Patent application number | Description | Published |
20100090454 | PRETENSIONER - In the pretensioner, a guiding wall is provided in a generator-side passing portion of a gas passing portion, and an inner portion of the generator-side passing portion at a portion where the guard wall is set is located to a base end rather than a tip end of a wire protective cylinder. Further, a gas generator mounting hole and the generator-side passing portion is inclined to be directed the base end of the wire protective cylinder. For this reason, gas that is jetted from a gas generator is blown to the base end of the wire protective cylinder or a surrounding portion thereof. As a result, even though the thickness of the wire protective cylinder is not set to be large, it can be against pressure of the blown gas. | 04-15-2010 |
20110068614 | PRETENSIONER - In the present pretensioner, press contact portions are formed further to a side of an open end of a packing housing section than central portions of opposing faces along a depth direction of the packing housing section. Accordingly, when a packing is being fitted into the packing housing section, no great resistance is imparted to a curved face side of the packing from a press contact wall of a housing section body and the opposing face, and the packing is fitted comparatively smoothly therein. Consequently, even when fitting the packing into the packing housing section, a packing main body is largely resilient-deformed, such that a large collapse in a through hole can be prevented, and the sealing ability of the seal due to deformation of the packing main body can be effectively enhanced. | 03-24-2011 |
20110174910 | WEBBING WINDING DEVICE - It is provided a webbing winding device with good assembly characteristics of components in a second lock unit. In the webbing winding device, due to a leading end of a spring tab of a guide plate interacting with ratchet teeth of an internal ratchet and a second lock base rotating in the pull-out direction in this state, relative rotation occurs between the guide plate and the second lock base, and a second lock pawl is meshed with the ratchet teeth of the internal ratchet. Since this configuration is not a configuration in which relative rotation between the guide plate and a second lock base is induced by bias force of bias means, such as a compression coil spring or the like, there is no bias force received in the rotational circumferential direction when the guide plate and the second lock base are being assembled, resulting in easy assembly. | 07-21-2011 |
20110303780 | WEBBING TAKE-UP DEVICE - A sleeve is fitted in a spool so as to be arranged coaxially with the spool. A fit-insertion hole including plural female splines is formed on a cylindrical inner side of the sleeve coaxially with an axial line of the sleeve. A fit-insertion portion, which is fit-inserted in the fit-insertion hole, of a sub torsion shaft is coaxial with an axial line of the sub torsion shaft and provided with plural male splines formed on an outer peripheral side of the fit-insertion portion. As a result of rotational displacement of the sleeve about the axial line thereof and regulation of rotation of the sub torsion shaft, so an axial center of the fit-insertion portion is made to coincide with an axial center of the fit-insertion hole, a fit-insertion portion side of the sub torsion shaft is fixed by a fixing mechanism with respect to the sleeve. | 12-15-2011 |
20110309178 | WEBBING RETRACTOR - A webbing retractor has a clutch mechanism. The clutch mechanism includes a lock member; a clutch cover; a clutch guide that is positioned between the clutch cover and a spool, the clutch guide being supported in a relatively rotatable manner with respect to the lock member, the clutch guide being capable of relatively rotating between an unactuated position and an actuated position with respect to the clutch cover, the clutch guide being engaged with a trigger member positioned on a side of the spool and being held in the unactuated position; a spring provided in a compressed state between the clutch cover and the clutch guide; a pawl positioned between the clutch cover and the clutch guide, and being engaged with the ring unit; and an axial-direction separation restricting mechanism that restricts axial-direction separation between the clutch cover and the clutch guide while allowing the relative rotation of the clutch cover and the clutch guide with respect to each other. | 12-22-2011 |
20110309179 | WEBBING TAKE-UP DEVICE - The present invention is to suppress a generation of a noise due to repeatedly hitting a clutch plate against a clutch cover and a clutch guide. A webbing take-up device is provided with a clutch cover fixed to a sub-torsion shaft so as to be rotatable integrally therewith; a clutch guide arranged so as to face the clutch cover, and supported capable of relatively rotating to the sub-torsion shaft; a lock ring formed around the clutch cover and the clutch guide; and a clutch plates turned to a lock ring side while being guided by the clutch guide in accordance with relative rotation of the clutch guide to the clutch cover into one rotational direction, and engaged with the lock ring. L-shaped springs which urge the clutch plates to a clutch cover side are formed integrally with the clutch guide. | 12-22-2011 |
