EP0694822B1 - Watch with a magnetic, north, indicating device - Google Patents

Description

The present invention relates to a watch comprising a device for indicating the Earth's magnetic north. In particular, the invention relates to such a device indicating the magnetic north of the earth, the element of which active is formed by a permanent bipolar magnet.

It is known from the German document G 8306716.7 a watch with a north indication device magnetic earth (hereinafter magnetic north). This document describes a watch comprising a case in which is arranged a watch movement associated with coaxial analog time indicators. It is provided in this document a device for indicating the north magnetic formed by a permanent bipolar magnet ring disposed between the watch movement and a watch face, this annular permanent magnet being arranged so that its central axis is coaxial with axes carrying the aforementioned time indicators.

The magnetic north indication device also has a direction indicator attached to it first end, with the annular permanent magnet and arranged so that its second end appears in a circular slot provided in the watch face to allow a user of this watch to locate the direction of the magnetic axis of the permanent magnet annular which is supposed to align with the direction of flow magnetic earth.

The watch including the device for indicating the magnetic north described above presents some major drawbacks.

First, the arrangement of the permanent magnet between the watch movement and the watch face increases the thickness of this watch, which goes to against the constant concern of watchmakers from provide watches with a reduced thickness for reasons of comfort when the watch is worn on the wrist and for aesthetic reasons.

The arrangement of the coaxial annular permanent magnet to the central axis of the watch movement, i.e. coaxial with the axes of the hands of this watch, is disadvantageous for the operation of the device indication of magnetic north when the movement watchmaker includes magnetic masses, i.e. masses with low magnetic reluctance. These magnetic masses disturb the magnetic field earthly and orient the permanent magnet independently of this earth's magnetic field if this permanent magnet is not far enough from these magnetic masses, including the battery of an electronic movement.

Therefore, if the permanent magnet is placed at proximity to the magnetic masses of the watch movement, the magnetic north indication device does not work not properly. If, on the other hand, the permanent magnet is distant from the movement to decrease the attraction of the masses magnetic on this permanent magnet, the thickness of the watch is greatly increased, which deprives a such watch of any commercial future.

In addition, the arrangement of the permanent magnet above of a movement comprising magnetic masses has for consequence that the terrestrial magnetic flux is concentrated in the region defined by these magnetic masses. From this fact, the density of the Earth's magnetic flux passing through the permanent magnet of the magnetic north device is lesser. So the effectiveness of this device is lessened.

We also know documents CH-17 742 and CH-274 909 a watch fitted with a classic compass, this compass including a magnetic needle placed on a point and located between the time dial and the glass. The needle, centered on the tip, can move freely in a plane parallel to the dial to indicate approximately the horizontal component of the field magnetic earth.

We also know from document FR-2 438 861 a wristwatch with a miniature compass, plus particularly a compass whose sensitive crew has a narrow, light, non-marking indicator needle magnetic fixed in its center on a tree bearing also a bipolar permanent magnet whose axis magnetic is parallel to the longitudinal axis of the indicator needle. The mobile magnetic equipment as well constituted is arranged in the central recess of a cylindrical bowl as shown in the Figure 6 of this patent.

A main problem with such watches equipped with a compass comes from disturbances caused by the watch movement when it has masses magnetic, as already mentioned above.

The use of a classic compass inside a watch, as described in the documents CH-17 742 and CH-274 909, does not solve this problem. Indeed, even miniaturized, such a compass equipped with a magnetic needle defining a certain useful surface corresponding to its rotation surface, sudden, if the needle is superimposed or near magnetic masses, disturbances such as the indication provided to the user cannot be correct.

This problem can be solved by moving away, in the general plan of the case, the magnetic needle of the masses magnetic, but this creates a drawback major relative to the arrangement of the compass in the housing and the resulting size is detrimental to the aesthetics of the watch, especially for a wristwatch traditional.

In addition, for easy reading of the indication of the direction, the indicator must be sufficiently large dimensions, which cannot that increase the problem of space mentioned above.

