A luggage board device for a vehicle is configured to adjust a height of a partition board, which is composed of a front board, an intermediate board, and a rear board, through movements of the partition board in a vertical direction, in a state in which the partition board is horizontally unfolded, be utilized as a multi-stage shelf like a step shape by rotating the front board and the rear board up and down with the intermediate board as a reference, and be utilized as a table in indoor and outdoor spaces of a luggage room.

A luggage board device for a vehicle is configured to adjust a height of a partition board, which is composed of a front board, an intermediate board, and a rear board, through movements of the partition board in a vertical direction, in a state in which the partition board is horizontally unfolded, be utilized as a multi-stage shelf like a step shape by rotating the front board and the rear board up and down with the intermediate board as a reference, and be utilized as a table in indoor and outdoor spaces of a luggage room.

Provided is a structure that makes it possible to reduce the number of components. The present invention provides a structure including a resin-molded body and a torsion spring. The resin-molded body includes a front wall and a rear wall spaced apart from each other and a peripheral wall connecting peripheries of the front wall and the rear wall. The resin-molded body includes first and second plate-shaped portions and a hinge portion. The first and second plate-shaped portions are rotatably coupled to each other with the hinge portion. The hinge portion is formed by making the rear wall concave toward the front wall to form a hinge concave portion and welding the rear wall to the front wall. The torsion spring includes first and second arms and a coil portion provided therebetween. The first arm is slidably supported by the first plate-shaped portion. The second arm is supported by the second plate-shaped portion. The number of a fixation tool inserted into the first plate-shaped portion to support the first arm is one or less.

Provided is a structure that makes it possible to reduce the number of components. The present invention provides a structure including a resin-molded body and a torsion spring. The resin-molded body includes a front wall and a rear wall spaced apart from each other and a peripheral wall connecting peripheries of the front wall and the rear wall. The resin-molded body includes first and second plate-shaped portions and a hinge portion. The first and second plate-shaped portions are rotatably coupled to each other with the hinge portion. The hinge portion is formed by making the rear wall concave toward the front wall to form a hinge concave portion and welding the rear wall to the front wall. The torsion spring includes first and second arms and a coil portion provided therebetween. The first arm is slidably supported by the first plate-shaped portion. The second arm is supported by the second plate-shaped portion. The number of a fixation tool inserted into the first plate-shaped portion to support the first arm is one or less.

An automobile having a cargo space, a rear door opening for accessing the cargo space and a door pillar which delimits the rear door opening. The vehicle has a rack which in a stowed state is arranged entirely in the cargo space and is at least partially concealed by the door pillar as viewed from outside the automobile in the direction of the vehicle longitudinal axis of the automobile, and in a deployed state is arranged at least partially outside the cargo space. The vehicle has a transfer mechanism to transfer the rack between the stowed state and the deployed state via the rear door opening, wherein the transfer mechanism is configured such that, during a transfer of the rack from the stowed state into the deployed state, the rack moves inward in the direction of the vehicle transverse axis of the automobile.

A motor vehicle is disclosed having a flexible cover that is multi-functional in nature and can be configured as a cover for a rear luggage compartment of the motor vehicle as a small item carrier, as an extendible weather protector and as a roof protector for the motor vehicle.

This utility model relates to a vehicle-mounted storage box, which could be a new product in the field of auto parts. The vehicle-mounted storage box includes boxes, which are provided with push-pull drawers. Both sides of the drawer are provided with a sliding mechanism that is used to slide the drawer. The mechanism comprises guide pulley seats, guide pulleys, and a guide track. The guide pulleys are installed on the guide pulley seats and are rotatable. The guide track is located at one side of the drawer. The guide pulley seats are fixed in the box at the positions corresponding to the location of the guide track. The guide pulleys are embedded in the guide track and can roll on the guide track. There is a ringed groove carved at the outer edge of the guide pulley, and there are raised lines on the guide track, which can be set in the ringed groove. The shape of the ringed groove is well matched with that of the raised line. The storage box is provided with push-pull drawers, so that users can use the storage box directly without having to remove the articles on it and lift its top covers, and thus save a lot of time and labor. Meanwhile, the raised line structure at the contact area between the guide track and guide pulleys in the sliding mechanisms on both sides of the drawer enables the drawer to carry relatively heavy objects.

This utility model relates to a vehicle-mounted storage box, which could be a new product in the field of auto parts. The vehicle-mounted storage box includes boxes, which are provided with push-pull drawers. Both sides of the drawer are provided with a sliding mechanism that is used to slide the drawer. The mechanism comprises guide pulley seats, guide pulleys, and a guide track. The guide pulleys are installed on the guide pulley seats and are rotatable. The guide track is located at one side of the drawer. The guide pulley seats are fixed in the box at the positions corresponding to the location of the guide track. The guide pulleys are embedded in the guide track and can roll on the guide track. There is a ringed groove carved at the outer edge of the guide pulley, and there are raised lines on the guide track, which can be set in the ringed groove. The shape of the ringed groove is well matched with that of the raised line. The storage box is provided with push-pull drawers, so that users can use the storage box directly without having to remove the articles on it and lift its top covers, and thus save a lot of time and labor. Meanwhile, the raised line structure at the contact area between the guide track and guide pulleys in the sliding mechanisms on both sides of the drawer enables the drawer to carry relatively heavy objects.

This utility model relates to a vehicle-mounted storage box, which could be a new product in the field of auto parts. The vehicle-mounted storage box includes a bottom plate, a top plate, and side plates. The top plate and bottom plate are placed horizontally with a space between them, and connected with the side plates; thus, the inner space of the vehicle-mounted storage box is enclosed by the three kinds of plates. At least one of the bottom plate, top plate, and side plates is a hollow plate made through double-layer blow-molding process. This utility model, namely the vehicle-mounted storage box, adopts hollow plates, which bring lighter weight and higher bearing capability of the storage box while ensuring its structural strength, save material cost, reduce the load of the storage box on cars, and make it more convenient to install and remove the storage box.

This utility model relates to a vehicle-mounted storage box, which could be a new product in the field of auto parts. The vehicle-mounted storage box includes a bottom plate, a top plate, and side plates. The top plate and bottom plate are placed horizontally with a space between them, and connected with the side plates; thus, the inner space of the vehicle-mounted storage box is enclosed by the three kinds of plates. At least one of the bottom plate, top plate, and side plates is a hollow plate made through double-layer blow-molding process. This utility model, namely the vehicle-mounted storage box, adopts hollow plates, which bring lighter weight and higher bearing capability of the storage box while ensuring its structural strength, save material cost, reduce the load of the storage box on cars, and make it more convenient to install and remove the storage box.