JP2022165710A - Air bag and air bag device - Google Patents

Abstract

To provide an air bag and an air bag device which can stabilize opening/closing and air exhaust volume displacement of a vent hole.SOLUTION: An opening/closing mechanism 4 comprises: a vent hole cover 41 which is located inside a bag body 2 so as to cover a vent hole 3; a rectification cloth 42 which is located inside the vent hole cover 41; and a sewing part 43 which fixes the vent hole cover 41 and the rectification cloth 42 to the bag body 2. The vent hole cover 41 includes a breakage part 41b, and a flap part 41c. The flap part 41c has an area larger than an opening area of the vent hole 3. The rectification cloth 42 has an opening having an opening area smaller than that of the vent hole 3. The sewing part 43 has a pocket part 43a which can accommodate the flap part 41c.SELECTED DRAWING: Figure 1

Description

The present invention relates to an airbag and an airbag device, and more particularly to an airbag and an airbag device having a vent hole opening/closing mechanism.

2. Description of the Related Art Vehicles such as automobiles are generally equipped with an airbag device for inflating and deploying an airbag in the vehicle in case of an emergency such as a collision to absorb the impact to the occupants. Such an airbag includes, for example, a bag that can be inflated and deployed between an occupant and a vehicle structure, a vent hole that can exhaust gas supplied to the inside of the bag, and opening and closing of the vent hole. and an opening/closing mechanism (see Patent Document 1, etc.). The internal pressure of the airbag can be adjusted by such an opening/closing mechanism.

Patent Document 1 discloses that a gas bag (airbag) comprises a gas bag wall (a panel forming a bag body) having at least one vent hole, and a gas bag is mounted to cover the vent hole. A piece of material fixed to the wall (the panel forming the bag body) closes the gas bag (airbag) until the internal pressure reaches a predetermined level, and when the internal pressure becomes excessive, the piece of material is broken to close the gas bag (airbag). An opening and closing mechanism for opening is disclosed.

JP-A-10-119679

In the invention described in Patent Document 1, a piece of material is sandwiched between a reinforcing ring and a panel forming a bag body, and the reinforcing ring has an opening having a diameter equal to or greater than that of the vent hole so as to complement the vent hole. formed. In such a configuration, the entire inner surface of the piece of material covering the opening of the vent hole is subjected to a substantially uniform internal pressure, so it is difficult to stably break the piece of material at a desired timing in response to various collision events. There is a problem. In addition, there is also the problem that the material pieces after breaking partially block the opening, and the control of the exhaust amount is not stable.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an airbag and an airbag device capable of stabilizing the opening and closing of a vent hole and the amount of exhaust air.

According to the present invention, an airbag comprising a bag that can be inflated and deployed by gas supplied to the inside, a vent hole that can exhaust the gas, and an opening and closing mechanism that can control the opening and closing of the vent hole. , the opening and closing mechanism includes a vent hole cover arranged inside the bag so as to cover the vent hole, a rectifying cloth arranged inside the vent hole cover, and the vent hole cover and the rectifying cloth. a sewn portion fixed to the bag body, and the vent hole cover includes a breaking portion that breaks at a predetermined pressure, and a flap portion that is released to the outside of the vent hole after breaking the breaking portion. , the flap portion has an area larger than the opening area of the vent hole, the rectifying cloth has an opening portion with an opening area smaller than the vent hole, and the sewn portion can accommodate the flap portion. An airbag is provided, characterized in that it is configured to form a large pocket portion.

The vent hole cover may include a first slit portion forming an outer shape of the flap portion and a second slit portion for bending the flap portion.

The flap portion may have a fixing portion at the side portion or at the center portion.

The flap portion may be configured to be foldable.

The flap portion may be configured to be foldable such that the outer edge portion is reduced in diameter toward the central portion.

The opening may be composed of a plurality of small holes.

The stitching portion may have a circular shape or a substantially polygonal shape.

The vent hole cover and the rectifying cloth may be composed of one panel.

The panel may include a stiffener secured to the inflator.

The airbag may include an inflatable member arranged in a folded state between the vent hole cover and the regulating cloth, and the inflatable member may include an exhaust port.

The expansible member may be configured to be foldable such that the outer edge portion is reduced in diameter toward the central portion.

The vent hole cover, the regulating cloth, and the expansion member may be composed of a single panel.

The panel may include a stiffener secured to the inflator.

Further, according to the present invention, there is provided an airbag device comprising any one of the airbags described above and an inflator for supplying gas to the airbag.

