JP2006088847A - Occupant protecting device for vehicle - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an occupant protecting device for a vehicle allowing a mounting bracket to absorb in good performance an impact given when a driver etc. has collided with the mounting bracket. <P>SOLUTION: The occupant protecting device 50 for the vehicle includes a first 151 and a second mounting bracket 151, wherein the strength of the first mounting bracket 151 positioned over a front middle pillar 22 constituting a window frame is made lower, while the second mounting bracket 152 in a position isolated from the front middle pillar 22 is made higher, and the impact generated when the driver etc. Ma has collided with the brackets 151 and 152 is absorbed uniformly by the brackets 151 and 152. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a vehicle occupant protection device for attaching an airbag along a roof of a vehicle and inflating and deploying the airbag from a folded state by operating an inflator.

In recent years, development has been advanced in order to improve the protection performance of the occupant's head when an impact force is applied to the side of the vehicle.
In this type of vehicle occupant protection device, for example, a roof side airbag is stored from the pillar to the side edge of the roof, and the roof side airbag is curtained along the side glass when subjected to a certain level of impact force. A technique for bulging has been developed (for example, see Patent Document 1).
Japanese Patent No. 3510061

  The conventional vehicle shown in Patent Document 1 is a passenger car in which one seat or two front and rear seats are provided in a passenger compartment, and a pillar garnish is provided with a certain pillar space on the passenger compartment side of the front pillar. A fixed roof space elongated in the longitudinal direction of the passenger compartment is provided on the side of the passenger compartment at the side corner of the attachment and roof, and a vehicle occupant protection device is further provided.

  This vehicle occupant protection device accommodates a roof side airbag in the pillar space portion and the roof space portion, attaches an inflator to the roof side rail, and attaches the roof side airbag to the roof side rail with a bolt at a constant pitch. Further, the roof side airbag is connected to the inflator via a gas supply pipe.

  According to such a vehicle occupant protection device, when the sensor detects that an impact force of a certain level or more has been received from the side of the vehicle body, the inflator generates gas, so that the roof side airbag is moved along the side glass. Can be expanded to the passenger compartment side.

Here, in order to attach the roof side airbag to the roof side, a mounting bracket is usually used.
It is preferable that the mounting bracket has a high strength so that when the occupant hits the mounting bracket, the impact is absorbed by deformation of the mounting bracket.

By the way, since the mounting bracket is arranged at a predetermined interval on the roof side, some of the mounting brackets are located above the pillar.
This pillar is provided with a pillar garnish that also serves as an impact absorber facing the room.

When the occupant hits the mounting bracket above the pillar, the occupant hits the mounting bracket and simultaneously hits the pillar garnish.
When the occupant hits the pillar garnish, part of the impact is absorbed by the pillar garnish. For this reason, the impact applied to the mounting bracket is relatively small.

  On the other hand, when an occupant hits the mounting bracket at a position away from the pillar, the occupant hits only the mounting bracket without hitting the pillar garnish. For this reason, the impact applied to the mounting bracket is relatively large.

Thus, since the impact applied to each mounting bracket is different, it is difficult to satisfactorily absorb the impact applied to each mounting bracket if each mounting bracket has the same strength.
Therefore, even when the impact applied to each mounting bracket is different, it has been desired to put into practical use a technique that can absorb the impact applied to each mounting bracket satisfactorily.

  An object of the present invention is to provide a vehicle occupant protection device capable of satisfactorily absorbing the impact by a mounting bracket when the occupant hits the mounting bracket.

  The invention according to claim 1 is a vehicle occupant protection device that protects an occupant by attaching an airbag to a vehicle roof via a mounting bracket and operating the inflator to inflate and deploy the airbag from a folded state. Of the mounting brackets, the strength of the mounting brackets located above the pillars constituting the window frame is lowered, and the mounting brackets with low strength are combined with the pillar garnish provided on the pillars so that they are removed from the pillars. It is configured to absorb the same impact as the position mounting bracket.

Here, the pillar is provided with a pillar garnish. Therefore, when the passenger hits the mounting bracket above the pillar, the passenger hits the pillar garnish at the same time. When the occupant hits the pillar garnish, part of the impact is absorbed by the pillar garnish.
For this reason, when an occupant hits the mounting bracket above the pillar, the impact applied to the mounting bracket can be kept small.

  Therefore, the strength of the mounting bracket located above the pillar was lowered. Thereby, when a small impact is applied to the mounting bracket, the small impact can be suppressed by the mounting bracket.

On the other hand, when an occupant hits the mounting bracket at a position removed from the pillar, the occupant hits only the mounting bracket without hitting the pillar garnish.
For this reason, when an occupant hits the mounting bracket at a position removed from the pillar, the impact applied to the mounting bracket is relatively large.

  Therefore, the strength of the mounting bracket at a position away from the pillar was increased. As a result, when a relatively large impact is applied to the mounting bracket, the large impact can be suppressed by the mounting bracket.

  In the invention according to claim 1, by reducing the strength of the mounting bracket located above the pillar constituting the window frame among the mounting brackets, and combining the low-strength mounting bracket and the pillar garnish, By absorbing the same impact as that of the mounting bracket at the removed position, there is an advantage that the impact applied to each mounting bracket can be absorbed well and the impact can be absorbed uniformly as a whole.

