FR2947459A1 - Air cushion protection system for protecting body of user against lesion attacks during e.g. cross-country, has valve to eject gas contained in secondary chamber when chamber is subjected to pressure greater than preset value - Google Patents

Abstract

The system has main chambers (6, 8) inflated to engage a portion of body, and a secondary chamber (10) inflated to engage a portion of neck. The inflated main chambers cooperate with the inflated secondary chamber to maintain the secondary chamber in a position. The secondary chamber is hermetically independent of the main chamber. The secondary chamber includes a pressure limitation unit including a pressure relief valve to eject gas contained in the secondary chamber when the secondary chamber is subjected to pressure greater than a preset value.

Description

PROTECTIVE SYSTEM WITH AIR CUSHIONS

TECHNICAL FIELD OF THE INVENTION [0001] The invention relates to an air bag protection system for protecting a user. The invention also relates to a protective clothing comprising such a protective air bag system. The present invention relates to the technical field of protection of people carrying out activities likely to cause damage to the neck. More particularly, but not exclusively, the invention relates to the field of protection of persons with a helmet and using motorized vehicles without a survival cell. STATE OF PRIOR ART [0004] It is known from the state of the art several protection systems 15 incorporating a neck protection. In particular, the patent document No. EP 1 797 782 describes a protection system formed of an airbag integrated into a helmet and intended to protect the neck in case of accident. The non-inflated airbag is integrated under the periphery of the helmet and a housing attached to the back of the helmet incorporates the activation electronics and the gas generator. When the airbag is inflated, a horizontal coil is compressed between the lower circumference of the helmet and the shoulders of the user while a vertical coil is supported on the back of the user. The disadvantage of this system comes from the fact that its geometry does not adapt according to the morphology of the user or equipment worn by this user (scarf, collar, etc.). Therefore, this system can be ineffective when the airbag has insufficient dimensions to be sufficiently interposed between the helmet and the shoulders of the user. Conversely, this system can have lesional effects when the airbag has too large dimensions vis-à-vis the morphology and equipment of the user. [0007] In particular, when the user wears a scarf with a turtleneck or any bulky collar, the deployment of the airbag may generate a constriction at the level of the blow. On the other hand, if the helmet goes down and the user's neck has a height smaller than that of the airbag, the deployment of the airbag can generate tensile stresses on the cervical vertebrae. Moreover, it is also known from the state of the art the Internet page http://www.eggparka.com/english/system/index.html. This web page describes protective clothing incorporating an airbag including an inflatable membrane forming a roll of 10 cm in diameter circulating around the neck. In particular, the pudding starts from the shoulders and surrounds the back of the neck around the helmet. The inflation of this airbag is performed by a CO2 cartridge at a pressure of 350 Mbar. This system also has drawbacks. If the airbag is likely to be interposed between an obstacle and the helmet, it however only partially limits the angular amplitudes during impact at the head. Indeed, these angular limitations are insufficient in lateral inclination and flexion and nonexistent in extension. In addition, this airbag does not protect the user during an axial impact on the vertebrae, that is to say in compression or traction. It is further known from Patent Document No. WO08 / 105010, a mechanical protection system intended to create a support interface between the helmet and shoulders to relieve the neck. This mechanical protection system protects the neck in all types of direct or indirect injury impacts, except for traction efforts on the vertebrae. However, it has two major drawbacks. On the one hand, it distributes the forces applied on the neck to the shoulders on which it rests. On the other hand, it is a passive system that is compelling to wear because it is bulky for users in everyday use and limits the head deflections necessary for driving and comfort. In addition, it requires a setting and editing phase that is aimed at users initiated. It should be noted that this system was developed for sports applications, including cross and enduro. SUMMARY OF THE INVENTION The present invention aims to overcome the disadvantages of the state of the art by providing a protection system to protect the user against any lesion that may occur on the neck and cervical when an accident and without the risk of producing full lesion effect when activated. [0013] More particularly, it should be emphasized that the lesional lesions likely to occur during an accident may be due to shocks produced by direct impacts on the neck or by indirect impacts to the top of the head while producing compression of the vertebrae. These indirect impacts, when consecutive to shocks on the periphery of the head, can also generate lesions due to amplitudes of joint movements because they exceed the human tolerances. These human tolerances on the angular amplitudes of the cervical ones are summarized as follows: - Bending of the head, bending forwards: 40 °, - Extension of the head, bending towards the back: 75 ° - Lateral inclination of the head, leaning to the left or right: 35 ° -45 °. In another aspect, the invention also aims to provide a protection system capable of adapting to the morphology, clothing, and geometry of the user's helmet. According to another aspect, the invention also aims to minimize the size of the protection system by making it activable only when necessary. To do this, the present invention proposes to integrate an inflatable protection chamber independent of the usual protective envelopes and specifically to protect the neck of the user. As such, the invention relates to an air bag protection system for protecting a user having a body and a neck, comprising a main chamber and a secondary chamber, the main chamber being able to inflate so to marry a body part, the secondary chamber being able to inflate so as to marry a portion of the neck, the inflated main chamber cooperating with the inflated secondary chamber so as to maintain said inflated secondary chamber in position. The secondary chamber is thus held in position by the main chamber while being hermetically independent of it. The use of a secondary chamber to protect the user's neck which is hermetically independent of the main chamber allows for a suitable inflation of this secondary chamber. Thus, the mode of protection of the neck which differs from the mode of protection of the other parts of the body can present specificities and thus improve the performances of the protection. According to an advantageous embodiment, the secondary chamber comprises pressure limiting means able to eject a gas contained in the secondary chamber when said secondary chamber is subjected to a pressure greater than a predetermined value. These pressure limiting means make it possible to limit the forces applied by the secondary chamber on the user to a predetermined value and thus to prevent the stretching or constriction of the neck, during the inflation of the secondary chamber, being lesional. while guaranteeing optimal protection. Preferably, these pressure limiting means consist of a pressure relief valve. Such a pressure relief valve makes it possible to precisely determine the pressure value which must not be exceeded in order to avoid undesirable lesion effects. Advantageously, the predetermined value is between 1 and 1.5 bar and preferably substantially equal to 1.3 bar. It appears that these values allow more particularly to ensure the protection of the user's neck without generating lesional constraints. [0021] Preferably, the pressure relief valve comprises a calibrated spring. According to a first advantageous embodiment, the protection system comprises a main gas generator and a secondary gas generator, the secondary gas generator being separate from the main gas generator and dedicated to the swelling of the secondary chamber. The use of two separate gas generator is also advantageous insofar as it makes possible the use of separate swelling gas and therefore more particularly adapted to the operation to which they are devolved. According to a second embodiment, the protection system comprises a gas generator, first gas conveying means to the main chamber and second gas conveying means to the secondary chamber, the second means of routing comprising a non-return valve adapted to prevent the return of the gas to the gas generator. On the contrary, the use of a single gas generator limits the number of elements belonging to the protection system. The non-return valve thus makes it possible to prevent the pressure limitation generated in the secondary chamber from involving a pressure limitation in the main chamber. Advantageously, the protection system comprises at least one gas generator delivering helium by electric trigger, which improves the speed of implementation of the protection.

