• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a diving mask (10) comprising a frame (12) provided with a visor (18); a flexible skirt (40) having a partition (46) defining an upper chamber (50) for viewing a lower chamber (52) for breathing, the partition being arranged to bear above the nose of the the user's mouth and nose are in the lower chamber, while the user's eyes are in the upper chamber, a breathing tube (20) having a proximal end (20a) for connecting the breathing tube to the frame, the breathing tube having at least one channel (21) fluidly connected to the lower chamber. The diving mask further comprises a telecommunication device (500) which is mounted at least in part to the breathing tube (20).
    公开号:FR3035374A1
    申请号:FR1553577
    申请日:2015-04-21
    公开日:2016-10-28
    发明作者:Stephane Armani;Antoine Ravise;Olivia Meillassoux;Gregoire Hembert
    申请人:Decathlon SA;
    IPC主号:
    专利说明:

    [0001] BACKGROUND OF THE INVENTION The present invention relates to the field of diving masks, and in particular the masks used for underwater hiking, also called PMT (Palmes-Masque-Tuba), in English "snorkeling". This underwater activity allows you to observe the seabed while swimming on the surface of the water. The underwater hiker must be able to hold the head underwater while breathing.
    [0002] Generally, the underwater hiker is equipped with a mask for vision, and a snorkel for breathing. The tuba consists of a tube whose lower end is provided with a mouth portion which is housed in the mouth of the user, and an upper end for both the admission of fresh air and Exhaled air exhaust.
    [0003] It is known that such a material has many disadvantages. First of all, breathing by mouth is not natural, some people have difficulty breathing orally with a snorkel. Another disadvantage is that it is not possible to talk underwater when you have a snorkel in your mouth.
    [0004] Also, the use of this mask-snorkel device is uncomfortable. To remedy this drawback, document FR 2 720 050 proposes a diving mask for breathing through the nose and mouth. Such a diving mask comprises: a frame provided with a visor; a flexible skirt having a partition defining an upper chamber for the vision of a lower chamber for breathing, the partition being arranged to bear above the nose of the user so that the mouth and nose of the in the lower chamber, while the user's eyes are in the upper chamber, a breathing tube having a proximal end for the connection of the breathing tube to the frame, and a distal end opposite the end proximal, the breathing tube having at least one channel fluidly connected with the lower chamber.
    [0005] Thanks to this mask, the user, who has the free mouth, has the opportunity to speak. Document FR 2 720 050 further provides that the lower part of the mask visor has a slightly finer honeycomb wall in order to fulfill the function of a membrane and to allow the passage of sounds in the body. 'water. Such an arrangement, however, does not allow to be able to communicate with other underwater hikers distant several meters, or with a person remained on the shore, while having the head under water. OBJECT AND SUMMARY OF THE INVENTION An object of the present invention is to provide a diving mask of the aforementioned type, for communicating comfortably with other remote underwater hikers. The invention achieves its object by the fact that the mask further comprises a telecommunication device which is mounted at least in part to the breathing tube.
    [0006] By breathing tube is meant, but not exclusively, a tuba having an open distal end. The breathing tube may also be a tube connected to a source of compressed air. The breathing tube preferably extends from an upper part of the frame. However, in a variant, said breathing tube extends from a lower part of the frame or the visor. According to another variant, the diving mask according to the invention comprises several breathing tubes. By telecommunication device is meant an electronic device which makes it possible to transmit and / or receive a signal, such as a radio signal or ultrasound. Advantageously, the telecommunication device according to the invention uses a wireless communication technology. Preferably, the telecommunication device uses "Bluetooth®" technology, which is also known, particularly in the field of computer science. The inventors have found that this technology allows underwater hikers to communicate with each other while being several tens of meters away. According to one variant, this is an ultrasound technology that makes it possible to communicate underwater. According to another variant, the telecommunication device implements both the "Bluetooth®" technology 3035374 3 and the ultrasound technology, and this in order to appreciably improve the listening quality of the mask when the user is completely immersed. Even more preferably, the telecommunication device is arranged to allow communication with several users at the same time. An advantage of the invention is that underwater hikers, provided with masks according to the invention, can communicate with each other remotely, which has the effect of creating moments of pleasure and sharing during the webbed hike.
    [0007] Another advantage of the invention is that it makes it possible to practice underwater hiking with a child in a secure manner, the child remaining in permanent communication with the adult, regardless of its location in the water. The invention also finds an advantageous application in the coaching of underwater hikers, the instructor can easily give instructions to a group of hikers. Finally, the hiker equipped with the diving mask according to the invention can also keep in touch and communicate with a person who has remained on the shore or on a boat.
    [0008] According to the invention, the telecommunication device is mounted at least in part to the breathing tube. By "mounted" is meant that the telecommunication device is fixed at least partly to the breathing tube, detachably or not. This includes, in particular, the nonlimiting case in which the telecommunication device is housed in the breathing tube during the manufacture of said tube. This includes in particular the nonlimiting case in which a section of the telecommunication device belongs to the breathing tube, while another section of the telecommunication device belongs to the frame or the visor of the mask.
    [0009] This arrangement is advantageous because it avoids cluttering the area of the mask located in front of the mouth of the user. Yet another advantage is that the telecommunication device is disposed near the surface of the water, which facilitates the transmission and reception of the radio signal.
    [0010] Another advantage of the invention is that the telecommunication device picks up the sounds emitted by the user through the breathing tube, whereupon it is not necessary to place a microphone near the mouth of the user. Advantageously, at least a portion, the first portion, of the telecommunication device is disposed at the proximal end of the breathing tube. By proximal end is meant that of the two ends of the breathing tube which is closest to the frame of the mask. One advantage of this arrangement is to be able to place certain electronic components closer to the user, so that the center of gravity of the mask is not offset to the distal end of the breathing tube. Another advantage is to be able to place some components, such as a microphone, closer to the user. According to an exemplary embodiment, the telecommunication device 15 is housed in a housing which is mounted with the breathing tube, for example by clipping, or any other detachable fixing means. Preferably, the first part comprises a microphone and / or a loudspeaker. Because of the proximal arrangement of the microphone, the microphone more easily picks up sound waves that come from the mouth of the user and move in the breathing tube. To improve the quality of the sound information picked up by the microphone, the first part includes a microphone that opens into the channel.
    [0011] In addition, a proximal arrangement of the loudspeaker makes it possible to ensure listening comfort. Advantageously, at least a part, the second part, of the telecommunication device is disposed at the distal end of the breathing tube.
    [0012] By distal end is meant the end of the breathing tube which is opposite to the proximal end. It is therefore the end of the breathing tube which is distant from the frame and which is generally emerged when the breathing tube is a tuba. Preferably, the second part comprises an antenna.
