This application claims priority from European Patent Application No 03016357.0 filed on Jul. 18, 2003, the entire disclosure of which is incorporated herein by reference.
The present invention generally concerns a clasp for electrically connecting first and second antenna elements housed respectively in first and second strands of a wristband of a portable electronic instrument, this clasp including first and second parts that can be detached from each other, respectively electrically connected to the first and second antenna elements, and able to be mechanically locked onto each other to establish an electric contact between the first and second antenna elements. The present invention also concerns a wristband including such a clasp.
Clasps answering the general definition given hereinbefore are already known. European Patent No. 0 125 930 discloses, for example, such a clasp for ensuring the electrical connection of two conductors housed in the strands of a wristband for forming loop antenna around the user's wrist when the electronic instrument is being worn.
U.S. Pat. Nos. 5,152,693 and 5,179,733 disclose another solution that, like the aforementioned solution, has the possibility of adjusting the position of one of the clasp elements on one of the wristband strands. Yet another similar solution is given in U.S. Pat. No. 5,303,421.
Finally, another solution is known wherein the clasp is of the type with a buckle with a tongue (cf. particularly WO 86/03645), of the type with male and female parts that plug into one another (cf. again WO 86/03645), or of the type with an unfolding buckle (cf. particularly EP 0867 968).
The buckle with a tongue solution is not suitable in practice because of the poor quality of the electric contact, and the plug-in type solution is complex from a mechanical point of view. As for the other aforementioned solutions, it should be noted that these solutions expose parts of the antenna elements on the internal or external face of the wristband. This type of solution thus has a drawback insofar as the exposed parts of the antenna elements can quickly become oxidized and thus cause the quality of the electric contact to deteriorate. This oxidization is accelerated, in particular, by the presence of sweat when the wristband is worn on the wrist. From an aesthetic point of view, this type of solution is also not very desirable.
Another drawback of these solutions lies in the relatively large thickness of the wristband around the fastening device, the two strands of the wristband being superposed there.
It is thus a general object of the present invention to propose a solution, on the one hand, for ensuring an adequate electrical connection between the two antenna elements housed in the wristband strands and which also, on the other hand, enables bulkiness to be reduced around the clasp.
The present invention thus concerns a clasp of the aforementioned type whose features are listed in claim 1. The present invention also concerns a wristband including such a clasp.
Advantageous embodiments of the present invention form the object of the dependent claims.
It is thus proposed to form the first detachable part of the clasp, which is electrically connected to the first antenna element, such that it includes a first clasp element including a first plate extending in the extension of the first wristband strand, the second detachable part, which is electrically connected to the second antenna element, including, on the one hand, a second clasp element including a second plate extending in the extension of the wristband strand element and a holding device, and, on the other hand, a third clasp element rotatably mounted on the second clasp element and arranged so as to lock onto the holding device of the second clasp element. When the first and second detachable parts are locked, the first plate of the first clasp element is superposed on the second plate of the second clasp element and the third clasp element is pivoted to sandwich the first plate against the second plate once locked onto the holding device.
This solution offers the advantage of assuring a very broad electric contact surface between the two detachable parts of the clasp once locked. In fact, the two plates, thus arranged, ensure by their relatively large surface area, good electric cohesion between the two detachable parts of the clasp. On the other hand, the third clasp element, when it is locked onto the second clasp element, exerts a pressure or compression force holding the plate of the first clasp element in tight contact with the plate of the second clasp element.
Preferably, the first plate is provided with a least one fixing orifice passing through the thickness of the first plate and the holding device includes at least one fixing stud arranged substantially perpendicularly to the second plate and one end of which is arranged to lock onto the third clasp element, the fixing orifice and the fixing stud being arranged such that, when the first and second plates are superposed, the fixing stud passes through the fixing orifice. This variant ensures a proper mechanical grip for the clasp.
Other features and advantages of the present invention will appear more clearly upon reading the following detailed description of an embodiment of the invention, given solely by way of non-limiting example and illustrated by the annexed drawings, in which:
a and 1b are respectively a plan view, on the side of the external face of the wristband, and a side view of the clasp of
a is a cross-section of the first clasp element taken where it is attached to the first wristband strand and electrically connected to the antenna element, which is incorporated therein (cross-sectional line A-A in
b is a cross-section of the second and third clasp elements taken where they are attached to the second wristband strand and electrically connected to the antenna element which is incorporated therein (cross-sectional line B-B in
a and 5b are respectively side and top views of the second clasp element;
a and 6b are respectively side and top views of the first clasp element; and
a and 7b are respectively side and top views of the third clasp element.
Within the scope of the non-limiting example that will be given in the following description, it will be noted now that the wristband includes two identical wristband strands each including the same antenna element, these two strands being attached to each other by the clasp, so that the two antenna elements are electrically connected to each other so as to form a loop antenna around the wrist. This type of antenna configuration in a wristband is well known and its operating principle will not therefore be explained here. Fuller information on this point can be found in the documents cited in the preamble.
a and 1b show respectively a perspective view, a plan view on the side of the external wristband face (by definition the “external face” is defined as the face oriented towards the outside of the wrist when the wristband is being worn, as opposed to the “internal face” which designates the face of the wristband which is in contact with the wrist when the wristband is being worn) and a side view of the clasp according to an embodiment of the invention.
