 12a is located at the right end 12c. Are associated with the position of the scroll box 12a therebetween. That is, the value of the number of seconds represented by one pixel (hereinafter, referred to as pixel time) is changed according to the change in the position of the scroll box 12a, and it is determined which of the displayed seconds to the year is to be displayed. If the position of the scroll box 12a is simply linearly converted, the position of the scroll box 12a that displays the time of the year increases.
(Equation 1)
PixelTime = (Maximum PixelTime) ^X
Is calculated as Here, the maximum PixelTime is the value of the pixel time when the scroll box 12a is located at the right end 12c. By adjusting this value, the upper limit of the time scale can be adjusted. Next, in step 203, a time information linear display process of changing the time scale with the calculated pixel time and displaying the current time on the linear time display screen 11 is performed.
[0012]
FIGS. 5 and 6 show the time scale changed by the time scale changing program of FIG. 4, and correspond to the position of the scroll box 12a. In the case of FIG. Compressed. Further, in the case of FIG. 6, the time scale 10 is changed to a display in hour units. Note that there is no change that the current time is displayed as a red line by the index 14 at the center position of the linear time display screen 11 in both the cases of FIGS.
[0013]
FIG. 7 is a flowchart for further explaining the content of the time information linear display process in step S203 of FIG. In step S11, the control circuit 6 determines any one of seconds, minutes, hours, days, months, and years for the time scale to be displayed based on the calculated pixel time value. According to the determined time scale 10, any one of the display processes in steps S12 to S17 is performed, and the time scale 10 of the second, minute, hour, day, month or year is displayed on the linear time display screen 11. When the day display process of step S15 is performed, a specific display such as red on Sunday and blue on Saturday is performed. Also, even in the same display processing step, when the value of the pixel time is increased and the display density is increased and it becomes impossible to display a numerical value for each scale, the time display is every 6 scales and the day display is 7 scales. Numerical values are omitted at every tenth scale in seconds, minutes, and years in every scale. This judgment is made based on whether or not the width of the numerical value displayed in the interval between the scales falls within the range. The interval of the time scale 10 displayed from the pixel time is
(Equation 2)
Scale interval = number of seconds between scales / PixelTime
Is obtained as the number of dots.
[0014]
FIG. 8 shows a basic flowchart of the time scale display processing executed in each of steps S12 to S17 in FIG. 7. In step S20, the initialization processing for positioning the scale index x at the center position of the linear time display screen 11 is performed. Do. Next, the process proceeds to step S21, where the scale index x is moved at a predetermined interval from the center position of the linear time display screen 11 toward the right end (the right end is identified as the coordinate position), and the scale index x is displayed in the scale display area. If it does not exceed the right end, the process proceeds to step S22. In step S22, a scale is displayed at the position of the scale index x on the linear time display screen 11. Next, the process proceeds to step S23, where a numerical value of time is displayed at the position of the scale index x according to the display condition. That is, the time value of the scale is
(Equation 3)
Scale time = time at center position + (coordinate of x−coordinate of center position) × PixelTime
Required by Next, the process proceeds to step S24, adds a scale interval to the coordinates of the scale index x, and returns to step S21. If it is determined in step S21 that the scale index x is beyond the right end of the linear time display screen 11, the time scale display processing on the right side of the center position of the linear time display screen 11 is terminated, and the process proceeds to step S25.
[0015]
In step S25, an initialization process for positioning the scale index x at the center position of the linear time display screen 11 is performed. In step S26, it is determined whether or not the scale index x exceeds the left end of the linear time display screen 11, and if not, the process proceeds to step S27. In step S27, a time scale is displayed at the position of the scale index x on the linear time display screen 11. Next, the process proceeds to step S28, where a numerical value of time is displayed at the position of the scale index x according to the display condition. Next, the process proceeds to step S29, where the scale interval is subtracted from the coordinates of the scale index x, and the process returns to step S24. If it is determined in step S26 that the scale index x is beyond the left end of the linear time display screen 11, the time scale display processing on the left side of the center position of the linear time display screen 11 is terminated, and as a result The scale display processing ends. As described above, the time information linear display processing in step S203 in FIG. 4 is the processing described with reference to FIGS.
