JP6036450B2 - Far-side occupant restraint device and vehicle seat - Google Patents

Description

  The present invention relates to a far-side occupant restraint device that restrains a seated occupant of a vehicle seat from the inside in the vehicle width direction at the time of a side collision of the vehicle, and a vehicle seat on which the far-side occupant restraint device is mounted.

  The automobile seat described in Patent Document 1 below includes an occupant protection mechanism that protects an occupant during a side collision. This occupant protection mechanism includes a frame that is detachably attached to a side portion in the vehicle width direction of the seat back, and a cushioning material fixed to the frame, and has a height in the vicinity of the shoulder of the occupant during a side collision. Expand to the right. Thereby, a passenger | crew's body is received from the vehicle width direction inner side, and it is trying to prevent the collision with the adjacent passenger | crew.

  On the other hand, Patent Literature 2 below describes an airbag device that protects an occupant during a side collision. The airbag device includes an airbag provided on a side portion in the vehicle width direction of the seat back, and a support plate rotatably attached to the seat back frame on the same side as the airbag. The support plate projects forward of the vehicle in conjunction with the inflation and deployment of the airbag and enters a positioning recess provided in the airbag. Thereby, the inflated airbag is received from the inner side in the vehicle width direction by the support plate.

JP 2008-080973 A JP 2011-178188 A

  In the automobile seat described in Patent Document 1, a large occupant protection mechanism having a frame and a cushioning material is normally disposed so as to protrude inward in the vehicle width direction from the seat back. For this reason, the rear view of the seated occupant during driving may be hindered, and the appearance of the seat back is deteriorated.

  On the other hand, in the airbag device described in Patent Document 2, the deployment space of the airbag is limited by the support plate that protrudes forward from the seatback frame to the front of the vehicle, thus ensuring rapid deployment performance of the airbag. There is room for improvement in terms of perspective. In addition, since the airbag is provided with a recess into which the support plate displaced to the protruding position is inserted, there is a possibility that the degree of freedom in designing the airbag is restricted, and the occupant protection performance of the airbag may be affected.

  In consideration of the above facts, the present invention can improve the occupant protection performance at the time of a side collision, and can improve the rear view of the seated occupant and the appearance of the seat back in a normal state, and the far side occupant restraint device And it aims at obtaining the seat for vehicles.

  The far-side occupant restraint device according to the first aspect of the present invention is the vehicle-side seat airbag of the seat occupant seated in the vehicle width direction inner side portion of the vehicle seat by the gas from the inflator. A far-side airbag device that is inflated and deployed to a seat back frame with the height direction of the seat back as a longitudinal direction, and a lower end portion rotatably connected to a seat back frame. A support member that rotates obliquely toward the vehicle front side and the vehicle width direction inside and supports the inflated and deployed airbag from the vehicle width direction inner side.

  In the first aspect of the present invention, for example, when a side collision of the vehicle is detected, the inflator of the far side airbag device is activated, and the air stored in the side portion on the inner side in the vehicle width direction in the seat back of the vehicle seat. The bag is inflated and deployed inside the vehicle width direction of the seated occupant by the gas from the inflator. At this time, the long support member housed in the side portion with the seatback height direction as the longitudinal direction is centered on the lower end portion rotatably connected to the seatback frame, and the vehicle front side and the vehicle width direction inner side. The airbag that is rotated obliquely and inflated and deployed is supported from the inside in the vehicle width direction. Thereby, it is possible to suppress the airbag from moving inward in the vehicle width direction due to a load from a seated occupant trying to move inertially inward in the vehicle width direction due to the impact of the side collision.

  Moreover, since the support member in the present invention rotates obliquely in the vehicle front side and in the vehicle width direction as described above, the support member and the seated occupant are compared with the case where the support member rotates straight in front of the vehicle. The airbag deployment space can be set widely. Thereby, it is possible to ensure the rapid deployment performance of the airbag. Further, since it is not necessary to provide the airbag with a recess into which the support member enters, the degree of freedom in designing the airbag is improved. Thereby, passenger protection performance can be improved. In addition, since the support member is housed in the side portion in the vehicle width direction inside the seat back together with the airbag, the rear view of the seated occupant and the appearance of the seat back can be improved.