According to the airbag and the airbag device according to the present invention described above, since there is a relationship of the size of the vent hole cover (flap portion)>the opening area of the vent hole>the opening area of the rectifying cloth, The pressure applied to the vent hole cover (flap portion) can be increased by the opening of the opening, and the response performance to break the vent hole cover can be improved. In addition, since the vent hole cover (flap part) is stored in the pocket part, even if the pressure applied to the vent hole cover (flap part) is increased, the pressure from the vent hole cover (flap part) Gas leakage can be suppressed. Therefore, according to the present invention, opening and closing of the vent hole can be stabilized.

In addition, by making the opening area of the rectifying cloth smaller than the opening area of the vent hole, it is possible to suppress the interference between the flap part and the opening of the rectifying cloth after the vent hole cover is broken, and the exhaust of the vent hole volume can be stabilized.

BRIEF DESCRIPTION OF THE DRAWINGS It is a whole block diagram which shows the airbag apparatus which concerns on 1st embodiment of this invention. 2 is a plan development view of the opening/closing mechanism shown in FIG. 1; FIG. It is sectional drawing which shows the operation|movement of an opening-and-closing mechanism, (A) shows an initial state, (B) shows a pressurization state, (C) shows a fracture|rupture state. It is a figure which shows the modification of the opening-and-closing mechanism shown in FIG. 2, (A) has shown the 1st modification, (B) has shown the 2nd modification. It is a figure which shows the modification of the opening-and-closing mechanism shown in FIG. 2, (A) has shown the 3rd modification, (B) has shown the 4th modification. It is a figure which shows the 5th modification of the opening-and-closing mechanism shown in FIG. 2, (A) is a planar development view, (B) is a folded state, (C) is sectional drawing. It is a figure which shows the 6th modification of the opening-and-closing mechanism shown in FIG. 2, (A) is a planar development view, (B) has shown the folding state. FIG. 8 is a diagram showing a seventh modification of the opening and closing mechanism shown in FIG. 2, where (A) is a patch cloth, (B) is a vent hole cover (front view in a folded state), and (C) is a rectifying cloth. there is It is a figure which shows the vent hole cover shown in FIG. 8, (A) is a plane development view, (B) has shown the folding state back view. FIG. 10 is a view showing an eighth modified example of the opening and closing mechanism shown in FIG. 2, (A) is a plan development view of the vent hole cover, (B) is a front view of the folded state of the vent hole cover, and (C) is a vent hole Shown is the rear view of the folded state of the cover. 1 is an overall configuration diagram showing an airbag device according to a second embodiment of the present invention; FIG. 12 is a plan development view of the opening/closing mechanism shown in FIG. 11; FIG. It is a figure which shows the folding procedure of the panel shown in FIG. 12, (A) shows the first step, (B) shows the second step, and (C) shows the third step. It is sectional drawing which shows the operation|movement of an opening-and-closing mechanism, (A) shows an initial state, (B) shows a pressurization state, (C) shows a fracture|rupture state. FIG. 13 is a view showing a first modification of the opening/closing mechanism shown in FIG. 12, where (A) is a plan development view of the inflatable member, (B) is a front view of the inflatable member in a folded state, and (C) is a folded inflatable member. The back view of the tatami state is shown. FIG. 13 is a view showing a second modification of the opening/closing mechanism shown in FIG. 12, where (A) is a plan development view of the expansion member, (B) is a front view of the expansion member in a folded state, and (C) is a folded expansion member. The back view of the tatami state is shown.

Embodiments of the present invention will be described below with reference to FIGS. 1 to 16C. Here, FIG. 1 is an overall configuration diagram showing the airbag device according to the first embodiment of the present invention. 2 is a plan development view of the opening/closing mechanism shown in FIG. 1. FIG. Note that the opening/closing mechanism shown in FIG. 1 shows an initial state. In addition, in FIG. 1, for convenience of explanation, the configuration other than the opening/closing mechanism is illustrated with a dashed line.

The airbag device 1 according to the first embodiment of the present invention, as shown in FIG. An airbag 5 having a vent hole 3 capable of discharging air, an opening/closing mechanism 4 capable of controlling the opening/closing of the vent hole 3, and an inflator 6 supplying gas to the airbag 5 are provided.

The bag body 2 is formed in a bag shape, for example, by stitching together a plurality of panels (base fabric). A part of the bag body 2 is formed with an inflator opening into which the inflator 6 is mounted. The configuration of the bag body 2 is not limited to that shown in the figure, and the type of the airbag 5 (driver airbag, front passenger airbag, rear seat airbag, side airbag, knee airbag, etc.) ) can be changed arbitrarily.