BRIEF DESCRIPTION OF THE FIGURES [0025] Other features and advantages of the invention will emerge on reading the following detailed examples of embodiments, with reference to the appended figures which represent respectively: FIGS. 1a, 1b and 1c, three perspective views of an embodiment of the protection system according to the invention; FIG. 2, a perspective view of a secondary chamber belonging to the protection system of FIG. 1.

DETAILED DESCRIPTION OF AN EMBODIMENT [0026] FIGS. 1a, 1b and 1c represent three profile, front and top views of a user 2 wearing a helmet 4 and a protection system. According to this embodiment, the protection system consists of three hermetically independent chambers. A first chamber 6 has a mattress architecture and the general shape of a plastron covering the upper part of the trunk and shoulders of the user. This plastron is split on the front part to allow its integration into a central closure at the front. The first chamber 6 has a lower face in contact with the body of the user 2 and follows the curvatures of the upper parts of the chest and shoulders to ensure constant positioning and uniform support. This first chamber 6 also has an upper face in contact with the helmet 4 which follows a curved shape allowing the head movements while maintaining sufficient surface support 20 vis-à-vis the helmet 4 to dampen impacts. The dimensions of the lower and upper surfaces of the first chamber 6 allow this first chamber 6 to be applied closer to the neck of the user 2 while allowing sufficient support of the helmet 4. [0029] The second chamber 8 follows a mattress architecture that surrounds the back 25 of the helmet 4 and stops on the lateral parts of this helmet 4. This second chamber 8 has a rear portion that covers the entire width of the helmet 4 to a height of between 10 cm and 30 cm. cm. Said second chamber 8 also has two lateral portions covering two-thirds of the length of the helmet 4 starting from the rear, preferably on a height at least equal to two-thirds of the height of the rear portion. The function of this second chamber 8 is to protect the user 2 rear and side impacts worn on the head, in addition to the protection provided by the helmet 4. This second chamber 8 also serves to limit the angles articular head of the user 2. By non-exclusive example, it should be noted that, in operation, these first 6 and second 8 chambers may have pressures of the order of 1.3 bar . On the other hand, the protection system of Figure 1 comprises a third chamber 10 which also follows a mattress architecture which, when inflated, has the shape of a substantially rectangular section collar. This necklace is around the neck of the user 2 but is split on the front part of this neck. Such a geometry allows integration of the third chamber in a center-closure garment at the front. The dimensions of the third chamber 10 are determined from anthropometric data and the geometry of the helmets 4 requiring maximum deployment. It should be noted that the first 6, second 8 and third 10 chambers are advantageously incorporated in a protective clothing. In this respect, the third chamber 10 has no interconnection with respect to the first 6 and second 8 chambers and is therefore, a fortiori, hermetically independent of the first 6 and second 8 chambers. However, one of the functions of the first chamber 6 when inflated is to support the third chamber 10 and to ensure positioning and constant maintenance of the third chamber 10 in case of accident. According to a particular embodiment, these first 6, second 8 and third 10 rooms would be incorporated in a protective clothing but also fixed relative to each other. In this case again, the third chamber would nevertheless be hermetically independent of the first 6 and third 8 bedrooms. The function of this third chamber 10 is to be inserted between the helmet 4 and the shoulders of the user 2, to limit the angular and articular amplitudes of the head of the user 2 in case of accident and damage. absorb direct and indirect shocks, but also during impacts along the axis of the cervical segment. On the other hand, the third chamber 10 advantageously comprises a pressure relief valve 12 (described below) in order to adapt the protection system to the variability of the anthropometry of the users and their equipment, to guarantee the operating pressure of the third chamber 10 and to avoid overpressures that could be lesional. In addition, the protection system of Figure 1 advantageously has an inflation module formed by gas generators. According to a first embodiment, this inflation module comprises an electrically triggered gas generator, a first flexible and a second flexible. The first hose is connected from the gas generator to the first 4 and second 6 chambers in order to route the gas. The second hose is connected