  A far-side occupant restraint device according to a second aspect of the present invention is the far-side occupant restraint device according to the first aspect, wherein the lower end portion of the support member is a connecting shaft that is inclined so as to go to the vehicle rear side as the axial direction goes inward in the vehicle width direction. Via the seat back frame.

  In the invention according to claim 2, the lower end portion of the long support member housed in the side portion on the inner side in the vehicle width direction of the seat back with the height direction of the seat back as the longitudinal direction is connected as described above. It is connected to the seat back frame via a shaft. When the support member rotates around the connecting shaft toward the front side of the vehicle, a portion of the supporting member above the connecting shaft is displaced inward in the vehicle width direction. Thus, since the rotation direction of the support member is guided by the inclination of the connecting shaft, the support member can be rotated to the vehicle front side and the vehicle width direction inner side with a simple configuration. In addition, even when the support member is formed in a linear shape (for example, a flat plate shape), the support member can be rotated as described above, so that the storage space for the support member in the side portion of the seat back can be set small. it can.

  A far side occupant restraint device according to a third aspect of the present invention is the far side occupant restraint device according to the first or second aspect, wherein the upper end portion of the support member and the airbag are coupled to each other by a flexible coupling member. .

  In the invention according to claim 3, by using the connecting member as described above, the support member can be rotated with the inflation and deployment of the airbag with a simple configuration. Moreover, since the connecting member has flexibility, the connecting member can be prevented from getting in the way when the airbag is folded. Moreover, since the upper end part of the supporting member is connected with the airbag via the connecting member, the supporting member can be held at the position where the supporting member protrudes by the inflated and deployed airbag.

  The far-side occupant restraint device according to a fourth aspect of the present invention is the far-side occupant restraint device according to any one of the first to third aspects, wherein the support member is in the center of the shoulder of the seated occupant when the airbag is inflated and deployed. Against the vehicle width direction.

  In the invention according to claim 4, since it is configured as described above, the center of the shoulder portion having a relatively high load resistance in the body of the seated occupant is supported by the support member via the inflated and deployed airbag. Is done. Thereby, the movement of the seated passenger | crew to the vehicle width direction inner side can be suppressed effectively.

  A far side occupant restraint device according to a fifth aspect of the present invention is the far side occupant restraint device according to the fourth aspect, wherein the lower end portion of the support member is connected to the lower portion of the seat back frame.

  In the fifth aspect of the invention, when the airbag is inflated and deployed, the support member extends from the lower part of the seat back to the side of the shoulder of the seated occupant. By extending the support member in this manner, the support member can be opposed to the center of the shoulder portion in the vehicle width direction regardless of the difference in the size of the seated occupant. The “lower part” described in claim 5 is a lower part when the seat back frame is divided into three equal parts, ie, an upper part, an intermediate part in the vertical direction, and a lower part.

  The vehicle seat according to claim 6 is provided in a seat cushion that supports a hip and a thigh of a seated occupant, a seat back that supports a back of the seated occupant, and the seat back. 5. The far side occupant restraint device according to any one of 5.

  In the invention according to claim 6, since the far-side occupant restraint device according to any one of claims 1 to 5 is provided in the seat back, the above-described effects can be obtained.

  As described above, the far-side occupant restraint device and the vehicle seat according to the present invention can improve the occupant protection performance at the time of a side collision, and the rear view of the seated occupant and the appearance of the seat back at the normal time Can be improved.

It is the side view which looked at the vehicular seat constituted by applying the far side crew member restraint device concerning a 1st embodiment of the present invention from the vehicle width direction inside, and the crew restraint bar is a projected position while the airbag is inflated and deployed. It is a figure of the state rotated to the side. It is the front view which looked at the structure of the principal part of the vehicle seat from the vehicle front side. It is the top view which looked at the structure of the principal part of the vehicle seat from the vehicle upper side. (A) is an expanded sectional view which shows the cut surface along the F4-F4 line | wire of FIG. 2, (B) is sectional drawing which shows the modification of the structure shown by (A). It is a side view corresponding to FIG. 1 for demonstrating the relationship between the shoulder part of the seated passenger | crew from which a physique differs, and a passenger | crew restraint bar.