The inflator 6 is fixed to the retainer with the gas ejection port inserted into the bag body 2 . The inflator 6 is connected to an ECU (Electronic Control Unit) (not shown) and controlled based on measured values from an acceleration sensor or the like.

When the ECU (electronic control unit) senses a vehicle collision, the medicine stored inside the inflator 6 is burned to generate gas, which is supplied to the bag body 2 . The inflator 6 may be disk-shaped or cylindrical.

The vent hole 3 is, for example, a circular opening formed in a rear panel that constitutes the surface (rear surface) of the bag body 2 opposite to the occupant contact surface. Depending on the type of airbag 5, the vent holes 3 may be formed on other surfaces (side surfaces, lower surface, upper surface, etc.) of the airbag 5. FIG.

Moreover, in the present embodiment, the vent hole 3 is formed at one location in the bag body 2, but the vent hole 3 may be formed at a plurality of locations. Further, in the embodiment and its modifications described in this specification, the "vent hole 3" is not limited to venting the gas to the outside of the airbag 5, but rather to venting the gas into the chamber adjacent to the bag body 2. It shall also include those that exhaust

For example, as shown in FIGS. 1 and 2, the opening/closing mechanism 4 includes a vent hole cover 41 arranged inside the bag body 2 so as to cover the vent hole 3, and a vent hole cover 41 arranged inside the vent hole cover 41. It includes a rectifying cloth 42 , a sewn portion 43 fixing the vent hole cover 41 and the rectifying cloth 42 to the bag body 2 , and a reinforcing portion 44 fixed to the inflator 6 .

For example, as shown in FIG. 2, the opening/closing mechanism 4 according to the present embodiment may be configured by one panel in which the reinforcing portion 44, the rectifying cloth 42, and the vent hole cover 41 are continuous in this order. The reinforcing portion 44 includes an inflator opening 44a into which the gas ejection port of the inflator 6 is inserted, a mounting hole 44b through which a bolt for fixing the inflator 6 is inserted, and stitches for fixing the reinforcing portion 44 to the rear panel of the bag body 2. and a portion 44c.

The vent hole cover 41 is composed of, for example, a panel forming a substantially rectangular area. The vent hole cover 41 is folded back along the folding line L and placed on the regulating cloth 42 . A slit portion 41a may be formed along the folding line L to enhance flexibility.

In addition, the vent hole cover 41 includes, for example, a breaking portion 41b that breaks at a predetermined pressure, a flap portion 41c that is released to the outside of the vent hole 3 after breaking the breaking portion 41b, and a second flap portion that forms the outer shape of the flap portion 41c. It has one slit portion 41d and a second slit portion 41e for bending the flap portion 41c.

The first slit portion 41d is configured by, for example, a pair of arc-shaped cuts formed in the panel. The first slit portion 41 d is formed along a circle having a diameter larger than the diameter of the vent hole 3 and smaller than the diameter of the stitched portion 43 . Small-diameter openings 41f may be formed at the end portions of the pair of first slit portions 41d on the regulating cloth 42 side. The breaking portion 41b is configured by a narrow portion formed by a pair of openings 41f.

The second slit portion 41e is formed, for example, on a straight line along the lateral width direction of the panel. The interval between the first slit portion 41d and the second slit portion 41e is formed to be wider than the width of the narrow portion (fracture portion 41b) of the pair of openings 41f. Therefore, the weakest portion of the vent hole cover 41 is formed by the broken portion 41b.

Further, the base fabric existing between the first slit portion 41d and the second slit portion 41e constitutes a fixing portion 41g that holds the flap portion 41c after the breaking portion 41b is broken. Therefore, in this embodiment, the fixing portion 41g is formed on the side portion of the flap portion 41c.

The flap portion 41 c has an outer shape formed by the first slit portion 41 d and the broken fracture portion 41 b and has an area larger than the opening area of the vent hole 3 . Further, by forming the second slit portion 41e in the vicinity of the fixing portion 41g, it is possible to easily bend the flap portion 41c after being broken.

The rectifying cloth 42 has openings 42 a having an opening area smaller than that of the vent holes 3 . The opening 42a is composed of, for example, a plurality of small holes formed so as to communicate with the vent hole 3 . The opening area of the opening 42a is calculated as the sum of the opening areas of these small holes. The shape and number of openings 42a are not limited to the illustrated configuration.

Further, as shown in the figure, the openings 42a (four small holes) are preferably formed on the inner diameter side of the diameter of the vent hole 3, but a part of the openings 42a covers the edge of the vent hole 3. may be The opening portion 42a is formed so as to be located on the inner diameter side of the first slit portion 41d and the second slit portion 41e of the vent hole cover 41. As shown in FIG.

