Patent Application
20180009406
The field of the invention is that of child care, and more precisely of devices able to receive a child, in particular in seated position.
The invention in particular relates to car seats, intended to be fastened to a seat or a bench seat of a motor vehicle. It can also be implemented in devices such as strollers, nacelles, seats for bicycles, etc.
Further more precisely, the invention relates to the implementation of bags, or balloons, or elements, for safety that can be inflated, commonly referred to as “airbag”, of which the inflating is triggered automatically in case of impact (in an accident situation), in order to protect the child installed in the child care device.
The use of “airbags” is well known, in particular in the field of the automobile. More recently, many other applications have been considered, and in particular for child car seats.
For example, the car seat can include two airbags, housed on or in the shoulder straps of a harness or on or in sheaths mounted on said shoulder straps, and which can be fastened using means of connection. Such an approach is described for example in patent document FR2969055, in the name of the Holder of this patent application.
In the event of impact, each one of the airbags is inflated by a gas coming from a bottle of pressurised gas and transmitted via a passage for the circulation of the pressurised gas.
Documents describing airbags for car seats generally provide for the presence of means for detecting impacts that control the triggering of gas generating means intended for the inflating of airbags, but do not provide any precision on the operation of these gas generating means, and in particular on the way in which the gas is conveyed. This is however a crucial problem. Indeed, it is essential that the airbags are triggered systematically when this is necessary, and sufficiently rapidly in order to provide for the protection of the child.
It is furthermore essential that these gas generating means be of simple design and have optimum compactness.
Similar problems are encountered in other child care devices.
The invention has in particular for object to overcome at least some of these disadvantages.
An objective of the invention is to provide an inflating gas to one or several airbags in a reliable manner.
More precisely, an objective of the invention is to perfect the known gas generating means in order to simplify their structure and optimise their compactness.
Another objective of the invention is to provide such gas generating means that are relatively inexpensive.
Another objective of the invention is to provide a child care device that improves the safety of the child in case of impact, simply and effectively.
Another objective of the invention, at least according to certain embodiments, is to provide a car seat that provides a reliable, safe and effective triggering of the airbag or airbags, when an accident situation occurs.
These objectives, as well as others which shall appear in what follows are achieved using a gas generator for airbag(s) comprising:
According to the invention, the gas generator further comprises a striker located in a duct wherein exits the opening for evacuating gases and which can be displaced in a first step, when the predetermined condition is fulfilled, by the combustion gases generated by the pyrotechnic charge in the direction of the sealing member, from an initial position to an open position, so as to pierce the latter using means for piercing carried by said striker, said striker able to be returned, once the sealing member has been pierced, by the pressurised gas stored in the reservoir, to the initial position, with the pressurised gas escaping from the reservoir to said opening for evacuating gases.
It is as such possible to provide an inflating gas to one or several airbags in a reliable manner using a gas generator structure that is simple and compact.
In addition, such a structure makes it possible to limit the deployment time of the airbags.
The pyrotechnic gas generator in accordance with the invention uses a solid agent for the production of combustion gas, as a source of displacement of a striker to a bottle of pressurised gas. A front end of the striker is used to pierce the closing seal of the bottle of pressurised gas.
Once the bottle has been pierced, the pressurised gas causes the displacement of the striker in the opposite direction, the retracting of the striker allowing the pressurised gas to be directed to an opening for evacuating gases that communicates with the airbag or airbags. The gas stored under pressure in the bottle is as such released in order to inflate/deploy the bag or bags.
Such a gas generator structure furthermore has a reduced weight.
According to a particular aspect of the invention, in the initial position, the striker is located on one side of the opening for evacuating gases, with the mouth of the reservoir being located on the other side of the opening for evacuating gases in the duct.
According to a particular aspect of the invention, the means for piercing are surrounded by a shoulder intended to abut against the edges of the mouth of the reservoir, with the means for piercing being sized to penetrate at least partially into said mouth of the reservoir.
According to a particular aspect of the invention, the pyrotechnic charge is arranged at least partially in a housing arranged in said striker.
According to a particular aspect of the invention, the housing exits onto a rear face of the striker and the means for piercing onto the opposite front face of the striker.
According to a particular aspect of the invention, when the shoulder is abutting against the edges of the mouth of the reservoir, the rear face of the striker is located opposite the opening for evacuating gases in such a way as to define a passage for the combustion gases to the opening for evacuating gases.
According to a particular aspect of the invention, the longitudinal axis of the opening for evacuating gases is substantially inclined in relation to the axis perpendicular to the longitudinal axis of the duct.
According to a particular aspect of the invention, the means for piercing has an ogive shape or a bevelled shape.
The invention also relates to a child care device able to receive a child comprising at least one gas generator such as described hereinabove.
According to a particular aspect of the invention, the child care device comprises a harness having two shoulder straps intended to be extended from the shoulders along the torso of a child, with each one of the shoulder straps bearing an inflatable safety element, able to be inflated in the case of an impact greater than a predetermined threshold.
The implementation of these inflatable elements associated with the shoulder straps is simple to implement and use.
According to a particular aspect of the invention, the child care device comprises a seat, said gas generator being housed in the seat back, in at least one of the lateral flanks, and/or in the base of said seat.
Said inflatable safety elements can be supplied by at least one source of fluid, for example housed in the seat back of said seat, in the lateral flanks, in the base, etc.
According to a particular aspect of the invention, the child care device is a car seat, a stroller, a nacelle, or a seat for a bicycle, for example.
