Patent Grant
11556091
The present disclosure relates to a timepiece.
A timepiece indicates time by pointing at markers or indicators with hands such as an hour hand and a minute hand. The markers include smaller markers disposed in positions which are separated each other with one-minute intervals (corresponding to one minute of the minute hand which rotates once in every sixty minutes) and larger markers (hereinafter referred to as indices) disposed in positions which are separated each other with five-minute intervals (corresponding to one hour of the hour hand which rotates once in every twelve hours).
In addition to the markers or indices on a dial plate, the indices may be disposed on a circular member such as a case ring which is provided on the outer circumferential part of the dial plate or in a position outward from the dial plate. Further, the indices may be disposed both on the dial plate and the circular member. In the timepiece where the indices are disposed both on the dial plate and the circular member, the indices of the dial plate and the indices of the circular member are arranged in series on a line which radially extends from the center (the rotational center of the hands) of the dial plate, which gives a viewer or user an impact in terms of its design (see Patent Literature 1: JP2007-124011A, for example).
The dial plate and the circular member are separate parts, so that the dial plate and the circular member may be displaced or misaligned relative to each other when the timepiece is assembled. For example, after the dial plate is fixed to a case of the timepiece, the circular member is placed within the case and then a grass or crystal is fixed to the case. A waterproof seal is generally provided between the crystal and the case. When the crystal is fixed to the case, the crystal is compressed into the case, which elastically deforms the seal. At this time, the movement of the crystal and the seal slightly rotates the circular member unexpectedly.
As a result, the indices of the dial plate and the indices of the circular member, which are supposed to be arranged in series on the line radially extending from the center of the dial plate, are displaced or misaligned relative to each other in a rotational direction (circumferential direction). The indices of the dial plate and the indices of the circular member may also be displaced relative to each other as described above due to machining accuracy of the circular member, the indices on the circular member and the like even if another positioning structure is used for the circular member. The displacement or misalignment between the indices on the dial plate and the indices on the circular member deteriorates quality in the appearance of the timepiece.
The present disclosure has been made in view of the above issues, and accordingly an object of the present disclosure is to provide a timepiece which can suppress deterioration of quality in the appearance of the timepiece even if the indices on the dial plate and the indices on the circular member are displaced or misaligned relative to each other.
A timepiece of the present disclosure includes a dial plate including a first index on a radial line outwardly extending from a center; and a circular member disposed outside of the dial plate and extending at least partially circularly, the circular member including a second index arranged in series with the first index on the radial line, wherein the second index includes a proximal end facing the first index and a distal end opposite the proximal end, wherein a width of the proximal end is wider than that of the distal end in a plan view as seen in a height direction of the dial plate, and wherein the width of the proximal end of the second index is wider than that of a proximal end of the first index facing the second index.
Hereinafter, embodiments of a timepiece according to the present disclosure will be described with reference to the accompanying drawings.
The case 2 includes an upper circular portion 2a, a lower circular portion 2b provided in a position below the upper circular portion 2a, and a back cover or case back 2c attached to the lower circular portion 2b. The movement 6 is placed within a space defined by the lower circular portion 2b and the case back 2c.
The dial plate 3 is disposed in the upper side of the movement 6. The case ring 4 is formed in an uninterrupted circular form. The case ring 4 is disposed in a position above an outer portion 3b of the dial plate 3 and inside the upper circular portion 2a to cover the outer circumferential edge of the dial plate 3. The crystal 5 is disposed in a position above the case ring 4 and inside the upper circular portion 2a with a seal 7 disposed between the crystal 5 and the upper circular portion 2a. The seal 7 also contacts to the case ring 4. The seal 7 is made of an elastic material for waterproofing.
The dial plate 3 includes a center opening 3a in a center C1 through which a rotating shaft 6a extending from the movement 6 extends. The hour hand 8a and the minute hand 8b are fixed to the rotating shaft 6a. The center C1 is coincident with the geometric center of the dial plate 3 in the wristwatch 1 of the present embodiment. However, the center C1 may not be necessarily the geometric center of the dial plate 3 as long as the center C1 is the rotational center of the hand 8. The hour hand 8a rotates about the center C1 once in every twelve hours, and the minute hand 8b rotates about the center C1 once in every sixty minutes.
