JP4381530B2 - clock - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention provides a timekeeping unit for measuring time, a display unit for displaying time, and a time signal to be displayed on the display unit from the timekeeping unit for displaying the time in a predetermined form on the display unit. The present invention relates to a timepiece having a display control unit.
[0002]
[Prior art]
The clock displays the current time on its display unit. For example, most digital clocks display the current time by displaying “hour”, “minute”, and “second” numerically, and the change in time is a number that represents “minute” and “second” (0 to 59). ) In turn, and further by a sequential change in numbers (0 to 12) representing “hour”. Most clocks are not changed in the size, shape, etc. of the numbers that are the elements of the time display format even if the numbers are switched.
[0003]
Since the timepiece with the above display structure is monotonous and not interesting, a timepiece having a recent time display form variable is provided. It is equipped with multiple types of change patterns of display form, and when the user wants to change the display form, the time display form is changed by selecting one of the change patterns with the operation button. Can be done.
[0004]
[Problems to be solved by the invention]
However, even if a plurality of types of change patterns of display forms are prepared, the change forms that appear by selection are determined. In other words, since the change mode corresponding to one selection is uniquely determined, the change in the display form is not surprising and individual, and the watch user loses the freshness in a short period of time, and the added value of the watch is reduced. It was not enough to increase.
[0005]
SUMMARY OF THE INVENTION An object of the present invention is to provide a timepiece in which the change in the display mode of the time displayed on the display unit of the timepiece is surprising and unique.
[0006]
[Means for Solving the Problems]
To achieve the above tasks, First aspect of the present invention Is a timekeeping unit for measuring time, a display unit for displaying time, and a display for receiving a time signal to be displayed on the display unit from the timekeeping unit and displaying the time in a predetermined form on the display unit A timepiece having a control unit, the timepiece being provided with a sensor capable of detecting the surrounding physical state from time to time, and the display unit being configured to variably display a time display form, the display control unit Is configured to change the display mode of the time displayed on the display unit in response to the change in the physical state detected by the sensor when a detection signal is sent from the sensor. It is characterized by being.
[0007]
According to the present invention, it is provided with a sensor capable of detecting the surrounding physical state from moment to moment, and the display control unit is displayed on the display unit in response to the change in the physical state detected by the sensor. The time display format is changed. Therefore, if the sensor is turned on, the time display form can be changed in response to the change in the surrounding physical state that is detected every moment.
[0008]
This is because the user selects how to change the time display mode as compared with the conventional case where the clock user selects with the operation button and the time display form changes in a change pattern that uniquely corresponds to the selection. It can be said that it is much more interesting and surprising. In particular, since a change that does not necessarily match the change intended by the user easily occurs, it can be said that this is surprising in this respect.
[0009]
In addition, since the physical state of the surroundings differs depending on the behavior of the user wearing the clock, the time display mode changes depending on the behavior pattern of the user, even if the same clock is used. come. Therefore, in this respect, it can be said that unique changes inherent to the user wearing the timepiece can be made to the time display form. Further, by changing the behavior of the same person, the change is reflected as a change in the time display form of the clock.
[0010]
As described above, according to the present invention, since the way of changing the time display mode displayed on the display unit of the timepiece has unexpectedness and individuality, the added value of the timepiece can be greatly increased.
[0011]
Also, Second aspect Is First aspect The physical state is a quantitative element such as human body movement, body temperature, heart rate, and the like.
[0012]
According to the present invention, since the physical state detected by the sensor is a quantitative element such as the movement of the human body, body temperature, heart rate, etc., the change corresponding to the change in the state of the person wearing the watch is made into the time display form. It can be added, and it can make individual changes unique to that person. In particular, since a change that does not necessarily match the change intended by the user easily occurs, it can be said that this is surprising in this respect.
[0013]
Also, Third aspect Is First aspect Or Second aspect The time display form is composed of visible elements including the size, shape, display position, and movement of the display target, and one or more of the elements correspond to changes in the physical state detected by the sensor. It is characterized by being configured to change.