Other characteristics and advantages of the invention shall appear more clearly when reading the following description of a preferred embodiment of the invention, provided simply for the purposes of illustration and in no way limiting, and the annexed drawings among which:
The invention therefore proposes a pyrotechnic gas generator for the inflating of one or of several inflatable safety bags (“airbag”) intended to be provided on child care devices.
The embodiment described in what follows relates to child car seats.
However, those skilled in the art understand that the same approach can easily be adapted to other child care devices, when they are provided with one or several inflatable safety bags.
As can be seen in
The infant is maintained in this seat 11 using a harness 12, comprising two shoulder straps 121 and 122, intended to each be placed on one of the shoulders of the child, and extending substantially vertically over the torso of the latter, and a crotch supports 123.
When the harness is set in place, the two shoulder straps 121 and 122 and the crotch support 123 are made integral by a locking buckle 124. Each shoulder strap 121 and 122 carries a sheath 131, 132, taking position on the shoulders and/or the top of the body of the child, in order to improve his comfort and his safety.
In the embodiment described, each one of these sheaths 131 and 132 contains an inflatable safety element 141, 142 (of which only one end can be seen in
In case of substantial impact greater than a predetermined threshold, the two inflatable safety elements 141 and 142 are deployed automatically and very rapidly, from the sheaths 131 and 132, in order to protect in particular the head of the child, and limit its course of travel forwards, as shown in
The two inflatable safety elements 141 and 142 are supplied by means of inflating in the form of a pyrotechnic gas generator 2, of which the operation is described in what follows in relation with the
As shown in
As shown in
An open end of the horizontal duct 221, located to the right of the duct 222 for evacuating gases, is intended to receive the neck of a gas cylinder 21 of a suitable fluid. The fluid contained in the gas cylinder can in particular be a gas such as carbon dioxide (CO2), helium, nitrogen, or any other fluid that is suitable for allowing the immediate inflating of the two inflatable safety elements 141, 142. The neck of the bottle can be screwed into the open end of the horizontal duct 221.
A first end of a gas diffuser tube 26, which is here a flexible duct, is connected to the fluid supply inlet (not shown) of the inflatable safety elements 141, 142, with its second end being connected to the duct 222 for evacuating gases from the gas generator 2.
In addition to the gas reserve (bottle of gas) 21, the gas generator 2 comprises a pyrotechnic unit mounted in the other end of the horizontal duct 221, located to the left of the duct 222 for evacuating gases. This pyrotechnic unit is comprised of a pyrotechnic charge (or explosive) 23, means for igniting 25 the pyrotechnic charge 23 and a striker 24, shown in
The pyrotechnic charge 23 has the form of a monolithic fuel cell (propellant for example) which produces a gas by being ignited and by burning. The pyrotechnic charge 23 is located in a combustion chamber 242 arranged inside the striker 24, which makes it possible to limit the encumbrance of the gas generator 2. The combustion chamber 242 exits into the rear planar surface 244 of the striker 24 which is, in the position of
The cylindrical striker 24 (also called “bullet”) is slidably mobile according to two opposite directions in the horizontal duct 221 and has, in this example, at the front, a perforating bevelled tip 241 (another shape can be considered, in particular an ogive shape) oriented towards the gas cylinder 21. The bevelled tip 241 comprises an inclined surface in relation to the longitudinal axis A of the horizontal duct 221 and oriented towards the duct 222 for evacuating gases. The perforating tip 241 is surrounded by a annular collar 243.
In the initial position of
Although this is not shown in the figures, the gas generator 2 is controlled by a microcontroller/electronic control unit (ECU). In case of need (impact, accident, deceleration exceeding a predetermined threshold, etc.), the microcontroller is able to emit an instruction to trigger the gas generator 2, in the form of an electrical signal which is transmitted to the means for igniting 25, in such a way as to provide the inflating of the two inflatable safety elements 141 and 142. The triggering of inflating during an impact must of course be done only in case of an impact that is sufficiently substantial. A suitable predefined threshold is therefore defined.
If this predefined threshold is exceeded, the means for igniting 25 trigger the combustion of the pyrotechnic charge 23 in the combustion chamber 242. As shown by the arrow D1 of
In the position shown in
In
With the gas cylinder 21 open and the combustion gas 231 purged, as shown in
As such, under the effect of the pressurised gas 211, the striker 24 retracts to a position for guiding the pressurised gas 211 in order to release the pressurised gas 211 into the duct 222 for evacuating gases (
In
Note that the striker 24 can have an intermediate position located between the initial position (
In the embodiment described hereinabove, the striker 24 has a bevelled tip 241.
A striker having an end as a tip or in the shape of a pyramid can be implemented. However, although those skilled in the art would logically consider these shapes for piercing a seal, the inventors have observed that such shapes do not allow for an optimum opening of the seal of the gas cylinder.
It was however observed by the inventors that an ogive shape allows for an optimum opening of the seal 211 of the gas cylinder 21 and better circulation of the gas around the tip of the ogive. A striker 24′ having a front end 241′ in the shape of an ogive is shown in
Note that the striker 24 is mounted “tightened” at the rear portion (i.e. the side of the means for igniting) in order to provide for a maintaining of the latter during the entire life of the car seat. The rest of the body of the striker 24 is mounted with play in order to facilitate the displacement thereof during the triggering of the charge in particular.
Moreover, the invention does not apply solely to car seats, but can also be implemented in other child care devices, such as strollers, nacelles, seats for bicycles, etc.
| Number | Date | Country | Kind |
|---|---|---|---|
| 1550551 | Jan 2015 | FR | national |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/EP2016/050335 | 1/11/2016 | WO | 00 |