The best mode for carrying out the present invention will be described below with reference to the accompanying drawings. Note that “front”, “rear”, “left”, “right”, “upper”, and “lower” follow the direction seen from the driver.
FIG. 1 is a side view of a vehicle equipped with a vehicle occupant protection device according to the present invention as viewed from the passenger compartment side, and shows a state in which a roof side airbag 53 of the vehicle occupant protection device 50 is deployed.
In addition, about the vehicle occupant protection device 50, only the structure arrange | positioned on the right side of the vehicle 10 is shown. The vehicle occupant protection device 50 on the left side has the same configuration as that on the right side, and a description thereof will be omitted.

The vehicle 10 is an automobile generally referred to as a minivan, in which three front and rear seats including a front seat 12, an intermediate seat 13, and a rear seat 14 are provided in a passenger compartment 11.
A vehicle body 20 in such a vehicle 10 includes a front front pillar 21, two middle front pillars 22 and a rear middle pillar 23, and a rear rear pillar 24, and each of these pillars 21 to 24. The roof side rail 25 is provided at the upper end of the roof, and the roof 26 is supported by the roof side rail 25.
The vehicle 10 further includes a front side glass 31, an intermediate side glass 32, and a rear side glass 33 between the pillars 21 to 24.

Further, FIG. 1 shows that the occupant Ma sitting on the rightmost side of the rear seat 14 is restrained by the seat belt device 40.
The seat belt device 40 is configured such that the seat belt 42 wound around the retractor 41 is pulled out and passed through the through ring 43 and then hooked to the lower anchor 44.
The retractor 41 is a belt winder attached to the lower part of the rear pillar 24. The through ring 43 is a member attached to the upper part of the rear pillar 24.
The lower anchor 44 is a member attached to the side of the cushion of the rear seat 14. The upper part of the occupant Ma and the waist can be restrained by the seat belt 42.

The vehicle occupant protection device 50 detects that an impact force of a certain level or more is applied to the side portion of the vehicle 10 with an impact detection sensor (not shown), and the inflator 51 generates gas in response to the sensor signal. By supplying this gas to the roof side airbag 53 via the supply pipe 52, the roof side airbag 53 is inflated toward the vehicle compartment 11 along the side glasses 31 to 33.
The roof side airbag 53 inflated and deployed in the passenger compartment 11 covers the side glasses 31 to 33 and can protect particularly the head He of the occupant Ma sitting on the seats 12 to 14.

FIG. 2 is a perspective view of the vehicle occupant protection device according to the present invention as viewed from the passenger compartment side, and shows a state in which the roof side airbag 53 of the vehicle occupant protection device 50 is stored.
As shown in FIGS. 1 and 2, the supply pipe 52 is a gas pipe that supplies gas from the inflator 51 to the roof side airbag 53.
The inflator 51 and the supply pipe 52 are arranged in parallel to the roof side airbag 53 so as to extend in the longitudinal direction of the vehicle body (left and right direction in the drawing).

The vehicle occupant protection device 50 has a fixed roof space portion S1 (space portion S1) that is elongated in the vehicle longitudinal direction (that is, the vehicle longitudinal direction) on the side of the vehicle compartment 11 at the side corner 26a of the roof 26. The inflator 51, the supply pipe 52, and the roof side airbag 53 are accommodated in the roof space S1.
In addition, the vehicle occupant protection device 50 includes a pillar garnish 54 having a predetermined pillar space S2 attached to the front pillar 21 provided in the front portion on the vehicle compartment 11 side, and a roof side airbag in the pillar space S2. The front part of 53 is accommodated.

Further, the vehicle occupant protection device 50 (1) attaches the front end portion 53a of the roof side airbag 53 to the front pillar 21 via the bracket 55 with a fastening member 56 such as a band, and (2) attaches the bracket 57 to the rear pillar 24. The rear end portion 53b of the roof side airbag 53 is attached by a fastening member 58 such as a band, and the protector cloth mounting structure 61, the airbag retaining structure 62, the mounting bracket structure 63, and various fixing mechanisms are attached to the roof side rail 25. 64 to 67.
As shown in FIG. 2, the mounting bracket structure 63 includes a first mounting bracket 151 and a second mounting bracket 152.

  The protector cloth mounting structure 61, the airbag retaining structure 62, and the mounting bracket structure 63 will be described in detail with reference to FIGS.

FIG. 3 is a side view showing a state in which the roof side airbag of the vehicle occupant protection device according to the present invention is deployed.
As shown in FIGS. 1 and 3, the roof side airbag 53 is made of a flexible sheet such as an airtight cloth, and (1) two front and rear units arranged approximately at the center in the longitudinal direction of the passenger compartment. (2) two front and rear gas main flow paths 72F and 72R extending in the longitudinal direction of the passenger compartment along the roof space S1 from the gas inlet portions 71F and 71R, and (3) Passing through the gas main flow paths 72F and 72R individually, one end of each of the front and rear gas inlets 71F and 71R is individually connected to the front and rear inner tubes 73F and 73R, and (4) the front inner tube 73F. The front bag part 74F communicates via the front gas main flow path 72F and expands at a position corresponding to the front seat 12, and (5) the rear inner tube 73R via the rear gas main flow path 72R. Communication, intermediate seat 13 An intermediate bag portion 74M that expands at a corresponding position, and (6) a rear bag portion 74R that communicates with the rear inner tube 73R via the rear gas main flow path 72R and expands at a position corresponding to the rear seat 14. , In one piece.

