JP3871819B2 - Sewing structure of airbag - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an airbag sewing structure that sews an airbag that is inflated by a high-pressure gas generated by an inflator when a vehicle collides to restrain an occupant.
[0002]
[Prior art]
In a side collision airbag device, a substantially strip-shaped base fabric is folded in half at a central fold line, and an airbag is formed by sewing the edge of the base fabric excluding the fold line. This has already been proposed by Hei 9-237960. Further, in a side collision airbag device, the airbag is folded in a bellows shape in the front-rear direction from the distal end side to the proximal end side, and then the folded upper portion and the lower portion of the folded airbag are folded in the vertical direction. A method has already been proposed by Japanese Patent Application No. 9-226787. Further, in the airbag device for side collision, a tether for stabilizing the shape of the airbag when it is inflated is sewn on the base fabric in a state where the tether is superimposed on the reinforcing fabric to reinforce the sewing portion. This is known from JP-A-5-16751.
[0003]
[Problems to be solved by the invention]
By the way, when sewing the edge of the base fabric folded in half at the center fold line as in the airbag device proposed in Japanese Patent Application No. 9-237960, the end of the sewing thread is processed. Therefore, it is necessary to stop the sewing line at a position before the folding line of the base fabric. Therefore, an unsewn portion is generated in the vicinity of the fold line of the base fabric, and an undesirable gas leak may occur from the unsewn portion when the airbag is inflated.
[0004]
When the airbag is folded in a bellows shape from the distal end side to the proximal end side as in the airbag device proposed by the Japanese Patent Application No. 9-226787, most of the folding work can be automated. However, since the folding operation of the base end portion of the airbag containing the inflator cannot be automated, the current situation is that the folding operation is performed manually. Thus, when the operation | work which folds an airbag in a bellows shape is performed manually, if there is no mark used as a reference | standard in an airbag, there exists a problem that the exact folding operation without variation will become difficult. However, it is not desirable to provide a special mark for manual folding work because it increases costs.
[0005]
In addition, as in the airbag device described in Japanese Patent Laid-Open No. Hei 5-16751, if the sewing portion of the airbag base fabric and the tether is reinforced with a reinforcing fabric, the number of parts increases by the amount of the reinforcing fabric. There is still a problem that causes an increase in cost.
[0006]
The present invention has been made in view of the above-described circumstances, and an object thereof is to provide a sewing structure of an airbag capable of ensuring the performance when the airbag is inflated and the operability of the folding operation of the airbag. To do.
[0007]
[Means for Solving the Problems]
In order to achieve the above object, the invention described in claim 1 is an airbag that inflates with a high-pressure gas generated by an inflator at the time of a vehicle collision and restrains an occupant, and is folded in two at a central folding line. In what has the sewing line extended along the edge which overlapped twice of the folded base fabric, The overlapping edge of the base fabric is sewn by two sewing lines arranged in parallel, The base fabric is configured separately from the base fabric, and is provided with an application cloth superimposed on the base fabric so as to cover at least the vicinity of the tip of the fold line, Two Sewing line is The above It extends beyond the fold line on the patch. At the same time, they are connected to each other on the protruding portion of the patch extending outward from the fold line. It is characterized by that.
[0008]
According to the above configuration, when sewing the sewing line extending along the double overlapping edge of the base fabric folded in half at the center fold line, it is overlapped so as to cover the vicinity of the end portion of the fold line. Since the sewing line extends over the fold line over the fold line, the sewing line is terminated before the fold line to prevent a sewing residue from being generated near the end of the fold line, and Gas leakage from the remaining part can be avoided . Also especially Since the two overlapping edges of the base fabric are sewn by two sewn lines, the sewing strength of the airbag can be increased. , And In addition, since the two sewing lines are connected to each other on the protrusions of the covering cloth projecting outward from the fold line, the two sewing lines can be sewn in one step, and the number of work steps can be reduced. Reduced.
[0009]
And claims 2 The invention described in A airbag that restrains an occupant by inflating with a high-pressure gas generated by an inflator at the time of a vehicle collision, and extends along double overlapping edges of a base fabric folded in two at a central fold line The base cloth is provided separately with a base cloth, and the base cloth is provided with a base cloth overlapped so as to cover at least the vicinity of the front end portion of the fold line. Extends above the fold line, The base fabric Above A vent hole is provided in the vicinity of the fold line. The It also serves as a reinforcing member for the vent hole.
[0010]
According to the above configuration, When sewing a sewing line extending along the double overlapping edge of the base fabric folded in half at the center folding line, the top of the application cloth overlapped so as to cover the vicinity of the tip of the folding line is Since the sewing line extends beyond the fold line, the sewing line ends before the fold line to prevent a sewing residue from occurring near the tip of the fold line, and gas leakage from the unsewn portion is prevented. Can be avoided. Also especially Since the application cloth for sewing the overlapping edge of the base fabric doubles as the vent hole, it can contribute to the reduction of the number of parts.
[0011]
And claims 3 The invention described in 1 is an airbag that restrains an occupant by inflating with a high-pressure gas generated by an inflator at the time of a vehicle collision, and is sewed on a sewing line with a reinforcing cloth superimposed on the inner surface of the base end of the base cloth. The sewing line is characterized in that the sewing line is arranged in parallel to the fold line so as to be a mark when the airbag is folded in a bellows shape along the fold line.
