CA2893741A1 - Mechanism for displaying sun rise/sunset times at different latitudes, kit with components to assemble such a mechanism, and corresponding assembly, operation and usage methods - Google Patents

Description

MECHANISM FOR DISPLAYING THE LEVER HOURS AND / OR
SUNSET AT DIFFERENT LATITUDES, KIT WITH
COMPONENTS FOR ASSEMBLING SUCH A MECHANISM, AND METHODS
OF ASSEMBLY, OPERATION AND USE CORRESPONDING
Field of the invention The present invention relates to a mechanism for displaying the hours of sunrise and / or sunset. More particularly, the present invention a mechanism, such as a watch for example, to display the hours sunrise and / or sunset at different latitudes also a kit with components intended to assemble such a mechanism, as well as methods of assembly, operation and use.
Description of the prior art:
Watches and other related mechanisms are well known in the art.
For example, the Claimant is aware of the following documents which describe mechanisms for displaying the times of sunrise and sunset: CH 690 516 A5; CN 2689296Y; DE 30 05 027 A1;
DE 203 07 922 UI; DE 2005 2005 032 356 A1;
DE 2005 054107 A1;
EP 1 962 154 B1; IT 01249192 (IT91VR0032); KR 10-0333769; US 4,551,027;
US 4,759,002; US 7,218,575 B2 (US 2005/0094492); US 2005/0122842 A1;
WO 00/77578 A1 (EP 1 194 817); WO 82/03472 (EP
75598);
WO 2008/093934 A1.
Also known in the art, are the various disadvantages and disadvantages associated with such conventional systems, including the fact that they do not can not be used to display the times of sunrise and / or sunset sun, and this,

2 easy, effective and / or versatile for different applications (eg different latitudes, etc.).
Among other things, the known conventional mechanisms present one of the following problems, or a combination thereof, namely:
inability to give the time of the first apparent glow in the sky (ex.
aurora and / or dawn), at different latitudes; b) inability to tell the time of the last glow apparent in the sky (eg civil and / or nautical twilight and or astronomical), at different latitudes; c) inability to display the appearance of the prayer "Asr" (eg the time or time corresponding to the prayer "Asr"), to different latitudes; etc.
Therefore, and in view of the above, it would therefore be very useful to able to provide a new mechanism that could offer solutions to prior art problems mentioned above.
Summary of the invention An object of the present invention is to provide a mechanism which, thanks to its design and components, meets some of the above needs and is therefore an improvement over other mechanisms, devices and or related methods known in the prior art.
According to the present invention, the aforementioned object is attained, as will be better understood below, with a mechanism to display the times of sunrise and / or sunset as briefly described herein, and such than that exemplified in the accompanying figures. Preferably, the mechanism is designed to display the times of sunrise and / or sunset Sun, as well as the hours of the first apparent glow and last glow in the sky, at different latitudes, using variable sinusoids (ex.

,

3 reproducing displacements on a base of sinusoids whose amplitude is adjustable, etc.). In addition, the present system allows to display the hours of Islamic prayers.
More particularly, according to one aspect of the present invention, this aims a mechanism to display the times of sunrise and sunset, the mechanism comprising a) a system for displaying the appearance of the disk solar; and / or b) a system for displaying the disappearance of the solar disk.
The mechanism may further include: a) a system for displaying the appearance of a white glow on the horizon; and / or b) a system for show the disappearance of the reddish glow in the sky (eg corresponding to the dusk civil and / or nautical and / or astronomical).
The mechanism may further include: a) a system for displaying the position of the sun at the zenith; and / or b) a system to display the appearance of the prayer "Asr".
The mechanism can further display: a) the apparent height of the sun in the sky; (b) the increase or decrease in the length of the day; c) speed relative of the earth compared to the sun; d) the distance from the earth to Sun; e) the tide height; f) solar or lunar eclipses; g) any other phenomenon periodic; h) etc.
The mechanism may further include: a) a system for displaying the dated; b) a system for displaying latitude (eg, and / or cities corresponding at latitudes, etc.); and / or c) a system for displaying the time (and / or representation of the sun, etc.).
.

