JPH02157686A - Time display device - Google Patents

Abstract

PURPOSE:To display associated information simultaneously with time by providing a display means which displays the present information of the information changing with time for example, in a display segment and the information on the respective points of the past time in the display segments corresponding thereto. CONSTITUTION:The atm. pressure values of every two minutes are displayed in the respective sub-display segments segmented to 360 pieces for the past 12 hours on a ring type liquid crystal display device 11; for example, the display corresponding to the atm. pressure value of the present time is made in the display segment of the device pointed by the hour hand, further, the display corresponding to the atm. pressure value before two minutes thereof is made in the next display segment in the left-hand rotating direction (counter-clockwise direction) and the display corresponding to the atm. pressure value before 4 minutes thereof is made in the next display segment of the left-hand rotating direction thereof. Namely, the segment displaying the atm. pressure of the present time moves successively to the ensuing segments in the clockwise direction at every two minutes according to the movement of the hour hand. The atm. pressure value once displayed in a certain display segment is eventually held until the hour hand points this display segment and the fresh display of the atm. pressure value is made upon lapse of 12 hours.

Description

[Detailed description of the invention] [Industrial application field]

The present invention relates to a time display device such as an analog clock or a digital clock, and particularly relates to a time display device that also includes a display device that displays information other than time.

[Conventional technology]

BACKGROUND ART Clocks that display information other than time, such as atmospheric pressure and water pressure (water depth), have been known. For example, some diver's watches have a display device on the dial that shows the depth of the water numerically.

[Problem to be solved by the invention]

However, in the same way that conventional diver's watches only show the current water depth, conventional diver's watches only show current information. Therefore, if the information to be displayed is information that changes over time, such as atmospheric pressure or temperature, it is not possible to grasp the progress from the past to the present, which is extremely inconvenient. For example, when predicting the climate, it is necessary to know how atmospheric pressure has changed from the past to the present, for example, whether it is rising or falling. Therefore, assuming that only the current atmospheric pressure is displayed, if you want to predict the climate, you should look at the atmospheric pressure displayed in the past, memorize it, and then recall that memory at the present moment to predict the current climate. Since the pressure must be compared with the atmospheric pressure of SUMMARY OF THE INVENTION An object of the present invention is to provide a time display device that allows a person to simultaneously know the progress of time-varying information from the past to the present time when trying to know the time.

[Means to solve the problem]

In order to achieve the above object, the time display device according to the present invention includes a time display means and, in the vicinity of the time display means, current information among information that changes over time is displayed in a predetermined display category at each time point in the past. and display means for displaying the information in corresponding display categories.

[For production]

Among information that changes over time, such as atmospheric pressure and temperature, current information is displayed in the display section of a predetermined display device, and information at each past point in time is displayed in the corresponding display section. Therefore, not only the current temperature and atmospheric pressure, but also the temperature and atmospheric pressure for the past number of hours are displayed, so you can immediately tell whether the temperature and atmospheric pressure are increasing or decreasing, and you can easily see the weather. It is possible to predict the temperature and atmospheric pressure of a certain time ago. On the other hand, near such displays of atmospheric pressure, etc., the current time is displayed by a time display means, so it is possible to grasp the current time immediately, and also to know what time it was one hour or two hours ago from the current time. You can also immediately understand the relationship between weather conditions at that time (such as whether it was raining or windy) and atmospheric pressure.