[0012]
According to the above configuration, since the sewing line that is sewed with the reinforcing cloth superimposed on the base end portion of the base fabric is arranged in parallel with the folding line when the airbag is folded in a bellows shape, the sewing line is used as a mark. The airbag can be folded correctly. In addition, since it is not necessary to provide a special mark, an increase in the number of parts and an increase in cost can be suppressed.
[0013]
And claims 4 The invention described in 1 is an airbag that inflates with a high-pressure gas generated by an inflator at the time of a vehicle collision and restrains an occupant, and connects the opposing inner surfaces of the base fabric to each other when the airbag is inflated. Even if the tether breaks due to a strong tensile force acting on both ends of the tether when the airbag is inflated, the sewing lines at both ends of the tether are not broken The both ends of the tether are double-folded and sewed on the inner surface of the base fabric so as to cause breakage in the middle of the base fabric.
[0014]
According to the above-described configuration, since both ends of the tether for connecting the opposing inner surfaces of the base fabric to regulate the shape of the airbag when it is inflated are respectively double-folded and sewn on the inner surface of the base fabric. Even if a strong tensile force acts on both ends of the tether during the expansion of the tether, it is possible to reliably prevent the sewing line from breaking and the base fabric from being broken. In addition, since no special reinforcing cloth is required, an increase in the number of parts and an increase in cost can be suppressed.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described based on examples of the present invention shown in the accompanying drawings. 1 to 22 show a first embodiment of the present invention. FIG. 1 is a perspective view of a seat equipped with an airbag device, FIG. 2 is an enlarged sectional view taken along line 2-2 of FIG. 1, and FIG. 4 is a sectional view taken along line 4-4 in FIG. 3, FIG. 5 is a sectional view taken along line 5-5 in FIG. 3, FIG. 6 is a sectional view taken along line 6-6 in FIG. FIG. 8 is an exploded perspective view of the airbag module, FIG. 9 is a view in the direction of arrow 9 in FIG. 8, FIG. 10 is a view in the direction of arrow 10 in FIG. 8, and FIG. FIG. 12 is a sectional view taken along line 12-12 of FIG. 9, FIG. 13 is an enlarged view of 13 part of FIG. 9, FIG. 14 is an enlarged view of 14 part of FIG. 9, and FIG. FIGS. 16A and 16B are diagrams for explaining the operation when assembling the airbag module, and FIGS. 17 to 22 are diagrams illustrating a procedure for folding the airbag.
[0016]
As shown in FIG. 1, a front seat S on the right side of an automobile is provided at a seat cushion 1 that is disposed substantially horizontally, a seat back 2 that extends rearward and upward from the rear end of the seat cushion 1, and an upper end of the seat back 2. The headrest 3 is formed. An airbag module M is housed inside the right side of the seat back 2 of the front seat S. When the airbag module M is operated, the airbag 4 breaks and pushes open the sewing portion 25 of the seat back 2 to open the front seat S. The front side of the occupant sitting on the side of the vehicle and the center pillar and the front door (not shown) are opened obliquely forward.
[0017]
As apparent from FIG. 2, a pipe frame 11 extending vertically along the right edge of the seat back 2 is provided with a metal module mounting frame 12 extending forward of the vehicle body and a metal retainer 13 extending inward of the vehicle body. It is fixed by welding. The airbag module M is fixed to the right side surface of the module mounting frame 12 by two bolts 14 and 14 and two nuts 15 and 15. A shape retaining material 16 made of a coarse blanket extends from the front surface of the airbag module M to the left side of the vehicle body in the thickness direction intermediate portion of the seat back 2, and is connected to a pipe frame (not shown) on the left side of the vehicle body. A mesh-like spring 17 is stretched on the inner periphery of the pipe frame 11, and a pad 19 made of sponge is attached to the front surface of the shape retaining material 16.
[0018]
The center portion of the front surface of the seat back 2 is covered with the first covering material 20, the left and right side portions and the upper portion of the first covering material 20 are covered with the second covering material 21, and the seat back continuous with the second covering material 21. The left and right side surfaces and the upper surface of 2 are covered with a third covering material 22, and the rear surface of the seat back 2 is covered with a fourth covering material 23. The first covering material 20 and the second covering material 21 are sewn in the sewing portion 24, and the second covering material 21 and the third covering material 22 are sewn in the sewing portion 25. A bead 26 is integrally sewn on the sewing portion 25. A clip 28 is provided at the tip of a tongue piece 27 extending from the sewing portion 24, and the first covering material 20 and the second covering material 21 are held in a predetermined shape by locking the clip 28 to the spring 17. . Further, a clip 30 is provided at the tip of the tongue piece 29 connected to the rear portion of the third covering material 22, and the third covering material 22 is fixed by locking the clip 30 to the retainer 13.
[0019]
Next, the structure of the airbag module M will be described with reference to FIGS.
[0020]
The metal retainer 31 has a main body 31 having a J-shaped cross section. ₁ And the main body 31 ₁ A pair of clamp portions 31 extending from one side edge ₂ , 31 ₂ The main body 31 ₁ And clamp part 31 ₂ , 31 ₂ A substantially cylindrical inflator 32 filled with propellant is supported on the circular cross-section formed by the above. The retainer 31 and the inflator 32 are stored so as to be wrapped in the base end portion of the folded airbag 4. The bolts 14, 14 are clamp portions 31 of the retainer 31. ₂ , 31 ₂ , Body 31 ₁ And through the side plate 33 and fastened by nuts 34 and 34, and further through the module mounting frame 12 and fastened by nuts 15 and 15.
