JP2004042694A - Seat belt device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a seat belt device which suppresses occupant's moving to a side due to collision of a vehicle. <P>SOLUTION: In this seat belt device 10, one end part of webbing 12 is locked in a retractor 14 so as to wind and pull out freely and the other end part of it is fixed to a vehicle body. When a tongue plate 22 in which an intermediate part is inserted is locked in a buckle device 26, one end part side restrains occupant's upper body and the other end part side restrains occupant's waist part for the tongue plate 22. A guide member 32 attached to the webbing 12 slidably in this restrain condition is locked in a guide anchor 34 and is positioned in the vicinity of the buckle device 26. When the vehicle collides on its side face, a driving device 38 winds a winding belt 36 and moves onto a seat back part 24A side together with the guide anchor 34 to change restrain path of the occupant's upper body. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a seatbelt device applied to a vehicle such as an automobile for restraining an occupant, and more particularly to a so-called three-point seatbelt device for restraining the occupant's upper body and waist using continuous webbing.
[0002]
[Prior art]
In vehicles such as automobiles, for example, at the time of a vehicle collision or sudden deceleration, a seat belt device that regulates the relative movement of an occupant with respect to the vehicle body is provided, and such a seat belt device is generally a so-called three-point seat. A belt device is employed.
[0003]
For example, in a three-point seat belt device applied to a front seat of a vehicle, a winding device (retractor) fixed to a lower portion of a center pillar of a vehicle body, a shoulder anchor fixed to an upper portion of the center pillar, and a vicinity of the winding device. And the other end is fixed to the fixed anchor with the one end fixed to the winding device so that it can be pulled out and pulled out and the middle part wound around the shoulder anchor and folded back A webbing, a tongue plate that passes through a portion between the shoulder anchor and the fixed anchor in the webbing, and a buckle device to which the fixed anchor is fixed to the vehicle body on the opposite side across the seat and the tongue plate is detachable. It is configured with. Further, in a three-point seat belt device applied to a rear seat, a configuration in which a winding device is provided at a position corresponding to a shoulder anchor in a front seat may be adopted.
[0004]
When the occupant seated on the seat wears the webbing, the occupant locks the tongue plate to the buckle device while pulling the tongue plate disposed near the shoulder anchor and pulling out the webbing from the winding device. . Thus, the shoulder belt portion from the shoulder anchor (winding device) to the tongue plate in the webbing restrains the occupant's upper body, and the waist belt portion from the tongue plate to the fixed anchor in the webbing restrains the occupant's waist.
[0005]
In such a three-point seat belt device, since one end of the webbing is locked to the winding device so that the webbing can be pulled out, the webbing normally restrains the occupant gently (allowing the posture change). There is no hindrance to the driving operation of the vehicle by the occupant. On the other hand, when the vehicle suddenly decelerates due to a collision or the like, the lock mechanism (ELR mechanism or the like) of the winding device prevents the webbing from being pulled out, or the pretensioner mechanism of the winding device forcibly winds the webbing by a predetermined amount. By taking it, the movement (position change) of the occupant with respect to the vehicle body is suppressed.
[0006]
However, in the conventional three-point seat belt device as described above, a great suppression effect is obtained for the occupant's forward movement due to an impact such as a collision, but the occupant's lateral movement is suppressed as much as to the forward movement. Was not obtained in some cases.
[0007]
Therefore, various measures have been taken to improve the occupant protection performance in the event of a collision from the side of the vehicle.
[0008]
The occupant protection device 100 described in Japanese Patent Application Laid-Open No. 9-39628 shown in FIG. 10 includes a waist support means 104 in addition to the seat belt device 102. The lumbar support means 104 is disposed at the end of the cushion 106A of the seat 106 on the side of the door 108 of the vehicle, and is normally immersed in the cushion 106A so as to prevent the occupant from getting on and off the vehicle (see FIG. 10 (A)), when the occupant locks the tongue plate 110 to the buckle device 112 and attaches the webbing 114, it rises from the cushion portion 106A (see FIG. 10 (B)) to protect the occupant's waist and thighs. Configuration.
[0009]
Further, in a seat belt device 120 described in Japanese Patent Application Laid-Open No. 10-226295 shown in FIG. 11, a gas pressure inflatable seat belt 122 is employed as webbing. An upper inflator 124 and a lower inflator 126 are connected to the gas pressure inflatable seat belt 122 at an upper portion near the occupant's head and a lower portion near the chest, respectively. In the gas pressure inflatable seat belt 122, as shown in FIG. 11A, when the lateral acceleration sensor 128 detects a side collision and activates the upper inflator 124, the portion corresponding to the occupant's temporal region starts. When the front and rear acceleration sensor 130 detects a frontal collision or the like and operates the lower inflator 126 as shown in FIG. The inflated portion expands first to protect the chest. That is, in the gas-pressure inflatable seat belt 122, it is possible to change the point-of-enforcement protection portion according to the difference in the collision mode of the vehicle.
