Gas Measurement Device Incorporated Into a Watch

Abstract

A device for measuring the concentration of a gas constituting the ambient air includes a wristwatch comprising a watch case (13) containing a watch movement, members indicating the time (1, 3, 9) visible through a glass of the watch case (13). In addition, the wristwatch comprises at least one sensor (11) arranged to measure the concentration of a gas constituting the ambient air. The wristwatch also includes means for actuating an alert when reaching or exceeding a threshold of the gas concentration measured by the sensor (11). The device includes two operating states, a “time” state and an “alarm” state, wherein in the “time” state, the members indicating the time (1, 1′, 3, 9) indicate the time and the sensor (11) permanently measures the gas concentration without displaying it or activating the alert. In case where the sensor (11) detects a concentration of a gas, the device switches to the “alert” state wherein the indicator member (4, 4′, 8, 9, 10) displays this measured value and/or the means for actuating an alert actuate an alert normally without the time being displayed.

Claims

1-26. (canceled)

27: A wristwatch comprising: a casing; a display; a wireless communication device for transmitting information to an external apparatus; a gas sensor configured to measure a concentration of a gas in ambient air; a microprocessor connected to the gas sensor; and wherein the wristwatch is configured to operate in two different states including a time state and an alert state, wherein in the time state, the display is configured to display a time, and the gas sensor is configured to measure the concentration of the gas, and wherein when the concentration of the gas measured by the gas sensor is reached or exceeded, the wristwatch switches to the alert state and generates an alert.

28: The wristwatch according to claim 27, wherein the microprocessor is configured to receive information from the external apparatus to configure the wristwatch.

29: The wristwatch according to claim 27, wherein the gas sensor includes a sensor configured to measure hydrogen sulfide or carbon monoxide.

30: The wristwatch according to claim 27, wherein the alert includes a multi-level alert depending on the concentration of the gas measured by the gas sensor, each alert level corresponding to one or more audible or light beeps or vibrations.

31: The wristwatch according to claim 27, further comprising: a device for generating an alert, the alert including a light alarm, an audible alarm, and/or a vibrating alarm.

32: The wristwatch according to claim 27, wherein the gas sensor is located in the casing and has a surface inside the casing exposed to the ambient air through an opening of the casing.

33: The wristwatch according to claim 27, wherein the alert includes a wirelessly transmitted alert over the wireless communication device.

34: The wristwatch according to claim 27, wherein when the gas sensor no longer detects the specific gas concentration, the device switches back from the alert state to the time state.

35: The wristwatch according to claim 27, further comprising: a geolocation sensor configured to detect a location of the wristwatch.

36: A gas detection system comprising: a wristwatch; and an external apparatus, wherein the wristwatch includes, a casing; a display; a gas sensor configured to measure a concentration of a gas in ambient air; a device for generating an alert; and a wireless communication device for transmitting information to the external apparatus, wherein in a case a threshold of the concentration of the gas measured by the gas sensor is reached or exceeded, the device for generating an alert generates an alert, and wherein the wireless communication device is configured to transmit information that the threshold of the measured gas concentration has been reached or exceeded to the external apparatus.

37: The gas detection system according to claim 36, wherein the external apparatus includes a smartphone or a PC.

38: The gas detection system according to claim 36, wherein the wristwatch further includes a storage unit for storing a history of the measured gas concentration.

39: The gas detection system according to claim 38, wherein the external apparatus is configured to access and display the history of the measured gas concentration.

40: The gas detection system according to claim 36, wherein when the threshold of the gas concentration measured by the gas sensor has been reached or exceeded, the display displays the measured value of the gas concentration.

41: The gas detection system according to claim 36, wherein the wristwatch includes a processing unit for benchmarking the gas sensor upon receiving information from the external apparatus.

42: The gas detection system according to claim 36, wherein the wristwatch includes a processing unit for benchmarking the gas sensor upon receiving information from the external apparatus.