When the front bag part 74F expands the front bag part 74F along the front side glass 31 toward the vehicle compartment 11, the gas flowing in from the front gas main flow path 72F moves downward and forwards upward. The three inflatable parts 75a to 75c are configured to flow in the direction of folding.
These inflating portions 75a to 75c have a configuration in which a front inflating portion 75a at the front end, an intermediate inflating portion 75b, and a rear inflating portion 75c at the rear end are arranged in a line. The front expansion part 75a and the intermediate expansion part 75b are in close contact with each other, and the intermediate expansion part 75b and the rear expansion part 75c are in close contact with each other.

  In the front bag portion 74F, the intermediate inflating portion 75c has an upper end opening arranged near the front end of the front gas main flow path 72F and communicated, and a front lower end communicated with an opening at the rear lower end of the front inflating portion 75a. It is. The front inflating part 75a has an opening only at the rear lower end. The rear inflating portion 75c is in communication with the upper end opening disposed near the front end of the front gas main flow path 72F.

  The intermediate bag portion 74M includes three front and rear inflatable portions 76a to 76c arranged below the two front and rear gas inlet portions 71F and 71R. These inflatable portions 76a to 76c have a configuration in which a front inflatable portion 76a at the front end, an intermediate inflatable portion 76b, and a rear inflatable portion 76c at the rear end are arranged in a line. The front expansion part 76a and the intermediate expansion part 76b are in close contact with each other, and the intermediate expansion part 76b and the rear expansion part 76c are in close contact with each other.

  In the intermediate bag portion 74M, the intermediate inflating portion 76b communicates with the rear upper end opening disposed near the rear end in the rear gas main flow path 72R, and the front upper end communicated with the rear upper end opening in the front inflating portion 76a. Is. The front expansion portion 76a has an opening only at the rear upper end. The rear inflating portion 76c is in communication with the upper end opening disposed in the vicinity of the rear end in the rear gas main flow path 72R.

The rear bag portion 74R includes two front and rear inflatable portions 77a and 77b arranged rearward of the rear gas main flow path 72R. These inflating portions 77a and 77b have a configuration in which a front inflating portion 77a at the front end and a rear inflating portion 77b at the rear end are arranged in a line.
The front inflating portion 77a communicates the opening at the front lower end with the rear end of the rear gas main flow path 72R via the upper communication pipe 78A and the opening at the front lower end in the intermediate bag portion 74M via the lower communication pipe 78B. It communicates with the rear opening of the rear expansion portion 76c.
The rear inflating part 77b communicates the opening at the front lower end with the opening at the rear lower end of the front inflating part 77a.

By the way, the roof side airbag 53 is integrally provided with a non-inflatable portion 79 around each bag portion 74F, 74M, 74R. The non-expandable portion 79 includes a front non-expandable portion 79A at the front end, an intermediate non-expandable portion 79B, and a rear non-expandable portion 79C at the rear end.
The front non-inflatable portion 79A includes a string-like or band-like front strap 81. The rear non-inflatable portion 79B includes a string-like or band-like rear strap 82 and a slit 83.
In FIG. 3, 86F and 86R are jet holes opened in the two front and rear inner tubes 73F and 73R, respectively.

  Hereinafter, the protector cloth mounting structure 61, the airbag retaining structure 62, and the mounting bracket structure 63 will be described with reference to FIGS.

First, the protector cloth mounting structure 61 will be described with reference to FIGS.
FIG. 4 is a perspective view showing a protector cross mounting structure provided in the vehicle occupant protection device according to the present invention, and FIG. 5 is a cross-sectional view showing a protector cross mounting structure provided in the vehicle occupant protection device according to the present invention. is there.
The protector cloth mounting structure 61 includes a cover 91 that covers the folded roof side airbag 53 and a protector cloth 102 that protects the roof side airbag 53. First and second sewing threads 103, 103 , 104, and the second sewing thread 104 for sewing the portion 113 for inflating and deploying the roof side airbag 53 of the first and second sewing threads 103, 103, 104 sewn together is attached to the roof side airbag 53. It is weakened so as to be broken by the expansion and deployment force.
Here, the inflating and deploying force is a force generated when the roof side airbag 53 is inflated and deployed.

  The roof side airbag 53 is spirally wound (folded) so that the lower end portion 53c is centered, and an attachment piece 142 is formed on the upper end portion 53d. The attachment piece 142 is connected to the long hole 105 of the cover 91 and the protector. It passes through the long hole 106 of the cloth 102 and extends upward.