[0010]
Further, in an inflatable seat belt device 140 described in Japanese Patent Application Laid-Open No. 2001-239906 shown in FIG. 12, an air belt 142 that is formed in a bag shape as a webbing and is usually kept in a band shape and that is inflated by gas pressure in an emergency is adopted. ing. Further, the inflatable seat belt device 140 includes a webbing height position control means (not shown) capable of moving the shoulder anchor 144 in the vertical direction. As shown in FIG. 12A, the webbing height position control means normally positions the shoulder anchor 144 at a height where the bag-shaped portion of the air belt 142 does not face the side of the occupant's head, and as shown in FIG. As shown in (), the shoulder anchor 144 is raised so that the bag-shaped portion of the air belt 142 faces the side of the occupant's head at the time of a side collision. Thereby, the air belt 142 can be applied without being restricted by the type and layout of the vehicle, and the head of the occupant can be protected at the time of a side collision without using another device such as a side airbag device.
[0011]
[Problems to be solved by the invention]
However, the occupant protection in the case of a side collision according to the conventional configuration shown in FIGS. 10 to 12 is mainly intended for a collision from the side of the vehicle closer to the occupant to be protected, and is more distant from the occupant. No collision is assumed from the side of the vehicle. On the other hand, there are various types of collisions in an actual accident, and an occupant may be impacted by a collision on the side of the vehicle far from the occupant.
[0012]
That is, in the conventional configuration shown in FIGS. 10 to 12, the shoulder belt portion of the webbing is moved from the shoulder anchor to the buckle device in the same manner as in the conventional three-point seat belt device which does not take measures for protecting the occupant in the event of a side collision. (The tongue plate) is obliquely stretched over the body surface of the occupant, and the opening on the side surface of the occupant (the inside portion of the vehicle that is not restrained by the shoulder belt portion) is large. If the impact cannot be sufficiently suppressed and the impact from the side far from the occupant is large, the occupant moves largely in the passenger compartment and collides with the passenger compartment or the passenger. It is possible.
[0013]
For example, in the collision mode shown in FIG. 13, the occupant P1 of the vehicle S1 moves in the direction of the arrow D (almost the side of the vehicle) on which the other vehicle S2 collides, but the passenger P2 of the vehicle S1 moves in the direction of the arrow E. It is considered to move in the direction (forward right in the traveling direction). In this case, the occupant P1 is directly protected by the configuration shown in FIG. 10 to FIG. 12, but in the configuration shown in FIG. 10 to FIG. Since the movement to the side) cannot be suppressed, not only is the passenger P2 lacking direct protection, but also it is assumed that the passenger P2 collides with the occupant P1 (secondary collision). There has been a problem that the protection of P1 may not be sufficient.
[0014]
That is, in the conventional seat belt device and the like, there is still room for improvement with respect to suppression of the lateral movement of the occupant due to the collision from the side of the vehicle.
[0015]
An object of the present invention is to provide a seatbelt device that can suppress a lateral movement of an occupant due to a vehicle collision or the like in consideration of the above fact.
[0016]
[Means for Solving the Problems]
In order to achieve the above object, a seat belt device according to the present invention is configured such that one end of a webbing is freely retracted and pulled out by a winding device, and the other end of the webbing is attached to a seat. The tongue plate, which is fixed to the vehicle body on the same side as the above and the intermediate portion of the webbing is inserted, is locked to a buckle device located on the opposite side to the winding device with respect to the seat, A seat belt device in which the one end side of the tongue plate restrains an upper body of an occupant seated on the seat and the other end side restrains a lumbar portion of the occupant; A guide member movably mounted along a longitudinal direction of the webbing between the plate and a guide member on the same side as the buckle device with respect to the seat; Driving means for normally positioning the guide member in the vicinity of the buckle device in the restrained state of the occupant, and moving the guide member to the back of the occupant in a predetermined case. Features.
[0017]
In the seat belt device according to claim 1, when the tongue plate is engaged with the back device while the webbing whose one end is freely taken up and pulled out of the winding device is pulled out from the winding device, the tongue plate of the webbing is locked. The shoulder belt, which is closer to one end (winding device), restrains the occupant, and the waist belt, which is the other end of the webbing, restrains the waist of the occupant.
[0018]
In this state, the guide member attached between the tongue plate of the webbing and the winding device is located near the buckle device by the driving means. As a result, the shoulder belt is obliquely extended from one shoulder of the occupant to the waist opposite to the shoulder, similarly to the conventional three-point seat belt device. In this state, the webbing can be freely taken up and pulled out from the winding device, and there is no hindrance to the driving operation of the vehicle by the occupant. In addition, since the guide member is movable along the longitudinal direction of the webbing (shoulder belt portion), the guide member is located in the longitudinal direction position of the webbing according to the occupant's physique and the seat position in a state where the guide member is disposed near the buckle device. And the occupant is not unnecessarily restrained.
[0019]
Then, for example, in a predetermined case such as a vehicle side collision, the driving means operates to move the guide member to the back side of the occupant (substantially above and behind the buckle device). Then, the path on the body surface of the occupant is changed such that the webbing (shoulder belt portion) between the winding device and the tongue plate passes through the occupant's body side surface by the guide member moved to the occupant's back side. . Thereby, the opening of the webbing (shoulder belt portion) on the side of the occupant that restrains the occupant's upper body is narrowed, and the occupant is prevented from moving to the side (buckle device side).
