A mounting assembly for an automotive radiator, a vehicle including such a mounting and a method of mitigating an impact between a vehicle and a pedestrian. The assembly includes a radiator support and one or more brackets. Each bracket is made up of a first end portion that is secured to the radiator support and a second end portion extending forward of the radiator support such that it can be attached to a load-bearing structure within a vehicle. The brackets each include at least one enhanced collapsible zone in order to promote energy absorption relative to energy transmission in situations where a vehicle experiences a front-end impact with a pedestrian or other object. In this way, the added energy absorption by the brackets reduces the amount of impact energy being transmitted to more rigid vehicular structures such as the radiator and its support; this increase in impact energy absorption in turn results in less energy being delivered to the pedestrian.

A mounting assembly for an automotive radiator, a vehicle including such a mounting and a method of mitigating an impact between a vehicle and a pedestrian. The assembly includes a radiator support and one or more brackets. Each bracket is made up of a first end portion that is secured to the radiator support and a second end portion extending forward of the radiator support such that it can be attached to a load-bearing structure within a vehicle. The brackets each include at least one enhanced collapsible zone in order to promote energy absorption relative to energy transmission in situations where a vehicle experiences a front-end impact with a pedestrian or other object. In this way, the added energy absorption by the brackets reduces the amount of impact energy being transmitted to more rigid vehicular structures such as the radiator and its support; this increase in impact energy absorption in turn results in less energy being delivered to the pedestrian.

A front bumper includes a bumper fascia, an upper panel, and a shock absorbing member and a rigidity member in the interior of the upper panel. The shock absorbing member is formed in a hat shape in cross section by a front wall, an upper wall (a front-side upper wall and a rear-side upper wall), a rear wall, and a lower wall. The rigidity member includes an upper end portion fixed to the upper wall, a lower end portion fixed to the lower wall, and an intermediate portion connecting the upper end portion and the lower end portion in the vehicle up-down direction. The intermediate portion is spaced apart from the rear wall in the vehicle front-rear direction.

A front bumper includes a bumper fascia, an upper panel, and a shock absorbing member and a rigidity member in the interior of the upper panel. The shock absorbing member is formed in a hat shape in cross section by a front wall, an upper wall (a front-side upper wall and a rear-side upper wall), a rear wall, and a lower wall. The rigidity member includes an upper end portion fixed to the upper wall, a lower end portion fixed to the lower wall, and an intermediate portion connecting the upper end portion and the lower end portion in the vehicle up-down direction. The intermediate portion is spaced apart from the rear wall in the vehicle front-rear direction.

The invention relates to protection devices providing operational safety for vehicles, mainly of agricultural purpose. The technical result consists of enhancing the efficiency of safety device through the improvement of operational reliability in frontal and lateral collisions and simplicity of restoring its structural integrity after collision. The vehicle protection device includes a base, and a barrier located in front of the base and fastened thereto by means of at least two struts having one end attached to the barrier and the other end to the base. Each of the struts is made of at least two separate rod-shaped elements featuring holes along their longitudinal axes, and containing detachable joints at their ends; said elements are configured to enable them to stay connected with each other by means of a flexible element passing through the holes of all rod-shaped elements of the struts. The struts are also configured to make their mutual disconnection possible under axial or lateral load. Moreover, said flexible element is configured to interact with a base-mounted mechanism for activating the sensor of the vehicle stopping system.

The invention relates to protection devices providing operational safety for vehicles, mainly of agricultural purpose. The technical result consists of enhancing the efficiency of safety device through the improvement of operational reliability in frontal and lateral collisions and simplicity of restoring its structural integrity after collision. The vehicle protection device includes a base, and a barrier located in front of the base and fastened thereto by means of at least two struts having one end attached to the barrier and the other end to the base. Each of the struts is made of at least two separate rod-shaped elements featuring holes along their longitudinal axes, and containing detachable joints at their ends; said elements are configured to enable them to stay connected with each other by means of a flexible element passing through the holes of all rod-shaped elements of the struts. The struts are also configured to make their mutual disconnection possible under axial or lateral load. Moreover, said flexible element is configured to interact with a base-mounted mechanism for activating the sensor of the vehicle stopping system.

In some embodiments, an energy absorber element can comprise: a first support wall and a second support wall, a crush wall joining the first and second support walls together to define a deformable zone; a connection mechanism configured to connect the first and/or second support wall to a vehicle. In one embodiment, a method for using an energy absorber element in a vehicle can comprise: detachably connecting an energy absorber element to a vehicle at a support location for a vehicle component, once the energy absorber element has absorbed energy, detaching the energy absorber element from the vehicle; and separately replacing the energy absorber element from the vehicle component. In some embodiments, the vehicle component is not replaced.

In some embodiments, an energy absorber element can comprise: a first support wall and a second support wall, a crush wall joining the first and second support walls together to define a deformable zone; a connection mechanism configured to connect the first and/or second support wall to a vehicle. In one embodiment, a method for using an energy absorber element in a vehicle can comprise: detachably connecting an energy absorber element to a vehicle at a support location for a vehicle component, once the energy absorber element has absorbed energy, detaching the energy absorber element from the vehicle; and separately replacing the energy absorber element from the vehicle component. In some embodiments, the vehicle component is not replaced.

An airbag device for pedestrian protection includes means for shrinking and tying an airbag after deployment toward the storage. The airbag device includes a protecting sheet that is folded together with the airbag and stored in the storage, and a wrapping sheet that wraps the airbag as folded. The protecting sheet includes a main body and a plurality of straps disposed in a periphery of the main body. The wrapping sheet includes a rupturable portion that is configured to rupture and split the wrapping sheet into a front portion and a rear portion at airbag deployment, and a plurality of through holes each for receiving the straps in a vicinity of the rupturable portion in the front portion. The deployed airbag is shrank and tied toward the storage by passing the straps through the through holes and tying them so the straps do not come off of the through holes.

An airbag device for pedestrian protection includes means for shrinking and tying an airbag after deployment toward the storage. The airbag device includes a protecting sheet that is folded together with the airbag and stored in the storage, and a wrapping sheet that wraps the airbag as folded. The protecting sheet includes a main body and a plurality of straps disposed in a periphery of the main body. The wrapping sheet includes a rupturable portion that is configured to rupture and split the wrapping sheet into a front portion and a rear portion at airbag deployment, and a plurality of through holes each for receiving the straps in a vicinity of the rupturable portion in the front portion. The deployed airbag is shrank and tied toward the storage by passing the straps through the through holes and tying them so the straps do not come off of the through holes.