STRAP FOR A WEARABLE DEVICE

Abstract

A strap for a wearable device comprises a printed circuit board (PCB) located within said strap. The PCB comprises a first electronic component, coupled to a first flexible portion. The first electronic component is mounted to a cage, the cage comprising a cage pivot mount. The flexible portion is under tension and urges said first electronic component towards said cage pivot mount such that a pivotable connection is formed between said cage and said first electronic component. Also disclosed is a method of manufacture of the strap.

Claims

1. A strap for a wearable device comprising a printed circuit board (PCB) located within said strap, said PCB comprising a first electronic component, coupled to a first flexible portion: wherein said first electronic component is mounted to a cage, the cage comprising a cage pivot mount; wherein said flexible portion is under tension and urges said first electronic component towards said cage pivot mount such that a pivotable connection is formed between said cage and said first electronic component.

2. The strap of claim 1 wherein: said PCB further comprises a second electronic component attached to said flexible portion; wherein said second electronic component is mounted to said cage.

3. The strap of claim 2 wherein said second electronic component snap fits onto said cage.

4. The strap of claim 1 wherein said cage pivot mount is substantially U-shaped.

5. The strap of claim 2 wherein said PCB comprises a third electronic component, coupled to said second electronic component by a second flexible portion, said third electronic component mounted to a second cage.

6. The strap of claim 1 wherein the first electronic component comprises a transmitter for transmitting radio signals.

7. The strap of claim 2 wherein the first electronic component or the second electronic component is a battery.

8. The strap of claim 7 wherein the battery is a coin cell.

9. The strap of claim 1 wherein the strap comprises polyurethane.

10. The strap of claim 2 further comprising a button for operation of any of the electronic components.

11. The strap of claim 1 wherein the strap connects to a watch housing.

12. The strap of claim 5 wherein said cage and/or said second cage comprises a secondary mount for retaining a further electronic component.

13. A method of making the strap of claim 1 comprising: inserting the PCB, electronic components, flexible portion and cage into a mold, attaching a tool to said cage such that said PCB is not in contact with said mold, injecting a wet applied structural component into said mold.

14. The method of claim 13 wherein the cage comprises a hole for a fixing means and wherein said tool engages said hole for a fixing means.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

[0037] To easily identify the discussion of any particular element or act, the most significant digit or digits in a reference number refer to the figure number in which that element is first introduced.

[0038] FIG. 1A illustrates an aspect of the subject matter in accordance with one embodiment.

[0039] FIG. 1B illustrates an aspect of the subject matter in accordance with one embodiment.

[0040] FIGS. 2A-2E illustrate an aspect of the subject matter in accordance with one embodiment.

[0041] FIG. 3 illustrates an aspect of the subject matter in accordance with one embodiment.

[0042] FIG. 4 illustrates an aspect of the subject matter in accordance with one embodiment.

[0043] FIG. 5 illustrates an aspect of the subject matter in accordance with one embodiment.

[0044] FIG. 6 illustrates an aspect of the subject matter in accordance with one embodiment.

[0045] FIG. 7 illustrates an aspect of the subject matter in accordance with one embodiment.

DETAILED DESCRIPTION

[0046] Certain terminology is used in the following description for convenience only and is not limiting. The words right, left, lower, upper, front, rear, upward, down, downward, above and below designate directions in the drawings to which reference is made and are with respect to the described component when assembled and mounted (e.g. in situ). The words inner, inwardly and outer, outwardly refer to directions toward and away from, respectively, a designated centreline or a geometric centre of an element being described (e.g. central axis), the particular meaning being readily apparent from the context of the description.

[0047] Further, as used herein, the terms connected, attached, coupled, mounted are intended to include direct connections between two members without any other members interposed therebetween, as well as, indirect connections between members in which one or more other members are interposed therebetween. The terminology includes the words specifically mentioned above, derivatives thereof, and words of similar import.

