JP3633512B2 - Pointer-type electronic timepiece, operation method of pointer-type electronic timepiece, control program for pointer-type electronic timepiece - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a pointer-type electronic timepiece, a method for operating a pointer-type electronic timepiece, and a control program for a pointer-type electronic timepiece, and in particular, has a hand other than a hand for displaying a normal time, such as a chronograph hand or an alarm hand. The present invention relates to a pointer type electronic timepiece.
[0002]
[Background]
In recent years, not only digital electronic timepieces but also hand-held electronic timepieces are strongly demanded to add multi-functions such as chronographs, alarms and timers, and various multi-function hand-held electronic timepieces have been commercialized. Yes.
These pointer-type electronic timepieces include time indication hands (basic timepiece hands) such as hour hand, minute hand, and second hand, as well as chronograph measurement display hands, alarm time setting hands, altimeter, etc. When a variety of sensors are built in, pointers for displaying the measured values are set on the dial with a dedicated small window.
[0003]
Each such pointer is normally driven by an individual step motor. For example, in addition to a time display step motor, when a chronograph pointer, for example, a 1/5 second chronograph hand (1/5 second CG hand) and a minute chronograph hand (minute CG hand) are provided, Two step motors for driving each are separately provided. Further, when an alarm pointer is provided, a step motor for driving the pointer is separately provided, and when a sensor such as an altimeter is provided, a step motor for driving the pointer is separately provided.
[0004]
By the way, among these hands, the hand for time display usually performs basic time correction by pulling out the crown to the hand alignment position and turning the crown in that state.
On the other hand, each CG hand, alarm pointer, sensor pointer, and the like need to be aligned in order to set initial values. That is, each CG hand or the like returns to the 0 position by the reset operation, but the return position by the reset operation may deviate from the predetermined 0 position, for example, when the circuit is initialized by battery replacement or the like.
[0005]
In order to correct such a positional deviation, conventionally, a button is provided for each pointer driven by each step motor, and the positional deviation is corrected by operating a button corresponding to the pointer to be corrected. For example, if there are three step motors for driving the 1/5 second CG hand, minute CG hand, and alarm hand in addition to the normal time display step motor, there are three switches in addition to the crown. (Button) is provided, and the initial position of the pointer driven by each step motor is corrected by operating each switch.
[0006]
[Problems to be solved by the invention]
However, if a switch is provided for each such pointer, there is a problem that the number of switches increases, which hinders a reduction in the size and thickness of the movement or increases costs.
In addition, when the number of switches increases, it becomes difficult to identify the switch corresponding to the pointer to be corrected, and there is a problem that the operability is lowered.
[0007]
It is an object of the present invention to operate a pointer-type electronic timepiece and a pointer-type electronic timepiece that can be easily corrected even when the number of hands is increased without the need to increase the number of external operation members such as switches. A method and a control program for a pointer-type electronic timepiece are provided.
[0008]
[Means for Solving the Problems]
The pointer-type electronic timepiece of the present invention includes a plurality of step motors, a plurality of hands driven by the step motor, and a plurality of external operation members. A pointer selection unit that selects a pointer to be corrected from the plurality of pointers by an operation, and a pointer alignment unit that aligns the selected pointer by an operation of another external operation member. It is what.
[0009]
In the present invention, since the pointer to be corrected is selected by one external operation member and the pointer selected by the other external operation member is aligned, at least two external members can be used regardless of the number of pointers. If there is an operation member, each pointer can be aligned. Therefore, it is not necessary to increase the number of external operation members even if the number of hands is increased, the movement can be reduced in size and thickness, and the cost can be reduced.
Furthermore, each pointer can be aligned by simply operating two external operation members, and one of the external operation members has a selection function of the pointer, and the other has a function of correcting the selected pointer and a function of each external operation member. Therefore, operability can be improved.
[0010]
Here, the number of step motors is preferably larger than the number of external operation members. In the present invention, for example, even in a timepiece having only two step motors, an external operation member that selects a correction target pointer, that is, a step motor that drives the pointer, and an external operation member that aligns the pointer May be provided, and the number of step motors and external operation members may be the same. However, if the number of step motors is larger than that of the external operation member, it is possible to incorporate pointers indicating the measured values of sensors such as CG hands, alarm pointers, and altimeters, thereby realizing a multifunction watch. In the case where the crown is included as an external operation member, and the step motor is selected and the pointer is aligned with an external operation member such as a button other than the crown, the number of external operation members other than the crown is determined. However, the number of step motors may be increased.
[0011]
In the pointer-type electronic timepiece of the invention, at least one of the external operation members is a crown that can be pulled out to a plurality of preset positions, and the pointer selection means includes the crown in a predetermined position. A selection mode setting means for setting the one external operation member to a pointer selection mode when the crown is pulled out, and the pointer positioning means is configured such that when the crown is pulled out to a predetermined one position, It is preferable to include an alignment mode setting means for setting the other one external operation member to the alignment mode of the pointer to be selected.
[0012]
After the crown is pulled out to a predetermined pull-out position, only the external operation members are operated to select (select) and align (set) the pointer, thereby improving operability. Furthermore, when the crown is set to another drawer position, other functions can be set for each external operation member, and more functions can be realized. Furthermore, since the pointer selection and pointer correction functions work only when the crown is explicitly moved, it is possible to reduce erroneous operations and perform operations that are easy for the user to understand.
[0013]
Here, it is preferable that the predetermined one position where the crown is pulled out is a position where the time of the hands of the basic timepiece is corrected when the crown is rotated.
With this configuration, when the crown is rotated to the predetermined pulling position, the time of the hands of the basic clock can be adjusted by rotating the crown, and when each external operation member is operated, Alignment can be performed. Accordingly, since the crown can be pulled out to one position when the pointer is corrected, it is easy for the user to remember. For this reason, even if it is operation with little frequency called correction operation | movement of a needle | hook, the operativity can be improved.
[0014]
The pointer-type electronic timepiece of the present invention Is And a selection target display means for displaying the pointer selected as the correction target by the operation of the external operation member by performing a predetermined movement operation and indicating that the pointer is the selection target. As a requirement .
Here, the predetermined movement operation by the selection target display means is preferably to move the pointer from the current position and return to the current position again, and in particular, to perform an operation of rotating the pointer at least once. Is preferred.