The vent hole cover 41 is folded over the rectifying cloth 42 , and the vent hole cover 41 and the rectifying cloth 42 are sewn to the rear panel of the bag body 2 at the sewn portions 43 . At this time, the vent hole cover 41 is sandwiched between the rear panel of the bag body 2 and the straightening cloth 42 . The stitched portion 43 is formed, for example, in a circular shape concentric with the vent hole 3 .

The stitched portion 43 is arranged at a predetermined distance Dp from the edge portion of the vent hole 3, so that it is configured to form a pocket portion 43a capable of accommodating the flap portion 41c. Due to the depth (distance Dp) of the pocket portion 43a, gas leakage from the flap portion 41c during inflation and deployment of the airbag 5 can be suppressed.

Here, FIG. 3 is a cross-sectional view showing the operation of the opening/closing mechanism, (A) showing the initial state, (B) the pressurized state, and (C) the broken state. Note that the cross-sectional view shown in FIG. 3A is a cross-sectional view taken along line AA in FIG. Further, in each figure, for convenience of explanation, the bag body 2, the vent hole cover 41, and the rectifying cloth 42 are shown in a state of being spaced apart.

As shown in FIG. 3A, the vent hole cover 41 is folded back so as to overlap the rectifying cloth 42, is arranged between the bag body 2 (rear panel) and the rectifying cloth 42, and covers the vent hole 3. is configured to The bag body 2 (rear panel), the vent hole cover 41 and the rectifying cloth 42 are sewn together at the sewn portion 43 . In this state, the bag body 2 is folded and housed in a retainer or the like.

When the airbag device 1 is activated by a vehicle collision or the like, gas is supplied from the inflator 6 into the airbag 5 . As the inflation and deployment of the airbag 5 progresses, pressure is applied to the vent hole cover 41 through the openings 42a of the regulating cloth 42, as shown in FIG. 3(B).

At this time, since the opening area of the opening 42a of the rectifying cloth 42 is made smaller than the opening area of the vent hole 3, the gas supplied to the airbag 5 is concentrated in a part of the vent hole cover 41. It is possible to pressurize and improve response performance when breaking the vent hole cover 41 .

Further, since the flap portion 41c of the vent hole cover 41 has an area larger than the opening area of the vent hole 3 and is accommodated in the pocket portion 43a, gas leakage from the first slit portion 41d can be suppressed. Even if the pressure applied to the vent hole cover 41 (flap portion 41c) is increased, the opening and closing of the vent hole 3 can be stabilized.

After that, when the internal pressure of the airbag 5 further increases due to contact with an occupant or the like, the pressure applied to the vent hole cover 41 also increases and the fracture portion 41b is fractured, and as shown in FIG. 41c is discharged from the vent hole 3 to the outside. At this time, since the opening area of the opening 42a of the rectifying cloth 42 is smaller than that of the vent hole 3, interference between the gas discharged from the opening 42a of the rectifying cloth 42 and the flap portion 41c is suppressed, can be made easy to escape, and the exhaust amount of the vent hole 3 can be stabilized.

Here, FIG. 4 is a diagram showing a modification of the opening/closing mechanism shown in FIG. 2, where (A) shows the first modification and (B) shows the second modification. Components that are the same as those of the embodiment shown in FIG.

In the first modification shown in FIG. 4A, the vent hole cover 41 and the regulating cloth 42 are made up of one panel. When the vent hole 3 is formed at a position away from the inflator 6, the reinforcing portion 44 can be separated.

In the second modification shown in FIG. 4B, the vent hole cover 41 and the rectifying cloth 42 are formed of separate panels. Since the vent hole cover 41 and the rectifying cloth 42 are sewn to the bag body 2 (rear panel) by the sewn portion 43, they may be composed of independent panels as illustrated.

Here, FIG. 5 is a diagram showing a modification of the opening/closing mechanism shown in FIG. 2, where (A) shows the third modification and (B) shows the fourth modification. Components that are the same as those of the embodiment shown in FIG. For convenience of explanation, a virtual line indicating the position of the vent hole 3 is omitted in FIG. 5(B).

A third modification shown in FIG. 5A is obtained by forming the stitched portion 43 of the embodiment shown in FIG. 2 into a substantially polygonal shape. The term "substantially" means that the corners may be arc-shaped instead of acute-angled. For example, the sewn portion 43 is formed in a rectangular shape with rounded corners. With such a configuration, the distance Dc between the corner of the sewn portion 43 and the vent hole 3 can be increased, and a deep pocket portion 43a can be formed. In addition, the stitched portion 43 may have a polygonal shape of a pentagon or more.