[0048] Further, unless otherwise specified, the use of ordinal adjectives, such as, first, second, third etc. merely indicate that different instances of like objects are being referred to and are not intended to imply that the objects so described must be in a given sequence, either temporally, spatially, in ranking or in any other manner.

[0049] Through the description and claims of this specification, the terms comprise and contain, and variations thereof, are interpreted to mean including but not limited to, and they are not intended to (and do not) exclude other moieties, additives, components, integers or steps. Throughout the description and claims of this specification, the singular encompasses the plural unless the context otherwise requires. In particular, where the indefinite article is used, the specification is to be understood as contemplating plurality, as well as, singularity, unless the context requires otherwise.

[0050] Features, integers, characteristics, compounds, chemical moieties or groups described in conjunction with a particular aspect, embodiment or example of the invention are to be understood to be applicable to any other aspect, embodiment or example described herein unless incompatible therewith. All of the features disclosed in this specification (including any accompanying claims, abstract and drawings), and/or all of the steps of any method or process so disclosed, may be combined in any combination, except combinations where at least some of such features and/or steps are mutually exclusive. The invention is not restricted to the details of any foregoing embodiments. The invention extends to any novel one, or any novel combination, of the features disclosed in this specification (including any accompanying claims, abstract or drawings), or to any novel one, or any novel combination, of the steps of any method or process so disclosed.

[0051] FIG. 1A shows the internal components of a strap 102 according to an embodiment of the present invention. The strap 102 is connectable to a watch housing 112 to provide the functionality of a conventional mechanical watch with apparatus for communicating with a remote security system. Although the present invention may have other applications, the invention will be described with particular reference to examples in which the security system is a remote security system of a vehicle, such as a keyless entry or a Keyless Go? system. The strap may be a strap, or bracelet without a watch or watch housing 112.

[0052] The strap 102, includes two ends 118a, 118b, the ends are connected to opposite sides of an optional watch housing 112, which contains a mechanical watch movement. Here mechanical means a watch movement which derives its power from a coiled spring and/or one which derives regulation from an escapement mechanism, rather than, for example, a quartz movement, although other mechanisms may be used instead. The watch housing 112 is made of metal such that it is hard wearing and non-brittle. In some embodiments, the metal may be a precious metal such as gold or platinum. The components of the mechanical watch movement are also made from metal. However, metals, especially precious metals, are generally radio opaque, meaning that communicating with a vehicle via radio antenna within the wearable device housing is not possible, this issue is particularly pronounced when the watch movement is a mechanical watch movement which has all metal parts.

[0053] The strap 102 is at least partially flexible and the length variable/settable, such that the wearable device 100 may be worn by users having different sized wrists. In the illustrated embodiment, this is achieved by forming part of each strap from a flexible rubber material. However, the skilled person will understand that other flexible materials could be used in other embodiments.

[0054] The strap 102 in the embodiment shown comprises a PCB, including flexible portions 114 and electronic components. In the example shown, the electronic components include first and second batteries 106, 108, the batteries may be coin cells. The electronic components further include a transmitter for transmitting radio signals 104 and a button 110 for activating the electronic components. Each of the electronic components is provided with a cage which has a plurality of uses both during and after manufacture. The transmitter for transmitting radio signals 104 may be a transceiver for receiving and transmitting signals. The transmitter for transmitting radio signals 104 is connected to an antenna 116. Each of the transmitter 104 and the antenna 116 may be configured to either transmit, receive or both transmit and receive signals, such as radio signals. The transmitter and antenna may be configured to receive and transmit signals of different frequencies.

[0055] The present invention allows the transmission of signals from the transmitter 104 because the strap 102 is formed from radio transparent materials. For example, the straps may be formed of rubber or polyurethane, and optionally coated with leather or another radio-transparent material.

