Protected display stand for watches

Abstract

A display stand (1) for a watch, the display stand including an open or closed support loop (2), and configured to support a wristwatch when the strap is closed around the loop (2). The loop includes at least one electrical switch that can be actuated in one or other of two states, and wherein the state of the switch is determined according to the presence or absence of the watch around the loop (2), making it possible to manage the presence of the watch on the display stand.

Claims

1. A display stand, the display stand comprising an open support loop, and configured to support a wristwatch, when a strap of the wristwatch is closed around the support loop such that the wristwatch is present around the support loop, the support loop comprising electrical switches respectively including push buttons, integrated in the support loop, that can be actuated in one or other of two states, and wherein a state of the switch is determined according to whether the wristwatch is present around the support loop, to monitor the presence of the wristwatch on the display stand, the push buttons being configured so as to be pressed in by a pressure exerted by the wristwatch, when the wristwatch is present around the support loop, and released automatically, when the wristwatch is removed from the support loop, wherein the open support loop is formed by a flat band made from a rigid material, an angular space being formed between ends of the support loop, and wherein the push buttons are positioned proximate the ends, respectively.

2. The display stand according to claim 1, wherein the support loop is configured to be compressed elastically by bringing the ends closer to each other.

3. The display stand according to claim 1, further comprising a pedestal on which the support loop is mounted, and wherein the pedestal comprises a detection apparatus connected by an electrical circuit to said switches, and configured to detect the state of the switches and to generate and transmit respective signals related to the state detected.

4. The display stand according to claim 3, wherein the support loop is configured to be disconnected from the pedestal and reconnected to the pedestal by a plug-in electrical connection.

5. The display stand according to claim 3, wherein the detection apparatus comprises an electronic chip configured to transmit a signal, receivable only in a local area, that is customizable and defined around the electronic chip.

Description

BRIEF DESCRIPTION OF THE FIGURES

(1) FIG. 1 depicts a 3D view of a display stand according to a preferred embodiment of the invention.

(2) FIG. 2 depicts an exploded view of the display stand in FIG. 1.

DETAILED DESCRIPTION OF THE INVENTION

(3) According to a preferred embodiment of the invention, depicted in FIGS. 1 and 2, the display stand 1 comprises an open loop 2 formed by a flat band made from a rigid synthetic material such as a moulded polymer. The loop 2 extends between two ends 3 and 4, over approximately three quadrants of an angle of 360°, on an oval path, inclined towards the rear and corresponding essentially to the circumference of a human wrist, so that a wristwatch can be closed around the loop 2. The two ends 3 and 4 are folded towards the inside of the loop 2.

(4) In the embodiment illustrated in the Figures, the loop 2 is integral with a support part, which emerges from the plane of the loop 2 at the lowest position of the loop, and which is in the form of three sides 6, 7 and 8 of a rectangle, leaving open a space that allows passage of the strap of a watch. The bottom side 8 of the rectangle is supported by a pedestal 10, which thus supports the loop 2.

(5) A wristwatch can be mounted on the loop 2 by positioning the watch case approximately at the middle of the space between the two ends 3 and 4, so that the bottom surface of the lengths of the strap is in contact with the top surface of the loop 2, when the strap is closed around the loop by its closure system.

(6) Close to the respective ends 3 and 4, two push button actuated switches 11 and 12 are integrated in the loop 2. The buttons emerge from the top surface of the loop 2. The buttons are pressed in by the bottom surfaces of the strap lengths, when the watch is tightened around the loop 2 with a normal force applicable for putting the watch around the wrist. The push button electrical switches 11 and 12 are integrated in the loop 2. The switches can be actuated in one or other of two states, referred to as “connected” and “disconnected”. The switches are configured so that pressing in the buttons by said normal force puts the respective switches in one of the two states. Next, removing the normal force, i.e. removing a watch from the display stand, changes the state of the switches. For this purpose, the push button switches 11 and 12 are provided with springs or equivalent mechanisms configured so that the buttons are released automatically when the watch is removed from the display stand. Electrical conductors (not shown) are integrated in the loop 2 and in the support part 6, 7 and 8, and these conductors connect the switches to a detection apparatus.

(7) This apparatus is situated inside the pedestal 10 on which the loop 2 is mounted. In the embodiment depicted in the Figures, the electrical conductors integrated in the loop 2 and in the support part 6, 7 and 8 are connected to a connector 15 of the mini jack plug type, which can be plugged into a socket 16 provided in the detection apparatus. This makes it possible to separate the loop 2 from the pedestal 10 and to reconnect it. According to an alternative, the conductors integrated in the loop 2 are connected to the detection apparatus by a non-detachable connection.

(8) The detection apparatus can take any form known in the prior art, such as an electronic circuit and one or more batteries 17 that supply the circuit, the circuit being connected to the socket 16 to which the mini jack plug 15 can be connected. The detection apparatus is configured to detect the state of the switches and to generate a signal that is related to the state detected. In addition, the apparatus is configured to transmit this signal to an alert system outside the apparatus, and connected thereto by a wire or wireless connection.

(9) The circuit, that connects the switches to the detection apparatus, can be implemented in several ways. For example, the two switches may be coupled in series, forming part of a simple circuit supplied by the battery of the detection apparatus, so that the disconnection of at least one switch, i.e. the release of at least one push button switch 11 or 12, cuts the supply or generates an interruption. This interruption will be detected by the detection apparatus, which transmits a signal representing the state of the switches in the event of interruption of the supply. The alert system receives this signal and can trigger an alert. Other more complex configurations can be envisaged by a person skilled in the art without departing from the scope of the accompanying claims.

(10) The embodiment depicted in the Figures, which is provided with the detachable connection between the loop 2 and the pedestal 10 is preferably configured so that the disconnection of said connection, i.e. the removal of the mini jack plug 15, is detected by the detection apparatus and transmitted in the form of a specific signal that is recognisable to the alert system.

(11) Other technical variants come within the scope of the claims. The loop 2 may be provided with a single push button switch instead of two, or more than two push button switches could be provided. Other devices may also be envisaged as alternatives to the push buttons switches (optical sensors, etc.). The loop 2 could be a closed loop instead of open. The open loop 2 as described above and depicted in the Figures may be fabricated from a rigid material, but one that allows elastic deformation of the loop itself when the ends 3 and 4 are brought closer to each other. This makes it possible to increase the contact force between the loop 2 and the strap lengths of a watch clamped on the loop, thus increasing the compression force of the push button switches 11 and 12.

(12) The alert system may comprise a device receiving the signal related to the states of the switches and transmitted by the detection apparatus, such as a computer connected to the display stand by a wire or wireless connection.

(13) According to one embodiment, the detection apparatus inside the pedestal comprises a local-transmission chip, such as a BLE (Bluetooth Low Energy) chip, which is capable of sending a signal that can be received by one or more receiving devices, such as smartphones or tablets situated within a defined area, that is customizable and defined around the chip. BLE technology allows the sending from the chip of a sequence of data referred to as an advertising frame continuously. The consecutive frames can be encoded by means of an identifier, that identifies the product protected by a code and which corresponds to the state of the buttons, and therefore of the switches. The continuous sending of these advertising frames enables the persons responsible to continuously manage the presence of a plurality of watches on a number of display stands. When a watch is removed by an unauthorised person, this change will immediately be represented in the advertising frames and signalled on the smartphones or tablets in the form of an audible alert signal for example. The smartphones are provided with a digital application, that manages the communication with the display stands and will indicate to the user an identifier of the watch, that has been removed, so that the user can then check the display stand in question.