The dial plate 3 includes a plurality of indices 3d (an example of first indices or index, hereinafter referred to as the first indices (index) 3d) for indicating time (the hand 8 points at the first indices). The first index 3d is disposed on a radial line L extending radially outwardly from the center C1 and the radial line L is provided every 30 degrees around the center C1. Each of the first indices 3d has a rectangular shape in a plan view. Pointing at the first index 3d by the hour hand 8a indicates an hour. Twelve first indices 3d are provided on the dial plate 3, each of which corresponds to each hour. The first index 3d is formed of resin, metal, mineral ore (a precious stone such as diamond, for example) or the like. The first index 3d is a convex portion protruding from the surface of the dial plate 3 to the crystal 5 (upward in a height direction H).
Two first indices 3d, 3d are arranged side by side in a position corresponding to twelve o'clock. Twelve o'clock has a special meaning different from other hours since the morning turns to afternoon and dates change at twelve o'clock. Accordingly, the two first indices 3d, 3d are arranged side by side to be distinguished from the indices at other hours to display the special meaning on the dial plate 3. Pointing at the middle of the two first indices 3d, 3d by the hour hand 8a indicates twelve o'clock. In other words, the two first indices 3d, 3d perform the function of the single first index 3d at twelve o'clock.
The case ring 4 is formed in a circular shape, and includes an inner circumferential surface 4a. As shown in
The eave 4c is positioned above the first indices 3d on the dial plate 3 in the height direction H so that the eave 4c and the first indices 3d are separated from each other in the height direction H. An outer circumferential surface 4b of the case ring 4 faces the upper circular portion 2a of the case 2. The upper end of the outer circumferential surface 4b is located above the eave 4c in the height direction H. An upper surface 4g of the case ring 4 includes an outer portion 4m and an inner portion 4n. The outer portion 4m substantially horizontally extends from the upper end of the outer circumferential surface 4b. The inner portion 4n is located inside of the outer portion 4m in the radial direction r and inclined downward toward the eave 4c.
The case ring 4 includes a plurality of second indices 4d (an example of second indices or index). Each of the second indices 4d is arranged in series with the first index 3d on the dial plate 3 and on the radial line L extending radially from the center C1. Each of the second indices 4d corresponds to each of the twelve first indices 3d on the dial plate 3. In other words, the case ring 4 includes twelve second indices 4d. The second index 4d is disposed outside of the corresponding first index 3d in the radial direction r (see
As shown in
As shown in
The trapezoidal portion 4f is a space or cutout formed on the eave 4c by cutting out the eave 4c in the height direction H. Accordingly, the trapezoidal portion 4f is also concave relative to the upper surface 4g of the case ring 4. In the trapezoidal portion 4f, the line to which the contour line is projected in the plan view of
As shown in
The first index 3d includes an end 3k (hereinafter also referred to as a proximal end 3k) closer to the second index 4d and an end (hereinafter also referred to as a distal end) further away from the second index 4d. Each of the proximal end 3k and the distal end has a width W1 which is a dimension between two contour lines 3i, 3j (hereinafter referred to as radial contour 3i, 3j) extending parallel to the radial line L. The width W1 of the first index 3d is substantially the same as the width W2 of the rectangular portion 4e in the second index 4d, but the width W1 is slightly wider than the width W2 (W2<W1). In other words, the width W2 of the rectangular portion 4e is slightly narrower than the width W1 of the first index 3d.
The width W3 of the proximal end 4t in the second index 4d (i.e. that is the portion corresponding to the lower base of the trapezoidal portion 40 is wider than the width W1 of the proximal end 3k in the first index 3d (W1<W3). As a result, virtual lines VL, VL extended from the radial contour lines 3i, 3j of the first index 3d toward the second index 4d cross the inclined contour lines 4r, 4r of the second index 4d. In addition, the length of the second index 4d in the radial direction is longer than that of the first index 3d.
According to the wristwatch 1 configured as above, even if the displacement or misalignment between the first indices 3d of the dial plate 3 and the second indices 4d of the case ring 4 occurs (i.e. the first indices 3d and the second indices 4d are relatively displaced in the circumferential direction around the center C1), such displacement can hardly be recognized.
