CH697211A5 - Portable electronic apparatus e.g. wristwatch, has cams for displacing display unit against support surfaces of support piece and transforming rotational movement into translational movement, where support piece receives display unit - Google Patents

Abstract

The apparatus has a dial equipped with an opening, and a support piece (1) mounted in a case with respect to the dial. The support piece receives a display unit (2) e.g. LCD, and comprises support surfaces (5a, 5b, 6a, 6b) defining a fixed position for the display unit in the support piece with respect to the opening. The display unit displays information e.g. ambient temperature. Cams (7, 8) displace the display unit against the support surfaces in the fixed position. The cams transform a rotational movement into a translational movement. An independent claim is also included for a method for assembling a display module in a portable electronic apparatus.

Description

       

  Technical area

The present invention relates, in general, a positioning system and locking display means in a portable electronic device. The invention relates more particularly to the mechanical means used to ensure the positioning and locking of a liquid crystal cell facing an opening made through the dial of a watch. The invention also relates to a method of mounting a display module in a portable electronic device.

Technological background

[0002] It is common in the field of watchmaking to manufacture electronic watches, an exemplary embodiment of which is given in FIG. 5.

   Such a watch 50 conventionally comprises a housing 51 comprising a bottom and closed on the top by means of an ice, said housing containing a watch movement controlled by an electronic circuit, not shown, a dial 52 supporting means for indicating the hour, for example needles 53 driven by the cogs of the watch movement. The dial 52 comprises an opening 54 intended to leave visible display means 55, such as for example a liquid crystal display or LCD.

Traditionally, the display means 55 are mounted on a support piece, not visible in this figure, disposed under the dial and fixed relative thereto.

   The support piece has an imprint intended to receive the display means 55 and to position them relative to the opening 54 made in the dial 52 so that they are visible through the dial 52 via the opening 54. Once the display means 55 are positioned in the imprint provided for this purpose, a light guide or a holding plate is placed on top and then sealed on the support piece preventing any movement of the display means 55 according to an axis perpendicular to the average plane of the support piece.

Nevertheless, it has been found that the traditional methods for positioning the display means 55 did not allow, on the one hand, to obtain a precise positioning of these display means with respect to the opening 54 practiced. in the dial 52 of the watch,

   in particular because a clearance is necessary between the size of the cavity and the display means 55 to avoid any excessive mechanical stress on the latter, and, secondly, to correctly maintain the position of these means of display during the sealing operation of the light guide. Under these conditions, the sealing operation is therefore performed from an approximate positioning of the display means. Thus a number of watches 50 has a dial 52 with an opening 54 through which are visible display means 55 positioned transversely which has the particular effect of greatly affecting the aesthetics of these watches, which 'is obviously not desirable.

   It is not more desirable to keep only the watches having a suitable aesthetic appearance or else the output of the production line will be significantly reduced.

Summary of the invention

In order to overcome the drawbacks of the prior art, the idea according to the invention consists in providing precise positioning means and means for blocking the display means, with the aim of being able to easily seal a guide of light over the display means for a fixed and precise position of the latter, in a plane parallel to the dial, with respect to the opening which is practiced there.

For this purpose,

   the present invention relates to a portable electronic device whose characteristics are set forth in claim 1.

[0007] Advantageous embodiments of the present invention are the subject of the dependent claims.

The invention also relates to the method of mounting a display module in a portable electronic device, the steps of this method being listed in claim 10.

Brief description of the drawings

Other features and advantages of the present invention will appear more clearly on reading the following detailed description of embodiments of the invention given solely by way of non-limiting example and illustrated by the accompanying drawings in which:

  
<tb> fig. 1 <sep> represents a view from above of a support piece in which the display means are arranged before precise positioning;


  <tb> fig. 2 <sep> represents a view from above of a support piece in which the display means are disposed after precise positioning and blocking thereof;


  <tb> fig. 3 <sep> is a side view of an eccentric according to a preferred embodiment of the invention;


  <tb> fig. 4 <sep> represents a top view of an eccentric according to a preferred embodiment of the invention;


  <tb> fig. 5 <sep> already described, represents an example of a watch with a dial having an opening.