Also, the flap portion 41 c may be formed in a substantially polygonal shape in accordance with the shape of the sewn portion 43 . For example, the first slit portion 41d is formed in a substantially U-shape as a whole, and a narrow portion forming the breaking portion 41b is formed in the intermediate portion of the base.

The fourth modification shown in FIG. 5(B) is formed with two breaking portions 41b. For example, the first slit portion 41d is formed in a substantially U-shape as a whole, and narrow portions are formed at two corners to form the breakage portions 41b. Thus, the number and positions of the breaking portions 41b can be arbitrarily set according to conditions such as the shape of the flap portion 41c and the breaking load.

Here, FIG. 6 is a diagram showing a fifth modified example of the opening and closing mechanism shown in FIG. ing. Components that are the same as those of the embodiment shown in FIG.

In a fifth modification shown in FIGS. 6A to 6C, the flap portion 41c is changed from a single opening to a double opening. For example, as shown in FIG. 6(A), the first slit portion 41d is formed in a substantially square shape as a whole, and has narrow portions forming fracture portions 41b at two locations in the vertical direction (Y direction). It is formed. Further, a fixing portion 41g configured by a suture line extending in the lateral direction (X direction) is arranged at the central portion of the flap portion 41c.

As shown in FIG. 6(B), the vent hole cover 41 is folded over the rectifying cloth 42 and sewn to the rectifying cloth 42 by a stitching line forming the fixing portion 41g.

As shown in FIG. 6C, gas is supplied from the inflator 6 into the airbag 5 when the airbag device 1 is activated due to a vehicle collision or the like. When the pressure inside the airbag rises, the breaking portion 41b breaks, and the flap portion 41c is released outside the vent hole 3 . At this time, since the flap portion 41c is sewn to the regulating cloth 42 by the fixing portion 41g, both ends in the vertical direction (Y direction) are pulled out from the pocket portion 43a.

Even when the flap portion 41c is configured to open on both sides in this way, since the opening area of the vent hole 3 is larger than the opening portion 42a of the rectifying cloth 42, the gap between the flap portion 41c and the opening portion 42a of the rectifying cloth 42 is large. Interference can be suppressed, and the exhaust amount of the vent hole 3 can be stabilized.

Here, FIGS. 7A and 7B are views showing a sixth modification of the opening/closing mechanism shown in FIG. 2, where (A) is a plan development view and (B) is a folded state. Components that are the same as those of the embodiment shown in FIG.

The sixth modification shown in FIGS. 7(A) and 7(B) is similar to the fifth modification, except that the flap part 41c is opened from one side to opened both sides. For example, as shown in FIG. 7(A), the first slit portion 41d is formed in a substantially square shape as a whole, and the fracture portions 41b are formed at four corner portions. Further, a fixing portion 41g configured by a suture line extending in the lateral direction (X direction) is arranged at the central portion of the flap portion 41c.

Further, the rectifying cloth 42 has an opening 42a divided into two in the Y direction by a bridge portion 41k formed along the X direction. As shown in FIG. 7(B), the vent hole cover 41 is folded over the rectifying cloth 42 and sewn to the bridge portions 41k of the rectifying cloth 42 by the stitching lines forming the fixing portions 41g.

Here, FIG. 8 is a diagram showing a seventh modification of the opening and closing mechanism shown in FIG. 2, (A) is a patch cloth, (B) is a vent hole cover (front view in a folded state), (C) indicates a rectifying cloth. 9A and 9B are views showing the vent hole cover shown in FIG. 8, where (A) is a plan development view and (B) is a rear view of the folded state. Components that are the same as those of the embodiment shown in FIG.

The patch cloth 45 shown in FIG. 8A includes a reinforcing portion 44 arranged at the attachment portion of the inflator 6 and a reinforcing portion 46 arranged around the outer periphery of the vent hole 3 . An opening 46 a having the same diameter as the vent hole 3 is formed in the reinforcing portion 46 . The opening/closing mechanism 4 according to the seventh modified example is configured such that the patch cloth 45, the vent hole cover 41, and the rectifying cloth 42 are separate panels.

The vent hole cover 41 shown in FIG. 8(B) is a front view of the state where the vent hole cover 41 shown in FIG. 9(A) is folded. In FIG. 9A, thin solid lines indicate mountain fold lines Lm, and thin dashed lines indicate valley fold lines Lv. For example, as shown in FIG. 9A, the vent hole cover 41 has a rectangular shape including a folding width W on each side.