[0021]
The retainer 31, the side plate 33, the inflator 32, and the folded airbag 4 are accommodated in a module case 35 that is integrally formed of synthetic resin. The module case 35 includes a tray-like case body 36 that opens toward the right side of the vehicle body, and a lid 37 that is connected to the rear edge of the case body 36 via a hinge portion 38. Five hooks 36 provided on the front and lower edges ₁ 5 hook engaging holes 37 provided on the upper edge, the front edge and the lower edge of the lid 37 ₁ The lid 37 is fixed so as to cover the opening of the case body 36 by being locked to.
[0022]
As is apparent from FIG. 6, the stepped portion 36 that is retracted from the outer surface of the case body 36 along the opening edge 39 on the outer periphery of the case body 36. ₂ And a flange 37 formed on the outer periphery of the lid 37. ₂ Is the step 36. ₂ It fits on the outer periphery. A flange 37 is provided on the inner surface of the front edge of the lid 37. ₂ Many protrusions 37 along _Three ... are formed, and these protrusions 37 are formed. _Three ... and flange 37 ₂ The opening edge 39 of the case main body 36 is fitted between the two. As a result, as shown by a chain line in FIG. 6, in the vicinity of the opening edge 39 of the case body 36, the step between the outer surface of the case body 36 and the outer surface of the lid 37 disappears and becomes flush with the case. The flange 37 of the lid 37 from the main body 36 ₂ No tip protrudes outward. As a result, when the weight of the occupant is added to the seat back 2 and the pad 19 and the third covering material 22 are deformed or moved, they are connected to the flange 37 of the lid 37. ₂ Hook 36 ₁ ... is hook engagement hole 37 ₁ It is possible to solve the problem of falling out of…. Moreover, the opening edge 39 of the case body 36 is connected to the flange 37 of the lid 37. ₂ And protrusion 37 _Three Are fitted and positioned, so that it is possible to more reliably prevent a step from being generated between the outer surface of the case body 36 and the outer surface of the lid 37 due to the load.
[0023]
As shown in FIGS. 8 and 16, the airbag module M includes an airbag 4, an inflator 32, a retainer 31, a side plate 33, a module case 35, bolts 14 and 14, nuts 34 and 34, and nuts 15 and 15. The protector sheet 40 is sewn integrally to the base end portion of the airbag 4. The protector sheet 40 is made of, for example, a nylon cloth made of the same material as the airbag 40. The inflator 32, the retainer 31, and the bolts 14 and 14 are assembled in advance as a subassembly 41, and the subassembly 41 is inserted into the airbag 4 through a slit 47 (described later) formed in the base end portion of the airbag 4.
[0024]
Next, the structures of the airbag 4 and the protector seat 40 will be described with reference to FIGS.
[0025]
The airbag 4 folds the belt-like base fabric 42 in half along the folding line F in the middle in the longitudinal direction, superimposes the reinforcing fabric 43 on the inner surface on the base end side, and connects the base fabric 42 and the reinforcing fabric 43 3. Sewing line S for books ₁ , S ₂ , S _Three And two sewing lines S extending parallel to the upper and lower edges of the doubled base fabric 42 _Four , S _Five It is sewn with. Sewing line S _Four , S _Five Is sewn with the base fabric 42 turned upside down, and the base fabric 42 after sewing is turned upside down through the slit 47.
[0026]
The protector sheet 40 has a base end 40. ₁ Sewing line S in a folded state ₆ After being sewn at, the doubled portion is superimposed on the base end portion of the base fabric 42, and the sewing line S ₇ Are sewn together. The sewing line S of the protector sheet 40 ₆ Is the other sewing line S ₁ ~ S _Five , S ₇ ~ S ₁₂ Sewing with a thicker thread, and therefore the sewing line S ₆ Is greatly raised from the surface of the protector sheet 40 (see FIGS. 4, 5 and 13).
[0027]
As apparent from FIGS. 9, 10, and 14, two vent holes 44, 44 are formed in the vicinity of the fold line F at the tip of the airbag 4. The vent holes 44, 44 are located slightly outside the folding line F and located outside the vehicle body (on the side opposite to the center pillar and the door opposite to the passenger), and the high-pressure gas discharged from the vent holes 44, 44. Is considered not to hit the crew.
[0028]
As best shown in FIG. 14, a substantially circular patch 45 is superimposed on the back surface of the base fabric 42 so as to surround each vent hole 44, and the sewing line S ₈ , S ₉ It is sewn with. FIG. 14 shows the base fabric 42 turned upside down, and the sewing line S ₈ , S ₉ The base cloth 42 is sewn on the sewing line S by the sewing of the application cloth 45. _Four , S _Five This is done at the stage before sewing. A protrusion 45 protruding from the outer periphery of the batter 45 ₁ Extends so as to overlap the vicinity of the end of the fold line F, and a sewing line S for sewing the upper edge and the lower edge of the base fabric 42. _Four , S _Five The end of the projection 45 of the patch 45 ₁ , And the protrusion 45 protruding outward from the fold line F. ₁ Connected in a U shape above.