20110309181 | WEBBING TAKE-UP DEVICE - A coil spring is provided in a compressed state between a coupling wall section provided at a clutch guide and an inner-side locking section. The clutch guide is provided with a support section which supports one axial-direction end section of the coil spring from a side opposite to the clutch cover in an axial direction of the clutch guide. The clutch cover is provided with a leading-end protruding section which is projected with respect to the inner-side locking section so as to be inserted in the other axial-direction end section of the coil spring. The leading-end protruding section is inclined, with respect to a direction orthogonal to an axial direction of the clutch cover, toward a support section side, so that the coil spring is curved so as to be convex to the support section side. | 12-22-2011 |
20110315805 | WEBBING TAKE-UP DEVICE - A webbing take-up device that is both capable of promoting reductions in size and weight and capable of excellently maintaining coupling strength between a pawl member and a ring portion. A clutch plate and a lock ring of this webbing take-up device are coupled by plural teeth provided at the clutch plate meshing with plural teeth provided at the lock ring. This lock ring is specified to have a lower material strength than the clutch plate. A tooth height H | 12-29-2011 |
20120024404 | GAS FLOW STRUCTURE AND WEBBING TAKE-UP DEVICE - Plural door portions are formed by sectioning the gas blowing section of the gas generator with slits. In a state in which gas has been generated by the gas generator, the plural door portions part at the slits and open towards the outside of the casing body. A gas flow path section is connected to a peripheral wall section configuring an deployment space permitting opening of the door portions. The gas flow path section is provided with an upstream portion which is in communication with the deployment space and formed along a direction orthogonal to the direction of gas blowing from the gas blowing section, and an opening portion provided at the gas inflow side, which is set so as to communicate with a space which is between adjacent door portions when the door portions | 02-02-2012 |
20120025001 | WEBBING TAKE-UP DEVICE - There is provided a webbing take-up device including: a seating portion formed to a cylinder shaped body and facing towards a cylinder shaped body axial direction second side; a bar shaped body housed at the inside of the cylinder shaped body and comprising a protrusion portion protruding out from the bar shaped body towards the cylinder shaped body axial direction second side; a push nut attached by fitting over the protrusion portion; and a washer through which the protrusion portion is inserted, the washer being seated against the seating portion with a face of the washer on the side of the washer away from the seating portion in contact with the push nut, and the rigidity to bending of the washer set higher than the rigidity to bending of the push nut. | 02-02-2012 |
20120032017 | WEBBING TAKE-UP DEVICE - A webbing take-up device comprising a take-up shaft on which webbing is taken up; a movement member that is moved at a specific occasion; a rotation member comprising a coaxially provided rotation shaft support portion and an accommodation portion formed at the periphery of the rotation shaft support portion, the take-up shaft being rotated in the take-up direction by the rotation member meshing with the movement member and being rotated during movement of the movement member; and a shaft bearing member disposed on a rotation shaft support portion side of the rotation member, the shaft bearing member comprising a main body portion, a shaft bearing wall that projects out from the main body portion towards a rotation member side and is accommodated in the accommodation portion, and a shaft bearing hole formed in the main body portion and the shaft bearing wall for supporting the rotation shaft support portion. | 02-09-2012 |
20120032018 | WEBBING TAKE-UP DEVICE - A webbing take-up device capable of smoothly releasing rotation locking while also stabilizing a load support direction during rotation locking. A pawl is equipped with a flat plane shaped load receiving face. The pawl is normally retained in a load receiving position but is rotationally moved when imparted with drive force of a drive mechanism section. The lock ring is equipped with a protrusion portion set with a lower rigidity than the rigidity of the pawl. The lock ring is not capable of rotating by the protrusion portion being supported by the load receiving face of the pawl, and rotation is permitted by moving the load receiving face away from the protrusion portion with rotational movement of the pawl. | 02-09-2012 |
