CH709719A2 - Needle light display for portable object such as a watch or a measuring instrument. - Google Patents

Abstract

The invention relates to a luminous display needle for a portable object such as a watch or measuring instrument. The portable object comprises a frame (18) in which is housed a power source (16) in electrical energy, the needle comprising a light guide (2) in which is formed a hole for the passage of an axis drive (10), and a housing for housing a light source (14) which injects light into the light guide (2). The light source (14) comprises first and second poles (14A, 14B), the first pole (14A) of the light source (14) being connected to the power source (16) via the axis of the light source (14). driving (10) of the needle, and the second pole (14B) of the light source (14) being connected to the power source (16) via the frame (18) of the portable object.

Description

Field of the invention

The present invention relates to a light display needle for a portable object. In particular, the present invention relates to a luminous display needle for a timepiece such as a wristwatch or an analog display meter.

Technological background of the invention

Watch hands are manufactured with close tolerances. The hole of the needle for the passage of the barrel is generally made with accuracies of the order of a micrometer. This precision is necessary to be able to guarantee a correct hunting of the needle on its axis. The needles are generally made from a metal sheet whose thickness does not exceed a few hundred microns. To reduce the thickness of the watch, the distance between the hands and the ice of the watch does not usually exceed one millimeter, while the distance between two coaxial needles, for example the hour hand and the minute hand, is of the order of a fraction of a millimeter.

[0003] The needles of a watch play of course a functional role, for example indicating the current time, but they also play a decorative role by contributing largely to the aesthetic aspect of the watch they equip. For this purpose, needles must meet strict criteria. A technique well known in the world of watchmaking to allow the needles to be visible in the dark is to coat the surface of the needles facing the user side of a layer of phosphorescent material. An example of such a material is a non-radioactive photoluminescent pigment marketed by the Japanese company Nemoto & Co., Ltd. under the registered trademark Super-Luminova®. This pigment can also be used to coat the hour markers of the watch face. By day, the layer of phosphorescent material absorbs light energy. This light energy is then restored at night by the layer of phosphorescent material in the form of light radiation. This clockwise illumination technique is quite convenient insofar as the operation of the layer of phosphorescent material is totally passive and therefore does not require, for its operation, the actuation of any mechanical or electrical device, or energy levy that would be provided by the watch. This clockwise illumination technique, however, also has certain disadvantages, the first of which is the fact that the layer of phosphorescent material needs to be previously illuminated by a light source before being able to emit energy. light. Likewise, the phenomenon of phosphorescent light re-emission is limited in time, so that as the phosphorescent layer releases the light energy that it has stored, its luminosity decreases. The needles coated with a layer of phosphorescent material therefore do not have a constant appearance. Finally, the range of phosphorescent materials available on the market is limited, so that most watches in which such materials are used end up having the same appearance in the dark and even in daylight.

[0004] As a variant of the phosphorescent layer, it is possible to envisage using active illumination techniques in which discrete light sources are used to illuminate the needles of a watch. For example, it is possible to integrate in the watch a source of ultraviolet light, so that the emitted radiation excite the fluorescent material that covers the needles. Such an embodiment, however, also has disadvantages. On the one hand, ultraviolet light sources, also known as black light sources, emit a certain amount of visible light, so that the user is likely to perceive a halo of light at the point where the light source is implanted. On the other hand, since the needles are movable relative to the ultraviolet light source, they do not always receive the same amount of ultraviolet light, so that their brightness may vary.

Summary of the invention

The present invention aims to overcome the aforementioned drawbacks as well as others by providing a luminous needle that can be illuminated at the request of the user, in a wide variety of colors and respecting dimensional constraints. and aesthetic to which it is subjected.

For this purpose, the present invention relates to a light display needle for a portable object, the portable object comprising a frame in which is housed a source of electrical power supply, the needle having a light guide. in which is provided a hole for the passage of a drive shaft, and a housing for housing a light source which injects light into the light guide, the light source comprising a first and a second poles, the first pole of the light source being connected to the power source via the needle drive axis, and the second pole of the light source being connected to the power source via the built of the portable object.

Thanks to these features, the present invention provides a luminous display needle for a portable object, for example a watch or a measuring instrument, the appearance remains constant over time. Moreover, the color palette offered by the point light sources such as light-emitting diodes is very wide. It is therefore possible to customize the appearance of the needle and therefore the portable object, for example a wristwatch, equipped with this needle, which makes it stand out from the competition. Finally, the point light source is disposed in a housing formed in the light guide and not in the drive axis of this needle, which greatly simplifies the design of such a needle.