[0029]
In this way, the sewing line S _Four , S _Five By extending the line beyond the folding line F, it is possible to eliminate the problem that a gap occurs in the base fabric 42 at the part of the folding line F and the inside and outside of the airbag 4 communicate with each other. It can be surely prevented. In addition, the protrusion 45 is formed by using a part of the application cloth 45 for forming the vent hole 44. ₁ As a result, the number of parts can be reduced. Two sewing lines S _Four , S _Five The protrusion 45 of the application cloth 45 ₁ Since it was connected in a U shape above, two sewing lines S _Four , S _Five Can be sewn in a single process, reducing the man-hours.
[0030]
As shown in FIGS. 9, 12, and 15, tethers 46 and 46 connect the inner surfaces of the base fabrics 42 that are folded in two and face each other. The base end portion of each tether 46 has an annular sewing line S on the base fabric 42. _Ten Sewing line S after being sewn with _Ten The tether 46 which is folded back so as to cover the base fabric 42 together with the base fabric 42 is sewn. ₁₁ It is further sewn with. Then, the tips of the two tethers 46 and 46 are overlapped with each other, and the sewing line S ₁₂ It is sewn with. Sewing line S _Ten , S ₁₁ The tethers 46 and 46 are sewn by sewing the base fabric 42 on the sewing line S. _Four , S _Five Is performed at the stage before sewing with the sewing line S ₁₂ Sewing of tethers 46 and 46 by the sewing line S _Four , S _Five This is performed before the base fabric 42 sewed in step 1 is turned over. Thus, when the airbag 4 is inflated, as shown in FIG. 12, the tethers 46 and 46 extend linearly, thereby regulating the distance between the facing portions of the base fabric 42 of the airbag 4. The shape of the bag 4 when the inflation is completed can be adjusted.
[0031]
As shown in FIGS. 13 and 16, the slit 47 is formed in a straight line at the base end portion of the airbag 4 so as to penetrate the base fabric 42 and the reinforcing cloth 43. Are formed with two bolt holes 48 through which the two bolts 14, 14 pass. As described above, the slit 47 penetrating the base cloth 42 and the reinforcing cloth 43 is for inserting the subassembly 41 into the airbag 4 and extends from the subassembly 41 inserted into the airbag 4. The two bolts 14 and 14 protrude from the bolt holes 48 and 48 at both ends of the slit 47 to the outside of the airbag 4.
[0032]
Also, two positioning pins 31 formed by cutting and raising the retainer 31. _Three , 31 _Three Are formed so as to penetrate the base cloth 42 and the reinforcing cloth 43. Locating pin 31 of retainer 31 _Three , 31 _Three Is inserted into the pin holes 49 and 49 so that the subassembly 41 inserted into the airbag 4 is positioned so as not to be turned upside down.
[0033]
A base end portion 40 of the protector sheet 40 that is superimposed on the base fabric 42 so as to cover the slit 47. ₁ Are formed with bolt holes 50, 50 and pin holes 51, 51 overlapping the bolt holes 48, 48 and the pin holes 49, 49 of the airbag 4. Further, when the protector sheet 40 is wound around the outer periphery of the folded airbag 4 by approximately 360 °, the base end portion 40 of the protector sheet 40 is provided. ₁ The tip 40 is superimposed on ₂ Also, the proximal end 40 ₁ Bolt holes 52 and 52 and pin holes 53 and 53 are formed so as to overlap the bolt holes 50 and 50 and the pin holes 51 and 51 formed in the above. The pin holes 49 and 49 of the base cloth 42 and the reinforcing cloth 43 are formed linearly, whereas the pin holes 51 and 51; 53 and 53 of the protector sheet 40 are more than the linear pin holes 49 and 49. It is formed in a large circle.
[0034]
As is clear from FIG. 13, the base end portion 40 of the protector sheet 40. ₁ And tip 40 ₂ Are connected through four breaking portions 54, 54; 55, 55 formed so as to be easily broken by a load. The front end portion 40 of the protector sheet 40 close to the breaking portions 54, 54; 55, 55 ₂ The two bolt holes 52, 52 are formed in the base plate, and the positional relationship between the bolt holes 52, 52 and the fracture portions 54, 54; 55, 55 is set as follows. That is, a straight line is drawn in parallel with the longitudinal direction of the protector sheet 40 through the center of the bolt holes 52, 52, and 2 in parallel with the longitudinal direction of the protector sheet 40 through the centers of the breaking portions 54, 54; When the straight line of the book is drawn, the center of the bolt holes 52 and 52 and the center of the fracture portions 54 and 54 are offset by a distance α in the direction perpendicular to the longitudinal direction, and the center of the bolt holes 52 and 52 and the fracture portion 55, The center of 55 is deviated by a distance β in the direction perpendicular to the longitudinal direction.
[0035]
Next, the assembly process of the airbag module M will be described.