[0015]
For example, if the pointer to be corrected performs a predetermined movement operation such as one turn of the needle or a back and forth movement at a predetermined angle, the currently selected pointer can be easily confirmed, and the correction operation is easily performed. be able to. At this time, if the moved pointer is returned to the current position, other than the corrected pointer can be returned to the original position, which makes it easy to grasp which pointer has been corrected and improves operability.
Further, if the operation of rotating the pointer once is performed, it becomes very easy to grasp the selected pointer, and the drive control can be performed only by inputting a signal for rotating the pointer once to the step motor. It will be easy.
In order to display the selection target, the pointer may be rotated two or more times. However, as the number of laps increases, the operation time becomes longer, so that there is an advantage that it stands out for display purposes, but there is a possibility that the next work is awaited. For this reason, it can be said that the number of rounds is preferably about one or two.
[0016]
In the present invention, in order to perform the selection target display described above, The counter values of the first counter that counts the input pulses of a predetermined time reference signal and the second counter provided corresponding to the first counter correspond to the pointers. A coincidence circuit for detecting whether or not each counter value does not coincide, and a pulse signal corresponding to the difference is output to the step motor for driving, and a signal generator for input to the second counter is provided. The selection target display means is configured to input at least one pulse to the second counter when each pointer is selected, thereby rotating the pointer at least once. Shall .
With this configuration, it is only necessary to input one pulse to the second counter in order to rotate the selected pointer once, so that a very simple structure can be achieved. One pulse is sufficient to input one round, but a plurality of pulses may be input. When the pointer is circulated a plurality of times, the next pulse is input after the previous lap has been completed.
[0017]
In the pointer-type electronic timepiece according to the invention, the crown can be pulled out to a plurality of preset positions, and the pointer selection means can detect the first correction target when the crown is pulled out to a predetermined position. Standard selection means for selecting a pointer, and selection switching means for sequentially selecting other correction target pointers when the one external operation member is operated in a state where the crown is pulled out to a predetermined position. It is preferable.
By simply pulling out the crown to a predetermined position, if the first correction target pointer is selected first, the selection operation of the pointer can be reduced. In particular, the first correction target is selected with a frequently used alarm hand or the like. If it exists, the operability at the time of correction can be improved.
[0018]
In the pointer-type electronic timepiece of the invention, the crown can be pulled out to a plurality of preset positions, and the pointer selecting means can be configured such that the one external operation member is in a state where the crown is pulled out to a predetermined position. It is also possible to have a selection switching means for sequentially selecting the pointers to be corrected when the button is operated.
In this case, since the operation of correcting the alignment of the pointer selected by the second external operation member after the selection of the pointer to be corrected by the first external operation member is constant, the user can There is an advantage that it is easy to grasp the correction operation.
[0019]
The plurality of pointers are configured to include an alarm pointer and a chronograph pointer, and the pointer selection means first selects the alarm pointer when selecting a correction target pointer from these pointers. It is preferable to do.
The chronograph pointer or the like only needs to be aligned only when the reset position is shifted during battery replacement or the like, and the frequency is not so high. On the other hand, since the alarm hand is a separate clock from the normal time display hand, functions other than the alarm function such as a world time function with a time difference at the current time can be provided. For this reason, when the position adjustment operation of the alarm pointer to the current time is performed by each of the external operation members, the correction operation of the alarm hand becomes more frequent than the correction operation of the CG hand. Therefore, when the crown is pulled out, it is possible to improve the efficiency of the correction operation by first selecting the alarm pointer as a correction target.
[0020]
An operation method of the present invention is an operation method of a pointer-type electronic timepiece having a plurality of step motors, a plurality of hands driven by the step motors, and a plurality of external operation members. A pointer to be corrected is selected from the plurality of pointers by operating one external operating member, and the selected pointer is aligned by operating another external operating member.
[0021]
In the present invention, since the pointer to be corrected is selected by one external operation member and the pointer selected by the other external operation member is aligned, at least two external members can be used regardless of the number of pointers. If there is an operation member, each pointer can be aligned. Therefore, it is not necessary to increase the number of external operation members even if the number of hands is increased, the movement can be reduced in size and thickness, and the cost can be reduced.
Furthermore, each pointer can be aligned by simply operating two external operation members, and one of the external operation members has a selection function of the pointer, and the other has a function of correcting the selected pointer and a function of each external operation member. Therefore, operability can be improved.
[0022]
In the operation method of the present invention, as at least one of the external operation members, a crown that can be pulled out to a plurality of preset positions is used, and when the crown is pulled out to one predetermined position, It is desirable to select a pointer to be corrected with one external operation member and align the pointer selected with the other external operation member.
[0023]
After the crown is pulled out to a predetermined pull-out position, only the external operation members are operated to select (select) and align (set) the pointer, thereby improving operability. Furthermore, when the crown is set to another drawer position, other functions can be set for each external operation member, and more functions can be realized. Furthermore, since the pointer selection and pointer correction functions work only when the crown is explicitly moved, it is possible to reduce erroneous operations and perform operations that are easy for the user to understand.
[0024]
Operation method of the present invention Then , By causing the pointer selected as the correction target by the operation of the external operation member to perform a predetermined movement operation to display that the pointer is the selection target Become a requirement .
For example, if the pointer to be corrected performs a predetermined movement operation such as one turn of the needle or a back and forth movement at a predetermined angle, the currently selected pointer can be easily confirmed, and the correction operation is easily performed. be able to. At this time, if the moved pointer is returned to the current position, other than the corrected pointer can be returned to the original position, which makes it easy to grasp which pointer has been corrected and improves operability.
[0025]
The control program of the present invention is incorporated in a pointer-type electronic timepiece having a plurality of step motors, a plurality of hands driven by the step motors, and a plurality of external operation members, for performing a correction operation of each hand. A control program for a pointer-type electronic timepiece, wherein the pointer incorporated in the pointer-type electronic timepiece selects a pointer to be corrected from the plurality of hands by operating one of the external operation members. And a procedure for positioning the selected pointer by operating another one of the external operation members.
[0026]
In the present invention, since the pointer to be corrected is selected by one external operation member and the pointer selected by the other external operation member is aligned, at least two external members can be used regardless of the number of pointers. If there is an operation member, each pointer can be aligned. Therefore, it is not necessary to increase the number of external operation members even if the number of hands is increased, the movement can be reduced in size and thickness, and the cost can be reduced.
[0027]
Furthermore, each pointer can be aligned by simply operating two external operation members, and one of the external operation members has a selection function of the pointer, and the other has a function of correcting the selected pointer and a function of each external operation member. Therefore, operability can be improved.