According to the present invention, the time display form is composed of visually recognizable elements including the size, shape, display position, and movement of the display target, so that the change can be easily recognized visually.
[0014]
Also, Fourth aspect Is Any one of the first to third aspects In the timepiece described above, the change in the physical state applied for the conversion of the display format of the time is in the past before the time is displayed on the display unit. To do.
According to the present invention, the change in the physical state applied for the conversion of the display format of the time is in the past before the time is displayed on the display unit. Thus, how a certain period in the past before the currently displayed time is spent can be represented by a change in the time display form of the clock. It is preferable that the certain period in the past can be set as appropriate, for example, the immediately preceding 10 seconds, the immediately preceding 30 seconds, the immediately preceding 60 seconds, or the 30 minutes immediately before 5 minutes. Therefore, for example, the change in the physical state during the last 30 seconds can be easily recognized again by the watch user according to the change in the time display form. In particular, when several people gather and compare how their time display changes with their own watches, the changes are unique to each person, increasing the fun and adding value of the watch. Increase.
[0015]
Also, Fifth aspect Is Any one of the first to fourth aspects The display unit is formed of a regular assembly of display pixels using liquid crystal, and the display pixel is a rule in which the shape and size of each display pixel adjacent to each other in at least one direction is constant. It is characterized by being continuously changed with the property.
[0016]
According to the present invention, since the display unit is composed of a liquid crystal display, and the shape and size of each display pixel is continuously changed with a certain regularity, the characters displayed on the display unit are displayed. , Graphics, symbols, and the like are not uniform, and are changed and displayed in accordance with changes in the shape and size of each pixel. That is, it is possible to make the display form expressed by the display unit rich in change with a certain regularity without being monotonous and disordered. Accordingly, it is possible to easily realize the change with the unexpectedness or the individuality when the time display form is changed.
[0017]
Furthermore, if the display unit is used to scroll and display characters, figures, or the like as appropriate within the screen, a richer expression can be realized.
[0018]
Also, Sixth aspect Is Fifth aspect The display pixel is characterized in that the center of the screen has a maximum display area and becomes smaller as it goes to the periphery of the screen.
[0019]
According to the present invention, the central portion of the display screen is displayed with the largest enlargement, and gradually and uniformly decreases from the center to the periphery, so that the display form of characters, figures, symbols, etc. is copied to the convex mirror. The display form can be changed abundantly. Furthermore, when the displayed characters, figures, and the like are scrolled on the screen or moved and displayed as appropriate, the display state changes further according to the display location.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing a schematic configuration of a digital timepiece according to an embodiment of the present invention. In this digital timepiece, as with a normal digital timepiece, the current time is timed by a timekeeping unit 10 that measures time, and a time signal output from the timekeeping unit 10 is sent to the display control unit 11, Then, the processing for displaying the time signal on the display unit 4 is performed, and the display unit 4 is controlled so that the time corresponding to the time signal is displayed in a predetermined display form.
[0021]
In the present invention, a sensor 13 for detecting a time-dependent change in the physical state around the clock is connected to the display control unit 11, and a detection signal of the sensor 13 is used as the display control unit. 11 to be sent. The sensor 13 is configured to be able to be switched on (ON) and off (OFF). When the sensor 13 is turned on, the detection signal is sent to the display control unit 11.
[0022]
Here, as a specific example of the sensor 13, for example, a person wearing a pressure sensor such as a known shock sensor or vibration sensor capable of detecting the state of movement of the human body, or a watch such as a body temperature sensor or a heart rate sensor. In addition to those that detect changes in the physical state unique to the sensor, those that detect changes in the physical state in the surrounding environment, such as an atmospheric pressure sensor and a water pressure sensor. Of course, it is not limited to these sensors, and it is not limited to a specific sensor as long as it can detect a change in the physical state of the watch or the person around the watch.