[0036]
First, as shown in FIG. 16, after the protector sheet 40 is inverted from the chain line position to the solid line position in the direction of the arrow, the slit 47 penetrating the base cloth 42 and the reinforcing cloth 43 of the airbag 4 is opened, and the inflator 32, the retainer A subassembly 41 in which 31 and bolts 14 and 14 are integrated is inserted into the airbag 4 from the slit 47. Subsequently, the two bolts 14 and 14 projecting from the retainer 31 of the subassembly 41 inserted into the airbag 4 are passed through the bolt holes 48 and 48 formed at both ends of the slit 47 from the inside to the outside. And two positioning pins 31 protruding from the retainer 31 _Three , 31 _Three Are passed through the two linear pin holes 49, 49 penetrating the base cloth 42 and the reinforcing cloth 43 of the airbag 4 from the inside to the outside.
[0037]
The harness connected to the inflator 32 at the time of assembling is previously removed from the inflator 32 and stored in the base cloth 42, and both ends thereof are inserted from the slits 47 of the base cloth 42 and the harness drawing holes (not shown) of the base cloth 42. Project outside. Then, after the inflator 32 is coupled to the proximal end of the harness protruding from the slit 47, the inflator 32 is inserted into the base cloth 42 from the slit 47, whereby the leading end of the harness is pulled out from the harness drawing hole. It can be done easily.
[0038]
Subsequently, by returning the protector sheet 40 from the state of FIG. 16 to the state of FIG. 9, the base end portion 40 of the protector sheet 40. ₁ The two bolt holes 50, 50 and the two pin holes 51, 51 formed on the bolt 14, 14 and the positioning pin 31, respectively. _Three , 31 _Three To fit. As a result, the slit 47 penetrating the base cloth 42 and the reinforcing cloth 43 of the airbag 4 is covered and closed by the protector sheet 40. Thus, by using the protector sheet 40, the slit 47 of the airbag 4 can be closed without using a special closing member.
[0039]
Next, a procedure for folding the airbag 4 in a bellows shape from the distal end portion toward the proximal end portion will be described with reference to FIGS.
[0040]
As shown in FIGS. 18 and 19, the airbag 4 unfolded in the state of FIG. 17 is folded in a bellows shape from the distal end portion toward the proximal end portion. Fold line F ₁ ~ F ₇ Are set in parallel at a predetermined interval so as to be orthogonal to the vertical center line L of the airbag 4. The front end portion side of the airbag 4 is flat because there is no stored item, and therefore, the folding line F on the front end portion side is flat. ₂ ~ F ₇ The folding work along the line is automated by the machine. However, the base end side of the airbag 4 is not flattened because there are stored items such as the inflator 32 inside, and it is difficult to automate by the machine, so one fold line F on the base end side is difficult. ₁ Only the folding work along is done manually.
[0041]
The manual folding work tends to be less accurate than the machine folding work, and some kind of mark is necessary to fold the airbag 4 correctly. ₁ ~ F ₇ Is virtual and is not actually drawn on the surface of the airbag 4. However, the sewing line S for integrally sewing the base fabric 42 and the reinforcing fabric 43 to the base end portion of the airbag 4. ₁ Is the folding line F ₁ This sewing line S is arranged in parallel with ₁ Fold line F as a landmark ₁ Can be easily and accurately performed. The sewing line S for sewing the base cloth 42 and the reinforcing cloth 43 in this way. ₁ Is used as a mark for the folding operation of the airbag 4, so that it is not necessary to provide a special mark for the folding work, and an increase in cost can be avoided.
[0042]
Then, as shown in FIG. 20, in order to reduce the height of the airbag 4 in the vertical direction, the upper and lower parts of the folded airbag 4 are folded downward and upward, respectively. Then, as shown in FIG. 21, in order to reduce the width of the airbag 4 in the left-right direction, both the left and right halves of the folded airbag 4 are crushed so as to fall forward.
[0043]
Subsequently, as shown in FIGS. 4, 5, 9, and 22, after the protector sheet 40 is wound around the outer periphery of the folded airbag 4 by approximately one turn, the front end portion 40 of the protector sheet 40 is wound. ₂ The two bolt holes 52 and 52 and the two pin holes 53 and 53 formed on the bolts 14 and 14 and the positioning pins 31 respectively. _Three , 31 _Three To fit. As a result, the airbag 4 is wrapped in the protector sheet 40 and held in a folded state.
[0044]
In this state, the two positioning pins 31 _Three , 31 _Three Through the two linear pin holes 49, 49 of the airbag 4, it is visually confirmed that the subassembly 41 is assembled correctly. At this time, the base end portion 40 of the protector sheet 40 that is doubly superimposed on the outside of the two linear pin holes 49, 49. ₁ Pin holes 51, 51 and the tip 40 ₂ The pin holes 53, 53 are formed in a circular shape larger than the linear pin holes 49, 49, so that the subassembly 41 is assembled through the circular pin holes 51, 51; The state can be easily confirmed (see FIG. 5).
[0045]
Further, the tip 40 of the protector sheet 40 is used. ₂ When the bolt holes 52, 52 are fitted into the bolts 14, 14, the front end portion 40 of the protector seat 40 is compressed so that the folded airbag 4 is compressed. ₂ It is necessary to give tension by pulling strongly. At this time, the tension is the base end portion 40 of the protector sheet 40. ₁ To the distal end portion 40 through the four broken portions 54, 54; ₂ Although it is transmitted to the tip 40 ₂ If the bolt holes 52, 52 are arranged in the immediate vicinity of the fracture portions 54, 54; 55, 55, a strong tension acts on the inner periphery of the bolt holes 52, 52 fitted to the bolts 14, 14. There is a possibility that the protector sheet 40 may be loosened due to the bolt holes 52, 52 extending or deforming.