<First Embodiment>
The far side passenger | crew restraint apparatus 10 and the vehicle seat 12 which concern on 1st Embodiment of this invention are demonstrated based on FIGS. In addition, the arrow FR, arrow UP, and arrow OUT that are appropriately described in each figure respectively indicate the front direction (traveling direction), the upward direction, and the outside in the vehicle width direction of the vehicle. Hereinafter, when the description is made simply using the front-rear direction and the up-down direction, the front-rear direction of the vehicle and the up-down direction of the vehicle are indicated unless otherwise specified.

(Constitution)
FIGS. 1 to 3 show a vehicle seat 12 (here, a driver seat of a right-hand drive automobile) according to the present embodiment. The vehicle seat 12 includes a seat cushion 14 that supports the buttocks and thighs of the occupant P, a seat back 16 that is connected to the rear end of the seat cushion 14 and supports the back of the occupant P, and a seat back 16 The headrest 17 is connected to the upper end portion and supports the head H of the occupant P.

  In the present embodiment, the front-rear direction, the left-right direction (width direction), and the up-down direction of the vehicle seat 12 coincide with the front-rear direction, left-right direction (width direction), and up-down direction of the vehicle. In FIG. 1, a crash test dummy P is seated on the vehicle seat 12 instead of an actual occupant. The dummy P is, for example, an AM50 (model covering 50% of US adult males) of an international unified side impact dummy (WorldSID). Hereinafter, the dummy P is referred to as a “seat occupant P” for easy understanding.

  On the other hand, the far-side occupant restraint device 10 according to the present embodiment is a device that mainly protects the occupant on the side opposite to the collision side at the time of a side collision of the vehicle. The airbag device 18 and the occupant restraint bar 20 (support member) are configured as main parts.

  The far-side airbag device 18 includes an airbag module 22 housed inside a tunnel-side side portion 16 </ b> A that is a side portion on the inner side in the vehicle width direction (center side in the vehicle width direction) of the seat back 16. The airbag module 22 includes an airbag 24, which is a far-side airbag, and an inflator 26 (gas generator) that ejects gas within the airbag 24.

  The airbag 24 is formed in a bag shape, for example, by folding one base fabric formed by cutting out a nylon or polyester fabric material and sewing the outer peripheral edge portion. The airbag 24 is folded and modularized (unitized) together with the inflator 26, and is housed inside the tunnel side portion 16A. The airbag 24 is attached to the side frame portion 28A of the seat back frame 28 via the inflator 26. It is fixed. For example, the airbag 24 is folded in the front-rear direction of the seat back 16 by a folding method such as a bellows fold or a roll fold, and then a portion that inflates and expands above the seat back 16 is a bellows fold or a roll fold. The seat back 16 is folded up and down depending on how it is folded.

  The folded airbag 24 (airbag module 22) has an upper end located in the vicinity of the upper end of the seat back 16, and is locked to the upper end of the seat back frame 28 by a clip 25 shown in FIG. Yes. The clip 25 is formed of, for example, a resin material, and is configured to release the above-described locking when the airbag 24 is inflated and deployed.

  The airbag 24 is inflated and deployed to the side in the vehicle width direction of the seated occupant P (the front side and the upper side of the tunnel side part 16A) by the pressure of gas generated from the inflator 26 (see FIG. 1). At the time of the expansion and deployment, the pad material and the skin material of the seat back 16 are cleaved at the front end portion of the tunnel side portion 16A.

  As shown in FIG. 1, the airbag 24 is formed to have a substantially rectangular shape (substantially elliptical shape) that is long along the vehicle vertical direction when the inflated and deployed state is viewed from the vehicle width direction. The size is such that the head H, shoulder S, chest C, abdomen B and waist L of the seated occupant P can be restrained.

  The size of the airbag 24 is not limited to the above and can be changed as appropriate. In addition, the airbag 24 is not limited to be configured to be sewn by a single base cloth, and a bag-like airbag 24 is formed by overlapping two base cloths and sewing the peripheral portion. Also good. Furthermore, the manufacturing method of the airbag 24 is not limited to sewing, and for example, a bag weaving method using an automatic loom (so-called OPW method) may be employed.

  On the other hand, as shown in FIG. 1, the inflator 26 is a so-called cylinder type inflator, and is accommodated in an intermediate portion in the vertical direction on the rear end side in the airbag 24. The inflator 26 is formed in a cylindrical shape, and is arranged in a state where the axial direction is along the height direction of the seat back 16. From the outer peripheral portion of the inflator 26, a pair of upper and lower stud bolts (not shown) protrude outward in the vehicle width direction. These stud bolts penetrate the base fabric of the airbag 24 and the side frame portion 28A of the seat back frame 28, and a nut (not shown) is screwed to the tip side. Thereby, the inflator 26 is fastened and fixed to the side frame portion 28 </ b> A together with the airbag 24.