[0023]
In the present embodiment, as shown in FIG. 2, the display control unit 11 includes a receiving unit 14 that receives a time signal sent from the time measuring unit 10 and a receiving unit that receives a detection signal sent from the sensor 13. 15 is provided. The signals received by the receiving units 14 and 15 are sent to the display form changing unit 16, and the display form changing unit 16 attaches a change in the physical state detected by the sensor 13, for example, a clock. The time display format displayed on the display unit 4 is changed in response to a change such as a violent movement or a quiet movement of a person. In other words, for intense movements, you can imagine that you were moving vigorously, for example, you can change the dynamic feeling. For quiet movements, you can imagine quiet movements, for example, static lines. It is formed to make such changes. The type of change in the display form is set in advance so that it can be imaged corresponding to the difference in detection data by the sensor 13, but the change corresponding to the difference in the detection data in detail. By increasing the number of types, the unexpectedness and individuality of the change can be enhanced when the time display mode is changed.
When the sensor 13 is off, the display control unit 11 sends a signal to the display unit 4 in the normal time display form, and displays the time in a normal display form in which no change is made. Yes.
[0024]
In the present embodiment, the time display form displayed on the display unit 4 is composed of visible elements including the size, shape, display position, and movement of the display target. In the present embodiment, all of these elements are configured to change in response to changes in the physical state detected by the sensor 13. Details of a specific structure for enabling the display form of the display unit 4 itself to change will be described later.
[0025]
Next, the control of the display unit 4 by the display control unit 11 will be described based on the control flowchart of FIG. In the timepiece according to the present embodiment, first, when the receiving unit 15 of the display control unit 11 receives a detection signal from the sensor 13, it is determined in step 101 that the sensor 13 is on, and the process proceeds to step 102. On the other hand, when the sensor 13 is off, the process proceeds from step 101 to step 103, and the normal time display without change is displayed on the display unit 4.
[0026]
In step 102, it is determined whether or not a detection period is set. This detection period can be set as appropriate, for example, the past 10 seconds, the previous 30 seconds, the previous 60 seconds, or the past 30 seconds 5 minutes before the present time, or the present time momentarily. It is like that. It can be said that the more detection types that can be selected, the better. If it is determined in step 102 that there is a selection period, a change in the physical state is detected in step 104 in the selected period. Then, the detected data is sent to the receiving unit 15 of the display control unit 11 and sent to the display form changing unit 16 together with the time signal sent from the time measuring unit 10 to the receiving unit 14 in step 105. A change corresponding to the detection data from the sensor 13 is added to the time display form to be displayed on the display unit 4 by the display form changing unit 16, and the time is displayed on the display unit 4 while the change is made in step 106. .
[0027]
On the other hand, when the detection period is not selected in step 102, detection by the sensor 13 is executed for the standard period predetermined in step 107. This standard period is set in advance to say, for example, the last minute. Then, the process reaches step 105, and the change of the time display form corresponding to the detection data for this standard period is added. Even if the detection period is fixed to one, the physical state around the person wearing the watch is not usually fixed, and therefore unexpected changes can be sufficiently expected from this standard period.
[0028]
Then, in step 108, it is determined whether or not the set period has elapsed. This set period is a period during which display is performed on the display unit 4 in a state where the time display form is changed. It is preferable that this period can be set as appropriate, and in this embodiment, the timepiece user can set the period in the range of 5 to 60 seconds. Depending on how the period is set, the time displayed while changing may be repeated.
[0029]
Next, a specific time display mode and how to change the time display mode will be described with reference to FIGS. FIG. 4 shows a normal time display mode, that is, a display mode without any change. In this example, “5:42:37” is displayed on the display unit 4. If, for example, a shock sensor is used as the sensor 13 and the person wearing the watch moves so hard as to breathe and fall, for example, the sensor 13 detects the intense movement. As shown in FIG. 5, the intense movement can be imagined by changing the time display so that it is broken. Of course, the same image can be given not only by such a changing change but also by emitting light or flashing in a sense of violence. In addition, by arbitrarily causing any of these changes, it is possible to image the intense movement with variations in a plurality of change patterns.
[0030]
In the case of a movement that has moved actively but is still energetic, for example, as shown in FIG. 6, it is possible to imagine the active and energetic state by quickly scrolling the character of the time display. If the user is a little tired, as shown in FIG. 7, the character of the time display can be changed while slowly scrolling, so that the user can feel a little tired. Alternatively, the same image can be given by bending the upper half of the image with the character being nodded.