Description of Preferred Embodiments

The invention relates, as mentioned above, a portable electronic device comprising a dial in which is made an opening through which are visible display means. This apparatus also comprises an electronic control circuit for controlling the display means, advantageously formed by a liquid crystal display (LCD).

   These display means can provide the user of the watch, for example, a time indication, but also other types of information, such as, for example, an alarm time, the ambient temperature, the atmospheric pressure, etc.

In the following description, the portable electronic device considered is preferably an electronic watch, an exemplary embodiment is provided in FIG. 5, although the invention can be applied to other portable electronic devices, such as a cell phone or handheld electronic games.

FIG.

   1 represents a top view of a support part 1 in which display means 2 are arranged before their positioning in a precise manner on the support part 1.

Note for this purpose that the support part 1 is mounted in the case of the watch fixedly relative to the dial and preferably in a mean plane substantially parallel to the mean plane of the dial.

The support part 1 advantageously has a cavity or cavity 3 intended to receive the display means 2.

   Support elements 4a-4d are provided around the periphery of the cavity so as to retain the display means 2, in a plane parallel to the mean plane of the dial, or advantageously in the mean plane of the support piece 1 (corresponding in the plane of sight).

The support part 1 also has at least a first bearing surface, preferably two bearing surfaces 5a-5b, along a first axis (A) in the middle plane of the support part 1, and at least a second bearing surface, preferably two bearing surfaces 6a-6b, along a second axis (B) also in the mean plane of the support part 1 and preferably perpendicular to the first axis (A).

   Thus, the at least first 5a-5b and second 6a-6b bearing surfaces define a fixed position determined in the mean plane of the support piece 1, parallel to the mean plane of the dial (not shown). This position is chosen according to the position of the opening of the dial.

It will be noted that advantageously the first bearing surfaces 5a-5b are widely spaced along the first axis (A) so as to ensure a stable support in the direction perpendicular to this first axis and that the second surfaces of support 6a-6b are widely spaced along the second axis (B) so as to provide a stable support in the direction perpendicular to the second axis (B).

In order to precisely position the display means and then block them in this position,

   there are provided first 7 and second 8 mechanical means for moving the display means in abutment respectively against the first 5a-5b and second 6a-6b bearing surfaces. These mechanical means 7 and 8 are arranged opposite the corresponding bearing surfaces with respect to the cavity 3 of the support part 1.

Preferably, at least one of the first or second mechanical means, and advantageously the first and the second mechanical means, are formed by mechanical means for transforming a rotational movement into a translation movement.

According to a preferred embodiment of the invention, eccentric 7 and 8, of which detailed views are provided in FIGS. 3 and 4 are used as mechanical means.

   These eccentrics 7 and 8 have the advantage of occupying only a small space while allowing the display means 2 to be moved over a distance depending on the respective thrust curved surface 9-10 of each eccentric 7-8. sufficient to bring the display means 2 abutting against the opposite bearing surfaces.

These eccentrics 7 and 8 are arranged freely in rotation, preferably in housings 11 and 12 provided for this purpose on the support part 1.

   Alternatively, it is also possible to attach the eccentrics on the underside of the dial disposed above the support piece.

In the example shown, the housings 11 and 12 are each provided with a tooth 13-14 cooperating with a corresponding fluted circular portion 15-16 eccentric 7-8 so as to ensure a stepwise rotation of the eccentric corresponding and therefore a progressive displacement of the display means 2.

   Note also that there is provided at one end of each grooved portion 15-16 a stop surface 17-18 capable of resting on the corresponding tooth 13-14, as shown in FIG. 1, to position the eccentric 7-8 in its housing 9-10 before rotation, so as to indicate the direction of rotation ensuring the displacement of the display means 2 to the opposite bearing surfaces 5-6.

FIG. 2 shows a view similar to that of FIG. 1, in which the display means 2 have been moved in abutment against the first 5a-5b and second 6a-6b bearing surfaces so that they are in the precise position defined by the bearing surfaces with respect to the opening made in the dial of the watch.

