This application claims the benefit of Japanese Patent Application JP2018-241742 and JP2019-148559 filed on Dec. 25, 2018 and Aug. 13, 2019, respectively. The disclosure of JP2018-241742 and JP2019-148559 is herein incorporated by reference.
The present invention relates to a timepiece.
Japanese Patent No. 4595977 describes a twofold dial including an upper dial having an opening, hands (pointers) moving above the upper dial, a lower dial disposed below the upper dial, a viewing frame provided between the upper and lower dials at a position corresponding to the opening of the upper dial, and an auxiliary hand capable of moving in the viewing frame, wherein the viewing frame and lower dial include position restricting parts for positioning the viewing frame relative to the lower dial.
Japanese Patent No. 5853504 describes a dial assembly housed in a timepiece case, the dial assembly including a ring member, a first dial, a ring-shaped spacer and a second dial in sequence, and further including a restricting means for restricting the positional relationship between the first and second dials, the spacer and a movement.
Multifunctional timepieces need to show various kinds of information. However, disposing characters and indices corresponding to those kinds of information on a dial makes the dial surface complicated and reduces the visibility of time indications. In order to make indices related to times particularly conspicuous, a transparent second dial having the indices thereon may be provided above a first dial and supported by a dial ring. Since combining the second dial and the dial ring into a single component makes its manufacturing process complicated, they should be separate components; in this case, the second dial needs to be reliably positioned and fixed relative to the dial ring. Further, since two superposed dials makes the timepiece thicker, creative design is required in order to reduce overall thickness.
It is an object of the present invention to provide a timepiece which is excellent in visibility of time indications, reduced in overall thickness and has a dial and a dial ring easily positioned relative to each other.
Provided is a timepiece including: hands being an hour hand, a minute hand and a second hand; a movement for driving the hands; a first dial; a first dial ring having upper and lower surfaces provided with an upper projection and a lower projection, respectively, the first dial ring being disposed on the first dial and positioned relative to the first dial by the lower projection; and a transparent second dial disposed on the first dial ring and positioned relative to the first dial ring by the upper projection, wherein one of the hands is disposed between the first dial and the second dial, while the others of the hands are disposed above the second dial.
Preferably, the hour hand is disposed between the first dial and the second dial, while the minute hand and the second hand are disposed above the second dial. Also preferably, the first dial is positioned relative to the movement by a fit between projections and depressions.
Preferably, the timepiece further includes a second dial ring disposed on the second dial so as to cover the upper projection, the second dial ring being positioned relative to the second dial by a fit between projections and depressions.
Preferably, the timepiece further includes: a third dial ring having an inner circumferential surface in contact with an outer circumferential surface of the second dial ring, the third dial ring having a first scale on its upper surface and having a gear along its circumference; and a crown fitted to the gear and configured to be operated by a user to rotate the third dial ring, wherein the second dial ring has a second scale on its upper surface, the second scale functioning as a circular slide rule in combination with the first scale.
Preferably, the timepiece further includes a small hand for indicating information other than a time indicated by the hands, wherein the small hand is driven by the movement and displaced from the hands in a thickness direction of the timepiece between the first dial and the second dial.
Preferably, the second dial has a central opening through which the hands are visible from above the second dial.
Preferably, the second dial has indices for indicating a time, the indices being composed of a mixture of a resin and decorative particles. Also preferably, the decorative particles are particles of a noctilucent inorganic compound.
Other features and advantages of the present invention will be apparent from the ensuing description, taken in conjunction with the accompanying drawings, in which:
Hereinafter, with reference to the accompanying drawings, a timepiece will be explained in detail. However, note that the present invention is not limited to the drawings or the embodiments described below.
The timepiece 1 is a model designed for an aircraft pilot, in particular. As shown in
Scales functioning as an aviation slide rule (circular slide rule) are formed on the upper surfaces of the rotating dial ring 60 and second dial ring 50, which are disposed inside the bezel 80 and rotating dial ring 60, respectively. The scale of the rotating dial ring 60 is rotated by a user winding the second crown 72. The aviation slide rule will be described later with reference to
The hands 5 are an hour hand 5h, a minute hand 5m and a second hand 5s, and rotate clockwise around a rotating shaft 19 provided at the center of the first dial 20 to indicate the current time (hour, minute and second). The shapes of the hands 5 should be substantially stick-like, but may be appropriately changed, depending on the design of the timepiece.
