CH714127A2 - Astronomical clock device. - Google Patents

Abstract

The invention relates to a watch device adapted to indicate the position of a star, characterized in that it comprises: - a circuit for determining a current time, - a circuit for determining a geographical position of the watch device, - a suitable means to determine the position (A) of the star according to the current time and the geographical position of the clock device, - a display system comprising a first needle, a second needle, and a means adapted to control the said needles in rotation in a main plane (XM, YM) of the watch device and display the determined position (A) of the star.

Description

Description

Technical Field [0001] The invention relates to an astronomical horological device, for example a wristwatch, capable of indicating the position of a star of the solar system.

BACKGROUND ART [0002] Such a watch is known for example from document EP 0 949 549, which describes a watch adapted to display the position of a star (planets or sun) in the Zodiac at the current date or at another time. dated. According to one of the described embodiments, with a purely analogue display, the watch comprises a dial in the shape of a crown which carries at its periphery a graduation in hours and in minutes and inside thereof the symbols of the twelve signs of the Zodiac. , as well as the representations of the four main phases of the Moon. The watch also includes a rotating bezel on which are represented by symbols the stars that can be selected by rotating the bezel to position the symbol of the star chosen at 12H. The position of the body selected in a Zodiac sign is then calculated and displayed by positioning the minute hand in a position where it simultaneously indicates the sign of the Zodiac in which the star is selected and the approximate position of the latter within the sign of the Zodiac in question, respectively using the symbols 18 and the graduation in hours and minutes 17 of the dial 16.

Such a watch makes it possible to display the sign of the Zodiac in which there is a star and the position of said star in said sign of the Zodiac at a given date. However, it does not allow a user to easily find the star selected in the sky if he can not locate the sign of the Zodiac concerned. In addition, given the number of symbols displayed on the dial and the bezel of the watch, reading this information is not always easy. SUMMARY OF THE INVENTION [0004] The invention proposes a new horological device making it possible to locate the position of a star in the sky and thus to give an uninformed user simple means for locating said star or planet in the sky. For this purpose, the invention proposes a watch device adapted to indicate the position of a star, characterized in that it comprises: a circuit for determining a current time, a circuit for determining a geographical position of the watch device, a means adapted to determine the position of the star according to the current time and the geographical position of the watch device, a display system comprising a first hand, a second hand, and a means adapted to control the said needles in rotation in a main plane of the watch device to display the determined position of the star.

The watch device according to the invention thus directly displays the position in the sky of the star sought. The user can then view the star directly in the sky, following the directions given by the hands of the display system.

According to one embodiment, the position of the star is defined in a horizontal coordinate system centered on the watch device by an azimuth (aA) and an elevation angle (ßA), a mark defined by a horizontal plane. (Xo, Yo) and a vertical axis (Zo), horizontal plane comprising a cardinal axis (Xo), the needle control means being adapted to determine a cardinal axis in the horizontal plane and to orient a first needle relative to the cardinal axis according to the determined azimuth of the star. The azimuth of the star in space is thus directly accessible for the user who can easily orient in the horizontal plane.

According to one embodiment also, the needle control means may be adapted to position a second needle, in the horizontal plane and with respect to a reference axis (Xm) related to the clock device, at an angle β equal at the elevation angle ßA of the star. In a variant, the needle control means may be adapted to orient the second needle relative to the horizontal plane according to the determined angle of elevation βA of the star.

According to one embodiment, the watch device may also include a means for selecting a star from a plurality of stars.

Finally, according to a mode of implementation, the clock device is of the wristwatch type, facilitating nomadic use.

BRIEF DESCRIPTION OF THE FIGURES [0010] The invention will be described hereinafter in more detail with the aid of the accompanying drawings, given by way of non-limiting examples, in which: FIG. 1 is a diagram showing the coordinates of a star in a horizontal coordinate system, FIG. 2 is a clock device according to the invention, in any position

Fig. 3 is a watch device according to the invention, in a position correlated to the position of a star that it points to FIG. 4 is a block diagram showing the essential components of a watch device according to the invention.

DETAILED DESCRIPTION OF THE INVENTION [0011] As previously mentioned, the invention relates to a watch device adapted to indicate the position of a star. In the example shown in FIGS. 2 and 3, the watch device is a wristwatch, but other watch devices may be envisaged, such as a pocket watch, a chronometer, etc.