[0020]
Thus, in the seat belt device according to the first aspect, the occupant can be suppressed from moving laterally due to a vehicle collision or the like.
[0021]
The take-up device includes a mechanism (ALR) for preventing the webbing from being pulled out by a predetermined amount or more, a mechanism (ELR) for preventing the webbing from being drawn when a collision is detected, or a pretensioner mechanism for forcibly winding the webbing at the time of a collision. It is desirable to have such.
[0022]
A seat belt device according to a second aspect of the present invention is the seat belt device according to the first aspect, wherein the driving unit applies an impact force to the vehicle body based on a detection result of a detection unit that detects a collision of the vehicle body. And electrically connected to control means for estimating the direction of impact and outputting a detection signal when the magnitude of the component in the vehicle width direction of the impact force is equal to or greater than a predetermined value. The guide member is moved.
[0023]
In the seat belt device according to the second aspect, the driving unit is electrically connected to a control unit that forms the seat belt device or that forms a control device on the vehicle side. The control means estimates the impact force and impact direction (collision mode) acting on the occupant based on the detection result of the vehicle collision by the detection means, and detects the impact force if the component in the vehicle width direction is equal to or more than a predetermined value. The signal is output to the driving means. The driving means is activated when the detection signal is input, and moves the guide member to the back of the occupant.
[0024]
As described above, in the seat belt device according to the second aspect, the driving means operates when the impact force in the vehicle width direction that is equal to or more than the predetermined value acts due to the collision of the vehicle. Movement is reliably suppressed. Further, when the component of the impact force in the vehicle width direction is small, the occupant is appropriately protected as a normal three-point seat belt device.
[0025]
In the seat belt device according to a third aspect of the present invention, in the seat belt device according to the second aspect, the driving unit outputs the detection according to a magnitude of a vehicle width direction component of the impact force. The guide member is moved by an amount corresponding to the signal value of the signal.
[0026]
In the seat belt device according to the third aspect, when the control unit inputs a detection signal corresponding to the magnitude of the component of the impact force in the vehicle width direction to the driving unit, the driving unit sets the signal value of the detection signal (the magnitude of the detection signal). The guide member is moved by an amount corresponding to the above. Thereby, the occupant protection performance at the time of a vehicle collision is improved.
[0027]
That is, in the seat belt device according to the first or second aspect, when the guide member is located near the buckle device, the effect of suppressing the occupant from moving forward is high, and the amount of movement of the guide member to the occupant's back side is large. The effect of suppressing the lateral movement of the occupant increases as the occupant moves. However, in the seat belt device according to the third aspect, the amount of movement of the guide member by the driving means is controlled by the control means in accordance with the type of collision. It is possible to effectively suppress the movement to the side (both the suppression of the movement to the front and the side).
[0028]
A seat belt device according to a fourth aspect of the present invention is the seat belt device according to any one of the first to third aspects, wherein the guide member is detachable from the driving unit. I have.
[0029]
In the seat belt device according to the fourth aspect, since the guide member is detachable from the drive unit, the guide member is connected to the drive unit after the tongue plate is locked to the buckle device, for example, similarly to the conventional seat belt device. By locking, the occupant can easily wear the webbing. After the movement is suppressed by the collision, the occupant can be separated from the seat by releasing the locked state of the tongue plate and the buckle device, and the locking state of the guide member and the driving means.
[0030]
BEST MODE FOR CARRYING OUT THE INVENTION
A seat belt device 10 according to an embodiment of the present invention will be described with reference to FIGS.
[0031]
FIG. 1 is a perspective view showing an entire configuration of a seat belt device 10 applied to a driver seat (front seat) of a vehicle S as an example. As shown in this figure, the seat belt device 10 includes a webbing 12 for restraining an occupant. The webbing 12 is formed in a long strip shape, and one end of the webbing 12 is locked to a winding shaft (not shown) of a retractor 14 as a winding device.
[0032]
The retractor 14 is fixedly arranged near the lower end of the center pillar 16 of the vehicle S, and the winding shaft is constantly urged in the winding rotation direction of the webbing 12 by the urging force of a spring (not shown). As a result, the webbing 12 is usually partially wound around the spool, and is freely retractable and retractable with respect to the retractor 14. Although not shown, the retractor 14 includes an ALR mechanism that prevents the webbing 12 from being pulled out by a predetermined amount or more, an ELR mechanism that prevents the webbing 12 from being pulled out when a sudden deceleration (collision, etc.) of the vehicle S is detected, And a pretensioner mechanism for forcibly rotating the spool in the winding direction when the vehicle S collides and winding the webbing 12.
[0033]
The webbing 12 has an intermediate portion wound around a shoulder anchor 18 disposed on the upper portion of the center pillar 16 and folded back, and has another end fixed to a fixed anchor 20 fixed near the lower end of the center pillar 16. Fixedly held. A tongue plate 22 is provided at an intermediate portion of the webbing 12 between the shoulder anchor 18 and the fixed anchor 20 with the webbing 12 inserted. When the occupant does not wear the webbing 12, the tongue plate 22 is positioned near the shoulder anchor 18 by the webbing 12 being wound by the retractor 14, so that the occupant does not hinder the getting on and off. .