  The cover 91 is made of a cloth sewn in a cylindrical shape, and wraps the folded roof side airbag 53 to prevent foreign matter (not shown) from entering the roof side airbag 53, and roof side air It is a member that keeps the bag 53 folded.

The cover 91 includes a long hole 105 that can penetrate the attachment piece 142 of the roof side airbag 53 (see FIG. 5).
The cover 91 has a perforation 109 extending in the longitudinal direction on the peripheral wall 108. When the roof side airbag 53 is filled with gas from the inflator 51 (see FIGS. 1 to 3), the perforation 109 is broken and the roof side airbag 53 is inflated and deployed.

The protector cloth 102 is formed by sewing the first and second sewing threads 103, 103, and 104 on the peripheral wall 108 of the cover 91. Both ends of the upper end portion 102a are formed into tapered pieces, and the upper end portion 102a is connected to the roof side. It is a substantially rectangular cloth material provided with a long hole 106 that can penetrate the attachment piece 142 of the airbag 53.
The protector cloth 102 is a protective member made of a strong cloth that is not broken even if it contacts the projection 118a (vehicle projection) of the spot welded portion 118 that is generated during spot welding.

  When the protector cloth 102 is sewn to the cover 91, the protector cloth 102 is superposed on the cover material before the cover 91 is sewn into a cylindrical shape, and the upper end 102a of the protector cloth 102 and above the long hole 106 are overlapped. The stitching portion 102 b is sewn to the cover 91 with the strong first sewing thread 103.

Further, the upper end portion 102 a of the protector cloth 102 and the lower portion of the elongated hole 106 are sewn to the cover 91 with the strong first sewing thread 103.
In addition, the lower end portion 102 d of the protector cloth 102 is sewn to the cover 91 with the weak second sewing thread 104. In this state, the protector cloth 102 covers the perforation 109 formed in the cover 91, and the stitching portion 102 e by the second sewing thread 104 is located near the perforation 109.
The stitched portions 102b and 102c sewn with the first sewing threads 103 and 103 are positioned above the stitched portion 102e.

After the protector cloth 102 is sewn to the cover material, the cover material is sewn in a cylindrical shape to form the cover 91.
By fitting the cover 91 into the folded roof side airbag 53, the folded roof side airbag 53 is wrapped (wrapped) with the cover 91.
In this state, the perforation 109 of the cover 91 is aligned with the portion 113 where the roof side airbag 53 is inflated and deployed.

At the same time, the attachment piece 142 of the roof side airbag 53 is projected through the long hole 105 of the cover 91 and the long hole 106 of the protector cloth 102.
The mounting holes 142a and 142a (only one is shown) of the protruding mounting piece 142 are aligned with the mounting holes 115 and 115 (only one is shown) of the roof side (inner panel) 114 of the vehicle. The bolts 116 and 116 are inserted into the 142a and 142a and the mounting holes 115 and 115, respectively.

The attachment pieces 142 are attached to the inner panel 114 by screwing the inserted bolts 116 and 116 to the nuts 117 and 117 (only one of which is shown).
In this state, the protector cloth 102 faces the protrusion 118 a of the spot welded portion 118 of the inner panel 114.

The spot welded portion 118 is a portion where the inner panel 114 and the stiffener 119 are spot welded.
Here, by aligning the perforation 109 of the cover 91 with the portion 113 for inflating and deploying the roof side airbag 53, the stitching portion 102 e of the second sewing thread 104 also allows the roof side airbag 53 to be inflated and deployed. Located in the vicinity.

Therefore, the side facing the inner panel 114 side of the peripheral wall 108 of the cover 91 can be covered with the protector cloth 102.
Thereby, the protector cloth 102 can be made to reliably face the protrusion 118a of the spot welded portion 118.

Therefore, the projection 118a of the spot welded portion 118 is securely brought into contact with the protector cloth 102 to protect the roof side airbag 53 from the projection 118a.
The protector cloth 102 is formed of a strong cloth so as not to be damaged by the protrusion 118a. Therefore, the cover 91 and the roof side airbag 53 are reliably protected from the protrusion 118a of the spot weld 118.

In addition, by aligning the perforation 109 of the cover 91 with the portion 113 where the roof side airbag 53 is inflated and deployed, the stitching portion 102e of the second sewing thread 104 is also in the vicinity of the portion 113 where the roof side airbag 53 is inflated and deployed. Located in.
Therefore, by weakening the second sewing thread 104, the second sewing thread 104 can be reliably broken after the perforation 109 is broken by the inflating and deploying force of the roof side airbag 53.

As described above, according to the protector cloth mounting structure 61, the protector cloth 102 that protects the roof side airbag 53 is first and second sewn on the cover 91 that covers the folded roof side airbag 53. Sewed with threads 103, 103, 104.
Therefore, the protector cloth 102 can be attached to the roof side airbag 53 by covering the folded roof side airbag 53 with the cover 91.

  Thereby, when attaching the roof side airbag 53, the operation of attaching the protector cloth 102 to the roof side airbag 53 with a tape (not shown), which has been conventionally required, can be removed.