[0046]
However, as is apparent from FIG. 13, according to this embodiment, the bolt holes 52, 52 are offset from the fracture portions 54, 54; 55, 55 in the vertical direction by the distance α or the distance β. It is possible to prevent elongation and deformation from being caused by a strong tension acting directly on 52 and 52. As a result, the folded airbag 4 can be securely held by being wrapped with the protector sheet 40 without slack.
[0047]
Subsequently, as shown in FIGS. 4 and 8, bolt holes 33 formed in the side plate 33. ₁ , 33 ₁ And pin hole 33 ₂ , 33 ₂ Bolts 14 and 14 and positioning pins 31 _Three , 31 _Three Then, nuts 34 and 34 are screwed into the bolts 14 and 14. As a result, since the airbag 4 and the protector sheet 40 are sandwiched and firmly fixed between the retainer 31 and the side plate 33, the slit 47 penetrating the base cloth 42 and the reinforcing cloth 43 of the airbag 4 is more reliably closed. Thus, leakage of high-pressure gas from the slit 47 can be prevented. In this state, the sewing line S protruding from the surface of the protector sheet 40. ₆ But abuts against the edge of the side plate 33 (see FIGS. 4 and 5).
[0048]
Subsequently, the airbag 4 wrapped in the protector sheet 40 is accommodated in the case body 36 of the module case 35, and the hook 36 ₁ ... the hook engaging hole 37 ₁ .. Are engaged to fix the lid 37 in the closed position. At this time, the bolts 14 and 14 and the positioning pins 31 _Three , 31 _Three Is a bolt hole 36 formed in the bottom surface of the case body 36. _Three , 36 _Three And pin hole 36 _Four , 36 _Four Fits loosely into.
[0049]
Subsequently, the air bag module M is fixed to the module mounting frame 12 by inserting bolts 14 and 14 through the module mounting frame 12 of the front seat S and screwing nuts 15 and 15 into the front ends. As apparent from FIGS. 4 and 5, the module case 35 made of synthetic resin is not in contact with the module mounting frame 12 in a state where the airbag module M is fixed to the module mounting frame 12. Both sides of the metal module mounting frame 12 are fastened and fixed by two metal nuts 34, 34; 15, 15. At this time, if the module case 35 made of synthetic resin is sandwiched and tightened, the synthetic resin may be dented by a load and the nuts 34, 34; 15, 15 may be loosened. Since the fastening force does not act on the module case 35, the above problem can be solved.
[0050]
Thus, when the inflator 32 generates gas during a vehicle collision, the airbag 4 is inflated inside the module case 35. When the airbag 4 is inflated, tension is applied to the protector sheet 40 that wraps the outer periphery of the airbag 4, so that the rupture portions 54, 54; 55, 55 of the protector sheet 40 are broken and the airbag 4 can be inflated freely. .
[0051]
Even if the pressure of the high-pressure gas supplied to the inside of the airbag 4 acts to position the base end portion of the airbag 4 relative to the retainer 31, as shown in FIGS. Sewing line S of protector sheet 40 integrated with 4 ₆ Is in contact with the edge of the side plate 33 integral with the retainer 31, so that the sewing line S ₆ As a stopper, not only can the position of the airbag 4 be prevented from shifting, but stress can be prevented from concentrating on the base end of the airbag 4. In addition, a special stopper is not required, which can contribute to a reduction in the number of parts.
[0052]
When the pressure at which the airbag 4 is inflated acts on the inner surface of the lid 37 of the module case 35, the hook 36 ₁ ... is hook engagement hole 37 ₁ ... and the lid 37 rotates around the hinge portion 38 (see the chain line in FIGS. 4 and 5), and the case body 36 is opened.
[0053]
As apparent from FIG. 7A, each hook engaging hole 37 formed in the lid 37. ₁ Is formed in a substantially rectangular shape, and its long side extends in a direction along the outer peripheral edge of the lid 37. The outer peripheral edge of the lid 37 and the hook engaging hole 37 ₁ Elongated bridge part 37 located between the long sides of _Four Hook engaging hole 37 facing both ends of ₁ Of the two corners a and b, one corner a has a relatively large radius of curvature and is formed in a smooth arc shape, while the other corner b is relatively small. Sharp and sharp with a radius of curvature.
[0054]
Therefore, when the airbag 4 is inflated, the hook 36 is ₁ ... from hook engaging hole 37 ₁ When the lid 37 is opened from the case main body 36 and the corners a and b are broken, only the other corner b where the stress is concentrated is broken. The corner a is not broken. As a result, both corners a and b break together, and the bridge portion 37 _Four Is prevented from being scattered.
[0055]
FIG. 7B shows a hook engaging hole 37. ₁ Another embodiment is shown. In this embodiment, the hook engaging hole 37 ₁ Of the two corners a and b, the bridge portion 37 facing one corner a _Four The bridge portion 37 facing the corner b of the other side is increased. _Four The wall thickness is reduced. Also in this embodiment, the thin corner b is first broken to avoid breaking the thick corner a, so that both the corners a and b are broken together to form the bridge portion 37. _Four Can be prevented in advance.