Furthermore, since the correction operation function as described above can be provided by software, it is possible to easily change the function and the like, and it is possible to easily revise the function of a watch already provided on the market by replacing the program.
[0028]
In the control program of the present invention, the pointer-type electronic timepiece includes a crown that can be pulled out to a plurality of preset positions as at least one of the external operation members. When the crown is pulled out to a predetermined one position in the built-in computer, the procedure for selecting the pointer to be corrected by the one external operation member, and the crown is pulled out to the predetermined one position. In this case, it is desirable to execute a procedure for aligning the selected pointer with the other one external operation member.
[0029]
After the crown is pulled out to a predetermined pull-out position, only the external operation members are operated to select (select) and align (set) the pointer, thereby improving operability. Furthermore, when the crown is set to another drawer position, other functions can be set for each external operation member, and more functions can be realized. Furthermore, since the pointer selection and pointer correction functions work only when the crown is explicitly moved, it is possible to reduce erroneous operations and perform operations that are easy for the user to understand.
[0030]
Control program of the present invention Then A procedure for causing a computer incorporated in the pointer-type electronic timepiece to perform a predetermined movement operation on the pointer selected as a correction target by operating the external operation member and to display that the pointer is a selection target. To be executed Become a requirement .
For example, if the pointer to be corrected performs a predetermined movement operation such as one turn of the needle or a back and forth movement at a predetermined angle, the currently selected pointer can be easily confirmed, and the correction operation is easily performed. be able to. At this time, if the moved pointer is returned to the current position, other than the corrected pointer can be returned to the original position, so that it becomes easy to grasp which pointer has been corrected and the operability can be improved.
[0031]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
As shown in FIG. 1, the pointer-type electronic timepiece 1 includes an hour hand 11, a minute hand 12, and a small second hand 13 that perform normal time display. The small second hand 13 is disposed at a position shifted from the central axis of the timepiece 1 in the 9 o'clock direction of the dial.
[0032]
The pointer-type electronic timepiece 1 is arranged on the same axis as the hour hand 11 and the minute hand 12, and a 1/5 second CG hand (1/5 second chronograph hand) for displaying a chronograph second in 1/5 second increments. 15 and a minute CG hand (minute chronograph hand) 16 which is disposed at a position shifted in the 12 o'clock direction with respect to the central axis of the timepiece 1 and performs chronograph display in 1 minute increments. Further, the timepiece 1 is provided with an alarm hour hand 17 and an alarm minute hand 18 which are arranged at positions shifted in the 6 o'clock direction with respect to the central axis of the timepiece 1.
The pointer-type electronic timepiece 1 is provided with a crown 5 that is an external operation member, and an A button (switch A, SWA) 6 and a B button (switch B, SWB) 7 that are also external operation members. . In addition, the pointer-type electronic timepiece 1 includes an alarm 19 that uses sound such as an electronic buzzer.
[0033]
As shown in FIG. 2, the hands 11 to 13 and 15 to 18 are respectively driven by four step motors. That is, the hour hand 11, the minute hand 12, and the small second hand 13 are driven by the step motor M9, the minute CG hand 16 is driven by the step motor M0, the 1/5 second CG hand 15 is driven by the step motor MC, and the alarm minute hand 18 And the alarm hour hand 17 linked to this is driven by the step motor M6.
Specifically, each of these step motors is driven via each motor driver 25 to 28 by inputting a predetermined pulse to the drive pulse generation circuits 21 to 24 (see FIG. 3).
The configuration of the drive mechanism (wheel train or the like) for driving the hands 11 to 18 by these step motors is the same as that of the prior art disclosed in Japanese Patent No. 299849, and the description thereof will be omitted.
[0034]
In order to perform drive control of each of these stepping motors, a drive control circuit 20 is built in the pointer-type electronic timepiece 1.
The drive control circuit 20 normally drives each step motor based on a drive signal from a crystal oscillation circuit 31 (see FIG. 3, details will be described later), and the hour hand 11 and the minute hand 12 via the step motor M9. A basic pointer drive control unit 201 for driving and controlling the small second hand 13, a minute CG hand drive control unit 40 for driving the minute CG hand 16 via the step motor M0, and a 1/5 second CG hand via the step motor MC. 1/5 CG needle drive control unit 50 for driving 15.
[0035]
The drive control circuit 20 also serves as an alarm control means, includes an alarm hand drive control unit 60 as an alarm control unit, and includes an alarm including adjustment of an alarm hour hand 17 and an alarm minute hand 18 which are alarm pointers via a step motor M6. In addition to setting, control is performed to sound the alarm 19 at a predetermined setting time.
[0036]
The drive control circuit 20 adjusts the hands 11 to 13 and 15 to 18 for displaying time by operating one of the external operation members (the crown 5, the A button 6 and the B button 7). A pointer selecting unit 202 that selects a pointer to be selected, and a pointer positioning unit 203 that aligns the pointer selected by any other operation.
[0037]
In order to operate the pointer selecting means 202 and the pointer positioning means 203, the pointer-type electronic timepiece 1 has a built-in switch control unit 70.
The switch control unit 70 receives the operation of the external operation member (the crown 5, the A button 6, the B button 7), and identifies the pull-out position (0th stage, 1st stage, 2nd stage) of the crown 5. A crown position detection unit 701, a switch A detection unit 702 that detects the pressing operation of the A button 6, and a switch B detection unit 703 that detects the pressing operation of the B button 7 are provided. Then, the switch control unit 70 sends a signal according to the operation state from the outside to the drive control circuit 20 so that various adjustments and the like are performed.
[0038]
Therefore, the pointer (minute CG hand 16, 1/5 second CG hand 15, pointer 17 indicating the alarm time) to be corrected by the pointer selecting means 202 by the operation of any of the external operation members (for example, pulling out the crown 5). 18) is selected, and the pointer selected by the pointer positioning means 203 is adjusted by operating another external operation member (for example, pressing the A button 6).
At this time, a selection target display means 204 is provided in the drive control circuit 20 to indicate which pointer is the operation target. The selection target display unit 204 can understand the operation target without using a special display unit, for example, by rotating the selected pointer once.
[0039]
Furthermore, a selection switching unit 206 is installed in the pointer selection unit 202, and the selection target pointer is sequentially switched by the same operation when selecting the pointer to be adjusted.
