Information
-
Patent Grant
-
6738317
-
Patent Number
6,738,317
-
Date Filed
Thursday, September 13, 200123 years ago
-
Date Issued
Tuesday, May 18, 200420 years ago
-
Inventors
-
Original Assignees
-
Examiners
Agents
-
CPC
-
US Classifications
Field of Search
US
- 368 88
- 368 276
- 368 277
- 368 309
- 368 308
-
International Classifications
-
Abstract
There is disclosed a wristwatch (1) whose wristband (6) is attached to a support (3) with respect to which the case (2) can turn over to show one or other of its faces (16, 17). The support (3) includes, on the parallel inner surfaces (9) of its flanges (7), grooves (10) in which snugs (39) connected to the case can slide and pivot. Stops are provided in the grooves (10), to stop the case sliding after a first sliding travel of the snugs (39) from the ends (42) of the grooves, to define a pivoting zone of the case, before the snugs effect a second sliding travel to the other ends (42). Support surfaces (11) and a transverse recess (12) are provided on the bottom (4) of the support to prevent the case turning over except in the zone of the stops.
Description
The present invention concerns a wristwatch including a support attached to a wristband and a case containing a clockwork movement and display means, the case being mounted on the support so as to be able to slide and turn over to show respectively one or other of its faces in two operating positions, the watch including means for holding the case in its two operating positions, the support comprising two parallel inner surfaces each including a longitudinal groove closed at its ends, the case including, facing said inner surfaces, two parallel lateral walls each having a snug able to slide in the corresponding groove of the support, each of the grooves including at least one stop, disposed at a distance from its ends, the effect of said stop being to define a stop zone for the case, after a first sliding travel of the snug from one end of the groove, to let said case turn over, before said snug performs a second sliding travel to the other end of the groove.
A wristwatch of this type has been known for a long time. Additional Certificate No. 41 060 to French Patent No. 712 868 granted on Aug. 3, 1931 shows different variants. In a first variant, the watch case is free to pivot, to turn over on itself, at any place on the support. In another variant, this pivoting freedom is restricted. Indeed, the arrangement of the mechanism is such that the case can only pivot and turn over at the ends of the support, recesses being provided for this purpose.
However, these embodiments have a major drawback in common. The manufacturer of such watches can choose to favour ease of handling of the mechanism, in which case he will not use too hard a spring to hold the case in its operating positions, in order to make the latter easier to release. In such case, the mechanism will be made too sensitive to abrupt movements by the user's wrist, said movements being able to cause the case to pivot inadvertently. In order to overcome this drawback, the manufacturer may choose to use springs of greater hardness, in which case it becomes difficult to handle the mechanism and the mechanical parts are exposed to premature wear.
The object of the present invention is to improve watches of this type so as to avoid the aforecited drawbacks.
The invention therefore provides a wristwatch of the type indicated hereinbefore, characterised in that it further includes means for preventing the case from pivoting outside said stop zone and thus said stop zone being a pivoting zone.
In a particular embodiment, said means for preventing the case pivoting outside said pivoting zone may be formed by at least one guide surface on the support, against which a surface of the case can abut by sliding.
One may also provide, in each groove, a recess located facing the stop, to allow the corresponding snug to get over the latter. One may, in this embodiment, use other means, such as the use of snugs of elongated cross-section, of greater length than the height of the groove, so that they can only pivot in the pivoting zone defined by the position of the stop and in which sufficient space is provided.
The case will thus pivot exclusively in the pivoting zone at a distance from the ends, removing any risk of inadvertent pivoting connected to an abrupt movement of the wrist.
In a preferred embodiment including said guide surface on the support, each groove may be formed of two successive sections, substantially parallel to the guide surface, and located at different distances from the latter, thus defining a high section and a low section, said sections being connected by a vertical break. In particular, the snugs of the case can be offset with respect to each other in height, said grooves being placed such that the high section of one is opposite the low section of the other and vice versa.
