This application claims priority from European Patent Application No. 16194408.7 filed on Oct. 18, 2016, the entire disclosure of which is hereby incorporated herein by reference.
The present invention relates to an electronic strap which is able to be attached to a watch case. There is termed by electronic strap, a strap comprising a moulded flexible printed circuit carrying electronic components which make it possible to accomplish functions, for example to measure the ambient pressure when the strap is worn during a subsea dive. The electronic strap is said to be connected when in addition it is able to communicate with an electronic device, such as a smartphone, for example in order to transmit pressure values to the electronic device.
In order to make it possible for mechanical watches to accomplish functions of an electronic watch, even an online watch, whilst avoiding integrating electronic components in the body of the watch cases, electronic straps have been designed which are provided with means for fixing to a mechanical watch case. All the electronic components are integrated in the strap, providing it with numerous functionalities, such as monitoring the physical activity of the wearer of the strap, informing the wearer of a call or message coming in on a smartphone attached to the strap, long-distance controlling of an electronic device, etc.
From this perspective, it is important to be able to notify the wearer of the strap of any sort of event or state relating to the activity of the strap and/or of the electronic device to which the strap is attached. An event or a state relating to the activity of the strap and/or of the electronic device to which the strap is attached is by way of example but non-limiting: activation or deactivation of a function of the strap, the progress of a function by the strap (for example measurements recorded by the sensors of the strap), establishment or completion of a data transfer between the strap and the electronic device, the progress of a data transfer between the strap and the electronic device, receipt of a call or of a message by the electronic device, etc.
The aim of the present invention is to meet the requirement cited previously.
To this end, the invention relates to an electronic strap for a timepiece, comprising:
Hence, when the lightwave emitter emits a lightwave, the lightwave penetrates into the lightwave guide via the input disposed on the interface between the guide element and the central part, is propagated as far as the first output via the first portion, and is finally directed to the level of the first zone, where it is reflected and consequently is visible to the wearer of the strap.
Other advantageous features of the electronic strap according to the invention, being able to be taken in isolation or in combination, are defined in claims 2 to 8.
The invention relates likewise to a timepiece comprising a strap according to the invention, the guide element being placed between and fixed to a pair of horns of the watch case.
Other advantageous features of the timepiece according to the invention, being able to be taken in isolation or in combination, are defined in claims 10 to 12.
Other features and advantages will emerge clearly from the description which is given hereafter, by way of indication and in no way limiting, with reference to the annexed Figures which show:
In
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The invention relates to a timepiece comprising an electronic strap fixed to a watch case via for example two bars.
In
In non-represented alternative embodiments, the strap is not of the cuff type but on the contrary is formed from two separate parts. In a first of these alternative embodiments, the printed circuit board is formed from two separate portions. The board in fact does not comprise a central part and is formed by only two lateral portions PL1, PL2, which are disconnected electrically and mechanically. Each of these lateral portions PL1, PL2 is an element of one of the two arms of the strap: each arm of the strap comprises therefore a portion of printed circuit. In a second of these alternative embodiments, the printed circuit board comprises only the first lateral portion PL1. The first lateral portion PL1 is an element of one of the two arms of the strap; the second arm of the strap does not comprise a printed circuit.
The strap BR likewise comprises an assembly of electrical and/or electronic components which are mounted on the first lateral portion PL1 and possibly on the second lateral portion PL2 when the latter is present. The components comprise for example a microcontroller MC, an electrical energy source SE (visible in
In the embodiment which is preferred and represented in
As is visible in
As visible in
In the non-limiting embodiment of
The first output SO1 and the second output SO2 are disposed so as to be opposite a portion of the case middle CA of the watch case BA between the two horns CN1, CN2. Hence, a lightwave emitted by the lightwave emitter EM is guided and directed towards the portion of the case middle CA, where it is visible to the wearer of the timepiece. The lightwave forms two light halos HL1, HL2, on the portion of the case middle CA, represented in
Of course, in the case where the wave guide GO would comprise only one output, only one light halo would be visible. A long light halo extending from one horn to the other would be conceivable, just as a halo situated at the side of one horn or a halo situated substantially at an equal distance from the two horns. In the case where the waveguide would comprise more than two outputs, as many light halos as outputs would be visible. It can be seen likewise that the shape of the halo(s) depends upon the shape of the output(s).
It can be seen that, in the represented example, the first output SO1 is disposed at the side of the first horn CN1, whilst the second output SO2 is disposed at the side of the second horn CN2. Although this is not essential, it is advantageous to place the outputs SO1, SO2 of the lightwave guide GO near the horns CN1 for watch cases, the portion of the case middle CA of which is curved. In fact, in this case, the space between the portion of the case middle CA is minimal at an equal distance between the horns CN1, CN2 and maximal near the horns CN1, CN2. Now, placing an output of the lightwave guide GO too near the portion of the case middle CA could impair visibility of a lightwave guided by the lightwave guide, since the light halo on the portion of the case middle CA could be obscured by the guide element EG1. Of course, these considerations are not applicable for watch cases which are square or rectangular since the strap would be equidistant from the portion of the case middle over the entire width thereof.
Furthermore, in order to obtain light halos HL1, HL2 of similar intensity, it is advantageous to place the input EN of the light guide GO at a substantially equal distance from the first output SO1 and from the second output SO2. The light guide GO is then globally in the form of a V. However, various different configurations of the light guide GO are conceivable as the space of the light guide GO remains limited.
Furthermore, the lightwave emitter EM comprises at least one punctiform source of lightwaves, for example an electroluminescent diode. Advantageously, the lightwave emitter EM comprises several punctiform sources close to each other, the sources being able to emit light waves at different frequencies, i.e. with different colours. Hence, the punctiform sources can be either extinguished or illuminated in order to create light halos of a particular colour as a function of the information to be provided to the wearer of the timepiece. Of course the at least one punctiform source can likewise be illuminated according to a temporal sequence corresponding to information to be provided to the wearer of the timepiece.
Since the lightwave emitter EM is connected electrically to the assembly of electrical and/or electronic components, the at least one punctiform source of the lightwave emitter EM can be activated as a function of an event or a state relating to the activity of the strap or of an electronic device to which the strap is attached. For example, the punctiform source can be activated when the push button BP is pressed, when a message is received by the electronic device, or even when data are transferred between the strap BR and the electronic device.
It can be seen that, in order to modify the reflection of the light on the portion of the case middle CA and thus to modify the light shapes and/or intensities of the halos HL1, HL2 which are seen by the wearer of the timepiece, it would be possible to produce surface treatments of the zones ZN1, ZN2. An example of a surface treatment is shown in
Of course, the present invention is not limited to the illustrated example but is able to have different variants and modifications which will be apparent to the person skilled in the art.
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16194408 | Oct 2016 | EP | regional |
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European Search Report dated Apr. 25, 2017 in European Application 16194408.7, filed on Oct. 18, 2016 (with English Translation of Categories of cited documents). |
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Number | Date | Country | |
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20180103730 A1 | Apr 2018 | US |