20120160947 | PRETENSIONER - A pretensioner comprising a gas generating unit; a pretensioner body to whose inside the gas is supplied; a spool driving member disposed inside the pretensioner body and causing a spool to rotate to retract webbing onto the spool; a gas flow rate adjusting portion disposed in the spool driving member and whose inner peripheral shape is set in accordance with a flow rate of the gas to be passed through the gas flow rate adjusting portion; and a filter unit having a vent portion that is communicated with a space between the gas generating unit and the spool driving member and is also communicated with the gas flow rate adjusting portion. The open shape of the gas flow rate adjusting portion has a portion that does not coincide in a plan view with the open shape of the vent portion, and the overall open area of the vent portion is set larger than the open area of the gas flow rate adjusting portion. | 06-28-2012 |
20120175451 | WEBBING TAKE-UP DEVICE - A webbing take-up device including: a spool on which a webbing fitted over an occupant is taken up; a restricting member restricting a rotation of the spool in the pullout direction under specific circumstances; a force limiter mechanism permitting the rotation of the spool in the pullout direction when a force limiter load or a higher load is imparted while the restricting member is restricting the rotation of the spool in the pullout direction; a switching member being capable of switching between a disposed position at a first position and a disposed position at second position, and provided between the first position and the second position; and an operation member being capable of being switched between operation and non-operation, whereby the disposed position of the switching member is switched between the first position and the second position and the force limiter load is switched between a high-load and a low-load. | 07-12-2012 |
20120318903 | WEBBING WINDING DEVICE - In a webbing winding device, a sub-torsion shaft is inserted from one side in the axial direction of a spool into the spool when assembling the sub-torsion shaft to the spool. Subsequently, by the sub-torsion shaft rotating in the winding direction, movement of the sub-torsion shaft with respect to the spool in the winding direction and in one side in the axial direction is inhibited. Subsequently, by a stopper being fitted from one side in the axial direction into insertion groove portions, movement of the sub-torsion shaft with respect to the spool in the pull out direction is inhibited. Accordingly, since the direction in which the sub-torsion shaft is assembled to the spool becomes only a direction parallel to the axial direction of the spool, the assembility of the sub-torsion shaft with respect to the spool may be improved. | 12-20-2012 |
20120318904 | WEBBING WINDING DEVICE - In a webbing winding device, even when a piston moves toward the other side in a movement direction due to a reaction when the piston moves to a maximum movement position, an engagement surface of a hook portion comes into contact with a subject engagement surface of a subject engagement portion, so that the movement of the piston toward the other side in the movement direction is restricted. Accordingly, the piston is prevented from returning to a standby position, and a pawl is prevented from returning to a lock position. For this reason, a state where a rotation of a locking ring in the pull-out direction is maintained. Accordingly, after the piston moves from the standby position to the maximum movement position, the piston is prevented from returning to the standby position, and the force limiter load is prevented from being changed. | 12-20-2012 |
20130126656 | WEBBING RETRACTOR - A webbing retractor is provided that can improve balance of load that a torsion shaft receives from a spool. Fit-together projections are formed at a spool side engaging portion of a main torsion member. Further, a load receiving portion is formed at a webbing insert-through hole side at the spool side engaging portion. Rotation radius direction components of rotational forces, that respective inclined surfaces of the fit-together projections receive from respective inclined surfaces of rotation restricting holes, are nullified by a rotation radius direction component of rotational force that the load receiving portion receives from a load imparting portion. Due thereto, balance of load that the main torsion member receives from a spool can be improved. | 05-23-2013 |
20130233958 | WEBBING RETRACTOR - In a webbing retractor, in a state where a second anchored portion of a sub torsion shaft is connected to a frame via a rotation impeding mechanism, when a spool is pulled by excessive tension that is applied to a webbing, there is a tendency for the spool to tilt with respect to a sleeve that is supported at the frame via the rotation impeding mechanism. In this case, a distance between a second energy absorbing portion of the sub torsion shaft and an inner peripheral surface of an insert-through hole changes. A change in the distance becomes large at an opening side of the insert-through hole, but an inner diameter of the insert-through hole is enlarged at the opening side. Due thereto, it can be made such that the second energy absorbing portion does not interfere with the inner peripheral surface of the insert-through hole. | 09-12-2013 |