4 Preferably, the present mechanism also comprises:
a) a principal system (X) synchronized with date and latitude;
b) a system (Y) for transmitting and transforming movements;
and c) a system (Z) for displaying information.
The main system (X) may further include:
a) a system for adjusting the latitude;
b) a system for correcting the equation of time; and c) a system for correcting the position of the needles.
The transmission system (Y) may comprise movable slides, variable spoke wheels, crossovers, and / or other mechanisms correspondents.
According to another aspect of the present invention, it also relates to a time indicator (eg watch, clock, dial, alarm clock, etc.) provided of mechanism mentioned above. This time indicator can be operated (eg driven, powered, etc.) mechanically, electromechanically, electronically, computer, solar, and / or other (s).
According to another aspect of the present invention, it also relates to a method of operation of the mechanism and / or the time indicator above.
According to another aspect of the present invention, it also relates to a method of using the mechanism and / or the time indicator above.

According to another aspect of the present invention, it also relates to a kit with components to be mounted to assemble the mechanism and / or time indicator mentioned above.

According to another aspect of the present invention, it also relates to a set of components to interchange with some components of the kit above.
According to another aspect of the present invention, it also relates to a method of assembling components of the kit and / or game mentioned above.
According to another aspect of the present invention, it also relates to a method of manufacturing one or other of the above-mentioned components, including the mechanism itself and / or the resulting time indicator.
According to another aspect of the present invention, it also relates to a method of doing business with the mechanism, the time indicator, the kit, the game and / or the aforementioned methods.
The objects, advantages, and other features of the present invention will become more apparent from reading the non-exhaustive description which follows preferred embodiments of the invention, shown in the drawings attached, and given as an example only.
Brief description of the accompanying drawings:
Figure la is a perspective view of an example of a mechanism with corresponding components according to an optional embodiment of the present invention.

6 Figure 1b is another perspective view of what is shown in FIG.
Figure la, with some components removed to better illustrate other components of the mechanism.
Figure 2a is a top view of what is shown in Figure la.
Figure 2b is a top view of what is shown in Figure 1b.
Figure 3 is another perspective view of what is illustrated in Figure Figure la, with some components being exploded to be able to better illustrate the interrelationship between components.
Figure 4 is an exploded view of a group of components (ie the main system X) of the mechanism shown in Figure 3.
Figure 5a is a perspective view of an exemplary system of correction for a mechanism according to an optional embodiment of the present invention.
Figure 5b is a top view of what is shown in Figure 5a.
Figure 6 is an exploded view of an exemplary system of transmission for a mechanism according to an optional embodiment of the present invention.
Figure 7a is a top view of an example of an assembly "A" for a mechanism according to an optional embodiment of the present invention.

7 Figure 7b is another perspective view of what is illustrated in Figure Figure 7a, some components being shown exploded in order to to better illustrate the interrelationship between these components.
Figure 8a is a top view of an example of a set "B" for a mechanism according to an optional embodiment of the present invention.
Figure 8b is another perspective view of what is illustrated in Figure Figure 8a, some components being shown in an exploded manner to to better illustrate the interrelationship between these components.
Figure 9a is a top view of an example of a "C" assembly for a mechanism according to an optional embodiment of the present invention.
Figure 9b is another perspective view of what is illustrated in Figure Figure 9a, some components being shown exploded in order to to better illustrate the interrelationship between these components.
Figure 10a is a top view of an example of a dial for a mechanism according to an optional embodiment of the present invention.
Figure 10b is another perspective view of what is illustrated in Figure Figure 10a, some components being shown in an exploded manner to to better illustrate the interrelationship between these components.
Figure 11 is a perspective view of an alternative to variable radii for a mechanism according to an optional embodiment of the present invention.

8 Figure 12 is an example of possible curves that can be used for a mechanism according to an optional embodiment of the present invention.
Figure 13 is an example of possible curves that can be used for a mechanism according to an optional embodiment of the present invention.
Figure 14 is an example of possible curves that can be used for a mechanism according to an optional embodiment of the present invention.
Figure 15 is an exploded view of a mechanism according to a Optional embodiment of the present invention.
Figure 16 is an isometric view of an assembled mechanism according to a optional embodiment of the present invention.
Figure 17 is a view of a positive amplitude of the mechanism according to a optional embodiment of the present invention.
Figure 18 is a view of zero amplitude of the mechanism according to a optional embodiment of the present invention.
Figure 19 is a view of a negative amplitude of the mechanism according to an optional embodiment of the present invention.
Figure 20 is an action view of the pivot of the mechanism in one mode.
optional embodiment of the present invention.