Description

[0030] The characteristics of the invention will appear more clearly upon reading the description of several embodiments given only by way of example, in no way restrictive, with reference to the schematic figures, wherein:

[0031] FIG. 1 shows a front view of a wristwatch including a hand display for indicating the time, a hole, for passing the gas towards the sensor, disposed on an element attached to the watch case, wherein a gas sensor is located in order to measure the gas concentration whose value is given on a dedicated indicating scale by means of one of the hands;

[0032] FIG. 2 shows a front view of a wristwatch including a hand display for displaying the time, a hole, for passing the gas towards the gas sensor, disposed on a horn of the watch case, wherein a gas sensor is located in order to measure the gas concentration whose value is given on a remote display by means of another hand;

[0033] FIG. 3 shows a front view of a wristwatch including a digital display for displaying the time, a hole disposed on the middle band for passing the gas towards the gas sensor in order to measure the gas concentration whose measured gas concentration value is also displayed on the digital display;

[0034] FIG. 4 shows a front view of a wristwatch including a digital display for displaying the time, a hole disposed on the middle band for passing the gas towards the gas sensor in order to measure the gas concentration whose measured gas concentration value is displayed on another digital display;

[0035] FIG. 5 shows a front view of a wristwatch including a hand display for displaying the time, a disposed hole for passing the gas towards the gas sensor in order to measure the gas concentration whose measured gas concentration value is displayed on a digital display;

[0036] FIG. 6 shows a perspective view of a wristwatch including a hand display for displaying the time, a hole disposed on the middle band of the watch case for passing the gas towards the gas sensor in order to measure the gas concentration whose measured gas concentration value is displayed on a digital display;

[0037] FIG. 7 shows the inside of a watch case of which only the housing in which the sensor is disposed, the sensor itself and a microprocessor connected to said sensor are illustrated;

[0038] FIG. 8 shows a front view of a wristwatch according to the present invention;

[0039] FIG. 9 shows a partial exploded view of the wristwatch of FIG. 8;

[0040] FIG. 10 shows a front view of a watch dial of the wristwatch of FIG. 8; and

[0041] FIG. 11 shows a disk of the wristwatch of FIG. 8; and

[0042] FIG. 12 shows a front view of a wristwatch according to the present invention.

[0043] As illustrated in FIGS. 1 to 7, a wristwatch measures the presence of gas in the ambient air using a sensor 11 disposed, behind a hole 2, inside the watch case 13 (FIG. 7) or on an attached element 14 (FIG. 1) or in a horn 19 of the watch case 13 (FIG. 2).

[0044] As illustrated in FIG. 1, the watch, including a watch case 13, and horns 19 for fastening a bracelet, displays the time in a conventional way with hour and minute hands 1, 1′ and a second hand 3. The sensor detects the gas through a hole 2 disposed on an element 14 attached to the watch case 13 at 9 o'clock. The hole 2 is located on an outer face 16 of the attached element 14, the hole 2 not being in contact with the wearer's wrist when the wristwatch is worn. A graduated scale 4 indicates the value of the measured gas concentration. The watch includes two push-buttons 5, 7 and a winding crown 6 for setting the time. When the user presses one of the push-buttons 5, 7, an information is transmitted to a microprocessor 17 (FIG. 7) electrically connected to the sensor 11, instructing it to measure the instantaneous gas concentration. Therefore, the second hand 3 indicates on the graduated scale 4 the instantaneous value of the measured gas concentration. When the user presses for the second time the same push-button 5, 7 the second hand 3 resumes its basic function, namely time indication. When the second push-button 5, 7 is activated, the second hand 3 indicates for example the maximum value of the measured gas concentration during the last four hours. This information is stored in the microprocessor 17 and remains accessible on demand. When the threshold of the measured gas concentration has been reached or exceeded, the gas sensor 11 sends an electrical signal to the microprocessor 17 to trigger alert means.

[0045] The alert means can for example be a light alarm, an audible alarm, a vibrating alarm, or a wirelessly transmitted alert to a remote apparatus, for example a smartphone, or even to a computer network.

[0046] As illustrated in the FIG. 2, the watch displays the time in a conventional way with hour and minute hands 1 and a second hand 3. The sensor detects the gas through a hole 2 disposed on a horn 19 of the watch case 13. A graduated scale 8 at 6 o'clock allows determining the value of the measured gas concentration using a dedicated hand 18. When the threshold of the measured gas concentration has been reached or exceeded, the alert means are triggered.

[0047] As illustrated in FIG. 3, the watch displays the time using a digital display 9. The sensor detects the gas through a hole 2 disposed on the middle band 15 of the watch case 13. The perspective view illustrated in FIG. 6 allows seeing the hole 2 on the middle band 15. The watch includes three push-buttons 5, 60, 7. When the user presses one of the push-buttons 5, 60, 7, the digital display 9 switches on the indication of the value of the measured gas concentration. When the user presses the same push-button 5, 60, 7, the time indication information appears again on the digital display 9. When the threshold of the measured gas concentration has been reached or exceeded, the alert means are triggered and the digital display 9 indicates the measured gas concentration.