As shown in
The first indicator 110 indicates the mode of the timepiece 1 with an indication disk 111. On the upper surface of the indication disk 111, character strings (marks) “CHR,” “TME,” “UTC,” “SET,” “LLI” and “ALM” are printed at intervals of 60 degrees. These marks correspond to functions of a chronograph (stopwatch), normal time indication, indicating Coordinated Universal Time, changing setting (e.g., setting the time), indicating light quantity of the timepiece, and setting an alarm, respectively. The indication disk 111 is rotated around a rotating shaft provided at the center of the first indicator 110, by a user pulling and winding the first crown 71. In the timepiece 1, the triangular index at the 3-o'clock position also serves as the index of the first indicator 110. When a user aligns a mark corresponding to a desired mode with the 3-o'clock position, the function corresponding to that mark will be performed.
The second indicator 120 indicates, for example, the current time (local time) of a city located in a time zone different from the city where the user resides, with small hands 121, 122. The small hands 121, 122 are a minute and hour hands, respectively, and rotate clockwise around a rotating shaft 19a (see
The third indicator 130 indicates information on ON/OFF of daylight-saving-time indication, the day of the week, and the amount of charge of a battery (secondary cell 17 in
When the indication disk 131 indicates the day of the week, one of the characters “S,” “T,” “T,” “S” corresponding to the current day of the week is disposed at the 9-o'clock position. If a user desires indication of daylight saving time, he/she pulls the first crown 71 and pushes the operation button 73 or 74, for example, and then every push rotates the characters “ON” and “OFF” alternately to the 9o'clock position. Setting “ON” at the 9o'clock position causes the hands 5 to indicate the daylight saving time, while setting “OFF” there causes them to indicate the standard time. If a user desires indication of the amount of charge, he/she pushes the operation button 73 or 74 without pulling the first crown 71, for example, and then one of the markings of “F” to “E” corresponding to the amount of charge rotates to the 9o'clock position.
The fourth indicator 140 is a window for showing the date, and shows one of numerals provided on a date dial (not shown). The date dial is a disk-shaped member provided with numerals “1” to “31” circularly in sequence, and is disposed below the first dial 20 and makes one revolution every month. In the illustrated example, the fourth indicator 140 shows “7” indicating the seventh day.
The motors 12a to 12d are stepper motors driving the hands 5, small hands 121, 122 and indication disk 131. The motor 12a rotates the hour hand 5h and minute hand 5m in an interlocked manner, and the motor 12b similarly rotates the small hands 121, 122. The motors 12c, 12d rotate the second hand 5s and indication disk 131, respectively. The gear train 13a links the first crown 71 with the rotating shaft of the indication disk 111, while the gear train 13b links the rotating shaft 19a of the small hands 121, 122 with the motor 12b. The gear train 13c links the rotating shaft 19 of the hands 5 with the motors 12a, 12c, while the gear train 13d links the rotating shaft of the indication disk 131 with the motor 12d. Unlike the illustrated example, all the hands may be independently rotated by separate motors.
The antenna 14 is a rectangular member disposed so as to cover the area around the 12-o'clock position in the frame 11, and receives satellite signals (e.g., signals of the global positioning system (GPS)), standard time and frequency signals or other radio signals with a rectangular antenna electrode 14a. The timepiece control ICs 15a, 15b are electronic components for controlling the motors 12a to 12d driving the hands 5 and other components. The communication control IC 16 is an electronic component for controlling receiving operation by the antenna 14 and processing the received signals. These ICs are mounted on a circuit board (not shown) disposed in the frame 11. Although the timepiece 1 is a radio-controlled watch capable of receiving time information with the antenna 14 and setting the current time, the antenna 14 and communication control IC 16 are not necessary components, and the function of receiving radio signals (communication function) may be omitted.
The secondary cell 17 is a battery which can be recharged by the solar cell 9 disposed between the first dial 20 and movement 10, and supplies electric power to the motors 12a to 12d, timepiece control ICs 15a, 15b and communication control IC 16. In
The first, second and third regions 21, 22, 23 are circular, and have shaft holes 21a, 22a, 23a for the rotating shafts of the indication disk 111, small hands 121, 122 and indication disk 131 at their centers, respectively. The fourth region 24 is a rectangular opening. At the center of the first dial 20, a shaft hole 26 for the rotating shaft 19 of the hands 5 is provided.