9 Figure 21 is a view of the mechanism with a transmission of rack according to an optional embodiment of the present invention.
Figure 22 is an isometric view of the mechanism with a transmission by rod according to an optional embodiment of the present invention.
Figure 23 is a top view of the mechanism with a transmission by rod according to an optional embodiment of the present invention.
Figure 24 is a representation of curves for a distance at solar noon of the needle indicating the time of dusk and / or dawn according to an optional embodiment of the present invention.
Figure 25 is a perspective view of an alternative mechanism according to an optional embodiment of the present invention.
Figure 26 is an enlarged top view of what is illustrated in Figure 25.
Figure 27 is a perspective view of a set of mechanism (s) alternative (s) according to an optional embodiment of the present invention.
Figure 28 is an enlarged top view of what is illustrated in Figure 27.
DESCRIPTION OF PREFERRED EMBODIMENTS OF THE INVENTION
In the following description, the same numerical references make reference to similar components. The embodiments (geometries, dimensions, etc.) illustrated in the figures and characteristics described in the application are preferential only, given as indicative only.
Furthermore, although the present invention is primarily designed for a use with a "time indicator", such as a watch, a clock, a dial, or even an alarm clock for example, and intended to receive a component or a complementary accessory, the invention may be used with any other type of object, and in other areas, as

10 person skilled in the art. Therefore, expressions such as "time", "hour", "minute", "second", "watch", "clock", etc., as used in the present, and / or any other reference and / or any other equivalent expression or similar to these should not be considered as limiting the scope of the present invention and include any other object / substitute and / or all other application with which the present invention can be used and can be useful, as is obvious to a person skilled in the art.
Moreover, although the preferred embodiments of the system illustrated have several components and features, all of these components are not necessarily essential to the invention and consequently should not be taken in their restrictive sense, ie say should not be considered in such a way as to limit the scope of this invention. It must be understood, as is clear to a person art, other appropriate components and geometries and / or other possible cooperation between these can be used for the system according to the present invention, as will be described below, without depart from the scope of the invention.
In addition, expressions such as "mechanism", "system", "device", "set", "mechanism", "product", "watch", "clock", "dial", "alarm clock"

11 morning ", etc. as well as any other equivalent expression and / or compound words of these, can be used interchangeably in the context of the this description. This also applies to other expressions that are mutually equivalent, such as "time", "moment", "instant", "hour", "minute" and "second" for example, as well as "curves", "course", "Trajectories"
and "variable sinusoids", or "needle", "indicator", "display" and "signal", such obvious for a person skilled in the art.
List of numerical references of some of the components preferential and / or optional correspondents shown in the figures 1 to 14 attached:
I. glittering needle He. apparent solar disk flap III. solar midi needle IV. Needle Asr V. disappearing solar disk flap VI. needle last glow VII. hour hand 1. transmission axis to the slides 2. main disk 2.1. correction equation of time 2.2. Needle correction Asr 3. toothed ring 4. toothed wheel with pinion 5. toothed gear 6. connecting rod 7. latitude hand 8. bridge with latitudes 9. support of the toothed ring ,

12 10. connecting rod (eq time) 11. hour dial support 12. connecting rod (eq time)

13. hour dial

14. movable slide (Asr)

15. connecting rod (Asr)

16. slide guide 1A, B, C

17. referral slide

18.1. flap of appearance of the solar disk 18.2. shutter of disappearance of the solar disk

19.1. identical to I
19.2. identical to VI
20N. date hand at the northern hemisphere 20S. date hand at the southern hemisphere 21. date dial (month) 22. bottom of the dial 23. disk support # 2 24. slide guide # 14 Solar disk (see Figures 6 and 7):
1A. slide 2A. gear wheel 3A. gear wheel with variable radius 4A. link 5A. pin 6A. link 7A. axis with lever First and last glow (see Figures 6 and 8):
1B. slide 2B. gear wheel 3B. gear wheel with variable radius 4B. link 5B. pin 6B. link 7B. pin 8B. link 9B. link 10B, axis with lever Asr prayer (afternoon) (see Figures 6 and 9):
1 C. slide 2C. gear wheel 3C. gear wheel with variable radius 4C. link 5C. pin 6C. link 7C. axis with lever In general, the present invention, as illustrated in the figures attached, relates to a mechanism capable of displaying the times of sunrise and sunset, as well as the hours of the first glow, as well as the last glow apparent in the sky.
The main advantage of this system over existing ones is its ability to be functional and adjustable for latitudes between 60 degrees north and 60 degrees south, for example, though other beaches of latitude (s) are contemplated for the present mechanism. In addition, this system allows to display Islamic prayer times.
As shown in Figure 2, this is characterized by a display of moment corresponding to:
1. the appearance of a white glow on the horizon (component I ¨ see Figure 2);