Further, the entire area of the protector cloth 102 (specifically, the entire area in the width direction) is sewn to the cover 91 with the first and second sewing threads 103, 103, 104, thereby covering the entire surface of the protector cloth 102. Adhere to 91.
This makes it difficult for foreign matter to enter from the gap between the protector cloth 102 and the cover 91.

FIG. 6 is a view for explaining the operation of the protector cross mounting structure provided in the vehicle occupant protection device according to the present invention.
When the roof side airbag 53 is filled with gas from the inflator 51 (see FIGS. 1 to 3), the roof side airbag 53 is inflated and deployed. The perforation 109 is broken.
After the perforation 109 breaks, the second sewing thread 104 that stitches the lower end portion 102d of the protector cloth 102 to the cover 91 is broken by the inflating and deploying force of the roof side airbag 53.

Here, among the first and second sewing threads 103, 103, and 104 that sew the protector cloth 102 to the cover 91, the portion 113 that inflates and deploys the roof side airbag 53 is sewn using the weak second sewing thread 104. It was.
Thus, when the roof side airbag 53 is inflated and deployed, the second sewing thread 104 can be reliably broken by this inflating and deploying force, and the roof side airbag 53 can be inflated and deployed satisfactorily.

In addition, of the upper end portion 102a of the protector cloth 102, the stitched portion 102b and the stitched portion 102c are sewn to the cover 91 with the strong first sewing thread 103, and the lower end portion 102d (the stitched portion 102e) is covered with the weak second sewing thread 104. Sewed to 91.
Therefore, when the roof side airbag 53 is inflated and deployed, the second sewing thread 104 is broken without breaking the first sewing thread 103, so that the lower end portion 102d of the protector cloth 102 is suspended downward.

By lowering and suspending the lower end portion 102d of the protector cloth 102, the side facing the inner panel 114 of the peripheral wall 108 of the cover 91 can be covered with the protector cloth 102 when the roof side airbag 53 is inflated and deployed. As a result, the protector cloth 102 can reliably face the protrusion 118a of the spot welded portion 118.

  Therefore, the projection 118 a of the spot welded portion 118 can be reliably brought into contact with the protector cloth 102 to protect the roof side airbag 53 from the projection 118 a of the spot weld 118.

  The roof side airbag 53 pushes and spreads the lower end portion 121a of the roof lining 121 toward the vehicle compartment 11 and inflates and deploys into the vehicle compartment 11 through a gap between the lower end portion 121a of the roof lining 121 and the inner panel 114. .

Next, the air bag retaining structure 62 will be described with reference to FIGS.
FIG. 7 is a perspective view showing a structure for stopping the airbag provided in the vehicle occupant protection device according to the present invention. FIG. 8 is a view showing that the structure for holding the airbag provided in the vehicle occupant protection device according to the present invention is attached to the vehicle. It is sectional drawing which shows a state.
The airbag retaining structure 62 covers the folded roof side airbag 53 with a cover 91, and a head portion 132 of the clip 131 is disposed in the cover 91, and a locking portion is provided from the inside of the cover 91 to the outside. 133 is protruded, and the locking portion 133 is locked to the inner panel (vehicle) 114.
The engaging portion 133 includes a locking shaft 134 and four locking claws 135.

  Further, the airbag retaining structure 62 is provided with a pressing portion 136 at the base portion of the locking portion 133, that is, the base portion 134 a of the locking shaft 134 and outside the cover 91, and presses the pressing portion 136 from the outside of the cover 91. Thus, the locking portion 133 is configured to be locked to the inner panel 114.

  The clip 131 is provided with a locking shaft 134 at the head 132, and a holding portion 136 is provided at a fixed interval from the head 132 at the base 134 a of the locking shaft 134, so that the tip of the locking shaft 134 can be elastically deformed. Four locking claws 135 are provided.

  The mounting hole 138 of the cover 91 is fitted into the base part 134 a of the clip 131. Since the cover 91 is made of cloth, the attachment hole 138 can be deformed into a long hole by pulling both sides of the attachment hole 138. In this state, the attachment hole 138 is fitted from the head 132 of the clip 131 to the base 134a.

The constant interval between the head 132 and the pressing portion 136 is formed slightly larger than the cloth thickness of the cover 91.
The cover 91 is attached to the clip 131 by fitting the attachment hole 138 of the cover 91 into the base part 134 a from the head 132 of the clip 131.

In a state where the clip 131 is attached to the attachment hole 139 of the inner panel 114, the distance between the rear end portion 135a of the locking claws 135 and the pressing portion 136 is, for example, slightly smaller than the thickness of the inner panel 114. It is formed small.
As a result, the inner panel 114 is securely clamped by the rear end portions 135a of the locking claws 135 and the pressing portion 136.

When the clip 131 is attached to the attachment hole 139 of the inner panel 114, the holding portion 136 is grasped from the outside of the cover 91 and the locking claws 135 are inserted into the attachment hole 139.
In this state, by pressing the pressing portion 136 from the outside of the cover 91 toward the mounting hole 139, the locking claw 135 ... hits the periphery of the mounting hole 139, and the locking claw 135 ... elastically deforms toward the locking shaft 134 side. To do.