    [0013] As the distal end of the breathing tube is most often emerged, so is the antenna, which promotes the transmission and reception of radio signals. Preferably, but not exclusively, the second part 5 further comprises transmitting and / or receiving modules for transmitting and / or receiving the radio signals. Advantageously, at least a part, the third part, of the telecommunication device is mounted to the frame. The third part can also be mounted to the visor.
    [0014] According to a preferred embodiment, the third part is integrated in the frame or the visor, and is electrically connected to the first part and / or the second part of the telecommunication device. Still preferably, when the third portion is present, the breathing tube forms a single piece with the frame or the visor.
    [0015] Preferably, the third part comprises at least one control button of the telecommunication device. The button can be an on / off button, or a button for adjusting the sound volume. The third part preferably includes several buttons, and control members associated with said buttons for controlling the telecommunication device. In an exemplary embodiment, the third part comprises at least one loudspeaker that can be integrated into the frame or the visor. However, preferably, the loudspeaker is connected to the frame by a link arm, and this in order to place the speaker closer to one of the ears of the user. Alternatively, there is provided a second speaker, preferably connected to the frame by another link arm so that the second speaker is disposed near the other ear of the user. According to another embodiment, the telecommunication device comprises at least one speaker remote from the body of the breathing tube so as to be placed close to at least one of the ears of the user. According to another variant, the telecommunication device comprises a - preferably two - remote speaker consisting of an in-ear earpiece connected to the breathing tube by a flexible cable 3035374 6 which is preferably, but not exclusively, detachable breathing tube. According to a first embodiment of the invention, the breathing tube forms a single piece with the frame. In this first embodiment, the breathing tube is not detachable from the frame or visor. If necessary, it makes it easy to pass cables to connect the first or second part of the telecommunications device mounted to the breathing tube with the third part of the telecommunications device mounted to the frame or the visor.
    [0016] In this first embodiment, the breathing tube preferably extends, but not exclusively, from an upper part of the frame, and the telecommunication device comprises an antenna disposed in the lower part of the frame. Still preferably, this antenna disposed in the lower part of the frame is an ultrasonic antenna 15 configured to transmit and / or receive ultrasound. As the lower part of the frame is most often immersed, the ultrasonic antenna is also immersed, which ensures the emission and reception of ultrasound by the telecommunication device. According to a second embodiment of the invention, the breathing tube is detachable from the frame, and wherein the breathing tube comprises the telecommunication device. In this second embodiment, the entire telecommunication device is preferentially integrated in the breathing tube.
    [0017] An interest is to reduce the bulk of the mask when not in use. Another advantage is to be able to easily change the telecommunication device, for example in case of failure or during a technological change, without having to change the mask. Yet another interest is to be able to change mask size while keeping its breathing tube equipped with the telecommunication device. Preferably, the antenna is disposed at the distal end of the breathing tube, and according to a third embodiment of the invention, said dive mask further comprises a removable connector arranged to be mounted to the breathing tube and to the frame, so that the removable connector, when mounted to the breathing tube and the frame, forms a fluid connection at least between the lower chamber and the channel of the breathing tube, the removable connector being detachable from the frame and the breathing tube, and wherein the removable connector comprises the telecommunication device. This removable connection thus constitutes an intermediate piece that fits between the frame of the mask and the breathing tube. It is understood that when the detachable connector is mounted to the breathing tube, the telecommunication device is also mounted to the breathing tube according to the invention. The removable connection ensures the passage of air between at least the lower chamber and the breathing tube. Advantageously, the telecommunication device comprises a loudspeaker housed in the removable connection.
    [0018] However, according to a preferred variant, the telecommunication device comprises at least one remote loudspeaker which is arranged to be arranged facing one of the user's ears. An interest is to improve the quality of listening by placing the speaker as close to the ear of the user. To improve loudspeaker maintenance, the frame includes a fastener for holding the remote speaker. According to another variant, the removable connection comprises a connecting arm carrying the remote speaker, the connecting arm extending along a lateral side of the diving mask. Preferably, the connecting arm 25 has the same curvature as the lateral side of the mask and borders the frame so as not to oppose hydrodynamic resistance. According to another variant, the telecommunication device comprises a - preferably two - remote speaker consisting of an ear-canal earphone connected to the removable connector by a flexible cable 30 which is preferably, but not exclusively, detachable from the removable connector . Advantageously, the telecommunication device comprises an antenna which is disposed in a junction element configured to extend along the breathing tube, said junction member having an end arranged to be attached to the distal end of the tube. breathing.
    [0019] The connecting element comprises an electrical connection wire connecting the antenna to the other electronic components of the telecommunication device arranged in the removable connection. Advantageously, the breathing tube comprises an attachment member, while the frame comprises a fixing device arranged to be releasably fixed to the fixing member of the breathing tube so as to form a tight connection between the tube. and the frame, and wherein the removable connector has a first attachment portion arranged to be releasably attached to the breathing tube attachment member, and a second attachment portion arranged to be securable to separable with the attachment device of the frame, so as to form a first sealed connection between the breathing tube and the removable connector, and a second sealed connection between the frame and the removable connector. It is therefore understood that the breathing tube can be connected directly to the frame of the diving mask when the removable connector is detached, whereby the diving mask according to the invention can also be used without the telecommunication device.
    [0020] According to a preferred embodiment of the diving mask, the partition has at least one passage for allowing an inspired air flow directed from the upper chamber to the lower chamber during a phase of inspiration of the user, and wherein the breathing tube has an inspired air intake channel and at least a first exhaled air exhaust channel, so that when said breathing tube is fluidly connected with the frame, the air channel is Inspired air inlet is fluidly connected with the upper chamber, while the first exhaled air outlet channel is fluidly connected with the lower chamber.
    [0021] Such an arrangement makes it possible to evacuate moisture from the upper chamber, whereby the appearance of condensation on the inside wall of the visor is advantageously avoided. According to a variant of the third embodiment, the removable coupling comprises an inspired air intake duct and at least one exhaled air exhaust duct, and, when the removable connector, the breathing tube and the frame are mounted together, the 3035374 9 intake air duct inspired the removable connector fluidly connects the intake air channel inspired breathing tube to the upper chamber, while the first air exhaust duct Expired from the removable connector fluidly connects the lower chamber to the first exhaled air outlet channel. The invention furthermore relates to a detachable coupling of a diving mask according to the invention, said coupling comprising at least one duct, in which, when the removable coupling is attached to the diving mask, the duct fluidically connects the tube of breathing in the lower chamber, and the removable connector comprises a telecommunication device. The removable coupling is advantageously that of the third embodiment of the diving mask. Finally, the invention relates to a removable breathing tube of a diving mask according to the second embodiment of the invention, the breathing tube comprising a fixing part for its removable attachment to the frame of the mask, and a device telecommunication. The telecommunication device of the removable connection and the removable breathing tube has the technical characteristics defined above.
