This application claims priority to European Patent Application No. 20179344.5 filed Jun. 10, 2020, the entire contents of which are incorporated herein by reference.
The present invention relates to a sealing device for a watch allowing to seal at high pressures.
Current watch crowns are designed for a certain depth. Beyond this depth, it is difficult to guarantee the sealing of the watch because of the strong pressures exerted on the different parts of the watch and in particular on the crown.
Moreover, the sealing systems on the market do not satisfy diving enthusiasts or professional divers because, as mentioned above, sealing is not guaranteed on the one hand, or when sealing is ensured this is to the detriment of the handling of the crown which cannot be easily operated.
The present invention relates to a sealing device for a watch, preferably of a watch; said sealing device being configured to be inserted into a primary space comprised in a middle part; said sealing device comprising at least one:
Thanks to this arrangement, the sealing device allows to seal the watch, more particularly said primary space between said middle part and said at least one insertion organ, and said secondary space between said at least one drive organ and said at least one insertion organ, for high pressures such as, for example, less than 1500 bars.
According to one embodiment, said at least one first sealing elements set comprises at least one first sealing element and/or at least one first obstruction organ.
According to one embodiment, said at least one first obstruction organ is harder than said at least one first sealing element.
According to one embodiment, said at least one first sealing element is a first sealing gasket.
According to one embodiment, said at least one first obstruction organ is configured to limit all or part of the displacement of said at least one first sealing element in said primary space, preferably to obstruct said displacement of said at least one first sealing element in said primary space.
According to one embodiment, said primary space comprises a first primary volume, wherein said at least one first obstruction organ and said at least one first sealing element are located, and a second primary volume; said at least one first obstruction organ is configured to limit, preferably to obstruct, all or part of the displacement of said at least one first sealing element from said first primary volume to said second primary volume.
Thanks to either one of these preceding arrangements, said primary space becomes sealed for high pressures such as, for example, less than 1500 bars.
According to one embodiment, said at least one drive organ comprises a cavity configured to house said at least one second sealing elements set. According to one embodiment, said cavity is a groove inside said at least one drive organ.
Thanks to either one of these preceding arrangements, said at least one second sealing elements set is housed in said secondary space in said at least one drive organ without hindering the movements of said at least one insertion organ.
According to one embodiment, said at least one second sealing elements set comprises at least one second sealing element and/or at least one second obstruction organ.
According to one embodiment, said at least one second obstruction organ is harder than said at least one second sealing element.
According to one embodiment, said at least one second sealing element is a second sealing gasket.
According to one embodiment, said at least one second obstruction organ is configured to limit all or part of the displacement of said at least one second sealing element in said secondary space, preferably to obstruct said displacement of said at least one second sealing element in said secondary space.
According to one embodiment, said secondary space comprises a first secondary volume, wherein said at least one second obstruction organ and said at least one second sealing element are located, and a second secondary volume; said at least one second obstruction organ is configured to limit, preferably to obstruct, all or part of the displacement of said at least one second sealing element from said first secondary volume to said second secondary volume.
According to one embodiment, said cavity, preferably said groove, is located in said first secondary volume of said at least one drive organ.
Thanks to either one of these preceding arrangements, said secondary space becomes sealed for high pressures such as, for example, less than 1500 bars.
According to one embodiment, said at least one first sealing element and said at least one second element are closer to each other than said at least one first obstruction organ and said at least one second obstruction organ.
Thanks to this arrangement, said at least one first and second sealing element are the first on the water infiltration path.
According to one embodiment, said at least one drive organ being configured to be held in at least one first position, to drive in said at least one second position and to displace or be displaced between at least one first position and at least one second position.
Thanks to this arrangement, said at least one drive organ can be held.
According to one embodiment, said sealing device comprises at least one holding organ configured to hold said at least one drive organ in said at least one first position.
According to one embodiment, said at least one holding organ comprises at least one holding element disposed on said at least one insertion organ and at least one holding part disposed on said at least one drive organ; said at least one holding element being configured to removably cooperate with said at least one holding part.
According to one embodiment, said at least one insertion organ is configured to displace said at least one drive organ when said at least one holding element cooperates with said at least one holding part.