2. the appearance of the solar disk (component II ¨ see Figure 2);
3. the position of the sun at the zenith (component III ¨ see Figure 2);
4. the length of the shadow of an object identical to its height plus length from its zenith shadow (component IV ¨ see Figure 2), named "Asr";
5. disappearance of the solar disk (component V ¨ see Figure 2);
6. the disappearance of the reddish glow in the sky (component VI ¨ see Figure 2).
The main disadvantage is the inability to post the prayer "Asr"
(component IV ¨ see Figure 2) between latitudes 24 degrees north and south with a acceptable level of accuracy.
The position of each of these moments in a day is dependent the position of the earth in its orbit (ie "the date") as well as the position of where one wishes to obtain this information (ie "latitude").
Another display system tracks the rotation of the earth, indicating the hours (component VII), to indicate the presence of the moment when the information overlaps.
The present mechanism thus allows the adjustment of the three parameters following:
a) the date (component 21 ¨ see Figure 2);
b) latitude (component 7 ¨ see Figure 2); and c) time (components VII and 13 ¨ see Figure 2).
Regarding the operation:
According to one possible embodiment, the mechanism is decomposable in three big sets:

a) the main system (X, Fig. 3) synchronized with date and latitude;
b) the system of transmission and transformation of movements (Y, Fig.
3); and c) the information display system (Z, Fig. 3).

Concerning the main system (X, Fig. 3):
The main system is adjusted to the chosen date. It can be automated, by doing a rotation a year, for example. Different elements are there 10 integrated in order to be in solidarity with this rotation:
1. The system of adjustment of the latitude;
2. The system of correcting the equation of time; and 3. The system for correcting the position of the hands.
Regarding the system of adjustment of the latitude:
In order to adjust the latitude, an axis (1, Fig. 4) is moved from the center of the main system disk (2, Fig. 4) corresponding to the equator up to the periphery of the disk for the greatest latitude treated. Change of hemisphere is done by a 180 degree rotation of the disc, this is the reason for which the date is preferably indicated by a north indication (20N, Fig. 2) and a southern indication (20S, Fig. 2) diametrically opposed to this last, although other ways of doing things are possible. Especially, axis (1, Fig. 4) can also be moved from one side to the other of the center of main system (2, Fig. 4), where one side corresponds to the southern hemisphere, the other opposite side by the center of the disc corresponds to the north. It is to highlight that in the present embodiment given by way of example, the indication disk of the dates (21, Fig. 2) is attached to the bridge (8, Fig. 4), and its rotation is in solidarity with that of the main disk (2, Fig. 4).