The locking claws 135... Pass through the mounting hole 139 in a state where the locking claws 135 are elastically deformed toward the locking shaft 134.
After the locking claws 135... Pass through the mounting holes 139, the locking claws 135 are restored to the original state, and the rear ends 135 a of the locking claws 135 abut against the outer surface 114 a of the inner panel 114. At the same time, the pressing portion 136 contacts the inner surface 114b of the inner panel 114.
Therefore, the inner panel 114 is held between the rear end portions 135a of the locking claws 135 and the pressing portion 136, and the clip 131 is fixed to the inner panel 114.

As described above, when the clip 131 is attached to the attachment hole 139 of the inner panel 114, the retaining portion 133 is attached to the attachment hole 139 by pressing the pressing portion 136 from the outside of the cover 91.
Therefore, when attaching the clip 131 to the inner panel 114, it is not necessary to apply an extra force to the cover 91.
Accordingly, when the clip 131 is attached to the inner panel 114, the cover 91 is prevented from being torn and falling off from the head 132 of the clip 131.

According to the airbag retaining structure 62, a simple attachment structure using the clip 131 can be provided, and the cover and the roof side airbag 53 can be easily attached to the inner panel 114 with the clip 131.
Therefore, the cover 91 and the roof side airbag 53 can be disposed so as not to be displaced from the inner panel 114, and the roof side airbag 53 can be reliably disposed along the inner panel 114.

Furthermore, the roof side airbag 53 is securely disposed along the inner panel 114, so that the mounting position of the roof side airbag 53 is stabilized.
Thereby, an interior material can be easily assembled in the passenger compartment 11.

On the other hand, when the roof side airbag 53 is inflated and deployed, the cover 91 is torn and detached from the head 132 of the clip 131.
Therefore, the state where the clip 131 is attached to the inner panel 114 can be maintained, and the clip 131 can be prevented from scattering into the vehicle interior.

  In the present embodiment, an example in which the pressing portion 136 is provided on the base portion 134a of the locking shaft 134 and the clip 131 is attached to the inner panel 114 by pressing the pressing portion 136 has been described. The cover and the roof side airbag 53 can be attached to the inner panel 114 with the clip 131 without providing the pressing portion 136 on the base portion 134 a of the shaft 134.

Next, the mounting bracket structure will be described with reference to FIG. 2 and FIGS.
Returning to FIG. 2, the vehicle occupant protection device includes a mounting bracket structure 63 for attaching an airbag to the inner panel 114 of the vehicle roof.

  The mounting bracket structure 63 includes first and second mounting brackets (mounting brackets) 151 and 152, and the first and second mounting brackets 151 and 152 are located above the front middle pillar 22 constituting the window frame. The first mounting bracket 151 located at a lower position and the second mounting bracket 152 positioned away from the front middle pillar 22 are increased in strength so that the first and second mounting brackets 151 and 152 can When this is hit, the shock absorption of the first and second mounting brackets 151 and 152 is made appropriate.

FIG. 9 is a perspective view showing a first mounting bracket structure provided in the vehicle occupant protection device according to the present invention, and FIG. 10 is a sectional view showing the first mounting bracket structure provided in the vehicle occupant protection device according to the present invention. is there.
The first attachment bracket 151 includes an attachment portion 157 attached to the inner panel 114 and a restriction portion 158 that restricts the inflating and deploying direction of the roof side airbag 53.

The mounting portion 157 is formed with a mounting hole 161a substantially at the center of the mounting plate 161, and is provided with folded portions 161b and 161b on both sides of the upper end portion of the mounting plate 161, so that the holding plate 162 is attached to the pair of folded portions 161b and 161b. The presser plate 162 is connected and arranged in parallel to the mounting plate 161 at a predetermined interval.
An attachment hole 162a is formed in the holding plate 162, and the attachment hole 162a is arranged coaxially with the attachment hole 161a.

A mounting piece 143 of the roof side airbag 53 is sandwiched between the mounting plate 161 and the holding plate 162.
In this state, the mounting hole 143 a of the mounting piece 143 is coaxially disposed in the mounting hole 161 a of the mounting plate 161 and the mounting hole 162 a of the pressing plate 162.

The mounting portion 157 is brought into contact with the mounting position of the inner panel 114, and the bolt 166 is inserted into the mounting hole 161a, the mounting hole 143a, and the mounting hole 162a.
By attaching the threaded portion 166 a protruding from the mounting hole 162 a to the nut 167, the mounting piece 143 of the roof side airbag 53 is mounted to the inner panel 114 by the mounting portion 157.

The restricting portion 158 is a substantially rectangular plate connected so as to be substantially orthogonal to the mounting plate 161 via the connecting portion 163.
The restricting portion 158 is a substantially rectangular plate material that is positioned above the cover 91 and restricts the roof side airbag 53 to expand and deploy downward when the roof side airbag 53 is deployed.
The connecting member 163 is formed such that the width W2 of the connecting member 163 is smaller than the width W1 of the mounting portion 157 by providing slits 164 and 164 on both sides.

Since the width W2 of the connecting member 13 is made smaller than the width W1 of the mounting portion 157, the strength of the first mounting bracket 151 positioned above the front middle pillar 22 can be reduced.
Thereby, when a small impact is applied to the first mounting bracket 151, the small impact can be suppressed by the first mounting bracket 151.