[0034]
On the other hand, a buckle device 26 is provided on the side opposite to the fixed anchor 20 (retractor 14) with respect to the seat 24 as a seat. The buckle device 26 is fixed to a seat 24 or a vehicle body (a vehicle body of the vehicle S, the same applies hereinafter) via a stay 28. The buckle device 26 can be locked by inserting the tongue plate 22 therein, and can release the locked state of the tongue plate 22 by pressing a lock release button (not shown). ing.
[0035]
Thus, when the occupant seated on the seat 24 mounts the webbing 12, the webbing 12 is pulled out of the retractor 14 while pulling the tongue plate 22 against the urging force acting on the winding shaft, and the tongue plate 22 is buckled. This is a configuration for locking to the device 26.
[0036]
In this state, the shoulder belt portion 12A, which is a portion from the shoulder anchor 18 (retractor 14) to the tongue plate 22 in the webbing 12, is obliquely stretched over the upper body of the occupant and restrains the tongue. A waist belt portion 12B, which is a portion from the plate 22 to the fixed anchor 20, is hung over the occupant's waist and restrains it (see FIG. 5). That is, the seat belt device 10 is a three-point seat belt device.
[0037]
The seat belt device 10 includes a belt guide mechanism 30 serving as a shoulder belt path changing unit, and the belt guide mechanism 30 includes a guide member 32. The guide member 32 is configured substantially in the same manner as the tongue plate 22, and the webbing 12 is inserted into a portion of the webbing 12 between the shoulder anchor 18 and the tongue plate 22 (the portion forming the shoulder belt portion 12 </ b> A). Attached to. Thereby, the guide member 32 can slide (move while sliding) on the shoulder belt portion 12A along the longitudinal direction of the webbing 12, in other words, the relative position on the shoulder belt portion 12A can be freely changed. Configuration.
[0038]
Further, the belt guide mechanism 30 includes a guide anchor 34 capable of engaging and disengaging the guide member 32. The guide anchor 34 has substantially the same configuration as the buckle device 26, is disposed adjacent to the buckle device 26, and is coupled to the buckle device 26 by a coupling member (not shown). Thereby, the guide anchor 34 is fixed to the vehicle body or the seat 24 via the coupling member and the buckle device 26 (stay 28), and the guide member 32 is locked with the occupant wearing the webbing 12. Has become. The connecting member is designed to break when an external force equal to or more than a predetermined value acts.
[0039]
Further, one end of a winding belt 36 is connected to the guide anchor 34, and the other end of the winding belt 36 is locked by a driving device 38. The drive device 38 is configured to be able to take up the take-up belt 36 by being rotated by a driving force of, for example, a motor. The driving device 38 is disposed in the seat back portion 24A of the seat 24, and the winding belt 36 is inserted into the slit 24B opened in the side portion (side surface on the buckle device 26 side) of the seat back portion 24A and guided. The anchor 34 and the driving device 38 are connected.
[0040]
Thus, in the belt guide mechanism 30, when the driving device 38 is operated and the winding belt 36 is wound, the connecting member is broken and the guide member 32 is moved together with the guide anchor 34 toward the seat back portion 24A. . Since the webbing 12 is inserted through the guide member 32, when the guide member 32 moves toward the seatback portion 24A (substantially obliquely rearward of the buckle device 26 on the rear side of the occupant), it is wound around the body surface of the occupant. In this configuration, the route of the shoulder belt portion 12A is changed (the number of route points is increased so as to pass through the side surface of the occupant).
[0041]
In addition, the guide anchor 34, the winding belt 36, and the driving device 38 described above correspond to "driving means" in the present invention.
[0042]
Although not shown, the seatbelt device 10 is also provided on the passenger seat of the vehicle S. The seatbelt device 10 for the front passenger seat is different from the seatbelt device 10 for the driver seat in the width direction of the vehicle S. (Left and right direction).
[0043]
The driving device 38 of the belt guide mechanism 30 constituting each seat belt device 10 described above is electrically connected to a control device 40 as control means. The control device 40 includes a collision detection unit 42 that detects a collision of the vehicle S, and an output device 44 that is electrically connected to the collision detection unit 42 and each driving device 38. When the collision detection unit 42 detects the collision of the vehicle S and outputs the detection signal Sd, the output device 44 converts the detection signal Sd into an electric signal and outputs the electric signal to the driving device 38. The driving device 38 is activated by an electric signal from the output device 44. Hereinafter, a specific description will be given.
[0044]
As shown in FIG. 2, the collision detection unit 42 includes four acceleration sensors 46A, 46B, 46C, 46D disposed on the front, rear, left, and right sides of the vehicle S, respectively, and a calculation determination device 48. .
[0045]
The acceleration sensors 46A and 46B are substantially symmetrical about the center of gravity CG on a virtual straight line CL1 that passes through the center of gravity CG of the vehicle S and coincides with the traveling direction of the vehicle S (the arrow X direction shown in FIG. 2). It is attached to the vehicle S at a separated position. On the other hand, the acceleration sensors 46C and 46D are positioned on the virtual straight line CL2 passing through the center of gravity CG and orthogonal to the virtual straight line CL1 (coinciding with the direction of the arrow Y) at positions substantially symmetrical with respect to the center of gravity CG. It is attached to S.