The elements of the watch device essential to the implementation of the invention are shown schematically in FIG. 4: a circuit 1 for determining a current time, a circuit 2 for determining a geographical position of the watch device, a means 4 adapted to determine the position of the star according to the current time and the geographical position. of the watch device, - a display system comprising a first needle 8a, a second needle 8b, and a means 8c adapted to drive said needles in rotation in a main plane of the watch device and display the determined position of the star.

From a practical point of view, in the example of a watch, all components are grouped in a conventional manner in a case to which are attached the ends of two strands of a bracelet. The middle part is provided with a bottom and is closed on the top by an ice cream. The two needles 8a, 8b move here in front of a crown-shaped dial which carries at its periphery a graduation in hours and minutes and / or degrees.

A cartesian reference linked to the watch device is defined by two axes XM, Ym perpendicular to each other and both perpendicular to a ZM axis of rotation of the hands, the three axes intersecting at a point O. In the example shown in FIG. the figures, the YM axis points in the direction of a graduation of the dial corresponding to 12H and the XM axis points in the direction of a graduation of the dial corresponding to 3H. XM and YM define the main plane of the watchmaking device.

The circuit 1 is made according to a conventional scheme in the watchmaking environment; it essentially comprises a time base for producing a standard frequency signal and a circuit adapted to determine the current time from said standard frequency signal.

The positioning circuit 2 is also known elsewhere; it is for example a GPS chip (for Global Positioning System) or equivalent, able to determine a geographical position on the Earth from signals it receives from a satellite positioning system.

The display system 8 is within the scope of the invention an analog system comprising at least two needles 8a, 8b and a control means 8c of the position of the needles. Of course, the display system may also include other elements such as other needles, electro-optical display cells for a digital display of pseudo-analog type for example pseudo-analog type, etc. which may be useful elsewhere for other functions of the watch device. In the context of the invention, the display system is suitable for: in a first mode of operation of the watch device, displaying the current time and in a second mode of operation of the watch device, displaying the determined position of the star.

The means 4 essentially comprise a data memory 4a, a program memory 4b, and a processing unit 4c.

The data memory 4a may comprise in particular a sky map stored in the form of a database comprising a list of the stars (at least one star) capable of being pointed and, for each identified star, data representative of its position in the solar system relative to the earth. From a practical point of view, the data memory can be positioned in the immediate vicinity of the processing unit 4c, in a case of the watch device. Alternatively, all or part of the data memory may be deported to a remote data server. The means 4 also include in this case also transmitting and receiving means suitable for accessing the data of the data server. In another variant, the data memory 4a and the program memory 4b are two parts of the same memory.

The program memory 4b stores an executable program by the processing unit; said program comprises in particular a plurality of code lines suitable for implementing the functions of the processing unit 4c and in particular, in the context of the invention, the function of determining the position of a star selected in according to the current time and the geographical position of the watch device, and to display the position determined by said display system 8. In a conventional manner, the processing unit also implements a function consisting of displaying the current time by the display system 8.

The processing unit 4c is connected to the circuit 1 to receive information relating to the current time. In the context of the invention, the processing unit is also connected to the circuit 2 to receive information relating to the geographical position of the watch device. The processing unit can still be connected to a selection means 10 for receiving information relating to the body whose position must be displayed. In addition, the processing unit can be connected to a remote server by any suitable wireless link (WiFi, etc.) to receive data or instructions from a remote server.

The second mode of operation of the clock device, specific to the invention and for displaying the determined position of the star will now be detailed.