[0048] The watch illustrated in FIG. 4, displays the time digitally on a first display 9 and the value of the gas concentration also digitally on another digital display 10. The watch includes also three push-buttons 5, 60, 7 for setting the watch and accessing to the additional functions. In the example illustrated in FIG. 5, the watch displays the time with hour and minute hands 1 and second hand 3 and the gas concentration value is digitally indicated on a digital display 10.

[0049] The watch illustrated in FIG. 6, includes a hand display for indicating the time and a digital display for the functions of measuring the gas concentration. Among these functions, the watch records in an internal memory, for example of the microprocessor 17 (FIG. 7), the history of the concentrations of the durations of exposure, of the gas concentration profile during an exposure, of the maximum concentration during an exposure, the number of exposures, the lifetime of the batteries, the lifetime of the sensor, the lifetime of the consumables.

[0050] The information sent by the sender to the receiver must necessarily pass through a transmission medium. The free space is used as a transmission medium and in this case, it is about wireless transmission. The watch is therefore equipped with a wireless communication system. The wireless communication allows managing the configurations of the watch, transmitting alarms and transferring internal data such as the initialization and the setting of the watch, the setting of the time of the watch, the mode of transmission of the alarms, the transfer of data into memories, the calibration of the gas sensor(s).

[0051] The wireless transmission relies on the propagation of electromagnetic waves or airwaves or even radio waves. The radio concept indicates all communication ensured without hardware support, so the term radiocommunication encompasses all wireless communications. The wireless communication can for example be ensured by a communication satellite, by cellular mobile communications, by Wi-Fi, by Bluetooth or by RFID.

[0052] In the case of telecommunications satellites, a satellite uses electromagnetic waves or airwaves to connect two terrestrial points, namely the point where the wearer of the watch is located and a point where a monitoring station is located. Telecommunications satellites are used for all kinds of communications: sound broadcasting, television, telephony, data transmission, etc.

[0053] In the case of use of Wi-Fi, the watch wearer should be near a router that ensures the connection and operates as a wireless communication hub.

[0054] In the case of use of Bluetooth, a protocol that establishes a short-range secure wireless connection between two devices, the watch wearer should be at a distance even closer to the apparatus to which a signal must be transmitted. Bluetooth is similar to Wi-Fi, but the low power used minimizes the range and the available bit rate is generally low.

[0055] In the case of use of RFID chip, which allows radiofrequency radiation identification of the objects carrying a chip, the wearer of the watch should be near an interrogator. In order to transmit information to the interrogator, an RFID tag is generally provided with an electronic chip associated with an antenna.

[0056] The means for actuating an alert are triggered when the controller indicates that at least one integrated component in the watch case requires an external intervention for the proper functioning of the watch, in particular a benchmarking of the sensor or a change of the power source.

[0057] As illustrated in FIG. 7, the inside of a watch case 13 allows seeing the housing 12, shown schematically, wherein the sensor 11 is disposed, the sensor 11 being connected to the microprocessor 17 containing in particular an internal memory.

[0058] The watch includes a conventional sealing device. For example, in the watch illustrated in FIGS. 8 and 9, the watch case 13 includes a container 25 sandwiched between two seals 36 and a sensor support 27 connecting by means of connectors 35 with the container 25. A glass 20 and a back 31 close the watch case 13, the back 31 including a grid for passing a sound emitted by a buzzer 28, a sheet 30 ensuring the sealing between the back 31 grid and an electrical part of the device including in particular the buzzer 28.

[0059] As illustrated in FIGS. 8 and 9, a wristwatch according to the present invention includes two push-buttons 5, 6 and a led 23. The watch includes a dial 21 whose first dial area that includes a disk 33 displaying different sizes or operating modes and a second dial area which includes a display of the measurement of each size on two scales 4, 4′ by means of hands 1, 1′ which also indicate the current time.

[0060] As illustrated in FIG. 11, the disk 33 includes inscriptions that correspond to sizes to be measured. These inscriptions are written circumferentially on the disk 33 and it is possible, in this example, to distinguish the inscriptions DETECT, TWA, MAX EXP, SENSOR and BATT.

