The present invention relates to timepieces and, more particularly, to a dual analog or analog-style watch employing a single dial face having a single series of hours indicia.
The art of watchmaking and designing is a highly developed art which has progressed over hundreds of years. Therefore, creating a watch's timekeeping movements, whether implemented entirely mechanically, or as a combination of electronic circuitry and mechanical parts, is widely known and within easy reach of a person of ordinary skill in the art and, as such, does not require further explanation herein.
The marketing and promotion of various timepieces are therefore driven by appearance and design aspects, as well as various add-on functionality of watches, by which manufacturers and suppliers of watches distinguish their wares from one another.
Accordingly, it is an object of the present invention to provide a novel chronometer and/or chronograph watch of unique functionality and arrangement.
Also, it is an object of the present invention to provide a dual chronometer and/or a dual chronograph watch that utilizes a single dial face and dual time movements having controls that are implementable with existing technology.
Additionally, it is an object of the present invention to increase the likelihood of visibility of an analogue display regardless of a profile viewing angle or of a partially covered dial face.
Furthermore, the present invention aims to simultaneously provide dual time-zone timekeeping capabilities without having a second series of hours indicia cluttering the dial face.
Moreover, the present invention seeks to provide the capability of tracking the day and/or date of the week in two time-zones.
Also, the present invention provides the capability of concurrently tracking the elapsed times of two phenomena.
Additionally, the present invention provides a dial face having a large surface area capable of displaying an insignia or design with high visibility.
Furthermore, the present invention provides a large dial face and surrounding bezel having a large surface area for receiving an increased number of precious or semiprecious stones with high visibility.
Still further, the present invention provides a unique stem arrangement incorporating two pairs of three stemmed controls, wherein an outer contour of each stemmed control defines a geometrical polygonal shape which is harmonized with the outer polygonal shapes of the watch itself.
The foregoing and other objects of the invention are realized with a preferred watch frame construction having a top and bottom side connected and enclosed by a series of peripheral side walls arranged relative to one another to define a polygonal twelve-faced perimetral wall. The top side having a large oval dial face with a circumferential boundary surrounds the dial face and a large oval bezel surrounds the circumferential boundary of the dial face. The dial face and the bezel provide a large surface area for receiving an insignia or design, which may additionally be adorned with precious or semiprecious stones.
A single series of hours indicia is arranged around and along the circumferential boundary of the dial face, surrounding an interior region of the dial face. Aesthetically, the hours indicia may be in the form of dashes, arabic numerals, or roman numerals ranging from one through twelve. Additionally, the hours indicia may be selectively provided to further decrease any clutter on the dial face.
Two analogue time movements, either chronograph or chronometer, are arranged in spaced relationship to each other on the interior region of the dial face. Each time movement having an hours handle, a minute handle, and possibly another handle for pointing to the single series of hours indicia. Having more than one time movement and arranging them alongside one another provides a user with many functional and aesthetic advantages.
For the world traveler, the dual time movements of the present invention allow the user to concurrently track time in two different time zones with the added benefit of diminished clutter on the dial face because only one series of hours indicia are on the dial face. For example, the user would selectively use a first control stem couple to and controlling the first time movement and located at one side of the perimetral wall, to set the first time movement's hour and minute handles at a desired point on the series of hours indicia to represent the time in New York. The user would then use a second control stem, coupled to and controlling the second time movement and located at another side of the perimetral wall, to set the hour and minute handles of the second time movement at a second desired point on the series of hour indicia to show the actual time in Paris. The user could then determine the actual time in New York by mentally capturing a first image of the first time piece and mentally moving the first captured image toward a center of the dial face within the interior region. The user would then read the hours indicia pointed to by the minute and hour handles of the first time movement to determine the actual time in New York. Similarly, the user determines the actual time in Paris, at the same instant of time by mentally capturing a second image of the second time piece, mentally moving this second captured image toward the center of the dial face, and reading the hours indicia pointed to by the minute and hour handles of the second time movement. Furthermore, a first and second day and/or date indicators are positioned on the dial face for tracking the day of the week represented by the respective time piece.
Provided with chronograph capabilities, a user can concurrently track elapsed times of first and second phenomena. With chronograph capabilities, a first and second set of timers, each set having three circular displays, are positioned on the interior region of the dial face. Each circular display has a centrally mounted counter handle capable of counting seconds, minutes, hours, hundredths of a second, tenths of a second, seconds, or any other desired time increment.