The invention will be better understood from the following description of different embodiment examples with reference to the annexed drawings, in which:
FIG. 1
is a perspective view of a preferred embodiment of a wristwatch according to the invention, in one of the two operating positions;
FIG. 2
is a perspective view of the support of the watch of
FIG. 1
;
FIG. 3
is a perspective view of the case of the watch of
FIG. 1
;
FIG. 4
is a schematic lateral view of the watch in an intermediate sliding position of the case;
FIG. 5
is a schematic lateral view of the watch during the pivoting phase of the case;
FIG. 6
is a schematic lateral view of the watch, pivoting being completed, prior to the second sliding step of the case;
FIG. 7
is a cross-section of the watch case of
FIG. 1
, along its vertical median symmetrical plane;
FIG. 8
is a top view of the support of the watch of
FIG. 1
;
FIG. 9
is a longitudinal cross-section of the support along the line IX—IX of
FIG. 8
;
FIG. 10
is a transverse vertical cross-section of the support along the line X—X of
FIG. 9
;
FIG. 11
is a view of the bar establishing the connection between the case and the support shown in
FIGS. 8
to
10
;
FIG. 12
is a similar view to that of
FIG. 9
, in an embodiment for which each stop is located substantially on the axis of the groove and each snug includes a recess; and
FIG. 13
is a similar view to that of
FIG. 9
, in an embodiment for which each groove includes a recess facing the corresponding stop, the snugs having an elongated shape.
FIGS. 1
to
6
illustrate the general appearance of wristwatch
1
, according to the preferred embodiment, and the movement effected by case
2
when it slides and turns over with respect to support
3
.
Support
3
includes a bottom
4
the upper part of which is concave and from which project horns
5
, to which wristband
6
is secured, and lateral flanges
7
parallel to the direction of wristband
6
. Each of these lateral flanges
7
has an upper edge
8
of rounded shape, a maximum height at its middle and an inner surface
9
including a longitudinal groove
10
.
Bottom
4
of support
3
includes longitudinal guide surfaces
11
, which are also visible in
FIG. 8
, extending from the ends of the support to its central region, in which there is a rounded transverse recess
12
delimited on either side by flanges
7
. The latter further include holes
13
and
14
which pass through them substantially midway from the longitudinal ends of the support, and which open into the corresponding groove
10
.
In this embodiment, the case has a general spindle shape in its longitudinal direction which corresponds to the direction of the wristband, its lateral walls
15
being substantially plane and parallel, thus delimiting two convex faces
16
and
17
of substantially complementary shape to that of bottom
4
of the support. In a preferred variant, faces
16
,
17
of the case and bottom
4
of the support each have a profile in the arc of a circle.
Each of lateral walls
15
includes a small projecting element
18
located on middle part
19
of the case and preferably having substantially the shape of a portion of a sphere. Projecting element
18
could be made to be retractable into the case by using resilient means which are not shown. A hole
20
passes through middle part
19
in proximity to an end
21
of the spindle. At its other end
23
it includes a recess
22
in the portion thereof accommodating the time-setting crown
24
, said crown having a flattened shape to avoid projecting from the upper and lower faces of the case.
As is seen more clearly in
FIG. 7
, the case carries a curved crystal
25
on its upper face
16
and includes two fine transverse grooves
26
in its lower face
17
, these grooves accommodating by lateral sliding the bent ends
27
of a decorative plate
28
of the same curvature as the crystal. This plate
28
conceals a sealed battery hatch
29
and covers, in the example shown here, most of lower face
17
for the purpose of giving the back of the case a particular aesthetic appearance. Of course, plate
28
may have other functions rather than being simply decorative, like for example covering a compartment able to receive any object or a spare battery. The case further includes, in a conventional manner, a clockwork movement
30
, a dial
31
and hands
32
.
It can be seen in
FIG. 8
that hole
13
of one of flanges
17
has a greater cross-section than that of hole
14
of the other flange. Indeed, these two holes
13
and
14
used during the assembly and dismantling of wristwatch
1
have different functions. During assembly, case
2
has to be placed between flanges
7
of support
3
, hole
20
of the case having to be aligned with holes
13
and
14
of support
3
. It is then that hole
13
, with the larger cross-section, receives the bar
33
shown in
FIG. 11
, which is inserted into the case until it abuts against opposite inner surface
9
in proximity to hole
14
. The function of hole
14
is to receive a small tool allowing bar
33
to be forced back in the opposite direction during dismantling, so as to remove it to detach case
2
from support
3
.
FIG. 9
shows the particular geometry of grooves
10
in this embodiment. These grooves are each formed of two successive sections
34
and
35
, substantially parallel to guide surfaces
11
and located at different distances from the latter, thus defining a high section
34
and a low section
35
, connected to each other by a vertical break
36
forming an upper stop
37
and a lower stop
38
. Grooves
10
are reversed with respect to each other, so that high section
34
of one is located opposite low section
35
of the other and vice versa, as appears in FIG.
