EP1388766A1 - Device and method for testing watertightness of an enclosure such as a watch case - Google Patents

Abstract

Device for checking the sealing of a closed container, such as the casing (2) of a watch (1), comprises a sensor (32) for measuring fluctuations in the concentration of an atmospheric gas within the casing. When the concentration falls below the initial value, an alarm is sounded. An independent claim is made for a method for checking the sealing of a closed container.

Description

The present invention relates to a device for ensuring that a hermetically sealed enclosure such that a box of a timepiece is waterproof vis-à-vis the outside. The present invention also relates to a method for checking the tightness of such an enclosure.

It has already been proposed to put pressure in a watch box higher than atmospheric pressure, so that pressure external higher than the pressure in the box causes water penetration, vapor, gas or dust in the box (Swiss patent N ° 312740). To this end, the box is provided with a valve allowing to inject an inert gas under a pressure from 1.1 to 1.5 atmospheres and a pressure gauge allowing the wearer to shows to know the pressure inside the box.

A pressure gauge is however a complicated, delicate and expensive instrument which, in case of failure of the watch case sealing device, risk of being deteriorated in the same way as the movement, which considerably increases the repair costs.

To remedy these problems, it has been proposed (Swiss Patent No. 544959) to replace the pressure gauge with a device that also makes it possible to check the maintenance overpressure in a watch case, this device comprising a membrane elastically deformable, bistable, separating the box in a gas-tight manner from a enclosure in which there is a different pressure, and means to make visible to the user one or the other of the two stable states of the membrane.

A device of the kind described above has the merit of being relatively simple and fairly robust, and less expensive than a pressure gauge. Such a device has however for the disadvantage of providing information of the all or nothing type comparable to that provided by an indicator light for example. This device does not will pass from its first to its second stable state in which it indicates to the carrier of shows that it has a leak, that when the overpressure the interior of the watch case will have dropped by a predetermined value. So it turns out It may very well be that the watch has leaks, but that the prevailing pressure has not yet reached the threshold value necessary for triggering of the device for checking that the seal is maintained. Movement can therefore deteriorate without the wearer of the watch knowing anything about it. On the other hand, it is necessary to blow the inert gas into the box with a determined pressure higher than the trigger level of the verification device, which requires a appropriate tools that not all watchmakers are likely to have. Finally, the measurements made by such a device can be seriously tainted error due to variations in ambient temperature that affect air pressure confined in the box.

The object of the present invention is to remedy the drawbacks mentioned above as well as to others by proposing a monitoring device sealing, for example a watch case, which allows its wearer to be alerted as soon as it begins to show leaks.

To this end, the present invention relates to a device for monitoring the sealing of a closed enclosure such as a box of a timepiece, characterized in that it comprises a sensor capable of measuring the fluctuations of the concentration of a gas from the atmosphere confined in the enclosure.

Thanks to these characteristics, the present invention provides a device to instantly alert, for example the wearer of a watch, of a defect sealing the case of his watch. Indeed, as soon as the watch presents a leakage, this causes a gas exchange between the surrounding air and the atmosphere in the watch case and decreases concomitant with the concentration of gas from the atmosphere confined in said box, decrease which is detected by the sensor. Quickly warned of leakage of his watch, the wearer can bring it back to his watchmaker who can place it under a vacuum bell to test and repair it if necessary. The risks that the movement of the watch is deteriorated are thus greatly reduced.

According to an additional characteristic of the invention, the gas sensor includes an electronic detection circuit. Such a circuit is reliable, little bulky and consumes less energy when it is only switched on for brief moments at regular time intervals. In addition, it has no movable member, which further increases its reliability.

According to yet another characteristic of the invention, the gas present in the confined atmosphere of the watch case is a neutral and heavy gas with a thermal conductivity different from that of air, such as, for example, carbon. After finding a loss of sealing of the box and repair subsequent, the watch can be very easily reconditioned by a watchmaker Trade. It suffices, in fact, while the watch case is still open, to pour neutral and heavy gas into it, the concentration of which fluctuates are to be watched. So in the case of carbon dioxide which is a gas it is easy to obtain in the form of an aerosol can, no specific tools are necessary. After filling the canister with gas, completely or partially, it suffices to close it tightly without having to worry about the concentration of said gas insofar as the device according to the invention uses relative concentration values and not absolute values.

The use of a neutral gas has other advantages. Because of its neutrality, it can only react with the components of the watch, so that the variations in its concentration in the confined atmosphere of the box are a reflection faithful gas exchanges that occur between this box and the ambient air. Well of course, the neutral gas chosen must be non-toxic and not very widespread in the air, i.e. that its concentration in the box should be higher than its concentration in the air.