    [0022] BRIEF DESCRIPTION OF THE DRAWINGS The invention will be better understood on reading the following description of embodiments of the invention given as non-limiting examples, with reference to the accompanying drawings, in which: FIG. 1 is a perspective view of a diving mask according to the first embodiment of the invention, wherein the breathing tube is a snorkel which extends from the lower part of the frame; FIGS. 2A and 2B illustrate a variant of the mask of FIG. 1, the tuba extending from the upper part of the frame; FIG. 3 shows a variant of the mask of FIG. 2A, in which the loudspeaker and control buttons are offset on a lateral edge of the mask; FIGS. 4A and 4B illustrate a variant of the first embodiment in which the mask comprises an ultrasonic antenna arranged in the lower part of the frame; FIG. 5 illustrates a diving mask according to a second embodiment of the invention; FIGS. 6A to 6C illustrate a breathing tube according to the invention integrating a telecommunication device for the diving mask of FIG. 5; Figure 7 is a variant of the removable breathing tube of Figure 6B; FIG. 8 is a perspective view of a diving mask according to the third embodiment of the invention; FIG. 9 is an exploded view of the diving mask of FIG. 8; Figure 10 is a back view of the flexible skirt of the mask of Figure 8; - Figure 11 is a top view of the flexible skirt of Figure 10; Figure 12 is a front view of the flexible skirt of Figure 11 assembled with the frame; FIG. 13 represents the breathing tube of the mask of FIG. 8, seen from its lower end; - Figure 14 is a top view of the flexible skirt assembled with the frame; Figure 15 is a detail view of the connection of the top sleeve of the flexible skirt of Figure 11 with the top fitting of the frame; FIG. 16 is a rear view of the mask of FIG. 8, without the fastening strap; FIGS. 17A and 17B are detailed views of the connection of the first sleeve of the flexible skirt with the first lateral connection of the frame; FIG. 18 is an exploded view of the upper part of the breathing tube of the mask of FIG. 8; Figure 19 illustrates the air inlet circuit in the breathing tube; FIG. 20 shows the situation in which the float closes the inlet of the breathing tube when the latter is immersed in the water; Figure 21 is a back view of the mask of Figure 8 with the strap fastener; FIGS. 22A and 22B illustrate the telecommunication device and the removable coupling of the diving mask of FIG. 8; FIG. 23 illustrates a variant of the removable connector of FIG. 8; - Figures 24A and 24B illustrate another variant of the removable connector of Figure 8; and - Figures 25A and 25B illustrate a variant of the removable connector of Figure 24A.
    [0023] DETAILED DESCRIPTION OF THE INVENTION In a preliminary manner, it is specified that, by visor, we mean the faceshield through which the user can see the objects outside the mask. By frame means the peripheral part of the diving mask which carries the aforementioned facial screen, the flexible skirt being preferentially fixed to the frame. According to the invention, the frame can form a single piece with the visor, in which case the frame is constituted by the peripheral portion of the visor. In the latter case, the flexible skirt is preferably fixed to the frame constituted by the peripheral portion of the visor. The frame may also be in several parts, for example a first part forming a single piece with the visor and a second part fixed around the first part. In the latter case, the flexible skirt can be attached to the first part of the frame.
    [0024] In Figure 1 there is illustrated an example of a diving mask 10 according to a first embodiment of the invention. This dive mask 10 comprises a frame 12 provided with a visor 18, and a flexible skirt 40 integral with the frame. The flexible skirt has a partition 46 which defines an upper chamber 50 for viewing a lower chamber 52 for breathing. The partition 46 is arranged to bear above the user's nose so that the user's mouth and nose are in the lower chamber 52, while the eyes of the user are in the upper chamber 50. The dive mask 10 further comprises a breathing tube 20 which includes a proximal end 20a for the connection 5 of the breathing tube 20 to the frame 12, and a distal end 20b which is opposed to the proximal end 20a. In the example of FIG. 1, the proximal end 20a of the breathing tube 20 extends from a lower portion 10a of the diving mask 10. The proximal end 20a of the breathing tube 20, in this example, crosses the lower part of the frame to open into the lower chamber 52. Without departing from the scope of the present invention, the proximal end of the breathing tube could pass through the lower part of the visor which is opposite the lower chamber 52. As can be seen in FIG. 1, the breathing tube 20 extends from its proximal end along one of the lateral edges of the frame 12 to an upper portion 14 of the frame, and then extends in one direction. opposed to that of the lower chamber 52. The distal end 20b of the breathing tube 20 is provided with orifices to allow air to enter the breathing tube. The breathing tube 20 comprises at least one channel 21 which is fluidly connected with the lower chamber 52 and with the orifices 23 of the distal end 20b of the breathing tube 20. In this example, the breathing tube is a tuba.
    [0025] According to the invention, the diving mask 10 further comprises a telecommunication device 500 which is mounted to the breathing tube 20. The telecommunication device 500 has a first portion 502 which is disposed at the proximal end 20a of the tube In this example, the first portion 502 includes a microphone 504 that opens into the channel 21. Without departing from the scope of the present invention, the microphone could also open into the lower chamber 52. The second portion 506 of the device The second portion 506 includes an antenna 517 at the distal end 20b of the breathing tube 20. In this example, the second portion 506 includes an antenna 517.
    [0026] The telecommunication device 500 further comprises a third frame-mounted portion 510 which includes a control button 512 for controlling the telecommunication device. The third portion 510 further comprises a control member 5 integrated in the frame 12. For sound reproduction, the third part of the telecommunication device further comprises a speaker 514 which is integrated in the frame. Without departing from the scope of the present invention, the loudspeaker may be disposed at another location, and for example be offset from the frame while being connected by a connecting arm. In the example of FIG. 1, it can be seen that the breathing tube 20 forms a single piece with the frame 12, the electrical connecting members, in particular the wires, which connect the first, second and third parts of the device. In FIGS. 2A and 2B, a dive mask 10 ', which is a variant of the dive mask 10 according to the first embodiment, is illustrated in FIG. of realization. The diving mask 10 'differs from that of FIG. 1 in that the breathing tube 20' is connected to an upper part 12a 'of the frame 12' of the diving mask 10 '. Again, the breathing tube 20 'forms a single piece with the frame 12'. The diving mask 10 'also includes a telecommunication device 500' which has a first portion 502 'disposed at the proximal end 20a' of the breathing tube 20 '. In this example, the first portion 502 'includes a microphone 504', control buttons 512 'are disposed on an upper face of the breathing tube 20', as seen in Figure 2A.