In addition, a standard selection unit 205 is installed in the pointer selection unit 202, and a predetermined selection target (for example, an alarm pointer) is selected at the first selection for entering the adjustment of the pointer from the normal display state. It has become.
[0040]
In the pointer-type electronic timepiece 1, each unit and each unit of the drive control circuit 20 and each unit of the switch control unit 70 may have a hardware configuration mainly including a logic circuit to be described later. At this time, a part of each part and each means described above may be shared or shared by other parts. On the other hand, the pointer-type electronic timepiece 1 may have a built-in small computer system for device incorporation, and the computer system may execute a control program to realize the above-described units and means as software. A combination of such a software configuration and the configuration using the logic circuit described above may be used.
[0041]
Next, specific drive control of each step motor will be described with reference to the control block diagrams of FIGS.
The drive control circuit 20 of each step motor includes a crystal oscillation circuit (OSC) 31 that outputs a time reference signal. The oscillation signal from the crystal oscillation circuit 31 is frequency-divided by the first frequency dividing circuit (DIV1) 32 and the second frequency dividing circuit (DIV2) 33 to be a 1 Hz signal and input to the drive pulse generating circuit 21.
[0042]
The drive pulse generation circuit 21 outputs a drive pulse to the motor driver 25 in response to the 1 Hz signal input to drive the step motor M9. As a result, the small second hand 13 moves for one second (one pulse). Further, the minute hand 12 and the hour hand 11 move in conjunction with the movement of the small second hand 13.
The motor driver 25 also detects the rotation of the step motor M9 and feeds back the information to the drive pulse generation circuit 21. When the step motor M9 is not rotating, the drive pulse generation circuit 21 generates a drive pulse again to rotationally drive the step motor M9. Thus, the function of the basic pointer drive control unit 201 is realized.
[0043]
The output signal 1 Hz of the second frequency dividing circuit 33 is also input to the logic slow / fast circuit 34. In order to correct the deviation from the absolute time of the time reference signal output from the oscillation circuit 31, the logic slow / rapid circuit 34 is a frequency-divided signal that is a time reference signal or a basic signal (in this embodiment, the first frequency dividing circuit 32). Output signal) is digitally expanded / decreased by a necessary correction amount (slow / fast amount) every predetermined correction cycle (slow / fast cycle). In this embodiment, a signal is sent to the first frequency dividing circuit 32 every 10 seconds. Has been output.
[0044]
The output of the first frequency dividing circuit 32 is also input to the third frequency dividing circuit (DIV3) 35. The third frequency divider 35 outputs a 5 Hz signal, and this signal is input to the 1/5 second CG hand drive controller 50.
Further, as will be described later, a pulse signal for every minute from the 1/5 second CG hand drive controller 50 is input to the minute CG hand drive controller 40.
Further, a signal output every 10 seconds from the logic slow / fast circuit 34 is also input to the minute alarm counter 36. The minute alarm counter 36 is a 3-bit hex counter, and outputs a pulse signal to the alarm hand drive controller 60 every time 6 pulses of a signal every 10 seconds are input, that is, every minute.
[0045]
And the pulse signal from each of these drive control parts 40, 50, 60 is input into the said drive pulse generation circuits 22-24, and the drive of each step motor is controlled. Further, a signal is output from the alarm hand drive control unit 60 to the alarm sound generating circuit 29, and an alarm is sounded by the alarm driver 30.
[0046]
The minute CG hand drive control unit 40 includes a minute CG counter 41, a minute CG hand 0 position counter 42, a first latch circuit 43, a first coincidence circuit 44, and a first control circuit 45, as will be described in detail in FIG. ing.
Similarly, the 1/5 second CG hand drive control unit 50 includes a 1/5 second CG counter 51, a 1/5 second CG hand 0 position counter 52, a second latch circuit 53, a second matching circuit 54, and a second control circuit. 55.
[0047]
Further, the alarm hand drive controller 60 includes a minute / hour alarm counter 61, a minute / hour alarm hand 0 position counter 62, a third latch circuit 63, a third matching circuit 64, and a third control circuit 65. In the present embodiment, the third latch circuit 63 is not always required to be in a non-latched state, but is left so that it can also be used when an hour CG hand is provided instead of the alarm hands 17 and 18.
[0048]
As shown in FIG. 5, the 1/5 second CG second counter 51 is composed of a 9-bit counter, and when the counter value reaches “300”, a signal is input to the reset terminal R to reset the counter. It is a counter. Therefore, every time 300 pulses of a 5 Hz signal are input to the clock input, that is, one minute can be counted. A predetermined pulse signal (CG 1 minute) is output to the minute CG counter 53 every minute. Similarly, the 1/5 second CG hand 0 position counter 52 is a 9-bit, 300 base counter.
[0049]
Further, the minute CG counter 41 is a 6-bit 60-digit counter. Therefore, it is possible to count for 1 hour every time 60 pulse signals per minute are input. A pulse signal is output from the minute CG counter 41 every hour, and is input to a 12-hour detection counter 37 of 4 bits 12 decimal. When the 12-hour detection counter 37 detects that 12 hours have elapsed, that is, when the measurement time of the stopwatch (chronograph) reaches 12 hours, the measurement is automatically stopped, reset, and each 1 / The 5-second CG hand 15 and the minute CG hand 16 are returned to the reset state.
Similarly to the minute CG counter 41, the minute CG hand 0 position counter 42 is a 6-bit 60-decimal counter.
[0050]
The minute / hour alarm counter 61 is a 10-bit 720-digit counter, and can count up to 720 minutes (60 minutes × 12 hours) so that a signal per minute from the minute alarm counter 36 can be measured by 720 pulses. Has been.
Similarly, the minute / hour alarm hand 0 position counter 62 is a 10-bit 720-degree counter.
[0051]
Each of the control circuits 45, 55, 65 resets the counters 41, 42, 51, 52, 61, 62 when the counter values are set, and outputs the matching circuits 44, 54, 64. A predetermined pulse signal (for example, a 128 Hz pulse signal) is output to each of the drive pulse generation circuits 22 to 24 according to the crown position signal, SWA, SWB signal, and the like.
As an example, as shown in FIG. 5, the control circuit 55 includes a reset processing unit 80 including a NOR gate 81 and the like for resetting each counter 51, 52 when the counter value reaches a set counter value, a flip-flop 82, an AND gate 83, etc., and a predetermined pulse signal (for example, a 128 Hz pulse) is supplied to the drive pulse generation circuit 23 (see FIGS. 3 and 4) in accordance with the output of the coincidence circuit 54, the crown position signal, the SWA and SWB signals, Signal generation unit 85 that outputs a signal).