Alternatively, the neutral gas can be blown into the box via a valve. This variant is particularly advantageous when you want to breathe in the watch case a neutral gas lighter than air such as helium. Indeed, it would not be possible to fill the box with such a light neutral gas by opening simply this one and filling it with an aerosol can because the gas would escape. On the other hand, the coefficient of thermal conductivity of helium is in a ratio of ten to that of ambient air, which allows a increased detection sensitivity. In addition, a light gas such as helium diffuses more which further enhances the detection sensitivity.

• introduire un gaz avec une concentration de départ dans l'atmosphère confinée de l'enceinte close;
• mesurer la concentration de départ dudit gaz;
• mesurer de façon continue ou intermittente la concentration du gaz, et
• générer une alarme lorsque la concentration de gaz mesurée est différente de la concentration de départ dudit gaz.

The present invention also relates to a method for checking the tightness of a closed enclosure such as a case of a timepiece, this method being characterized in that it comprises the steps consisting in:

• introducing a gas with a starting concentration into the confined atmosphere of the closed enclosure;
• measuring the starting concentration of said gas;
• measure the gas concentration continuously or intermittently, and
• generate an alarm when the measured gas concentration is different from the starting concentration of said gas.

• la figure 1 est une vue en coupe d'une montre-bracelet équipée du dispositif de contrôle d'étanchéité selon l'invention;
• la figure 2 est une vue de la boíte de la montre représentée sur la figure 1 au moment où l'on procède à son remplissage en gaz au moyen d'une bombe aérosol, et
• la figure 3 est une vue d'une montre équipée d'une soupape permettant d'insuffler un gaz dans la boíte de la montre.

Other characteristics and advantages of the present invention will emerge more clearly from the following detailed description of an embodiment of the control device according to the invention, this example being given purely by way of non-limiting illustration only, in conjunction with the attached drawing in which:

• Figure 1 is a sectional view of a wristwatch equipped with the tightness control device according to the invention;
• FIG. 2 is a view of the watch case shown in FIG. 1 at the time when it is filled with gas by means of an aerosol can, and
• Figure 3 is a view of a watch equipped with a valve for blowing a gas into the watch case.

The present invention proceeds from the general inventive idea which consists in measure the fluctuations in the concentration of a gas in the atmosphere confined in a closed enclosure such as a watch case. As soon as a decrease in the gas concentration is detected, an alarm is produced to warn the wearer of shows that it has a leak. Compared to solutions known from the prior art which consist, for the most part, of establishing an overpressure in the watch case and watch for a possible decrease in this overpressure, the main advantage of the present invention is that it does not constitute an all-or-nothing system that only provides information when the parameter to be monitored reaches a trigger threshold value, but on the contrary provide an extremely sensitive system that will warn the wearer of the watch as soon as it begins to show signs of leakage. On the other hand, the system according to the invention measures a relative value and not a value absolute. It is therefore not necessary to fix the initial gas concentration at a determined value, only the value of this initial concentration to be known. Finally, the device according to the invention is of the passive type, so that it does not include no moving parts and is therefore very reliable.

The present invention will be described in conjunction with a timepiece of the wristwatch type. It goes without saying that the invention is not limited to such a watch and that it can be applied identically to the measurement of the loss of any hermetically sealed enclosure.

Figure 1 appended to this patent application is a sectional view a timepiece fitted with the gas detection device according to the invention. Referred to as a whole by the general reference numeral 1, this piece watchmaking conventionally comprises a case 2 provided with a middle part 4 and a bottom 6 which delimits the housing 2 in its lower part. In the example shown in drawing, the back 6 is made in one piece with the middle part 4. It goes without saying, that the present invention applies in the same way to a box which would not be monocoque and which would include a distinct background from the middle. Box 2 can be made, for example, of a plastic material according to well injection techniques known. The present invention is not however limited to the choice of such a material and the housing 2 can be made of any type of material adapted to the needs of the watch industry such as, in particular, steel.

The timepiece 1 also includes a horometric movement 8 mounted in a casing ring 10. This movement 8 is supplied with current by an electric battery 12 which can, if necessary, be recharged after exhaustion or replaced. The battery 12, shown schematically in the drawing, has typically the shape of a pellet. It can be housed in the back 6 of watch 1. The underside of the battery 12 which constitutes one of the poles of the latter is connected electrically to ground of watch 1, for example via a spring contact 13 fixed to the bottom 6 of said watch 1. The other pole of the battery 12 which consists of its upper face is usually connected electrically to the time movement 8.

In its upper part, the housing 2 is delimited by a glass 14 covering means 16 for displaying time information. In the example shown in drawing, these display means 16 consist of a dial 18 above which move an hour hand 20, a minute hand 22 and a hand 24 seconds. These are therefore analog means of displaying the time. He could also be digital display means constituted by a crystal cell liquids.

Finally, the housing 2 has at its upper periphery a notch 26 in which is engaged a bezel 28 which secures the lens 14 on the housing 2. The bezel 28 is fixedly mounted on the housing 2, for example by gluing or welding with ultrasound or by hunting. The glass 14 is sealed against the case 2 through the use of a seal 30 wedged between the glass and the case.