According to a complementary feature of the invention, the second pole of the light source is connected to the frame of the portable object via an electrically conductive support piece which carries the light source.

According to another characteristic of the invention, the electrical connection between the support piece and the frame of the portable object is by friction.

According to yet another characteristic of the invention, the light guide comprises a first surface portion directed towards an observer, and a second surface portion opposite to the first surface portion, a dressing part. electrically conductive which electrically connects the light source to the drive shaft being provided on the first surface portion of the light guide.

According to yet another characteristic of the invention, the support piece is fixed on the second surface portion of the light guide.

According to yet another characteristic of the invention, the second pole of the light source is connected to a mass.

Brief description of the figures

Other features and advantages of the invention will emerge more clearly from the following detailed description of an embodiment of the invention, this example being given for purely illustrative and non-limiting purposes only in connection with the drawing. annexed in which: <tb> fig. 1 <SEP> is a top view of a light display needle according to the invention; <tb> fig. 2 <SEP> is a sectional view along line II-II of FIG. 1 of a luminous display needle according to the invention; <tb> fig. 3 <SEP> is a perspective view of an electrically conductive support piece which carries the light source, and <tb> fig. 4 <SEP> is a view similar to that of FIG. 2 and shows the integration of the light source into the light guide.

Detailed description of an embodiment of the invention

The present invention proceeds from the general inventive idea of illuminating a display needle for a portable object such as a wristwatch or a measuring instrument by means of a point type light source. , preferably a light emitting diode. Such a luminous display hand has several advantages: its appearance does not deteriorate with the passage of time and, because of the wide range of existing light-emitting diodes, it is possible to customize the appearance of the needle and therefore the appearance of the portable object that is equipped with it, which makes it possible to distinguish oneself from the competition. Furthermore, according to another advantage of the invention, the light source is housed in the light guide and not, for example, in the axis of driving the needle, which considerably simplifies the design of the light. such a needle as well as its electrical connection to the source of electrical energy housed in the frame of the portable object.

Figs. 1 and 2 are respectively views from above and in section along the line II-II of FIG. 1 of a luminous display needle 1 according to the invention. The luminous display needle 1 according to the invention comprises a light guide generally designated by the general reference numeral 2 and which can be made, optionally, of a transparent, semi-transparent or translucent material such as plastic , quartz, silica, sapphire, ruby or other. The light guide 2 comprises an annular element 4 extended by a substantially straight portion 6.

The annular element 4 has in its center a hole 8 for the passage of a drive shaft 10. A housing 12 for housing a light source 14 such as a light emitting diode is formed in the annular portion 4 of the light guide 2, in the area where this annular portion 4 is extended by the straight portion 6. In this way, the light source 14 is capable of injecting light by coupling within the light guide 2, and in particular in the rectilinear portion 6 of this light guide 2. As explained in more detail below, the light source 14 comprises (see Fig. 3) first and second poles 14A and 14B for its electrical connection to a power source 16 of electrical energy housed inside a frame 18, for example a wristwatch equipped with the luminous display needle according to the invention. The power source 16 for electrical energy may be a rechargeable battery or battery. Since the light sources in question here typically have an electrical consumption of the order of a few tens to a few hundred microamperes, we can even consider feeding them by means of a watch cylinder or a generator or dynamo actuated by the user for example by means of a pushbutton provided on the portable object. The advantage of such a solution lies in the fact that it makes it possible to avoid any storage solution for energy based on physicochemical phenomena. It will be understood that, even using light sources whose consumption is as low as a few tens of microamperes, the lighting obtained is already equivalent to that of phosphorescent materials which are usually coated light display needles.

As seen in Figs. 1 and 2, the light guide 2 has a square or rectangular section with a first surface portion 20 directed towards an observer, and a second surface portion 22 opposite the first surface portion 20. In In the example shown in the drawing, the first and second surface portions 20 and 22 are planar. However, it goes without saying that these surface portions 20 and 22 may deviate from the flatness and be curved for example at least partially or be structured to produce the desired optical effects. The thickness of the light guide 2 considered between the first and second surface portions 20 and 22 is typically between 200 and 300 microns.