  When the inflator 26 is activated, gas is ejected from a gas outlet provided at the upper end or the lower end of the inflator 26. A side collision ECU 30 mounted on the vehicle is electrically connected to the inflator 26. A side collision sensor 32 that detects a side collision of the vehicle is electrically connected to the side collision ECU 30. The side collision ECU 30 and the side collision sensor 32 are components of the far side airbag device 18.

  The side collision ECU 30 is configured to activate the inflator 26 when detecting a side collision (inevitable) of the vehicle based on a signal from the side collision sensor 32. Specifically, since the far-side airbag device 18 according to the present embodiment is mounted on the vehicle seat 12 that is the driver seat of the right-hand drive automobile, the vehicle side (left side) on the passenger seat side When the side collision ECU 30 detects that another vehicle has collided, the inflator 26 is activated. If a pre-crash sensor for predicting (predicting) a side collision is electrically connected to the side collision ECU 30, the inflator is used when the side collision ECU 30 predicts a side collision based on a signal from the pre-crash sensor. 26 may be configured to be operated.

  On the other hand, the occupant restraint bar 20 is formed in a long flat plate shape by a hard resin material or a metal material, and is housed inside the tunnel side portion 16A in a state where the longitudinal direction is along the height direction of the seat back 16. ing. The passenger restraining bar 20 is disposed inside the tunnel side portion 16A on the inner side in the vehicle width direction (center side in the vehicle width direction) than the airbag module 22. A bracket 34 is fixed to the lower end portion of the side frame portion 28 </ b> A corresponding to the passenger restraining bar 20.

  As shown in FIG. 4A, the bracket 34 is made of a sheet metal material, and is disposed on the inner side in the vehicle width direction with respect to the side frame portion 28A. The bracket 34 is formed in a substantially U-shaped cross-section (substantially U-shaped in cross section) with the side frame portion 28A side opened as viewed from the height direction of the seat back 16, and the vehicle width with respect to the side frame portion 28A. A side wall portion 34A facing in the direction, and a front wall portion 34B and a rear wall portion 34C extending from the front and rear ends of the side wall portion 34A toward the inner side in the seat width direction. The front wall portion 34B is fixed to the front surface of the side frame portion 28A by means such as welding, and the rear wall portion 34C is fixed to the rear surface of the side frame portion 28A by means such as welding.

  The side wall portion 34A of the bracket 34 is inclined so as to go inward in the vehicle width direction toward the vehicle front side as seen from the height direction of the seat back 16. The inclination angle of the side wall portion 34A with respect to the vehicle longitudinal direction is preferably set within a range of 5 degrees to 15 degrees, for example. The lower end portion of the occupant restraining bar 20 is superimposed on the outer surface of the side wall portion 34A in the vehicle width direction. A connecting shaft 36 protruding toward the side wall 34A is fixed to the lower end of the passenger restraining bar 20 by means such as welding.

  The connecting shaft 36 is inclined so as to go to the vehicle rear side as the axial direction goes inward in the vehicle width direction, and is rotatably inserted into a circular through hole 38 formed in the side wall portion 34A. A male screw is formed on the outer peripheral portion on the distal end side of the connecting shaft 36, and a nut 40 is screwed to the male screw. As a result, the occupant restraint bar 20 is rotatably connected (supported) to the seat back frame 28 via the connecting shaft 36 and the bracket 34. In addition, the bracket 34 can also be abbreviate | omitted like the modification shown by FIG. 4 (B). In this modification, the side wall portion 28A1 of the side frame portion 28A is inclined similarly to the side wall portion 34A of the bracket 34.

  A strap 42 as a connecting member is provided at the upper end of the passenger restraining bar 20. The strap 42 is formed in a long belt shape with a flexible material, and one end in the longitudinal direction is fixed to the upper end of the occupant restraining bar 20, and the other end in the longitudinal direction is the upper and lower sides of the airbag 24. Sewn in the middle of the direction. Thereby, the upper end part of the passenger | crew restraint bar | burr 20 and the up-down direction intermediate part of the airbag are mutually connected via the strap 42. In addition, it is preferable to sew the longitudinal direction other end part of the strap 42 in the site | part below the part folded in the up-down direction of the seat back 16 in the airbag 24. FIG.