[0056] The transmitter is arranged to transmit radio signals which communicate with a vehicle, allowing a user to passively unlock the vehicle when the watch is within a predetermined range, or actively lock and unlock the vehicle using the button 110. This may be referred to as a keyless entry system. Keyless entry systems typically work by the vehicle intermittently transmitting signals, which are received by a transceiver of the keyless entry system. Upon receipt of the signal from the vehicle, the transceiver produces a signal comprising a code which can be received by the vehicle. If a signal indicating a correct code is received by the vehicle, then the doors are automatically unlocked, with no further action from the user being required.

[0057] The wearable device 100 is provided with a button 110 attached to the strap 102, which button may be operable to cause a signal to be sent, which signal may cause a vehicle to start if it is sent from within the vehicle. However, it will be understood that the functionality available by pressing the button 110 will depend on the specific vehicle that the wearable device 100 is arranged to unlock and start. In some examples, the button may cause a signal to be sent that operates to unlock the vehicle from a relatively large distance away, in the manner of a conventional remote key.

[0058] A particular challenge associated with provision of Keyless Go? and keyless entry functionality is that a relatively large amount of energy and a relatively high peak current is required to run the array of transceivers for these functions. Further, a large amount of energy will also need to be stored for the keyless entry functionality, because for some keyless entry systems the respective transceiver may need to be transmitting constantly (albeit at a very low power level). The present inventors have recognised that the peak current required by a keyless entry circuit may be in the region of 10 mA for some keyless entry systems. Accordingly, it is necessary to provide a cell that is able to provide this peak current and store an amount of energy that allows the wearable device to function for a required length of time before the battery needs to be replaced. It is also important for the cell to be relatively compact, as package space within the wearable device is limited. A suitable cell/battery may be a CR2032 coin cell.

[0059] Placing the batteries under the watch housing 112 may make the watch uncomfortably tall for the user. Therefore, the cells 106, 108 are placed in the strap 102. Placing the cells 106, 108 and the transceiver in the strap 102 ensures that the functionality of the strap and watch is maximised, without degrading the comfort and quality of the watch. Due to the volume required within the strap to house and pot each of the electronic components, it is not feasible to include a clasp, which would disengage the components, making it necessary to allow the strap to flex such that it can be removed from the user without damaging the internal components.

[0060] FIG. 1B shows a perspective view of the strap 102 with the button 122. The outer portion of the button 122 and LED indicator 120 and first and second sockets 124, 126 are visible from the exterior of the strap, but the other components are hidden within the strap. The watch housing which connects to the two ends of the strap 102 is not shown, in some examples, the ends of the strap or the sockets 124, 126, may connect to each other or to a clasp or buckle. In the example shown, the button 122 sits atop one of the battery cells (not shown). The button chassis includes an indicator light, in the form of an LED indicator 120. The battery cell is connected to a second battery which may be attached to a cage (not shown) which is connected to the transmitter for transmitting radio signals (see FIG. 1A 104). The second battery is connected to the transmitter for transmitting radio signals (see FIG. 1A 104) via the flexible PCB, and the transmitter is connected to the antenna (see FIG. 1A 116) via the flexible PCB. In varying examples of the present invention, the electronic components can be arranged in any suitable order.

[0061] FIG. 2A shows a tool inserted into the strap 202 which may be used to arrest components within the mould prior to the injection of polyurethane. Additionally, the tool fills a portion of the mould which must not be filled with the wet applied structural component/polyurethane. This portion is the interior of a socket which is used to connect the watch housing to the strap.

[0062] The tool comprises a first tool portion 204 which is releasably attached to second tool portions 206a, 206b by first tool screw 208 and second tool screw 210. The second tool portions 206a, 206b engage the interior of the socket, filling the void within and preventing the intrusion of injected polyurethane. The socket 214 may include vent holes 212, which coincide with vents within the mould and attach to a vacuum generator (not shown). The vent holes 212 extend through the socket 214 and into the void within the mould such that the air pressure within the mould can be reduced to encourage the wet applied structural component to fill the whole volume of the mould. Fibres of polyurethane may fill the vents and remain attached to the strap 202 after manufacture, these fibres can be removed with no visible trace.