Specifically, with regard to the two indices, i.e. the first index 3d and the second index 4d on the radial line L, the viewer looking at the wristwatch 1 recognizes the relative displacement between the first indices 3d and the second indices 4d in the circumferential direction around the center C1 when the viewer recognizes the displacement in the circumferential direction between the radial contour line 3i of the first index 3d and the radial contour line 4i of the second index 4d, or the displacement in the circumferential direction between the radial contour line 3j of the first index 3d and the radial contour line 4j of the second index 4d as shown in
In this regard, in the wristwatch 1 of the present embodiment, the contour lines 4r, 4r are provided between the radial contour line 3i and the radial contour line 4i. The contour lines 4r, 4r are located at the end of the second index 4d closer to the first index 3d and inclined relative to a direction to which the radial contour line 3i and the radial contour line 4i extend (i.e. a direction to which the radial line L extends). As a result, the viewer hardly recognizes the amount of the displacement in the circumferential direction between the virtual line VL extended from the radial contour line 3i of the first index 3d and the line extended from the radial contour line 4i of the second index 4d as well as the amount of the displacement in the circumferential direction between the virtual line VL extended from the radial contour line 3j of the first index 3d and the line extended from the radial contour line 4j of the second index 4d.
Accordingly, the viewer hardly recognizes whether the amount of the displacement between one side edge of the first index 3d and one side edge of the second index 4d (i.e. between the radial contour lines 3i, 4i) and the amount of the displacement between the other side edge of the first index 3d and the other the side edge of the second index 4d (i.e. between the radial contour lines 3j, 4j) are equal or not. Therefore, according to the wristwatch 1 of the present embodiment, the displacement can hardly be recognized by the viewer who feels that the first index 3d and the second index 4d may be displaced even when the amount of the displacement between the one side edges of the indices 3d, 4d and the amount of the displacement between the other side edges of the indices 3d, 4d are not equal. This can suppress deterioration of quality in the appearance of the timepiece due to the displacement.
Further, in the wristwatch 1 of the present embodiment, the width W3 of the portion (i.e. the proximal end 4t) corresponding to the lower base of the trapezoidal portion 4f in the second index 4d is wider than the width W1 of the end (the proximal end 3k) of the first index 3d closer to the second index 4d (i.e. W1<W3). This makes the viewer difficult to recognize the size difference between the width W1 of the first index 3d and the width W2 of the rectangular portion 4e in the second index 4d (i.e. whether the widths W1, W2 have the same dimension, or one of the widths is larger than the other), and accordingly, the displacement can hardly be recognized.
In the wristwatch 1 of the present embodiment, the displacement hardly occurs between the dial plate 3 and the movement 6 but may occur between the dial plate 3 and the case ring 4. In this case, the displacement hardly occurs between the hand 8 and the first indices 3d but may occur between the hands 8 and the second indices 4d. Further, in the wristwatch 1 of the present embodiment, the end (the proximal end 4t) of the second index 4d closer to the first index 3d has the wider shape. Accordingly, a direction at which the tip of each hand 8 is pointing comes within an area of the width W3 of the trapezoidal portion 4f even if the second indices 4d are displaced in the circumferential direction. As a result, the displacement of the second indices 4d relative to the hands 8 can hardly be recognized.
Further, in the wristwatch 1 of the present embodiment, the width W2 of the rectangular portion 4e in the second index 4d is narrower than the width W1 of the first index 3d. Accordingly, even if the both side edge (i.e. the radial contour lines 3i, 3j) of the first index 3d are virtually extended, such virtual lines VL, VL cross the inclined contour lines 4r, 4r of the second index 4d.