The other control circuits 45 and 65 have the same configuration.
[0052]
Further, the operation of the crown 5, the A button (SWA) 6, and the B button (SWB) 7 is detected by the switch control unit 70 as shown in FIG. Then, according to the crown position and each switch operation, a reset signal, a split signal, a crown position signal, a 0 set signal (0set1 to 0set3), etc. are output so that each function as shown in FIG. 6 is executed. It is configured.
[0053]
The crown 5 can be pulled out in three stages, that is, the 0th stage (RM0), the 1st stage (RM1), and the 2nd stage (RM2). The pulling position is that the switch RM1 and the switch RM2 are in the ON state. Or whether it is in an OFF state. That is, when crown 5 is in the 0th stage, both switches RM1 and RM2 are turned off, in the 1st stage, only switch RM1 is turned on, and in the 2nd stage, only switch RM2 is turned on. The
When the A button 6 is pressed, the switch A (SWA) is turned on, and when the B button 7 is pressed, the switch B (SWB) is turned on.
[0054]
Next, the operation in this embodiment will be described with reference to the timing chart of FIG.
(Crown rotation function)
The rotation function of the crown 5 is the same as that of a normal watch. As shown in FIG. 6, the 0th stage is free even if it is rotated. Then, the hands of the basic timepiece of the hour hand 11, the minute hand 12, and the small second hand 13 are adjusted.
[0055]
(Chronograph start / stop)
When the crown 5 is in the 0th stage, in the initial state, the third frequency dividing circuit 35 and the counters 41 and 51 are reset by receiving a reset signal from the switch control unit 70. When the A button 6 (SWA) is pressed, the reset state is canceled and the chronograph function starts.
Then, a 5 Hz signal is input from the third frequency divider 35 to the 1/5 second CG second counter 51, and the counter value of the counter 51 is incremented by 1 every 1/5 second. When the counter value of the counter 51 increases by 1, the second latch circuit 53 that is not in the latched state passes through the value of the counter 51 as it is. Then, in the second matching circuit 54 that compares the value of the second latch circuit 53 and the value of the 1/5 second CG hand 0 position counter 52, the values do not match. Therefore, an H level signal is output from the output COUT2 of the flip-flop 82. Is input. Therefore, the output Q of the flip-flop 82 becomes an H level signal, and a 128 Hz pulse signal is output via the AND gate 83 and the OR gate 84.
[0056]
This pulse signal is input to the clock input of the counter 52 and sent to the drive pulse generation circuit 23. Since the counter value of the counter 52 is incremented by 1 by the signal input and coincides with the value of the second latch circuit 53, the output COUT2 changes to an L level signal, and the output Q of the flip-flop 82 also becomes an L level signal. The pulse signal output stops. That is, the 128 Hz pulse signal is output only for one pulse, and the 1/5 second CG hand 15 moves by one pulse by the drive pulse generation circuit 23 to which this signal is input.
By repeating the above operation, the 1/5 second CG hand 15 moves every 1/5 second and makes one round in 300 pulses, that is, 1 minute. The 1/5 second CG hand 15 moves at an angle (360/300) degrees, that is, an angle of 1.2 degrees for each pulse.
[0057]
Further, in the minute CG hand drive control unit 40, a pulse signal is input to the minute CG counter 41 every minute from the 1/5 second CG second counter 51 and the value with the counter 52 becomes inconsistent. The minute CG hand 16 is moved by one pulse by the same process as the needle drive control unit 50. The minute CG hand 16 moves at an angle of (360/60) degrees, that is, 6 degrees every pulse since 60 pulses of CG1 are input, that is, one round in one hour.
When the A button 6 is pressed again, the chronograph stops.
[0058]
(Split, split release)
When the B button 7 is pressed after the chronograph starts, the split state is entered. In this state, the second latch circuits 43 and 53 are in a latched state, and the output value is maintained at the time of latching. For this reason, the values of the counters 42 and 52 are kept in agreement with each other, and the 1/5 second CG hand 15 and the minute CG hand 16 are stopped. However, since the pulse signal continues to be input to each of the counters 41 and 51, each counter value is continuously added.
Here, when the B button 7 is pressed again to release the split, the values of the counters 41 and 51, that is, the latch circuits 43 and 53, and the values of the counters 42 and 52 are different from each other by the elapsed time of the latch state. For this reason, 128 Hz fast-forwarding pulses are input to the counters 42 and 52 until the difference is matched. This fast-forwarding pulse is also input to the drive pulse generating circuits 23 and 24, and the 1/5 second CG hand 15 and the minute CG hand 16 are used until the values of the counters 41 and 51 and the counters 42 and 52 match. Is fast-forwarded and moves to a position where the elapsed time indicated by each of the current counters 41 and 51 is reached. After that, it returns to the movement of the normal chronograph function. As a result, the split and its release are performed.
[0059]
(Chronograph reset)
When the B button 7 is pressed while the chronograph is stopped, the chronograph is reset. In the reset state, the counters 41 and 51 are reset to “0”, and the hands 15 and 16 are fast-forwarded with 128 Hz fast-forwarding pulses until the counters 42 and 52 reach the counter value “0”. Return to position.
[0060]
(Alarm time set)
Each time the B button 7 is pressed in the state that the crown 5 is pulled out to the first stage (RM1 is ON), a pulse signal is input to the drive pulse generation circuit 22 and the minute / hour alarm hand 0 position counter 62, and each pointer 17 , 18 and the value of the counter 62 change, and the alarm time set state is set. The operation of pressing the B button 7 is performed until the hands 17 and 18 move to the time at which the alarm is to be set, thereby setting the alarm time.
If the B button 7 is continuously pressed while RM1 is ON, pulse signals are continuously input, and the hands 17 and 18 are fast-forwarded. When the hands 17 and 18 coincide with the current time, the fast-forwarding (hand movement) is stopped and the alarm set is also released. When the B button 7 is further pressed, the hands 17 and 18 are moved again, and the alarm time setting operation is continued.