[0046]
Each of the acceleration sensors 46A, 46B, 46C, 46D is configured to always detect the acceleration acting on the vehicle S in the arrow X direction and the arrow Y direction. FIG. 3 is an example of an acceleration detection result obtained by each of the acceleration sensors 46A, 46B, 46C, and 46D, and shows a time change of each acceleration when the vehicle S collides (collides) in the arrow A direction. 3A is a detection result of the acceleration sensor 46A, FIG. 3B is a detection result of the acceleration sensor 46B, FIG. 3C is a detection result of the acceleration sensor 46C, and FIG. , And the solid line in each figure indicates the acceleration X-direction component Gx, and the broken line indicates the arrow Y-direction component Gy.
[0047]
These acceleration sensors 46A, 46B, 46C, 46D are electrically connected to a calculation / judgment device 48 arranged at an appropriate position of the vehicle S, and output each detection result to the calculation / judgment device 48. is there. Based on the detection results of the acceleration sensors 46A, 46B, 46C, and 46D, the calculation determination device 48 inputs the magnitude of the impact force acting on the vehicle S and the input angle of the impact force that is the impact direction (or the driver's seat and the passenger's seat). The movement direction of the occupant sitting on the vehicle is estimated by calculation.
[0048]
When the estimated impact force (acceleration) is larger than a set value set as a value corresponding to the collision, the calculation determination device 48 determines the estimation result and the occupant position information (driver's seat or passenger's seat). , A detection signal Sd corresponding to each occupant sitting in the driver's seat and the passenger's seat is calculated (selected) and output to the output device 44. In the present embodiment, the magnitude of the impact force and the impact direction (or the expected movement of each occupant) are determined by using the determination map 50 (see FIG. 4) stored in advance in the arithmetic and determination unit 48. The direction is selected from L1 to L5 (L1 <L2... <L5).
[0049]
That is, in the arithmetic and judgment unit 48, the value of the selected detection signal Sd increases as the impact force of the collision increases, and the value of the detection signal Sd selected as the impact direction or the moving direction of the occupant approaches the arrow Y direction. It is set to be large. In other words, the determination map 50 is set so that the value of the detection signal Sd increases as the arrow Y-direction component of the impact force acting on the occupant increases, and the arrow Y-direction component of the impact force is equal to or greater than a predetermined value. In such a case, the operation determination device 48 outputs the detection signal Sd.
[0050]
Note that the calculation determination device 48 includes a seating sensor (for example, a load sensor embedded in the seat 24 or a sensor that detects engagement between the tongue plate 22 and the buckle device 26) provided in the driver's seat and the passenger's seat. The detection signal Sd may be output only to the seat (occupant) that is connected and the seating sensor detects the seating. In particular, in a configuration using a load sensor as a seating sensor, by outputting the load of the occupant for each seat to the arithmetic determination device 48, the arithmetic determination device 48 can also estimate the moving force and the moving direction of the occupant. .
[0051]
On the other hand, the output device 44 is configured to convert the detection signal Sd corresponding to each seat into an electric signal and output the electric signal to the drive device 38 of the seat belt device 10 of each seat. As a result, the driving device 38 of each seat belt device 10 is operated to move the guide member 32 by an amount corresponding to the magnitude of the detection signal Sd. That is, the control device 40 operates the drive device 38 such that the larger the detection signal Sd based on the collision (acceleration) detected by the collision detection unit 42, the larger the amount of movement of the guide member 32.
[0052]
Next, the operation of the present embodiment will be described.
[0053]
In the seat belt device 10 having the above configuration, the occupant seated on the seat 24 pulls the tongue plate 22 and pulls out the webbing 12 from the retractor 14 while locking the tongue plate 22 to the buckle device 26 and is coupled to the buckle device 26. The guide member 32 is locked to the guide anchor 34 which is in operation.
[0054]
As a result, as shown in FIG. 5A, the shoulder belt portion 12A from the shoulder anchor 18 of the webbing 12 to the tongue plate 22 (guide member 32) is placed on the occupant (not shown in FIG. 5). The body is restrained, and the waist belt portion 12B of the webbing 12 restrains the waist of the occupant, so that the occupant properly wears the webbing 12. FIG. 6A is a schematic diagram showing this state.
[0055]
In this state, the webbing 12 can be taken up and pulled out from the retractor 14 freely, and there is no hindrance to the driving operation of the vehicle S by the occupant. Further, since the guide member 32 is movable along the longitudinal direction of the shoulder belt portion 12A of the webbing 12, the occupant's physique or the like is locked in the state of being locked by the guide anchor 34 coupled adjacent to the buckle device 26. It is located at the longitudinal position of the shoulder belt portion 12A according to the seat position, so that the occupant is not unnecessarily restrained.