[0016]
FIG. 9 is a flowchart illustrating the process of the time update program in step S3 of FIG. 3, and is executed every time a time signal is received. In step S301, the control circuit 6 receives the current time information from the current time information memory 4. Next, in step S302, the control circuit 6 updates the current time display on the current time display unit 13 and updates the current time displayed at the center position of the linear time display screen 11 according to the received current time information. I do. Next, in step S303, the time information linear display processing of FIGS. 7 and 8 is performed based on the updated current time of the center position, and the time of all time scales 10 on the linear time display screen 11 is changed to the current time of the center position. Update according to time.
[0017]
The above-described processing has been performed on the assumption that the current time is displayed at the center position of the linear time display screen 11, but if it is desired to display the time at the center position of the linear time display screen 11 in the past or the future, the input is performed. The operation is performed in accordance with the display position moving program read by dragging the mouse of the unit 8 (moving the mouse while pressing the left mouse button). FIG. 10 is a flowchart illustrating the processing of the display position moving program in step S4 of FIG. 3. In step S401, the control circuit 6 receives a moving amount (pixel) by a mouse drag operation. Next, the time (center time) displayed at the center position of the linear time display screen 11 in step S402 is:
(Equation 4)
CenterTime = CenterTime + mouse drag operation amount × PixelTime
Calculate and change according to the above formula. Next, in step 403, the time information linear display processing of FIGS. 7 and 8 is performed based on the changed time of the center position, and the time of all the time scales 10 on the linear time display screen 11 is changed to the center position. Update according to time. As a result, the position of the scale indicating the current time moves from the center position by the number of dots corresponding to the amount of drag operation of the mouse, and the index 14 indicating the current time also moves. If the current time cannot be displayed on the linear time display screen 11 due to a large amount of mouse drag operation, the index 14 remains at the center position where the current time is not displayed.
[0018]
As understood from the processing operation of each program described above, all the time scales 10 on the linear time display screen 11 are changed and updated with reference to the time at the center position. By combining the above-described time scale changing program, time updating program, and display position moving program, a desired time can be displayed on the linear time display screen 11 with the desired time scale 10.
[0019]
After changing the time display at the center position of the linear time display screen 11 according to the display position moving program, if the current time is displayed again at the center position and the time scale 10 is changed according to the current time, the operation becomes complicated. Therefore, by pressing the right mouse button of the input unit 8, the current time is displayed at the center position. FIG. 11 shows a return program started by operating the right button of the mouse of the input unit 8. In step S31, the control circuit 6 reads the current time information from the current time information memory 4 and sets CenterTime = current time. Next, the process proceeds to step S32, and based on the changed current time at the center position, the times of all time scales 10 on the linear time display screen 11 are updated in accordance with the current time at the center position.
[0020]
FIG. 12 shows an example in which an indicator 15 indicating the presence of a message is displayed in the course of time on the linear time display screen 11 of the above-mentioned display scale variable linear timepiece. By operating a keyboard and a mouse of the input unit 8 to input a desired time and operating a key for instructing index setting, the index 14 is displayed on a predetermined time scale 10 of the linear time display screen 11. Further, the content of the message can be input by a keyboard, and the content of the message can be displayed on the display device 9 by performing a display switching operation.
[0021]
【The invention's effect】
The display scale variable linear timepiece of the present invention displays current time information at a specific position on a linear time display screen, and recognizes the time because the current time can be visually recognized in the flow of time from the past to the future. It is convenient. Further, the current time at a specific position on the linear time display screen is updated every moment, and the time scale is also updated every moment. Of the current time.
[0022]
Further, the display scale variable linear timepiece of the present invention has a configuration in which the time scale calculated according to the instruction information changed by the scale change instruction means is displayed on the linear time display screen. The scale can be freely changed, and a time scale in units of seconds, minutes, hours, days, months and years can be selected and displayed together with the current time according to the user's request. Therefore, the clock and calendar functions can be provided on one linear time display screen, and the time scale required by the user can be freely expanded or compressed.
[0023]
In addition, the display scale variable linear timepiece of the present invention changes the past or future time information display to the specific position for displaying the current time information on the linear time display screen, and changes the time of the time scale according to the instructed time information. Since the information is calculated and the time information of the time scale on the linear time display screen is changed according to the calculated time information, the position on the linear time display screen where the current time information is displayed can be freely changed. it can. Therefore, it is possible to focus on past or future times as required by the user, which is convenient for schedule management. Further, there is an advantage that it is possible to return to the current time display at the original specific position with one touch.