   This position of the display means 2 is achieved by the actuation of the mechanical means, here the eccentric 7 and 8 which have been rotated in the appropriate direction, ie that ensuring the displacement of the display means 2 towards the bearing surfaces opposites 5a-5b and 6a-6b.

During the rotation of the first eccentric 7 from its initial position shown in FIG. 1, the curved thrust surface 9 comes into contact with the display means 2 and exerts a thrust perpendicular to the axis (A) translating the display means 2 from their initial initial position on the support part 1 to a position in abutment against the opposed bearing surfaces 5a-5b.

Similarly, during the rotation of the second eccentric 8 from its initial position shown in FIG.

   1, the curved thrust surface 10 comes into contact with the display means 2 and exerts a thrust perpendicular to the axis (B) translating the display means 2 from their initial initial position on the support part 1 to a position in abutment against the opposed bearing surfaces 6a-6b.

Thus, the display means 2, as shown in FIG.

   2, have been moved in abutment against the first 5a-5b and the second 6a-6b bearing surfaces and are therefore positioned in the fixed position defined by these bearing surfaces relative to the opening of the dial of the watch.

Note for this purpose, that the grooved portion 15-16 of the eccentric 7-8 cooperating with the tooth 13-14 of the corresponding housing 9-10 ensures the locking of the display means 2 in the fixed position, in abutment against opposing bearing surfaces 5-6. In addition, advantageously the eccentrics 7 and 8 comprise elastic means for absorbing the mechanical stresses exerted on the display means 2 in the fixed position.

   These resilient means are preferably made by means of a recess 19-20 made along the curved surface of thrust 9-10.

After the precise positioning and blocking of the display means 2, it is intended to fix them along the axis perpendicular to the mean plane of the support part 1 by sealing a light guide, not shown in FIGS. 1 and 2, above the display means 2. The light guide can be sealed by any known means, in particular by screwing, gluing or thermo-welding.

   According to the example shown in FIG. 2, the light guide is placed over the display means 2 by means of the pins 21 and 22 and then sealed by means of the screws 23 and 24.

Fig. 3 shows an enlarged side view of an eccentric (7 or 8) according to the preferred embodiment of the invention described in connection with FIGS. 1 and 2. The eccentric, bearing the overall reference numeral 30, comprises a fixing element 31 fitting into a hole in the bottom of the housing of the support piece, so as to ensure that the eccentric 30 is free in rotation about an axis (C) perpendicular to the average plane of the support piece.

   The eccentric 30 further comprises in its upper part, a grooved portion 32 substantially circular centered on the axis of rotation (C) and a second portion 33 off-center with respect to the axis of rotation (C) and centered relative to the axis of rotation (D). A groove 34 is provided on the upper part ensuring easy rotation of the eccentric 30, for example by means of a screwdriver.

Fig. 4 shows an enlarged top view of an eccentric (7 or 8) according to the preferred embodiment of the invention described in connection with FIGS. 1 and 2. The same reference numerals have been used for the elements common to FIG. 3.

The grooved portion 32 of the eccentric 30 has a toothing 35 engageable with the tooth of the corresponding housing, elements shown in Figs. 1 and 2.

   The second portion 33 is centered around the axis (D) parallel to the axis of rotation (C) and has a curved thrust surface 36, preferably in the form of a spiral, ie with a radius increasing with respect to axis (D). This curved thrust surface 36 is intended to contact the display means to move them in translation in the mean plane of the support piece along an axis substantially perpendicular to the contact zone between the surface 36 and the display means. It should be noted for this purpose, that the thrust surface 36 is preferably slightly corrugated to reduce the risk of damage to the display means during their movement.

   It will also be noted that advantageously the travel displacement path is obtained by the spiral shape of the thrust surface 36 and its off-center position with respect to the axis of rotation (C) of the eccentric 30, which makes it possible to reduce the size of the eccentric for a determined displacement length. However, as variants, it is also conceivable to obtain the desired translational movement using either a centered portion having a thrust surface having a spiral shape, or an eccentric portion having a substantially circular thrust surface.

   Nevertheless, for these two variants, the travel displacement travel is then less important.

The eccentric 30 is advantageously provided with elastic means for absorbing the mechanical stresses exerted on the display means blocked in the fixed position. These resilient means are preferably formed by a recess 37 formed along the thrust surface 36 providing the latter an elasticity determined according to the needs.