[0061]
(Alarm sound generated)
After setting the alarm time, if the crown 5 is pushed into the 0th stage to bring it into a normal hand movement state, a pulse signal is input to the counter 61 from the minute alarm counter 36 every minute, so that the value corresponding to the current time To change. On the other hand, even if the third matching circuit 64 does not match, no pulse signal is output from the third control circuit 65 to the drive pulse generating circuit 22 or the counter 62, and the value of the counter 62 and the hands 17 and 18 are in the same state. Maintained. When the value of the counter 61 matches the counter 62 and a coincidence signal is output from the third coincidence circuit 64, a signal is emitted to the alarm sound generation circuit 29 and an alarm sounds.
[0062]
(Positioning operation: Pointer selection operation)
When crown 5 is pulled out to the second stage, it moves to the alignment mode. In this embodiment, when shifting to the alignment mode, the counters 41 and 51 are maintained in the reset state, and the hands 15 and 16 are returned to the 0 position as in the chronograph reset. Further, the alarm hour hand 17 and the minute hand 18 coincide with the current time in the same manner as the alarm current time coincidence operation. Thus, the function of the pointer selecting means 202 is realized. And in this embodiment, as shown in FIG. 7, it transfers to alarm current time adjustment mode automatically first. As a result, the function of the standard selection means 205 is realized. However, the process of turning the selected pointer once as described later is not performed only for the first time.
[0063]
First, the alarm current time adjustment mode is set. The alarm time is set in the minute / hour alarm hand 0 position counter 62. In this embodiment, this set value is a relative value with respect to the minute / hour alarm counter 61 in which the data of the current time is set. Is set. For this reason, when setting an alarm, it is necessary to first match the alarm hour hand 17 and the alarm minute hand 18 with the current time.
When the crown 5 is pulled out to the second stage, a fast-forward pulse corresponding to the difference in the counter value is output until the value of the counter 62 matches the value of the counter 61, and the step motor M6 is driven. Here, even if the values of the counter 61 and the counter 62 match, if the pointer display of the current time and the alarm current time is not the same, the B button 7 is used to correct the alarm current time to match the current time. That is, the step motor M6 is driven by the number corrected by the B button 7. At this time, no pulse is input to the counter 62. When the crown 5 is in the second stage (RM2), the alarm time set is reset.
[0064]
Pull crown 5 to the second step to enter the alarm current time adjustment mode, and then press and release A button 1-2 for 1-2 seconds to release minute CG0 alignment mode, 1/5 second CG0 alignment mode, and alarm current time. The mode is sequentially switched to three modes of the alignment mode. Thus, the function of the selection switching unit 206 is realized.
In conjunction with this mode switching, for example, when switching to the 1/5 second CG0 alignment mode, the one-shot H level signal (0set1) is input to the clock input of the counter 52. Then, the value of the counter 52, which is the same as the value of the latch circuit 53, is incremented by "+1", and does not coincide with the value of the latch circuit 53, the output COUT2 changes to the H level signal, and a 128 Hz fast-forward pulse is generated. Is output.
This fast-forward pulse is input to the clock input of the counter 52, and the value of the counter 52 is added, and is output for 300 pulses until the value matches the value of the latch circuit 53, that is, including the first one shot. The 1/5 second CG hand 15 is fast forwarded by one round.
[0065]
Similarly, when switching to the minute CG0 alignment mode or the alarm current time alignment mode (other than the first time immediately after the crown 5 is pulled out to the second stage), the outputs of 0set3 and 0set2 are output to the counters 42 and 62, respectively. As a result of the input, each minute CG hand 16 (60 pulses makes one revolution), alarm hour hand 17 and alarm minute hand 18 (720 pulses, hour hand 17 makes one revolution and minute hand 18 takes 12 revolutions), respectively.
As a result, the operator can easily visually recognize which hands 15 to 18 are currently selected. Thus, the function of the selection target display unit 204 is realized.
[0066]
(Positioning operation: Pointer setting operation)
When the B button 7 is pressed after each of the pointers 15 to 18 is selected, a pulse signal corresponding to the number of keystrokes is input to the drive pulse generation circuits 22 to 24 of the pointers 15 to 18 selected in each mode. Can be corrected by moving one pulse at a time. As a result, the displacement of the 1/5 second CG hand 15 and the minute CG hand 16 with respect to the 0 position (usually in the 12 o'clock direction of the clock) is corrected, and the alarm hour hand 17 and the minute hand 18 are displaced with respect to the current time. Will be corrected. Thus, the function of the pointer positioning means 203 is realized.
[0067]
According to this embodiment, there are the following effects.
(1) Since the pointer to be corrected can be selected by the A button 6 that is one external operation member and the pointer selected by the B button 7 that is the other external operation member can be aligned, Even if there are three or more hands 15 to 18 (the number of step motors), the two hands 6 and 7 can be used to align the hands 15 to 18. Therefore, even if the number of hands (step motors) increases, it is not necessary to increase the number of external operation members, the movement can be reduced in size and thickness, and the cost can be reduced.
[0068]
(2) Of the two buttons 6 and 7, the button 6 has a function of selecting a pointer, and the button 7 has a function of aligning the selected pointer and the functions of the buttons 6 and 7, so that the user can easily understand. , Operability can be improved.
(3) Furthermore, since there is no need to increase the number of buttons 6 and 7, the space in the movement can be increased accordingly, so a step motor, pointer, sensor, etc. are incorporated as appropriate, and the chronograph function, alarm function, Various functions such as a sensor function such as an altimeter can be incorporated. For this reason, it can implement | achieve, without enlarging a multifunctional timepiece.
[0069]
(4) Since the pointer positioning operation is performed when the crown 5 is pulled out to the second stage, there is no need to move the crown 5 to another pulling position and continue the positioning operation. Can be improved.
In addition, when the crown 5 is set to another drawer position (0th or 1st stage), the buttons 6 and 7 are set with other functions such as chronograph start, stop, and alarm setting. Many functions can be realized without increasing the number of buttons 6 and 7.
In addition, only when the crown 5 is explicitly moved to the second stage, the pointer selection and pointer correction functions work, so that erroneous operations can be reduced and the watch can be handled easily for the user. In particular, the second stage of the crown 5 is also a position where the hour hand 11, the minute hand 12 and the small second hand 13 are aligned with the basic timepiece. This can be performed in common at a single drawer position, which is easy for the user to remember. For this reason, even if it is operation with little frequency called correction operation | movement of a needle | hook, the operativity can be improved.
[0070]
(5) Further, when the pointers 15 to 18 to be corrected are selected, the pointers 15 to 18 are rotated once, so that the selected pointer can be easily grasped and the correction work can be performed efficiently. Can do.