The device described in the French document allows, relative to the teaching of documents Swiss, to better move away from magnetic masses, for a given dimensions, the magnetic element of the compass using a small permanent bipolar magnet secured to the indicator needle and reduced dimensions.

However this shape indicator needle symmetrical conventional, coupled with the magnet, is centered on the pivoting shaft as illustrated in figure 6 of this document. The compass thus produced cannot be easily arranged in a box while respecting the space constraints linked in particular to a wristwatch traditional (see Figures 1, 2, 18, 19 and 20 of this document).

The aforementioned drawbacks are therefore particularly disadvantageous for an application to keep the aesthetic aspect traditional of a wristwatch.

An object of the present invention is to overcome the disadvantages mentioned above by providing a watch including a north indication device magnetic whose arrangement does not affect the dimensions of the watch or affects it to a lesser extent and, jointly, whose magnetic functioning provides a correct indication of the north magnetic earth.

According to the subject of the present invention, such as defined in claim 1, the watch comprises a magnetic north indication device comprising a direction indicator with longitudinal dimension is offset relative to the axis of rotation of this indicator and the magnet associated with it.

Then the rotational movement of the direction is limited so that its part longest longitudinal, measured from the axis of rotation and partially defining said dimension longitudinal, is constantly located in a sector circular oriented substantially in the direction of center of the watch relative to said axis of rotation.

The present invention therefore makes it possible to position the axis of the indicating device and therefore the magnet in a peripheral region of the watch case this which moves it away from the magnetic disturbances of the masses due to movement while allowing, thanks to the decentralization of the indicator to solve the problem of congestion mentioned above.

According to a particular characteristic of the invention the permanent magnet is mounted on a tree to which the direction indicator is attached, the latter being located between the dial and the watch glass then that the permanent magnet is located between the bottom and the dial of this watch.

According to a first alternative embodiment, the magnet permanent is located in a lateral peripheral region external to the watch movement contained in the watch. According to a second alternative embodiment, the magnet permanent is located in a peripheral region interior of the watch movement, the tree carrying the magnet permanent having two pivots mounted respectively in two bearings arranged in the frame of this movement watchmaker.

In order to ensure a correct indication of the direction of the magnetic earth north by the device indication of magnetic north according to the invention, secondly, the invention relates to a watch whose watch movement includes magnetic masses, notably an electronic watch movement, the magnet permanent magnetic north indication device being arranged in the case of this watch as described above and at a sufficient distance from said masses magnetic so that its minimum energy position is essentially determined by magnetic flux terrestrial crossing the watch.

According to particular characteristics of the invention, the permanent magnet is formed by a ring mounted directly on a relatively diameter shaft small so that the permanent magnet is understood in a limited volume of the watch case, the direction indicator having a dimension longitudinal much greater than the radial dimension of the annular permanent magnet and being formed of a material not magnetic.

Therefore, the active element of the device indicating the magnetic north formed by the magnet permanent can be removed from the magnetic masses of the horological movement included in the watch while being arranged on the edge of the case of this watch without harming any good reading of the indicated magnetic north direction by the direction indicator. This direction indicator being non-magnetic, it can without other approach the magnetic masses of the watch movement without this affects the accuracy and sensitivity of the device indication of magnetic north according to the invention.

According to the subject of claim 6, it is provided, according to the invention, to orient the direction indicator relative to the magnetic axis of the permanent magnet of so that this direction indicator is oriented precisely in the direction of terrestrial magnetic north when aligned with a positioning mark. For do this an angular offset between the longitudinal axis of direction indicator and magnetic axis of the magnet permanent is expected, the angular offset depending on the disturbance of the Earth's magnetic field caused by the magnetic masses present in the movement watchmaker and the position of the positioning mark mentioned above.

Another object of the invention is to provide a watch comprising a magnetic north indication device as described above allowing a user having this wrist watch easily follow a course, that is to say to follow a determined direction relative to the Earth magnetic north.

Another object of the invention is to provide a watch including a magnetic north indication device as described above used to indicate the direction a given location from at least one other location. In particular, the place whose direction is given is the Mecca.