[0031]
Further, when the person wearing the watch is in a state of hardly moving still, as shown in FIGS. 8 (A) and 8 (B), the time display is slowly changed to be smaller (see FIG. 8). (A)) Furthermore, the above state can be imaged by changing the size so as to be smaller at the corners of the display unit 4 ((B) in the same figure). Of course, in this case as well, it may represent a state where it does not move with another change pattern.
[0032]
In addition, it can be said that the state where it does not move is in the state where the person who attached the clock took off the clock and slept. Therefore, (A) and (B) in FIG. 8 can be used as the three pink mode.
[0033]
When the sensor 13 is a heart rate sensor, when the heart rate is high, the display as shown in FIG. 6 or 5 is performed, and when the heart rate is normal, the normal time display as shown in FIG. Regardless of the intention of the person wearing the clock, its actual mental state appears in the way the clock's time display changes. Therefore, especially when several people gather and compare how the time display forms of their watches change, the mental state is understood from the way of change, and a little fun time is spent on one watch that each person has. be able to.
[0034]
Although this does not correspond to a change in the physical state of the person wearing the watch, in this embodiment, as shown in FIGS. 9A and 9B, the remaining battery level is low. The time display mode is changed so that the smoke disappears, and this change is repeated to notify the battery charging or replacement.
[0035]
When a barometric pressure sensor is used as the sensor 13, a change in barometric pressure at the place where the person wearing the clock is present appears in a change in the time display form of the clock. Therefore, for example, the passage of high pressure or low pressure, flight from take-off when riding on an airplane, etc. can do.
[0036]
Next, a specific structure for enabling each of the above changes on the display unit 4 will be described. FIG. 10 is a plan view of a display portion of a digital timepiece, showing an embodiment of a display portion comprising a liquid crystal display of the digital timepiece according to the present invention. In the present embodiment, as shown in FIG. 10, each display pixel 1 using liquid crystal is composed of a portion surrounded by a plurality of vertical lines 2 and a plurality of horizontal lines 3, and the shape of each display pixel 1 and The size is not disordered but is formed with a constant regular change between neighbors, and the display unit 4 is configured as an aggregate of such display pixels 1. That is, the display pixel 1 is formed by continuously changing the shape and size of each adjacent display pixel in at least one direction with a certain regularity. Structurally, each part sandwiched between adjacent vertical lines 2 corresponds to one transparent electrode, and each part sandwiched between adjacent horizontal lines 3 corresponds to the other transparent electrode intersecting the transparent electrode.
[0037]
In this embodiment, the external shape of the display unit 4 is a shape having an arc-shaped side that protrudes outward on the four sides 5 of the quadrangle, and the continuous change of each display pixel 1 The outer shape is formed so as to follow the shape of the four sides 5. The vertical lines 2 and the horizontal lines 3 correspond to the general regular change state of the display pixel 1. As a result, in this example, as shown in FIG. 10, the display pixel 1 has a maximum display area at the center of the display unit 4 serving as a screen and a smaller display area as it goes to the periphery of the screen. Is formed.
[0038]
Next, a simple method for forming various display portions by regularly changing the shape and size of the display pixel 1 will be described with reference to FIG. Numbers 1 to 5 in FIG. 11A show examples of variations in the outer shape of the display unit 4. In FIG. 1B, No. 1 to No. 5 show examples of variations in the width of one transparent electrode, and Nos. 1 to 5 in FIG. 5C show an example of variations in the width of the other transparent electrode.
[0039]
By appropriately combining the shapes of (A), (B) and (C), that is, based on the width of the transparent electrode of (B) and (C), combining them so as to follow the outer shape of (A) As a result, it is possible to easily change various desired regular changes in the display pixel 1.