8(B) and 9(B), the vent hole cover 41 is arranged on the rectifying cloth 42 side when folded along the mountain fold line Lm and the valley fold line Lv. It has a bottom portion 41h and a top portion 41i arranged on the vent hole 3 side. The bottom portion 41h has, for example, the same outer shape as the regulating cloth 42 in the folded state. The top portion 41i is, for example, rectangular and has a fixing portion 41g at its center.

The bottom portion 41h is formed with, for example, slit portions 41j arranged on the same circle when folded. Further, small-diameter openings 41f are formed at both ends of the slit part 41j, and the breaking part 41b may be constituted by a narrowed part formed by the pair of openings 41f.

Therefore, the flap portion 41c is constituted by an inner region surrounded by the slit portion 41j, and is configured to be foldable such that the outer edge portion is reduced in diameter toward the central portion. In addition, the folding method of the flap part 41c is not limited to the illustrated folding method.

By configuring the flap portion 41c to be foldable in this way, it is possible to form an inflatable portion that temporarily stores gas when the airbag 5 is inflated and deployed, and to increase the pressure generated in the breaking portion 41b. , the response performance of the vent hole cover 41 can be improved.

Here, FIG. 10 is a view showing an eighth modified example of the opening/closing mechanism shown in FIG. 2, (A) is a plan development view of the vent hole cover, and (B) is a front view of the folded state of the vent hole cover. , (C) shows a rear view of the folded state of the vent hole cover. Components that are the same as those of the embodiment shown in FIG. 2 and the seventh modification shown in FIG.

In the eighth modification shown in FIGS. 10A to 10C, the breaking portion 43 of the seventh modification shown in FIGS. 9A to 9C is changed to a substantially square shape, Accordingly, the configurations of the slit portion 41j and the breaking portion 41b are changed. Since the configuration other than the vent hole cover 41 is the same as that of the seventh modification, the description is omitted here.

The slit portion 41j is formed in, for example, a substantially rectangular shape as a whole, and a narrow portion forming the breaking portion 41b is formed in a part of each side. For example, as shown in the figure, the narrowed portion forming the breaking portion 41b may be formed by extending both ends of the slit portion 41j outward. With such a configuration, it is also possible to configure the flap portion 41c having the same function as the seventh modified example.

Next, an airbag device 1 according to a second embodiment of the invention will be described with reference to FIGS. 11 to 16C. Here, FIG. 11 is an overall configuration diagram showing the airbag device according to the second embodiment of the present invention. 12 is a plan development view of the opening/closing mechanism shown in FIG. 11. FIG. 13A and 13B are diagrams showing the procedure for folding the panel shown in FIG. 12, where (A) shows the first step, (B) the second step, and (C) the third step. Note that the same reference numerals are given to the same components as in the above-described first embodiment, and redundant explanations are omitted.

The airbag device 1 according to the second embodiment includes an expansion member 47 arranged in a folded state between a vent hole cover 41 and a regulating cloth 42 in an opening/closing mechanism 4 . The expansion member 47 has a function of aggregating the gas flowing from the regulating cloth 42 and amplifying the pressure transmitted to the vent hole cover 41 .

The inflatable member 47 also has an exhaust port 47 a for discharging gas to the outside of the bag body 2 . Conditions such as the size, shape, number, and arrangement of the exhaust ports 47a can be arbitrarily set, and are not limited to the illustrated configuration.

For example, as shown in FIG. 12, the vent hole cover 41, the regulating cloth 42, the reinforcing portion 44, and the inflatable member 47 are made up of one panel. Here, since the configuration of the vent hole cover 41, the rectifying cloth 42, and the reinforcing portion 44 is the same as that of the fourth modification of the first embodiment shown in FIG. 5B, detailed description is omitted here. do.

The configuration of the vent hole cover 41, the rectifying cloth 42, and the reinforcing portion 44 may be the same as that of the first embodiment shown in FIG. It may have the same configuration as the other modification shown in FIG. 10(C).

In FIG. 12, thin solid lines indicate mountain fold lines Lm, and thin dashed lines indicate valley fold lines Lv. For example, as shown in FIG. 13A, the expansion member 47 is folded in the horizontal direction (X direction) to shorten the width, and then folded in the vertical direction (Y direction) to shorten the vertical width. It is deformed into a shape having the same size as the vent hole cover 41 or the rectifying cloth 42 . The expansion member 47 may be folded in the vertical direction (Y direction) to shorten the vertical width, and then folded in the horizontal direction (X direction) to shorten the horizontal width.