Furthermore, since it is only necessary to input one pulse signal to each of the counters 42, 52, and 62 in order to make the pointer rotate once, drive control is simplified and an increase in cost can be suppressed.
[0071]
(6) The alarm hour hand 17 and the alarm minute hand 18 are automatically selected only by pulling out the crown 5 to the second stage, so that the selection operation of the pointer can be reduced and the operability at the time of correction can be improved.
(7) Furthermore, since the correction target selected first is the alarm hands 17 and 18 having a high correction frequency, the correction operation can be made very efficient.
[0072]
It should be noted that the present invention is not limited to each embodiment, and modifications, improvements, etc. within a scope that can achieve the object of the present invention are included in the present invention.
For example, in the above embodiment, the alarm hands 17 and 18 are set to be selected only by pulling out the crown 5 to the second stage. For example, as shown in the timing chart of FIG. It may be set so that the pointers to be corrected are sequentially selected by pressing the button 6 after the second stage.
In this case, since the operation of aligning the pointer selected with the button 7 after selecting the pointer to be corrected with the button 6 is constant, there is also an advantage that it is easy for the user to grasp the operation. is there.
In the embodiment, the alarm pointers 17 and 18 are selected first, but the 1/5 second CG hand 15 and the minute CG hand 16 may be selected first.
[0073]
Furthermore, in the above-described embodiment, the selection and alignment of the pointer are performed only at one pull-out position such as when the crown 5 is pulled out to the second stage. Pointer selection and alignment may be performed. For example, when there are as many as six pointers (step motors) to be corrected, when the crown is set to a predetermined pulling position, three of the pointers (step motors) can be corrected and other pulling positions In this case, the remaining three pointers (step motors) may be corrected. In this case, the number of button operations for selecting the pointer (step motor) to be corrected can be reduced compared with the case where all the pointers are selected at one pull-out position, and the operability can be improved in that respect. There is.
[0074]
Furthermore, in the pointer type electronic timepiece 1, the chronograph function and the alarm function are incorporated, but other functions such as a world time function and an altimeter may be newly incorporated, or instead of the chronograph function and the alarm function. Other functions may be incorporated, and the functions to be incorporated may be set as appropriate in implementation. For example, sensor functions that display values using pointers include altimeters, water depth gauges, pressure gauges (water pressure, etc.), measuring devices for charged (residual) energy such as solar cells and button batteries, radio wave clocks, etc. Various sensor functions such as a measuring instrument can be appropriately selected and incorporated. In particular, in the present invention, since the number of external operation members such as the buttons 6 and 7 can be suppressed, many functions can be incorporated accordingly.
[0075]
Further, in the above embodiment, the predetermined movement operation for grasping the selected pointers 15 to 18 is performed by one rotation of the pointer. However, for example, the pointer may be rotated two or more times by the button 7. The rotation of the pointer may be continued until the alignment operation is performed or another pointer is selected with the button 6. Furthermore, the pointer may be reciprocated at a constant angle without rotating the pointer, and these moving operations may be set as appropriate in implementation.
[0076]
In the alarm hand, the alarm minute hand 18 is rotated 12 times in order to rotate the alarm hour hand 17 once. However, since these hands 17 and 18 move in conjunction with each other, the alarm minute hand 18 is rotated once. You may do it. However, in this case, since the alarm hour hand 17 is displaced from the original position, it is preferable to make the alarm hour hand 17 1 turn (the alarm minute hand is 12 turns) as in the above-described embodiment.
[0077]
Furthermore, when there are as few as two types of pointers (step motors) to be selected, the predetermined movement operation is not necessarily provided, but if provided, there is an advantage that the selected pointer can be easily grasped.
Further, the external operation member is not limited to the push buttons 6 and 7, but may be a lever type that tilts in one direction, a disk-shaped dial type, or the like. What is necessary is just to set suitably according to the design.
[0078]
The switch control unit 70, minute CG hand drive control unit 40, 1/5 second CG hand drive control unit 50, alarm hand drive control unit 60, etc., which are the main functions for realizing the present invention, are as shown in FIG. Not only those composed of hardware such as various logic elements, but a computer having a CPU (central processing unit), a memory (storage device), etc. is provided in the pointer-type electronic timepiece 1, and a predetermined program is stored in this computer. You may comprise so that each said function may be implement | achieved and integrated.
[0079]
For example, a CPU and a memory are arranged in the pointer-type electronic timepiece 1 so as to function as a computer, and the present invention is applied to the present invention via a communication means such as the Internet or a recording medium such as a CD-ROM or a memory card. Based control program can be installed. Then, by operating the CPU or the like with this installed program, the functions such as the minute CG hand drive control unit 40, the 1/5 second CG hand drive control unit 50, the alarm hand drive control unit 60, and the switch control unit 70 are provided. You may make it implement | achieve.
[0080]
At this time, in order to install the control program in the pointer-type electronic timepiece 1, a memory card, a CD-ROM, or the like may be directly inserted into the electronic device, or a device that reads these storage media may be attached externally. You may connect with an electronic device. Furthermore, a LAN cable, a telephone line, etc. may be connected to an electronic device to supply and install a program by communication, or a control program may be supplied to and installed in an internal receiver and memory by external wireless communication. May be.
[0081]
In this way, if the control program of the present invention provided by a communication means such as a recording medium or the Internet is incorporated in the pointer-type electronic timepiece, the correction operation function described in the above embodiment can be provided by software, so that the function change, etc. Is easy. Furthermore, it is possible to easily revise functions of watches that have already been provided on the market, such as by replacing programs.
[0082]
【The invention's effect】
As described above, according to the pointer-type electronic timepiece of the present invention, even when the number of hands increases, it is not necessary to increase the number of external operation members such as switches, and correction operations can be easily performed. it can.
[Brief description of the drawings]
FIG. 1 is a front view showing a dial portion of a pointer-type electronic timepiece according to an embodiment of the present invention.
FIG. 2 is a block diagram showing a control system of the pointer-type electronic timepiece of the embodiment.
FIG. 3 is a block diagram showing a configuration of a drive control circuit of the present embodiment.
FIG. 4 is a block diagram showing a main part of a drive control circuit of the present embodiment.
FIG. 5 is a block diagram showing a configuration of a 1/5 second CG hand drive controller of the present embodiment.
FIG. 6 is a diagram illustrating a method of operating a function of the pointer-type electronic timepiece according to the embodiment.
FIG. 7 is a timing chart showing a pointer positioning operation in the present embodiment.