[0040]
FIG. 12 shows an example in which the shapes of (A), (B), and (C) are specifically combined. (D) of FIG. 12 shows a set of display pixels 1 formed by combining the outer shape of No. 5 in FIG. 11 (A) and the transparent electrodes No. 2 of (B) and No. 2 of (C). It is. This is the same system as the regular change of the display pixel 1 shown in FIG. 10, and the numeral “26” is displayed as an example. FIG. 11E shows a set of display pixels 1 formed by combining the outer shape of No. 2 in FIG. 11A and the transparent electrodes of No. 3 in FIG. 11B and No. 1 in FIG. is there. FIG. 11F shows a set of display pixels 1 formed by combining the outer shape of No. 3 in FIG. 11A and the transparent electrodes No. 1 of FIG. 11B and No. 5 of FIG. is there.
[0041]
Next, the operation of the liquid crystal display according to the above embodiment will be described. According to the present embodiment, as shown in FIG. 10 or FIG. 12, the display unit 4 is formed by continuously changing the shape and size of each display pixel 1 with a certain regularity. Characters, figures, symbols, etc. displayed on the display unit 4 are not uniform, that is, the display form expressed on the display unit 4 is not monotonous and is not disordered but has a certain regularity. Will be rich in change. In other words, there is an unexpected and individual change regardless of the intention of the person wearing the watch. FIG. 10 shows an example in which “10:42:59” is displayed as a number on the display unit 4.
[0042]
Further, as shown in FIG. 11, the external shape of the display unit 4 is a shape having an arc-shaped side on at least one side 5 of a square, a non-square shape such as a trapezoid and a rectangle, and the continuous shape of each display pixel 1 Since the change is formed so as to follow the outer shape of the display unit 4, that is, the continuous change state of each display pixel 1 is closely linked with the shape of the side 5 which is the outer shape of the display unit 4. Since it is defined, the entire surface from the center part of the display part 4 to the side part 5 and the corner part becomes a display surface rich in the continuous change. Furthermore, manufacturing is easy because it can be designed based on the outer shape.
[0043]
In addition, as shown in FIG. 10, the display pixel 1 has a maximum display area at the center of the screen and a smaller display area toward the periphery of the screen. Is displayed with the largest enlargement, and gradually decreases uniformly from the center to the periphery, so the display form of characters, figures, symbols, etc. is displayed as if projected on a convex mirror, and the display form is rich To change.
Furthermore, when the displayed characters, figures, and the like are scrolled on the screen or moved and displayed as appropriate, the display state changes further according to the display location.
[0044]
Further, as shown in FIG. 12E, for example, the display pixel 1 has a minimum display area at the center of the screen and a large display area as it goes to the periphery of the screen. Contrary to the example of FIG. 10, the central portion of the display screen is displayed with the smallest reduction, and gradually increases uniformly from the center to the periphery, so that the display form of characters, figures, symbols, etc. It is displayed as if it was copied on a concave mirror, and its display form changes abundantly. Similarly to the example of FIG. 10, when the displayed characters, symbols, and the like are scrolled on the screen or appropriately moved and displayed, the display state changes further according to the display location.
[0045]
In addition, as shown in FIG. 12F, the display pixel 1 has a display area that gradually increases from the left side to the right side of the screen, such as graphics, symbols, and the like displayed on the screen. The display form will be displayed gradually larger in the left-right direction, as if it were expressed using perspective. Also, in this example, when the displayed characters, symbols, etc. are scrolled on the screen or moved as appropriate, the display state changes more abundantly depending on the display location.
[0046]
Next, the operation of the digital timepiece according to the above embodiment will be described. According to the present embodiment, the sensor 13 capable of detecting the surrounding physical state from moment to moment is provided, and the display control unit 11 displays a display unit corresponding to the change in the physical state detected by the sensor 13. 4 is configured to change the display format of the time displayed at 4. Therefore, if the sensor 13 is turned on, the time display form can be changed corresponding to the change in the surrounding physical state that is detected every moment.
[0047]
This is because the user selects how to change the time display mode as compared with the conventional case where the clock user selects with the operation button and the time display form changes in a change pattern that uniquely corresponds to the selection. It can be said that it is much more interesting and surprising. In particular, since a change that does not necessarily match the change intended by the user easily occurs, it can be said that this is surprising in this respect.