10
. These grooves
10
receive snugs
39
formed by the ends of bar
33
, these snugs being offset with respect to each other in height as is seen in FIG.
11
. It should be noted that once bar
33
is housed in case
2
, a system equivalent to the use of snugs secured to the case is obtained, the bar being held in hole
20
by friction, for example as a result of an O-ring joint
40
.
The turning over of case
2
in support
3
is schematised in
FIGS. 4
to
6
. When case
2
is mounted in support
3
and is in one of its operating positions, showing for example its upper face
16
, as shown in
FIG. 1
, its small projecting elements
18
are engaged in grooves
10
of support
3
so as to lock it in said position. The user has to exert pressure on case
2
in a substantially parallel direction to wristband
6
in order to release it and be able to slide it as indicated by arrow C
1
to bring it into the position of FIG.
4
. It will be noted that when case
2
is close to an operating position, it cannot pivot around snugs
39
, not only because they are not on the same axis and grooves
10
are also offset in height, but above all because the distance of snugs
39
with respect to support
3
is smaller than that with respect to end
21
of the case. Consequently, case
2
has only a very small clearance in such a position until a support zone
41
of the case, in proximity to the end provided with snugs
39
, comes into contact with guide surfaces
11
of the support. Thus, during the sliding step, the user pushes case
2
by exerting pressure close to end
21
, in the direction of wristband
6
. Support zones
41
slide over guide surfaces
11
, until the uppermost snug
39
abuts against upper stop
37
and the lowest snug
39
abuts against lower stop
38
. It should be noted that the case may be made to include, on face
16
, longitudinal flanges (not shown) on either side of crystal
25
, the latter being slightly set back with respect to these flanges and support zones
41
, so that it does not come into contact with any element of support
3
during the movement. Case
2
then cannot continue sliding in the same direction. Since end
21
of the case is located above recess
12
, pivoting is made possible. Indeed, the user causes end
23
of the case to be raised then completely pivoted, as schematised by arrow P in
FIGS. 5 and 6
, so that the uppermost snug
39
moves downwards and is located at the level of low section
35
of the corresponding groove, while the lowest snug
39
moves upwards and is located at the level of high section
34
of the corresponding groove. Since the case is in the position of
FIG. 6
, it can effect a second sliding travel in the same direction, as indicated by arrow C
2
of
FIG. 6
, via the action of pressure by the user close to its end
23
. The second operating position, in which lower decorative face
17
of the case is visible, is reacted when snugs
39
reach a stop against ends
42
of grooves
10
and the small projecting elements
18
are fitted into the other ends of grooves
10
, thus locking case
2
.
In order to return to the first operating position in which upper face
16
is visible, the same series of operations need only be effected in the opposite direction, since snugs
39
have changed side with respect to support
3
of the watch.
One advantage of such a structure is that it prevents case
2
being able to be slid from one end
42
of grooves
10
to the other, without pivoting at stops
37
and
38
. Moreover, given the great height of flanges
7
of the support in the vicinity of recess
12
, there is no possibility of case
2
reaching a position without lateral support. Further, the respective shapes of case
2
and support
3
provide wristwatch
1
with aesthetic advantages due to the continuity of the shapes, the symmetry and fluidity of the complete movement of case
2
. This movement is preferably made in the direction of wristband
6
for aesthetic reasons and for originality, but it could also be made to occur laterally. When the movement occurs in the direction of the wristband, it is to be noted that the pivoting of the case at the centre of the support means that the recesses at the ends, as described in the aforecited prior art, can be omitted, which means a significant saving of space in proximity to the points where the wristband is attached. It should also be noted that guide surfaces
11
of support
3
have an additional function, which is preventing crystal
25
from coming into contact with support
3
and thus being damaged. The particular and complementary shapes of the case and the support give the watch another advantage which is good resistance to shocks and wear by friction, since, as appears in
FIGS. 1
to
3
, the watch does not have any projecting parts. This means that an embodiment in inexpensive moulded plastic as well as metal can be used.
Another embodiment is shown in
FIG. 12
, in which grooves
10
each include only one section, closed at its two ends
42
, and each stop
43
is formed by a cylindrical stub located substantially on the longitudinal axis of the corresponding groove
10
, preferably at an equal distance from ends
42
. Snugs
39
are at the same distance from guide surfaces
11
and are carried by bar
33
, formed here by a cylinder which is longitudinally truncated. Thus, once bar
33
is in place in hole
20
(visible in
FIG. 3
) of case
2
, of complementary shape, it cannot turn. Each snug
39
includes a lateral recess
44
, able to accomodate the corresponding stop
43
.