This clasp includes first and second detachable parts respectively designated by the reference numerals 1 and 2. The first detachable part 1 is electrically connected to a first antenna element 10 (not illustrated in
As illustrated in these Figures, first detachable part 1 is essentially formed of a first clasp element 60 mounted on the end of first strand 50 and second detachable part 2 is essentially formed of a second clasp element 70 mounted on the end of second strand 50′ and a third clasp element 75 rotatably mounted on second clasp element 70 so as to be able to be pivoted with respect to the latter. This third clasp element 75 forms the actual element allowing the clasp to be locked. In these Figures, this third clasp element 75 is illustrated in the unlocked position.
The three aforementioned clasp elements are illustrated individually in
It will simply be mentioned here that the conductor forming each antenna element is formed of a self-supporting conductive plate formed of a plate of electrically conductive material (for example steel, copper, etc.), which is cut out and bent into the suitable shape. This conductive plate has an essentially rectangular shape whose longitudinal axis corresponds to the longitudinal direction of the wristband strand into which the conductive plate will be incorporated. In this embodiment, a first end 10A of the conductive plate is bent over and intended to allow the antenna element to be connected to the corresponding components housed in the case of the portable electronic instrument. This case is not illustrated in the Figures. One simply needs to know that this case preferably has a similar configuration to that of a watchcase, end 10A of each antenna element 10, 10′ being thus located on each attachment of the wristband strand to the case.
The way in which the antenna elements are electrically connected in the case of the electronic instrument is not decisive for the purposes of the present invention. According to the configuration illustrated here by way of non-limiting example, the bent over end 10A of each antenna element 10, 10′ is provided with two orifices for assuring the electric connection of the conductive plate via screws to the corresponding contact paths or clamps in the case of the portable electronic instrument.
In the example illustrated, the other end designated 10B of the conductive plate is intended, as already mentioned, to be electrically connected to the other identical conductive plate housed in the other wristband strand. In
The plurality of lugs 20 allows several possibilities for roughly adjusting the length of the wristband, the unused external part of the wristband being able to be cut. Within the scope of the present invention, one could envisage that each antenna element 10, 10′ includes only one lug, or that a single antenna element includes a plurality of lugs as illustrated in the Figures and that the other antenna element has only one. Whatever happens, the fact of providing one or several lugs on each antenna element is not decisive for the purposes of the present invention.
Each lug 20 is intended to allow electrical connection to the corresponding antenna element 10, 10′. Each of these lugs 20 thus defines an electric contact zone with conductive plate 10. In
Each lug 20 preferably includes a through orifice 21, which allows the electrical connection of the antenna element via an electrically conductive pin arranged transversely in the wristband strand between the internal and external faces of the wristband as will be seen hereinafter.
In
On the internal face of each wristband strand 50, 51, as illustrated in
With reference again to
As already mentioned, the first clasp element 60 is mounted on the end of the first strand 50. As illustrated in the Figures (cf. also
As illustrated in
By way of alternative to using a conductive pin 80 formed of two parts, one could envisage directly screwing screw 81 into lug 20 and only using one counter-screw 82, in which case transverse orifice 51 could be not a through orifice. Making pin 80 in two parts meaning that lug 20 can be sandwiched appears, however, preferable for assuring a proper electric contact between antenna element 10 and clasp element 60.
An attachment mode and a similar electric connection mode is adopted for electrically connecting the second clasp element 70 to the second antenna element 10′ incorporated in the other strand 50′. In
As illustrated in the Figures (cf. also
As illustrated, the third clasp element 75 (cf. also
When the first and second detachable parts of the clasp are locked, it will thus be clear that the first plate 62 of first clasp element 60 is superposed on the second plate 72 of the second clasp element 70 and that the third clasp element 75 is pivoted to sandwich first plate 62 against second plate 72 once locked on holding device 73. As already mentioned, this solution offers the advantage of assuring a very broad electric contact surface between the two detachable parts of the clasp once locked.
In the Figures, it can be seen that the third clasp element 75 also includes an additional element, designated by the reference numeral 78, which is held between two mounting apertures 77 arranged in the side walls 76 of the third clasp element 75. This element 78 includes two apertures 79 for receiving the two fixing studs 73. Housed between this element 78 and the third clasp element 75 there is a conventional unlockable mechanism for holding the end 73a of fixing studs 73 once the third clasp element has pivoted on these studs. This mechanism is not illustrated in detail since it is well known. It will simply be mentioned that the holding of third clasp element 75 on studs 73 can be interrupted by actuating the mechanism via two push-buttons that can be actuated manually and whose ends 78a can be seen protruding on either side of third clasp element 75 through apertures 77.
For the purpose of further improving the electric cohesion between the two detachable parts 1 and 2 of the clasp, one could envisage also providing an elastic element inserted for example between the first 60 and third 75 clasp elements in order to press the first and second plates 62, 72 against each other. Such an elastic element could also be inserted between the two plates 62 and 72 to press, this time, plate 62 against third clasp element 75.
It will be understood that various modifications and/or improvements evident to those skilled in the art can be made to the embodiment described in the present description without departing from the scope of the invention defined by the annexed claims.
Number | Date | Country | Kind |
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03016357.0 | Jul 2003 | EP | regional |