[0056]
When the occupant starts the engine or turns on the accessory switch, the control device 40 is started, and the acceleration sensors 46A, 46B, 46C, 46D of the control device 40 constantly detect and calculate the acceleration acting on the vehicle S. Output to the determination device 48. When the output of each of the acceleration sensors 46A and the like is small, that is, when the acceleration acting on the vehicle S is smaller than the acceleration assumed at the time of the collision, the arithmetic determination device 48 does not output the detection signal Sd.
[0057]
On the other hand, when the impact force estimated by the operation determination device 48 based on the outputs of the acceleration sensors 46A and the like is equal to or larger than the set value, that is, when the vehicle S has (or has been) determined to have collided, the calculation is performed. The determination device 48 calculates a detection signal Sd for each seat according to the estimated impact force and impact direction using the determination map 50, and outputs the detection signal Sd to the output device 44. The output device 44 converts each detection signal Sd into an electric signal and outputs the electric signal to the driving device 38 of each seat belt device 10.
[0058]
Thus, in each seat belt device 10, the driving device 38 is operated, and the winding belt 36 is wound by an amount corresponding to the magnitude of the detection signal Sd corresponding to the seat applied. Then, in each seat belt device 10, the connecting member is broken, and as shown in FIGS. 5 (B), 6 (B) and 6 (C), each guide anchor 34 and the buckle device 26 together with the guide anchor 34. It moves almost upward by an amount corresponding to the magnitude of the detection signal Sd.
[0059]
That is, when the component of the impact force of the collision in the arrow Y direction is small, the guide member 32 is moved small to mainly suppress the forward movement of the occupant by the webbing 12, and the component of the impact force in the arrow Y direction is reduced. When it is large, the guide member 32 is largely moved to mainly suppress the lateral movement of the occupant. FIG. 6B illustrates a process of winding the winding belt 36 by the driving device 38 or a case where the winding amount is small.
[0060]
As described above, in the seatbelt device 10, the shoulder belt portion 12A of the webbing 12 is folded back by the guide member 32 moved to the seatback portion 24A side, in other words, the guide member 32 is moved to a new path of the shoulder belt portion 12A. A point is changed so that the path of the shoulder belt portion 12A on the occupant body surface passes through the occupant body side surface. Therefore, the opening of the shoulder belt portion 12A on the side of the occupant body is narrowed by the area R shown in FIG. 6B or 6C.
[0061]
On the other hand, at this time, in the retractor 14 of the seatbelt device 10, the ELR mechanism or the pretensioner mechanism is activated by the collision of the vehicle S, and at least the webbing 12 is prevented from being pulled out from the retractor 14. For this reason, the guide member 32 is held at a predetermined position (a position corresponding to the amount of winding of the winding belt 36 by the driving device 38) by each tension of the webbing 12 and the winding belt 36, and the above-described state is maintained over the collision period. Keep the opening narrow.
[0062]
The restrained state of the occupant P at this time will be described with reference to FIG. 7. As shown in FIGS. 7A and 7C, the shoulder belt portion 12A is located above one of the shoulders of the occupant P and above the waist. And obliquely extends over the portion, thereby suppressing the movement of the occupant P to the side (to the right in FIG. 7C). On the other hand, in a state where the guide member 32 shown in FIGS. 7B and 7D does not move (a configuration without the belt guide mechanism 30) for comparison, the opening on the body side surface of the occupant P is large. The effect of suppressing the movement of the occupant P to the side is small.
[0063]
As described above, in the seatbelt device 10, when the vehicle S reaches the collision, the opening on the side of the occupant body is narrowed, so that the lateral movement of the occupant is suitably suppressed. FIG. 8 shows the effect of suppressing the movement of the occupant to the side. FIG. 8 is a graph showing the relationship between time and the occupant movement amount. The solid line indicates the occupant movement amount by the seat belt device 10, and the broken line indicates the occupant movement amount by the seat belt device without the belt guide mechanism 30 shown for comparison. Are respectively shown. As is apparent from this figure, in the seatbelt device 10, the movement of the occupant is greatly suppressed as compared with the seatbelt device without the belt guide mechanism 30.
[0064]
Then, in the seat belt device 10, the lateral movement of the occupant is suppressed, and this suppression effect is obtained from the side of the vehicle S (particularly, the side far from the occupant to be protected, which has not been studied in the past). Even in a collision mode in which the occupant moves mainly to the side, such as a side collision, the risk of a collision (secondary collision) with the occupant's vehicle compartment or with a fellow passenger is greatly reduced because of a large collision. .
[0065]
Further, in the seat belt device 10, the belt guide mechanism 30 for suppressing the lateral movement of the occupant is controlled by the control device 40, and when the component in the arrow Y direction of the impact force acting on the vehicle S is equal to or more than a predetermined value. As a result, the lateral movement of the occupant due to a vehicle collision or the like is reliably suppressed. Conversely, in the seatbelt device 10, when the component of the impact force in the direction of the arrow Y is small, the occupant is properly protected as a normal three-point seatbelt device.