  Here, in the far-side occupant restraint device 10 configured as described above, when the airbag 24 is inflated and deployed by the gas from the inflator 26, the occupant restraint bar 20 connected to the airbag 24 via the strap 42 is It rotates with (in conjunction with) expansion and deployment. Specifically, when the airbag 24 is inflated and deployed toward the vehicle front side and the vehicle upper side of the tunnel side portion 16A, the upper end portion of the occupant restraint bar 20 is pulled by the airbag 24 via the strap 42. As a result, the occupant restraint bar 20 rotates around the connecting shaft 36. In this case, the occupant restraint bar 20 rotates (protrudes) toward the front side of the vehicle and toward the inside of the vehicle width because the connecting shaft 36 is inclined so that the axial direction of the connecting shaft 36 is directed toward the rear side of the vehicle. )

  As shown in FIG. 1, when the airbag 24 has been inflated and deployed, the occupant restraint bar 20 is disposed at a protruding position that extends obliquely upward in the front of the vehicle when viewed from the vehicle width direction. As a result, the inflated airbag 24 is supported by the occupant restraining bar 20 from the inside in the vehicle width direction. 2 and 3, a state where the occupant restraint bar 20 is located at the protruding position is indicated by a two-dot chain line. Hereinafter, a state where the inflation and deployment of the airbag 24 is completed and the occupant restraining bar 20 protrudes (deploys) to the protruding position is referred to as a “deployed state”.

  In the deployed state, the other end in the longitudinal direction of the strap 42 sewn on the airbag 24 is disposed near the upper end of the upper end of the occupant restraining bar 20. The strap 42 restricts the rotation of the occupant restraining bar 20 in the vehicle front-rear direction, and the occupant restraining bar 20 is held at the protruding position.

  In this unfolded state, the upper end of the passenger restraining bar 20 faces the center of the shoulder S of the seated passenger P (here, the bolt 46 provided on the shoulder of the AM 50) from the outside in the vehicle width direction. It is supposed to be. In addition, in the present embodiment, the occupant restraint bar 20 faces the shoulder S ′ of the occupant P ′ in the unfolded state even when the occupant's physique is small (see the occupant P ′ indicated by a dotted line in FIG. 5). Further, the lower end portion is connected to the lower portion of the side frame portion 28A. The “lower part” in this case is a lower part when the seat back frame 28 is divided into three equal parts, the upper part, the middle part in the vertical direction, and the lower part. The occupant P ′ is, for example, AF05 (a dummy for a collision test and a model of a 5th percentile of an American adult woman), and C ′, B ′, L ′, and 46 ′ shown in FIG. The chest, abdomen, waist, and shoulder bolts of the passenger P ′ are shown.

(Function and effect)
Next, the operation and effect of this embodiment will be described.

  In the far-side occupant restraint device 10 having the above-described configuration, when the side collision ECU 30 detects a side collision of the vehicle based on a signal from the side collision sensor 32, the inflator 26 is operated by the side collision ECU 30 and gas is ejected. The gas ejected from the inflator 26 is supplied into the airbag 24 housed in the tunnel side portion 16A of the seat back 16. Thereby, the airbag 24 is inflated and deployed inward in the vehicle width direction of the seated occupant P seated on the vehicle seat 12.

  At this time, the long passenger restraint bar 20 accommodated in the tunnel side portion 16A with the height direction of the seat back 16 as the longitudinal direction is centered on the lower end portion rotatably connected to the seat back frame 28. The airbag 24 is rotated obliquely inwardly and inward in the vehicle width direction, and the inflated and deployed airbag 24 is supported from the inner side in the vehicle width direction. Thereby, it can suppress that the airbag 24 moves to the vehicle width direction inner side by the load from the seating passenger | crew P which is going to inertially move to the vehicle width direction inner side by the impact of a side collision. As a result, occupant protection performance by the airbag 24 can be improved.