According to one embodiment, said at least one holding element is a tapping or a thread disposed on the inner periphery of said at least one insertion organ and said at least one holding part is a thread or a tapping disposed on the outer periphery of said at least one drive organ.
According to one embodiment, said at least one insertion organ has a hollow cylindrical shape, preferably is a tube, and said at least one drive organ comprises, preferably inside said secondary space, at least one sliding member configured to slide in said hollow cylindrical shape, preferably in said tube.
According to one embodiment, said at least one holding element is opposite said at least one holding part, preferably, said at least one holding element is disposed on an inner periphery of said at least one insertion organ and said at least one holding part is disposed on an outer periphery of said at least one drive organ.
According to one embodiment, said at least one holding element is opposite said at least one holding part, preferably, said at least one holding element is disposed on an inner periphery of said hollow cylindrical shape, preferably of said tube, and said at least one holding part is disposed on an outer periphery of said at least one sliding member.
Thanks to either one of these preceding arrangements, said at least one drive organ can be held in said at least one first position, and displace or be displaced between said at least one first position and said at least one second position.
According to one embodiment, said at least one insertion organ comprises a bearing surface configured to contact said at least one second sealing element with said at least one second obstruction organ when said at least one drive organ is held in said at least one first position.
Thanks to this arrangement, said at least one second sealing element can be contacted with said at least one second obstruction organ when said at least one drive organ is held in said at least one first position.
According to one embodiment, said sealing device comprises a return organ configured to seal said secondary space between said at least one drive organ and said at least one insertion organ and/or to compensate for a clearance of said at least one holding organ.
Thanks to this arrangement, said return organ can compensate for said clearance induced by the construction tolerances of said at least one holding organ and thus seal said secondary space between said at least one drive organ and said at least one insertion organ.
According to one embodiment, said at least one insertion organ comprises an abutment organ configured to abut against the middle part and/or against said at least one drive organ.
Thanks to this arrangement, said abutment organ allows to limit the insertion of said at least one insertion organ into said primary space and/or the displacement of said at least one drive organ when said at least one drive organ is in said second position.
According to one embodiment, said at least one insertion organ comprises a support organ configured to support said at least one first sealing elements set.
Thanks to this arrangement, said support organ allows to limit the displacement of said at least one first sealing elements set during high pressures such as, for example, less than 1500 bars.
According to one embodiment, said at least one first sealing elements set is comprised between said support organ and said abutment organ.
Thanks to this arrangement, said support organ allows to limit the displacement of said at least one first sealing elements set during high pressures such as, for example, less than 1500 bars.
The present invention relates to a watch configured to be sealed comprising a sealing device according to the present invention.
Thanks to this arrangement, the watch is sealed thanks to said sealing device, which allows to seal said primary space between said middle part and said at least one insertion organ, and said secondary space between said at least one drive organ and said at least one insertion organ, for high pressures such as, for example, less than 1500 bars.
The invention will be described in more detail below using the appended drawings, given by way of non-limiting examples, wherein:
Current watch crowns offer a certain sealing. However, when it comes to high pressure, for example above 300 bars, this sealing is ensured to the detriment of the handling of the crown, which cannot be easily operated.
This is not the case with the watch 200, according to the invention, which is sealed for these high pressures thanks to a sealing device 100. Indeed, said sealing device 100 for a watch 200, preferably of a watch 200 is configured to be inserted into a primary space 201 comprised in a middle part 210 of said watch 200 and comprises at least one insertion organ 110, at least one first sealing elements set 120, said at least one second set sealing elements 140, and at least one drive organ 130.
The latter, that is to say said at least one drive organ 130 can be held in at least one first position 101, observable in
This holding in said at least one first position 101 is allowed via at least one holding organ 150. Said at least one holding organ 150 comprises at least one holding element 151 disposed on said at least one insertion organ 110 configured to removably cooperate with at least one holding part 153 disposed on said at least one drive organ 130. Said at least one insertion organ 110 is configured to displace said at least one drive organ 130 when said at least one holding element 151 cooperates with said at least one holding part 153.
More specifically, said at least one holding element 151 is a tapping or a thread disposed on the inner periphery of said at least one insertion organ 110 and is opposite said at least one holding part 153 which may take the form of a thread or a tapping disposed on the outer periphery of said at least one drive organ 130.