[0063] When the polyurethane has cured and the mould has been removed, the tool may be partially encased in cured polyurethane, meaning that it is difficult to remove without cutting the strap. To make removal of the tool simple, it can be taken apart by removing the first and second tool screws 208, 210 as shown in FIG. 2B. The first tool portion 204 can be decoupled from the second tool portions 206a, 206b and slidingly removed from the strap 202 as shown in FIG. 2C.

[0064] The second tool portions 206a, 206b can then be detached from the socket 214 by applying a detaching force as shown in FIG. 2D and subsequently removed from the strap 202 as shown in FIG. 2E.

[0065] FIG. 3 shows a first cage, the cage includes an extension area 308 for accepting an electronic component (not shown), the electronic component snap fits onto snap fit receivers 304a-d such that it cannot move relative to the cage.

[0066] The cage includes holes for a fixing means 302a-b which are used to hold the cage in place during manufacture and subsequently to affix plates.

[0067] The cage includes cage pivot mount 306 which a further electronic component is mounted to, the further electronic component is held in position by a flexible portion of PCB (not shown) which provides electronic communication between the electronic component and the further electronic component (not shown).

[0068] FIG. 4 shows a second cage, the second cage includes a portion for receiving an electronic component, the electronic component snap fits onto snap fit receivers 404a-d such that it cannot move relative to the cage.

[0069] The cage includes holes for a fixing means 402a-b which are used to hold the cage in place during manufacture and subsequently to affix plates.

[0070] The cage includes a cage pivot mount 406 which a further electronic component is mounted to, the further electronic component is held in position by a flexible portion of PCB (not shown) which provides electronic communication between the electronic component and the further electronic component (not shown).

[0071] In some examples, cage pivot mount 306 and cage pivot mount 406 work in conjunction to hold a single electronic component in position, such as the transceiver/transmitter for transmitting radio signals.

[0072] FIG. 5 shows how the first, second and third electronic components and cages are mounted relative to each other prior to entering the mould. The first electronic component 510, which in the example shown is a coin cell, is mounted to a rigid portion 516 of the PCB which in turn is mounted to the first cage 502 by the snap fit receivers. The first electronic component 510 is held in position by a barrier 518 connected to the first cage 502. The first electronic component 510 is attached to the second electronic component 512 via flexible portion 506. The flexible portion 506 is under tension which urges the first and second electronic components 510 and 512 towards each other, the first electronic component 510 is arrested relative to the first cage 502. As such, the second electronic component 512 is urged toward the U-shaped cage pivot mount 520. The second electronic component 512 is further attached to the third electronic component 514 by second flexible portion 508 which is also under tension, causing the second electronic component 512 to be urged towards second cage 504 and second cage pivot mount 522.

[0073] FIG. 6 shows how the socket 602 and button chassis 604 are pivotally mounted with respect to each other. The socket 602 is attached to the chassis using a screw 610 as shown in the figure, although any other appropriate means could be used, such as a rivet or dowel which allows the angle of the button chassis to change with respect to the socket, providing the required flexibility for the strap. A benefit of this flexible connection between these two components within the strap is that the socket can be connected directly to a watch movement, without the need to include further flexibility. This means that the connection can be simplified or include additional features, such as variable length, or an openable joint for removal of the wearable device. The button chassis includes a depressible button, which may have various functions, such as locking and unlocking a door for a vehicle or otherwise, engine ignition, horn or light activation for a vehicle or any other use which is usually associated with a key fob for a vehicle. The button chassis includes an LED indicator 608, which may be used to indicate various information, such as the distances from the associated vehicle, low battery warnings, lock information about the vehicle, connectivity information, etc.

