This application claims priority from France Patent Application No. 1759748 filed Oct. 17, 2017, the entire contents of which are incorporated herein by this reference.
The invention relates to a breathing mask for aircraft, designed to provide a breathing mask to a user, an assembly to supply breathing gas comprising a breathing mask and a method for putting a breathing mask into a folded position for storage in a storage unit.
The invention aims to provide a solution for storage and for use of an assistance system composed of a breathing mask supplying a breathing gas to a user such as a crew member, for example in an emergency situation. This breathing gas is supplied through a breathing mask. The breathing mask comprises a shell with a breathing cavity, and is adapted to be applied to the face of the crew member, particularly around the mouth and the nose. The breathing mask also comprises a harness. This harness is adapted to extend around the user's head opposite the shell, so as to hold the shell on the user's face.
The breathing mask optionally comprises a protection screen. The protection screen protects the user's eyes against projections, and particularly fumes. In a folded position, the breathing mask is placed in a storage unit located in the cabin of an aircraft, generally a commercial aircraft transporting passengers and a crew. The aircraft also generally comprises a pressurisation device that pressurises the cabin so as to enable passengers and crew members to breath normally in the cabin.
If necessary (particularly in case of depressurisation, preventive wearing or in the case of noxious gas or smoke), the user of the emergency equipment that is normally the pilot or the copilot, picks up the breathing mask that is located in the storage unit. The user then places the breathing mask around his or her head so that he or she can breathe through the breathing mask, thus supplying breathing gas.
The storage unit is thus important to protect the breathing mask when it is not used.
Moreover, in an emergency situation, the breathing mask must be put into position quickly (in less than 5 seconds) and reliably on the crew member's head, for regulatory and safety reasons. It is also necessary that the breathing mask can be manipulated with one hand, so that the crew member can continue his or her tasks using the other free hand.
In order to respect these prerequisites, a frequently used breathing mask harness is an inflatable harness. The harness thus becomes longer as gas is introduced under pressure inside the harness, so that the pilot's head can pass through the harness and the breathing mask can be positioned on the user's head. Introduction of gas under pressure into the harness is controlled by a valve. Once the breathing mask has been appropriately positioned, the gas under pressure is released which causes contraction of the harness around the user's head so that the shell can be correctly applied on the user's face. Furthermore, with the objective of speed of installation and placement of the breathing mask on the user's head, it is also important to avoid any obstacle that could slow inflation of the harness. To achieve this, document EP 2773432B1 discloses a method of storing a breathing mask in a storage unit. This method consists of preventing any fold or knot that might occur along the harness when the breathing mask is stored in the storage unit. Thus, the harness comprises a strap that has to be pulled to tighten it during the storage manipulation in the storage unit. However, this solution is not perfectly satisfactory. Once the breathing mask has been stored in the storage unit, it is impossible to verify that the breathing mask has been properly put away.
To achieve this, according to the invention, the breathing mask has the following characteristics:
The folding system contributes to obtaining practically the same folded position of the harness, which reduces the risk that the harness fails to extend satisfactorily during inflation. Therefore the folding system is a reliable tool that helps to put the breathing mask away in the appropriate position. The right folded position is particularly important in that it enables the breathing mask to extend in the right position and therefore the breathing mask can be put into place on the user's head quickly.
According to another characteristic conforming with the invention, the breathing mask preferably also comprises a protection screen adapted to protect the user's eyes, and the guide device is fixed to the shell above the protection screen, along a vertical axis.
Thus, the folding system does not interfere with the head of the crew member when the breathing mask is in use.
According to a complementary characteristic according to the invention, when the harness is in the extended position, the gripping portion is placed above the protection screen, in a projection along a direction perpendicular to the plane of the protection screen.
Thus, the gripping portion does not interfere with the user's field of vision.
According to another characteristic conforming with the invention, the pulling device is preferably mounted free to move (only) in translation relative to the guide device, between the first position and the second position.
Thus, use of the folding system is intuitive, and consequently the risk of improper use is reduced.
According to another characteristic conforming with the invention, the pulling device preferably comprises a first connecting portion connected to the harness and a second connecting portion connected to the harness, when the pulling device is in the first position the first connecting portion is at a distance (along a transverse axis) from the second connecting portion by a first distance, the guide device also comprises a first guide element and a second guide element, the first guide element is separated from the second guide element by a second distance, and the first distance is at least 3 centimetres larger than the second distance.
Thus, when the harness is in the folded position, not only are the dimensions reduced along the direction of the horizontal axis along which it is pulled on the pulling device, but also along the direction of the transverse axis because the first connecting portion and the second connecting portion are brought towards each other when the pulling device moves from the first position to the second position.
According to another characteristic conforming with the invention, the pulling device preferably comprises a band of elastically flexible material to support the harness when the breathing mask is in the extended position.