• la figure 1 est une vue en coupe d'un premier mode de réalisation de l'invention;
• la figure 2 est une vue en coupe d'une première variante du premier mode de réalisation de l'invention;
• la figure 3 est une vue de dessous d'une deuxième variante équivalente à la première variante du premier mode de réalisation de la figure 2;
• la figure 4 est une vue en coupe partielle d'un deuxième mode de réalisation de l'invention;
• la figure 5 est une vue de dessus schématique de l'agencement du dispositif d'indication du nord magnétique terrestre selon l'invention;
• la figure 6 est une vue schématique de dessus d'une variante de réalisation d'un cadran d'une montre selon l'invention;
• les figures 7 à 9 décrivent un troisième mode de réalisation d'une montre selon l'invention, servant à suivre une direction déterminée, et son mode de fonctionnement;
• la figure 10 est une vue schématique de dessus d'un quatrième mode de réalisation d'une montre selon l'invention servant à indiquer à un utilisateur la direction de la Mecque.

Other characteristics and advantages of the present invention will be described below with the aid of the following description, given with reference to the appended drawings, given by way of non-limiting examples, in which:

• Figure 1 is a sectional view of a first embodiment of the invention;
• Figure 2 is a sectional view of a first variant of the first embodiment of the invention;
• Figure 3 is a bottom view of a second variant equivalent to the first variant of the first embodiment of Figure 2;
• Figure 4 is a partial sectional view of a second embodiment of the invention;
• Figure 5 is a schematic top view of the arrangement of the device for indicating the magnetic north of the earth according to the invention;
• Figure 6 is a schematic top view of an alternative embodiment of a dial of a watch according to the invention;
• Figures 7 to 9 describe a third embodiment of a watch according to the invention, used to follow a given direction, and its mode of operation;
• Figure 10 is a schematic top view of a fourth embodiment of a watch according to the invention for indicating to a user the direction of Mecca.

Using FIG. 1, a description will be given below of first embodiment of a watch according to the invention.

In this figure 1, watch 1 includes a movement watchmaker 2 associated with two hands 4 and 6 used to analog time display. Watch 1 includes in addition to a window 8, fixed in a telescope 10, and a middle 12 also forming the bottom of the case watch.

Watch 1 also includes a device 14 indication of the direction of terrestrial magnetic north. This device 14 comprises a bipolar permanent magnet 16 mounted on a shaft 18 defining an axis of rotation 20. Bipolar permanent magnet 16 defines a magnetic axis (not shown) perpendicular to the axis of rotation 20.

The shaft 18 provided with the magnet 16 is housed inside a cage 22. This cage 22 is arranged in the middle part 12 in the outer lateral peripheral region of the watch movement 2.

A direction indicator 24 is fixedly connected to the tree 18. This direction indicator 24 is used to indicate magnetic north direction as will be described more precisely thereafter.

Note that the permanent magnet 16 is arranged in the lateral peripheral region of the watch movement 2 and is located between dial 26 of watch 1 and the bottom of this watch. In particular, it will be noted that the arrangement of the device 14 does not generate, in the present embodiment, strictly no increase in the thickness of the watch 1. The direction indicator 24 is arranged between the dial 26 and the crystal 8 of the watch 1 at the same level as the 6 hour hand, the minutes 4 being arranged so as to pass over the direction indicator 24. As a result, the direction indicator direction 24 does not cause any increase in thickness of watch 1.

FIG. 2 shows a variant of the first embodiment of FIG. 1. Watch 31 includes a middle part 32 on which is fixed a crystal 8 and a separable case 34. The watch movement 2 is mounted in a casing circle 36 on the surface of which is provided for the dial 26 of watch 31. This watch 31 also includes a device 14 for indicating the north magnetic identical to that described in Figure 1, but arranged in the casing circle 36. It will be noted here that the magnetic axis 38 of the permanent magnet 16 has been represented in this figure 2. The other references already described in Figure 1 will not be described here at new in detail.