[0061] The inscription DETECT corresponds to the index “0” of the disk 33 in the second hand mode when the watch is in normal operation or to an Alarm mode when the watch has detected the presence of a gas. The inscription TWA (Time Weighted Average) corresponds to the time weighted average of gas exposures. The inscription MAX EXP corresponds to the maximum measured value of the gas concentration. The inscription SENSOR corresponds to the lifetime of the sensor. The inscription BATT corresponds to the lifetime of the battery. Other inscriptions can be disposed on the disk 33 such as for example an inscription ALARM which would correspond to the indication of the presence of a gas.

[0062] FIG. 10 allows a better visualization of the dial 21 and in particular the two dial areas, the first which includes an opening for arranging the disk 33 and the second one which includes the display of the measurement of each size on the two scales 4, 4′ by means of the hands 1, 1′ which also indicate, in the “time” state or mode, the current time. The scales 4, 4′ have an arcuate shape. The two scales 4, 4′ are concentric about a centre that corresponds to the axis about which the hands 1, 1′ turn. The first scale 4, the outermost with respect to the axis of rotation of the hands 1, 1′ indicates the gas concentration, here on a scale of 0 to 100. The scale 4 extends over about 120°, about 30° being intended to indicate the nature of the gas, the remainder being reserved to arrange a graduation or an indication of the values. The second scale 4′, the closest to the axis of rotation of the hands 1, 1′ indicates the lifetime of the sensor or the battery. The lifetime scale 4′ extends over about 120°.

[0063] As illustrated in FIG. 8, the center of rotation of the disk 33 and the axis of rotation of the hands 1, 1′ are aligned in a way that the displayed value represents half of the lifetime. The hour hand 1 indicates the information on the second internal scale 4′ and the minute hand 1′ indicates the information on the first scale 4. The hour hand 1 is wider than the minute hand 1′ of about 10% to 30%, preferably 12%. The minute hand 1′ includes a solid part and a perforated part. The perforated part allows reading the information positioned on the first scale 4. The minute hand 1′ is longer than the hour hand 1 so that the length of the hour hand 1 corresponds approximately to the solid part of the minute hand 1′ so as to always read the information on the first scale 4. Preferably, the hour hand 1 is shorter than the minute hand 1′ of about 20% to 30%, typically 25%.

[0064] The watch as illustrated in FIG. 8 includes a mechanical display based on hands 1, 1′ and a disk 33, the displacement of the hands 1, 1′ and of the disk 33 being linked to each other depending on the modes activated by a user of the watch.

[0065] The watch includes a Sleep mode, an Alarm mode and a Time mode. The Sleep mode allows deactivating the gas sensor 11. In general, the watch is delivered to a user in the Sleep mode and, in this case, the gas sensor 11 is deactivated, the hands 1, 1′ are parked stationary at 9 o'clock and the disk 33 is parked stationary on a SENSOR indication.

[0066] In this example, the watch permanently measures the presence of gas in the ambient air. In case of gas detection, the watch automatically switches to the Alarm mode. In the Alarm mode, the disk 33 indicates DETECT. The minute hand 1′ displays the current gas concentration on the first scale 4 of gas concentration. The hour hand 1 displays the maximum gas concentration reached. When the gas is no longer detected, the watch automatically switches to the Time mode and the current time is displayed.

[0067] In addition to permanently measuring the presence of gas, the watch can display other sizes that should be selected beforehand thanks to the disk 33. For example, it is possible to measure the state of the battery 29, the state of the gas sensor 11, the time weighted average of the gas exposures and the maximum measured value of the gas concentration.

[0068] The wristwatch also includes an adjusting mode, indicated on the disk 33 by the indication Detect during which a setting of the time or a benchmarking of the sensor 11 can be carried out.

[0069] In this setting mode, in order to activate the watch, it is necessary to simultaneously press the two push-buttons 5, 6 for a given time, five seconds for example. The gas sensor 11 is activated and the wristwatch switches to the Time mode.

[0070] In the Time mode, the normal operating mode of the watch, the hands 1, 1′ indicate the current time, the disk 33 rotates at the speed of a second hand, namely one revolution per minute, the index 0 is the text DETECT in a window 34.