On the other hand, if the width W2 of the rectangular portion 4e in the second index 4d is slightly wider than the width W1 of the first index 3d, and the both side edge (i.e. the radial contour lines 3i, 3j) of the first index 3d are virtually extended, such virtual lines do not cross the inclined contour lines 4r, 4r of the second index 4d. As a result, the viewer easily images a condition that the lines extend parallel to the both side edges (the radial contour lines 4i, 4j) of the rectangular portion 4e in the second index 4d. In this case, with regard to two pairs of the parallel lines (i.e. a pair of the radial contour lines 3i, 4i, and a pair of the radial contour lines 3j, 4j), the viewer easily recognizes difference between the distance between the one pair of the parallel lines and the distance between the other pair of the parallel lines compared to the case shown in
Even in the above case, the displacement between the first indices 3d and the second indices 4d becomes inconspicuous since the trapezoidal portion 4f is provided between the rectangular portion 4e of the second index 4d and the first index 3d. In other words, the radial distance between the radial contour line 3i and the radial contour line 4i is separated by the trapezoidal portion 4f provided between the radial contour lines 3i, 4i, so that comparison of the position of the radial contour line 3i to the position of the radial contour line 4i can be avoided. Further, the displacement between the trapezoidal portion 4f and the radial contour line 3i or the radial contour line 4i can hardly be recognized since the contour lines 4r, 4r which form the trapezoidal portion 4f are not parallel to the radial contour line 3i and the radial contour line 4i. The above descriptions are also applied to the relation between the radial contour lines 3j, 4j and the trapezoidal portion 4f.
As described above, in the wristwatch 1 of the present embodiment, the virtual lines VL, VL extended from the radial contour lines 3i, 3j of the first index 3d cross the inclined contour lines 4r, 4r of the second index 4d, so that the viewer can hardly image a condition that the virtual lines extend to the radial contour lines 4i, 4j of the rectangular portion 4e in the second index 4d. This makes the displacement more inconspicuous.
The above displacement would become conspicuous if the width W3 of the trapezoidal portion 4f is equal to or narrower than the width W1 of the first index 3d to form a trapezoid with a shorter lower base, while the width of the rectangular portion in the second index 4d remains as the width W2. In other words, setting the width W3 of the trapezoidal portion 4f as described above, the contour lines 4r, 4r in the trapezoidal portion 4f inclines toward a center in the width direction as it gets closer to the center C1. The trapezoid having the shorter lower base than the upper base tapers like an arrow head. Accordingly, the trapezoidal portion 4f having the arrow head shape points at a portion displaced from the center in the width direction when the above displacement occurs. As a result, the displacement can be easily recognized.
In addition, as shown in
Here, the first indices 3d′ of the dial plate 3 at the twelve o'clock position may be regarded as the indices consisting of the two first indices 3d, 3d arranged along the direction perpendicular to the radial line L. However, the first indices 3d′ may be regarded as a single rectangular first index 3d′ having a width more than twice as wide as that of the first index 3d and including a concave cutout 3s in the center of the width.
Similarly, the second indices 4d′ of the case ring 4 at the twelve o'clock position may be regarded as a single bigger second index 4d′ having a width more than twice as wide as that of the second index 4d and including a convex bar 4z in the center of the width.
It can be said that the first index 3d′ and the second index 4d′ regarded as described above have the same configuration as the indices corresponding to the other hour positions. Specifically, the first index 3d′ is configured to protrude toward the crystal 5 from the surface of the dial plate 3. On the other hand, in the second index 4d′ of the case ring 4 at the twelve o'clock position, the rectangular portion is formed as a concave groove relative to the upper surface 4g of the case ring 4 except the bar in the center of the width, and the trapezoidal portion has a space or cutout formed by cutting out the eave 4c in the height direction H. The width of the lower base of the trapezoidal portion in the second index 4d′ is wider than the width of the first index 3d′, and the width of the rectangular portion in the second index 4d′ is narrower than that of the first index 3d′.
Accordingly, the first index 3d′ differs from the first indices 3d at the other hour positions in that the cutout 3z is provided in the center of the width direction. The second index 4d′ differs from the second indices 4d at the other hour positions in that the bar 4z is provided in the center of the width direction. However, even with the above differences, common configurations of the first and second indices 3d′, 4d′ with the indices (i.e. the first indices 3d and the second indices 4d) at the other hour positions can make the displacement in the circumferential direction between the first indices 3d′ and the second indices 4d′ inconspicuous. The indices (i.e. the first index 3d′ and the second index 4d′) at the twelve o'clock position may have the same configuration as the indices (i.e. the first indices 3d and the second indices 4d) at the other hour positions.