Note again that the permanent magnet 16 is located in the outer peripheral region of the movement watchmaker 2. In this variant embodiment, the watch movement 2 is located off-center relative to the middle part 32. The arrangement of the device 14 magnetic north direction indication again does not generate any excess thickness of watch 31.

The cage 22 arranged in the casing circle 36 has two bearings 40 and 42 in which are respectively guided two pivots 44 and 46 of the shaft 18. The first pivot 46 forming a first end of the shaft 18 rests on a counter-pivot 48 arranged in the cage 22. The pivot 44 forming a second end of the shaft 18 crosses the bearing 40 and extends beyond this bearing 40 so as to allow the barrel of the needle 24 forming the direction indicator to be fixed rigidly at pivot 44.

In Figure 3 is shown a second variant of the first embodiment, equivalent to the first variant described using Figure 2. In this figure 3 shows a watch 51 seen from below in the absence of its background. This watch 51 includes a clockwork movement 52 mounted in a circle 54. A device 14 for indicating the magnetic north direction, similar to those described in using figures 1 and 2, is arranged in the circle casing 54 in an equivalent manner to FIG. 2.

Watch movement 52 is a movement electronic including a motor 56 and a battery door 58. The stator 60 of the motor 56 and the battery (not shown) arranged in the hatch 58 form magnetic masses, i.e. masses of weak magnetic reluctance easily conducting flux magnetic.

The cage 22 of the device 14 for indicating the direction of magnetic north, containing the magnet permanent (not visible in Figure 3) of this device 14, is located in a region 62 relatively restricted lateral peripheral region 64 of the watch movement 52. In particular, the cage 22 is distant from the magnetic masses of the watch movement 52 and is located opposite the battery door 58, intended to receive the battery necessary to power the watch movement 52, relative to the central axis of the watch movement 52.

Thus, the permanent magnet of the device 14 indication of the direction of magnetic north east away from the power supply battery of movement 52, this battery being one of the main magnetic elements disrupting the earth's magnetic flux crossing the shows 51. When arranging the watch movement 52 and of device 14 in watch 51, it is ensured that the distance separating the permanent magnet from the device 14 from magnetic masses of the watch movement 52 is sufficient so that the minimum energy position of the magnet permanent be essentially determined by the flow magnetic field crossing the watch 51.

Indeed, in case the permanent magnet of the device 14 would be located near magnetic masses of the watch movement 52, these magnetic masses and particular their configuration then determine the orientation of the permanent magnet of the device 14. In this latter case, this device 14 would become totally ineffective in indicating magnetic north direction since the minimum energy position of the magnet permanent would be determined by the magnetic masses themselves. The present invention solves this problem thanks to the arrangement of the north indication device 14 magnetic and its positioning in the watch 51 relative to watch movement 52. In addition, the invention solves the problem of efficiency and sensitivity of the north indication device 14 magnetic without generating an increase in the thickness of the watch 51.

In Figure 4 is partially shown a second embodiment of a watch according to the invention.

In this second embodiment, the device magnetic north indication 14 is arranged in the watch movement 72.

The references already described in Figures 1 to 3 do not will not be described here again in detail.

The shaft 18 of the device 14 on which is mounted the permanent magnet 16 is arranged between a first part 74 and a second piece 76 of the watch movement frame 72. Bearings 40 and 42 are arranged in two openings provided for this purpose respectively in Exhibits 74 and 76 of the watch movement 72. Again, the pivot 46 of the shaft 18 is supported on the counter-pivot 48 while the pivot 44 crosses the bearing 40 in the direction of the dial 26. The axis 78 of the needle 24 forming the indicator of device 14 direction is securely attached to the pivot 44.

The shaft 18 and the magnet 16 are therefore entirely included in the thickness of the watch movement 72. The needle 24 is again arranged above the dial 26.