The first region 21 has a striped pattern 21b for emphasizing the mark of the currently selected mode in a 60-degree fan-shaped subregion centered at the shaft hole 21a and placed on the 3-o'clock side. All of the third region 23 has the same pattern. In the second region 22, characters “4,” “AM,” “8,” “12,” “16,” “PM,” “20” and “24” are provided on a circle, and two scales respectively having twenty-four and sixty evenly spaced markings are formed on two outer concentric circles, in the timepiece 1, since the indication disks 111, 131 are transparent, the striped patterns in the first region 21 and third region 23 are visible through these disks from above (the protective glass 90 side), However, these patterns may be omitted, and the indication disks 111, 131 may be opaque.
In an upper region (on the 12-o'clock side) of the first dial 20, character strings “RX-TMF” (obtaining time information), “NO” (failure in reception), “OK” (success in reception) and “RX-GPS” (obtaining position information) are printed on a 120-degree arc, as indices 25 related to reception of satellite signals. To indicate information on reception, the hands 5 point to one of these indices 25, thereby notifying a user of the corresponding information.
The rim of the first dial 20 is projected and depressed in the radial direction, and includes eight recesses formed by this unevenness. These recesses are disposed asymmetrically with respect to the center line connecting the 12-o'clock and 6-o'clock positions so that the back and front of the first dial 20 can be distinguished based on its uneven shape only. Of these, into four recesses indicated by reference numeral 27, the four projections 18 of the movement 10 are respectively fitted. in other words, the first dial 20 is positioned relative to the movement 10 by a fit between projections and depressions. Into the other four recesses indicated by reference numeral 28, four projections (projections 37 in
The first dial ring 30 is disposed on an outer portion of the first dial 20, and serves as a decoration of the timepiece 1 and as a spacer filling the space between the first dial 20 and the second dial 40 disposed thereabove to support the second dial 40. The first dial ring 30 includes a first protrusion 31, a second protrusion 32 and a third protrusion 33 corresponding to the first, second and third indicators 110, 120, 130 at the 3-o'clock, 6-o'clock and 9-o'clock positions, respectively. These protrusions have semicircular inclined planes 31a, 32a, 33a along the circles of the first, second and third regions 21, 22. 23 of the first dial 20, respectively, on the sides closer to the center of the first dial ring 30. Each inclined plane is the highest on the outer side, and descends toward the central side, as shown in
The central region of the first dial ring 30 indicated by reference numeral 34 is an opening in which the first, second, third and fourth indicators 110, 120, 130, 140 and the rotating shaft 19 are disposed. The edge of the opening 34 also has inclined planes 36 similar to the inclined planes 31a, 32a, 33a except where the first, second and third protrusions 31, 32, 33 exist. Further, the inner rim of the first dial ring 30 has a substantially rectangular recess corresponding to the fourth indicator 140 at the half-4 position.
The first dial ring 30 includes an annular outer portion 35 whose upper and lower surfaces are flat (parallel to each other). The lower and upper surfaces of the outer portion 35 have four projections 37 and four projections 38, respectively, each disposed at intervals of about 90 degrees. The projections 37 may be aligned with the projections 38 in the circumferential direction, but are displaced therefrom in the first dial ring 30. In the top view of
For the second dial 40, a colored member or a member having a colored layer may be used, as long as it is transparent to such an extent that the first dial 20 is visible. For example, coloring the second dial 40 thin blue or thin orange suggesting the sky or the evening sun allows for producing a visual effect of further emphasizing that the timepiece 1 is a model designed for an aircraft pilot.
The indices 41 are figures for indicating times, and are evenly spaced along the rim of the second dial 40. As shown in
The luminous paint 41a is made, for example, by mixing a resin and decorative particles which are particles of a noctilucent inorganic compound, such as strontium-aluminate phosphor or zinc sulfide, and has the characteristics of glowing in the dark. The indices 41 are not limited to those having the three-layer structure; the luminous paint 41a may be directly printed on the second dial 40. Alternatively, instead of luminous paint, a mixture of a resin and decorative particles of a granular material or pigment having reflectivity or glossiness may be used for the indices 41.