In a known manner, in a cartesian coordinate system (FIG 1) defined by a center O and three axes Xo, Yo, Zo perpendicular to each other, the position of a star assimilated to a point A can be defined by three coordinates (XA, Ya, ZA) corresponding to the projection of the point A respectively on the axes Xo, Yo and Zo. More commonly in the field of astronomy, the stars are spotted in a horizontal coordinate system centered on an observer on the ground on Earth. A system of horizontal coordinates separates the sky into two hemispheres: one located above a point of observation O and the other below. The large circle separating the two hemispheres defines a horizontal plane, from which is established an azimuth aA and an angle of elevation ßA, which constitute the two principal coordinates of a star in this system. The horizontal plane passing through O is in practice a plane parallel to a plane tangential to the Earth and passing through the projected point O on the ground For the sake of simplicity, in fig. 1, the watch device is positioned at the point O, the horizontal plane is considered to be the plane (Xo, Yo) and the cardinal north corresponds to the axis Yo. The azimuth aA is the angle between a cardinal (cardinal north corresponding to the axis Yo in Fig. 1) and the projection (right (OAP)) of the star selected on the horizontal plane (Xo, Yo) · The azimuth aA is generally expressed in degrees from 0 ° to 360 ° clockwise from the cardinal north. The angle of elevation ßA is the vertical angle between the horizontal plane and the target body, expressed in degrees, counterclockwise from the vertical plane.

In a horizontal coordinate system thus defined, the position of a star A depends on the position of the center O and the horizontal plane in space, which themselves depend on the geographical position of the observer on the Earth, and the position of the Earth relative to the star in the solar system. The position of the Earth relative to the star depends on the current time, and the current date. The geographical position of the watch device determined by the circuit 2 and the time and the current date determined by the circuit 1, combined with the information stored in the data memory 4a thus allow the processing unit 4c to determine the position of the in a horizontal coordinate system centered on the watch device, according to calculation methods certainly complex but widely known in the field of astronomy.

The control means 8c of the display hands 8a, 8b is adapted to determine the cardinal axis Yo (for example the cardinal north) and to orient a first needle with respect to the cardinal axis Yo according to FIG. azimuth aA determined from star A; said needle is for example the needle usually used for displaying the minutes of the current time. To achieve this orientation, the needle control means may comprise for example a 2D magnetometer capable of determining the north cardinal Yo and a means for positioning and maintaining in position, in the horizontal plane, the first needle relative to the cardinal north according to the invention. azimuth aA of the star, the first needle being also left in free rotation in the main plane of the watch device. The orientation of the first hand is independent of the reference linked to the watch device so that this orientation aA is maintained regardless of the movements of the watch device as the main plane of the watch device remains in the horizontal plane. Thus, by positioning the master plane of the watch device in the horizontal plane and looking in the direction indicated by the tip of the first hand, the observer always looks in the direction of the azimuth aA of the selected star, even if the watch device is moved. The first needle thus behaves like the needle of a compass that would be drawn in a direction forming an angle βA with the cardinal north.

The elevation angle ßA of the star can be displayed on the watch device using the second hand (for example the needle usually used for the display of the hours of the current time) of several manners.

According to one embodiment, the needle control means is adapted to position the second needle, in the main plane (XM, Ym) and with respect to a reference axis YM linked to the clock device, at an angle β equal to the angle of elevation βA of the star in the horizontal coordinate system centered on the clock device from a practical point of view, to position the second needle, the control means 8c rotates the second needle in the main plane in a conventional manner and immobilizes the needle. In this embodiment, the angle ρ is defined relative to the reference axis YM related to the watch device so that, if the watch device is moved, the angle β remains constant. In this embodiment, to view the star, the observer can use the watch device in the following manner. The horological device is oriented in the horizontal plane so that the first needle (oriented along the azimuth of the star), free to rotate, is aligned along the reference axis Ym of the watch device (corresponding to the reference 12H in FIG. 'example). Then, the clock device is rotated according to the reference axis Ym keeping the reference axis Ym fixed in the horizontal plane so that the plane formed by the Ym axis and the second needle is vertical. The observer can then view the star selected by looking in the direction pointed by the end of the second hand.

According to another embodiment, the needle control means is adapted to orient the second needle relative to the horizontal plane according to the elevation angle βA of the star in the horizontal coordinate system centered on the device. watchmaker.

To achieve this orientation, the needle control means may comprise for example a 3D magnetometer capable of determining the cardinal north and a means for: positioning and maintaining in position, in the horizontal plane, the first needle relative to the cardinal north at an angle equal to the azimuth aA of the star, - position and maintain in position, in a vertical plane, the second needle relative to the horizontal plane at an angle equal to the angle of elevation ßA of the 'star.