The expansion member 47 includes a bottom portion 47b arranged on the regulating cloth 42 side and a top portion 47c arranged on the vent hole cover 41 side when folded along the mountain fold line Lm and the valley fold line Lv. there is That is, the expansion member 47 is configured to be foldable such that the outer edge forming the bottom portion 47b decreases in diameter toward the central portion forming the top portion 47c. As shown in FIG. 13(A), the expansion member 47 is folded so that the top portion 47c is formed on the bottom portion 47b in a state in which the panel is unfolded.

Next, as shown in FIG. 13(B), the folded expansion member 47 is folded back on the adjacent vent hole cover 41 along the folding line L1. That is, the expansion member 47 is folded back so that the top portion 47 c is adjacent to the vent hole cover 41 .

Next, as shown in FIG. 13C, the bottom portion 47b is folded back along the folding line L2 so that the bottom portion 47b is arranged on the rectifying cloth . In this state, as shown in FIG. 11, the opening/closing mechanism 4 is sewn to the bag body 2 (rear panel) by the sewn portions 43 .

14A and 14B are cross-sectional views showing the operation of the opening/closing mechanism, in which (A) shows the initial state, (B) the pressurized state, and (C) the broken state. The cross-sectional view shown in FIG. 14A is a cross-sectional view taken along line AA in FIG.

As shown in FIG. 14A, the expansion member 47 is arranged between the vent hole cover 41 and the rectifying cloth 42 so as to cover the vent hole 3 . The bag body 2 (rear panel), the vent hole cover 41, the expansion member 47, and the rectifying cloth 42 are sewn together at the sewn portion 43. As shown in FIG. In this state, the bag body 2 is folded and housed in a retainer or the like.

When the airbag device 1 is activated by a vehicle collision or the like, gas is supplied from the inflator 6 into the airbag 5 . As the inflation and deployment of the airbag 5 progresses, gas is sent to the inflatable member 47 through the openings 42a of the regulating cloth 42, as shown in FIG. 14(B). Since the expansion member 47 is folded and the exhaust port 47a is closed, the expansion member 47 presses the vent hole cover 41 to come out of the vent hole 3 as illustrated.

At this time, since the opening area of the opening 42a of the rectifying cloth 42 is made smaller than the opening area of the vent hole 3, the gas supplied to the airbag 5 can be gathered into the inflatable member 47 and pressurized. It is possible to improve the response performance when the expansion member 47 is inflated.

Further, since the flap portion 41c of the vent hole cover 41 has an area larger than the opening area of the vent hole 3 and is accommodated in the pocket portion 43a, gas leakage from the first slit portion 41d can be suppressed. Even if the pressure applied to the vent hole cover 41 (flap portion 41c) is increased, the opening and closing of the vent hole 3 can be stabilized.

After that, when the internal pressure of the airbag 5 further increases due to contact with an occupant or the like, the inflatable member 47 is further inflated, the pressure applied to the vent hole cover 41 also increases, and the fracture portion 41b is fractured. As shown in FIG. 14C, the flap portion 41c and the inflatable member 47 are discharged to the outside through the vent hole 3, and the gas is discharged from the exhaust port 47a of the inflatable member 47. As shown in FIG.

At this time, since the opening area of the opening 42a of the rectifying cloth 42 is smaller than that of the vent hole 3, the gas sent from the opening 42a of the rectifying cloth 42 and discharged from the exhaust port 47a of the expansion member 47 and the flap Interference with the portion 41c can be suppressed, gas can be easily released, and the exhaust amount of the vent hole 3 can be stabilized.

15A and 15B are diagrams showing a first modification of the opening/closing mechanism shown in FIG. C) shows a folded back view of the inflatable member. Components that are the same as those of the second embodiment shown in FIG. 12 are given the same reference numerals, and overlapping descriptions are omitted.

In a first modification of the second embodiment shown in FIG. 15(A), the inflatable member 47 is composed of a separate panel independent of the vent hole cover 41 and the regulating cloth 42 . The expansion member 47 has a substantially polygonal shape (for example, square, hexagonal, octagonal, etc.). In addition, the corner may be formed in an arc shape. The configuration of the exhaust port 47a, the folding method, and the like are the same as those of the expansion member 47 shown in FIG.

As shown in FIGS. 15(B) and 15(C), the expansion member 47 is configured to be foldable along the mountain fold line Lm and the valley fold line Lv so as to decrease in diameter toward the central portion. ing. The top portion 47c shown in FIG. 15B is arranged on the vent hole cover 41 side, and the bottom portion 47b shown in FIG.

