A saddle riding vehicle airbag device can be disposed compactly and the airbag can be deployed vertically upward. In the saddle riding vehicle airbag device provided with a retainer that is provided in front of a seat for a rider, an inflator and an airbag that is housed in the retainer, is inflated by means of a gas discharged from the inflator and is deployed in front of the rider, in which the retainer is provided with an L-shaped airbag passage that causes the airbag to deploy upward in a left-right direction, and, in a deployed state, the airbag is formed bilaterally asymmetrical with respect to a left-right center line of the airbag.

To be able to compactly dispose an airbag device for a saddle-type vehicle provided with an airbag deployable upward. An airbag device for a saddle-type vehicle includes: an inflator; an airbag adapted to be expanded by gas discharged from the inflator; and a retainer accommodating the airbag. The airbag is deployed upward from an opening of the retainer. The retainer is disposed in front of a head pipe adapted to support a handle for steering. A wind screen is disposed above the retainer. The wind screen openably and closably covers the opening of the retainer.

To be able to compactly dispose an airbag device for a saddle-type vehicle provided with an airbag deployable upward. An airbag device for a saddle-type vehicle includes: an inflator; an airbag adapted to be expanded by gas discharged from the inflator; and a retainer accommodating the airbag. The airbag is deployed upward from an opening of the retainer. The retainer is disposed in front of a head pipe adapted to support a handle for steering. A wind screen is disposed above the retainer. The wind screen openably and closably covers the opening of the retainer.

A saddle-ride type vehicle includes a retainer that is provided behind a head pipe; an inflator; and an airbag that is housed in the retainer, inflates by gas discharged by the inflator, and is deployed in front of an occupant. The airbag is housed in the retainer in a state of being folded bilaterally asymmetrically with respect to a horizontally central portion of the airbag in a cross section in a vehicle top view.

A saddle-ride type vehicle includes a retainer that is provided behind a head pipe; an inflator; and an airbag that is housed in the retainer, inflates by gas discharged by the inflator, and is deployed in front of an occupant. The airbag is housed in the retainer in a state of being folded bilaterally asymmetrically with respect to a horizontally central portion of the airbag in a cross section in a vehicle top view.

This disclosure relates to a system and method for an inflatable motorcycle outfit. The system comprises an inflatable trouser, an inflatable jacket, a pair of inflatable boots, one or more inflatable canopies. The system is flat when worn by the rider, resembling ordinary clothing and inflates in the event of a motorcycle accident. The system reduces the speed of a rider when the inflatable canopies are deployed by inflation, thus reducing the overall impact force the rider is facing in an accident situation. The system offers impact reducing protection for the rider by having a barrier of inflatable air tunnel structures inside or outside the outfit that absorbs impact energy in an accident situation when inflated. The air tunnel shells and the outfit are made from material with abrasion resistant, heat resistant, and/or stretchable properties.

To be able to compactly dispose an airbag device for a riding type vehicle provided with an airbag deployable upward. An airbag device for a riding type vehicle that is compactly disposed and can be deployed upward, includes: an inflator; an airbag adapted to be expanded by gas discharged from the inflator; and a retainer accommodating the airbag. The airbag is deployed upward from an opening of the retainer. The retainer is provided below a meter provided in front of a handle for steering.

To be able to compactly dispose an airbag device for a riding type vehicle provided with an airbag deployable upward. An airbag device for a riding type vehicle that is compactly disposed and can be deployed upward, includes: an inflator; an airbag adapted to be expanded by gas discharged from the inflator; and a retainer accommodating the airbag. The airbag is deployed upward from an opening of the retainer. The retainer is provided below a meter provided in front of a handle for steering.

The disclosure relates to a supporting and securing device that is fixed to a scooter-like vehicle or similar by means of a gripping mechanism to secure and grip a user of the vehicle. The device includes a mechanism configured to roll up and lock a belt that surrounds the user, securing and supporting him or her and surrounding a part of his or her back. The mechanism automatically adjusts to the user's position and includes a pressing assembly that allows the length of the unwound belt to be fixed, and a coupling element that connects to a main case. The disclosure also relates to the vehicle including the described device. The disclosure falls within the technical field of parts of vehicles, more specifically vehicle safety belts or harnesses or ease of use while driving.

This saddle-type vehicle includes an occupant protection device (21), a plurality of acceleration sensors (S1 and S2) which detect translational acceleration in a forward and backward direction acting on a vehicle, and a control device (25) which controls an operation of the occupant protection device (21) on the basis of detection values of the acceleration sensors (S1 and S2). The plurality of acceleration sensors (S1 and S2) include a first acceleration sensor (S1) and a second acceleration sensor (S2). The first acceleration sensor (S1) is disposed above a center of gravity (G) of the vehicle. The second acceleration sensor (S2) is disposed below the center of gravity (G). The control device (25) averages a detection value (de1) detected by the first acceleration sensor (S1) and a detection value (de2) detected by the second acceleration sensor (S2) and controls an operation of the occupant protection device (21) on the basis of the averaged value.