The first needle and the second hand are also left in free rotation in the main plane of the watch device. As for the first needle, the orientation of the second hand here is independent of the reference linked to the watch device so that this orientation βA is maintained regardless of the movements of the watch device in a vertical plane. The needles behave like the needle of a compass that would be drawn in the direction of the star.

In this embodiment, to view the star, the observer can use the watch device in the following manner. The horological device is oriented in the horizontal plane so that the first needle (oriented along the azimuth of the star), free to rotate, is aligned along the reference axis Ym of the watch device (corresponding to the reference 12H in FIG. 'example). Then, the clock device is rotated according to the reference axis Ym keeping the reference axis Ym fixed in the horizontal plane so that the plane formed by the Ym axis and the second needle is vertical. Finally, the watch device is oriented in the vertical plane so that the second needle (oriented according to the elevation angle of the star), free in rotation, is also aligned along the reference axis YM of the watch device. Then, when the two needles are aligned with the reference axis YM, the observer can view the star selected by looking in the direction pointed by the end of the two needles.

According to one variant, it will be possible to envisage validating the orientation in azimuth and elevation by means of a sound signal or a vibration which is triggered when the azimuth and the elevation for the observation of the determined body are reached.

The watch device according to the invention may further comprise a selection means 10 for a mode of operation of the watch device. The means 10 is in one example certainly not limiting a rotary control rod and at several axial positions, each axial position corresponding to a mode of operation of the watch device.

The watch device according to the invention may further comprise a means for selecting a star from a plurality of stars recorded in the memory 4a. In a non-restrictive example, the means for selecting a star can comprise: a digital display element; an incrementing means enabling the user to display the digital display element successively on the digital display element; stars of a list contained in the data memory and - a validation means such as a command button that the user can operate to select the body displayed.

According to one embodiment, the incrementing means may be a control button, successive presses on the button for scrolling the stars of the list. As a variant, the incrementing means may be the rotary control rod in an axial position associated with the second mode of operation of the watch device (display of the position of a star), a rotation of the rod causing a scrolling of the list stars.

We can also provide an advantageous variant that when the star selected by the user is not observable from the location where the latter is, means is provided to inform the user of this state of the situation, for example by bringing the needles into a characteristic position by means of a suitable control of the needle drive motor.

According to another embodiment, one could consider selecting the star to be observed on a remote terminal with respect to the watch, such as a mobile phone, a tablet or the like, and to send by wireless communication , or computer, or other, the corresponding selection. It goes without saying that in this case the watch includes an antenna and / or a plug and an appropriate receiver circuit. Legend of figures [0038] 1. circuit for determining a current time 2. circuit for determining a geographical position 4. means for determining the position of a star

Claims (8)

claims 1. Watch device adapted to indicate the position of a star, characterized in that it comprises; a circuit (1) for determining a current time, a circuit (2) for determining a geographical position of the watch device, a means (4) adapted to determine the position of the star according to the current time and the geographical position of the watch device, - a display system comprising a first hand (8a), a second hand (8b), and a means (8c) adapted to drive said needles in rotation in a main plane (XM, Ym) of the watch device and display the determined position of the star. 2. Watch device according to claim 1, characterized in that the display system (6) is suitable for: in a first mode of operation of the watch device, displaying the current time and, in a second mode of operation of the watch device, display the determined position of the star. 3. Watch device according to one of claims 1 or 2 wherein the position of the star is determined in a horizontal coordinate system centered on the watch device by an azimuth (aA) and an elevation angle (ßA), marker defined by a horizontal plane (Xo, Yo) and a vertical axis A (Zo), the needle control means being adapted to determine a cardinal axis (Yo) in the horizontal plane and to orient a first needle relative to the cardinal axis according to the determined azimuth of the star. 4. Clock device according to claim 3, wherein the needle control means is adapted to position a second needle, with respect to a reference axis (YM) connected to the clock device, at an angle β equal to the angle d elevation ßA of the star. 5. Watchmaking device according to claim 3, wherein the needle control means is adapted to orient the second needle relative to the horizontal plane according to the elevation angle βA of the determined star. 6. Device according to one of claims 1 to 5 also comprising a means for selecting a star from a plurality of stars. 7. Watch device according to one of claims 2 to 6, further comprising means for selecting (10) a mode of operation of the watch device. 8. Watch device according to one of the preceding claims, wristwatch type.