[0048]
In addition, since the physical state of the surroundings differs depending on the behavior of the user wearing the clock, the time display mode changes depending on the behavior pattern of the user, even if the same clock is used. come. Therefore, in this respect, it can be said that unique changes inherent to the user wearing the timepiece can be made to the time display form. Further, by changing the behavior of the same person, the change is reflected as a change in the time display form of the clock.
[0049]
As described above, according to the present invention, since the way of changing the time display form displayed on the display unit 4 of the timepiece has unexpectedness and individuality, the added value of the timepiece can be greatly increased.
[0050]
In addition, as a physical state detected by the sensor, a quantitative element such as a human body movement, body temperature, heart rate, etc. can add a change corresponding to the state change of the person wearing the clock to the time display form. It is possible to make individual changes unique to the person.
[0051]
Moreover, the thing which comprised the said time display form from the element which can be visually recognized including the magnitude | size of a display object, a shape, a display position, and a motion can visually recognize the change easily.
[0052]
The change of the physical state added for the conversion of the display format of the time is assumed to be the past before the time when the time is displayed on the display unit 4 is the time currently displayed How a certain period in the past is spent can be represented by a change in the time display form of the clock. Therefore, for example, the change in the physical state during the last 30 seconds can be easily recognized again by the watch user according to the change in the time display form. In particular, when several people gather and compare how their time display changes with their own watches, the changes are unique to each person, increasing the fun and adding value of the watch. Increase.
[0053]
The display unit 4 is composed of a liquid crystal display, and the shape and size of each display pixel are continuously changed with a certain regularity. Characters and graphics displayed on the display unit 4 The symbols and the like are not uniform, and are changed and displayed in accordance with the change state of the shape and size of each pixel. In other words, the display form expressed by the display unit 4 is not monotonous and not disordered, but can be varied with a certain regularity. Accordingly, it is possible to easily realize the change with the unexpectedness or the individuality when the time display form is changed.
[0054]
Furthermore, if the display unit is used to scroll and display characters, figures, or the like as appropriate within the screen, a richer expression can be realized.
[0055]
【The invention's effect】
As described above, according to the present invention, it is provided with a sensor capable of detecting the surrounding physical state from moment to moment, and the display control unit responds to the change in the physical state detected by the sensor. It is comprised so that a change may be made to the display format of the time displayed on a part. Therefore, if the sensor is turned on, the time display form can be changed in response to the change in the surrounding physical state that is detected every moment.
[0056]
In addition, since the physical state of the surroundings differs depending on the behavior of the user wearing the clock, the time display mode changes depending on the behavior pattern of the user, even if the same clock is used. come. Therefore, in this respect, it can be said that unique changes inherent to the user wearing the timepiece can be made to the time display form. Further, by changing the behavior of the same person, the change is reflected as a change in the time display form of the clock.
[0057]
As described above, according to the present invention, since the way of changing the time display mode displayed on the display unit of the timepiece has unexpectedness and individuality, the added value of the timepiece can be greatly increased.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a schematic configuration of a digital timepiece according to an embodiment of the present invention.
FIG. 2 is a block diagram showing a configuration of a display control unit according to the embodiment.
FIG. 3 is a control flowchart of the display unit by the display control unit.
FIG. 4 is a plan view showing a display unit of a timepiece according to an embodiment of the present invention and being displayed in a normal time display format.
FIG. 5 is a plan view showing an example of a change method corresponding to a change in the physical state around the time display form according to the present invention.
FIG. 6 is a plan view showing another example of a change method corresponding to a change in the physical state around the time display mode according to the present invention.
FIG. 7 is a plan view showing another example of a change method corresponding to a change in the surrounding physical state of the time display mode according to the present invention.
FIG. 8 is a plan view showing another example of a change method corresponding to a change in the surrounding physical state of the time display mode according to the present invention, in which (A) shows a change about half of the total change; , (B) shows a state in which all changes have been made.
FIG. 9 is a plan view showing a state in which the remaining amount of the battery is low in the display unit according to the present invention by a change in the time display form, and (A) is a first-stage change from the normal time display form. (B) The final state of change is shown.