20130240655 | WEBBING RETRACTOR - In a webbing retractor, a press insertion portion of a sleeve provided to a webbing take-up shaft is press-inserted into a press insertion hole of a clutch base. Ribs are provided to an inner peripheral face of the press insertion hole, thereby enabling rattling between the sleeve and the clutch base to be suppressed. An end face of each rib on the opposite side to the press insertion direction of the press insertion portion is configured with a sloping faces that slopes along the press insertion direction, and so the sloping face makes sliding contact with the press insertion portion when the press insertion portion is being press-inserted into the press insertion hole. Burrs due to the press insertion portion being cut by the ribs can accordingly be prevented or suppressed from generating. | 09-19-2013 |
20130256440 | WEBBING TAKE-UP DEVICE - A webbing take-up device is obtained capable of securing sealing properties to gas generated by actuation of a gas generator. A switching mechanism of a webbing take-up device is equipped with a body, a gas generator, a piston that is actuated on receipt of pressure of gas generated by the gas generator, and a cylinder that internally houses the piston. A sheet and a support plate are attached to the body. Crushable ribs are provided to the sheet. The crushable ribs press the cylinder through a general portion of the sheet by attaching the sheet and the support plate to the body. | 10-03-2013 |
20130256442 | WEBBING TAKE-UP DEVICE - A restriction rotating body is provided at a carrier plate, on the opposite side of a sun gear to a planet gear. When an internal-toothed gear is displaced together with a sensor gear in the rotation radial direction thereof, the internal-toothed gear presses a shaft portion of the restriction rotating body, and further, a gear portion of the restriction rotating body presses the sun gear. Due thereto, the amount of relative displacement of the internal-toothed gear with respect to the sun gear can accordingly be reduced. Moreover, since the restriction rotating body does not mesh with the internal-toothed gear, the restriction rotating body can be easily assembled after assembly of the planet gear. The planet gear can accordingly be easily assembled prior to assembly of the restriction rotating body. | 10-03-2013 |
20130264408 | WEBBING TAKE-UP DEVICE - A webbing take-up device is obtained capable of suppressing generating of extraordinary noise caused by vibration accompanying vehicle travelling. A switching mechanism of a webbing take-up device is equipped with a lock ring and a body that is formed with a recessed portion that houses the lock ring. The switching mechanism is also equipped with a sheet that is attached to the body so as to cover the recessed portion housing the lock ring. Protruding portions are formed at the sheet. The protruding portions make contact with the lock ring housed in the recessed portion of the body. As a result the lock ring is restricted from vibrating inside the recessed portion. | 10-10-2013 |
20140145021 | PRETENSIONER MECHANISM - In a pretensioner mechanism, movement of a piston is anchored by an anchoring pin. The anchoring pin is crushed and the piston is allowed to move. Hence, a pinion is turned by a rack of the piston. A facilitating cavity is formed in the anchoring pin. Crushing and deformation of the anchoring pin in a diametric direction thereof due to a movement of the rack is facilitated by the facilitating cavity. Therefore, the anchoring pin may be easily crushed and deformed in the diametric direction by the movement of the rack, and the action of the anchoring pin caused by the movement of the rack may be effectively made consistent. | 05-29-2014 |
20140239108 | WEBBING TAKE-UP DEVICE - In a webbing take-up device, configuration is made such that in a state in which a restriction wall of a cam gear is positioned at a lateral the side of a pin of a link configuring a switching section, the restriction wall abuts the pin when the link attempts to move. The restriction wall does not actively move the link regardless of the number of revolutions made by the cam gear. Operation noise of the link, a stopper pawl and a slide stopper accordingly does not occur during pull-out and take-up of webbing during normal usage, and a desirable user sensation is achieved in pull-out and take-up of the webbing during normal usage. | 08-28-2014 |
20140263798 | WEBBING TAKE-UP DEVICE - In a webbing take-up device, a structure for interlocking a second lock pawl with a first lock pawl is only a shaft. It also suffices for switching between restricting of rotation of a lock ring and cancelling of the restricting to be carried out merely by moving a piston by gas pressure generated at a gas generator. In this way, by a simple structure, it is possible to switch between a mode, in which torsional deformation is brought about at a sub torsion main body of a sub torsion shaft, and a mode, in which torsional deformation is not brought about at the sub torsion main body of the sub torsion shaft. | 09-18-2014 |