    [0027] The first portion 502 'further includes a speaker 514' which is disposed on a lower face of the breathing tube 20 ', at a proximal end. The telecommunication device 500 'further includes a second portion 506' disposed at the distal end 20b 'of the breathing tube 20' which includes an antenna 517 '.
    [0028] In FIG. 3, a variant 10 "of the diving mask according to the first embodiment is illustrated, the mask 10" illustrated in FIG. 3 differs from the mask 10 'of FIGS. 2A and 2B in that the top The first part 502 "has the microphone 504" while the distal end 20b "of the breathing tube 20" has the second part. 506 "of the telecommunication device, which comprises the antenna 517. In FIGS. 4A and 4B, there is illustrated a diving mask 10m according to a variant of the first embodiment of the invention. 10 "dive also includes a breathing tube 20" having a proximal end 20a "to which is disposed the first portion 502m of the telecommunication device 500m, the first portion 502" of the telecommunication device 15 comprises a microphone 504m. Figures 4A and 4B differ essentially from that of Figure 3 in that the antenna 517 "is not disposed at the distal end of the breathing tube but in the lower part of the frame 12 '". In the variant of FIGS. 4A and 4B, the antenna 517 "is an ultrasonic antenna configured to transmit and receive ultrasound The antenna 517m is furthermore connected to an electronic device arranged in the mask which is adapted to transform the signal The electronic device is preferably adapted to transform an ultrasonic signal received by the antenna 517 "into an audio signal which is then transmitted to the loudspeaker of the diving mask. In this example, the ultrasonic antenna 517m is disposed in a housing 509m which protrudes downwardly from the lower end of the frame 12m. With the aid of FIGS. 5 to 7, a diving mask 110 according to a second embodiment of the invention and the removable breathing tube according to the invention will now be described. The dive mask 110 illustrated in FIG. 5 comprises a frame 112 provided with a visor 118, a flexible skirt 140 fastened to the frame, the flexible skirt comprising a partition 146 delimiting an upper chamber 150 for viewing a lower chamber 152 for breathing, the partition being arranged to bear above the user's nose so that the mouth and nose of the user are in the lower chamber, while the user's eyes are in the superior room. The dive mask 110 further includes a breathing tube 120 which has a proximal end 120a for connecting the breathing tube to the frame at a distal end 120b opposite the proximal end. The breathing tube 120 comprises at least one channel 121, illustrated in FIG. 6A and fluidly connected with the lower chamber 152. In the example of FIG. 5, the breathing tube 120 extends from the upper portion 112a of the 112. However, without departing from the scope of the present invention, the breathing tube could extend from the lower part 112b of the frame 112. In this example, the breathing tube 120 is a tuba whose distal end 120b comprises Openings 123 to allow exchanges of air with the atmosphere. In the second embodiment, the breathing tube 120 is detachable from the frame 112. In addition, the telecommunication device 1500 is disposed in the breathing tube 120. With reference to FIGS. 6A to 6C, a first embodiment will be described. example of the removable tube 120 for the diving mask according to the second embodiment. In Figures 6A to 6C, there is illustrated an embodiment of the removable breathing tube 120 according to the invention. This removable breathing tube has a proximal end 120a for the connection of the breathing tube 120 to the frame 112 of the dive mask of FIG. 5 and a distal end 120b opposite to the proximal end. The distal end 120b includes the air inlet E which consists of orifices 123. The diving mask 110 further comprises a telecommunication device 1500 which is mounted to the breathing tube 120. More precisely, in this second embodiment, the telecommunication device 1500 is integrated with the removable breathing tube 120. The telecommunication device 1500 has a first portion 1502 disposed at the proximal end 120a of the breathing tube 120, the first portion 1502 having a microphone 1504 and 1514. In this example, the microphone 1504 opens into the channel 121, while the loudspeaker 1514 is arranged to direct the sounds to the user's head when the breathing tube is connected. attached to the diving mask. In this example, the speaker is directed to the same side of the breathing tube as that of the air inlet. The telecommunication device 1500 further includes a second portion 1506 disposed at the distal end 120b of the breathing tube 120. This second portion 1506 includes an antenna 1517. There are also provided control buttons 1512 on the body of the tube. 120. The removable breathing tube 120 further comprises an electronic device comprising a transmitter module and / or a receiver module connected to the antenna 1517, the microphone 1504 and the loudspeaker 1514. The telecommunication device 1500 comprises in in addition to receiver / transmitter modules 1505 and 1507 which are arranged, in this example, in the body of the breathing tube 120.
    [0029] For its removable attachment to the frame 112 of the diving mask 110, the breathing tube has at its proximal end a coupling member 125. In FIG. 7, there is illustrated a removable breathing tube 120 'in which a device is arranged. 1500 ', said breathing tube 120' being intended to be coupled to the diving mask 110 illustrated in FIG. 5. The breathing tube 120 'also has a proximal end 120'a and a distal end 120'b. The telecommunication device also comprises a first part 1502 'which comprises a loudspeaker 1514' and a microphone 1504 '. Control knobs 1512 'are also disposed on the body of the breathing tube. Like that of Figures 6A to 6C, the removable breathing tube 120 'further comprises a coupling member 125' for attachment to the frame of the mask. The breathing tube 120 'of FIG. 7 differs from that of FIGS. 6A to 6C in that the second part 1506' of the telecommunication device includes not only the antenna 1517 ', but also the battery 1513' as well as the modules transceiver 1505 'and 1507', these elements being disposed beyond the air inlet E of the breathing tube. To do this, the breathing tube 120 'has a cover 124' which has an extension forming a housing for sealingly receiving the aforementioned electronic components of the telecommunication device 1500 '. With the aid of FIGS. 8 to 25B, a third embodiment of the diving mask 210 of the invention will now be described, as well as the removable coupling according to the invention. The dive mask 210 illustrated in FIG. 8 comprises a frame 212 of generally oblong shape having an upper portion 212a and a lower portion 212b. The frame 212 is provided with a visor 218. In this example, the frame 212 includes an upper portion 214 forming an upper strapping and a lower portion 216 constituting a lower strapping. The upper portions 214 and lower 216 of the frame are attached to each other to form a strapping surrounding the face of the user.
    [0030] As can be understood from FIG. 8, the frame 212 surrounds the visor 218. This mask further includes a purge valve 217 for the discharge of water that could have entered the mask. The diving mask 210 further includes a breathing tube 220 having a proximal end 220a, in this case its lower end, which includes a fastener 229 adapted to be connected to the upper portion 212a of the frame. In this example, the breathing tube 220 is removable. It can be detached or unclipped from the frame 212, which reduces the size of the mask when the latter is not used.