【Example】

Next, an embodiment of the present invention will be described with reference to the drawings. Figure 1 shows the application of this invention to a wristwatch, in which a digital time display device 12 displays the current time in numbers.
A ring-shaped liquid crystal display device 11 is provided around the periphery. This ring-shaped liquid crystal display device 11 has a large number of display sections that are finely divided in the circumferential direction (for example, at an angle of 1 degree), and each display section can display information by changing shading (for example, when the atmospheric pressure is high). (the color becomes darker depending on the value of the atmospheric pressure, and becomes lighter depending on the value when the pressure is low), or if a color liquid crystal display device is used, for example, if the value is high, the color will be red, and if the value is low, the color will be green, etc. Information can be displayed using color-coded displays. Here, "0", "-3",
"r-6, r9" mean the current time, 3 hours ago, 6 hours ago, and 9 hours ago, respectively. FIG. 2 shows another embodiment applied to a table clock (or a wall clock). In this embodiment, a rectangular liquid crystal display device 21 is arranged below the digital time display device 22. In this case, the rectangular liquid crystal display device 21 is formed by finely dividing the display section vertically and horizontally into a matrix. Information is displayed in the form of a vertical bar graph by displaying dots in each section. That is, for example, when the atmospheric pressure is high, a bar graph extending to a high position is displayed according to the value of the atmospheric pressure, and when the atmospheric pressure is low, a bar graph extending to a low position is displayed according to the value. In FIG. 2, hourly barometric pressure values are displayed by bar graphs. In these embodiments, the liquid crystal display 11.21 is
Information that changes over time, such as atmospheric pressure, temperature, or the concentration of a specific gas (oxygen, etc.), can be displayed in each display category at each point in time from a predetermined time in the past to the present.
Here, the description will be made assuming that the barometric pressure is displayed. In this case, a small pressure sensor such as a semiconductor pressure sensor is installed inside the wristwatch or table clock, and as shown in FIG. The value is sent to the value processing circuit 33 to obtain the average value of the atmospheric pressure at regular intervals, and this is sequentially stored in the memory 34 (.On the other hand, the clock circuit 36 measures the time and outputs an output signal representing the time. The signal is sent to the drive circuit 37, which drives the time display device 38 to display hours, minutes, seconds, etc. in numbers.The output signal representing the time is also sent to the arithmetic circuit 35, which The average value processing circuit 33 and the memory 34 are controlled according to the time.For example, if the ring-shaped liquid crystal display device 11 is divided into angles of 1 degree in the circumferential direction, the average value processing circuit 33 is divided into two angles. The average value of the atmospheric pressure for each 2-minute period is stored in the memory 34 for the past 12 hours (360 pieces), and is written every time a new atmospheric pressure value is obtained, and the oldest The memory of the atmospheric pressure values is erased.The arithmetic circuit 35 reads out all the atmospheric pressure values for the past 12 hours from the memory 34 and sends them to the control circuit 39.The control circuit 39 controls the drive circuit 40 to display the liquid crystal control device 41. , the ring-shaped liquid crystal display device 11 displays a display corresponding to the current atmospheric pressure value in the position indicated by the hour hand, and a display corresponding to the current atmospheric pressure value is displayed in the display category adjacent to the left rotation direction (counterclockwise direction). The barometric pressure value for every two minutes is displayed in the past 12 minutes, and the display section next to the counterclockwise rotation direction displays the barometric pressure value four minutes ago. It is displayed in each of the 360 sub-display sections divided into hours and minutes.In other words, the section displaying the current atmospheric pressure moves to the next one in the clockwise direction every two minutes according to the movement of the hour hand. The atmospheric pressure value once displayed in a division will be held until L2 hours have elapsed and the hour hand points to that display division again to display a new atmospheric pressure value.Therefore, look at the wristwatch in Figure 1. Not only can you tell the time using the digital time display device 12, but you can also immediately and accurately know the past 12 hours of atmospheric pressure values displayed on the ring-shaped liquid crystal display device 11 around it. Therefore, if the atmospheric pressure tends to gradually decrease, we can predict that the weather will worsen, and conversely, if we can judge that the atmospheric pressure tends to gradually increase, the weather will improve. It's predictable. Furthermore, when displaying bar graphs of hourly barometric pressure values as shown in FIG. ) are stored in the memory 34. Then, the hourly atmospheric pressure values from 12 hours ago to the current time are displayed in each of the 12 bar graphs as shown in Figure 2, and when the next atmospheric pressure value is obtained after 1 hour has passed, it is displayed. memory 34
and erase the oldest atmospheric pressure value. In the rectangular liquid crystal display device 21, the 12 bar graphs are placed one on the left.
It moves one by one, and the one on the far left disappears, and a bar graph representing the new atmospheric pressure value appears on the far right. Here, the ring-shaped liquid crystal display device 11 is divided into 360 sections of 1° in the circumferential direction, but it may be divided into 12 sections to display the hourly atmospheric pressure value. In this way, the time interval of atmospheric pressure sampling, how long past atmospheric pressure values are to be displayed, etc. can be arbitrarily determined. Also the second
In the case of a rectangular liquid crystal display device 21 like the one shown in the figure, it is possible to represent the data using a line graph instead of a bar graph. Other display devices may be used as the liquid crystal display devices 11 and 21 as long as they can provide similar display. Furthermore, the time display device M12.22 is not limited to a digital type, but an analog type (needle hole) type can also be used. In addition, although we decided to display the atmospheric pressure in the above example, if a temperature sensor is provided, it is possible to display the temperature including the past temperature, and if an oxygen sensor or gas sensor is provided, it is possible to display the temperature of oxygen, -carbon oxide, carbon dioxide, combustible gas, etc. Can measure and display the concentration of specific gases such as. By measuring and displaying the oxygen concentration, it can be seen that the oxygen concentration is on the decline, and the degree of pollution of the air in the room can be detected, and by ventilation, it is possible to maintain a clean air condition at all times.

【Effect of the invention】

According to the time display device of the present invention, information that changes over time, such as temperature and atmospheric pressure, can be displayed in relation to the current time from the past to the present at each point in time, so it is easy to see the changing trends regarding that time. can be grasped. In other words, when trying to display information that changes over time, such as temperature and atmospheric pressure, from the past to the present at each point in time, if the reference time, that is, the current time, is not clear, it will not be clear which time the past information is displayed. However, since the time is also displayed near this information display, this ambiguity is resolved.

[Brief explanation of the drawing]

FIG. 1 is a front view of one embodiment of the invention, FIG. 2 is a front view of another embodiment, and FIG. 3 is a block diagram of an internal signal processing system in these embodiments. DESCRIPTION OF SYMBOLS 11... Ring type liquid crystal display device, 12.22... Digital time display device, 21... Rectangular liquid crystal display device, 31... Pressure sensor, 32... Signal processing circuit, 3
3... Average value processing concave path, 3-4... Memory, 35.
... Arithmetic circuit, 36... Time measurement circuit, 37... Drive circuit, 38... Time display device, 39... Control circuit, 4
0... Drive circuit, 41... Liquid crystal display device.

Claims (1)

[Claims] (1) In the time display means and in the vicinity of the time display means, among the information that changes over time, the current information is displayed in a predetermined display category, and the information at each past point in time is displayed in the corresponding display category. A time display device comprising a display means for displaying.