As can be seen in FIG. 1, the timepiece 1 comprises also a sensor 32 housed in the housing 2. This sensor 32 is capable of detecting fluctuations in the concentration of a gas such as, for example, dioxide carbon, from the atmosphere confined in the housing 2. The sensor 32 is preferably electronic type, small dimensions and low consumption energy. An example of such a sensor is that sold by the Swiss company Microsens Products under the reference MTCS 2200.

The operating principle of such a sensor is as follows. Means of electric heating have the role of maintaining a membrane thermally and electrically insulating part of the sensor at a temperature of predetermined setpoint. Depending on fluctuations in the gas concentration neutral of the atmosphere confined in the box, the thermal conductivity of said atmosphere varies, so more or less electrical energy must be supplied to heating means to maintain the membrane at its set temperature. Correspondence tables are used to determine, depending on the electric power supplied, the concentration of the atmosphere in neutral gas used. In the case of carbon dioxide, its thermal conductivity is less than a third to that of air, which makes it possible to detect variations in the concentration of this gas as low as 1%. In another embodiment, the heat flux is measured between the heating membrane and a temperature sensor, separated from each other by the gas whose concentration fluctuations are to be measured.

When commissioning the gas sensor 32, you must first proceed when filling the watch with neutral gas. For this, two solutions are conceivable. The first, which is the simplest, is to open the box 2 of the shows 1 and spray the gas into it. So in the case of carbon dioxide which is a gas which is easy to obtain in the form of an aerosol can 34 (see FIG. 2), no specific tools are required. After filling the box 2 with gas, it just close it tightly. According to a variant, it is also possible to equip watch 1 with a valve 36 (see figure 3) intended to open under the action of an external pressure and comprising a tube 38 on which can be fixed a supply pipe 40 of a pressurized gas.

Once the gas has been introduced into the housing 2, the sensor 32 performs a measurement of the initial concentration of this gas, and then performs subsequent measurements by continuously or intermittently. As soon as the sensor detects a variation in the concentration of neutral gas in the atmosphere confined in the housing, it generates a alarm. Indeed, if the concentration of neutral gas varies, it means that air has penetrated into the case from outside of it. The alarm can be visual and display as a message or symbol on a crystal screen liquids. The sensor can also control the lighting of a warning light or although still the emission of an audible signal. Therefore, the wearer of watch 1 is warned that it has a leak and that it must be returned to the watchmaker at the end of the repair. The carrier being quickly informed, the risks that the movement of the mount is deteriorated is greatly limited.

It goes without saying that the present invention is not limited to the embodiments which have just been described and which various modifications and simple variants can be considered without departing from the scope of the invention. In particular, it can be considered that the gas sensor measures the ambient temperature before measure the desired gas concentration. Indeed, a timepiece is typically designed to operate in a temperature range between -20 ° C and + 70 ° C. It is understood that such temperature differences affect the pressure inside the box. By measuring the ambient temperature beforehand, the sensor can take into account the result of this measurement to correct the measurement of the pressure which he will subsequently carry out.

Claims (12)

Device for checking the tightness of a closed enclosure such as a box (2) of a timepiece (1), characterized in that it comprises a sensor (32) capable of measuring the fluctuations of the concentration of a gas in the atmosphere confined in the enclosure. Device according to claim 1, characterized in that the sensor (32) comprises an electronic gas detection circuit. Device according to any one of claims 1 or 2, characterized in that the gas present in the confined atmosphere of the enclosure is a neutral gas. Device according to claim 3, characterized in that the concentration of the neutral gas in the atmosphere of the enclosure is lower than its concentration in the ambient air. Device according to any one of claims 3 or 4, characterized in that the neutral gas is carbon dioxide or helium. Device according to any one of Claims 1 to 5, characterized in that the enclosure is provided with a valve (36) for blowing the gas into it. Device according to any one of Claims 1 to 6, characterized in that the sensor (32) measures the initial concentration of the gas, then measures this concentration continuously or intermittently and controls the production of an alert signal as soon as 'it detects a fluctuation in the value of the gas concentration. Device according to any one of Claims 1 to 7, characterized in that the sensor (32) comprises electrical heating means, the role of which is to keep the temperature of a thermally and electrically insulating membrane constant. Method for checking the tightness of a closed enclosure such as a box (2) of a timepiece (1), this method being characterized in that it comprises the steps consisting in: introducing a gas with a starting concentration into the confined atmosphere of the closed enclosure; measure the starting gas concentration; measure the gas concentration continuously or intermittently, and generate an alarm when the measured gas concentration is different from the starting concentration of said gas. Method according to claim 9, characterized in that before measuring the concentration of the gas, a measurement of the ambient temperature is carried out. A method according to any one of claims 8 to 10, characterized in that the enclosure is filled with gas by opening it, filling it with gas, then closing it tightly. Method according to any one of claims 8 to 10, characterized in that the enclosure is filled with gas via a valve.

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