FIG. 3 is a perspective view of an electrically conductive support piece 24 which carries the light source 14. This support piece 24 has a ring shape whose inner diameter does not encroach on the hole 8 formed in the annular element 4 of the light guide 2, and whose outer diameter is smaller than the outer diameter of the annular element 4 of the light guide 2. To facilitate the attachment, for example by gluing, the support part 24, we can provide household in the base of the annular element 4 a circular groove 26 in which the support part 24 is housed. It will be understood that the positioning of the light source 14 on the support piece 24 is such that, when the support piece 24 is fixed on the light guide 2, the light source 14 protrudes into the housing 12 for its accommodation.

FIG. 4 shows the integration of the light source 14 into the light guide 2. In this FIG. 4, the second pole 14B of the light source 14 is connected to the frame 18 of the portable object and, therefore, to the power source 16 electrical energy via the support part 24 electrically conductive. By way of illustrative and nonlimiting example only, the electrical connection between the support piece 24 and a frame member 18 of the portable object such as a dial 28 above which the light display needle 1 moves. according to the invention is done by means of a friction piece 30. This friction piece 30 will preferably be positioned as close as possible to the drive shaft 10, so as to minimize the effects of friction on the rotation of the luminous display needle 1. As for the first pole 14A of the light source 14, it is connected to the power source 16 via an electrically conductive covering piece 32 formed on the first portion of surface 20 of the light guide 2 and in electrical contact with the drive shaft 10. The trim piece 32 thus has a function of electrical connector in addition to its decorative function. Indeed, the presence of the trim piece 32 gives the light guide 2 the appearance of a classic watch hand. To facilitate the fixing, for example by gluing, of the covering part 32, provision can be made to provide in the first surface portion 20 a groove 34 in which the trim piece 32 is housed. Subsequently, the trim piece 32 is in electrical contact with a wafer 36 with the drive shaft 10. This drive shaft 10, is made of an electrically conductive material, is coated externally with a layer of electrically conductive material, is then connected to the power source 16. According to a preferred but nonlimiting variant, the frame 18 is connected to a ground and the first pole 14A of the light source 14 is connected to the positive pole of the source Power supply 16.

It goes without saying that the present invention is not limited to the embodiments which have just been described and that various modifications and simple variants can be envisaged by those skilled in the art without departing from the scope of the invention. as defined by the appended claims.

Nomenclature

[0021] <tb> Luminous Display Needle <SEP> 1 <tb> Light Guide <SEP> 2 <tb> Annular element <SEP> 4 <tb> Straight part <SEP> 6 <Tb> Hole <September> 8 <tb> Drive Axis <SEP> 10 <Tb> Housing <September> 12 <tb> Light Source <SEP> 14 <tb> First and second poles <SEP> 14A, 14B <tb> Power Source <SEP> 16 <Tb> Built <September> 18 <tb> First portion of surface <SEP> 20 <tb> Second surface area <SEP> 22 <tb> Support part <SEP> 24 <tb> Circular Groove <SEP> 26 <Tb> Dial <September> 28 <tb> Friction piece <SEP> 30 <tb> Dressing Room <SEP> 32 <Tb> Groove <September> 34 <Tb> Slice <September> 36

Claims (6)

1. A luminous display needle for a portable object, the portable object comprising a frame (18) in which is housed a power source (16) in electrical energy, the needle (1) comprising a light guide ( 2) in which is formed a hole (8) for the passage of a drive shaft (10), and a housing (12) for housing a light source (14) which injects light into the light guide (2), the light source (14) comprising first and second poles (14A, 14B), the first pole (14A) of the light source (14) being connected to the power source (16) via the drive shaft (10) of the needle (1), and the second pole (14B) of the light source (14) being connected to the power source (16) via the frame (18) of the portable object. 2. A luminous display needle according to claim 1, characterized in that the second pole (14B) of the light source (14) is connected to the frame (18) of the portable object via a support piece (24) electrically conductor which carries the light source (14). 3. A luminous display needle according to claim 2, characterized in that the electrical connection between the support piece (24) and the frame (18) of the portable object is by friction. 4. A luminous display needle according to any one of claims 2 or 3, characterized in that the light guide (2) comprises a first surface portion (20) directed on the side of an observer, and a second portion surface (22) opposed to the first surface portion (20), an electrically conductive covering member (32) electrically connecting the light source (14) to the drive shaft (10) being provided on the first surface portion (20) of the light guide (2). 5. A luminous display needle according to claim 4, characterized in that the support piece (24) is fixed on the second surface portion (22) of the light guide (2). 6. A luminous display needle according to any one of claims 1 to 5, characterized in that the second pole (14B) of the light source (14) is connected to a mass.