When the watch movement includes masses magnetic, the direction of flow of magnetic flux terrestrial in a region bordering these masses magnetic is modified by the presence of these masses magnetic. In addition, the disturbance on the direction of the magnetic axis of the permanent magnet generated by the presence of magnetic masses varies depending on the relative position of the permanent magnet and these masses magnetic. Therefore, the direction defined by the axis magnetic of the permanent magnet of the device magnetic north indication has an angle of variable deviation from north magnetic when positioning the permanent magnet relatively to the magnetic masses varies in a frame of reference defined by the direction of magnetic north earthly.

With the aid of Figures 5 and 6, the following will be described solution provided by the present invention to the problems mentioned above.

In Figure 5 is shown in top view the bipolar permanent magnet 16 and its magnetic axis 38, the shaft 18 on which the magnet 16 is mounted and the direction indicator 24 of the indication device of the magnetic north of the invention.

In Figure 6 is shown schematically a top view of a watch according to the invention and in particularly the arrangement of the dial 82 of this watch. The axis of rotation 20 of the direction indicator 24 is located at the edge of the dial 82 and is aligned with the twelve o'clock position. In addition to the indications relating to the indication of the time by means of hands 4 and 6, it a positioning marker 84 is provided, formed by a arrow 86.

In order to guarantee a correct indication and precise direction of Earth's magnetic north, the longitudinal axis 86 of the direction indicator 24 is angularly offset by an angle α. This angle α is determined precisely so that the indicator of direction 24 has its longitudinal axis 86 aligned with the north-south direction of the undisturbed terrestrial magnetic field when this longitudinal axis 86 is aligned with the reference 84. In practice, the value of the angle α does not have need to be calculated theoretically. In a way to angularly position the direction indicator 24 relative to the magnetic axis 38 of the permanent magnet 16, we can simply place when mounting the direction indicator 24 the arrow 85 of the reference mark positioning 84 in the north-south direction of the field undisturbed terrestrial magnetic. To do this, it is in particular possible to use a repository indicating precisely the north-south direction of the magnetic flux undisturbed terrestrial. Once the watch movement (not shown) and the dial 82 correctly positioned, the needle 24 constituting the direction indicator mentioned above is mounted on the shaft 18 of the device 14 of so that the longitudinal axis 86 of this needle 24 is aligned with the reference 84, that is to say so that that this longitudinal axis 86 is oriented along the direction given by arrow 85 of the mark of positioning 84.

It follows from what has just been described above that the longitudinal axis 86 of the direction indicator 24 and the arrow 85 of the positioning mark 84 indicate correctly and precisely the north direction magnetic earth when the longitudinal axis 86 is aligned with the positioning mark 84.

It will be noted that the positioning reference 84 can be formed by any means defining at least one point on which the direction indicator is likely to line up. Since the direction indicator 24 rotates around its axis of rotation 20, a single point of positioning allows to define a given direction for the longitudinal axis 86 of the direction indicator 24. Thus, when the positioning mark defines a geometric figure other than a point, it is expected that this geometric figure presents a general direction intercepting the axis of rotation 20.

Thanks to the arrangement of the device 14 for indicating the direction of terrestrial magnetic north according to the invention, the disturbance caused by the masses of the watch movement on the magnetic flux terrestrial, crossing the region in which the magnet permanent 16 of device 14 is located, is corrected when the direction indicator 24 of the device 14 is aligned with the positioning mark 84 provided in the watch according to the invention.

Thus, when the direction indicator 24 has not its longitudinal axis 86 aligned with the reference mark positioning 84, the direction indicator 24 does not indicate more precisely the direction of magnetic north terrestrial, especially since the angular offset between the longitudinal axis 86 of the direction indicator 24 and the direction defined by the positioning mark 84 is great.

In order to allow the direction indicator 24 to indicate the direction of geographic north it has been provided on the dial 82 a graduation 88 defining a magnetic declination scale. The declination in one given place on the surface of the earth corresponds to the geographic azimuth of magnetic north, i.e. equal to the angle formed between the north direction geographic and magnetic north direction. In knowing the magnetic declination of the place where is the user of the watch represented in FIG. 6, he is possible to align the longitudinal axis 86 of direction indicator 24 on the corresponding division to this magnetic variation. In Figure 6, the part of graduation 88 located to the right of the direction 24 corresponds to magnetic variations negative, i.e. magnetic variations west W, while that part of graduation 88 located at left of this direction indicator 24 corresponds to positive magnetic versions, that is to say magnetic variations is E.