[0066]
Further, in the seat belt device 10, the guide member 32 is moved by an amount corresponding to the magnitude of the detection signal Sd output from the control device 40. In other words, the control device 40 controls the guide member 32 according to the type of collision. Since the movement amount is controlled, the movement of the occupant in the forward and side directions can be effectively suppressed, and the occupant protection performance in the event of a vehicle collision is improved. That is, in the seat belt device 10, when the guide member 32 is located near the buckle device 26, the effect of suppressing the occupant from moving forward is high, and the more the guide member 32 moves toward the occupant's seat back portion 24A, the more the opening is. Although the effect of suppressing the lateral movement of the occupant is high, the amount of movement of the guide member 32 is controlled according to the collision mode (the magnitude and direction of the impact force) estimated by the control device 40. It is possible to effectively suppress forward and lateral movement (both forward and lateral movement suppression).
[0067]
Furthermore, in the seat belt device 10, since the guide member 32 is disengageable from the guide anchor 34, the guide member 32 is located near the shoulder anchor 18 together with the tongue plate 22 when the occupant gets on and off the vehicle S. Let it be. Therefore, the provision of the belt guide mechanism 30 does not hinder the occupant's getting on and off.
[0068]
In the seat belt device 10, the occupant can easily wear the webbing 12 by locking the tongue plate 22 to the buckle device 26 and locking the guide member 32 to the guide anchor 34. In addition, the tongue plate 22 and the guide member 32 can be locked to the buckle device 26 and the guide anchor 34 by one operation by connecting the tongue plate 22 and the guide member 32 with a joint member that can be broken by an external force of a predetermined value or more. It can also be set as a structure. Further, in the seat belt device 10, after the restraint of the movement of the occupant due to the collision, the locking state of the tongue plate 22 and the buckle device 26 and the locking state of the guide member 32 and the guide anchor 34 are released, so that the occupant can move from the seat 24. You can leave.
[0069]
Next, a belt guide mechanism 60 according to a modification will be described with reference to FIGS. 9A and 9B. Note that components and portions that are basically the same as those in the above embodiment are denoted by the same reference numerals as in the above embodiment, and description thereof is omitted.
[0070]
As shown in FIG. 9A, the belt guide mechanism 60 includes a cover 62, and a portion of the belt guide mechanism 60 excluding the guide member 32 is stored in the cover 62. The cover 62 is arranged adjacent to the side surface of the seat 24 on the buckle device 26 side, and is fixed to the vehicle S. Inside the cover 62, as shown in FIG. 9B, a drive motor 64, a drive arm 66 connected to the drive motor 64 and rotating in the direction of arrow B when the drive motor operates, a drive arm 66 And a guide anchor 68 that is swingably connected in the direction of arrow C at the end of the guide. In this modification, for example, the drive motor 64, the drive arm 66, and the guide anchor 68 constituting the drive means for the passenger seat may be provided together in the cover 62.
[0071]
The guide anchor 68 is capable of engaging and disengaging the guide member 32, similarly to the guide anchor 34. The control device 40 is electrically connected to the drive motor 64. In the belt guide mechanism 60, the guide anchor 68 is usually arranged near the buckle device 26, and when an electric signal based on the detection signal Sd is input from the control device 40 to the drive motor 64, the drive motor 64 Operates to rotate the drive arm 66 by a rotation angle corresponding to the magnitude of the detection signal Sd.
[0072]
That is, in the belt guide mechanism 60, the drive motor 64 is operated by the control device 40 at the time of a vehicle collision, and the guide member 32 locked by the guide anchor 68 is moved toward the seat back portion 24 </ b> A (substantially upward and rearward with respect to the buckle device 26). It is designed to be moved. In this modification, the drive motor 64, the drive arm 66, and the guide anchor 68 correspond to “drive means” in the present invention.
[0073]
As described above, according to the seat belt device 10 including the belt guide mechanism 60 according to the present modified example, the path of the shoulder belt portion 12A of the webbing 12 is changed so as to pass through the body side of the occupant, and the opening on the occupant body side. Can be narrowed, and the same effect as in the above embodiment can be obtained. Further, the occupant can be suppressed from moving laterally by the cover 62. For this reason, a soft pad 70 is provided at a position in the cover 62 that contacts the side surface of the occupant's buttocks, so as to protect the occupant.
[0074]
In the above-described embodiment and the modified example, the configuration in which the seat belt device 10 is applied to the front seat of the vehicle S is illustrated. However, the present invention is not limited to this, and the seat belt device 10 may be replaced with the front seat. Needless to say, the present invention may be applied to the rear seat of the vehicle S together with the front seat or the front seat. When the seatbelt device 10 is applied to a plurality of seats, the calculation determination device 48 of the control device 40 determines each seat (according to each seat) based on the impact force and impact direction acting on the vehicle. It is desirable to output the detection signal Sd.
[0075]
Further, in the above-described embodiment and the modified example, the seat belt device 10 is configured to include the webbing 12 formed in a belt shape. However, the present invention is not limited to this. Instead of the air belt 12, an air belt that expands due to gas injection or the like at the time of collision may be provided. In particular, in the configuration including the air belt in which the portion located on the side surface of the occupant is inflated, the opening on the side surface of the occupant can be further narrowed, and the effect of suppressing the occupant from moving laterally is improved.