A toothed ring (3, Fig. 4) on its inner and outer radii is superimposed on the main system (2, Fig. 4) and driven with the latter. To of set the latitude, the user rotates this ring with respect to system main. This differential rotation drives a wheel (4, Fig. 4) provided with a pinion mounted on the main system. The pinion drives a wheel that is equipped with an arm (5, Fig. 4) at the end of which is fixed a connecting rod (6, Fig. 4) climb pivot at each end, this rod moves the axis (1, Fig. 4) to its position corresponding to the chosen latitude.
At the top of the wheel with pinion is fixed a needle (7, Fig. 4) to display the corresponding latitude on the bridge (8, Fig. 4) which holds the ring to the main disk with the support (9, Fig. 4) on which is engraved the mark. This bridge is graduated and also acts as a dial.
Concerning the system of correction of the equation of time:
In order to correct the effects of the equation of time, on the main disk (2, Fig. 5) is traced in relief or in relief a line (2.1, Fig. 5) describing a tower complete and able to move a connecting rod (10, Fig. 5) pressing on the trace (2.1, Fig. 5) if in relief or provided with a finger taken in the line (2.1, Fig.
5) if in hollow. The movement of this rod is transmitted to the support of the dial (11, Fig.
5) display of the hours by a connecting rod (12, Fig. 5) in order to correct its position.
The dial (13, Fig. 5), crown on which are displayed the hours turns freely on its support (11, Fig. 5) to allow the user to coordinate the solar indications of needles to administrative time.
Regarding the system for correcting the position of the hands:
The correction of the position of the hands is done according to the same principle that the system described in the previous section concerning the system of , correction of the equation of time the difference is that the movement of the link (15, Fig. 5) following the path (2.2, Fig. 5) is transmitted to the movable slide (14, Fig.
5) described in the next section regarding the "C" set (see below).
This movable slide (14) can be substantially straight, and / or slightly curved, as needed.
Concerning the movable slides:
Under the main system a set of movable slides (1A; 1B; 1C, Fig. 6) are superimposed and are taken in a guide (16, Fig. 6) in order to limit their displacement (s) along a single axis of translation. The shape of each slide can be different in order to change the kinematics of its translation.
The axis (1) of the main system passes through each slide to bind the system main slide. It should be noted that this axis is not necessarily straight but may have the shape of a crank in order to change the amplitude of each slide.
Each slide has a rack to transmit its translational movement to a wheel (2A; 2B; 2C, Fig. 6).
Several changes and / or alternative embodiments may be given to the present examples of operation having been given. By example, the wheel rack torque can be replaced by a connecting rod connecting the movable slide with a wheel or a crank.
Regarding variable spoke wheels:
Each gear wheel (21, Fig. 6) * driven by the slide (1i, Fig. 6) *
corresponding has one half whose radius is constant and another half whose radius is variable. The variable radius portion causes a other Variable spoke wheel (3i, Fig. 6) thus making it possible to modify the rotation a wheel to another depending on the amplitude reached.
Again, several changes and / or embodiments alternatives can be made to the present examples of operation having been given. For example, variable spoke wheels (2i and 3i) can be replaced by referral systems such as those described in Figure 11.

The translatory movement of the rack (1i) is transformed into a movement rotating part (K4) equipped with a slide serving as a lever for ray (s) Variable (s) whose axis of rotation is headed by a needle. The junction enter here piece (K4) and the rack (1i) is via a connecting rod (K2). The connecting rod (K2) and the slide (K4) are joined by a pin (K3). The pin (K3) and taken in a guide (K5) thus making it possible to vary the distance between the pin (K3) and the axis of rotation of the workpiece (K4).
* i = A; B; VS
Regarding referrals:
Variable spoke wheels (31, Fig. 6) * have a lever. A connecting rod (4i, Fig. 6) is attached on one side to this lever and the other has an axis (5i, Fig. 6) which is caught in a slide (17 for 5A, 5B and 14 for 5C, Fig. 6) limiting his displacement to a translatory movement according to the direction of the slide corresponding.
Concerning set "A":
Set "A" allows the indication of the appearance and disappearance of the solar disk as well as the representation of the duration of the night by the contra-rotating movement of the shutters (18.1; 18.2). In order to provoke a counter-rotating movement, the axis provided with a lever (7A) is connected to the axis (5A) by via a connecting rod (6A). The shutters (18.1; 18.2) are related to their (s) axis (s) corresponding (s) (3A; 7A).
Concerning the set "B":
The set "B" allows the indication of the appearance of the first glow of sun in the morning and the disappearance of the red glow of the sun at the end of day by the counter-rotating movement of the needles (19.1; 19.2). The axis (5B) moves in the slide (17) then driving the lever (10B) via the connecting rod (86).
The curve of the slide (17) makes it possible to modify the amplitude during the rotation of the axis (10B). The rotation of the axis (10B) causes the displacement of the axis (7B) by via the connecting rod (9B). The displacement of the axis (7B) causes the rotation of the axis (8B) which is provided with a lever connected to the axis (7B) by intermediary the connecting rod (66). The hands (19.1; 19.2) are attached to their axis (s) respective (s) (8B; 10B).
Concerning the set "C":
The set "C" allows the indication of the prayer named Asr taking place during the afternoon. The rotation of the wheel (3C) causes the displacement of axis (5C) in the slide (14) via the connecting rod (4C). Such as previously explained, this slide (14) can be substantially right, and / or slightly curved, as needed. The displacement of the axis (5C) causes rotation of the axis (7C) via the connecting rod (6C).
The needle Asr indication is fixed to the axis (7C). The position correction of this needle is made by the movement of the slide (14) in its guide (24):
this movement is translatory and if necessary also rotational. Move of the slide (14) is due to the movement of the connecting rod (15) which is transmitted by through the shaft (8C). The movement of the connecting rod (15) is described in the previous section concerning the system for correcting the position of needles.
Regarding the display (Z, Fig. 3):