A third and fourth stem respectively located at a third and fourth one of the perimetral walls, respectively control and are coupled to the first and second timer sets for performing a reset function. When the third and fourth stem controls are pressed the respective counter handles are positioned at a starting point. A fifth and sixth stem, located at a fifth and sixth one of the perimetral walls, respectively control and are coupled to the first and second timer sets to perform a start/stop function. For example, pressing the fifth stem control initiates an elapsed time count by the counter handles of the first timer set by sending the respective counter handles in motion. Pressing the fifth stem a second time stops the motion of the first timer set's counter handles so that the user can read the first set of circular dials to determine the elapsed time of the first phenomena. Controlling the sixth stem provides equivalent functionality to the second timer set as the fifth control did to the first timer set so that the user can determine the elapsed time of the second phenomena.
Dual time movements also provide added visibility. For example, if the user is wearing a long sleeved shirt that partially covers the dial face of the watch, there is a greater possibility that one of the analogue displays remains in sight.
Other features and advantages of the present invention will become apparent from the following description of the invention which refers to the accompanying drawings.
a through 1d illustrate top views of a watch frame of the present invention having a band connected perpendicularly to a long axis of the watch frame.
a illustrates a left side view of the watch frame of the present invention having a flat crystal.
b illustrates a right side view of a watch frame of the present invention having a raised, diamond-shaped crystal.
a and 3b illustrate bottom views of the watch frame of the present invention.
a and 6b respectively illustrate a side view of a traditional watch and a side view of the watch of the present invention as illustrated in
The present invention provides a novel chronometer and/or chronograph watch of unique functionality and arrangement.
a through 1d illustrate top views of a watch frame 10 of the present invention having a top side 12 and a bottom side 14 (see
Side 12 of watch frame 10 has a large oval dial face 28 which has a circumferential boundary 30. Surrounding the circumferential boundary 30 is a large oval bezel 32. Dial face 28 and bezel 32 provide a large surface area for receiving an insignia or design 34, and/or may be adorned with precious or semiprecious stones 36 defining the insignia.
A single series of hours indicia 38 is arranged around and along the circumferential boundary 30 of dial face 28 and surrounds an interior region 40 of dial face 28. The series of hour indicia 38 may include fluorescent ink for visibility in the dark.
A first and a second analogue time movement 42 and 44 respectively, are arranged in spaced relationship to each other on the interior region 40 of dial face 28 along long axis 26 of watch frame 10. Both time movements 42 and 44 have an hour handle 46, a minute handle 48, and a second handle 50 for pointing to the single series of hours indicia 38. Handles 46, 48, and 50 have a tip region 51 at their distal end that is treated with a glow in the dark ink for added visibility in low light conditions. Tips 51 may also be adorned with precious or semiprecious stones 36. A first date indicator 53 is coupled to and controlled by time movement 42, and is provided on interior region 40 of dial face 28 for tracking the day of the week corresponding to time movement 42. Likewise, a second date indicator 55 is coupled to and controlled by time movement 44, and is provided on interior region 40 of dial face 28 for tracking the day of the week corresponding to time movement 44. Because both indicators 53 and 55 are controlled by separate time pieces 42 and 44, they can display numerals representing different dates.
Provided on interior region 40 are a first and a second set of chronograph timers 52 and 54 respectively. Timers 52 and 54 count elapsed time of a first and second phenomena respectively. Each set 52 and 54 has three circular displays 56a through 56c which have a centrally mounted counter handle 57 that is capable of counting seconds, minutes, hours, hundredths of a second, tenths of a second, seconds, or any other desired denomination of time. Therefore, for example, both timer sets 52 and 54 can have display 56a counting seconds, display 56b counting minutes, and display 56c counting hours or any other combination thereof to represent the elapsed time of the first or second phenomena.
A first crown stem 58 is coupled to and controls first time movement 42. A second crown stem 60 is coupled to and controls second time movement 44. Crowns 58 and 60 respectively extend in opposite directions from perimetral wall 18 along long axis 26 of frame 10. Crowns 58 and 60 control and/or wind first and second clock mechanisms for time movements 42 and 44 respectively. A distal end of stem 58 is adorned with a precious or semiprecious stone 36. Likewise, a distal end of stem 60 is adorned with a precious or semiprecious stone 36. Long axis 26 divides watch frame 10 into a first and a second hemisphere 65 and 67 respectively.