In conventional timepieces, indices related to times are made conspicuous, thereby ensuring visibility of time indications. However, in the case of radio-controlled watches, large and conspicuous indices may inhibit reception of radio signals and degrade sensitivity of reception. In the timepiece 1, since the indices 41 are formed on the second dial 40, which is disposed separately above the first dial 20, it is possible to prevent sensitivity of reception from degrading as compared to when the indices are formed on the first dial 20. In the timepiece 1, the 12-o'clock index 41 is disposed immediately above the antenna 14 as can be seen from
The city indices 42 are abbreviations of cities or regions arrayed on a circle in order of time zones based on the Coordinated Universal Time. Each abbreviation is represented by three characters of the alphabet; these character strings are disposed between the twelve indices 41 on the same circle as the indices 41. The time-difference indices 43 are numerals “−12” to “+14” indicating time differences based on the Coordinated Universal Time for the cities or regions included in the city indices 42, and are disposed on the upper or lower side of the abbreviations. For example, the time indicated by the second indicator 120 in
The mark 44 is a triangular mark facing the 9-o'clock index 41, and corresponds to the index of the third indicator 130 in
In the timepiece 1, the hour hand 5h is disposed below the second dial 40 (between the first dial 20 and second dial 40), as shown in
In the rim of the second dial 40, ten recesses depressed toward the central side are formed. In
As shown in
The second dial ring 50 is disposed on the second dial 40 so as to cover the recesses 47, 48 and the projections 56 fitted into the recesses 48. It is preferred in terms of design to form the second dial ring 50 out of an opaque material and cover these recesses and projections so as not to be visible from above the protective glass 90, since this improves the beauty of the timepiece 1. However, if the fitted portions of the first dial ring 30 and second dial 40 need not be concealed, e.g., if the recesses 48 are provided only on the lower surface of the second dial 40 and the outer portion of the second dial 40 is made opaque, the second dial ring 50 may be omitted.
At the bottom of the vertical portion 62, a gear 63 shown in
As described above, the projections 18 of the movement 10 and the projections 37 on the lower surface of the first dial ring 30 are fitted into the recesses 27 and recesses 28 of the first dial 20, respectively. The projections 38 on the upper surface of the first dial ring 30 and the projections 56 of the second dial ring 50 are fitted into the recesses 47 and recesses 48 of the second dial 40, respectively. In this way, providing the projections 37, 38 on the upper and lower surfaces of the first dial ring 30 and fitting them into the first dial 20 and second dial 40 allows for easily positioning the members, such as the second dial 40.
However, some or all of the projections 18, 37, 38, 56 may not penetrate the first dial 20 or second dial 40 in the thickness direction. In this case, for example, the recesses 27, 28 of the first dial 20 may be left open only in the lower and upper surfaces, respectively. Some or all of the recesses 27, 28, 47, 48 may not be left open on the outer side of the first dial 20 or second dial 40, and may be openings formed in inner regions of these dials. in contrast to the above examples, for example, the first dial 20 and first dial ring 30 may have projections and recesses, respectively; the second dial 40 and second dial ring 50 may have projections and recesses, respectively; and these members may be assembled together by a fit between projections and depressions.
As shown in
Separating the three hands 5 in the thickness direction by the second dial 40 as described above allows for giving the dials a three-dimensional appearance, while making the timepiece thinner as compared to when the three hands 5 are disposed above the second dial 40; accordingly, the appearance of the timepiece 1 is enhanced. Further, in the timepiece 1, visibility of the hands 5 (i.e., of times) is also improved as compared to when the three hands 5 are disposed between the first dial 20 and second dial 40.
The preceding description has been presented only to illustrate and describe embodiments of the present invention. It is not intended to be exhaustive or to limit the invention to any precise form disclosed. It will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed as the best mode contemplated for carrying out this invention, but that the invention will include all embodiments falling within the scope of the claims. The invention may be practiced otherwise than is specifically explained and illustrated without departing from its spirit or scope.
Number | Date | Country | Kind |
---|---|---|---|
2018-241742 | Dec 2018 | JP | national |
2019-148559 | Aug 2019 | JP | national |