FIG. 10 is a plan view of a display portion of a digital timepiece, showing an embodiment of a liquid crystal display according to the present invention.
11 is a diagram for explaining a simple method for forming various display portions by regularly changing the shape and size of display pixels of the liquid crystal display according to the embodiment; FIG.
FIG. 12 is a diagram showing an example in which the shapes of FIGS. 11A, 11B, and 11C are specifically combined.
[Explanation of symbols]
1 Display pixel
2 Vertical lines
3 horizontal lines
4 display section
5 sides
10 Timekeeping Department
11 Display controller
13 Sensor
16 Display form change part

Claims (11)

A time measuring unit for measuring time, a display unit for displaying time, and a display control unit for receiving a time signal to be displayed on the display unit from the time measuring unit and displaying the time in a predetermined form on the display unit A watch with
The timepiece includes a sensor capable of detecting a physical state unique to the user wearing the timepiece from time to time,
The display unit is configured to change the display mode of time,
The display control unit changes the display mode of the time displayed on the display unit in response to the change in the physical state detected by the sensor when a detection signal is sent from the sensor. Composed of
The physical state is a quantitative element such as a body movement, a body temperature, a heart rate, etc. of a user wearing the timepiece. A time measuring unit for measuring time, a display unit for displaying time, and a display control unit for receiving a time signal to be displayed on the display unit from the time measuring unit and displaying the time in a predetermined form on the display unit A watch with
The timepiece is equipped with a sensor that can detect the surrounding physical state momentarily.
The display unit is configured to change the display mode of time,
The display control unit changes the display mode of the time displayed on the display unit in response to the change in the physical state detected by the sensor when a detection signal is sent from the sensor. Composed of
2. The timepiece according to claim 1, wherein the change of the physical state applied for the conversion of the display format of the time is a past thing before the time when the time is displayed on the display unit . A time measuring unit for measuring time, a display unit for displaying time, and a display control unit for receiving a time signal to be displayed on the display unit from the time measuring unit and displaying the time in a predetermined form on the display unit A watch with
The timepiece is equipped with a sensor that can detect the surrounding physical state momentarily.
The display unit is configured to change the display mode of time,
The display control unit changes the display mode of the time displayed on the display unit in response to the change in the physical state detected by the sensor when a detection signal is sent from the sensor. Composed of
The display unit includes a liquid crystal display formed by a regular assembly of display pixels using liquid crystal, and the display pixel has a constant shape and size of each adjacent display pixel in at least one direction. A timepiece that is formed by changing continuously with regularity . 2. The change in the physical state added for conversion of the display format of the time according to claim 1, wherein the change is in the past before the time is displayed on the display unit. clock. 3. The timepiece according to claim 2, wherein the physical state is a quantitative element such as movement of a human body, body temperature, heart rate or the like. 5. The time display form according to claim 1, claim 2, claim 4 or claim 5, wherein the time display form includes visible elements including a size, a shape, a display position, and a movement of a display target, and one or more of the elements. Is configured to change in response to a change in a physical state detected by the sensor. 2. The display unit according to claim 1, wherein the display unit includes a liquid crystal display formed by a regular assembly of display pixels using liquid crystal, and the display pixel has a shape of each display pixel adjacent to each other in at least one direction and A timepiece having a size that is continuously changed with a certain regularity . 4. The timepiece according to claim 3, wherein the physical state is a quantitative element such as movement of the human body, body temperature, heart rate or the like. 9. The time display form according to claim 3, wherein the time display form includes visible elements including a size, a shape, a display position, and a movement of a display target, and at least one of the elements is the sensor. A timepiece configured to change in response to a detected change in a physical state. In any one of Claim 3, Claim 7 to Claim 9, the change of the said physical state added for conversion of the display format of the said time is from the time of the time being displayed on the said display part. A watch characterized by being in the past . 11. The display pixel according to claim 3, wherein the display pixel has a maximum display area at the center of the screen and a smaller display area toward the periphery of the screen. A watch characterized by that.

Images