Indeed, said at least one insertion organ 110 has a hollow cylindrical shape, preferably is a tube, and said at least one drive organ 130 comprises, preferably totally or partially inside a secondary space 131 comprised by said at least one drive organ 130, at least one sliding member 139 configured to slide in said hollow cylindrical shape, preferably in said tube.
Visible in the FIGURES, said at least one holding element 151 is opposite said at least one holding part 153, preferably, said at least one holding element 151 is disposed on an inner periphery of said hollow cylindrical shape, preferably of said tube, and said at least one holding part 153 is disposed on an outer periphery of said at least one sliding member 139 so that said at least one drive organ 130 can be held in said at least one first position 101, and displace or be displaced between said at least one first position 101 and said at least one second position 102.
As mentioned above, said middle part 210 of said watch 200 comprises said primary space 201 into which said at least one insertion organ 110 is inserted. An abutment organ 114, comprised by said at least one insertion organ 110, allows to abut against the middle part 210, when said at least one insertion organ 110 is inserted, and/or against said at least one drive organ 130 and thus limit the insertion of said at least one insertion organ 110 into said primary space and/or the displacement of said at least one drive organ 130 when said at least one drive organ 130 is in said first position 101. Moreover, when said at least one drive organ 130 is in said first position 101, the contact made between said at least one drive organ 130 and said abutment organ 114, the sealing between said secondary space 131 and said at least one drive organ 130 is thereby improved.
Said at least one drive organ 130, in turn, comprises a secondary space 131 configured to receive said at least one insertion organ 110. A cavity 134, preferably a groove 134 inside said at least one drive organ 130, allows to house said at least one second sealing elements set 140 and thus to seal said secondary space 131 between said at least one drive organ 130 and said at least one insertion organ 110.
As visible in
Observable in
Moreover, said at least one insertion organ 110 comprises a bearing surface 113 configured to contact said at least one second sealing element 141 with said at least one second obstruction organ 142 when said at least one drive organ 130 is held in said at least one first position 101 so that said at least one second sealing element 141 can be contacted with said at least one second obstruction organ 142 when said at least one drive organ 130 is held in said at least one first position 101.
Still visible in
Said at least one first sealing elements set 120, configured to seal said primary space 201, is located, preferably on said at least one insertion organ 110, between said middle part 210 and said at least one insertion organ 110, and comprises at least one first sealing element 121, preferably a first gasket 121, and/or at least one first obstruction organ 122: said at least one first obstruction organ 122 being harder than said at least one first sealing element 121.
As can be seen from the FIGURES, said at least one first sealing element 121 and said at least one second element are closer to each other than said at least one first obstruction organ 122 and said at least one second obstruction organ 142 so that said at least one first and second sealing element 141 are the first on the water infiltration path.
Said at least one first obstruction organ 122, in turn, is configured to limit all or part of the displacement of said at least one first sealing element 121 in said primary space 201, preferably to obstruct said displacement of said at least one first sealing element 121 in said primary space 201. Indeed, said primary space 201 comprises a first primary volume 203 comprising said at least one first obstruction organ 122 and said at least one first sealing element 121, and a second primary volume 202. Said at least one first obstruction organ 122 is configured to limit, preferably to obstruct, all or part of the displacement of said at least one first sealing element 121 from said first primary volume 203 to said second primary volume 202 so as to make said primary space 201 sealed for high pressures such as, for example, less than 1500 bars.
To this is added, according to the embodiments, a support organ 112, comprised by said at least one insertion organ 110, to support said at least one first sealing elements set 120, in order to increase the limitation of the displacement of said at least one first sealing elements set 120 during high pressures such as, for example, less than 1500 bars. Indeed, said at least one first sealing elements set 120 is comprised between said support organ 112 and said abutment organ 114.
Of course, the sealing device 100 allows to seal the watch 200, more particularly said primary space 201 between said middle part 210 and said at least one insertion organ 110, and said secondary space 131 between said at least one drive organ 130 and said at least one insertion organ 110, for high pressures such as, for example, less than 1500 bars.
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20210389728 A1 | Dec 2021 | US |