Another aspect of the invention relates to the method of mounting a display module in a portable electronic device, such as a watch case.

   It will be understood by display module, an assembly including including display means and a light guide.

This method of mounting a display module in a portable electronic device comprises in particular the following steps:
 arranging the display means on the support piece;
 actuating one of the first or second mechanical means for moving the display means abutting against the corresponding bearing surface or surfaces;
 actuating the other of the first or second mechanical means to move the display means in abutment against the other or the corresponding bearing surfaces;
 seal the light guide over the display means.

In the preferred example using eccentrics, the actuation steps of the mechanical means correspond to the following steps:

  
 rotating one or the other of the eccentrics to move the display means in abutment against the or the corresponding bearing surfaces;
 rotating the other eccentric to move the display means in abutment against the other or the corresponding bearing surfaces.

It will be understood that various modifications and / or improvements obvious to those skilled in the art can be made to the various embodiments of the invention described in this description without departing from the scope of the invention defined by the appended claims. In particular, the present invention is not limited solely to eccentrics for moving the display means.

   Mechanical means such as sliders providing a direct translation or screws having their axis of rotation in the mean plane of the support piece can be used to move the display means in abutment against the corresponding bearing surfaces.


    

Claims (10)

A portable electronic apparatus (50) comprising a housing, a dial (52) having at least one aperture (54), a support piece (1) mounted in said housing fixedly relative to the dial in an average plane substantially parallel to the mean plane of the dial, arranged to receive display means (55;  2), said support member having at least first (5a-5b) and second (6a-6b) bearing surfaces defining a fixed position for the display means in the support member with respect to the opening of the dial, first (7), respectively, second (8) mechanical means for moving said display means in abutment against said first, respectively, second bearing surfaces, in said fixed position which they define, characterized in that at least one of the first or second mechanical means is formed by mechanical means for transforming a rotational movement into a translational movement. 2. Portable electronic device according to claim 1, characterized in that at least one of said first and second mechanical means are formed by an eccentric (7, 8; 30) whose axis of rotation (C) is perpendicular to the mean plane of the dial. 3. Portable electronic device according to claim 2, characterized in that said at least one eccentric comprises resilient means for absorbing the mechanical stresses exerted on the display means in the fixed position. 4. An electronic portable device according to claim 3, characterized in that said elastic means are formed by a recess (19, 20; 37) formed along a thrust surface (9, 10; 36) ensuring the mechanical contact between the eccentric and the display means. 5. Portable electronic device according to one of claims 2, 3 or 4, characterized in that said at least one eccentric is freely rotatably disposed in a housing (11, 12) provided in the support piece and in that said at least one eccentric comprises a fluted circular portion (15, 16; 32) cooperating with an inner tooth (13, 14) of the housing so as to lock the eccentric in the fixed position. 6. Portable electronic device according to claim 5, characterized in that said at least one eccentric comprises a stop surface (17, 18) able to rest on the tooth of the housing to limit the rotation of the eccentric in the housing. A portable electronic apparatus as claimed in any one of the preceding claims, characterized in that said display means is a liquid crystal display means sized to exactly cover said dial aperture, once moved into said fixed position. 8. Portable electronic device according to any one of the preceding claims, characterized in that it is a wristwatch. 9. A method of mounting a display module comprising display means and a light guide in a portable electronic device according to one of the preceding claims, characterized in that it comprises the following steps: - arranging the display means (2) on the support member (1); - Operate one of the first (7) or second (8) mechanical means for moving the display means in abutment against the or the bearing surfaces (5a, 5b or 6a, 6b) corresponding; - Operate the other of the first or second mechanical means for moving the display means in abutment against the other or the corresponding bearing surfaces; - seal the light guide over the display means. 10. Mounting method according to claim 9, wherein the mechanical means are eccentric, characterized in that the actuating steps of the mechanical means correspond to the following steps rotating one or the other of the eccentrics to move the display means in abutment against the corresponding bearing surface or surfaces; rotating the other eccentric to move the display means in abutment against the corresponding bearing surfaces.