  Moreover, since the occupant restraint bar 20 in this embodiment rotates obliquely toward the vehicle front side and the vehicle width direction as described above, the occupant restraint bar 20 and the seating are compared with the case where the occupant restraint bar 20 rotates straight forward of the vehicle. A wide airbag deployment space with the passenger P can be set. Thereby, it is possible to ensure the rapid deployment performance of the airbag 24. Moreover, since it is not necessary to provide the airbag 24 with a recess into which the occupant restraint bar 20 displaced to the protruding position is inserted, the degree of freedom in designing the airbag 24 is improved. Thereby, passenger protection performance can be improved. Furthermore, since the occupant restraint bar 20 is housed in the tunnel side portion 16A of the seat back 16 together with the airbag 24, the rear view of the seated occupant P and the appearance of the seat back 16 can be improved.

  Further, in the present embodiment, the lower end portion of the passenger restraining bar 20 is connected to the seat back frame 28 via the connecting shaft 36 that is inclined so as to go to the vehicle rear side as the axial direction goes inward in the vehicle width direction. Yes. When the occupant restraining bar 20 rotates around the connecting shaft 36 toward the front side of the vehicle, a portion of the occupant restraining bar 20 above the connecting shaft 36 is displaced inward in the vehicle width direction. Thus, since the rotation direction of the occupant restraint bar 20 is guided by the inclination of the connecting shaft 36, the occupant restraint bar 20 can be rotated to the vehicle front side and the vehicle width direction inner side with a simple configuration.

  In addition, even if the occupant restraint bar 20 is formed in a flat plate shape (straight line), the occupant restraint bar 20 can be rotated as described above, so that the storage space for the occupant restraint bar 20 in the tunnel side portion 16A. Can be set small. That is, even when the axial direction of the connecting shaft 36 is along the vehicle width direction, the deployment space of the airbag 24 can be widened by bending the occupant restraint bar 20 inward in the vehicle width direction above the connecting shaft 36. can do. However, in such a configuration, the storage space for the occupant restraint bar 20 in the tunnel side part 16A becomes large, but this can be avoided in the present embodiment.

  In the present embodiment, the upper end portion of the passenger restraining bar 20 and the airbag 24 are connected by the strap 42. Accordingly, the occupant restraint bar 20 can be rotated with the inflation and deployment of the airbag 24 with a simple configuration. Moreover, since the strap 42 is flexible, the strap 42 can be prevented from getting in the way when the airbag 24 is folded. Moreover, since the upper end part of the passenger | crew restraint bar 20 is connected with the airbag 24 via the strap 42, the passenger | crew restraint bar | burr 20 can be hold | maintained in the protrusion position with the airbag 24 expanded and deployed.

  Furthermore, in the present embodiment, when the airbag 24 is in an inflated and deployed state, the upper end of the occupant restraint bar 20 faces the center (bolt 46) of the shoulder S of the seated occupant P in the vehicle width direction. The center of the shoulder S having relatively high load resistance in the body of P is supported by the occupant restraining bar 20 via the inflated and deployed airbag 24. Thereby, the movement of the seated passenger P inward in the vehicle width direction can be effectively suppressed.

  In the present embodiment, the lower end portion of the occupant restraint bar 20 is connected to the lower portion of the side frame portion 28A of the seat back frame 28, and the occupant restraint bar 20 is in the inflated and deployed state of the airbag 24. From the lower part of the seat to the sides of the shoulders S, S ′ of the seated passengers P, P ′. By extending the occupant restraint bar 20 in this manner, the occupant restraint bar 20 can be opposed to the center of the shoulders S and S ′ in the vehicle width direction regardless of the difference in the physique of the seated occupants P and P ′. It becomes possible.

<Supplementary explanation of the embodiment>
In the above embodiment, the inflator 26 is activated when another vehicle collides with the vehicle body side (left side) on the passenger seat side. However, the present invention is not limited to this, and the vehicle seat 12 side is not limited thereto. The inflator 26 may be configured to operate when another vehicle collides with the side portion (right side portion). In that case, by the swinging back after the seated occupant P is restrained by the side airbag (not shown) provided on the side portion (door side portion) of the seat back 16 of the vehicle seat 12 in the vehicle width direction. The seat occupant P can be restrained by the airbag 24 and the occupant restraint bar 20 when the seat occupant P moves inward in the vehicle width direction (anti-collision side). In that case, it is preferable that the timing of supplying the gas to the airbag 24 is slightly delayed from the timing of supplying the gas to the side airbag.