    [0031] The breathing tube 220, better visible in FIG. 9, further has a distal end 220b which is provided with an air permeable cage 222. As will be described in more detail below, the breathing tube 220 further comprises a cap 224 which cooperates with the cage 222. Referring now to the exploded view of FIG. 9, it is seen that the lower portion 216 frame 212 includes a first member 216 'and a second member 216' which are attached to each other to form the bottom portion, without departing from the scope of the present invention the frame could be single and same room.
    [0032] Furthermore, it can be seen that the breathing tube 220 comprises an elongate body 226 whose lower end 226a is able to engage with an extension 228 of the upper portion 214 of the frame 212 which protrudes. from the upper end 212a of the frame.
    [0033] Furthermore, the breathing tube 220 comprises a float 230 which is movable in the cage 222, the float comprising an upper end 230a provided with a closure device 232. As will be explained in more detail below, the float 230 is arranged such that when the breathing tube 220 is immersed in the water, the float moves so that the closure device 232, in this case a flexible membrane, closes the inlet of the breathing tube. Referring to Figures 10, 11 and 12, it is found that the flexible skirt 240 has a generally oblong shape of substantially the same size as the frame 212 and the visor 218.
    [0034] The flexible skirt has a periphery 242 which has an upper portion which is secured with the lower portion of the frame. The flexible skirt 240 further comprises a peripheral sealing lip 244 which is arranged to bear against the user's face, so as to prevent water from entering between the user's face and the visor. . The flexible skirt 240 further comprises a partition 246 which is arranged to bear above the nose of the user. This partition 246 thus delimits an upper chamber 250 for viewing, a lower chamber 252 for breathing. As can be seen from Fig. 12, which illustrates the frame 212 assembled with the visor 218 and the skirt 240, the mouth and the nose of the user are in the lower chamber 252, while the eyes of the user are in the upper chamber 250. In other words, the upper chamber 250 is delimited by the visor, the eyes of the user, the upper wall 246a of the partition 246, and the portion of the flexible skirt which extends above the partition 246. Moreover, the lower chamber 252 is delimited by the visor 218, the mouth and the nose of the user, the lower part 246b of the partition 246, and by the part of the flexible skirt that extends below the partition 246.
    [0035] In this example, the partition comprises a pair of passages 254 provided with check valves which are arranged to allow an inspired airflow directed only from the upper chamber 250 to the lower chamber 252 when an inspiration phase of the user. In this example, the flexible skirt is made of silicone, and forms a single piece with the partition 246, the sealing lip 244 and the periphery 242. In FIG. 13, the breathing tube 220 has been illustrated, given from its proximal end 220a.
    [0036] It is seen that the breathing tube 220 comprises an inspired air intake channel 260 which extends between the proximal end 220a of the breathing tube and the distal end 220b of the breathing tube. This inspired air intake channel thus extends in the longitudinal direction of the body 226. As will be explained in more detail below, the inspired air intake channel opens into the upper chamber. The breathing tube 220 further comprises two channels 221 fluidly connected with the lower chamber, namely a first expired air exhaust channel 262, which also extends in the longitudinal direction of the body 226 between the proximal end 220a and the distal end 220b of the breathing tube 220. This first expired air exhaust channel 262 communicates with the lower chamber 252. In this example, the breathing tube 220 includes a second air exhaust channel exhaled 264 similar to the first exhaled air intake channel 25. As can be seen in FIG. 13, the inspired air admission channel 260 is separated from the first and second air exhaust ducts 262, 264 by two longitudinal walls 266, 268. As can be seen in FIG. 14 , which shows the frame 212 assembled to the flexible skirt 240 in top view, the extension 228 also includes a central channel 270 arranged to communicate with the inspired air intake channel 260 when the breathing tube is attached to the frame, and two exhalation channels 272, 274 arranged to communicate respectively with the first and second exhaled air exhaust channels 262,264.
    [0037] Referring now to FIG. 15, it will be seen that the frame 212 further includes a top fitting 280 which protrudes from the upper portion 214 of the frame 212. The compliant skirt 240, in turn, a top sleeve 282 which protrudes from an upper portion of the flexible skirt 240 opening into the upper chamber 250. It is found that the top connector 280 engages inside the top sleeve 282 to create a tight connection between these two elements. In Figure 15, the arrow F1 symbolizes the flow of fresh air inspired.
    [0038] It is understood that during an inspiration phase, fresh air enters the breathing tube, flows into the inspired air intake channel, and into the upper chamber 250 through the top sleeve 282. We will now be interested in the expired air circuit.
    [0039] In frame 212, and more particularly in the upper portion 214 of said frame, there is provided a first inner duct 290 for exhaled air, and a second inner duct 292 for exhaled air. However, without departing from the scope of the present invention, the first and second internal conduits 290, 292 may be formed in a peripheral periphery 219 of the visor 218 which borders the inner periphery of the frame 212. According to another variant, the mask may comprise a single internal conduit for exhaled air. Likewise, the breathing tube may also include a single, inspired air intake channel.
    [0040] As can be seen in FIG. 16, these first and second internal ducts are disposed on either side of a longitudinal plane P of the mask. This plane P is here the plane of symmetry of the mask. Insofar as the first and second internal conduits 290, 292 are identical, only the first internal duct 290 will be described. The latter has an upper end 290 which corresponds to the outlet of the channel 272 illustrated in FIG. 14. The first internal duct 290 In addition, the flexible skirt 240 further comprises a first sleeve 2100 projecting from a first side edge 241 of the flexible skirt 240 extending towards the upper portion 212a of the frame 212. The The first sleeve, which forms a single piece with the flexible skirt, has a lower end 2100a opening into the lower chamber 252 and an upper end 2100b opposite the lower end, which is fluidly connected to the lower end. lower end of the first internal conduit. It is understood that the sleeve 5 forms a pipe for exhaled air. The flexible skirt further comprises a second sleeve 2200, identical to the first sleeve 2100, the second sleeve 2200 protrudes from a second lateral edge 243 of the skirt 240, opposite the first lateral edge 241. The second sleeve has a lower end 2200a. opening into the lower chamber 252 and an upper end 2200b opposite the lower end which is fluidly connected with the lower end 292b of the second inner conduit 292. Referring to FIG. 16, it is seen that the first inner conduit 290 extends between the top of the frame and a lower end 214a of the upper portion 214 of the frame. With reference to FIGS. 16, 17A and 1013, it can be seen that the frame 212, and more precisely the lower end of the upper portion 214 of the frame 212, comprises a first lateral connection 2110 which is engaged in the second end 2100b of the first muff. To improve the strength and tightness, the first lateral connection 2110 has ribs 2112 on its outer face 2110a, the ribs 2112 cooperate with the inner face 2101 of the second end of the first sleeve. Referring again to FIG. 16, it can be seen that the second end of the first sleeve is flush with a lateral side 212c of the frame 212. It is thus understood that the exhaled air flows successively through the first sleeve 2100, through the first inner conduit 290 and then through the first expired air exhaust channel 262. This outgoing air flow is illustrated by the arrow F2. The arrow F3 illustrates the other outgoing air circuit that flows via the second sleeve 2200 and the second inner conduit 292. With the help of Figures 18 to 20, we will now describe more particularly the upper portion breathing tube 220.