[0056]
In FIG. 2, when the opening pressure of the lid 37 is transmitted to the third covering material 22 of the seat back 2, the sewing portion 25 is broken and the second covering material 21 and the third covering material 22 are separated, and the gap The airbag 4 that has passed through is deployed obliquely forward along the center pillar and the front door to restrain the right side of the occupant.
[0057]
When the airbag 4 is inflated, as shown in FIG. 12, the tethers 46 and 46 extend linearly to restrict the width of the airbag 4 in the left-right direction. At this time, the base end portions of the tethers 46 and 46 are folded in half and overlapped together with the base fabric 42 of the airbag 4 in a three-ply manner to form the sewing line S. ₁₁ In contrast, the tip portions of the tethers 46 and 46 are directly overlapped with each other to form a sewing line S. ₁₂ And the sewing line S at the base end of the tethers 46, 46 ₁₁ The width γ of the sewing line S at the tip of the tethers 46, 46 is ₁₂ Is set to be larger than the width δ (see FIG. 15).
[0058]
Sewing line S composed of closed curves ₁₁ , S ₁₂ The strength of the sewing line S ₁₁ , S ₁₂ The sewing line S for sewing the base ends of the tethers 46, 46 to the base cloth 42 is proportional to the size of the area surrounded by ₁₁ The strength of the sewing line S for sewing the tip portions of the tethers 46, 46 ₁₂ Even if the tethers 46 and 46 break due to tension, the sewing line S ₁₁ Does not break, the sewing line S ₁₂ Alternatively, the tethers 46, 46 themselves will break. As a result, the sewing line S ₁₁ At the same time, it is possible to reliably prevent the high-pressure gas from leaking due to the base fabric 42 of the airbag 4 being broken. Moreover, since the base end portions of the tethers 46 and 46 are simply folded in half and no special reinforcing cloth is required, an increase in the number of parts and an increase in cost can be suppressed.
[0059]
In the above embodiment, the two tethers 46, 46 having the base end portions sewn on the inner surfaces facing each other of the base cloth 42 are integrally sewn and joined at the tip ends thereof. You may sew both ends of this to the inner surface which the base fabric 42 opposes. However, the sewing work becomes easier if the tether is divided into two.
[0060]
Next, a second embodiment of the present invention will be described with reference to FIGS.
[0061]
The second embodiment is directed to an airbag for a driver's seat that is deployed from the central portion of the steering wheel into the passenger compartment and restrains the driver. The airbag 4 includes a front fabric 42A and a rear fabric. Sewing line S with base fabric 42B ₁₃ , S ₁₄ It is sewn with. The base end portion of the two tethers 46, 46 folded in half is the sewing line S. ₁₅ The tether 56 is sewn on the inner surface of the base fabric 42A and the tether 56, which is folded in two at the two central portions, is sewn on the inner surface of the base fabric 42B at the two locations. ₁₆ , S ₁₆ In addition, the two tethers 46, 46 and the two tethers 56 have respective sewing lines S. ₁₇ , S ₁₇ It is sewn with.
[0062]
Also in this embodiment, the sewing line S for sewing the tethers 46, 46, 56 to the base fabrics 42A, 42B. ₁₅ , S ₁₅ , S ₁₆ , S ₁₆ The tethers 46, 46, 56 are folded in half at the portion of FIG. ₁₅ , S ₁₅ , S ₁₆ , S ₁₆ Can be reliably prevented from being broken and the base fabrics 42A and 42B being torn.
[0063]
As mentioned above, although the Example of this invention was explained in full detail, this invention can perform a various design change in the range which does not deviate from the summary.
[0064]
For example, in the embodiment, the airbag device for side collision stored mainly in the front seat S has been described, but the present invention is provided in a driver seat airbag device or an instrument panel provided in a steering wheel. The present invention can also be applied to an airbag device for a passenger seat.
[0065]
【The invention's effect】
Claim 1 as described above , 2 respectively According to the described invention, when sewing the sewing line extending along the double overlapping edge of the base fabric folded in half at the center fold line, the base fabric is configured separately from the base fabric. Since the sewing line extends over the lining line so as to cover the vicinity of the front end portion of the fold line on the base cloth, the sewing line ends before the fold line, and the fold line ends. It is possible to prevent an unsewn portion from being generated in the vicinity of the tip portion, and to avoid gas leakage from the unsewn portion.
[0066]
Also In particular, claim 1 According to the invention described in (2), since the two overlapping edges of the base fabric are sewn by the two sewing lines arranged in parallel, the sewing strength of the airbag can be increased. In addition, since the two sewing lines are connected to each other on the protrusions of the covering cloth projecting outward from the fold line, the two sewing lines can be sewn in one step, and the number of work steps can be reduced. Reduced.
[0067]
Also In particular, claim 2 According to the invention described in (2), since the application cloth for sewing the double overlapping edge of the base fabric also serves as the vent hole and the reinforcing member, it can contribute to the reduction in the number of parts.
[0068]
And claims 3 According to the invention described in the above, the sewing line in which the reinforcing cloth is overlapped and sewn on the inner surface of the base end portion of the base fabric is used as a mark when the airbag is folded in a bellows shape along the fold line. Since it is arranged in parallel with the folding line, the airbag can be correctly folded using the sewing line as a mark. In addition, since it is not necessary to provide a special mark, an increase in the number of parts and an increase in cost can be suppressed.