  Moreover, although the said embodiment demonstrated the case where this invention was applied with respect to the vehicle seat 12 which is the driver's seat of the vehicle of a right handle, not only this but for vehicles arrange | positioned on the right side of a vehicle The present invention is applicable to both the seat and the vehicle seat disposed on the left side of the vehicle.

  Moreover, in the said embodiment, although the lower end part of passenger | crew restraint bar | burr 20 (support member) was made into the structure connected with the lower part of the seat back frame 28, this invention is not limited to this, The lower end part of a support member is A configuration may be adopted in which the seat back frame is coupled to the middle portion in the vertical direction. In this case, for example, the upper side of the support member may be formed wider than the lower side. Thereby, it becomes possible to restrain the shoulder part of the seated occupant by the support member regardless of the size of the seated occupant.

  In the above embodiment, the occupant restraining bar 20 (support member) is opposed to the center 46 of the shoulder S of the seated occupant P in the vehicle width direction in the inflated and deployed state of the airbag 24. The invention is not limited to this, and the support member may be any member that can support the airbag from the inner side in the vehicle width direction.

  Moreover, in the said embodiment, although the connection member which connected the upper end part of the passenger | crew restraint bar | burr 20 (support member) and the airbag 24 was set as the strap 42 which has flexibility, this invention is based on this. Not limited to this, the configuration of the connecting member can be changed as appropriate. For example, the connecting member may be formed of a cloth material similar to the base cloth of the airbag 24. Moreover, you may make it the structure by which the connection member was formed with the material which does not have flexibility. Furthermore, you may make it the structure by which the longitudinal direction intermediate part of the supporting member and the airbag were connected by the connection member.

  In the above-described embodiment, the lower end portion of the passenger restraining bar 20 (support member) is connected to the seat back frame 28 via the connecting shaft 36 that is inclined so as to go toward the vehicle rear side as the axial direction goes inward in the vehicle width direction. Although it was set as the structure connected, you may make it the structure where the axial direction of the connection shaft 36 followed the vehicle width direction not only in this. In that case, for example, play is set at the connecting portion of the connecting shaft 36 and the bracket 34 so that the passenger restraining bar 20 rotates obliquely in the vehicle front side and in the vehicle width direction as the airbag 24 is inflated and deployed. That's fine.

  In addition, the present invention can be implemented with various modifications without departing from the scope of the invention. It goes without saying that the scope of rights of the present invention is not limited to the above embodiment.

DESCRIPTION OF SYMBOLS 10 Far side passenger | crew restraint apparatus 12 Vehicle seat 16 Seat back 16A Tunnel side side part (side part inside a vehicle width direction)
18 Far-side airbag device 20 Occupant restraint bar (support member)
24 airbag 26 inflator 28 seat back frame 36 connecting shaft 42 strap (connecting member)

Claims (6)

A far side airbag device for inflating and deploying an airbag stored in a vehicle width direction inner side portion of a vehicle seat back in a vehicle width direction inside of a seated occupant by a gas from an inflator;
The seatback is housed in the side portion with the height direction of the seatback as the longitudinal direction, the lower end portion is rotatably connected to the seatback frame, and the vehicle front side and the vehicle width direction inside as the airbag is inflated and deployed. A support member that rotates diagonally and supports the inflated and deployed airbag from the inside in the vehicle width direction;
Far-side occupant restraint system with   2. The far-side occupant according to claim 1, wherein the lower end portion of the support member is coupled to the seat back frame via a coupling shaft that is inclined so as to be directed toward the vehicle rear side as the axial direction is inward in the vehicle width direction. Restraint device.   The far-side occupant restraint device according to claim 1 or 2, wherein an upper end portion of the support member and the airbag are connected to each other by a connecting member having flexibility.   The far-side occupant restraint device according to any one of claims 1 to 3, wherein the support member faces the center of a shoulder portion of a seated occupant in the vehicle width direction in an inflated and deployed state of the airbag.   The far-side occupant restraint device according to claim 4, wherein a lower end portion of the support member is coupled to a lower portion of the seat back frame. A seat cushion that supports the buttocks and thighs of a seated occupant;
A seat back that supports the back of the seated occupant;
The far-side occupant restraint device according to any one of claims 1 to 5, provided on the seat back,
Vehicle seat equipped with

Images