This application claims priority from European patent application No.14191899.5 filed Nov. 5, 2014, the entire disclosure of which is hereby incorporated herein by reference.
The present invention concerns a grand date display device including means for indicating the tens arranged to display selectively four distinct indications, and means for indicating the units arranged to display selectively the numerals from one to 9 and zero, the device being arranged to display the date in a timepiece.
There are already known “grand date” display devices for timepieces which meet the above definition. CH Patent No 688671 in particular describes a watch including a “grand date” display device comprising two concentric indicator discs. The smaller of the two discs is arranged to complete one revolution in four steps and it bears the four indications 0, 1, 2 and 3 to represent the tens. The other disc is arranged to complete one revolution in ten steps and it bears the ten indications 0, 1, 2, 3, 4, 5, 6, 7, 8 and 9 to represent the units. Two windows are also provided in the watch dial for reading the date. A known advantage of “grand date” display devices like this one is that it is easier to read the date than in systems equipped with a single date indicator disc.
CH Patent No 688671 also explains that the two indicator discs of the display device are driven by a drive wheel with a double toothing formed by superposing two toothed wheels of the same diameter which are joined to each other. A first toothing of the drive wheel comprises 30 teeth separated by one 31st of a revolution, in addition to a space that replaces the 31st tooth. Each tooth of the first toothing is arranged to advance the units indicator disc through one step. It will therefore be understood that each revolution of the drive wheel advances the units indicator disc through 30 steps (which corresponds to exactly 3 revolutions). The second toothing of the drive wheel comprises four teeth. Each tooth of the second toothing is arranged to advance the tens indicator disc through one step. Each revolution of the drive wheel therefore causes the tens indicator disc to make one complete revolution. It will be understood from the foregoing that the prior art display device that has just been described is a cyclic counter with 31 positions.
There are several known types of date mechanism suitable for actuating a “grand date” display device like the one that has just been described. A first type of date mechanisms is the so-called “simple” date or calendar mechanism. In a simple calendar mechanism, at the end of months of less than 31 days, the “grand date” display device must be advanced manually to update the date mechanism. There are also so-called “annual” calendar mechanisms, and even so-called “perpetual” calendar mechanisms. In a perpetual calendar mechanism, all the end of month changes are made automatically, regardless of the number of days in the month. In an annual calendar mechanism, all the changes are made automatically, with the exception of the transition between the month of February and the month of March.
With known calendar mechanisms, regardless of the type, a correction step is necessary at the end of each month of less than 31 days. In the case of a simple calendar mechanism, it is the person wearing the watch who has the task of correcting the date by manually advancing the date through the required number of days. This is a tedious operation which most watch owners would willingly do without.
In the case of perpetual calendar mechanisms, the correction step occurs automatically. To this end, perpetual calendar mechanisms are usually equipped with a “48” cam which comprises notches of different depths for the months of less than 31 days. The mechanism also includes a lever arranged to cooperate with the 48 cam. The degree of inclination of the lever is determined by the depth of the notch in which its beak is engaged, and this degree of inclination in turn determines the number of days to be corrected at the end of each month. This type of mechanism is both complex and delicate.
It is an object of the present invention to simplify the operations required to update a “grand date” display device at the end of a month of less than 31 days. The present invention achieves this object by providing a grand date display device according to the appended claim 1.
It will be understood that the units number of the date of the last day of a month of less than 31 days is always either an 8, or 9, or zero. Further, according to the invention, these three units numbers are displayed using the first lower plate, the first upper plate being then in an angular position such that said at least one first opening associated with the absent or incomplete eighth character is beneath the display area. Further, the units number of the date of the first day of the month is always “1”. 1 is the first of the characters borne by the first upper plate. The position of the 1 on the upper plate thus immediately follows the position of the absent or incomplete eighth character. It will thus be understood that, according to the invention, by means of a single step of the first upper plate, the “1” can be immediately substituted for the units number of the last day of a month of less than 31 days. It will also be understood that, in the case where the last day of the month is 31, the change to the first day of the following month can occur with no change to the units number.
An advantageous variant of the invention conforms to claim 2 appended hereto. According to this variant, the tens numbers 2 and 3 are always displayed by means of a second lower plate and of said at least one second opening associated with the absent or incomplete third character of the second upper plate. The angular position of the second upper plate when the last day of the month is displayed is therefore always that in which the absent or incomplete third character is in the display area. Further, the tens number of the date of the first day of the month is “0”, or alternatively an empty space. The 0 is the first of the characters borne by the second upper plate. The position of the 0 on the upper plate therefore immediately follows the position of the third absent or incomplete character. It will therefore be understood that, according to this variant, by means of a single step of the second upper plate, the date “0” can be immediately substituted for the tens number of the last day of the month, this single step of the second upper plate being, as seen above, associated with the single forward step of the first upper plate when the preceding month has less than 31 days.