    [0041] The breathing tube 220 of the mask according to the invention has at its upper end means for regulating the air inlets and outlets in the breathing tube. For this purpose, the breathing tube 220 comprises a plate 2300 which is arranged in a sealed manner between the cover 224 and the upper end 226b of the body 226 of the breathing tube 220.
    [0042] This wafer has a main port 2302 communicating with the inlet E of the breathing tube. In this example, the inlet E of the breathing tube is made through slots 223 formed in the cage 222. The wafer 2300 further comprises an inlet 2304 communicating with the inlet 260a of the emission channel. Inspired air 260. The wafer 2300 further includes a first outlet port 2306 which communicates with the outlet 262a of the first exhaust channel 262. The wafer 2300 further includes a second outlet port 2308 which communicates with the outlet 264a. the second exhaled air exhaust duct. As can be seen from FIG. 18, the sections of the main orifice 2302, the inlet orifice 2304 and the two outlet orifices 2306, 2308 substantially correspond to the cross sections of the duct. intake of inspired air 260 and exhaled air exhaust channels 262, 264. The wafer 2300 further comprises a first non-return valve 2310 disposed opposite the first inlet 2304, to close off said orifice input during an expiry phase. The wafer 2300 25 further comprises a second non-return valve 2312 disposed opposite the first outlet orifice in order to close off said first outlet orifice during an inspiration phase. And, in this example, the wafer 2300 also includes a third check valve 2312 which is arranged to close the second outlet port during an inspiration phase. The breathing tube 220 further comprises a fluid communication chamber 2350 into which the main orifice 2302 opens, the inlet orifice 2304, the first outlet orifice 2306 and the second outlet orifice 2308. The fluidic communication chamber 2350 is formed in the cover 224 which is sealingly attached to the upper end of the body 226.
    [0043] In FIG. 19, the configuration of the breathing tube is illustrated during an inspiration phase. It is understood that the fresh air inspired illustrated by the arrow Fi, enters the cage 222 via the slots 223, then enters the fluidic communication chamber 2350 via the main office 5 2302 and enters the inlet duct. inspired air 260 through the inlet 2304, the first non-return valve 2310 then being open to allow the flow of air to pass. In Figure 20, there is illustrated the case in which the breathing tube is immersed in water. The float 230, under the action of the buoyancy, rises in the cage 222 until the closure device 232 closes the main opening 2302, which has the effect of closing the entrance breathing tube. As illustrated in the example of FIG. 21, the diving mask 210 further comprises an elastic holding strap 2400 15 which extends between the upper portion 214 of the frame and the lower portion 216. The elastic strap 2400 comprises two points connecting 2402,2404 with the upper portion 214 and two connection points 2406, 2408 with the lower portion 216. It is then found that the elastic strap forms an "X".
    [0044] The upper portion 214 of the frame 212 also has two loops 2410, 2412 in which are engaged the ends of the two upper portions of the strap portions 2414, 2416. It can be seen that the ends of these two strap portions 2414, 2416 form The beads 2418, 2420 are wider than the slots 2422, 2424 made in the loops, which has the effect of ensuring the maintenance of the elastic strap 2400 to the frame. According to this first embodiment, the diving mask 210 further comprises a telecommunication device 2500 which is also mounted to the breathing tube 220. As such, the diving mask 210 comprises a removable connector 600 arranged to be mounted at breathing tube and the frame, so that the removable connector 600, when mounted to the breathing tube and the frame, forms a fluid connection between the lower chamber 252 and 262,264 air exhaust channels exhaled from the tube Breathing, and between the upper chamber 250 and the inspired air intake channel 260. As will be explained in more detail below, the detachable connector is detachable from the frame 212 and of the breathing tube 220. According to the third embodiment, the removable connector 600 comprises the telecommunication device 2500.
    [0045] The telecommunication device 2500 comprises, in the example of FIGS. 22A and 22B, a loudspeaker 2514 which is housed in the removable connector 600. The telecommunication device 2500 further comprises a transmitter module 2505 of a radio signal, and a receiver module 2507 of a radio signal. In this example, the radio signal is a signal compliant with the "Bluetooth®" protocol, known elsewhere. The transmitter and receiver modules are therefore configured to transmit or receive radio signals according to this wireless transmission protocol. The speaker 2514 is connected to the receiver module by a wire link not shown here. The telecommunication device includes an antenna 2517 for receiving and transmitting radio signals. This antenna 2517 is connected to the transmitter 2505 and receiver 2507 modules. The telecommunication device 2500 further comprises control buttons 2512 which are arranged in this example on the removable connector. The telecommunication device 2500 further includes a microphone 2504 connected to the transmitter module 2505. The microphone 2504 opens into at least one of the conduits of the removable connector, preferably into the inspired air exhaust duct. When the removable connector 600 is mounted to the frame 212 of the dive mask and the breathing tube 220, the telecommunication device 2500 is de facto mounted to the breathing tube 220. More specifically, the removable connector 600 is interposed between the upper part. 212a of the frame 212 and the breathing tube 220. As seen in Figure 8, the removable connector is located at the proximal end of the breathing tube 20 when these two parts are assembled to one another. With reference to FIG. 22A, the removable connector 600 includes an inspired air intake duct 602, and first and second expired air exhaust ducts 604, 606 which extend on either side of the As mentioned above, without departing from the scope of the present invention, the removable connector 600 may comprise a single conduit when the breathing tube comprises a single channel. When the removable connector 600, the breathing tube 220 and the frame 212 are mounted together, the inspired air intake duct 602 of the removable connector 600 fluidly connects the inspired air intake channel 260 of the breathing tube. 220 to the upper chamber 250, while the first and second expired air exhaust ducts 604,606 of the removable connector 606 fluidly connect the lower chamber 252 to the first and second expired air exhaust ducts 262,264 of the breathing tube 2 20. The removable connector 600 has a first end 600a shaped to cooperate with the proximal end 220a of the breathing tube, and a second end 600b which is shaped to cooperate with the extension 228 of the upper portion of the frame 212. More Specifically, it will be understood from FIG. 14 that, when the detachable connector is attached to the frame 212 and the breathing tube 220, the inspired air intake conduit 602 of the detachable connector is fluidly connected to the central channel. 270 of the extension 228, while the first and second exhaled air exhaust ducts 604,606 are fluidly connected to the exhalation channels 272,274. To secure the detachable coupling 600 to the frame 212 and to the breathing tube 220, the breathing tube 220 comprises a fastener 229, visible in FIG. 9. The frame 12 comprises a fixing device, constituted here by the extension 228 shown in Figure 14, arranged to be releasably coupled to the fixing member 229 of the breathing tube to form a tight connection between the breathing tube and the frame.