to the gas generator and to the third chamber 10 in order to convey gas, for example helium, to this third chamber 10. Advantageously, the second hose further comprises a valve antiretour to prevent the return of helium to the gas generator. According to a second embodiment, said inflation module comprises a first gas generator, a second gas generator, a first flexible and a second flexible. The first hose is connected to the first gas generator and the first 4 and second 6 chambers to allow the delivery of the gas contained in the first gas generator, preferably helium, to these first 4 and second 6 chambers. The second hose is connected to the second gas generator and to the third chamber 10 in order to convey the gas, preferably helium, to this third chamber 1. [0040] FIG. of the third chamber 10 belonging to the protection system of Figure 1. [0041] As indicated above, the third chamber 10 also follows a mattress architecture which, when inflated, has the shape of a collar of substantially rectangular section . This collar, when inflated, has a curved shape to substantially conform to the shape of the neck of the user 2. However, said necklace is split, and therefore not closed, to allow integration of the third chamber 10 in a central closure garment at the front. The operating pressure of the third chamber 10 is limited by a pressure relief valve 12 to prevent stretching of the neck during inflation of the third chamber 10 is lesional, while ensuring optimum protection. The pressure relief valve 12 incorporates a calibrated spring 14 in force and a valve 16 and a base 18. The valve 14 has a surface which is a function of the calibration of the spring 14 in order to obtain an operating pressure, preferably substantially equal to 1 bar. The spring 14 sealingly applies the valve 16 to the seat of the base 18. When the pressure in the third chamber is greater than 1 bar, the operation of the system is as follows: - The force exerted on the valve 16 is greater than the calibration of the spring 14, the valve leaves the seat of the base 18, and the gas is evacuated. When the gas from the third chamber 10 is discharged through the valve 16, the pressure in the third chamber 10 decreases to the operating pressure, the force applied to the valve 16 decreases, the spring 14 plate the valve 16 on the seat of the base 18 and the gas is no longer evacuated. The invention is not limited to the embodiments described and shown. It is also possible to provide several other rooms to protect different anatomical areas complementary or on the contrary a master bedroom that can cover the entire trunk of the user. In addition, according to an alternative embodiment, the third chamber 10 dedicated to the protection of the user's neck 2 could be divided into two sub-chambers that are hermetically independent of one another.

Claims (8)

REVENDICATIONS1. Air cushion protection system for protecting a user (2) having a body and a neck, having a main chamber (6,8) and a secondary chamber (10), the main chamber (6,8) being adapted to to inflate so as to fit a part of the body, the secondary chamber (10) being able to inflate so as to marry a part of the neck, this inflated main chamber (6,8) cooperating with this secondary chamber (10) inflated with so as to maintain said inflated secondary chamber (10) in position, characterized in that said secondary chamber (10) is hermetically independent of said main chamber (6,8). The air bag protection system according to claim 1, wherein the secondary chamber (10) comprises pressure limiting means (12) able to eject a gas contained in said secondary chamber (10) when said secondary chamber. (10) is subjected to a pressure greater than a predetermined value. The air bag protection system of claim 2, wherein the pressure limiting means (12) is a pressure relief valve. An air bag protection system according to claim 2 or 3, wherein the predetermined value is substantially equal to 1 bar. An air bag protection system according to any one of claims 3 to 4, wherein the pressure relief valve (12) comprises a calibrated spring (14). 30 An air bag protection system according to any one of claims 1 to 5, comprising a main gas generator and a secondary gas generator, the secondary gas generator being separate from the main gas generator and dedicated to the swelling of the gas. the secondary chamber. Air-cushion protection system according to any one of claims 1 to 5, comprising a gas generator, first gas conveying means to the main chamber (6,8) and second means for routing the gas to the secondary chamber, the second conveying means comprising a non-return valve adapted to prevent the return of the gas to the gas generator. 8. air bag protection system according to claim 6 or 7, comprising at least one gas generator delivering helium by electric triggering.