A process of manufacturing a foot mat is disclosed. The process includes providing a mold containing a plurality of first and second cavities, pouring a first solution of predefined colors in the plurality of first cavities of the mold and injection molding of a second solution in the plurality of second cavities of the mold to form a foot mat.

A vehicle includes a frame, a cabin coupled to the frame, and a blast mat. The cabin includes a seat configured to support an occupant and a series of walls at least partially defining a footwell configured to receive a foot of the occupant when the occupant is seated in the seat. The blast mat is positioned within the footwell and configured to absorb energy from an explosion. The blast mat has a top surface and a bottom surface. The cabin defines a longitudinal axis extending parallel to a forward direction of travel of the vehicle and a lateral axis extending perpendicular to the longitudinal axis. At least a portion of the bottom surface of the blast mat engages at least one of the walls. A thickness of the blast mat varies throughout the blast mat.

An automobile vehicle self-cleaning modular floor system includes a self-cleaning modular assembly positioned in a passenger compartment of an automobile vehicle and including a tread portion, the tread portion having a first face and an oppositely directed second face. The first face of the tread portion when upwardly directed defines a first position of the tread portion, with a waste item collecting onto the first face in the first position during operation of the automobile vehicle. The tread portion is selectively moved from the first position to a second position having the first face downwardly directed and the second face upwardly directed. A waste collection tray is positioned below the tread portion to receive the waste item when the tread portion is in the second position.

The present invention discloses a mat connector structure for cars, used to connect two overlapping mats to a connection pole on a car floor. The mat connector structure includes a buckle block, a first connecting unit, at least one second connecting unit, and at least one third connecting unit in relative to the second connecting unit. With the implementation of the present invention, the mat connector structure, being convenient to install or disassemble, is easy to setup or remove the overlapping mats rapidly; adaptive to a variety of cars without being limited by the size or shape of the connection poles on cars; and with the first connecting unit and the second connecting unit being formed in different positions on the buckle block, debris, mud, water drops or other liquid are all contained on the mats without being leaking or dropping out to the car floor. Further, the mat connector structure can be custom designed according to the car type or car model, meeting various kinds of car usage habits or specific image promotion arrangements of the car manufacturer or dealers.

A system and a method for determining an object has been on a vehicle seat of a vehicle are provided. The processing circuitry may determine if passengers of the vehicle have left the vehicle. The processing circuitry may determine if a temperature of a vehicle cabin of the vehicle meets a threshold of temperature. The temperature of the vehicle cabin to a first temperature may be adjusted. A temperature of resistive filaments of the vehicle seat of the vehicle to a second temperature may be adjusted. A thermal image of the vehicle seat with a reference thermal image of the vehicle seat may be compared. The processing circuitry may determine if the object has been left on the vehicle seat.

A configurable cargo support structure. The configurable cargo support structure may include foldable support panels, wherein adjacent foldable support panels may be connected via a foldable joint extending along at least a portion of a length of adjacent foldable support panels, and wherein the foldable support panels may be made of at least one of a rigid or semi-rigid material.

A floor mat arranged in a working machine includes a floor portion, a wall portion arranged on a circumferential portion of the floor portion, and an opening portion arranged on a part of a connecting portion of the wall portion, the connecting portion connecting to the floor portion. The floor mat includes a mat main body arranged on the floor portion, a covering portion configured to cover the opening portion, and an connecting portion configured to connect the covering portion flexibly to a circumferential portion of the mat main body.

A floor mat arranged in a working machine includes a floor portion, a wall portion arranged on a circumferential portion of the floor portion, and an opening portion arranged on a part of a connecting portion of the wall portion, the connecting portion connecting to the floor portion. The floor mat includes a mat main body arranged on the floor portion, a covering portion configured to cover the opening portion, and an connecting portion configured to connect the covering portion flexibly to a circumferential portion of the mat main body.

The subject matter of the invention is a method for producing a three-dimensionally shaped floor panelling, luggage compartment panelling or load floor panelling for motor vehicles, the carpet surface of which has a needled structure on the visible side, as well as the panelling itself.

A method and a vehicle carpeting system includes a floor pan that includes a forward end, an opposing aft end, a first lateral side, a second lateral side, and a floor pan body extending therebetween. An A-pillar is formed along the first lateral side and the second lateral side of the floor pan, a B-pillar is formed along the first lateral side and the second lateral side of the floor pan aft of the A-pillar. A ductway extends along the first lateral side from the A-pillar past the B-pillar. The vehicle carpeting system also includes a carpet structure at least partially covering the floor pan and extending from the first lateral side to the second lateral side. The vehicle carpeting system further includes a door seal that includes a lip that extends over a lateral side of the carpet structure.