阅读说明：本技术 带有太阳能电池的电子手表 (Electronic watch with solar cell ) 是由 M·申克 M·朱佛 于 2020-11-04 设计创作，主要内容包括：如本发明所述的钟表机芯(1)包括光伏电池(2),该光伏电池优选地通过粘合剂粘结附接到支撑板(4)的上表面。在电池的另一侧上,在其下表面上,支撑板设置有多个螺母(6)。借助于螺母将包括平坦表面的电气模块(14)附接到支撑板。模块(14)设置有若干开口(23),其位置和尺寸对应于螺母(6)的位置和尺寸,使得螺母穿过开口,从而允许将模块(14)的平坦表面放置成与支撑板(4)接触。模块通过拧入螺母(6)的螺钉(33)固定到支撑板。经由螺母(6)的连接将光伏电池固定到电气模块并确保抗冲击性,而无需侧向支撑件。(Timepiece movement (1) according to the invention comprises a photovoltaic cell (2) attached to the upper surface of a support plate (4), preferably by adhesive bonding. On the other side of the battery, on its lower surface, the support plate is provided with a plurality of nuts (6). An electrical module (14) comprising a flat surface is attached to the support plate by means of a nut. The module (14) is provided with several openings (23) whose position and size correspond to those of the nuts (6) so that the nuts pass through the openings, allowing the flat surface of the module (14) to be placed in contact with the support plate (4). The module is fixed to the support plate by means of screws (33) screwed into nuts (6). The connection via the nut (6) secures the photovoltaic cell to the electrical module and ensures impact resistance without the need for lateral supports.)

1. An electronic watch movement (1) comprising a photovoltaic cell (2) and an electrical module (14), said module comprising a flat surface, characterized in that:

-the movement further comprises a first rigid support plate (4),

-the photovoltaic cell (2) is fixed to the upper surface of the support plate (4),

-said support plate (4) is provided with a plurality of nuts (6) mounted on said lower surface thereof,

-the flat surface of the electrical module (14) is mounted in contact with the lower surface of the support plate (4), the electrical module being provided with a plurality of openings (23) whose position and dimensions correspond to those of the nut (6) so that the nut (6) passes through the openings (23),

-the electrical module (14) and the support plate (4) are fixed to each other by means of a plurality of screws (33) screwed into the nuts (6).

2. Timepiece movement according to claim 1, wherein a first set of nuts (6) is positioned proximal to the periphery of the support plate (4) and a second set of nuts is positioned in a more central position with respect to the periphery than the first set.

3. Timepiece movement according to claim 1 or 2, wherein the electrical module (14) comprises a second support plate (18) provided with the opening (23), and wherein the flat surface of the electrical module (14) is one of the surfaces of the second support plate (18), the second support plate (18) being positioned back-to-back with respect to the first support plate (4).

4. A timepiece movement according to claim 3, wherein the first support plate (4) and the second support plate (18) have the same circumference.

5. Timepiece movement according to claim 3 or 4, comprising a spacer (30), the spacer (30) being positioned on the second support plate (18) on the opposite side to the photovoltaic cell (2), and also being provided with an opening (31), the opening (31) allowing the nut (6) to pass through, so that the spacer (30) and the two support plates (4, 18) are fixed to each other by the screw (33) screwed into the nut (6).

6. Timepiece movement according to any one of claims 3 to 5, comprising a hand (3), and wherein the electrical module (14) comprises an electric motor (19) mounted on the second support plate (18) on the other side of the first support plate (4), the motor comprising a rotary hand shaft (20) accessible through central holes (8, 15, 24) aligned with each other, which are provided in the photovoltaic cell (2) and in the two support plates (4, 18), respectively.

7. Timepiece movement according to claim 6, comprising a spacer (30), the spacer (30) being provided with a cavity (32) in which the motor (19) can be housed.

8. A timepiece movement according to any one of the preceding claims, including a digital screen (5), and wherein the first support plate (4) is provided with a window (7) adapted to the dimensions of the screen (5).

9. Electronic watch according to any one of the preceding claims, wherein said photovoltaic cell (2) comprises a substrate made of glass or another fragile material.

10. An electronic watch comprising a middle case part (35) in which a movement (1) according to any one of the preceding claims is mounted.

Technical Field

The invention relates to an electronic watch with a photovoltaic cell.

Background

Electronic watches with photovoltaic cells are well known. The battery is mounted below the watch glass so that when the watch is worn, the battery can capture photovoltaic energy. Solar energy is converted to electrical energy to power electrical and electronic watch components, such as motors and/or rechargeable batteries for moving the hands.