Here, the reason why the strength of the first mounting bracket 151 located above the front middle pillar 22 is lowered will be described.
That is, the front middle pillar 22 is provided with a front middle pillar garnish (pillar garnish) 165 on the vehicle compartment 11 side. Therefore, when the occupant (shown by an imaginary line) Ma hits the first mounting bracket 151 above the front middle pillar 22, the occupant Ma simultaneously hits the front middle pillar garnish 165 as shown in FIG.
When the occupant Ma hits the front middle pillar garnish 165, part of the impact is absorbed by the front middle pillar garnish 165.

For this reason, when the occupant Ma hits the first mounting bracket 151 above the front middle pillar 22, the impact applied to the first mounting bracket 151 is kept small.
Therefore, the strength of the first mounting bracket 151 located above the front middle pillar 22 is lowered. Thereby, when a small impact is applied to the first mounting bracket 151, the small impact can be suppressed by the first mounting bracket 151.

When the airbag is inflated and deployed, the regulating portion 158 regulates the direction of inflation and deployment of the roof side airbag 53 so that the roof side airbag 53 is inflated and deployed toward the roof lining 121.
The roof lining 121 is pushed and spread by the roof side airbag 53 that has been inflated and deployed, and the roof side airbag 53 is inflated and deployed into the vehicle interior through the gap between the roof lining 121 and the front middle pillar garnish 165.

FIG. 11 is a perspective view showing a second mounting bracket structure provided in the vehicle occupant protection device according to the present invention, and FIG. 12 is a cross-sectional view showing the second mounting bracket structure provided in the vehicle occupant protection device according to the present invention. is there.
The second attachment bracket 152 includes an attachment portion 171 attached to the inner panel 114 and a restriction portion 172 that restricts the inflating and deploying direction of the roof side airbag 53.

The mounting portion 171 is formed with a mounting hole 173a substantially at the center of the mounting plate 173, and is provided with folded portions 173b and 173b on both sides of the upper end portion 173 of the mounting plate 173. , The holding plate 174 is disposed in parallel to the mounting plate 173 at a predetermined interval, and a hook 175 is formed at the center of the upper end of the holding plate 174.
The hook 175 is a member for locking in the locking hole 177 of the inner panel 114.

A mounting piece 168 of the roof side airbag 53 is sandwiched between the mounting plate 173 and the holding plate 174.
In this state, the mounting hole 168a of the mounting piece 168 is coaxially disposed in the mounting hole 173a of the mounting plate 173 and the mounting hole 174a of the pressing plate 174.

The mounting portion 171 is brought into contact with the mounting position of the inner panel 114, and the bolt 178 is inserted into the mounting hole 173a, the mounting hole 168a, and the mounting hole 174a.
By attaching the screw portion 178 a protruding from the attachment hole 169 to the nut 179, the attachment piece 168 of the roof side airbag 53 is attached to the inner panel 114 by the attachment portion 171.

  By widening both sides of the lower end portion 171a of the attachment portion 171, the width W3 of the lower end portion 171a is formed large, and the regulating portion 172 is extended from the lower end portion 171a toward the vehicle compartment 11 side.

  The restricting portion 172 extends the second restricting portion 182 by inclining the first restricting portion 181 from the first restricting portion 181 by extending the first restricting portion 181 substantially perpendicular to the mounting portion 171 and extending toward the passenger compartment 11 side. The third restricting portion 183 is extended by inclining from 182.

  The restricting portion 172 has the first to third restricting portions 181 to 183 along the cover 91, and the first bent connecting portion 184 between the lower end portion 171 a of the attachment portion 171 and the first restricting portion 181 is first. The beads 185 and 185 are formed, the second bead 187 is formed at the second bent connecting portion 186 between the first restricting portion 181 and the second restricting portion 182, and the second restricting portion 182 and the third restricting portion 183 are formed. Are formed by forming third beads 189...

  The restricting portion 172 is located on the upper side of the cover 91, and when the roof side airbag 53 is deployed, the first to third restricting portions are arranged so that the roof side airbag 53 can be inflated and deployed leftward and downward. 181 to 183 are arranged along the cover 91.

  The first bead 185 is formed so that the inner side of the first bent connecting portion 184 between the lower end portion 171a of the mounting portion 171 and the first restricting portion 181 is recessed, and thus protrudes outside the first bent connecting portion 184. This is a reinforced portion.

  The second bead 187 is formed so that the outer side of the second bent connecting part 186 between the first restricting part 181 and the second restricting part 182 is recessed, so that the second bead 187 protrudes inside the second bent connecting part 186. It is a reinforcement part.

  The third bead 189 is formed so that the outer side of the third bent connecting portion 188 between the second restricting portion 182 and the third restricting portion 183 is recessed, so that the third bead 189 protrudes inside the third bent connecting portion 188. It is a reinforcement part.