As a first approximation, the 88 graduation is linear. However, it is provided in a mode of preferred embodiment a graduation 88 arranged in such a way so that the angle formed between the corresponding division to zero magnetic declination and another division corresponding to a non-zero magnetic declination, relative to the axis of rotation 20 of the indicator direction 24, integrates the disturbance on the flow earth magnetic flowing in the magnet region permanent when the watch movement includes magnetic masses 60.

It will be noted here that in the case where the movement watchmaker does not understand any magnetic mass, the angle α between the magnetic axis 38 of the permanent magnet 16 and the longitudinal axis 86 of the direction indicator has a zero value, and the graduation 88 to hold account of the magnetic declination is then linear.

In the embodiment of FIG. 6, it is provided with two stops 90 and 91 serving to limit the travel of the direction indicator 24. As it appears on this figure 6, it will be noted that the axis of rotation 20 of the direction indicator 24 is located on the edge of the dial 82 of the watch and that the needle, constituting the direction indicator 24, is oriented in the direction of the center of the dial 82 when this hand is aligned with arrow 85 of the positioning mark 84. Thus, the arrangement of the device according to the invention allows a good reading of the direction of north magnetic using direction indicator 24 all by having the permanent magnet of the indication device 14 magnetic north from the edge of the watch according to the invention, that is to say in the region lateral device of the watch movement included in this watch. The direction indicator 24 is formed by a non-magnetic material. Therefore, the presence of this direction indicator 24 near ground movement of the watch movement does not disturb the precision and sensitivity of the indication device magnetic north according to the invention.

With the aid of FIGS. 7 to 9, there will be described below a third embodiment of a watch according to the invention used to follow a given direction.

Watch 94 includes an indication device 14 magnetic north of the earth according to the invention. The watch 94 is a wristwatch intended to be worn on the wrist of a user. This watch 94 includes a dial 96 located inside a case 98.

The device 14 includes a direction indicator 24 associated with a positioning mark 100 formed by a interval defined using two annular sectors. On the dial 96 is provided a graduation 102 forming at at least partially a wind rose. Axis 20 of device 14 is positioned on the corresponding division at the indication of the north direction. The projection of the axis of rotation 20 on the dial 96 and the interval defining the positioning mark 100 are aligned on the north-south direction of graduation 102.

According to the invention, the housing 98, in which is arranged the dial 96 and the watch movement (not shown) of watch 94, is likely to undergo a rotation about the central axis 104 relative to the strap 106 of watch 94. To do this, case 98 is rotatably mounted on the support 110 fixedly connected to the bracelet 106. As an example, the device allowing the rotation of the housing 98 relative to the support 110 includes a toothed wheel integral with the housing 98 and at minus a pawl for angular positioning of this wheel secured to the support 110. Any other device known from a person skilled in the art, in particular equivalent devices to devices used for watches comprising a rotating bezel, can be used in the arrangement of watch 94.

Note that the graduation 102 includes at least four divisions corresponding to the four points cardinals of the terrestrial globe. The division indicating the north direction given by the landmark of positioning 100 and by the axis of rotation 20. The watch 94 described in FIGS. 7 to 9 makes it easy to follow a heading, that is to say a determined direction, when the watch is worn by a user.

Using FIGS. 7 to 9, the following will be described which way watch 94 can be used to track a Cape. When watch 94 is used for time indication, axis of rotation 20 of device 14 is positioned angularly relative to the axis of rotation 104 of the housing 98 in a position determined. In Figure 7, this determined position corresponds to the twelve o'clock position of watch 94 relative to support 110. When a user wishes on the other hand use the watch 94 to follow a direction determined for example the southwest direction it will rotate the case 98 of the watch 94 until division 112 of graduation 102 corresponding to the southwest direction be positioned angularly on the twelve o'clock position of the support 110 of watch 94. Then, the user has his forearm 114 in front of the trunk of his body in such a way that this forearm is substantially horizontal and the watch is located opposite his head. Then like this is shown in figure 9, the user will rotate on itself until the direction indicator 24 is aligned with the positioning 100. So the management determined that the user has chosen to follow corresponds to the direction given by division 112 of graduation 102 relatively to the center of this circular graduation which coincides with the axis of rotation 104 of the housing 98. This direction then corresponds to the direction of travel of the watch user 94.