[0074] FIG. 7 illustrates the void created with the mould. The mould may be generated by 3D printing a unitary master pattern component, positioning the master within a fabrication box and subsequently filling the fabrication box with liquid silicone rubber. When the silicone rubber has hardened, the silicone is cut into two halves and the master removed, such that when the two halves are placed together a void as shown is left in the form of the required shape for the component. Subsequently, flow channels can be cut into the mould to provide channels through which wet polyurethane can flow. When the two halves of the mould are connected a substantially air tight mould is formed. Vents can be added as required which connect at specific points on the void which provide a fluid connection to a vacuum generator. After injection and curing of the wet applied structural component, the vents will be filled with solid structural component. This leads to blemishes in the resulting strap which may be considered unsightly. Therefore, it is preferable to locate the vents strategically to coincide with additional components such as the button which will cover the blemishes. Alternatively, or additionally, the vents may coincide with an edge of the resulting strap and the edge and resulting blemishes removed with a scalpel or similar implement. The PCB and cage(s) are positioned within the void and a tool or tools are attached to the cage(s). The tool (or tools) is used to create a small distance on the order of 1 mm between the interior of the mould and the cages and PCB. This is achieved by connecting the tool and cages using bolts which can be finely manipulated to achieve the required distance between the PCB and the mould.

[0075] Located at the ends of the strap void 712 are two tool voids 702, 704 for tools of the type shown in FIG. 2. In the version shown, voids for sockets 714, 716 are also located at the ends of the strap, with the voids for tools 702, 704 and sockets 714, 716 intersecting each other. A void for a button chassis locator tool 710 is also included, the button chassis locator tool is used to hold the button chassis in position during the injection of wet applied structural component. The angle between the button chassis and the socket must be fine tuned prior to injection of the wet applied structural component to ensure that there is sufficient clearance between the components and the mould. If any portion of any component of the strap is too close to the mould, the presence of the component will be visually apparent, potentially spoiling the aesthetics of the strap.

[0076] The void includes a strap void 712, and additional voids 706, 708 for insert tools to arrest the cages within the mould during injection of the wet applied structural component and to provide a channel for the injection of said wet applied structural component.

[0077] The following numbered list contains clauses which are not to be confused with the claims. [0078] 1. A method of manufacturing a strap comprising: [0079] providing a mould for said strap, the strap comprising a first opening and a second opening; [0080] inserting a first component and a second component into said mould, wherein said first and second component are reciprocally pivotally mounted and at least temporarily fixed relative to each other by an at least temporary fixing means, [0081] injecting a wet applied structural component into said mould, [0082] removing said fixing means such that the first and second components can pivot relative to each other. [0083] 2. The method of clause 1 wherein said first component and/or said second component comprises a tool engagement portion, the method further comprising using a tool to locate the first and second components within the mould, such that said first component and said second component are not in contact with said mould. [0084] 3. The method of clause 2 wherein said tool comprises a first tool portion and a second tool portion, said first and second tool portions being releasably attached to each other, the method further comprising, releasing said first tool portion from said second tool portion. [0085] 4. The method of clause 1 wherein the first component is a socket for attaching to a watch housing, the socket protruding from the strap. [0086] 5. The method of clause 4 wherein said socket comprises at least one vent and during injection of said wet applied structural component, said vent is in fluid communication with a device for reducing air pressure within said mould. [0087] 6. The method of clause 1 or 4 wherein the second component is a chassis and wherein the chassis comprises a button receiving portion. [0088] 7. The method of clause 6 wherein said button receiving portion comprises a button. [0089] 8. The method of any one of clauses 1 to 7 wherein the fixing means is a screw. [0090] 9. The method of any one of clauses 1 to 8 wherein the strap comprises polyurethane. [0091] 10. The method of any one of clauses 1 to 9 wherein the wearable device comprises at least one electronic component. [0092] 11. The method of clause 10 when dependent on any of clauses 7 to 10 wherein said button operates said electronic component. [0093] 12. The method of clause 10 wherein said electronic component is a transmitter for transmitting radio signals. [0094] 13. The method of any one of clauses 1 to 12 wherein the mould comprises silicone. [0095] 14. A strap made according to the method of any one of clauses 1 to 13.