Thus, the mounting portion 171 and the restricting portion 172 are formed with the first to third reinforcing gussets 185, 187, 189 to reinforce the second mounting bracket 152 and increase the strength of the second mounting bracket 152. To do.
Thereby, when a relatively large impact is applied to the second mounting bracket 152, the large impact can be suppressed by the second mounting bracket 152.

Here, the reason why the strength of the second mounting bracket 152 at a position deviated from the front middle pillar 22 (see FIG. 10) is increased will be described.
That is, when the occupant Ma hits the second mounting bracket 152 at a position disengaged from the front middle pillar 22 (see FIG. 10), the occupant Ma (indicated by an imaginary line), the front middle pillar garnish 165 (see FIG. 10). ) And hit only the second mounting bracket 152.

For this reason, when the occupant Ma hits the second mounting bracket 152 at a position removed from the front middle pillar 22, the impact applied to the second mounting bracket 152 is relatively large.
Therefore, the strength of the second mounting bracket 152 at a position away from the front middle pillar 22 is increased. Thereby, when a relatively large impact is applied to the second mounting bracket 152, the large impact can be suppressed by the second mounting bracket 152.

When the roof side airbag 53 is inflated and deployed, the regulating portion 172 regulates the direction of inflation and deployment of the roof side airbag 53 so that the roof side airbag 53 is inflated and deployed toward the roof lining 121.
The roof lining 121 is pushed and spread by the inflated and deployed roof side airbag 53, and the roof side airbag 53 is inflated and deployed in the vehicle compartment 11 through the gap between the inner panel 114 and the front middle pillar garnish 165.

As described above, according to the mounting bracket structure 63, the strength of the first mounting bracket 151 located above the front middle pillar 22 constituting the window frame is increased among the first and second mounting brackets 151 and 152. The first mounting bracket 151 having a low strength and the front middle pillar garnish 165 (see FIG. 10) are combined to absorb the same impact as that of the second mounting bracket 152 at a position removed from the front middle pillar 22. It becomes possible to do.
Thereby, the impact applied to the first and second mounting brackets 151 and 152 can be favorably absorbed, and the impact can be uniformly absorbed as a whole.

  In the above-described embodiment, the example in which the roof side airbag 53 is folded in the wound state has been described. However, the method of folding the roof side airbag 53 is not limited thereto. For example, the roof side airbag 53 can be folded in a bellows shape.

  Moreover, in the said embodiment, although the roof side airbag 53 was demonstrated to the example as an airbag, this invention can also be applied to another airbag.

  Furthermore, in the above-described embodiment, the front middle pillar 22 has been described as an example of the pillar. However, the present invention is not limited to this. For example, the present invention can be applied to a mounting bracket above the rear middle pillar 23.

  INDUSTRIAL APPLICABILITY The present invention is suitable for application to a vehicle equipped with a vehicle occupant protection device that attaches an airbag along a vehicle roof and operates the inflator to inflate and deploy the airbag from a folded state.

It is the side view which looked at the vehicle provided with the passenger protection device for vehicles concerning the present invention from the passenger compartment side. It is the perspective view which looked at the passenger protection device for vehicles concerning the present invention from the cabin side. It is a side view which shows the state which expand | deployed the roof side airbag of the passenger | crew protection device for vehicles which concerns on this invention. It is a perspective view which shows the attachment structure of the protector cloth with which the vehicle occupant protection device according to the present invention is provided. It is sectional drawing which shows the attachment structure of the protector cloth with which the passenger | crew protection device for vehicles concerning this invention was equipped. It is a figure explaining an effect | action of the attachment structure of the protector cloth with which the vehicle occupant protection device which concerns on this invention was equipped. It is a perspective view which shows the stopper structure of the airbag with which the passenger | crew protection device for vehicles concerning this invention was equipped. It is sectional drawing which shows the state which attached to the vehicle the stop structure of the airbag with which the passenger protection device for vehicles which concerns on this invention was equipped. It is a perspective view showing the 1st mounting bracket structure with which the crew protection device for vehicles concerning the present invention was equipped. It is sectional drawing which shows the 1st attachment bracket structure with which the vehicle occupant protection device which concerns on this invention was equipped. It is a perspective view which shows the 2nd mounting bracket structure with which the vehicle occupant protection device concerning this invention was equipped. It is sectional drawing which shows the 2nd attachment bracket structure with which the vehicle occupant protection device which concerns on this invention was equipped.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 10 ... Vehicle, 25 ... Roof side rail, 26 ... Roof, 50 ... Vehicle occupant protection device, 51 ... Inflator, 53 ... Roof side airbag (airbag), 63 ... Mounting bracket structure, 91 ... Cover, 22 ... Front Middle pillar (pillar) 151... First mounting bracket 152. Second mounting bracket 165 front middle pillar garnish Ma Ma passenger

Claims (1)

In a vehicle occupant protection device for protecting an occupant by attaching an airbag to a vehicle roof via a mounting bracket and inflating and deploying the airbag by operating an inflator,
Among the mounting brackets, reduce the strength of the mounting bracket located above the pillars constituting the window frame,
A vehicle occupant protection device configured to absorb the same impact as the mounting bracket at a position removed from the pillar by combining the low-strength mounting bracket and the pillar garnish provided on the pillar. .

Images