[0071] As previously explained, the watch permanently measures the presence of gas in the ambient air. If case of gas detection, the watch automatically switches to the Alarm mode. When the gas is no longer detected, the watch automatically switches to the Time mode. In the Alarm mode, the minute hand 1′ displays the current gas concentration on the scale 4 of gas concentration. The hour hand 1 displays the maximum reached concentration on the scale 4 of gas concentration. In the Alarm mode, a buzzer 28 may emit a sound signal, a vibrator 26 may be triggered at different intervals, and a Led 23 may light up in a fixed manner or by flashing.

[0072] In this example, there are four alarm levels depending on the gas concentration in the air measured by the sensor 11, each alarm level emitting a different sound signal, for example 1 beep per minute for a concentration of 1 ppm (part per million or mg.Math.L-1), 2 beeps per minute for a concentration of 5 ppm, 30 beeps per minute for a concentration of 10 ppm and 60 beeps per minute for a concentration of 15 ppm.

[0073] When the watch is in the Alarm mode, it is still possible to check the time by pressing the push-button 5. the watch indicates the time and returns automatically to the Alarm mode after a given, for example 10 seconds.

[0074] In this example, when the watch has been exposed to a gas, it is possible to consult the two following values: [0075] TWA (Time Weighted Average) is the time weighted average of exposures to the gas. [0076] Maximum exposure, this is the maximum measured value of the gas concentration.

[0077] It is possible to consult the TWA and the Maximum Exposure only when the watch is not exposed to a gas.

[0078] In order to display the value of TWA, from the Time mode, it is necessary to press the push-button 6 for displaying the TWA. The disk 33 indicates TWA. The two hands 1, 1′ are superposed and indicate the TWA on the scale 4 of gas concentration. If the watch has not been exposed to a gas, or if the TWA is less than 1 ppm, the hands 1, 1′ are positioned at 12 o'clock.

[0079] Pressing simultaneously the two push-buttons 5, 6 for a given time, for example 3 seconds, resets the TWA. From the TWA mode, the watch automatically returns to the Time mode after a given time, for example 10 seconds.

[0080] In order to display the maximum value of exposure to a gas, from the TWA mode, the push-button 6 must be pressed. The disk 33 indicates MAX EXP through the window 34. The two hands 1, 1′ are superposed and indicate the maximum exposure on the scale 4 of gas concentration. If the watch has not been exposed to a gas, the hands 1, 1′ are positioned at 12 o'clock.

[0081] Pressing simultaneously the two push-buttons 5, 6 for a given time, for example 3 seconds resets the Maximum Exposure. From the Maximum exposure mode, the watch automatically returns to the Time mode after a given time, for example 10 seconds.

[0082] In the example illustrated in FIGS. 8 and 9, two essential sizes can be measured to know their state of operation, in this case, the sensor 11 and the cell 29.

[0083] Indeed, it is important to know the state of aging of the sensor 11 whose lifetime is generally counted in years and the lifetime of the cell 29 whose lifetime is also counted in years.

[0084] The sensor 11 has a lifetime limited in time. After this period, it must be changed. As illustrated in particular in FIG. 9, the sensor 11 is arranged in a support 27 in the manner of a drawer, by sliding in the support 27 until contacting a connector 35 that allows an electrical connection with an electronic board 22. This electronic board 22 includes in particular the microprocessor 17, and two motors 24, 24′ arranged to drive in particular the hands 1, 1′ and the disk 33.

[0085] The sensor 11 having a limited lifetime, it must therefore be changed. After changing the sensor 11, it is necessary to reset the watch. It is possible to consult the lifetime of the sensor 11 and the lifetime of the cell 29 only when the watch is not exposed to a gas.

[0086] In order to display the lifetime of the sensor 11, in the Time mode, the push-button 5 must be pressed for displaying SENSOR on the disk 33. The two hands 1, 1′ are aligned opposite to each other and the hour hand 1 indicates the aging of the sensor 11 on a second scale 4′. From the SENSOR mode, the watch automatically returns to the Time mode after a given time, for example 10 seconds.

[0087] When the sensor 11 reaches its end-of-life, the watch does no longer display time but the disk 33 indicates SENSOR and the hour hand 1 indicates the lowest point of the second ladder 4′ (FIG. 10).

[0088] In order to display the lifetime of the cell 29, in the SENSOR mode on the disk 33, the push-button 5 must be pressed for displaying BATT (for Battery) on the disk 33. The two hands 1, 1′ are aligned opposite to each other and the hour hand 1 indicates the state of the battery on the second scale 4′.