[0076]
Furthermore, in the above-described embodiment, the seat belt device 10 is preferably controlled by the control device 40, but the present invention is not limited by the control means or the control method. Therefore, for example, the movement amount of the guide member 32 of the seat belt device 10 may be constant, and may be controlled in conjunction with another occupant protection device such as a side airbag device.
[0077]
【The invention's effect】
As described above, the seatbelt device according to the present invention has an excellent effect that the occupant can be prevented from moving laterally due to a vehicle collision or the like.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an overall configuration of a seat belt device according to an embodiment of the present invention.
FIG. 2 is a plan view showing an arrangement of an acceleration sensor included in a control device for controlling the seat belt device according to the embodiment of the present invention on a vehicle.
FIG. 3 is a diagram illustrating an example of an acceleration detection result at the time of a collision by an acceleration sensor included in a control device for controlling the seat belt device according to the embodiment of the present invention; (B) is a detection result by the acceleration sensor at the rear of the vehicle, (C) is a detection result by the acceleration sensor at the left side of the vehicle, and (D) is a detection result by the acceleration sensor at the right side of the vehicle. .
FIG. 4 is a determination map for calculating a detection signal stored in a control device for controlling the seat belt device according to the embodiment of the present invention.
5A and 5B are views showing the seat belt device according to the embodiment of the present invention, wherein FIG. 5A is a perspective view showing a normal webbing wearing state, and FIG. 5B is a perspective view showing an operating state of a belt guide mechanism. It is.
6A and 6B are diagrams showing a seat belt device according to an embodiment of the present invention, wherein FIG. 6A is a schematic diagram showing a normal webbing wearing state, and FIG. 6B is a schematic diagram showing an operation process of a belt guide mechanism. (C) is a schematic diagram showing the operation completion state of the belt guide mechanism.
FIGS. 7A and 7B are diagrams showing an occupant restraint state at the time of a collision by the seat belt device according to the embodiment of the present invention, wherein FIG. 7A is a side view when a belt guide mechanism is operated, and FIG. FIG. 7C is a side view when the mechanism is not operated, FIG. 10C is a front view when the belt guide mechanism is operated, and FIG. 10D is a front view when the belt guide mechanism is not operated.
FIG. 8 is a diagram showing an effect of suppressing movement of an occupant at the time of a collision by the seat belt device according to the embodiment of the present invention.
FIGS. 9A and 9B are views showing a modification of the belt guide mechanism constituting the seat belt device according to the embodiment of the present invention, wherein FIG. 9A is a front view and FIG. 9B is a side view.
10A and 10B are views showing the lumbar support means applied together with the conventional seat belt device, wherein FIG. 10A is a perspective view showing a stored state of the lumbar support means, and FIG. FIG.
11A and 11B are views showing a conventional inflatable seatbelt device, wherein FIG. 11A is a front view showing an inflated state of a gas pressure inflatable seat belt at the time of a side collision, and FIG. It is a front view showing the inflated state of a type seat belt.
FIG. 12 is a view showing a gas-pressure inflatable seat belt applied to a conventional seat belt device, wherein (A) is a front view showing a normal occupant restraint state, and (B) is an occupant restraint in a side collision; It is a front view showing a state.
FIG. 13 is a plan view showing a moving direction of an occupant during a side collision of a vehicle.
[Explanation of symbols]
10 Seat belt device
12 Webbing
14 Retractor (winding device)
22 Tongue plate
24 seats (seats)
26 Buckle device
32 Guide member
34 Guide anchor (drive means)
36 Winding belt (drive means)
38 Driving device (driving means)
40 control device (control means)
46A, 46B, 46C, 46D acceleration sensor (detection means)
48 Calculation device (control means)
P crew
S vehicle

Claims (4)

A tongue plate in which one end of the webbing is freely locked by being taken up and pulled out by the winding device, and the other end is fixed to the vehicle body on the same side of the seat as the winding device, and an intermediate portion of the webbing is inserted therethrough. Is locked to a buckle device located on the opposite side to the winding device with respect to the seat, and the one end side of the webbing relative to the tongue plate restrains an upper body of an occupant seated on the seat. Together with the other end side is a seat belt device for restraining the occupant's waist,
A guide member movably attached along the longitudinal direction of the webbing, between the winding device and the tongue plate in the webbing,
The seat is connected to the guide member on the same side as the buckle device, and in a restrained state of the occupant, usually the guide member is located near the buckle device, and in a predetermined case, the guide member is connected to the occupant. Drive means for moving the back side of the
A seat belt device comprising: The driving means,
Estimating the impact force and impact direction acting on the vehicle body based on the detection result of the detection means for detecting the collision of the vehicle body, and outputting a detection signal when the magnitude of the component in the vehicle width direction of the impact force is equal to or greater than a predetermined value. Electrically connected to the control means,
Activate to move the guide member when the detection signal is input,
The seat belt device according to claim 1, wherein: The said drive means moves the said guide member by the quantity according to the signal value of the said detection signal which is output according to the magnitude | size of the vehicle width direction component of the said impact force by the said control means. 3. The seat belt device according to 2. 4. The seat belt device according to claim 1, wherein the guide member is detachable from the driving unit. 5.

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