To follow the direction he has chosen, the user will ensure that the direction indicator 24 remains aligned with the positioning mark 100. In the case where the location of the user of the watch 94 has a magnetic variation and a graduation allowing to take into consideration these magnetic variations is provided, the user ensure that the direction indicator 24 is aligned on the division of this graduation corresponding to the magnetic declination of the place in which is located user of watch 94.

Using FIG. 10, a description will be given below. third embodiment of a watch according to the invention intended to indicate the direction of a place determined in relation to at least one other given location.

Watch 120 according to this third embodiment includes a housing 122 comprising a rotating bezel 124. The two hands 126 and 127 allow a display analog time. Again, watch 120 includes a device 14 for indicating the north direction Earth magnetic equivalent to those described previously and the dial 128 again includes a mark position 125 associated with the direction indicator 24.

In the case shown in Figure 10, the watch 120 is arranged to allow a user to determine the direction of Mecca from a set of cities on dial 128 and which are associated respectively with angular references 130 defining an angular position in the plane of the dial 128 relative to the axis of rotation 132 of the telescope rotating 124. The angle formed in the plane of the dial 128 between a given index 130, the axis of rotation 132 of the rotating bezel and axis of rotation 20 of the indicator of direction 24 corresponds to the magnetic azimuth between the direction of Mecca and the direction of magnetic north at the location defined by the city corresponding to the landmark angular 130 given.

In order to correctly determine the direction of the Mecca from a city on dial 128, it is planned to rotate bezel 124 until that the landmark 134 and the angular landmark 130 of the city where the user is aligned with the projection on the dial 128 of the axis of rotation 132. Next, the watch 120 is rotated by the user until the direction indicator 24 is aligned with the reference 125 as previously described. Once the direction indicator 24 aligned with the reference 125, the Mecca direction corresponds to the defined direction by the reference 134 provided on the rotating bezel 124 and the axis of rotation 132 of this rotating bezel. In order to facilitate for the user the determination of the correct direction of Mecca it was planned on the rotating bezel 124, opposite the reference 134 relative to the axis of rotation 132, a reference 136 pointing in the direction of Mecca. So the direction determined by marks 134 and 136 allows easily a user to determine the direction of the Mecca.

It will be noted here that it is provided in a variant of realization that the housing 122 comprising the dial 128, the device 14 for indicating the terrestrial magnetic north (partially shown) and the watch movement (not shown) provided inside the housing 122 are likely to be rotated relative to the watch strap (not shown) from watch 120.

Claims (12)