The photovoltaic cells used in some types of high-end watches consist of a fragile substrate, usually made of glass, which carries a layer of semiconductor material. The base plate must withstand the stresses generated during the assembly process and during the life cycle of the watch. Impact resistance is particularly important.

Japanese patent numbers JPH11118952 and JP427580 disclose watches in which the photovoltaic cell is held in contact with the motor module of the watch by means of annular lateral supports. Since the lateral support is limited to the periphery of the battery, the risk of separation of the battery and the motor module during an impact is still significant. Furthermore, the lateral supports are parts that complicate the construction of the watch and may be difficult to disassemble. Japanese patent No. JPH08166469 describes the manufacture of a photovoltaic cell layer on a metal substrate to make a dial with a battery integrated in the dial. However, this solution still requires means for laterally fixing the dial. Moreover, this solution is not suitable for the most common case of integrating a prefabricated photovoltaic cell during the assembly of a timepiece movement.

Disclosure of Invention

The aim of the present invention is to provide an electronic watch with photovoltaic cells which does not have the above-mentioned drawbacks. This object is achieved by a timepiece movement and a watch according to the appended claims.

The timepiece movement according to the invention includes a photovoltaic cell fixed to the upper surface of the support plate, for example by adhesive bonding. On the other side of the battery, on its lower surface, the support plate is provided with a plurality of nuts. An electrical module having a flat surface is attached to the support plate by means of a nut. The module is provided with a number of openings, the position and size of which correspond to the position and size of the nuts, so that the nuts pass through the openings, allowing the flat surfaces of the module to be placed in contact with the support plate. The module is fixed to the support plate by screws screwed into nuts. The connection via the nut secures the photovoltaic cell to the electrical module and ensures impact resistance without the need for lateral supports. The connection is easy to assemble and disassemble. Preferably, a plurality of nuts are positioned near the center of the support plate to prevent separation of the module and the battery, which further increases the resistance of the assembly to impact.

Further characteristics and advantages of the invention will become apparent from the following description of preferred embodiments, given by way of non-limiting example, with reference to the accompanying drawings.

Drawings

Fig. 1 shows a timepiece movement of an electronic watch with a photovoltaic cell according to one embodiment of the invention.

Figures 2a to 2k show the various steps of a method of assembling a movement and a watch according to one embodiment of the invention.

Detailed Description

The movement 1 shown in fig. 1 comprises a photovoltaic cell 2, the photovoltaic cell 2 being mounted under the hands 3 of the watch to be assembled and being fixed to the upper surface of a rigid support plate 4. The movement 1 also comprises a digital screen 5. Fig. 2a shows a support plate 4 according to this particular embodiment. According to the invention, the plate is provided with a plurality of nuts 6, said plurality of nuts 6 being fixed to the lower surface of the plate 4, i.e. the surface opposite to the surface to which the photovoltaic cells 2 are to be fixed. The nut is preferably a cylindrical nut. The nut 6 may be fixed to the plate 4 by welding or adhesive bonding, depending on the material of the plate 4. The material may be a metallic material. The particular plate 4 shown in fig. 2a is provided with a window 7 for a number screen, with a central hole 8 for the passage of the rotary pointer shaft, and with several openings and recesses. The circular recess 10 will serve as a mounting point for the movement in the middle of the watch case (see below) and the opening 11 will receive the screw head of the motor module (see also below). The rectangular recess 12 will serve as a passage for an electrical connection strip and/or as an alignment mark for the movement in the middle of the case.

Figure 2b shows the photovoltaic cell 2 before assembly to the rigid plate 4. The battery includes a glass substrate having a thin layer (film) made of a semiconductor material (not shown). The substrate is bonded to an FPC (flexible printed circuit) comprising the connector 13 by means of a conductive adhesive, for example by means of a flexible electrical connector 25. Herein, the entire substrate and FPC are considered as the photovoltaic cell 2. The battery 2 has a central hole 15 for the rotary pointer shaft to pass through and a window 16 for the digital screen.

As shown in fig. 2c, the cells 2 are preferably bonded to the upper surface of the support plate 4 by a double-sided adhesive layer laminated on the plate 4. The cell 2 is centered on the plate 4 such that the central openings 8 and 15 and the windows 7 and 16 are aligned with respect to each other. The flexible connection 25 with the connector 13 is located at the height of one of the rectangular recesses 12 provided on the periphery of the plate 4.

Figure 2d shows the digital screen 5 mounted in the opening formed by the windows 7 and 16. The screen 5 can be made as an assembly of known electronic components, such as a MIP (pixel memory) layer and a backlight layer, which are provided with connectors 17.