A third stem crown 62 controls and is coupled to timer set 52. A fourth stem crown 64 controls and is coupled to timer set 54. Third and fourth stems 62 and 64 extend from hemisphere 65 of wall 18 in opposite directions for controlling a reset function of the timer sets 52 and 54 respectively. Pressing third and fourth stem controls 62 and 64 drives counter handles 57 of timers 52 and 54 respectively to an initial timing position 59 and thereby resets timers 52 and 54.
A fifth stem crown 66 controls and is coupled to timer 52 for controlling a start/stop function of timer 52. A sixth stem crown 68 controls and is coupled to timers 54 for controlling a start/stop function of timer 54. Fifth and sixth stems 66 and 68 respectively extend in opposite directions from hemisphere 67 of wall 18. Pressing stem 66 initiates an elapsed time count by counter handles 57 of timer 52 by sending the respective counter handles 57 in motion. Pressing stem 66 again stops the motion of the first set's 52 counter handles 57 so that the user can read circular displays 56a through 56c of the first timer 52 to determine the elapsed time of the first phenomena. Controlling stem 68 provides functionality to timer 54 equivalent to the functionality provided by stem 66 for timer 52, thereby allowing the user to determine the elapsed time of the second phenomena.
a illustrates a full periphery of precious stones 36 attached to bezel 32. Interior region 40 of dial face 28 is adorned with a design 34 in the form of a waterdrop. Waterdrop design 34 is further adorned with precious stones 36. Additionally, the single series of hours indicia 38 is in the form of arabic numerals ranging from one to twelve.
b illustrates a slight variation of dial face 28 and bezel 32 from
In another variation,
Referring to
a illustrates a left side view of watch 10. Shown in the first, third, and fifth stem controls 58, 62 and 66 receptively. For stylistic purposes, the outer contours of these stems 58, 62, and 66 are defined by geometrical polygonal shapes that are harmonized with the outer polygonal shapes of watch 10. Each stem 58, 62, and 66 is shown to be a graspable knob which has a polygonal shape of at least six sides. A center of the distal end of stem 58 is adorned with a precious stone 36. Covering dial face 28 on top surface 12 is a crystal 70. Here, the profile of the crystal 70 is substantially flat. Similarly, if frame 10 was curved to conform to the curvature of a wrist, the crystal 70 would curve therewith yet would still not substantially extend from top side 12.
b illustrates a right side view of watch 10. There is shown the second, fourth, and sixth stem controls 60, 64 and 68 receptively. For stylistic purposes, the outer contours of these stems 60, 64, and 68 are defined by geometrical polygonal shapes which are harmonized with the outer polygonal shapes of watch 10. Each stem 60, 64, and 68 is shown to be a graspable knob having a polygonal shape of at least six sides. A center of the distal end of stem 60 is adorned with a precious stone 36. Here, the profile of crystal 70 extends upward from top surface 12 in a pyramidal or diamond like shape.
Referring to
a illustrates a profile view of a traditional single analogue watch 84. The dial face of a traditional single analogue watch 84 is not visible from a profile because it is not large and oval shaped with a longitudinal axis perpendicular to the longitudinal axis 82 of the user's wrist 80.
b illustrates a user wearing an embodiment of watch 10 as illustrated in
The previously described precious stone bearing bezel 32 is illustrated in modified form in
The left hand side mechanism for releasing the bezel is illustrated in
To release the bezel, the knob 150, which has a shaft, the distal end of which is anchored in the slidable block 146, is pressed in the direction of the arrow 154 and slides within the cutout 144 in the cap 118a of the frame wall 118, causing the pin 134a to be released and the bezel to fall out.
The instantly removable and reconnectable precious stone bezel 132 of the present invention can be provided in any shape, such as round, oval, rectangular or any shape, and departs from the prior art which has provided such bezels with internal threads fitting only a perfectly round watch, with similar threads formed thereon.
The removable bezel may or may not include a gemstone mounting and a plurality of bezels may be purchased by a customer to suit different occasions, i.e., formal business meeting, evening social engagements, etc.
Although the present invention has been described in relation to particular embodiments thereof, many other variations and modifications and other uses will become apparent to those skilled in the art. It is preferred, therefore, that the present invention be limited not by the specific disclosure herein, but only by the appended claims.
This application is a Continuation-in-Part Application of U.S. application Ser. No. 10/783,300, filed on Feb. 20, 2004 and entitled “OVAL SHAPED TIMEPIECES AND STEM ARRANGEMENT FOR WATCHES”, the entire contents of which are expressly incorporated herein by reference.
Number | Date | Country | |
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Parent | 10783300 | Feb 2004 | US |
Child | 10821449 | Apr 2004 | US |