The shape of case
2
, guide surfaces
11
and rounded transverse recess
12
of support
3
are the same as in the embodiment according to
FIGS. 1
to
10
. Consequently, the overall turning movement sequence of case
2
in support
3
is unchanged with respect to the preceding description. After a first sliding travel from a first operating position, each snug
39
abuts against the corresponding stop
43
and covers it. It is only at this place that case
2
can pivot, by pivoting snugs
39
around stops
43
, because of the existence of guide surfaces
11
and recess
12
, as defined previously. Once case
2
has pivoted, each snug
39
can effect the second sliding travel until it abuts against the second closed end
42
of the corresponding groove
10
, where case
2
reaches its other operating position.
Another possible embodiment appears in FIG.
13
. Snugs
39
of the case have an oblong cross-section, preferably formed of two parallel rectilinear faces connected by two portions of a circle, and are of greater length than the height of grooves
10
of support
3
. The grooves each include two sections
45
at the same distance from guide surfaces
11
, closed at their ends
42
and separated by a rising projecting stop
46
, preferably located at an equal distance from ends
42
of the groove. A recess
47
of rounded shape and of greater dimension than the length of snugs
39
is located facing each stop
46
, junctions
48
and
49
between sections
45
and recess
47
forming necks through which snugs
39
can pass. Preferably, longitudinal guide surfaces
11
of support
3
are still present in the example shown, but are continuous from one end of bottom
4
of support
3
to the other.
The turning movement of case
2
remains overall the same as previously described, with however a significant difference as regards snug
39
passing over stop
46
. Indeed, each snug
39
starting from end
42
of a first section
45
, as shown in FIG.
13
for example, effects the first sliding travel in the corresponding groove
10
without being able to pivot therein, given their respective shape, until it abuts against stop
46
when case
2
then stops sliding. In order to continue its movement, snug
39
has to follow the upper contour of stop
46
, i.e. it pivots while being lifted up, passes through junction
48
to penetrate recess
47
where it can pivot sufficiently for the side of snug
39
which first entered recess
47
to be last to come out again through junction
49
, to enter second section
45
. Indeed, when the snug is in recess
47
, its distance from the bottom of support
3
is greater than its distance from end
21
of case
2
, which allows case
2
to turn over at this point in order to show its second face, and to effect the second sliding travel until snug
39
abuts against end
42
of second section
45
, thus defining an operating position.
It should be noted that the shape and dimensions of snug
39
are sufficient in this embodiment, to prevent case
2
from pivoting outside recess
47
. However, guide surfaces
11
on support
3
, on which support zones
41
of case
2
can slide in the sliding steps, reinforce the device by also preventing case
2
from pivoting during the sliding steps of snugs
39
and thus relieve the strain exerted on said snugs.
This variant, with or without guide surfaces
11
, allows the previously described rounded transverse recess
12
to be omitted from support
3
, which saves space in height in the support and thus involves a reduction in the thickness of wristwatch
1
.
Multiple applications may be imagined for wristwatch
1
with the reversible case according to the invention, whether it is made of moulded plastic material or metal. Indeed, thus use of a decorative plate covering one of the faces of the case and able to conceal a compartment was described, but the case may also be made to include, in place of the plate, a second analogue or digital display used to display, for example, the time of day, a second time zone, possibly using a second movement, measured times, or any other type of information.
Claims
- 1. A wristwatch including a support attached to a wristband and a case comprising two faces, a clockwork movement and display means, the case being mounted on the support so as to be able to slide and turn over to show respectively one or other of its faces in two operating positions, the watch including means for holding the case in its two operating positions, the support comprising a bottom and two parallel inner surfaces each including a longitudinal groove having closed ends, the case including, facing said inner surfaces, two parallel lateral walls each having a snug able to slide in a corresponding one of said grooves of the support, each of said grooves including at least one stop, disposed at a distance from its ends, the effect of each said stop being to define a stop zone for the corresponding snug, after a first sliding travel of said snug from one end of the groove, to let said case pivot about said snug to turn over said case, before said snug performs a second sliding travel to the other end of the groove, the watch further including means for preventing the case from pivoting while the snugs are situated anywhere alone said grooves except in the stop zones, each said stop zone thus defining a case pivoting zone.