Other features and advantages of the invention will appear upon reading the following description, given solely by way of non-limiting example, with reference to the annexed drawings, in which:
According to the invention, the units indication means include a first upper plate 2 and a first lower plate 3. It is noted that the contour of first plates 2 and 3 is shown in dashed lines in
According to the invention, first upper plate 2 bears a series of eight characters regularly distributed over a wide circular track. Seven of these characters (respectively referenced A1, A2, A3, A4, A5, A6 and A7) are formed by the numerals 1, 2, 3, 4, 5, 6 and 7. The eighth character (referenced A8) is incomplete. It is formed by a numeral 8 with two cutout segments, these two segments being replaced by openings (called first openings and referenced A8E and 8AG) also in the form of segments. It will be noted that the characters encroach on each other, and that two overlapping characters form a 45° angle between them. The characteristic of the present example according to which two intertwined figures form an angle of 45° between them, is particularly advantageous when the display principle used is that of the 7-segment display. Indeed, as was seen above, the 7-segment display uses four vertical segments and three horizontal segments. As confirmed by
According to the invention, the first lower plate 3 bears a pattern formed of pieces of characters. In the illustrated example, these pieces of characters (referenced P8, P9 and P0) are three in number, and form between them angles of 120°. These pieces of characters are arranged to form respectively the numerals 8, 9 and 0 in association with the incomplete eighth character, when they appear beneath at least one of first openings A8E and A8G. It will be understood that, in
The operation of the units indication means will now be explained. In order to refer more easily to a particular angular position of the first upper plate or the first lower plate, these 2 plates are each provided, in
The sequence of one complete units cycle will now be described. The complete units cycle is formed of the sequence of numerals 1, 2, 3, 4, 5, 6, 7 displayed by first upper plate 2, followed by the sequence of numerals 8, 9, 0 displayed by first lower plate 3 in association with the incomplete eighth character A8 of the upper plate. The cycle starts with index S at 10:30 hours (cf.
Although the first upper plate is not illustrated in these angular positions, it will be understood that when the first upper plate then makes a 45° step in the anticlockwise direction, index S is positioned at 9:00 hours and the numeral 2 appears through the third openings 7A, 7B, 7D, 7E and 7G. One step further places index S at 7:30 hours and positions the numeral 3 immediately beneath the third openings. Index S is then placed at 6:00 hours to display the numeral 4, then at 4:30 hours for the numeral 5, at 3:00 hours for the numeral 6 and at 1:30 hours for the numeral 7. It will be noted that throughout the part of the cycle that has just been described, the character pieces P8, P9 and P0 borne by the first lower plate 3 are concealed by upper plate 2. Thus, the lower plate is not involved in the display, and its angular position does not play any part.
Next, when the first upper plate makes another step in the anticlockwise direction, index S is placed at midday (as shown in
Next, when the first lower wheel 3 makes a 120° step in the clockwise direction, index I is placed at 10:00 hours and character piece P9 replaces piece P8 (cf.
Next, when the first lower plate makes yet another step, index I is placed at 2:00 hours and character piece P0 replaces piece P9 (cf.
Referring again to
Still referring to
It is also observed in the Figure that one segment Q2 and one segment Q2′ are stopped directly beneath second openings B2C and B2E. It will be understood that segments Q2 and Q2′ form pieces of characters which are arranged to form the numeral 2 in association with the incomplete third character B2.
The sequence of one complete tens cycle will now be described. The complete tens cycle is formed of the sequence of numerals 0 and 1 displayed by the second upper plate 12 followed by the sequence of numerals 2 and 3 displayed by second lower plate 13 in association with the incomplete third character B2 of the upper plate. The cycle starts with the second upper plate 12 oriented such that character BO (the numeral 0) is at the bottom right. In this angular position, the numeral 0 appears through the fourth openings 9A, 9B, 9C, 9D, 9E and 9F of the cover. It will also be noted that the character BO includes an additional segment which has the same colour as display area 5 of the cover and whose presence has the effect of concealing the fourth opening 9G which is not involved in the display of the numeral 0.
When the second upper plate then makes a 120° step in the clockwise direction, the character B1 takes the place of character B0 and the numeral 1 appears through fourth openings 9B and 9C. It will be noted that during this first part of the cycle, the character pieces Q2, Q2′, Q3 and Q3′ borne by second lower plate 13 are concealed by upper plate 12. Thus, the lower plate is not involved in the display, and its angular position does not play any part.
Next, when the second upper plate makes another step in the clockwise direction, character B2 is placed at the bottom left (as shown in
Next, when second lower plate 13 makes a 90° step, segments Q2 and Q2′ are oriented horizontally and segments Q3 and Q3′ become vertical. A pair of segments Q3-Q3′ replaces the segment pair Q2-Q2′ beneath openings B2C and B2E (cf.
It was stated above that it is an object of the present invention to simplify the operations required to update a “grand date” display device at the end of a month of less than 31 days. As can be verified by comparing
It will also be clear that various alterations and/or improvements evident to those skilled in the art may be made to the embodiment forming the subject of the present description without departing from the scope of the present invention defined by the annexed claims. In particular instead of simply bearing pieces of characters, the first and second lower plates could bear entire numerals. That is to say the numerals “8”, “9” and “0” regularly spaced over the first lower plate and the numerals “2” and “3” over the second lower plate. In these conditions, the eighth character of the first upper plate and the third character of the second upper plate could be simply absent and each replaced by an opening that is sufficiently large to reveal a numeral borne by the lower plate.
Number | Date | Country | Kind |
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14191899.5 | Nov 2014 | EP | regional |