Thus, the band of elastically flexible material acts against gravity to support the harness, which makes it easier to put it into place on the user's face.
In various embodiments of the breathing mask according to the invention, either or both of the following measures may also be adopted:
The invention also relates to an assembly that, in addition to the breathing mask, comprises a storage unit inside which the breathing mask will fit, the storage unit comprising a housing and an access opening through which the breathing mask is inserted into the housing, wherein in a stored position of the assembly in which the breathing mask is in the folded position, the gripping portion is located close to the access opening.
Thus, when the breathing mask is in the stored position, the user can check that the gripping portion is correctly positioned and consequently that the harness was placed in the satisfactory folded position.
According to another characteristic conforming with the invention, the breathing mask preferably comprises a rigid support to which the shell is connected and having a reception zone, and the gripping portion is held in place between the housing and the reception zone of the rigid support when the assembly is in the stored position.
According to yet another characteristic conforming with the invention, the housing preferably comprises a cavity and the shape of the cavity is complementary to the shape of the gripping portion, the gripping portion is held in said cavity when the assembly is in the stored position.
Finally, the invention relates to a method of folding a breathing mask to store it in a storage unit, the breathing mask comprising a shell, a harness, a folding system, the shell having a breathing cavity and being adapted to be applied onto the face of a user, the folding system comprising a pulling device and a guide device cooperating with the pulling device, the pulling device comprising a gripping portion, in which process in a step a) the pulling device is pulled through the guide device by gripping the gripping portion to pull the breathing mask from an initial extended position to a final folded position.
According to another characteristic conforming with the invention, the breathing mask preferably also comprises a rigid support, the pulling device comprises a tie, the tie has a connecting portion and a gripping portion, the connecting portion being fixed onto the harness, and:
During step a), the connecting portion stops in contact with the guide device.
Throughout the remainder of the description, identical elements or elements performing an identical function have the same reference sign. For reasons of conciseness of the description, these elements are not described for each embodiment, only the differences between the different embodiments being described in detail.
In the embodiments illustrated, the breathing mask 20 comprises an oronasal part 26 and a protection screen 22, the protective protection screen 22 being fixed removably to the oronasal part 26. As a variant, the oronasal part 26 and the protection screen 22 could form an indissociable assembly.
The oronasal part 26 has a breathing cavity 34. The breathing cavity 34 is adapted to be applied to the face of the user. More precisely, as can be seen on
The protection screen 22 comprises a transparent lens 18 and a peripheral support 17. The transparent lens 18 is slightly convex and extends approximately perpendicular to a horizontal X axis, perpendicular to the vertical Z axis and to the transverse Y axis. The horizontal X axis corresponds to the anteroposterior axis of the human body when the breathing mask 20 is worn on a user's head, in other words the direction of the horizontal X axis lies approximately along the viewing direction of the user. The protection screen 22 is located in the top part 30 of the breathing mask 20. It protects the user's eyes, for example in case of smoke. The protection screen 22 comprises a front face 36 and a back face (not shown on the figures). The front face 36 will be in contact with the external environment. The back face will be in front of a user's face. The peripheral support 17 comprises particularly two lateral parts 23, an upper edge 21 and a lower edge 19. Each lateral part 23 receives a second end of the loops 44B, 46B of the harness 24. The lower edge 19 is in contact with the oronasal part 26 or at least facing and close to the oronasal part 26. The protection screen 22 also comprises a cavity 15 in which there is an opening on the back face of the breathing mask 20.
The shell 35 comprises the oronasal part 26 and the peripheral support 17 of the protection screen 22. In the variant wherein the oronasal part 26 and the eye protection screen 22 form an indissociable assembly, the cavity 15 of the protection screen 22 and the cavity 34 of the oronasal part 26 are continuously in communication with each other and in particular there might not be any separation between the cavity 15 of the protection screen 22 and the cavity 13 of the oronasal part, such that they form a single cavity.
In the embodiments illustrated, the harness 24 is an inflatable harness. The harness 24 can be configured between an inflated position illustrated in
Along the vertical Z axis, the harness 24 comprises an upper portion 40 and a lower portion 42. The harness also comprises two loops 44, 46. Each loop is arranged on each side of the breathing mask 20, laterally. The two loops 44, 46 are connected to each other through spacer elements 48, 50. In the embodiment illustrated in
The rigid support 28 is located in the lower part 32. More precisely, in the first embodiment illustrated in
Furthermore, as illustrated on
The pulling device 55 comprises a tie 56. The tie 56 comprises a connecting portion 58 and a gripping portion 60. The tie 56 extends between the connecting portion 58 and the gripping portion 60 approximately along the horizontal X axis.
