KR101262977B1 - Airbag and airbag system with multi chamber - Google Patents

Abstract

An airbag cushion partitioned into a plurality of chambers through a diaphragm; An active vent including a vent hole formed in the airbag cushion, a tether for closing the vent hole by tightening the vent hole, and a cutting mechanism for cutting the tether when necessary and opening the vent hole; And a communication hole formed in the diaphragm, a cinch tube formed in the communication hole, and one end connected to the cinch tube, and the other end connected to the vent hole side to tighten and close the cinch tube when cutting the tether to close the communication hole. Introducing a multi-chamber airbag and airbag system comprising a one-way event including a drawstring.

Description

Multichamber Airbag and Airbag System {AIRBAG AND AIRBAG SYSTEM WITH MULTI CHAMBER}

The present invention relates to a multichamber airbag and airbag system having a plurality of airbag chambers, which interlocks with the active vent at precise timing and prevents gas from flowing into the other chamber in reverse.

Recently, according to the passenger protection requirements for airbags of a vehicle, a technology for configuring a single airbag cushion into multiple chambers and adjusting the pressure of each chamber according to time flow after deployment of the airbag has been developed.

Such multichamber airbags generally divide the airbag cushion into an upper chamber and a lower chamber and install an active vent in the upper chamber. Immediately after the airbag is deployed, the gas flows into the lower chamber through the one-way event of the diaphragm which first introduces gas into the upper chamber and then separates the two chambers, and then activates the active vent after the gas is filled into the lower chamber. The gas flows out of the upper chamber and at the same time the one-way vent of the containment is prevented so that the gas can be maintained.

That is, during the initial collision of the vehicle, the upper and lower chambers are inflated, and during the airbag collision during the occupant's airbag, the upper chamber is allowed to escape the gas in the upper chamber to protect the head, but the lower chamber maintains the gas to keep the chest and lower To correctly support

In order to implement this technology, one-way events are installed in the diaphragm separating the upper chamber and the lower chamber.

1 is a view showing a one-weather event to block the communication hole of a conventional multi-chamber airbag, Figure 2 is another view of the one-weather event shown in FIG.

Wenway event (oneway vent) is a gas flow in only one direction, as shown in the communication hole 12 formed in the diaphragm 10 to the secondary diaphragm 30, the secondary diaphragm 30 is the end 32 ) Only to the diaphragm 10 so that even if gas (A) can enter the lower chamber from the upper chamber, the secondary diaphragm 30 blocks the diaphragm 10 in the lower chamber so that the gas (A) does not flow out. will be.

However, in this type of one-way event, when the occupant collides with the airbag, the diaphragm 10 itself is reduced and the auxiliary diaphragm 30 is also wrinkled, causing a problem that gas A is introduced from the lower chamber to the upper chamber.

Therefore, there is a need for a new one-weather event that can completely block the phenomenon that gas flows back from the conventional one-weather structure.

It should be understood that the foregoing description of the background art is merely for the purpose of promoting an understanding of the background of the present invention and is not to be construed as an admission that the prior art is known to those skilled in the art.

The present invention has been proposed to solve the above problems, and provides a one-way event that can block gas outflow in the near future, and at the same time, a multi-chamber airbag that can accurately link the operation time of the active vent and one-weather event. And an airbag system.

Multichamber airbag according to the present invention for achieving the above object, the airbag cushion partitioned into a plurality of chambers through the diaphragm; An active vent including a vent hole formed in the airbag cushion, a tether for closing the vent hole by tightening the vent hole, and a cutting mechanism for cutting the tether when necessary and opening the vent hole; And a communication hole formed in the diaphragm, a cinch tube formed in the communication hole, and one end connected to the cinch tube, and the other end connected to the vent hole side to tighten and close the cinch tube when cutting the tether to close the communication hole. It includes a one-way event including a string.

A cinch tube is formed in the vent hole of the active vent, the tether is pulled by pulling the cinch tube, and the other end of the tension strap may be fixed to the cinch tube end of the vent hole.

The airbag cushion is partitioned into an upper chamber and a lower chamber through a diaphragm, and an inflator connection portion is formed in the upper chamber to inject gas.

In addition, the active vent may be provided in the upper chamber.

On the other hand, the multi-chamber airbag system to which the multi-chamber airbag is applied, the airbag cushion partitioned into a plurality of chambers through the diaphragm; An active vent including a vent hole formed in the airbag cushion, a tether for closing the vent hole by tightening the vent hole, and a cutting mechanism for cutting the tether when necessary and opening the vent hole; The communication hole formed in the diaphragm, a cinch tube formed in the communication hole and one end is connected to the cinch tube and the other end is connected to the vent hole side, tightening the cinch tube when cutting the tether and pulling the closing string to close the communication hole. One Wee event, including; And a control unit which operates the cutting mechanism after a predetermined time has elapsed such that a sufficient amount of gas can be injected into all the chambers through the diaphragm after the operation of the airbag.