In the timepiece according to the present disclosure, the width W2 of the end (the distal end) in the second index 4d further away from the first index 3d may not be narrower than the width W1 of the end (the proximal end 3k) of the first index 3d closer to the second index 4d, but the width W2 of the second index 4d may be equal to or wider than the width W1 of the first index 3d.
Further, in the wristwatch 1 of the present embodiment, the second indices 4d are separated from the first indices 3d in the height direction H and located above the first indices 3d as shown in
In the timepiece according to the present disclosure, the second indices 4d may not be separated from the first indices 3d in the height direction H and may not be located above the first indices 3d, but the first indices 3d may be disposed in the same height as the second indices 4d. Further in the timepiece according to the present disclosure, the second indices 4d may not be disposed not to overlap the first indices 3d in the plan view shown in
Moreover, in the wristwatch 1 of the present embodiment, each of the first indices 3d is formed to be convex in the height direction H, and each of the second indices 4d is formed to be concave in the height direction H as shown in
In addition, there are big differences in appearance between the radial contour lines 3j, 3j of the convex first index 3d and the radial contour lines 4i, 4j of the concave second index 4d when viewed in the line of sight in the oblique direction, so that the combination of the convex shape and the concave shape can makes the displacement more inconspicuous.
Note that in the timepiece according to the present disclosure, each of the first indices 3d may not be convex relative to the dial plate 3 in the height direction H, but may be provided in the same height as the surface of the dial plate 3 by printing or transfer printing, for example. Similarly, in the timepiece according to the present disclosure, each of the second indices 4d may not be concave relative to the upper surface 4g of the case ring 4 in the height direction H, but may be provided in the same height as the upper surface 4g of the case ring 4 by printing or transfer printing, for example. Alternatively, each of the second indices 4d may be convex from the upper surface 4g in the height direction H as the first index 3d. It is preferable not to form the first index 3d and the second index 4d flat but to form at least one of the first index 3d and the second index 4d stereoscopically (in a convex shape).
Further, in the wristwatch 1 of the present embodiment, the case ring 4 includes the eave 4c extending toward the center C1 of the dial plate 3 upwardly separated from the dial plate 3 in the height direction H as shown in
Note that in the timepiece according to the present disclosure, the eave 4c may not be cut out in the shape corresponding to the trapezoidal portion 4f of the second index 4d. In addition, the case ring 4 of the timepiece according to the present disclosure may not include the eave 4c. In this case, the timepiece may have a shape (a configuration in which the eave 4c does not substantially form an eave) in which the bottom surface of the eave 4c is extended downward in the height direction H (i.e. a direction approaching the upper surface of the dial plate 3) to the upper surface of the dial plate, or a shape in which the inner circumferential surface 4a is upwardly extended to the upper surface 4g to exclude the eave 4c, for example. In the case without the eave 4c, the trapezoidal portion 4f may be formed at the end (i.e. the proximal end 4t) of the rectangular portion 4e closer to the first index 3d.
In the wristwatch 1 of the present embodiment, the wider shape of the second index 4d is formed as the trapezoidal portion 4f, but the wider shape of the timepiece according to the present disclosure is not limited to the trapezoid. Specifically, in the trapezoidal portion 4f, the two contour lines 4r, 4r corresponding to the inclined legs of the trapezoid are straight but the two lines which forms the wider shape may be curved like an arc. For example, as shown in
Next, a second embodiment of the present disclosure will be described with reference to
Each of the first indices 33d includes contour lines 33i, 33j, 331, 33m, 33n, 33o to form a hexagonal shape in the plan view of
According to the second embodiment, the second rectangular portion 34f of the second index 34d is located between the contour lines 33i, 33j of the first index 33d and the contour lines 34i, 34j of the second index 34d. Further, the contour lines 33m, 33n of the first index 33d are inclined relative to the second contour lines 34x, 34y and do not extend parallel to the second contour lines 34x, 34y. Accordingly, the viewer can hardly recognize the amount of the displacement in the circumferential direction between the virtual lines VL, VL extended from the contour lines 33i, 33j of the first index 33d and the lines extended from the contour lines 34i, 34j of the second index 34d. Also, the viewer can hardly recognize the amount of the displacement in the circumferential direction between the contour lines 33i, 33j of the first index 33d and the contour lines 34x, 34y of the second index 34d.