Figure 2e shows the components of the motor module 14 of the movement of figure 1. A second rigid support plate 18 is provided having the same circumference as the photovoltaic cell support plate 4. The second plate 18 may be a metal plate, similar to the support plate 4. An electric motor 19 provided with a rotating shaft 20 for the hands 3 is attached centrally to the second support plate 18 by means of screws 21, wherein a first portion 22a of a Printed Circuit Board (PCB) 22 is mounted between the motor 19 and the second plate 18. The PCB 22 includes a second portion 22b that can be folded over the first portion 22a mounted between the motor 19 and the second plate 18. The second plate 18 and the first portion 22a of the PCB are provided with openings 23 aligned with each other (the openings 23 form a single opening when the module is assembled), which correspond to the nuts 6 of the first support plate 4, respectively, so that the flat surface of the second plate 18 is positioned in contact with the lower surface of the first support plate 4 on which the nuts 6 are mounted. In other words, the openings 23 are positioned and dimensioned such that the nuts 6 pass through these openings 23, so that the two plates 4 and 18 can be positioned back-to-back, see fig. 2 f. The head of the screw 21 will be received inside the opening 11 provided in the support plate 4. When the two plates 4 and 18 are assembled together, the second plate 18 comprises a central hole 24 aligned with the central holes 8 and 15 in the battery 2 and in the first support plate 4. The central holes aligned with each other allow access to the rotating shaft 20 of the motor 19 on the upper side of the assembly.

The connector 17 of the screen 5 is inserted into a socket provided in the first portion 22a of the PCB 22. The spacer 30 is then placed on said first portion 22a of the PCB (fig. 2 b). The spacer 30, in addition to being dimensioned to accommodate the cavity 32 of the motor 19, is provided with an opening 31 for the passage of the nut 6, so that the spacer 30 can be mounted in contact with the first portion 22a of the PCB. The spacer 30 and the motor module 14 are then fixed to the support plate 4 by screws 33 screwed into the nuts 6. The folded portion 22b of the PCB is now folded to cover the spacer 30 and secured by screws 34 (fig. 2 h). The connector 13 of the photovoltaic cell is inserted into a socket of the PCB 22. Once the hands 3 are mounted, the assembly of the movement 1 shown in figure 1 is completed.

The movement is then mounted in the middle 35 of the case of the watch (see figures 2i and 2 j). The middle part 35 of the watch case comprises a crown 36 connected to a connector 37, which connector 37 is to be inserted into a socket of the PCB 22. The assembly of the two plates 4 and 18 is attached to the middle part 35 of the watch case by means of screws 38 and a flange 39, wherein the screws 38 are screwed into the circular recesses 10 at the periphery of the plates 4 and 18. The assembly of the watch is completed by mounting the indexing ring 40 and the bezel 41 (fig. 2 k).

The invention is not limited to the embodiments shown in the drawings. For example, embodiments not provided with a digital screen 5 are also covered by the present invention. The photovoltaic cell 2, the motor 19, the PCB 22 and the middle part 34 of the watch case may be manufactured according to any of several embodiments known in the art. The motor module is only an example of an electrical module that can be used in the watch according to the invention. Other modules that can be used in digital watches (without hands) according to the invention do not have a motor, but only microelectronic components. To be able to be used in the present invention, the electrical module 14 only needs to have a flat surface to be mounted against the lower surface of the support plate 4. According to the embodiment of the figures, a "flat surface" is the surface of the plate 18 opposite to the surface to which the motor 19 is attached. Furthermore, and in general, the electrical module must be provided with an opening allowing the passage of the nut 6. In the case of the embodiment of the figures, the opening 23 passes through the second plate 18 and the first portion of the PCB 22.

In any embodiment according to the invention, nut 6 allows the timepiece movement to be assembled to the photovoltaic cell without the need for a lateral support. The assembly is easily disassembled by loosening the screws 33. According to a preferred embodiment, and also in the embodiment shown in the figures, the nut 6 is positioned in a particular way on the surface of the support plate 4. When assembling the motor module 14 to the support plate 4, the first set of nuts is located on the plate 4, proximal to its periphery, and the second set is located on the plate closer to the centre, proximal to the motor 19. The central nut will improve the safety of the assembly comprising the support plate 4 and the motor module 14 and prevent these components from separating in the event of an impact. This also reduces the risk of the hands loosening, making it possible to machine a central hole in the battery as close as possible to the diameter of the needle, in order to optimize the aesthetic appearance of the dial.