According to the multi-chamber airbag and airbag system having the above-described structure, it is possible to provide a one-way event that can block gas from flowing out in reverse, and at the same time, it is possible to accurately link the operation time of the active vent and one-weather event. The ability to provide multichamber airbags and airbag systems further enhances occupant protection.

1 is a view showing a one-way event to block the communication hole of a conventional multi-chamber airbag.
FIG. 2 is another view of the one-way event shown in FIG. 1; FIG.
3 illustrates a multichamber airbag in accordance with one embodiment of the present invention.
4 is another illustration of the multichamber airbag shown in FIG.

Hereinafter, a multichamber airbag and an airbag system according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

3 is a view showing a multi-chamber airbag according to an embodiment of the present invention, Figure 4 is another view showing the multi-chamber airbag shown in Figure 3, the multichamber airbag of the present invention, the diaphragm 160 An airbag cushion 100 partitioned into a plurality of chambers 120 and 140 through; By tightening and pulling the vent hole 110 and the vent hole 110 formed in the airbag cushion 100, the tether 340 is closed to close the vent hole 110 and the tether 340 is cut at a necessary time to vent the vent hole 110. Active vent 300 comprising a cutting mechanism 360 to open the; And a communication hole 162 formed in the diaphragm 160, a cinch tube 520 formed in the communication hole 162, and one end connected to the cinch tube 520, and the other end of the communication hole 162 formed at the diaphragm 160. It is connected to the one-weather event 500 including a tightening strap 540 to tighten and pull the cinch tube 520 when closing the tether 340 to close the communication hole 162.

The multichamber airbag of the present invention is applicable when one cushion 100 is composed of a plurality of chambers 120 and 140. Hereinafter, the case in which the cushion is divided into two chambers, that is, the airbag cushion 100 into the upper chamber 120 and the lower chamber 140 through the diaphragm 160 will be described.

The airbag cushion 100 is divided into an upper chamber 120 and a lower chamber 140, and a diaphragm 160 exists between them. In addition, a vent hole 110 may be formed in the upper chamber 120, and the vent hole 110 may be formed of a cinch tube 320. Cinch tube means that the hole is formed in the shape of a tube along the periphery, and a string is provided along the circumference of the tube so that the tube is normally opened to allow gas to flow out. It is to prevent the gas from leaking.

The vent hole 110 is provided with a tether 340 as a function of the clamping string of the cinch tube 320 so that the vent hole 110 is always blocked by keeping the tether 340 pulled out. The tether 340 has an end portion connected to the cutting mechanism 360 so that the cutting mechanism 360 cuts the tether 340 at the cutting command of the controller, and then the cinch tube 320 is driven by the pressure of the upper chamber 120. The vent hole 110 is configured to be opened.

Through this, the upper chamber 120 is configured to allow the gas (A) to flow out again at an appropriate time after the gas is filled, so as not to strike the occupant's head too hard to prevent secondary damage due to the airbag. do.

The gas A introduced into the upper chamber 120 enters the lower chamber 140 through the communication hole 162 formed in the diaphragm 160. After the gas is sufficiently filled, the vent hole 110 of the upper chamber 120 may be opened to block the communication hole 162 to accurately support the chest and lower body of the occupant P.

To this end, a one-way event 500 is formed in the communication hole 162 of the diaphragm 160. The one-way event 500 includes a cinch tube 520 and one end formed in the communication hole 162. It is connected to the cinch tube 520 and the other end is connected to the vent hole 110 side to tighten the cinch tube 520 when cutting the tether 340, pull the tightening straps 540 to close the communication hole 162. It is configured to include.

That is, one end of the tightening string 540 is connected to the cinch tube 520 formed in the communication hole 162 and the other end of the tightening string 540 is connected to the vent hole 110 side, whereby the tether (the tether by the cutting mechanism 360) Simultaneously with the cutting of the head 340, the string 540 is pulled toward the vent hole 110 to pull the tightening tube 520 of the communication hole 162 to tighten the communication hole 162.

Therefore, when the one-way event 500 is used, even if the occupant P collides with the diaphragm 160 and the diaphragm 160 is folded, the lower body of the occupant P is restrained by stably maintaining the closed state of the communication hole 162. You can do it. Moreover, the closing of the one-weather event 500 is exactly the same as the cutting point of the tether 340 by the cutting mechanism 360 so that the pressure reduction of the upper chamber 120 and the pressure retention of the lower chamber 140 are the same as desired. It can be implemented at that point.

Meanwhile, specifically, the cinch tube 320 is formed in the vent hole 110 of the active vent 300, and the tether 340 pulls the cinch tube 320, and the other end of the tightening string 540 is different. It may be fixed to the end of the cinch tube 320 of the vent hole (110). That is, the vent hole 110 and the communication hole 162 is provided with a new tooth tube (320, 520), respectively, the string 540, one end is connected to the new tooth tube 520 of the communication hole 162 and the other end is a vent hole ( By being fixed to the cinch tube 320 of the 110, when the external exposure of the cinch tube 320 according to the opening of the vent hole 110 of the upper chamber 120, the tightening string 540 is pulled, thereby pulling the tightening string 540 Tightening the cinch tube 520 of the communication hole 162 is to close the communication hole 162.