    [0046] The removable connector 600 further includes a first attachment portion 608, located at the first end 600a, arranged to be detachably attached to the attachment member 229 of the breathing tube 220. The first attachment portion 608 is shaped to fit into the attachment member 229 of the breathing tube 220.
    [0047] The detachable connector 600 includes a second securing portion 610 arranged to be detachably attachable to the fastener 228 of the frame 212. As can be understood from FIGS. 14 and 24, the fixing device 228 of the frame 212 is shaped to fit inside the second fixing portion 610.
    [0048] This arrangement makes it possible to provide a first sealed connection between the breathing tube 220 and the removable connector 600, and a second sealed connection between the frame and the removable coupling. It will be understood that it is also possible to directly connect the breathing tube 220 to the frame 212 of the mask, as illustrated in FIG. 16, for example when considering not using the telecommunication device. The removable connector 600 comprises a body 611 provided with a housing 612 which receives the speaker 2514, the transmitter module, the receiver module, the microphone and the antenna. The removable connector 15 further comprises a battery and control buttons 512. In Figure 23, there is illustrated a variant of the removable connector 600 'according to the invention. The detachable connector 600 'of FIG. 23 differs from the detachable connector 600 of FIG. 22A in that the speaker 2514' is remote and is connected to the detachable connector 600 'by a connecting arm 614' which is extends laterally with respect to the frame 212. As can be understood from FIG. 23, the remote speaker 2514 'is located opposite the user's ear, which substantially improves the listening quality. . To improve the retention of the link arm 614 'during the underwater ride, the frame 212 includes a fastener 219 to allow attachment of the link arm 614' to the frame 212. This fastener 219, schematized in FIG. 23 , is an extension of the strapping of the mask frame. It is specified here that this remote speaker configuration can also be implemented in the first and second dive mask embodiments described above. 24A and 24B illustrate another variant of the removable coupling 600 "according to the invention The removable coupling 600" illustrated in FIGS. the antenna is not disposed in the housing of the detachable fitting, but at the distal end 220b of the breathing tube 220 when the latter is attached to the detachable connector 600. To do this, the detachable connector comprises an element 616 "which protrudes from the body 611" of the removable connector 600 "so as to extend along the breathing tube 220 when the latter is attached to the removable connector 600". the antenna 2517 at its distal end 617. As can be understood from FIG. 24B, the distal end 617 "of the connecting element 616" is shaped to be fixed to the distal end 220b of the breathing tube, in this example the fixa This is achieved by the fact that the distal end 617 "of the connecting element is made of flexible material and forms a hook whose end cooperates with the slots 223 formed in the cage 222 of the breathing tube 220. in FIG. 24A, the telecommunication device further comprises control buttons 2512 disposed on the body 611 "of the removable coupling. In Figures 25A and 25B, there is illustrated a variant of the removable connector 600 'according to the invention. The removable connector 600 'of FIGS. 25A and 25B differs from that of FIGS. 24A and 24B in that the loudspeaker is offset laterally, as in the variant of FIG. 23.
    权利要求:
    Claims (23)
    [0001]
    REVENDICATIONS1. Diving mask (10, ..., 210) comprising: a frame (12, ... 212) provided with a visor (18, ..., 218); a flexible skirt (40, ... 240) comprising a partition (46, ..., 246) delimiting an upper chamber (50, ..., 250) for the vision of a lower chamber (52, ... , 252) for breathing, the partition being arranged to bear above the nose of the user so that the mouth and the nose of the user are in the lower chamber, while the eyes of the in the upper chamber, a breathing tube (20, ..., 220) having a proximal end (20a, ..., 220a) for connecting the breathing tube to the frame, and a distal end (20b , ..., 220b) opposite the proximal end, the breathing tube having at least one channel (21, ..., 221) fluidly connected with the lower chamber; the diving mask being characterized in that it further comprises a telecommunication device (500, ..., 2500) which is mounted at least in part to the breathing tube (20, ..., 220).
    [0002]
    The diving mask according to claim 1, wherein at least a portion, the first portion (502, ..., 1502), of the telecommunication device is disposed at the proximal end (20a, ..., 220a). breathing tube (20, ..., 220).
    [0003]
    The diving mask according to claim 2, wherein the first portion (502) includes a microphone (514, ..., 1514) and / or a speaker (504, ..., 1504).
    [0004]
    4. Diving mask according to claim 3, wherein the first part comprises a microphone (514, ..., 1514) which opens into the channel.
    [0005]
    The diving mask according to any one of claims 1 to 4, wherein at least a portion, the second portion (506, ... 1506), of the telecommunication device is disposed at the distal end of the breathing tube.
    [0006]
    The diving mask according to claim 5, wherein the second portion comprises an antenna (517, ..., 1517).
    [0007]
    The diving mask according to any one of claims 1 to 6, wherein at least a portion, the third portion (510, .., 510m), of the telecommunication device (500, .., 500 ") is mounted to the frame.
    [0008]
    The diving mask according to claim 7, wherein the third portion comprises a control button (512, .., 512 ") of the telecommunication device.
    [0009]
    9. Diving mask according to claim 7 or 8, wherein the third part comprises at least one loudspeaker (514 ") which is connected to the frame by a connecting arm.
    [0010]
    10. Diving mask according to any one of claims 1 to 9, wherein the breathing tube (20, ..., 20m) forms a single piece with the frame (12, ..., 12m).
    [0011]
    11. Diving mask according to claim 10, wherein the telecommunication device (500m) comprises an antenna (517m) arranged in the lower part (12b ") of the frame.
    [0012]
    The diving mask according to any one of claims 1 to 9, wherein the breathing tube (120, 120 ') is detachable from the frame (112), and wherein the breathing tube (120, 120') comprises the breathing device. telecommunication (1500, 1500 ').