FIG. 8 is a timing chart showing a pointer positioning operation in a modification of the present invention.
[Explanation of symbols]
1 pointer-type electronic watch
5 Crown as external operation member
6, 7 Buttons that are external operation members
11 hour hand
12 minute hand
13 Small second hand
15 1/5 second CG hand
16 minute CG hand
17 Alarm hour hand
18 Alarm minute hand
20 Drive control circuit
202 Pointer selection means
203 Pointer positioning means
204 Selection target display means
205 Standard selection means
206 Selection switching means
21-24 Drive pulse generation circuit
25-28 Motor driver
29 Alarm sound generation circuit
30 Alarm driver
31 Crystal oscillator circuit
34 Logic slow / fast circuit
36 minutes alarm counter
37 12 hour detection counter
40 minute CG hand drive controller
41 minute CG counter
42 minute CG hand 0 position counter
43 First latch circuit
44 First coincidence circuit
45 First control circuit
50 1/5 second CG hand drive controller
51 1/5 second CG counter
52 1/5 second CG hand 0 position counter
53 Second latch circuit
54 Second match circuit
55 Second control circuit
60 Alarm hand drive controller
61 minute / hour alarm counter
62 minute / hour alarm hand 0 position counter
63 Third latch circuit
64 Third coincidence circuit
65 Third control circuit
70 Switch control unit
701 Crown position detector
702 Switch A detector
703 Switch B detector
80 Reset processing section
82 flip-flop
83 AND gate
85 Signal generator

Claims (10)

A plurality of step motors, a plurality of hands driven by the step motors, and a plurality of external operation members;
Corresponding to each of the plurality of hands, a first counter that counts input pulses of a predetermined time reference signal, a second counter provided corresponding to the first counter, and each counter value are equal to each other. A coincidence circuit that detects whether or not the counter value matches, and a signal generator that outputs a pulse signal corresponding to the difference to the step motor when the counter values do not coincide with each other and drives the step motor; With
Pointer selecting means for selecting a pointer to be corrected from the plurality of pointers by operating one of the external operating members, and the position of the pointer selected by operating another external operating member In order to display a pointer position adjusting means for performing alignment, and to display a selection target by performing a predetermined movement operation on the pointer selected as a correction target by the operation of the external operation member, A pointer-type electronic timepiece comprising: selection target display means for inputting at least one pulse to the second counter corresponding to the pointer when one of them is selected, thereby causing the pointer to rotate at least once . 2. The pointer-type electronic timepiece according to claim 1, wherein the number of the step motors is larger than the number of the external operation members. The pointer-type electronic timepiece according to claim 1 or 2,
At least one of the external operation members is a crown that can be pulled out to a plurality of preset positions,
The pointer selecting means is set to a selection mode for selecting a pointer to be corrected for the one external operation member when the crown is pulled out to a predetermined position.
The pointer positioning means is set to a positioning mode in which the other one of the external operation members is aligned with the selected pointer when the crown is pulled out to a predetermined position. A pointer-type electronic watch. The pointer-type electronic timepiece according to claim 3,
One of the predetermined positions from which the crown is pulled out is a position where the time of the hands of the basic timepiece is corrected when the crown is rotated. The pointer-type electronic timepiece according to claim 3 or 4 ,
The crown can be pulled out to a plurality of preset positions,
The pointer selection means includes a standard selection means for selecting a first correction target pointer when the crown is pulled out to a predetermined position, and the crown selection means in the state where the crown is pulled out to the predetermined position. A pointer-type electronic timepiece having selection switching means for sequentially selecting other hands to be corrected when one external operation member is operated. The pointer-type electronic timepiece according to claim 3 or 4 ,
The crown can be pulled out to a plurality of preset positions,
The pointer selecting means includes a selection switching means for sequentially selecting a pointer to be corrected when the one external operation member is operated in a state where the crown is pulled out to a predetermined position. Expression electronic watch. In the pointer type electronic timepiece according to any one of claims 1 to 6 ,
The plurality of pointers are configured to include an alarm pointer and a chronograph pointer, and the pointer selecting means first selects the alarm pointer when selecting a correction target pointer from these pointers. A pointer-type electronic timepiece characterized by. A plurality of step motors, a plurality of hands driven by the step motors, a plurality of external operation members, and a first counter that counts input pulses of a predetermined time reference signal corresponding to each of the plurality of hands And a second counter provided corresponding to the first counter, a coincidence circuit for detecting whether or not each counter value is coincident, and when the counter values do not coincide with each other A method for operating a pointer-type electronic timepiece having a signal generator that outputs a pulse signal to a step motor for driving and a signal generator that inputs the pulse signal to the second counter ,
The selected guidance to the correction target from the plurality of guidance by the operation of one external operation members among the external operation member, performs an alignment of the pointer that is the selected by the operation of the other one of the external operating member ,
The second counter corresponding to the selected pointer when one of the plurality of pointers is selected in order to display a selection target by performing a predetermined movement operation on the selected pointer. A method for operating a pointer-type electronic timepiece , wherein at least one pulse is input to the pointer to rotate the pointer at least once . The operation method of the pointer-type electronic timepiece according to claim 8 ,
As at least one of the external operation members, using a crown that can be pulled out to a plurality of preset positions,
When the crown is pulled out to a predetermined position, the pointer to be corrected is selected by the one external operation member, and the pointer selected by the other external operation member is aligned. The operating method of the characteristic pointer type electronic timepiece. A plurality of step motors, a plurality of hands driven by the step motors, a plurality of external operation members, and a first counter that counts input pulses of a predetermined time reference signal corresponding to each of the plurality of hands And a second counter provided corresponding to the first counter, a coincidence circuit for detecting whether or not each counter value is coincident, and when the counter values do not coincide with each other A control program for a pointer-type electronic timepiece incorporated in a pointer-type electronic timepiece having a signal generator that outputs and drives a pulse signal to a step motor and that is input to the second counter ,
In the computer incorporated in the pointer-type electronic timepiece, a procedure for selecting a pointer to be corrected from the plurality of hands by operating one of the external operation members, and another external operation member In order to display a procedure for aligning the selected pointer by the operation and a predetermined movement operation for the selected pointer to indicate that it is a selection target, any of the plurality of pointers is displayed. A control program for a pointer-type electronic timepiece, wherein when at least one pulse is selected, at least one pulse is input to the second counter corresponding to the hand to cause the hand to rotate at least once .

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