- 2. A wristwatch according to claim 1, wherein said means for preventing the case from pivoting are formed by at least a guide surface on the support, on which a support zone of the case can rest while sliding.
- 3. A wristwatch according to claim 2, wherein each of said grooves includes two stops, each of said stops corresponding to a different sliding direction of the case.
- 4. A wristwatch according to claim 3, wherein each of said grooves is formed of two successive sections, substantially parallel to said guide surface and located at different distances from the latter, thus defining a high section and a low section of said groove, said sections being connected to each other by a vertical break which forms said stops.
- 5. A wristwatch according to claim 4, wherein the snugs of the case are offset with respect to each other in height, said grooves being arranged so that the high section of one is located facing the low section of the other and vice versa.
- 6. A wristwatch according to claim 1, wherein each of said grooves includes two stops, each of said stops corresponding to a different sliding direction of the case.
- 7. A wristwatch according to claim 6, wherein said means for preventing the case from pivoting are formed by at least a guide surface on said support bottom, on which a support zone of the case can rest while sliding, and wherein each of said grooves is formed of two successive sections, substantially parallel to said guide surface and located at different distances from the latter, thus defining a high section and a low section of said groove, said sections being connected to each other by a vertical break which forms said stops.
- 8. A wristwatch according to claim 7, wherein the snugs of the case are offset with respect to each other in height, said grooves being arranged so that the high section of one is located facing the low section of the other and vice versa.
- 9. A wristwatch according to claim 1, wherein each of said grooves includes a single stop located substantially at mid-height of the groove, each of the snugs of the case including a recess such that after said first sliding travel, each stop penetrates the recess of the corresponding snug to define therein a pivoting axis for the case, so that the snugs can only continue sliding after having pivoted around the stop.
- 10. A wristwatch according to claim 2, wherein each of said grooves includes a single stop located substantially at mid-height of the groove, each of the snugs of the case including a recess such that after said first sliding travel, each stop penetrates the recess of the corresponding snug to define therein a pivoting axis for the case, so that the snugs can only continue sliding after having pivoted around the stops.
- 11. A wristwatch according to claim 1, wherein each of said stops projects over one of both sides of said corresponding groove, a recess being provided on the opposite side of the groove, facing the stop, to allow the corresponding snug to pass over the stop during pivoting.
- 12. A wristwatch according to claim 2, wherein each of said stops projects over one of both sides of said corresponding groove, a recess being provided on the opposite side of the groove, facing the stop, to allow the corresponding snug to pass over the stop during pivoting.
- 13. A wristwatch according to claim 1, wherein each of said grooves of the support includes a recess facing the corresponding stop, each of said snugs of the case having an elongated cross-section, of greater length than the height of the groove, so that the case can pivot only by penetrating said recess.
- 14. A wristwatch according to claim 1, wherein the sliding of the case with respect to the support occurs in a substantially parallel direction to the direction of the wristband.
- 15. A wristwatch according to claim 3, wherein the sliding of the case with respect to the support occurs in a substantially parallel direction to the direction of the wristband.
- 16. A wristwatch according to claim 5, wherein the sliding of the case with respect to the support occurs in a substantially parallel direction to the direction of the wristband.
- 17. A wristwatch according to claim 6, wherein the sliding of the case with respect to the support occurs in a substantially parallel direction to the direction of the wristband.
- 18. A wristwatch according to claim 10, wherein the sliding of the case with respect to the support occurs in a substantially parallel direction to the direction of the wristband.
- 19. A wristwatch according to claim 12, wherein the sliding of the case with respect to the support occurs in a substantially parallel direction to the direction of the wristband.
- 20. A wristwatch according to claim 13, wherein the sliding of the case with respect to the support occurs in a substantially parallel direction to the direction of the wristband.
Priority Claims (1)
Number |
Date |
Country |
Kind |
1783/00 |
Sep 2000 |
CH |
|
US Referenced Citations (3)
Number |
Name |
Date |
Kind |
4236239 |
Imgruth et al. |
Nov 1980 |
A |
4493561 |
Bouchet |
Jan 1985 |
A |
5479381 |
Goldenberg et al. |
Dec 1995 |
A |
Foreign Referenced Citations (1)
Number |
Date |
Country |
86 06511 |
Nov 1986 |
WO |