The display system has a bottom (22) and three similar flaps of which two mobiles (18.1; 18.2). The bottom symbolizes the day while the surface occupied by the three shutters symbolizes the night. The needle (III) is fixed and symbolizes the moment when the sun reaches its zenith. The functioning of others points 10 is described in the previous sections.
It should be noted that in another version, the three components (18.1, 18.2) and the bottom (22) can be replaced by two discs cut on one of their rays. Both discs are nested in their respective cut and centered 15 so that one partially overlaps the other. A disc represents night and the other day they turn each in an opposite direction to vary the representation of the duration of the day and the night. Each cut corresponds then to the representation of the sunrise (eg a cut corresponds to the raise of the sun, while the other corresponds to its sunset). In addition, the bottom (22) can

20 also bear a representation of the night on one half of his surface and day on the other. At the center of the part of the day can be represented the Sun. The bottom (22) then rotates by day so that the sun represented either synchronized with the actual sun for the sunrise (s) and sunset (s) of that last (ex.
to appear and / or disappear at the same time as the lift (s) and / or bed (s) of the latter, etc.).
The needle (VII) rotates by 24 hours and the dial (13) graduated allows the reading of the time, the position of this dial is adjustable manually;
it is further corrected in time by the movement of the ring (11) in order to offset the effects of the equation of time.

21 Several changes and / or alternative embodiments may be given to the present examples of operation having been given, and in support for this, equivalent (s) and / or related mechanism (s) different from those described with reference to Figures 1 to 14 are now given as examples (s).
List of numerical references of some of the components preferential and / or optional correspondents shown in the figures 15 to 28 attached:
1. cam 2. follower 3. rail 4. spring 5. spring block 6. arms 7. screws 8. push 9. spreader 10. screws 11. exit needle 12. screws 13. pivot 14. connecting rod 15. crank 16. amplitude needle 17. axis 18. guide

22 Regarding the description of the system:
The system illustrated in Figure 16 is intended to reproduce movements with sinusoidal characters whose amplitude is adjustable and invertible. he allows according to a different method, to perform the same functions as the mechanism described above (with reference to Figures 1-15), hereinafter "previous version".
Concerning the positive points (and / or "advantages"):
The main interest of this version lies in its simplicity. It comprises a number of parts much lower than the previous version, its size is minimized. Also the energy losses by friction are significantly reduced. The cam principle (1) allows greater freedom and simplification of the system for complex displays thanks to the freedoms permitted as to the design of his profile. Also, the present mechanism possesses all the benefits of the previous version.
Concerning the negative points (and / or "disadvantages"):
The main disadvantage of this system is that for a complete reversal of the amplitude, see Figure 19, the arm (6) requires an "infinite" length for than the movements of the follower (2) and the pusher (8) are equal. Also, the report between the display amplitude and the position of the pivot (13) is not identical next that the pivot (13) is in the positive or negative zone.
Concerning the principles of operation (eg kinematics of the system, system setting, etc.):

23 Concerning the kinematics of the system:
Preferably / optional, the cam (1) rotates at the speed of one revolution by year thus causing the translation of the follower (2) whose degrees of freedoms are limited to a single axis in translation by the rail (3). The follower is maintained in pressing on the cam by the force of the spring (4). The arm (6) revolves around pivot (13), it is driven by the translation of the follower (2) to which it is maintained by through the screw (7). The rotation of the arm (6) causes the displacement translatory pusher (8) maintained in its rail. The displacement of the tappet (8) causes rotation of the spreader (9) on which the needle is mounted (11) who Displays the information for which the mechanism was designed. It's about a Thales theorem application.
Regarding the system setting:
Preferentially / optionally also, the adjustment of the amplitude, corresponding here to the latitude, is done by moving the pivot (13) maintained in his slide (18). As shown in Figure 20, the position of the pivot (13) vary the position of the needle (11). Figure 18 illustrates that when the pivot (13) is aligned with the axis corresponding to the screw (12) the movement of the needle (11) is no; this position corresponds here to the equator. Comparing Figure 17 with the Figure 19, we see that the position of the needle (11) is reversed following than the pivot (13) is located on one side or the other of the pusher (8), this illustrates a setting for north latitude and south latitude. The needle (16) indicates therefore the amplitude chosen during the adjustment, here the latitude.
Note that the slide (18) is represented here "right", but it can however take curved shapes to create a shift of inflection points curves according to the latitude. This shift is particularly important for curves like those shown in area 1 of Figure 24.