When entering into the open state in the closed state of the upper chamber 120, since the cinch tube 320 of the upper chamber 120, the vent hole 110 is moved to the outside the most the other end of the fastening string 540 When connected, the lanyard 540 is pulled firmly and may tighten the cinch tube 520 of the communication hole 162.

In addition, an inflator connection is formed in the upper chamber 120 to inject gas, and the active vent 300 is provided in the upper chamber 120 as described above.

The multichamber airbag system to which the multichamber airbag is applied includes an airbag cushion 100 partitioned into a plurality of chambers 120 and 140 through the diaphragm 160; By tightening and pulling the vent hole 110 and the vent hole 110 formed in the airbag cushion 100, the tether 340 is closed to close the vent hole 110 and the tether 340 is cut at a necessary time to vent the vent hole 110. Active vent 300 comprising a cutting mechanism 360 to open the; The communication hole 162 formed in the diaphragm 160, the cinch tube 520 formed in the communication hole 162, and one end thereof are connected to the cinch tube 520, and the other end thereof is connected to the vent hole 110. One wee event 500 that includes a tightening strap 540 to tighten and pull the cinch tube 520 when closing the 340 to close the communication hole 162; And a controller configured to operate the cutting mechanism 360 after a predetermined time has elapsed such that a sufficient amount of gas can be injected into all the chambers 120 and 140 through the diaphragm 160 after the operation of the airbag.

The control unit determines the deployment time of the airbag, and determines the tether cutting time of the active vent. In addition, in case of one-weather event, it is linked with active vent, so it is automatically linked without determining the operation time.

The cutting time of the control unit may be input by inputting a time value that has been tested in advance so that both the upper chamber and the lower chamber are properly inflated.

3 shows an initial situation in which the airbag is deployed, the vent hole 110 of the active vent 300 remains closed and the communication hole 162 of the one-weather event 500 remains open. The gas A is filled in both the upper chamber 120 and the lower chamber 140. And Figure 4 shows the middle of the deployment, when the occupant (P) the inertia hit the airbag by the inertia cutting mechanism 360 is operated by the control unit according to the tether 340 is cut accordingly active vent 300 Open. In addition, the movement of the vent hole 110 in accordance with the opening of the active vent 300 pulls the string 540 to close the communication hole 162, thereby opening the upper chamber 120 and lower chamber 140 to pressure Is to be converted to a state to maintain.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the following claims It will be apparent to those of ordinary skill in the art.

100: cushion 120: upper chamber
140: lower chamber 160: diaphragm
300: Active Vent 500: Onewe Event

Claims (5)

An airbag cushion 100 partitioned into a plurality of chambers 120 and 140 through the diaphragm 160;
By tightening and pulling the vent hole 110 and the vent hole 110 formed in the airbag cushion 100, the tether 340 is closed to close the vent hole 110 and the tether 340 is cut at a necessary time to vent the vent hole 110. Active vent 300 comprising a cutting mechanism 360 to open the; And
The communication hole 162 formed in the diaphragm 160, the cinch tube 520 formed in the communication hole 162, and one end thereof are connected to the cinch tube 520, and the other end thereof is connected to the vent hole 110. The one-way event 500 includes a tension strap 540 for tightening and pulling the cinch tube 520 and closing the communication hole 162 when cutting the tether 340. The method according to claim 1,
A cinch tube 320 is formed in the vent hole 110 of the active vent 300, and the tether 340 pulls and pulls the cinch tube 320. The other end of the tightening string 540 has a vent hole 110. The multi-chamber airbag, characterized in that fixed to the end of the cinch tube (320). The method according to claim 1,
The airbag cushion 100 is partitioned into the upper chamber 120 and the lower chamber 140 through the diaphragm 160, the upper chamber 120 is formed in the inflator connection is multi-chamber airbag, characterized in that the gas is injected. The method according to claim 3,
The active vent 300 is a multi-chamber airbag, characterized in that provided in the upper chamber (120). An airbag cushion 100 partitioned into a plurality of chambers 120 and 140 through the diaphragm 160;
By tightening and pulling the vent hole 110 and the vent hole 110 formed in the airbag cushion 100, the tether 340 is closed to close the vent hole 110 and the tether 340 is cut at a necessary time to vent the vent hole 110. Active vent 300 comprising a cutting mechanism 360 to open the;
The communication hole 162 formed in the diaphragm 160, the cinch tube 520 formed in the communication hole 162, and one end thereof are connected to the cinch tube 520, and the other end thereof is connected to the vent hole 110. One wee event 500 that includes a tightening strap 540 to tighten and pull the cinch tube 520 when closing the 340 to close the communication hole 162; And
And a control unit which operates the cutting mechanism 360 after a predetermined time has elapsed such that sufficient gas can be injected into all the chambers 120 and 140 through the diaphragm 160 after the air bag is operated.

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