[0024]
The display scale variable linear timepiece according to the present invention has been described in the above-mentioned embodiment of the present invention, but the following embodiment is further embodied to record an example of a program actually used in the following table.
[0025]
[Table 1]

[Brief description of the drawings]
FIG. 1 is a system configuration diagram of a display scale variable linear timepiece according to the present invention.
FIG. 2 is a diagram showing one display state of the display device of FIG.
FIG. 3 is a flowchart of a main program of a display scale variable linear timepiece according to the present invention.
FIG. 4 is a flowchart illustrating processing of a time scale change program.
FIG. 5 is a diagram showing an example of a display state of a time scale changed by the time scale changing program in FIG. 4;
FIG. 6 is a view showing another example of the display state of the time scale changed by the time scale changing program of FIG. 4;
FIG. 7 is a flowchart for further explaining the content of a time information linear display process in step S203 of FIG. 4;
8 is a basic flowchart of a time scale display process executed in each of steps S12 to S17 in FIG.
FIG. 9 is a flowchart illustrating processing of a time update program.
FIG. 10 is a flowchart illustrating processing of a display position moving program.
FIG. 11 is a flowchart illustrating processing of a return program started by operating a right mouse button of the input unit.
FIG. 12 is a diagram showing an example in which an index indicating the presence of a message is displayed on a linear time display screen of a display scale variable linear timepiece.
[Explanation of symbols]
1 clock circuit 3 program selection circuit 4 current time information memory 5 RAM
Reference Signs List 6 control circuit 7 arithmetic circuit 8 input unit 9 display device 10 time scale 11 linear time display screen 12 scroll bar 14 indicator

Claims (7)

A timing means for providing time information;
Time information storage means for receiving time information from the clock means and storing current time information;
Display means for indicating current time information at a specific position on a linear time display screen in which time scales such as characters and symbols representing the passage of time are linearly arranged,
A means for updating a time scale of a specific position indicating current time information on the linear time display screen according to the current time information each time the time information is received,
Time scale updating means for updating a time scale on the linear time display screen each time the time information is received,
A display scale variable linear clock, wherein current time information is displayed at a specific position on the linear time display screen. A timing means for providing time information;
Time information storage means for receiving time information from the clock means and storing current time information;
Display means for indicating current time information at a specific position on a linear time display screen in which time scales such as characters and symbols representing the passage of time are linearly arranged,
Scale change instructing means for instructing a change of a time scale arranged on a linear time display screen of the display means,
Calculating means for calculating the time scale according to the instruction information instructed by the scale change instructing means;
Scale changing means for changing a time scale on the linear time display screen in accordance with the time scale calculated by the calculating means. A timing means for providing time information;
Time information storage means for receiving time information from the clock means and storing current time information;
Display means for indicating current time information at a specific position on a linear time display screen in which time scales such as characters and symbols representing the passage of time are linearly arranged,
Time scale updating means for updating a time scale on the linear time display screen each time the time information is received,
Scale change instructing means for instructing a change of a time scale arranged on a linear time display screen of the display means,
Calculating means for calculating the time scale according to the instruction information instructed by the scale change instructing means;
Scale changing means for changing a time scale on the linear time display screen according to the time scale calculated by the calculating means,
Display scale variable linear clock that is equipped with: A timing means for providing time information;
Time information storage means for receiving time information from the clock means and storing current time information;
Display means for displaying current time information at a specific position on a linear time display screen in which time scales such as characters and symbols representing the passage of time are linearly arranged,
Time changing means for changing to the past or future time information display at the specific position displaying the current time information on the linear time display screen of the display means,
Calculating means for calculating the time information of the time scale according to the time information instructed by the time changing means,
Scale changing means for changing the time information of the time scale on the linear time display screen according to the time information calculated by the calculating means,
Display scale variable linear clock that is equipped with: The display scale variable linear timepiece according to claim 4, further comprising a return unit that returns the time information changed by the time change unit to the current time information display. 6. The display scale variable linear timepiece according to claim 1, wherein the specific position on the linear time display screen of the display means is at a center position of the time scale. . Means for inputting user information together with time information;
Means for displaying an index indicating presence of user information at a time scale position corresponding to the input time on the linear time display screen of the display means. 7. The display scale variable linear clock according to any one of 5 and 6.

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