24 Regarding alternative systems (eg spring, cam, screws, displays, setting amplitude, amplitude display, etc.):
Concerning the spring (4):
The spring (4) can be replaced by a torsion spring mounted on the pivot (13) or the axes created by the screws (7) or (12).
Concerning the cam (1):
The cam (1) can be replaced by a crank connected to the follower (2) by via a connecting rod.
Concerning the screws (7) and (12):
The screws (7) and (12) can be replaced by any means to create a bond between the elements here held together with a degree of freedom in rotation around the axis of the screws shown in Figure 15. These means may in particular, be systems of pins, ball joints, connection with through an elastic piece allowing angular flexion, etc.
Regarding the displays:
The spreader (9) and are needle (11) are shown here as illustration. It exists a lot of possible combinations to exploit the kinematics of output of the pusher (8). The display may in particular take the form of a cursor driven by the pusher (8), a shutter shutter in translation or in rotation.
Figures 21, 22 and 23 illustrate different ways of exploiting the kinematics of pusher (8).

The transmission by rod, shown in Figures 22 and 23, has the advantage of truncate the curves, as shown in Area 2 of Figure 24, and correct the display at high magnitudes without influencing the position of 5 display at lower amplitudes. To do this, the connecting rod is on a related side to the arm (6) by a pivot, here the screw (12), and the other to the spreader (9) by another pivot, here the screw (10). The pivot connecting the connecting rod to the rudder (9) passes in one guide that is here represented right. It's by drawing the shape guide curved that we get the necessary corrections to truncate such curves 10 shown in Area 2 of Figure 24. Among the means to arrive at the correction described the gear wheel of Figure 21 can be linked to a train with at least two non-circular gear wheels for transmit the movement to the display as described in the "previous version".
Concerning the adjustment of the amplitude:
The assembly for moving the position of the pivot (13) in the guide (18) can be composed of a crank (15) and a connecting rod (14). It's about a solution among several other alternatives to respond to the same function. Among these alternatives we can notably mention a displacement pivot (13) by endless screw or rack.
Regarding the amplitude display:
As an illustration the needle (16) is here secured to the crank (15) by via the axis (17). Latitude can be indicated on a crown toothed inside or outside the latter resulting in intermediate a pinion or a gear train the crank (15). For the same purpose, this ring can also cause a needle mounted on a toothed wheel.

In order to obtain a linear display of the latitude, the crank (15) can to be intermeshed by a non-circular gear; in this case the display of the latitude, here the needle (16), will be mounted on this gear.
Figure 24 illustrates the type of needle movements (11) or sliders that allows the mechanism according to the days of the year (position of the connecting rod (1) in rotation) and latitude (pivot position (13)). The curve possessing amplitude equator, the curve having the maximum amplitude corresponds to a latitude of 60 degrees north. The curves corresponding to southern latitudes are the same as that shown in Figure 24 but with a shift of half a year.
Regarding the transmission variant of the previous version:
Figures 25, 26 and 27 illustrate a variant of the transmission system such that it had been explained in the third paragraph of page 7 of this patent application.
Regarding the possible materials:
Finally, and according to the present invention, the mechanism and its components corresponding are preferably made of materials substantially rigid materials, such as metal materials (stainless steel, etc.), hardened polymers, composite materials, and / or any other material adequate, while the other components of the system according to this invention, with the aim of obtaining the advantages discussed above, may to be made of any other suitable material, such as polymeric materials (plastic, rubber, etc.), and / or any other suitable material, depending on the particular applications for which the system is designed and the different parameters involved, as is obvious to a person versed in art.
Although the present invention was previously explained by the preferential achievements of the latter, it should be made clear that all modification to these preferential achievements is not considered to change or alter the nature and scope of the present invention. Indeed, all (s) possible claim (s) should not be limited in salter) scope (s) by the preferred embodiments illustrated in the examples, But must (must) receive the broadest interpretation that is consistent with the description as a whole.