The connecting portion 58 is connected to the harness 24. According to the example illustrated on
In the embodiments illustrated in
Secondly, in the first embodiment illustrated in
The guide device 65 is placed on the protection screen 26. More precisely, the guide device 65 is located opposite the rigid support 28 along the vertical Z axis. The guide device 65 is actually laid out on the upper border 21 of the protection screen 22. The guide device 65 comprises a passage 66. This passage 66 is sized so that the tie 56 can pass through it. According to the example illustrated in
Other shapes can be made depending on the shape of the tie. For example, the passage 66 can be a gutter. According to another example, the passage 66 has a circular section.
The folding system is also adapted to prevent the gripping portion 62 from entering the user's field of vision when the harness 24 is in the extended position. The gripping portion 62 extends upwards (moving away from the transparent lens 18 projected along the vertical axis) and forwards (moving away from the guide device 65 projected along the horizontal axis 65).
To achieve this, in the case of the first embodiment illustrated in
The extended and folded positions of the harness 24 will now be described with reference to
When the harness 24 is in the extended position as shown on
By bringing the pulling device into the second position when the harness 24 is deflated, the harness 24 is brought into the folded position as can be seen on
When the harness 24 is in the folded position, it can be stored in the storage unit 54 as illustrated in
We will now describe the method used to put the harness 24 into the folded position. Putting the harness 24 into the folded position makes it possible in particular to store the breathing mask 20 in the storage unit 54.
In a first step a), the pulling device 55 is pulled through the guide device 65. More precisely, the gripping portion 60 is pulled by gripping the gripping element 62 to allow it to pass from the first position to the second position. The deflated harness 24 thus moves from an initial extended position to a final folded position. At the end of this step a), the connecting portion 58 stops in contact with the guide device 65.
In a step b), the gripping portion 60 is brought back into the reception zone 27 of the rigid support 28 with the stop surface 63 stopped in contact with the retaining device 33. Step b) takes place after step a).
In a step c), the breathing mask 20 is inserted in the storage unit 54. Step b) preferably takes place after step a).
In a step d), the gripping portion is placed close to the access opening 71 and the retaining device 33 is brought in cooperation with the cooperation portion 74, such that the breathing mask is retained relative to the housing 51, such that the gripping portion 60 is held by the breathing mask 20, the housing 51 and the stop surface 63 that bears on the retaining device 33 and such that the free edge 64 is visible, when the breathing mask is in the stored position in the storage unit 54 and when the storage unit 54 is closed. According to one example embodiment, step d) takes place after step c). According to another example, steps c) and d) take place simultaneously.
We will now describe a second embodiment with reference to
As can be seen for example on
Furthermore, in this second example embodiment, the pulling device 55 comprises a first tie 56A and a second tie 56B, instead of a single tie as in the first embodiment illustrated in
Furthermore, the guide device 65 comprises a first passage 66A and a second passage 66B, as can be seen on
As illustrated in
The first gripping portion 62A and the second gripping portion 62B are very close to each other and are preferably connected together in a single gripping element 62. The gripping element 62, the connecting portion 58A and the connecting portion 58B form a isosceles triangle of which the gripping element forms the vertex.
When the pulling device 55 is in the first position and the harness 24 is in its extended deflated position, the length L1 between the guide device 65 and the first connecting portion 58A and the second connecting portion 58B is much more than the length L2 between the guide device 65 and the first gripping portion 62A and the second gripping portion 62B. The first gripping portion 62A and the second gripping portion 62B are practically in contact with the guide device 65. The first tie 56A and the second tie 56B are in contact with the internal lateral wall 68 of the first passage 66A and the second passage 66B respectively.
When the pulling device 55 is moved from the first position to the second position, the harness 24 is brought into the folded position 24, the length L1 between the guide device 65 and the first connecting portion 58A and the second connecting portion 58B is much less than the length L2 between the guide device 65 and the first gripping portion 62A and the second gripping portion 62B. The first connecting portion 58A and the second connecting portion 58B are practically in contact with the guide device 65. The first tie 56A and the second tie 56B are in contact with the external lateral wall 67 of the first passage 66A and the second passage 66B respectively. The first connecting portion 58A is then at a distance from the second connecting portion 58B approximately equal to the distance D2 between the first passage 66A and the second passage 66B. The overall dimension E of the harness 24 along the direction of the transverse Y axis is thus reduced which facilitates insertion of the breathing mask 20 into the storage unit 54.
It should be noted that the characteristics of the strap and the ties 66A and 66B of the second example embodiment described above are independent of each other. For example, it would be possible to combine a harness 24 according to the second example embodiment and a tie 56 according to the first example embodiment. In this case, the connecting portion 58 can comprise two connecting sub-portions. Each connecting sub-portion can thus be arranged on a spacer element 48, 58 or on the loop 44, respectively. The tie 56A can pass through the passage 66A.
Number | Date | Country | Kind |
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1759748 | Oct 2017 | FR | national |