    [0013]
    The diving mask (210) according to any one of claims 1 to 9, wherein said diving mask further comprises a removable connector (600) arranged to be mounted to the breathing tube (220) and to the frame ( 212), so that the removable connector, when mounted to the breathing tube and the frame, forms a fluid connection at least between the lower chamber (252) and the channel of the breathing tube (221), the removable connection being detachable from the frame and the breathing tube, and wherein the removable connector comprises the telecommunication device (2500). 5
    [0014]
    The diving mask according to claim 13, wherein the telecommunication device (2500) comprises a speaker (2514) housed in the removable connector (600). 10
    [0015]
    15. Diving mask according to claim 13, wherein the telecommunication device comprises at least one remote speaker (2514 ') which is arranged to be arranged facing one of the ears of the user. 15
    [0016]
    The diving mask of claim 15, wherein the frame (212) includes a fastener for holding the remote speaker (2514 ').
    [0017]
    The diving mask according to claim 15, wherein the detachable coupling comprises a link arm (614 ') carrying the remote speaker, the link arm extending along a lateral side of the dive mask.
    [0018]
    18. A diving mask as claimed in any one of claims 13 to 17, wherein the telecommunication device (2500) comprises an antenna (2517) which is disposed in a junction element (616 ") configured to extend the along the breathing tube, said connecting member having an end (617 ", 617m) arranged to be attached to the distal end (220b) of the breathing tube. 30
    [0019]
    19. A diving mask according to any one of claims 13 to 18, wherein the breathing tube (210) comprises a fastener (229), while the frame (212) comprises a fastening device (228) arranged to can be releasably attached to the attachment member (229) of the breathing tube so as to form a tight connection between the breathing tube and the frame, and wherein the removable connector (600) has a first portion of a fastener (608) arranged to be releasably secured to the breathing tube attachment member (229) and a second fastening portion (610) arranged to be releasably attachable to the fastener ( 228) of the frame, so as to form a first sealed connection between the breathing tube and the removable coupling, and a second sealing connection between the frame and the removable coupling.
    [0020]
    The diving mask (210) according to any one of claims 1 to 19, wherein the partition (246) has at least one passage (254) for allowing inspired airflow directed from the upper chamber (250). ) to the lower chamber (252) during an inspiration phase of the user, and wherein the breathing tube has an inspired air intake channel (260) and at least a first exhaust channel exhaled air (262), so that when said breathing tube is fluidly connected with the frame, the inspired air intake channel is fluidly connected with the upper chamber, while the first exhaust channel exhaled air is fluidly connected to the lower chamber. 20
    [0021]
    21. Diving mask according to claim 20 and any one of claims 13 to 19, characterized in that the removable connector (600, ..., 600m) comprises an inspired air intake duct (602) and at least a first expired air exhaust duct (604,606), and in that, when the detachable connector, the breathing tube (220) and the frame (212) are mounted together, the intake duct inspired air (602) of the removable connector fluidly connects the inspired air intake duct (260) of the breathing tube to the upper chamber (250), while the first expired air exhaust duct (604,606) detachable coupling fluidly connects the lower chamber to the first expired air exhaust channel (262,264).
    [0022]
    22. Removable coupling (600, ..., 600m) of a diving mask (210) according to any one of claims 13 to 21, characterized in that the removable connector comprises at least one duct, in which, when the detachable connector is attached to the dive mask (210), the conduit fluidly connects the breathing tube (220) to the lower chamber, and in that the detachable connector includes a telecommunication device (500); ).
    [0023]
    23. A detachable breathing tube (120, 120 ') of a dive mask (110) according to claim 12, said dive mask having a frame (112), characterized in that the breathing tube has a fixing portion (121). ) for its removable attachment to the frame of the mask, and a telecommunication device (1500, 1500 '). 10
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    同族专利:
    公开号 | 公开日
    EP3286072A1|2018-02-28|
    FR3035374B1|2017-05-12|
    SG11201708483XA|2017-11-29|
    CN107567413B|2020-10-02|
    CN107567413A|2018-01-09|
    US20180134352A1|2018-05-17|
    CN205891194U|2017-01-18|
    TWI628112B|2018-07-01|
    WO2016170253A1|2016-10-27|
    ITUA20162757A1|2017-10-20|
    DE202016008553U1|2018-06-04|
    EP3919367A1|2021-12-08|
    EP3919367A4|2021-12-08|
    TW201700350A|2017-01-01|
    DE202016008794U1|2019-09-10|
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    法律状态:
    2016-03-22| PLFP| Fee payment|Year of fee payment: 2 |
    2016-10-28| PLSC| Publication of the preliminary search report|Effective date: 20161028 |
    2016-10-28| EXTE| Extension to a french territory|Extension state: PF |
    2017-03-22| PLFP| Fee payment|Year of fee payment: 3 |
    2018-03-22| PLFP| Fee payment|Year of fee payment: 4 |
    2019-04-23| PLFP| Fee payment|Year of fee payment: 5 |
    2020-04-20| PLFP| Fee payment|Year of fee payment: 6 |
    2021-04-21| PLFP| Fee payment|Year of fee payment: 7 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1553577A|FR3035374B1|2015-04-21|2015-04-21|DIVING MASK WITH TELECOMMUNICATION DEVICE|FR1553577A| FR3035374B1|2015-04-21|2015-04-21|DIVING MASK WITH TELECOMMUNICATION DEVICE|
    EP21187779.0A| EP3919367A4|2015-04-21|2016-04-15|Diving mask provided with a telecommunication device|
    DE202016008553.1U| DE202016008553U1|2015-04-21|2016-04-15|Diving mask with a telecommunication device|
    DE202016008794.1U| DE202016008794U1|2015-04-21|2016-04-15|Dive mask with a telecommunications device, telecommunications device for a diving mask and parts for such a diving mask and such a telecommunications device|
    SG11201708483XA| SG11201708483XA|2015-04-21|2016-04-15|Diving mask provided with a telecommunications device|
    CN201680023033.5A| CN107567413B|2015-04-21|2016-04-15|Diving mask adapted with communication device|
    EP16723417.8A| EP3286072A1|2015-04-21|2016-04-15|Diving mask provided with a telecommunications device|
    PCT/FR2016/050890| WO2016170253A1|2015-04-21|2016-04-15|Diving mask provided with a telecommunications device|
    US15/568,002| US20180134352A1|2015-04-21|2016-04-15|Diving mask provided with a telecommunications device|
    ITUA2016A002757A| ITUA20162757A1|2015-04-21|2016-04-20|Diving mask equipped with a telecommunication device|
    TW105112284A| TWI628112B|2015-04-21|2016-04-20|Diving mask fitted with a telecommunications device|
    CN201620341480.2U| CN205891194U|2015-04-21|2016-04-21|Swimming mask|
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