[0089] From the BATT mode, the watch automatically returns to the Time mode after a given time, for example 10 seconds.

[0090] When the watch receives a shock, it is possible that the disk 33 or the hands 1, 1′ lose their alignment. It is then necessary to calibrate them.

[0091] In order to calibrate the hands 1, 1′ and the disk 33, from the Time mode, the two push-buttons 5, 6 must be pressed simultaneously. A first beep indicates that the watch switches to the Time setting mode.

[0092] While maintaining the pressure on the two push-buttons 5, 6, after a defined time, for example 3 seconds, a second beep indicates that the watch switches to the Calibration mode. The disk 33 indicates DETECT and the hands 1, 1′ are superposed at 12 o'clock. If the disk 33 is not precisely on DETECT or if the hands 1, 1′ are not precisely at 12 o'clock, a calibration is required.

[0093] The push-button 6 must then be pressed to turn the hour hand 1 by one step in the clockwise direction or the push-button 5 must be pressed to turn the hour hand 1 by one step in the counter-clockwise direction until the hour hand 1 is precisely aligned with 12 o'clock. The minute hand 1′ must be calibrated the same way.

[0094] Then, the two push-buttons 5, 6 must be pressed simultaneously in order to calibrate the disk 33. It is necessary to press the push-button 6 in order to turn the disk 33 by one step in the clockwise direction or to press the push-button 5 in order to turn the disk 33 by one step in the counter-clockwise direction until the disk 33 is precisely aligned with the inscription DETECT through the window 34. Pressing simultaneously the two push-buttons 5, 6 completes the calibration.

[0095] Without an action, the watch automatically returns to the Time mode after a given time, for example 30 seconds.

[0096] As explained previously, when the watch is not used for a long time, or for example when it is sent for maintenance, it is possible to put it in the Sleep mode.

[0097] In the sleep mode, the gas sensor 11 is deactivated, the hands 1, 1′ are parked stationary at 9 o'clock and the disk 33 is parked stationary on SENSOR. The time is kept by the watch.

[0098] For the watch to switch to the Sleep mode, from the Time mode, the two push-buttons 5, 6 must be pressed simultaneously. A first beep indicates that the watch switches to the time Setting mode. The disk 33 indicates DETECT.

[0099] Without releasing the two push-buttons 5, 6, after a given time, for example 3 seconds, a second beep indicates that the watch switches to the Calibration mode, the hands 1, 1′ are then superposed at 12 o'clock.

[0100] Still without releasing the two push-buttons 5, 6, after a given time, for example 5 seconds, a third beep indicates that the watch switches to the Sleep mode. The disk 33 indicates SENSOR. The two hands 1, 1′ are then superposed at 9 o'clock

[0101] In another version illustrated in particular in FIG. 12, a wristwatch according to the present invention, includes two push-buttons 5, 6 and a led 23. The watch includes a dial 21 whose first dial area that includes a first hand display 133 displaying different sizes or operating modes by means of a hand 134 and a second dial area that includes a display of the measurement of each size on two scales 4, 4′ by means of hands 1, 1′ which, in the “time” mode also indicate the current time as shown in FIG. 12. Unlike the example of FIG. 8 described previously, the dial 21 and the hand display 133 are one. Thus, the hand 134 rotates at the speed of a second hand in the “Time” mode, namely a revolution per minute. At the user's request, for example for measurements of lifetime of the battery or the sensor, or automatically, for example at the detection of a gas, the hand 134 points to the corresponding mode/state on the first hand display 134.

[0102] Therefore, the watch of the present invention allows detecting a gas in an area. However, when the alert means are triggered, it is possible that the wearer of the watch can no longer move because he would for example have fainted. Therefore, the watch includes not only wireless communications means, but also location means. Indeed, it is very important for people who have received an alert to be able to locate the wearer of the watch. The watch can therefore include a pressure sensor 40 through which the watch would be able to know its altitude above sea level with a very high level of accuracy. Thus, the wearer of the watch equipped with the pressure sensor 40 can be found accurately, for example the floor he is located in if he is in a multi-storey building.

[0103] In another version of the watch, a simple geolocation sensor can be enough to find the area where the wearer of the watch is without defining the floor if he is in a multi-storey building.

[0104] The watch of the present invention is a personal protective equipment that can detect one or more gases allowing to secure an area where the user thereof is located.