1. Watch comprising an horological movement (2; 52; 72), a case (12; 32, 34; 98) within which is fitted such horological movement and means (14) for indicating the terrestrial magnetic north also fitted within said case, said terrestrial north indicating means comprising a bipolar permanent magnet (16), mounted on a shaft (18) defining a rotation axis (20), and a direction indicator (24) rigidly fixed to said permanent magnet, this direction indicator being made of a non-magnetic material and having a longitudinal dimension perpendicular to said rotation axis and defining the direction shown by this indicator, such permanent magnet exhibiting a radial magnetization defining a magnetic axis (38) perpendicular to said rotation axis and being located within a lateral peripheral region of said horological movement, said watch being characterized in that said longitudinal dimension of said direction indicator is excentric relative to said rotation axis, the rotation of said direction indicator being limited so that its biggest longitudinal part, measured from said rotation axis and partially defining said longitudinal dimension, is always located within a circular sector substantially orientaded in the direction of the center of the watch relative to said rotation axis
2. Watch according to claim 1, characterized in that said direction indicator (24) is located between a dial (26; 82; 128) and a crystal (8) of said watch and said permanent magnet is located between said dial and the back cover of the watch.
3. Watch according to claim 1 or 2, characterized in that said permanent magnet (16) is located in a lateral peripheral region exterior to said horological movement (2; 52).
4. Watch according to claim 1 or 2, characterized in that said permanent magnet (16) is located in a lateral peripheral region interior of said horological movement (72), said shaft (18) bearing said permanent magnet having two pivots (44, 46) respectively mounted in two bearings (40, 42) fitted into said horological movement.
5. Watch according to claim 1, comprising a power cell, characterized in that said permanent magnet (16) is located in a region (62) of said case opposite the region in which such power cell is localized relative to a central axis of said horological movement (52).
6. Watch comprising an horological movement having magnetic masses (2; 52; 72), a case (12; 32, 34; 98) within which is fitted this horological movement and means (14) for indicating the terrestrial magnetic north also fitted within said case, said terrestrial north indicating means comprising a bipolar permanent magnet (16), mounted on a shaft (18) defining a rotation axis (20), and a direction indicator (24) rigidly fixed to said permanent magnet, this direction indicator being made of a non-magnetic material and defining a longitudinal axis (86) perpendicular to said rotation axis which defines the direction indicated by said indicator, said permanent magnet exhibiting a radial magnetization defining a magnetic axis (38) perpendicular to said rotation axis and being located within a lateral peripheral region of said horological movement, said watch being characterized in that said direction indicator (24) is associated with a positioning reference marker (84, 100, 125) along which said longitudinal axis is adapted to align itself, said magnetic axis (38) of the permanent magnet (16) and said longitudinal axis (86) of said direction indicator (24) exhibiting an angular separation (α) the value of which is a function of said magnetic masses and the position of said positioning reference marker relative to said first rotation axis (20), such value being determined in a manner such that said direction indicator (24) indicates precisely the direction of the terrestrial magnetic north when its longitudinal axis (86) is aligned on said positioning reference marker.
7. Watch according to claim 6, characterized in that it comprises a first graduation (102) associated with said direction indicator (24), such graduation enabling the identification of at least the four cardinal points.
8. Watch according to claim 7, characterized in that the direction defined in the general plane of the watch by said first rotation axis (20) and said positioning reference marker (100) corresponds to the north-south direction of said first graduation (102).
9. Watch according to any of claims 6 to 8, serving to indicate the direction of Mecca, characterized in that such watch comprises means (124, 134, 136) for indicating the direction of Mecca capable of undergoing a rotation around a second rotation axis (132) perpendicular to the general plane of the watch, such second rotation axis defining a point representative of the geographical position of Mecca projected onto said general plane of the watch, said watch having at least one angular reference marker (130) representative of a place or a region of Earth on which a direction reference marker belonging to said means (134) for indicating the direction of Mecca is capable of aligning itself, the direction of Mecca being provided by such direction reference marker whenever the latter is aligned on said angular reference marker corresponding to the place where the user of said watch is located and that said longitudinal axis (86) of said direction indicator (24) is aligned on said positioning reference marker (125).
10. Watch according to claim 9, characterized in that a set (130) of angular reference markers is provided corresponding to a set of cities and on each of which said direction reference marker (134) is adapted to be aligned, such angular reference markers being laid out around said second rotation axis (132).
11. Watch according to claim 7 or 8, characterized in that said first graduation (102) is laid out on an element of said case (98), such case being rotatably mounted on a support (110) fixedly coupled to a bracelet (106) of such watch, said case being apt to undergo a rotation relative to said support in a manner to position any division whatsoever of said graduation in the 12 o'clock position of said watch.
12. Watch according to any of claims 7, 8 and 11, characterized in that it comprises a second graduation (88) defining a scale of magnetic declination, such second graduation being associated with said direction indicator (24) in a manner such that said longitudinal axis (86) of such direction indicator is apt to align itself on any division whatsoever of such second graduation.

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