Here, FIG. 16 is a view showing a second modification of the opening/closing mechanism shown in FIG. 12, (A) is a plan development view of the vent hole cover, and (B) is a front view of the folded state of the vent hole cover. , (C) shows a rear view of the folded state of the vent hole cover. Components that are the same as those of the second embodiment shown in FIG. 12 are given the same reference numerals, and overlapping descriptions are omitted.

In a second modification of the second embodiment shown in FIG. 16(A), similarly to the first modification shown in FIG. It is made up of separate panels. The expansion member 47 has, for example, a decagonal shape, but may have a pentagonal shape. The corners may be arc-shaped.

As shown, the five long sides include folds of fold width W formed by mountain fold lines Lm and valley fold lines Lv. The expansion member 47 has a top portion 47c having a pentagonal shape at its center and a flat portion forming a bottom portion 47b on its outer circumference. The exhaust port 47a is arranged along the outer periphery of the top portion 47c and is configured to be closed when the expansion member 47 is folded.

As shown in FIGS. 16(B) and 16(C), the expansion member 47 is configured to be foldable along the mountain fold line Lm and the valley fold line Lv so as to reduce the diameter toward the central portion. ing. The top portion 47c shown in FIG. 16B is arranged on the vent hole cover 41 side, and the bottom portion 47b shown in FIG.

The shape and configuration of the expansion member 47 shown in the first and second modifications of the above-described second embodiment are merely examples, and the shape, configuration and folding method of the expansion member 47 are limited to the illustrated configuration. not something.

The present invention is not limited to the above-described embodiments, and various modifications are possible without departing from the scope of the present invention.

1 Airbag device 2 Bag body 3 Vent hole 4 Open/close mechanism 5 Airbag 6 Inflator 41 Vent hole cover 41a Slit portion 41b Breaking portion 41c Flap portion 41d First slit portion 41e Second slit portion 41f Opening portion 41g Fixed portion 41h Bottom portion 41i Top 41j Slit 41k Bridge 42 Rectifying cloth 42a Opening 43 Sewing 43a Pocket 44 Reinforcement 44a Inflator opening 44b Mounting hole 44c Sewing 45 Patch cloth 46 Reinforcement 46a Opening 47 Expansion member 47a Exhaust port 47b Bottom 47c top

Claims (14)

An airbag comprising a bag that can be inflated and deployed by gas supplied to the inside, a vent hole that can exhaust the gas, and an opening and closing mechanism that can control the opening and closing of the vent hole,
The opening/closing mechanism includes a vent hole cover arranged inside the bag so as to cover the vent hole, a rectifying cloth arranged inside the vent hole cover, and the vent hole cover and the rectifying cloth. a suture portion fixed to the bag,
The vent hole cover includes a rupture portion that ruptures under a predetermined pressure, and a flap portion that is released to the outside of the vent hole after the rupture portion is ruptured. have a large area,
The rectifying cloth has an opening with an opening area smaller than that of the vent hole,
the suturing portion is configured to form a pocket portion that can accommodate the flap portion;
An airbag characterized by: 2. The airbag according to claim 1, wherein the vent hole cover includes a first slit portion forming an outer shape of the flap portion and a second slit portion for bending the flap portion. 2. The airbag according to claim 1, wherein the flap portion comprises fixing portions on the sides or in the center. The airbag according to claim 1, wherein the flap portion is configured to be foldable. 2. The airbag according to claim 1, wherein the flap portion is configured to be foldable such that the outer edge portion of the flap portion is reduced in diameter toward the center portion. 2. The airbag of claim 1, wherein said opening comprises a plurality of perforations. 2. The airbag according to claim 1, wherein said seams have a circular or substantially polygonal shape. 2. The airbag according to claim 1, wherein said vent hole cover and said regulating fabric are constructed from a single panel. 9. The airbag of claim 8, wherein the panel includes reinforcements secured to the inflator. 2. The airbag according to claim 1, further comprising an inflatable member arranged in a folded state between the vent hole cover and the regulating cloth, the inflatable member having an exhaust port. 11. The airbag according to claim 10, wherein the inflatable member is configured to be foldable such that the diameter of the outer edge portion is reduced toward the central portion. 11. The airbag according to claim 10, wherein said vent hole cover, said rectifying cloth and said inflatable member are constructed from a single panel. 13. The airbag of claim 12, wherein said panel includes a stiffener secured to an inflator. An airbag device comprising: the airbag according to any one of claims 1 to 13; and an inflator that supplies gas to the airbag.

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