Alternatively, in the timepiece according to the present disclosure, the second index 4d shown in
Similarly, in the timepiece according to the present disclosure, the first indices 3d, 33d are not limited to the rectangular shape.
Further, the wristwatch 1 of the present embodiment can adopt the design wherein the second indices 4d, 34d are longer than the first indices 3d, 33d along the radial line L because of the effect that the displacement in the circumferential direction between the first indices 3d, 33d and the second indices 4d, 34d can hardly be recognized. Moreover, the first indices 3d, 33d and the second indices 4d, 34d can be arranged in series to form relatively longer indices along the radial line L because of the design wherein the second indices 4d, 34d are longer than the first indices 3d, 33d, which can give an impression which makes the indices noticeable and distinguishing.
The timepiece according to the present disclosure is not limited to one wherein the length of the second indices 4d, 34d along the radial line L is longer than that of the first indices 3d, 33d, but the length of the second indices 4d, 34d along the radial line L may be equal to or shorter than that of the first indices 3d, 33d.
In addition, the above effect of the present embodiment can be obtained by a general wristwatch having no bezel and the like since the second indices 4d, 34d are provided on the case ring 4 in the wristwatch 1.
Note that in the timepiece according to the present disclosure, the circular member is not limited to the case ring 4 of the wristwatch 1 in the above embodiments, but in a timepiece without the case ring 4, the bezel, the case 2 or the like may be the circular member. In this case, the second indices 4d, 34d may be disposed in the bezel or the case 2. Particularly, it is effective for a timepiece in which the rotatable bezel having a click mechanism is attached to the case, and the bezel stops at positions where the indices of the dial plate face the indices of the bezel. This is because such a timepiece has more parts for the rotation mechanism, it can be easily affected by accumulation of tolerances of the parts, which make it difficult to precisely set the position where the rotation of the bezel stops, and the indices of the bezel may easily be misaligned relative to the indices of the dial plate.
In addition, the circular member in the timepiece according to the present disclosure may not necessarily be a complete ring but may be an incomplete ring having at least one cutout. In short, the circular member in the timepiece according to the present disclosure may not be a completely connected ring as long as the circular member is disposed in the outer circumferential portion of the dial plate or radially outward of the dial plate and is arranged relative to at least the first indices in series.
Further, the indices (the first index and the second index) of the present disclosure may not be applied to all indices (the first index 3d, the second index 4d) corresponding all hours like the wristwatch 1, but may only be applied to some noticeable indices (indices corresponding to twelve o'clock, three o'clock, six o'clock, nine o'clock, for example).
Alternatively, the indices of the present disclosure may be applied to some of indices which are easily displaced or misaligned. Specifically, for example, when the case ring 4 is set to the case 2 of the wristwatch 1 based on the twelve o'clock position of the case ring 4 (the twelve o'clock position of the case ring 4 is set to correspond to a predetermined position of the case 2 (a position corresponding to twelve o'clock)), and the displacement is likely to occur at the six o'clock position opposite to the twelve o'clock position with the center C1 therebetween, the present disclosure may be applied at least to the index at the six o'clock position.
The above embodiments are applied to the wristwatch as an example of the timepiece according to the present disclosure. However, the timepiece according to the present disclosure is not limited to the wristwatch but may be applied to portable watches such as a pocket watch and other types of watches such as non-portable watches.
| Number | Name | Date | Kind |
|---|---|---|---|
| 6295251 | Sakai | Sep 2001 | B1 |
| 20110103199 | Winkler | May 2011 | A1 |
| 20190086871 | Okamura | Mar 2019 | A1 |
| Number | Date | Country |
|---|---|---|
| 515540 | Jul 1971 | CH |
| 01121312 | Aug 1956 | FR |
| 2004-184197 | Jul 2004 | JP |
| 2007-124011 | May 2007 | JP |
| 2015-169480 | Sep 2015 | JP |
| Entry |
|---|
| Office Action issued in Japanese Patent Application No. 2016-163985, dated Jun. 2, 2020, with English translation, in 7 pages. |
| Number | Date | Country | |
|---|---|---|---|
| 20200272104 A1 | Aug 2020 | US |