[0069]
And claims 4 According to the invention described in the above, even when a strong tensile force acts on both ends of the tether when the airbag is inflated and the tether breaks, the sewing line at both ends does not break and the middle of the both ends The two tethers that connect the opposing inner surfaces of the base fabric and regulate the shape of the airbag when it is inflated are fold-folded and sewn on the inner surface of the base fabric so Even if a strong tensile force acts on both ends of the tether when the bag is inflated, the sewing line can be reliably prevented from breaking and the base fabric from being broken. In addition, since no special reinforcing cloth is required, an increase in the number of parts and an increase in cost can be suppressed.
[Brief description of the drawings]
FIG. 1 is a perspective view of a seat provided with an airbag device.
FIG. 2 is an enlarged sectional view taken along line 2-2 in FIG.
3 is a view in the direction of arrows 3 in FIG.
4 is a cross-sectional view taken along line 4-4 of FIG.
5 is a cross-sectional view taken along line 5-5 in FIG.
6 is a sectional view taken along line 6-6 in FIG.
7 is an enlarged view of part 7 in FIG. 3;
FIG. 8 is an exploded perspective view of the airbag module.
9 is a view taken in the direction of arrow 9 in FIG.
10 is a view in the direction of arrow 10 in FIG.
11 is a sectional view taken along line 11-11 in FIG.
12 is a sectional view taken along line 12-12 of FIG.
13 is an enlarged view of part 13 in FIG.
14 is an enlarged view of part 14 in FIG. 9;
15 is an enlarged view of part 15 in FIG. 9;
FIG. 16 is an explanatory diagram of the action when assembling the airbag module.
FIG. 17 is a diagram showing a procedure for folding an airbag.
FIG. 18 is a diagram showing a procedure for folding an airbag.
FIG. 19 is a diagram showing a procedure for folding an airbag.
FIG. 20 is a diagram showing a procedure for folding an airbag.
FIG. 21 is a diagram showing a procedure for folding an airbag.
FIG. 22 is a diagram showing a procedure for folding an airbag.
FIG. 23 is a front view of a driver airbag according to a second embodiment of the present invention.
24 is a cross-sectional view taken along line 24-24 in FIG.
[Explanation of symbols]
4 Airbag
32 inflator
42 base fabric
42A base fabric
42B base fabric
43 Reinforcing cloth
44 Bent hole
45
45 ₁ protrusion
46 Tether
56 Tether
F Fold line
F ₁ Folding line
F ₂ Folding line
S ₁ Sewing line
S _Four Sewing line
S ₆ Sewing line

Claims (4)

An airbag (4) that inflates with a high-pressure gas generated by an inflator (32) at the time of a vehicle collision and restrains an occupant,
In those with sewing lines extending along the overlapping edges doubly (S _4, S ₅₎ of the folded base fabric folded in two (42) at the center fold line (F),
Overlapping edges to double the base fabric (42) is sewn by the parallel to two sewing lines (S _4, S _5),
A base cloth (42) is provided separately from the base cloth (42), and is provided with a patch cloth (45) superimposed on the base cloth (42) so as to cover at least the vicinity of the tip of the fold line (F),
The two sewing lines (S _4, S _5), the patch cloth (45) with extends beyond the fold line (F) of the above filler cloth protruding outwardly from the fold line (F) characterized in that connected to each other on the projection portion (45) (45 _1), sewing structure of the airbag. An airbag (4) that inflates with a high-pressure gas generated by an inflator (32) at the time of a vehicle collision and restrains an occupant,
In those with sewing lines extending along the overlapping edges doubly (S _4, S ₅₎ of the folded base fabric folded in two (42) at the center fold line (F),
A base cloth (42) is provided separately from the base cloth (42), and is provided with a patch cloth (45) superimposed on the base cloth (42) so as to cover at least the vicinity of the tip of the fold line (F),
The sewing lines (S ₄ , S ₅ ) extend on the patch cloth (45) beyond the fold line (F),
Base fabric (42) comprises provided with a vent hole (44) in the vicinity of the folding line (F), the patch cloth (45) is characterized in that also serves as a reinforcing member of the vent hole (44), air Sewing structure of the bag. An airbag (4) that inflates with a high-pressure gas generated by an inflator (32) at the time of a vehicle collision and restrains an occupant,
In the case where the reinforcing cloth (43) is overlapped on the inner surface of the base end portion of the base cloth (42) and is sewn on the sewing line (S ₁ ),
The sewing line (S _1), this in order to mark when folded into an accordion shape along the airbag (4) the folding line (F _1, F _2),該折Ri lines (F _1, F ₂ The sewing structure of the airbag is arranged in parallel with An airbag (4) that inflates with a high-pressure gas generated by an inflator (32) at the time of a vehicle collision and restrains an occupant,
In what is provided with a tether (46, 56) for connecting the opposing inner surfaces of the base fabric (42, 42A, 42B) to regulate the shape of the airbag (4) when inflated,
Even when a strong tensile force acts on both ends of the tether (46, 56) when the airbag (4) is inflated to break the tether (46, 56), the sewing lines at both ends do not break. An airbag characterized in that both ends of the tether (46, 56) are double-folded and sewn on the inner surface of the base fabric (42, 42A, 42B) so that breakage occurs in the middle between the ends. Sewing structure.

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